FIELD OF THE INVENTION
[0001] The present invention relates to the technical field of air conditioners, in particular
to a mounting structure and an air conditioner.
BACKGROUND OF THE INVENTION
[0002] Electric wires and signal wires are important components of air conditioners, which
are related to the start and stop operation of the air conditioner and the realization
of various control functions. The wires of a conventional air conditioner are placed
in the electric control box in a chaotic manner, and a dedicated work station is required
to manage the wires. Due to the chaos of the wires, the production efficiency of plugging
and closing the cover of the electric control box is very low. And it is easy to cause
jamming, crimping and other phenomena, increasing hidden dangers of quality. Therefore,
integrated terminals for the electric wires emerge.
[0003] In particular, for an air conditioner in which an upper base can be detachably connected
with a lower base, some wires are connected to the detachable bases, but when in assembly,
there is a problem of inaccurate assembly of the terminal, which is easy to break
or bend the pin in the terminal.
SUMMARY OF THE INVENTION
[0004] In view of this, the present invention provides a mounting structure to ensure the
assembly accuracy of a second wiring terminal, to improve the wiring accuracy of the
second wiring terminal, and to avoid breakage and bending of the pin in the second
wiring terminal.
[0005] To achieve the above purpose, the technical solution of the present invention is
implemented as follows.
[0006] A mounting structure applied to a wiring device is provided in the present invention.
The wiring device includes a second wiring terminal, and the second wiring terminal
is mounted to a first base through the mounting structure, wherein the mounting structure
includes a mounting body, a fixing buckle and a positioning member. The mounting body
is connected to the second wiring terminal, and the fixing buckle and one end of the
positioning member are used to be connected to the first base. The fixing buckle passes
through the mounting body and is buckled to the mounting body, and the positioning
member passes through the mounting body.
[0007] Further, a mounting hole and a positioning hole are disposed on the mounting body,
the fixing buckle passes through the mounting hole and is buckled to a side surface
of the mounting body, and the positioning member passes through the positioning hole.
[0008] Further, the mounting body has two bodies. The two mounting bodies are disposed at
two opposite sides of the second wiring terminal, respectively. At least one positioning
hole and at least one positioning hole are respectively disposed on each of the mounting
bodies.
[0009] Further, the fixing buckle includes a plurality of hooks, and one end of each of
the hooks is provided with a third stop surface. The third stop surface is disposed
towards the first base, and the plurality of hooks pass through the mounting body,
such that the third stop surface abuts against the side surface of the mounting body.
The ends of the plurality of hooks away from the third stop surface are used to be
connected to the first base.
[0010] Further, the hook includes an elastic connecting portion and an abut portion, and
one end of the elastic connecting portion is used to be connected to the first base.
The abut portion is connected to the other end of the elastic connecting portion,
and the third stop surface is disposed at one side of the abut portion close to the
elastic connecting portion. One side of the abut portion away from the elastic connecting
portion is an inclined plane.
[0011] Further, a plurality of the elastic connecting portions is arranged along a circumferential
direction, and the plurality of the elastic connecting portions is disposed at intervals.
A plurality of the abut portions are protruded from a side away from each other of
the plurality of the elastic connecting portions, such that the plurality of the third
stop surfaces are respectively located on one side away from each other of the plurality
of the elastic connecting portions.
[0012] Further, the mounting structure includes an elastic member, the elastic member is
wound around the plurality of elastic connecting portions, and the elastic member
abuts between the first base and the mounting body.
[0013] Further, the positioning member includes a plurality of positioning posts, ends of
the plurality of the positioning posts are used to be connected to the first base,
and heights of the plurality of the positioning posts are greater than a height of
the fixing buckle.
[0014] Further, the mounting structure includes a plurality of ribs, the plurality of the
ribs are disposed at intervals on ends of the fixing buckle and the positioning member,
and the plurality of the ribs are used to be connected to the first base.
[0015] Compared with the prior art, the mounting structure of the present invention has
the following advantages:
- (1) The mounting structure of the present invention can accurately position the mounting
body at an appropriate mounting position through a positioning member, and the mounting
body is mounted on the first base through the fixing buckle. Furthermore, the connection
error of the second wiring terminal can be adjusted by the elastic member abutting
between mounting body and the first base, that is, the second wiring terminal can
be accurately mounted on the first base. That is, the second wiring terminal can be
located at an appropriate position, thereby avoiding the problem of breakage and bending
of the pin inside the second wiring terminal.
[0016] Another object of the present invention is to provide an air conditioner, which can
ensure the assembly accuracy of the second wiring terminal, improve the wiring accuracy
of the second wiring terminal, and avoids breakage and bending of the pin in the second
wiring terminal.
[0017] To achieve the above purpose, the technical solution of the present invention is
implemented as follows.
[0018] An air conditioner including a mounting structure is provided. The mounting structure
includes a mounting body, a fixing buckle, an elastic member, and a positioning member.
The mounting body is connected to the second wiring terminal, and the fixing buckle
and one end of the positioning member are used to be connected to the first base.
The fixing buckle passes through the mounting body and is buckled to the mounting
body. The elastic member is disposed near the fixing buckle, and the elastic member
is used to abut between the first base and the mounting body. The positioning member
passes through the mounting body.
[0019] Compared to the prior art, the air conditioner of the present invention has the following
advantages:
The air conditioner has the same advantages as the above-mentioned mounting structure
over the prior art, and details are not repeated here.
BRIEF DESCRIPTION OF THE DRAWINGS
[0020] Aspects of the present invention are best understood from the following detailed
description when read with the accompanying figures. The exemplary embodiments of
the present invention and the description thereof are used to explain the present
invention, and do not constitute improper limitations on the preset invention. In
the drawings:
Fig. 1 is a breakdown view of a wiring device according to an embodiment of the present
invention.
Fig. 2 is an exploded view of a wiring device according to an embodiment of the present
invention.
Fig. 3 is a structural diagram of a part of a second terminal assembly according to
an embodiment of the present invention.
Fig. 4 is a structural diagram of a first terminal connected to a second terminal
assembly according to an embodiment of the present invention.
Fig. 5 is a structural diagram of a part of a second terminal assembly according to
an embodiment of the present invention.
Fig. 6 is a structural diagram of a part of a mounting structure according to an embodiment
of the present invention.
Fig. 7 is a structural diagram of a mounting structure according to an embodiment
of the present invention.
Fig. 8 is a structural diagram of a protective cover plate from a first perspective
according to an embodiment of the present invention.
Fig. 9 is a structural diagram of a protective cover plate from a second perspective
according to an embodiment of the present invention.
List of serial numbers in the figures:
1 - Wiring device; |
2 - First terminal assembly; |
3 - Second terminal assembly; |
4 - First wiring terminal; |
5 - Second wiring terminal; |
6 - First sliding structure; |
7 - First guiding structure; |
8 - Wiring hole; |
9 - First guiding block; |
10 - Receiving body; |
11 - Accommodating portion; |
12 - Guiding space; |
13 - First chute; |
14 - Guiding port; |
15 - Reinforcing rib; |
16 - Guide mounting structure; |
17 - Second sliding structure; |
18 - Carrying body; |
19 - Second guiding block; |
20 - Carrying main body; |
21 - Guiding body; |
25 - Guiding portion; |
23 - Limit portion; |
24 - Second chute; |
25 - Locking buckle; |
26 - Second stop surface; |
27 - Connecting portion; |
28 - Wedge-shaped portion; |
29 - Buckling portion; |
30 - First stop surface; |
31 - Mounting structure; |
32 - Mounting body; |
33 - Fixing buckle; |
34 - Positioning member; |
35 - Elastic member; |
36 - Mounting hole; |
37 - Positioning hole; |
38 - Hook; |
39 - Elastic connecting portion; |
40 - Abut portion; |
41 - Third stop surface; |
42 - Positioning post; |
43 - Protective cover plate; |
44 - Cover plate body; |
45 - Top plate; |
46 - Side plate; |
47 - Receiving space; |
48 - Positioning connecting portion; |
49 - Mounting space; |
50 - Positioning connecting hole; |
|
51 - Positioning connecting member; |
52 - Rib. |
|
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0021] It should be noted that the embodiments of the disclosure and the features in the
embodiments may be combined with each other without conflict.
[0022] The disclosure will be described in detail below with reference to the drawings and
embodiments.
1st Embodiment
[0023] With reference to Fig. 1, the present embodiment provides a wiring device 1, which
facilitates the wiring of an electric control box, and is easy to assemble and disassemble.
Among them, the wiring device 1 includes a first terminal assembly 2 and a second
terminal assembly 3, wherein the first terminal assembly 2 is used to be connected
to the electric control box, the second terminal assembly 3 is used to be connected
to the first base (not shown), and the first terminal assembly 2 is connected to the
second terminal assembly 3, so as to achieve the connection of the wires, thereby
connecting the electric control box with the electronic components in the first base
for the conduction of the circuit.
[0024] It should be noted that in the present embodiment, the first base is a lower base
of the air conditioner. It should be understood that in other embodiments, the first
base may also be an upper base of the air conditioner, or the first base may also
be other bases included in housings of other electronic components.
[0025] With combination of Figs. 1 and 2, the first terminal assembly 2 includes a first
wiring terminal 4 and a first sliding structure 6, and the first wiring terminal 4
is used to be connected to the electric control box to guide the wires drawn out of
the electric control box through the first wiring terminal 4, so that the wiring drawn
out of the electric control box may avoid experiencing wiring confusion and crimping.
Further, the first sliding structure 6 is connected to a side surface of the first
wiring terminal 4. The second terminal assembly 3 includes a second wiring terminal
5 and a first guiding structure 7, wherein the first guiding structure 7 is connected
to a side surface of the second wiring terminal 5. The first sliding structure 6 is
connected to the first guiding structure 7, and the first sliding structure 6 may
move relative to the first guiding structure 7 in a first direction, i.e., the first
wiring terminal 4 may slidably connected to the second wiring terminal 5 through the
first sliding structure 6 relative to the first guiding structure 7 in the first direction,
i.e., the guiding for the first sliding structure 6 through the first guiding structure
7 may facilitate the connection of first wiring terminal 4 to the second wiring terminal
5.
[0026] It should be noted that among them, both the first wiring terminal 4 to the second
wiring terminal 5 are opened with a wiring hole 8 extending in the first direction,
and the guiding for the first sliding structure 6 in the first direction through the
first guiding structure 7 may avoid a shear force caused by the wiring for the wiring
hole 8 from the first wiring terminal 4 or the second wiring terminal 5 when the first
wiring terminal 4 moves in the first direction and is connected to the second wiring
terminal 5, i.e., the mounting efficiency between the first wiring terminal 4 and
the second wiring terminal 5 is improved and the connection between the first wiring
terminal 4 and the second wiring terminal 5 is facilitated without affecting the wire
leading. Among them, in the present embodiment, the first base has a plane (not shown)
for disposing the mounting structure 31, wherein the first direction is perpendicular
to the plane.
[0027] Among them, the first sliding structure 6 includes a first guiding block 9 extending
in the first direction, and the first guiding block 9 is connected to the side surface
of the first wiring terminal 4. The first guiding block 9 extending in the first direction
may cooperate with the first guiding structure 7, and slide relative to the first
guiding structure 7 in the first direction, so that the first wiring terminal 4 may
move relative to the second wiring terminal 5 in the first direction to be connected
to the second wiring terminal 5.
[0028] In the present embodiment, the first wiring terminal 4 has a substantially rectangular
prism shape. In addition, the first guiding block 9 has nine blocks, the plurality
of the first guiding blocks 9 are connected to two opposite side surfaces of the first
wiring terminal 4 respectively, and the first guiding block 9 extends from one end
of the first wiring terminal 4 away from the first base toward the other end of the
first wiring terminal 4 in the first direction. Further, a thickness of the end of
the first guiding block 9 away from the first base gradually decreases along the extending
direction thereof, i.e., the first guiding block first contacts one end of the first
guiding structure 7 when the first guiding block 9 cooperates with the first guiding
structure 7, so that one end surface of the first guiding block 9 forms an inclined
surface or a curved surface, so as to facilitate the cooperation between the first
guiding block 9 and the first guiding structure 7. In the present embodiment, the
first guiding block 9 has two blocks, the two first guiding blocks 9 are disposed
on two opposite side surfaces of the first wiring terminal 4 respectively, and the
two first guiding blocks 9 are disposed at a centerline of their respective side surface.
[0029] Moreover, the first guiding structure 7 includes a receiving body 10 and a first
chute 13 opened on the receiving body 10, and the receiving body 10 is connected to
the second wiring terminal 5 and corresponds to the first wiring terminal 4; the first
wiring terminal 4 may move relative to the receiving body 10 in the first direction
to abut against the second wiring terminal 5, and the first guiding block 9 may extend
into the first chute 13 and slide relative to the first chute 13 in the first direction.
Among them, the guiding for the first wiring terminal 4 through the receiving body
10 and the guiding for the first guiding block 9 through the first chute 13 may facilitate
the connection and guiding between the first wiring terminal 4 and the second wiring
terminal 5, thereby greatly simplifying the difficulty in connection between the first
wiring terminal 4 and the second wiring terminal 5.
[0030] In the present embodiment, the receiving body 10 is provided inside with a guiding
space 12 extending in the first direction, and the second wiring terminal 5 is disposed
in the receiving body 10 and located on one end of the guiding space 12. The first
wiring terminal 4 may extend into the guiding space 12 and slide along the guiding
space 12 to abut against the second wiring terminal 5, i.e., guiding the first wiring
terminal 4 through the guiding space 12. In addition, a diameter of an end of the
guiding space 12 away from the second wiring terminal 5 gradually increases in a direction
away from the second wiring terminal 5, i.e., the diameter of the end of the receiving
body 10 away from the second wiring terminal 5 is larger than a diameter of an end
of the receiving body 10 close to the second wiring terminal 5, so as to facilitate
the alignment of the first wiring terminal 4, so that the first wiring terminal 4
may easily extend into the guiding space 12.
[0031] Further, the receiving body 10 is provided outside with a plurality of reinforcing
ribs 15, and the plurality of reinforcing ribs 15 are disposed at intervals on one
side of an end of the receiving body 10 away from the second wiring terminal 5, which
is opposite to the guiding space 12, i.e., the reinforcing ribs 15 are disposed at
a larger end of the receiving body 10 and the reinforcing ribs 15 are connected outside
the receiving body 10, so that an impact force of the first wiring terminal 4 on the
receiving body 10 when extending into the guiding space 12 may be received by the
reinforcing ribs 15 for ensuring the strength of the receiving body 10 and prolonging
the service life of the receiving body 10.
[0032] It should be noted that in the present embodiment, the receiving body 10 is adapted
to the first wiring terminal 4, i.e., a shape enclosed by an outline of a cross section
of the receiving body 10 is substantially rectangular, so that the first wiring terminal
4 may stably be received inside the guiding space 12. In addition, the plurality of
reinforcing ribs 15 are disposed on two opposite side surfaces of the receiving body
10, and the first chute 13 is opened on the other two side surfaces.
[0033] A side surface of the receiving body 10 is provided with a plurality of accommodating
portions 11, a plurality of the first chutes 13 are respectively formed inside the
plurality of accommodating portions 11, and the plurality of the first chutes 13 are
communicated to the inside of the receiving body 10. That is, in the present embodiment,
the plurality of accommodating portions 11 are disposed on two opposite side surfaces
of the receiving body 10 respectively, and the accommodating portions 11 are disposed
outside the receiving body 10. The first chute 13 is opened inside the accommodating
portion 11, and the first chute 13 penetrates through a circumferential wall of the
receiving body 10 to be communicated to the guiding space 12, so that when the first
wiring terminal 4 extends into the guiding space 12, the first guiding block 9 connected
to the first wiring terminal 4 may extend into the first chute 13 and slide along
the first chute 13. Further, in the present embodiment, an end of the receiving body
10 away from the second wiring terminal 5 is provided with a guiding port 14 corresponding
to the plurality of accommodating portions 11, and the guiding port 14 penetrates
through the circumferential wall of the receiving body 10 and is communicated to the
second chute 24, so that when the first wiring terminal 4 extends into the guiding
space 12, the first guiding block 9 may be guided through the guiding port 14 such
that the first guiding block 9 extends into the first chute 13.
[0034] In the present embodiment, the accommodating portion 11 corresponds to the first
guiding block 9, i.e., the accommodating portion 11 has two portions, and the two
accommodating portions 11 are disposed on two opposite side surfaces of the receiving
body 10 respectively, i.e., the accommodating portions 11 are disposed on two side
surfaces on the receiving body 10 in which the reinforcing ribs 15 are disposed adjacent
to the receiving body 10. And, the accommodating portions 11 are disposed at a centerline
of respectively side surfaces to facilitate the extension of the first guiding block
9 into the first chute 13 when the first wiring terminal 4 cooperates with the guiding
space 12, so as to facilitate the guiding for the first wiring terminal 4 by the guiding
space 12 and the guiding for the first guiding block 9 by the first chute 13.
[0035] When the first wiring terminal 4 is required to be connected to the second wiring
terminal 5, the first wiring terminal 4 is extended into the guiding space 12 and
the first guiding block 9 is aligned to the guiding port 14, so that the first wiring
terminal 4 extends into the first chute 13 through the guiding port 14 and moves the
first wiring terminal 4 in the first direction, i.e., extending the first wiring terminal
4 into the guiding space 12 and extending the first guiding block 9 into the first
chute 13. Moving the first wiring terminal 4 to abut against the second wiring terminal
5 may complete the connection between the first wiring terminal 4 and the second wiring
terminal 5.
[0036] It should be noted that in the present embodiment, the first sliding structure 6
is integrally formed with the first wiring terminal 4, and the first guiding structure
7 is integrally formed with the second wiring terminal 5. It is to be understood that
in other embodiments, the first sliding structure 6 may also be connected to the first
wiring terminal 4 by other methods, such as by welding or bonding. Similarly, in other
embodiments, the first sliding structure 6 may also be connected to the second wiring
terminal 5 by other methods, such as by welding or bonding.
[0037] With combination of Figs. 2, 3 and 4, in addition, the wiring device 1 further includes
a carrying body 18, and the carrying body 18 is used to be connected to the electric
control box. The first terminal assembly 2 further includes a second sliding structure
17, the second sliding structure 17 is connected to a side surface of the first wiring
terminal 4, and the second sliding structure 17 extends in a second direction. The
second sliding structure 17 cooperates with the carrying body 18, so that the first
wiring terminal 4 is connected to the electric control box through the cooperation
of the second sliding structure 17 and the carrying body 18. Among them, the second
sliding structure 17 includes a plurality of second guiding blocks 19 extending in
the second direction, and the plurality of second guiding blocks 19 are connected
to the side surface of the first wiring terminal 4. The carrying body 18 is opened
with a plurality of second chutes 24 corresponding to the plurality of second guiding
blocks 19, and the second guiding blocks 19 may extend into the second chute 24 and
move relative to the second chute 24 in the second direction. That is, the first wiring
terminal 4 may be connected to the electric control box through the guiding of the
plurality of second guiding blocks 19 by the second chute 24.
[0038] It should be noted that in the present embodiment, the second direction is perpendicular
to the first direction.
[0039] In addition, the first terminal assembly 2 further includes a locking buckle 25,
the locking buckle 25 is disposed on the side surface of the first wiring terminal
4, and the locking buckle 25 is located on one side of the second sliding structure
17 in the second direction. Moreover, the carrying body 18 is further provided with
a buckling portion 29 matching with the locking buckle 25, the buckling portion 29
is located on one end of the second chute 24, and the locking buckle 25 may move in
the first direction to be engaged to the buckling portion 29. That is, when the first
wiring terminal 4 moves along the second chute 24 through the second guiding block
19, the locking buckle 25 is driven to move in the second direction, and when the
locking buckle 25 is engaged to the buckling portion 29, the first wiring terminal
4 is stably connected to the electric control box.
[0040] It should be noted that the second sliding structure 17, the carrying body 18, the
locking buckle 25 and the buckling portion 29 together form a guide mounting structure
16, i.e., the guide mounting structure 16 includes the carrying body 18, the second
sliding structure 17, the locking buckle 25 and the buckling portion 29. That is,
the first wiring terminal 4 is connected to the electric control box through the guide
mounting structure 16, so as to simplify the difficulty in connection between the
first wiring terminal 4 and the electric control box.
[0041] In the present embodiment, the buckling portion 29 is connected to one side of the
carrying body 18, both the second sliding structure 17 and the locking buckle 25 are
connected to the first wiring terminal 4, and the locking buckle 25 is located on
one side of the second sliding structure 17; the second sliding structure 17 is slidably
connected to the carrying body 18, and the second sliding structure 17 may slide relative
to the carrying body 18 until the locking buckle 25 is buckled to the buckling portion
29. Thus, the stable connection between the first wiring terminal 4 and the electric
control box may be realized by the cooperation between the locking buckle 25 and the
buckling portion 29.
[0042] Among them, the plurality of second guiding blocks 19 are connected to two opposite
side surfaces of a side surface of the first wiring terminal 4 in which the first
guiding block 9 is disposed adjacent to the first wiring terminal 4, and the plurality
of second guiding blocks 19 are disposed adjacent to a side of a side surface in which
the first guiding block 9 is disposed perpendicular to the first wiring terminal 4.
In the present embodiment, the second guiding blocks 19 disposed on the same side
of the first wiring terminal 4 have two blocks, the two second guiding blocks 19 are
disposed on two ends of the above sides respectively, and the two second guiding blocks
19 are arranged in the second direction.
[0043] The carrying body 18 includes a carrying main body 20 and two guiding bodies 21.
Among them, the carrying main body 20 has a first side and a second side that are
disposed oppositely, the first side of the carrying main body 20 is used to be connected
to the electronic control box, wherein the connection manner may be integrated molding,
welding or fastening, etc., and in the present embodiment, the integrated molding
method is adopted. The two guiding bodies 21 are disposed oppositely on the second
side of the carrying main body 20, wherein there is a gap between the two guiding
bodies 21, and the second sliding structure 17 slides in a gap between the two guiding
bodies 21. Among them, the second chute 24 are opened on the side surfaces of the
two guiding bodies 21 that are close to each other, the plurality of second guiding
blocks 19 on two sides of the first wiring terminal 4 that are disposed oppositely
may extend into the second chute 24 of the two guiding bodies 21 respectively and
slide relative to the second chute 24. A distance between the two guiding bodies 21
is adapted to a distance between the two sides of the first wiring terminal 4 where
the second guiding body 21 is disposed, i.e., the distance between the two guiding
bodies 21 is adapted to a thickness of the first wiring terminal 4, so that the first
wiring terminal 4 may stably slide between the two guiding bodies 21.
[0044] The guiding body 21 includes a guiding portion 22 and a plurality of limit portions
23, wherein a side of the guiding portion 22 is connected to the carrying main body
20, and the guiding portion 22 extends in the second direction. The plurality of limit
portions 23 are disposed on the other side of the guiding portion 22, and the plurality
of limit portions 23 are arranged in the second direction, wherein the carrying main
body 20, the guiding portion 22 and the plurality of limit portions 23 form the second
chute 24 together.
[0045] In the present embodiment, the plurality of limit portions 23 correspond to the plurality
of second guiding blocks 19, and the plurality of second guiding blocks 19 may slide
relative to the second chute 24 to be located between the corresponding limit portions
23 and the carrying main body 20. That is, in the present embodiment, both the limit
portions 23 and the second guiding blocks 19 have two, and the two limit portions
23 are disposed at two end so the guiding portion 22 respectively, so that when the
two second guiding blocks 19 slide to the end of the guiding body 21 along the second
chute 24, the two second guiding blocks 19 may be located between the two limit portions
23 and the carrying main body 20 respectively, so that the second guiding blocks 19
may be prevented from being disengaged with the second chute 24 through the limit
portions 23.
[0046] In addition, the buckling portions 29 are connected to the carrying main body 20,
and the buckling portions 29 are located on one end of the guiding portion 22 in the
second direction. The locking buckle 25 is connected to the first wiring terminal
4, and the locking buckle 25 is located on one side of the second guiding blocks 19
in the second direction. Thus, the first wiring terminal 4 slides relative to the
two guiding bodies 21 to the end of the guiding bodies 21, so as to facilitate the
buckling of the locking buckle 25 on the first wiring terminal 4 to the buckling portions
29 disposed on the guiding portion 22.
[0047] One end of the buckling portions 29 away from the guiding portion 22 is provided
with a first stop surface 30, and the first stop surface 30 faces towards the second
direction; the locking buckle 25 is provided with a second stop surface 26 facing
towards the second guiding blocks 19, and the first stop surface 30 may abut against
the second stop surface 26 such that the buckling portions 29 are buckled to the locking
buckle 25.
[0048] Among them, in the present embodiment, the buckling portions 29 have two portions,
the two buckling portions 29 are connected to the end of the two guiding portions
22 respectively, and the two buckling portions 29 extend in a direction away from
the guiding portions 22. Further, a distance between the two buckling portions 29
gradually decreases in the second direction. As a result, side surface of the two
buckling portions 29 that are close to each other form two inclined planes, so that
the locking buckles 25 are buckled to the buckling portions 29.
[0049] Similarly, the number of the locking buckles 25 corresponds to the number of the
buckling portions 29, i.e., there are two locking buckles 25, and the two locking
buckles 25 are respectively disposed on two sides of the first guiding blocks 9. Among
them, the locking buckle 25 includes connecting portions 27 and wedge-shaped portions
28; one end of the connecting portions 27 is connected to the first wiring terminal
4, the wedge-shaped portions 28 are connected to one end of the connecting portions
27 away from the first wiring terminal 4, and one side of the wedge-shaped portions
28 away from the connecting portions 27 is an inclined plane; the second stop surface
26 is disposed on one side of the wedge-shaped portions 28 close to the connecting
portions 27. That is, the two wedge-shape portions 28 are protruded from side surfaces
of the two connecting portions 27 that are away from each other.
[0050] When the locking buckle 25 moves to the buckling portion 29 in the second direction,
the inclined plane on the wedge-shaped portion 28 is affixed to the inclined plane
of the buckling portion 29; when the locking buckle 25 continues to move in the second
direction, the connecting portion 27 experiences an elastic deformation, and the two
connecting portions 27 move close to each other, so that the wedge-shaped portion
28 may bypass the buckling portion 29. When the wedge-shaped portion 28 may bypass
the buckling portion 29, the wedge portion 28 is rebounded and the first stop surface
30 is abutted against the second stop surface 26 due to the elastic restoring force
of the connecting portion 27, thereby completing the buckling between the locking
buckle 25 and the buckling portion 29.
[0051] With combination of Figs. 5, 6 and 7, the wiring device 1 further includes a mounting
structure 31, wherein the mounting structure 31 is connected to the second wiring
terminal 5, and the second wiring terminal 5 is connected to the first base through
the mounting structure 31. The mounting structure 31 includes a mounting body 32,
a fixing buckle 33, an elastic member 35 and a positioning member 34, wherein the
mounting body 32 is connected to the second wiring terminal 5. One ends of the fixing
buckle 33 and the positioning member 34 are used to be connected to the first base.
The fixing buckle 33 may pass through the mounting body 32 and be buckled to the mounting
body 32, and the elastic member 35 is disposed close to the fixing buckle 33 and the
elastic member 35 is used to be abutted between the first base and the mounting body
32, so that the fixing buckle 33 may stably be buckled to the mounting body 32 by
an elastic force of the elastic member 35. The positioning member 34 passes through
the mounting body 32, wherein the positioning member 34 is used for positioning when
the second wiring terminal 5 is connected to the first base, so that through the positioning
of the positioning member 34, the positioning accuracy of the second wiring terminal
5 is improved to ensure that the second wiring terminal 5 may be connected at a suitable
position. In addition, the connection error between the second wiring terminal 5 and
the first wiring terminal 4 may be eliminated by the elastic member 35, and the tolerance
may be automatically adjusted by the elastic member 35, so that the tolerance caused
by the user's inaccurate mounting is reduced, and a situation where the second wiring
terminal 5 and the first wiring terminal 4 are not plugged in and the pin is bent
is avoided.
[0052] In the present embodiment, the mounting body 32 is opened with a mounting hole 36
and a positioning hole 37, and the fixing buckle 33 passes through the mounting hole
36 to be buckled to a side surface of the mounting body 32. The positioning member
34 passes through the positioning hole 37 for positioning the mounting body 32 through
the cooperation of the positioning member 34 and the positioning hole 37.
[0053] Further, the mounting body 32 has two bodies, the two mounting bodies 32 are disposed
at two opposite sides of the second wiring terminal 5 respectively, and each of the
mounting bodies 32 is at least opened with one mounting hole 36 and at least one positioning
hole 37, i.e., being connected to the corresponding fixing buckle 33 and the corresponding
positioning hole 37 through the mounting bodies 32 disposed on two opposite sides
of the second wiring terminal 5, so that the stability of connection between the second
wiring terminal 5 and the first base is improved. In the present embodiment, each
of the mounting bodies 32 is opened with one mounting hole 36 and one positioning
hole 37.
[0054] In addition, the fixing buckle 33 includes a plurality of hooks 38, one end of the
plurality of hooks 38 is provided with a third stop surface 41 facing towards the
other side of the hooks 38, and the hooks 38 may pass through the mounting bodies
32 such that the third stop surface 41 is abutted against a side surface of the mounting
bodies 32, i.e., buckling the hooks 38 to the mounting bodies 32. One end of the hooks
38 away from the third stop surface 41 is used to be connected to the first base.
In the present embodiment, the plurality of hooks 38 pass through the mounting hole
36, and the portion of the hooks 38 passing through the mounting hole 36 abuts against
the side surface of the mounting bodies 32 such that the hooks 38 are buckled to the
mounting bodies 32.
[0055] The hook 38 includes an elastic connecting portion 39 and an abut portion 40, and
one end of the elastic connecting portion 39 is used to be connected to the first
base; the abut portion 40 is connected to the other end of the elastic connecting
portion 39, and the third stop surface 41 is disposed at one side of the abut portion
40 close to the elastic connecting portion 39; one side of the abut portion 40 away
from the elastic connecting portion 39 is an inclined plane. That is, in the present
embodiment, through the abutment of a side of the abut portion 40 close to the elastic
connecting portion 39 against the mounting bodies 32, the buckling of the hooks 38
to the mounting bodies 32 is achieved.
[0056] In addition, in the present embodiment, the plurality of elastic connecting portions
39 are disposed at intervals, and enclosed to form a circle. The plurality of the
abut portions 40 are protruded from a side away from each other of the plurality of
the elastic connecting portions 39 such that the plurality of the third stop surfaces
41 are respectively located on one side away from each other of the plurality of the
elastic connecting portions 39. In the present embodiment, a circle formed by the
side surfaces of the plurality of elastic connecting portions 39 away from each other
is adapted to a hole diameter of the mounting hole 36, so that when the elastic connecting
portions 39 pass through the mounting hole 36, the elastic connecting portions may
be attached to an inner peripheral wall of the mounting hole 36, and may be engaged
with the mounting bodies 32 through the abut portion 40 protruding from the elastic
connecting portions 39. Further, a side of the abut portion 40 away from the elastic
connecting portion 39 is an inclined plane, and a plurality of inclined planes on
the plurality of abut portions 40 face towards the sides of the plurality of elastic
connecting portions 39 away from each other, so that when the plurality of hooks 38
are required to extend into the mounting hole 36, a hole wall of the mounting hole
36 is abutted by the inclined plane disposed on the abut portion 40 to continue to
extend the hooks 38 into the mounting hole 36; through the abutment of the abut portion
40 by the hole wall of the mounting hole 36, the plurality of elastic connecting portions
39 experience an elastic deformation and move close to each other, so that the abut
portion 40 may pass through the mounting hole 36; after the plurality of abut portions
40 pass through the mounting hole 36, the abut portion 40 may be restored to the original
position due to the elastic restoring force of the elastic connecting portion 39,
so that the third stop surface 41 abuts against the side surface of the mounting body
32, thereby achieving the buckling of the hooks 38 to the mounting bodies 32.
[0057] In the present embodiment, the hooks 38 have two hooks, and the two hooks 38 are
disposed oppositely, that is, when two of the elastic connecting portions 39 extend
into the mounting hole 36, the two elastic connecting portions 39 are located at two
sides in a center of the mounting hole 36 respectively, and the two abut portions
40 protrude from the side surfaces of the two elastic connecting portions 39 away
from each other respectively.
[0058] In addition, the elastic member 35 is wound around the plurality of elastic connecting
portions 39, i.e., the elastic member 35 is sleeved outside the fixing buckle 33,
so that when the mounting body 32 is mounted to the fixing buckle 33 for being abutted
between the mounting body 32 and the first base through the elastic member 35 and
providing a guide for the elastic member 35 through the fixing buckle 33, so that
the elastic member 35 may stably provide an elastic force for the mounting body 32,
and hence the elastic member 35 stably and effectively provides the effect of correcting
the mounting tolerance for the mounting body 32. In the present embodiment, the elastic
member 35 is a spring.
[0059] The positioning member 34 includes a plurality of positioning posts 42, ends of the
plurality of the positioning posts 42 are used to be connected to the first base,
and heights of the plurality of the positioning posts 42 are greater than a height
of the fixing buckle 33. As a result, when the mounting body 32 is mounted to the
first base through the positioning posts 42 and the fixing buckle 33, the fixing buckle
33 may firstly extend into the mounting hole 36 through the positioning of the plurality
of positioning posts 42, thereby improving the assemble efficiency between the mounting
body 32 and the fixing buckle 33.
[0060] In addition, one end of the positioning post 42 away from the first base is opened
with a round chamfer, i.e., the end of the positioning post 42 away from the first
base has a diameter that gradually decreases away from the first base, so that the
positioning post 42 may extend into the positioning hole 37, which facilitates the
positioning of the positioning post 42 for the mounting body 32.
[0061] Further, the mounting structure 31 further includes a plurality of ribs 52, the plurality
of ribs 52 are disposed at intervals on the ends of the fixing buckle 33 and the positioning
member 34, and the plurality of ribs 52 are used to be connected to the first base.
That is, when the fixing buckle 33 and the positioning member 34 are connected to
the first base, the plurality of ribs 52 are connected to the fixing buckle 33 and
the first base, or the plurality of ribs 52 are connected to the positioning member
34 and the first base, so that the stability of connecting between the fixing buckle
33 and the first base and the stability of connecting between the positioning member
34 and the first base are enhanced by the ribs 52.
[0062] With combination of Figs. 8 and 9, the second wiring terminal 3 further includes
a wiring head and a protective cover plate 43, and the wiring head is connected to
one end of the second wiring terminal 5 away from the first wiring terminal 4 for
drawing out connecting wires through the wiring head. The protective cover plate 43
has inside a receiving space 47; the protective cover plate 43 covers the second wiring
terminal 5 such that the wiring head is received inside the receiving space 47, the
protective cover plate 43 is opened with a positioning connecting member 51 matching
with the positioning member 34, and the positioning member 34 is connected to the
positioning connecting member 51 to be connected to the protective cover plate 43.
[0063] That is, in the present embodiment, the protective cover plate 43 includes a cover
plate body 44 and the positioning connecting member 51. The cover plate body 44 is
used to cover the second wiring terminal 5, and make the second wiring terminal 5
be received inside the cover plate body 44, i.e., making the wiring head be received
inside the cover plate body 44. The positioning connecting portion 48 is connected
to the cover plate body 44, and the positioning connecting portion 48 is used to be
connected to the positioning member 34.
[0064] The receiving space 47 is opened inside the cover plate body 44, and the receiving
space 47 is used to receive the second wiring terminal 5 and the wiring head. And,
the positioning connecting portion 48 is disposed inside the receiving space 47, which
simplifies the structure of the protective cover plate 43.
[0065] Among them, the cover plate body 44 includes a top plate 45 and a plurality of side
plates 46, the plurality of side plates 46 are connected to a plurality of sides of
the top plate 45 respectively, i.e., the plurality of side plates 46 and the top plate
45 enclose the receiving space 47 together, one end of the plurality of side plates
46 away from the top plate 45 is used to abut against the first base, and one of the
side plates 46 of the top plate 45 forms an opening so that the second wiring terminal
5 extends into the receiving space 47 through the opening. Among them, in the present
embodiment, a shape of the top plate 45 matches an overall shape formed by the second
wiring terminal 5 and the mounting body 32, so that the cover plate body 44 receives
the second wiring terminal 5 and the mounting body 32 in the receiving space 47 to
ensure that the protective cover plate 43 may effectively provide protection to the
second wiring terminal 5 and the mounting body 32, thereby preventing water stains
from falling on the second wiring terminal 5 or the mounting body 32.
[0066] In addition, the plurality of side plates 46 are provided with a circular arc transition
section at the joint where it is connected to the top plate 45, so as to prevent the
user from being harmed when the protective cover plate 43 is disassembled.
[0067] In the present embodiment, the positioning connecting portion 48 is disposed on one
side of the top plate 45 close to the receiving space 47, and the positioning connecting
portion 48 is used to abut against the positioning member 34. That is, when the cover
plate body 44 covers the second wiring terminal 5, the positioning connecting portion
48 abuts against the positioning member 34 extending from the mounting body 32 within
the receiving space 47, so as to achieve the positioning of the cover plate body 44,
and to facilitate the connection of the cover plate body 44.
[0068] Further, the protective cover plate 43 further includes a positioning connecting
member 51, and the positioning connecting member 51 passes through the positioning
connecting portion 48 and is used to be connected to the positioning member 34, so
that the cover plate body 44 may stably cover the second wiring terminal 5 through
the previous cooperation between the positioning connecting member 51 and the positioning
member 34.
[0069] In the present embodiment, the positioning connecting portion 48 is provided inside
with a mounting space 49, and an end surface of the positioning connecting portion
48 away from the top plate 45 is opened with a positioning connecting hole 50, and
the mounting space 49 is communicated to the receiving space 47 through the positioning
connecting hole 50, so that the positioning connecting member 51 may pass through
the positioning connecting hole 50 to facilitate the connection between the positioning
connecting member 51 and the positioning member 34.
[0070] Further, a diameter of one end of the mounting space 49 away from the receiving space
47 gradually increases in a direction away from the receiving space 47, so as to facilitate
the extension of the positioning connecting member 51 into the mounting space 49.
Thus, the assembly efficiency of the positioning connecting member 51 may be improved.
In addition, a diameter of the positioning connecting hole 50 is smaller than a diameter
of the mounting space 49, so that when the positioning connecting member 51 is connected
to the positioning member 34, the positioning connecting portion 48 may abut against
the positioning member 34 to ensure that the cover plate body 44 may stably cover
the second wiring terminal 5.
[0071] Moreover, it should be noted that in the present embodiment, the positioning connecting
member 51 is a screw, and passing the screw through the positioning connecting hole
50 and screwing the screw into the positioning member 34 may abut the positioning
connecting portion 48 against the position member 34 by a screw nut of the screw,
and may make the cover plate body 44 stably cover the second wiring terminal 5.
[0072] In the wiring device 1 provided by the present embodiment, through the mutual cooperation
between the first sliding structure 6 disposed on the first wiring terminal 4 and
the first guiding structure 7 provided on the second wiring terminal 5, wherein the
first sliding structure 6 may slide in the first direction relative to the first guiding
structure 7, the first wiring terminal 4 may move in the first direction relative
to the second wiring terminal 5 and is connected to the second wiring terminal 5,
so as to ensure that the guiding connection between the first wiring terminal 4 and
the second wiring terminal 5 is facilitated without affecting leads in the wiring
hole 8 that extends in the first direction, thereby facilitating the assembly and
disassembly between the first wiring terminal 4 and the second wiring terminal 5.
And through provision of the guiding space 12 and the first chute 13 in the first
guiding structure 7, the first wiring terminal 4 may be guided by the guiding space
12 when the first wiring terminal 4 is connected to the second wiring terminal 5,
and through the guiding for the first guiding block 9 by the first chute 13, the guiding
connection between the first wiring terminal 4 and the second wiring terminal 5 is
further facilitated, thereby making the assembly and disassembly more convenient and
fast. In addition, through the provision of the second sliding structure 17 and the
carrying body 18 for being connected to the electronic control box, the first wiring
terminal 4 may be connected to the carrying body 18 through the second sliding structure
17 by the sliding cooperation between the second sliding structure 17 and the carrying
body 18, i.e., facilitating the guiding connection between the first wiring terminal
4 and the electronic control box, thereby facilitating the connection of the first
wiring terminal 4 to the electronic control box. Through the provision of the mounting
structure 31 on the second wiring terminal 5, the connection of the second wiring
terminal 5 to the first base is facilitated by the engagement between the fixing buckle
33 and the mounting body 32, by the positioning between the positioning member 34
and the mounting body 32, and by the error adjustment of the second wiring terminal
5 with the elastic member 35. Through the provision of the protective cover plate
43 covering the second wiring terminal 5 for preventing the user from connecting the
wires inside the second wiring terminal 5, the stability in connection of the wires
is guaranteed and the danger of electric shock to users is avoided, and water stains
will be ensured not to splash into the second terminal 5 and not to cause a short
circuit in the wiring when the wiring device 1 is cleaned.
2nd Embodiment
[0073] The present embodiment provides an air conditioner, which employs the wiring device
1 provided in Embodiment One, which facilitates the wiring of an electric control
box, and is easy to assemble and disassemble.
[0074] The above are only preferred embodiments of the disclosure and are not intended to
limit the disclosure. Any modification, equivalent replacement, and improvement made
within the spirit and principle of the disclosure shall be included in the protection
scope of the disclosure.
1. A mounting structure, applied to a wiring device (1), characterized in that, the wiring device (1) comprises a second wiring terminal (5), the second wiring
terminal (5) mounted to a first base through the mounting structure (31), wherein
the mounting structure (31) comprises a mounting body (32), a fixing buckle (33) and
a positioning member (34); the mounting body (32) is connected to the second wiring
terminal (5), and the fixing buckle (33) and one end of the positioning member (34)
are used to be connected to the first base; the fixing buckle (33) passes through
the mounting body (32) and is buckled to the mounting body (32), and the positioning
member (34) passes through the mounting body (32).
2. The mounting structure according to claim 1, wherein a mounting hole (36) and a positioning
hole (37) are disposed on the mounting body (32), the fixing buckle (33) passes through
the mounting hole (36) and is buckled to a side surface of the mounting body (32),
and the positioning member (34) passes through the positioning hole (37).
3. The mounting structure according to claim 2, wherein the mounting body (32) has two
bodies; the two mounting bodies (32) are disposed at two opposite sides of the second
wiring terminal (5), respectively, and at least one positioning hole (36) and at least
one positioning hole (37) are respectively disposed on each of the mounting bodies
(32).
4. The mounting structure according to claim 1, wherein the fixing buckle (33) comprises
a plurality of hooks (38), and one end of each of the hooks (38) is provided with
a third stop surface (41); the third stop surface (41) is disposed towards the first
base, and the plurality of hooks (38) pass through the mounting body (32), such that
the third stop surface (41) abuts against the side surface of the mounting body (32);
and ends of the plurality of hooks (38) away from the third stop surface (41) are
used to be connected to the first base.
5. The mounting structure according to claim 4, wherein the hook (38) comprises an elastic
connecting portion (39) and an abut portion (40), and one end of the elastic connecting
portion (39) is used to be connected to the first base; the abut portion (40) is connected
to the other end of the elastic connecting portion (39), and the third stop surface
(41) is disposed at one side of the abut portion (40) close to the elastic connecting
portion (39); one side of the abut portion (40) away from the elastic connecting portion
(39) is an inclined plane.
6. The mounting structure according to claim 5, wherein a plurality of the elastic connecting
portions (39) are arranged along a circumferential direction, and the plurality of
the elastic connecting portions (39) are disposed at intervals; a plurality of the
abut portions (40) are protruded from a side away from each other of the plurality
of the elastic connecting portions (39), such that the plurality of the third stop
surfaces (41) are respectively located on one side away from each other of the plurality
of the elastic connecting portions (39).
7. The mounting structure according to claim 5, wherein the mounting structure (31) further
comprises an elastic member (35), the elastic member (35) is wound around the plurality
of elastic connecting portions (39), and the elastic member (35) abuts between the
first base and the mounting body (32).
8. The mounting structure according to claim 1, wherein the positioning member (34) comprises
a plurality of positioning posts (42), ends of the plurality of the positioning posts
(42) are used to be connected to the first base, and heights of the plurality of the
positioning posts (42) are greater than a height of the fixing buckle (33).
9. The mounting structure according to any one of claims 1 to 8, wherein the mounting
structure (31) further comprises a plurality of ribs, the plurality of the ribs are
disposed at intervals on ends of the fixing buckle (33) and the positioning member
(34), and the plurality of the ribs are used to be connected to the first base.
10. An air conditioner, characterized in that, the air conditioner comprises the mounting structure (31) according to any one of
claims 1 to 9.