Technical Field
[0001] The present invention relates to the field of air conditioning technology and, more
particularly, to a vertical air conditioner.
Background of the Invention
[0002] With the advancement of technology and the improvement of living environment quality
requirements, the function of air conditioners which are commonly used in home and
office environment is increasing. The air conditioners are no longer simply to provide
refrigeration and heating of indoor air, humidification, purification and other functions
on the indoor air are added.
[0003] At present, the handling methods commonly used by the air conditioners to achieve
the humidification, purification, etc. of the indoor air lie in not changing the original
structure of the air conditioners, but providing additional air handling modules such
as a humidification module and a purification module in the original air duct of the
air conditioners. When the air conditioner is powered on to run the refrigeration
or heating, these additional air handling modules also work to achieve the humidification,
purification and other handling of the indoor air. For instance,
CN 204 141 826 U provides a base of an air processing system and an air processing system for allowing
multiple functions of appliances in combination.
[0004] The aforementioned handling method has the following disadvantages: firstly, the
realization of the additional air handling functions is dependent on the original
structure and operation of the air conditioners and can not be controlled separately.
Secondly, once the air conditioner is shipped, the additional air handling functions
have been determined, which cannot be changed by the user, so that it is difficult
to achieve personalized needs. Thirdly, due to the increase of the additional air
handling modules, they occupy the original space and air duct of the air conditioner,
and affects the original air conditioning performance of the air conditioner; in order
to achieve the coordination and matching of the normal air conditioning and additional
air conditioning, there is a need to pay a lot of research and development costs on
the design of the structure of the air conditioner and electronic control.
Summary of the Invention
[0005] An object of the present invention is to provide a vertical air conditioner, which
has a base detachably fitted with an air conditioner body, wherein a separate air
supply system and an air handling module are provided in the base to effect air handling,
such that at least one of the above disadvantages existed in the existing air conditioners
with additional air handling functions is solved.
[0006] In order to realize the above object of the present invention, the present invention
uses the technical solution according to claim 1.
[0007] In particular, the used technical solution is based on a vertical air conditioner,
comprising an air conditioner body, and further comprising a base detachably fitted
with the air conditioner body, wherein the base comprises a base body which has a
fitting part, a body air inlet and a body air outlet are formed on the base body,
a cavity is formed in the base body, and a fan and an air handling module are formed
in the cavity.
[0008] The fitting part is provided on the base body, so that the base can be detachably
fitted with the air conditioner body. The air inlet and the air outlet are formed
on the base body, and the fan and the air handling module are formed inside the base
body, so that the base itself forms a separate air supply system, and the air handling
module is used to handle air based on the air supply system. Therefore, after the
base and the air conditioner body are fitted together, the additional air handling
function achieved by the base is independent from the air conditioner body, which
does not affect the original structure of the air conditioner body, and can run independently
rather than relying on the operation of the original air conditioner body.
[0009] In the vertical air conditioner as described above, in order to achieve a modular
structure, an air outflow assembly is formed in the cavity, and the air outflow assembly
comprises an air outflow frame in which the fan is formed; and the air outflow frame
is formed with an air outflow frame air inlet and a first air outflow frame air outlet,
the first air outflow frame air outlet being located between the air outflow frame
air inlet and the fitting part, the air outflow frame air inlet is in communication
with the body air inlet, and the first air outflow frame air outlet is in communication
with the body air outlet.
[0010] In the vertical air conditioner as described above, the first air outflow frame air
outlet is formed on a side surface of the air outflow frame with a structure in which
an air outflow angle is greater than 180°, so as to increase the air outflow range
of the base.
[0011] In the vertical air conditioner as described above, the air handling module is formed
on the air outflow frame between the air outflow frame air inlet and the first air
outflow frame air outlet.
[0012] In the vertical air conditioner as described above, the air handling module is formed
on the air outflow frame with a pullable structure, so as to facilitate the replacement
of the air handling module to meet the personalized needs of users.
[0013] In the vertical air conditioner as described above, in order to further increase
the air outflow range and ways of the air conditioner, a fitting part air outlet is
formed on the fitting part, the air outflow frame is formed with a second air outflow
frame air outlet which is located between the first air outflow frame air outlet and
the fitting part air outlet, the second air outflow frame air outlet being in communication
with the fitting part air outlet, and a joint part air outlet is formed between the
air conditioner body and the fitting part, the joint part air outlet being in communication
with the fitting part air outlet.
[0014] Preferably, an air outflow cover plate is provided at the joint part air outlet to
open/close the joint part air outlet, so as to control the air outflow selection of
the joint part air outlet.
[0015] In the vertical air conditioner as described above, an air outflow grille is formed
on the joint part air outlet on the inner side of the air outflow cover plate.
[0016] Preferably, the air outflow grille and the air outflow cover plate are both ring-shaped,
so as to achieve a wide air outflow range.
[0017] In the vertical air conditioner as described above, in order to facilitate fitting
the air conditioner body with the base, the air conditioner body is detachably fitted
with the base via a connector, and the joint part air outlet is formed between the
fitting part and the connector.
[0018] In the vertical air conditioner as described above, an electrical cabinet is further
formed in the cavity, a wire opening and a connecting pipe opening are formed on the
fitting part, the wire connected to the electrical cabinet extends out of the base
body through the wire opening, and a connecting pipe of the air conditioner body extends
into the base through the connecting pipe opening.
[0019] In the vertical air conditioner as described above, in order to ensure the smooth
air inlet and outlet of the base, the electrical cabinet is remote from the body air
inlet, and the electrical cabinet, the body air inlet and the air handling module
enclose an air inlet chamber.
[0020] In the vertical air conditioner as described above, the base body comprises a bottom
seat and a base main body which are detachably connected, the fitting part is formed
on the base main body at the end opposite to the bottom seat, a base support is formed
between the bottom seat and the fitting part, an outer periphery of the base main
body is formed with a housing surrounding the base main body, and the body air inlet
and the body air outlet are both formed on the housing.
[0021] Compared with the prior art, the present invention has the following advantages and
positive effects: in the present invention, the fitting part is provided on the base
body, so that the base can be detachably fitted with the air conditioner body; and
the air inlet and the air outlet are formed on the base body, and the fan and the
air handling module are formed inside the base body, so that the base itself forms
a separate air supply system, and the air handling module is used to handle air based
on the air supply system. Therefore, after the base and the air conditioner body are
fitted together to form the vertical air conditioner, the additional air handling
function achieved by the base is independent from the air conditioner body, which
does not affect the original structure of the air conditioner body, and can run independently
rather than relying on the operation of the original air conditioner body.
[0022] Other features and advantages of the present invention will become clearer after
reading the embodiments of the present invention, with reference to the appended drawings.
Brief Description of the Drawings
[0023]
Fig. 1 is a perspective view of one embodiment of a vertical air conditioner of the
present invention;
Fig. 2 is a structural exploded view of Fig. 1;
Fig. 3 is a perspective view of a base in one embodiment;
Fig. 4 is a structural exploded view of a base in one embodiment; and
Fig. 5 is a perspective view of a connector in one embodiment.
Detailed Description of the Invention
[0024] In order to make the purposes, technical solutions and advantages of the present
invention clearer and more comprehensible, the present invention is further illustrated
in detail below in conjunction with the accompanying drawings and embodiments.
[0025] Reference is made to an embodiment of a vertical air conditioner as shown in Figs.
1 to 5, wherein Fig. 1 is a perspective view of the vertical air conditioner of this
embodiment, Fig. 2 is a structural exploded view of Fig. 1, Figs. 3 and 4 are respectively
a perspective view and a structural exploded view of a base in the embodiment, and
Fig. 5 is a perspective view of a connector in the embodiment.
[0026] As shown in Figs. 1 to 5, the vertical air conditioner of this embodiment comprises
a base 1 and an air conditioner body 2 in the form of a cylinder as a whole, and the
base 1 is detachably fitted with the air conditioner body 2. It is not limited to
the cylindrical structure, but may be of other structures. For example, the air conditioner
body 2 and the base 1 are both of a rectangular cubic structure and the like. In the
vertical air conditioner, the base 1 serves as the overall bottom seat of the air
conditioner body 2, is placed on the ground, and raises the air conditioner body 2
to a certain height. The air conditioner body 2 is an existing air conditioner that
realizes basic functions such as air conditioning refrigeration, heating and dehumidification,
and the structure, working principle and working process thereof can be found in the
prior art, and will not be specifically illustrated and described herein.
[0027] The air conditioner base 1 comprises a base body 11, which has a fitting part 1121
on the base body 11, and the fitting part 1121 is used to enable the base 1 to be
detachably fitted with the air conditioner body 2. Thus, the base 1 becomes a structure
substantially independent from the air conditioner body 2. A body air inlet 1141 and
a body air outlet 1151 are formed on the base body 11, a cavity is formed in the base
body 11, and a fan 122 and an air handling module 13 are formed in the cavity. The
air handling module 13 herein refers to a module for realizing a basic handling function
other than the heating, refrigeration, dehumidification, etc. of air in the conventional
air conditioners, that is, a module for realizing an additional function such as humidification,
purification, or refreshing of air.
[0028] Since the body air inlet 1141 and the body air outlet 1151 are formed on the base
body 11, and the fan 122 and the air handling module 13 are formed in the base body
11, the base 1 itself forms a separate air supply system. By means of the rational
design of the structure, when the fan 122 works, the external air is sucked into base
body 11 through the body air inlet 1141, passes through the air handling module 13
and is handled thereby, and then is blown out from the body air outlet 1151, such
that the handling of air is achieved by using the air handling module 13. For example,
if the air handling module 13 is a humidification module, the air will be humidified
in the environment; if air handling module 13 is a purification module, the air will
be cleaned in the environment; and if the air handling module 13 is an aromatherapy
deodorization module, the air will be subjected to aromatherapy deodorization in the
environment, and so on. In addition, since the base 1 is substantially independent
from the air conditioner body 2, it can be individually controlled to realize the
independent operation of the additional air handling function and the original basic
function of the air conditioner. Since the base 1 does not rely on the original space
and air duct structure of the air conditioner body 2, the original air conditioning
performance of the air conditioner will not be affected, and there is no need to specially
design the structure of the air duct of the air conditioner, thereby simplifying the
structure and design for realizing multiple air conditioning functions.
[0029] Specifically, as shown in Figs. 3 and 4, the base body 11 comprises a bottom seat
111, a base main body 112, a base support 113, a rear shell 114, and a front shell
115. The bottom seat 111 is detachably connected to the base main body 112 as a chassis
structure for the entire base 1. For example, the detachable connection is made by
screws, fasteners, and the like. The fitting part 1121 of the entire base 1 is formed
on the base main body 112 at the top end opposite to the bottom seat 111, so that
the fitting part 1121 is located at the top of the entire base 1. The base main body
112 is internally formed with a cavity for accommodating the fan 122, the air handling
module 13, and other structures to be fitted. In this way, it is bound to make the
supporting strength of the base main body 112 become worse. In order to increase the
supporting strength and supporting stability of the entire base 1, a base support
113 is formed between the bottom seat 111 and the base main body 112, and specifically
between the bottom seat 111 and the fitting part 1121. An outer periphery of the base
main body 112 is formed with a shell surrounding the base main body 112. Specifically,
the housing surrounding the base main body 112 comprises a rear shell 114 and a front
shell 115, and the front shell 115 is divided into left and right portions. The rear
shell 114 and the front shell 115 are respectively fixedly connected to the bottom
seat 111, the base main body 112 and the base support 113 via fasteners, screws or
the like. The body air inlet 1141 is formed on the rear shell 114 for introducing
external air; and the body air outlet 1151 is formed on the front shell 115 for delivering
the air handled by the air handling module 13.
[0030] An air outflow assembly 12 is formed in the cavity formed by the base main body 112,
which air outflow assembly 12 comprises an air outflow frame 121, and the fan 122
is formed in the air outflow frame 121. Specifically, the air outflow assembly 12
and the base main body 112 are fixed via a fastener, a screw or the like; and the
fan 122 is a centrifugal fan and is fixed in the air outflow frame 121. Opening are
provided at two ends of the air outflow frame 121, with one end facing the bottom
seat 111 and the other end facing the fitting part 1121. The air outflow frame 121
forms an air outflow frame air inlet 1211 at the end of the bottom seat 111 and is
in communication with the body air inlet 1141 on the base body 11; and the air outflow
frame 121 forms a second air outflow frame air outlet 1213 at the end facing the fitting
part 1121. A first air outflow frame air outlet 1212 is formed on the air outflow
frame 121 between the air outflow frame air inlet 1211 and the second air outflow
frame air outlet 1213. The first air outflow frame air outlet body air 1212 is in
communication with the body air outlet 1131 on the base body 11. Preferably, the first
air outflow frame air outlet body air 1212 is formed on a side surface of the air
outflow frame 121 with a structure in which an air outflow angle is greater than 180°,
thereby increasing the air outflow range. In this embodiment, the first air outflow
frame air outlet body air 1212 comprises three outlet ports distributed on the side
surface of the air outflow frame 121 at intervals, and an air supply angle of about
270° can be formed. The air handling module 13 is also formed on the air outflow frame
121, in particular, the air handling module 13 is formed between the air outflow frame
air inlet 1211 and the first air outflow frame air outlet 1212. The air handling module
13 is formed on the air outflow frame 121 with a pullable structure to facilitate
the after-sales service and the replacement of the air handling module of the same
type by the user, and the air handling modules having different air handling functions
can be mounted as required, so as to facilitate use of the air handling modules to
meet the personalized needs of users.
[0031] In the cavity formed by the base body 112, an electrical cabinet 14 is formed below
the air outflow assembly 12. A control panel of the base 1 can be placed in the electrical
cabinet 14, and a control panel of the air conditioner body 2 fitted with the base
1 can also be placed. Preferably, the control panels of the base 1 and the air conditioner
body 2 are both placed in the electrical cabinet 14. Moreover, the electrical cabinet
14 is remote from the body air inlet 1141 on the base body 11 and may form an air
inlet chamber 15 between the electrical cabinet 14, the body air inlet 1141 and the
air handling module 13 to ensure that the smooth air inlet and outlet of the base
1.
[0032] On the fitting part 1121, a fitting part air outlet (not marked in the figures),
a wire opening 11211 and a connecting pipe opening 11212 are formed. The fitting part
air outlet is in communication with the second air outflow frame air outlet 1213 on
the air outflow assembly 12. Moreover, after the air conditioner body 2 is fitted
with the base 1 via the fitting part 1121, a joint part air outlet 4 is formed between
the air conditioner body 2 and the fitting part 1121, and the joint part air outlet
4 is in communication with the fitting part air outlet. Consequently, the air handled
by the air handling module 13, in addition to being blown out from the first air outflow
frame air outlet 1212 and the body air outlet 1151, is blown out from the second air
outflow frame air outlet 1213, the fitting part air outlet and the joint part air
outlet 4, that is, from the top of the base 1 and the bottom of the air conditioner
body 2, to achieve multi-angle, multi-height all-round air supply, so that the air
outflow range and ways of the vertical air conditioner are increased. The wire opening
11211 provides a channel for the wires electrically connected to the electrical cabinet
14, which allows the wires connecting live parts of the air conditioner body 2 and
the electrical cabinet 14 to extend out of the base body 11 through the wire opening
11211 and into the air conditioner body 2. The connecting pipe opening 11212 provides
a channel for a connecting pipe which connects the air conditioner body 2 and an outdoor
unit of the air conditioner.
[0033] The vertical air conditioner formed by assembling the base 1 using the aforementioned
structure with the air conditioner body 2 has a reasonable structure, a wider air
outflow range and more air outflow ways, can achieve modular production and fitting,
and facilitates personalized selection.
[0034] Moreover, an air outflow grille 5 is formed on the joint part air outlet 4, to sort
out the air outflow directions. Moreover, an air outflow cover plate 6 is provided
on the joint part air outlet 4 on the outer side of the air outflow grille 5, for
opening/closing the joint part air outlet 4, so as to control whether air flows out
from the joint part air outlet 4. For example, the air outflow cover plate 6 is formed
at the joint part air outlet 4 with a structure in which the air outflow cover plate
is connected to the base 1 or/and the air conditioner body 2 in a fastened manner,
and the user can manually disassemble the air outflow cover plate 6. If it is desirable
that the air flows out from the joint part air outlet 4, the air outflow cover plate
6 is detached to open the joint part air outlet 4, and after the fan 122 of the base
1 is powered on and operates, the air handled by the air handling module 13 is blown
out from the joint part air outlet 4. If the air outflow cover plate 6 is fitted to
the joint part air outlet 4, the air outflow of the air outlet is closed, and even
if the fan 122 is powered on and operates, no air is blown out from the joint part
air outlet 4, so that the air outflow range and ways are highly controllable. As a
preferred embodiment, the air outflow grille 5 and the air outflow cover plate 6 are
both ring-shaped, so that the annular air outflow can be realized, the air outflow
angle is large and the air supply range is wide.
[0035] In order to facilitate fitting the base 1 with the air conditioner body 2 and to
increase the fitting strength of them, the air conditioner body 2 will be detachably
fitted with the base 1 via a connector 3. Specifically, the connector 3 is a round
or square disk having a similar structure to the base 1 and the air conditioner body
2, and during fitting, the connector 3 is first fixed to the fitting part 1121 of
the base 1 via a connector fixing plate 33, and then the air conditioner body 2 is
fixed to the connector 3. The joint part air outlet 4 will be formed between the fitting
part 1121 and the connector 3 when the air conditioner body 2 is fixed to the base
1 via the connector 3. Furthermore, a wire opening 31 corresponding to the wire opening
11211 on the fitting part 1121 and a connecting pipe opening 32 corresponding to the
connecting pipe opening 11212 on the fitting part 1121 are provided on the bottom
surface of the connector 3. In addition, a sealing structure is provided at the wire
opening 31 and the connecting pipe opening 32 to prevent the air at the joint part
air outlet 4 from leaking from the connector 3.
1. A vertical air conditioner, comprising an air conditioner body (2), the vertical air
conditioner further comprising a base (1) detachably fitted with the air conditioner
body (2), wherein the base (1) serves as the overall bottom seat of the air conditioner
body (2) and comprises a base body (11) which has a fitting part (1121), a body air
inlet (1141) and a body air outlet (1151) are formed on the base body (11), a cavity
is formed in the base body (11), and a fan (122) and an air handling module (13) are
formed in the cavity;
wherein an air outflow assembly (12) is formed in the cavity, and the air outflow
assembly (12) comprises an air outflow frame (121) in which the fan (122) is formed;
and the air outflow frame (121) is formed with an air outflow frame air inlet (1211)
and a first air outflow frame air outlet (1212), the first air outflow frame air outlet
(1212) being located between the air outflow frame air inlet (1211) and the fitting
part (1121), the air outflow frame air inlet (1211) is in communication with the body
air inlet (1141), and the first air outflow frame air outlet (1212) is in communication
with the body air outlet (1151);
wherein the air handling module (13) is formed on the air outflow frame (121) between
the air outflow frame air inlet (1211) and the first air outflow frame air outlet
(1212), and, when the base (1) and the air conditioner body (2) are fitted together,
the air handling module (13) realizes an additional air handling function independent
from the air conditioner body (2);
characterized in that
the air handling module (13) is formed on the air outflow frame (121) with a pullable
structure adapted to facilitate the replacement of the air handling module (13).
2. The vertical air conditioner according to claim 1, characterized in that the first air outflow frame air outlet (1212) is formed on a side surface of the
air outflow frame (121) with a structure in which an air outflow angle is greater
than 180°.
3. The vertical air conditioner according to claim 1 or 2, characterized in that a fitting part air outlet is formed on the fitting part (1121), the air outflow frame
(121) is formed with a second air outflow frame air outlet (1213) which is located
between the first air outflow frame air outlet (1212) and the fitting part air outlet,
the second air outflow frame air outlet (1213) being in communication with the fitting
part air outlet, and a joint part air outlet (4) is formed between the air conditioner
body (2) and the fitting part (1121), the joint part air outlet being in communication
with the fitting part air outlet.
4. The vertical air conditioner according to claim 3, characterized in that an air outflow cover plate (6) is provided at the joint part air outlet (4) to open/close
the joint part air outlet (4).
5. The vertical air conditioner according to claim 4, characterized in that an air outflow grille (5) is formed on the joint part air outlet (4) on the inner
side of the air outflow cover plate (6).
6. The vertical air conditioner according to claim 5, characterized in that the air outflow grille (5) and the air outflow cover plate (6) are both ring-shaped.
7. The vertical air conditioner according to claim 3, characterized in that the air conditioner body (2) is detachably fitted with the base (1) via a connector
(3), and the joint part air outlet is formed between the fitting part (1121) and the
connector (3).
8. The vertical air conditioner according to claim 1, characterized in that an electrical cabinet (14) is further formed in the cavity, a wire opening (31) and
a connecting pipe opening (32) are formed on the fitting part (1121), the wire connected
to the electrical cabinet (14) extends out of the base body (11) through the wire
opening (31), and a connecting pipe of the air conditioner body (2) extends into the
base (1) through the connecting pipe opening (32).
9. The vertical air conditioner according to claim 8, characterized in that the electrical cabinet (14) is remote from the body air inlet (1141), and the electrical
cabinet (14), the body air inlet (1141) and the air handling module (13) enclose an
air inlet chamber (15).
10. The vertical air conditioner according to claim 1, characterized in that the base body (11) comprises a bottom seat (111) and a base main body (112) which
are detachably connected, the fitting part (1121) is formed on the base main body
(112) at the end opposite to the bottom seat (111), a base support (113) is formed
between the bottom seat (111) and the fitting part (1121), an outer periphery of the
base main body (112) is formed with a housing surrounding the base main body (112),
and the body air inlet (1141) and the body air outlet (1151) are both formed on the
housing.
1. Vertikale Klimaanlage, umfassend einen Klimaanlagenkörper (2), wobei die vertikale
Klimaanlage ferner eine Basis (1) umfasst, die abnehmbar mit dem Klimaanlagenkörper
(2) zusammengefügt ist, wobei die Basis (1) als der untere Gesamtsitz des Klimaanlagenkörpers
(2) dient und einen Basiskörper (11) umfasst, der ein Passteil (1121) aufweist, wobei
am Basiskörper (11) ein Körperlufteinlass (1141) und ein Körperluftauslass (1151)
ausgebildet sind, wobei im Basiskörper (11) ein Hohlraum ausgebildet ist und wobei
im Hohlraum ein Lüfter (122) und ein Luftbehandlungsmodul (13) ausgebildet sind;
wobei im Hohlraum eine Luftausströmanordnung (12) ausgebildet ist und wobei die Luftausströmanordnung
(12) einen Luftausströmrahmen (121) umfasst, in dem der Lüfter (122) ausgebildet ist;
und wobei der Luftausströmrahmen (121) mit einem Luftausströmrahmenlufteinlass (1211)
und einem ersten Luftausströmrahmenluftauslass (1212) ausgebildet ist, wobei sich
der erste Luftausströmrahmenluftauslass (1212) zwischen dem Luftausströmrahmenlufteinlass
(1211) und dem Passteil (1121) befindet, wobei der Luftausströmrahmenlufteinlass (1211)
mit dem Körperlufteinlass (1141) in Verbindung steht und wobei der erste Luftausströmrahmenluftauslass
(1212) mit dem Körperluftauslass (1151) in Verbindung steht;
wobei das Luftbehandlungsmodul (13) am Luftausströmrahmen (121) zwischen dem Luftausströmrahmenlufteinlass
(1211) und dem ersten Luftausströmrahmenluftauslass (1212) ausgebildet ist und, wenn
die Basis (1) und der Klimaanlagenkörper (2) zusammengefügt sind, das Luftbehandlungsmodul
(13) eine vom Klimaanlagenkörper (2) unabhängige zusätzliche Luftbehandlungsfunktion
ausführt;
dadurch gekennzeichnet, dass
das Luftbehandlungsmodul (13) am Luftausströmrahmen (121) mit einer herausziehbaren
Struktur ausgebildet ist, die dazu ausgelegt ist, den Austausch des Luftbehandlungsmoduls
(13) zu ermöglichen.
2. Vertikale Klimaanlage nach Anspruch 1, dadurch gekennzeichnet, dass der erste Luftausströmrahmenluftauslass (1212) an einer Seitenfläche des Luftausströmrahmens
(121) mit einer Struktur, in der ein Luftausströmwinkel größer als 180° ist, ausgebildet
ist.
3. Vertikale Klimaanlage nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass am Passteil (1121) ein Passteilluftauslass ausgebildet ist, der Luftausströmrahmen
(121) mit einem zweiten Luftausströmrahmenluftauslass (1213) ausgebildet ist, der
sich zwischen dem ersten Luftausströmrahmenluftauslass (1212) und dem Passteilluftauslass
befindet, der zweite Luftausströmrahmenluftauslass (1213) mit dem Passteilluftauslass
in Verbindung steht und ein Verbindungsteilluftauslass (4) zwischen dem Klimaanlagenkörper
(2) und dem Passteil (1121) ausgebildet ist, wobei der Verbindungsteilluftauslass
mit dem Passteilluftauslass in Verbindung steht.
4. Vertikale Klimaanlage nach Anspruch 3, dadurch gekennzeichnet, dass am Verbindungsteilluftauslass (4) eine Luftausströmabdeckplatte (6) zum Öffnen/Schließen
des Verbindungsteilluftauslasses (4) bereitgestellt ist.
5. Vertikale Klimaanlage nach Anspruch 4, dadurch gekennzeichnet, dass am Verbindungsteilluftauslass (4) an der Innenseite der Luftausströmabdeckplatte
(6) ein Luftausströmgitter (5) ausgebildet ist.
6. Vertikale Klimaanlage nach Anspruch 5, dadurch gekennzeichnet, dass das Luftausströmgitter (5) und die Luftausströmabdeckplatte (6) beide ringförmig
sind.
7. Vertikale Klimaanlage nach Anspruch 3, dadurch gekennzeichnet, dass der Klimaanlagenkörper (2) über einen Verbinder (3) abnehmbar mit der Basis (1) zusammengefügt
ist und der Verbindungsteilluftauslass zwischen dem Passteil (1121) und dem Verbinder
(3) ausgebildet ist.
8. Vertikale Klimaanlage nach Anspruch 1, dadurch gekennzeichnet, dass im Hohlraum ferner ein Schaltschrank (14) ausgebildet ist, am Passteil (1121) eine
Drahtöffnung (31) und eine Verbindungsleitungsöffnung (32) ausgebildet sind, sich
der mit dem Schaltschrank (14) verbundene Draht durch die Drahtöffnung (31) aus dem
Basiskörper (11) erstreckt und sich eine Verbindungsleitung des Klimaanlagenkörpers
(2) durch die Verbindungsleitungsöffnung (32) in die Basis (1) erstreckt.
9. Vertikale Klimaanlage nach Anspruch 8, dadurch gekennzeichnet, dass der Schaltschrank (14) vom Körperlufteinlass (1141) entfernt ist und der Schaltschrank
(14), der Körperlufteinlass (1141) und das Luftbehandlungsmodul (13) eine Lufteinlasskammer
(15) umschließen.
10. Vertikale Klimaanlage nach Anspruch 1, dadurch gekennzeichnet, dass der Basiskörper (11) einen unteren Sitz (111) und einen Basishauptkörper (112) umfasst,
die abnehmbar verbunden sind, das Passteil (1121) am Basishauptkörper (112) an dem
dem unteren Sitz (111) entgegengesetzten Ende ausgebildet ist, ein Basisträger (113)
zwischen dem unteren Sitz (111) und dem Passteil (1121) ausgebildet ist, ein Außenumfang
des Basishauptkörpers (112) mit einem Gehäuse ausgebildet ist, das den Basishauptkörper
(112) umgibt, und der Körperlufteinlass (1141) und der Körperluftauslass (1151) beide
am Gehäuse ausgebildet sind.
1. Appareil de conditionnement d'air vertical comprenant un corps d'appareil de conditionnement
d'air (2), l'appareil de conditionnement d'air vertical comprenant en outre une base
(1) assemblé de façon amovible au corps d'appareil de conditionnement d'air (2), la
base (1) servant de siège inférieur principal au corps d'appareil de conditionnement
d'air (2) et comprenant un corps de base (11) qui a une partie d'ajustement (1121),
une admission d'air de corps (1141) et une sortie d'air de corps (1151) étant formées
sur le corps de base (11), une cavité étant formée sur le corps de base (11), et un
ventilateur (122) et un module de traitement d'air (13) étant formés dans la cavité
;
un assemblage d'évacuation d'air (12) étant formé dans la cavité, et l'assemblage
d'évacuation d'air (12) comprenant un châssis d'évacuation d'air (121) dans lequel
le ventilateur (122) est formé ; et le châssis d'évacuation d'air (121) étant formé
avec une admission d'air de châssis d'évacuation d'air (1211) et une première sortie
d'air de châssis d'évacuation d'air (1212), la première sortie d'air de châssis d'évacuation
d'air (1212) étant située entre l'admission d'air de châssis d'évacuation d'air (1211)
et la partie d'ajustement (1121), l'admission d'air de châssis d'évacuation d'air
(1211) étant en communication avec l'admission d'air de corps (1141), et la première
sortie d'air de châssis d'évacuation d'air (1212) étant en communication avec la sortie
d'air de corps (1151);
le module de traitement d'air (13) étant formé sur le châssis d'évacuation d'air (121)
entre l'admission d'air de châssis d'évacuation d'air (1211) et la sortie d'air de
châssis d'évacuation d'air (1212), et, lorsque la base (1) et le corps de conditionnement
d'air (2) sont assemblés ensemble, le module de traitement d'air (13) exécutant une
fonction de traitement d'air supplémentaire indépendamment du corps de conditionnement
d'air (2) ;
caractérisé en ce que
le module de traitement d'air (13) est formé sur le châssis d'évacuation d'air (121)
avec une structure amovible conçue pour faciliter le remplacement du module de traitement
d'air (13).
2. Appareil de conditionnement d'air vertical selon la revendication 1, caractérisé en ce que la première sortie d'air de châssis d'évacuation d'air (1212) est formée sur une
surface latérale du châssis d'évacuation d'air (121) avec une structure dans laquelle
un angle d'évacuation d'air est supérieur à 180°.
3. Appareil de conditionnement d'air vertical selon la revendication 1 ou 2, caractérisé en ce qu'une sortie d'air de partie d'ajustement est formée sur la partie d'ajustement (1121),
en ce que le châssis d'évacuation d'air (121) est formé avec une deuxième sortie d'air de châssis
d'évacuation d'air (1213) qui est située entre la première sortie d'air de châssis
d'évacuation d'air (1212) et la sortie d'air de partie d'ajustement, en ce que la deuxième sortie d'air de châssis d'évacuation d'air (1213) est en communication
avec la sortie d'air de partie d'ajustement, et en ce qu'une sortie d'air de partie de jonction (4) est formée entre le corps d'appareil de
conditionnement d'air (2) et la partie d'ajustement (1121), la sortie d'air de partie
de jonction étant en communication avec la sortie d'air de partie d'ajustement.
4. Appareil de conditionnement d'air selon la revendication 3, caractérisé en ce qu'une plaque de recouvrement d'évacuation d'air (6) est fournie sur la sortie d'air
de partie de jonction (4) pour ouvrir/fermer la sortie d'air de partie de jonction
(4).
5. Appareil de conditionnement d'air selon la revendication 4, caractérisé en ce qu'une grille d'évacuation d'air (5) est formée sur la sortie d'air de partie de jonction
(4) sur le côté intérieur de la plaque de recouvrement d'évacuation d'air (6).
6. Appareil de conditionnement d'air selon la revendication 5, caractérisé en ce que la grille d'évacuation d'air (5) et la plaque de recouvrement d'évacuation d'air
(6) sont toutes les deux en forme d'anneau.
7. Appareil de conditionnement d'air selon la revendication 3, caractérisé en ce que le corps de conditionnement d'air (2) est assemblé de façon amovible avec la base
(1) via un connecteur (3), et en ce que la sortie d'air de partie de jonction est formée entre la partie d'ajustement (1121)
et le connecteur (3).
8. Appareil de conditionnement d'air vertical selon la revendication 1, caractérisé en ce qu'une armoire électrique (14) est formée en outre dans la cavité, en ce qu'une ouverture de câble (31) et une ouverture de tuyau de raccordement (32) sont formées
dans la partie d'ajustement (1121), en ce que le câble connecté à l'armoire électrique (14) s'étendant hors du corps de base (11)
par l'ouverture de câble (31), et en ce qu'un tuyau de raccordement du corps de conditionnement d'air (2) s'étend dans la base
(1) par l'ouverture de tuyau de raccordement (32).
9. Appareil de conditionnement d'air vertical selon la revendication 8, caractérisé en ce que l'armoire électrique (14) est à distance de l'admission d'air de corps (1141), et
en ce que l'armoire électrique (14), l'admission d'air de corps (1141) et le module de traitement
d'air (13) entourent une chambre d'admission d'air (15).
10. Appareil de conditionnement d'air vertical selon la revendication 1, caractérisé en ce que le corps de base (11) comprend un siège inférieur (111) et un corps principal de
base (112) qui sont connectés de façon amovible, en ce que la partie d'ajustement (1121) est formée sur le corps principal de base (112) sur
l'extrémité opposée au siège inférieur (111), en ce qu'un support de base (113) est formé entre le siège inférieur (111) et la partie d'ajustement
(1121), en ce qu'une périphérie extérieure du corps principal de base (112) est formée avec un boîtier
entourant le corps principal de base (112), et en ce que l'admission d'air de corps (1141) et la sortie d'air de corps (1151) sont toutes
les deux formées sur le boîtier.