MOUNTING STRUCTURE OF WATER PUMP

Abstract

 The invention relates to an installation structure of a water pump applied to an aquarium, a garden pond or an aquaculture pond, the installation structure includes a pump body which is provided with a water outlet and an installation base. The installation base is provided with a rotary shaft hole; the pump body is provided with a rotary shaft which is installed in the rotary shaft hole and is rotatable around the rotary shaft hole. When using the water pump with this kind of structure after the installation base is fixed, position and direction of the water outlet is still adjustable by the pump body via rotation of the rotary shaft, so as to achieve a better connection with a pipeline, thereby solving a problem that an elbow is to be relied upon or the pipeline would bend during connection; meanwhile, smoothness of the pipeline facilitates reduction of water flow consumption, and improvement of operation efficiency of the water pump.

Description

Technical Field

[0001] The invention relates to an installation structure of a water pump, and relates to modification of a pump body of a water pump and an assembly structure of an installation base, and particularly relates to a water pump installation structure in which an orientation of a water outlet of a pump body is adjustable so as to be conveniently connected with a pipeline.

Technical Background

[0002] For convenience of installation and use, a water pump applied to an aquarium, a garden pond or an aquaculture pond is generally provided with an installation base for installing the water pump on bottom of the pond or an installation bracket.

[0003] In the prior art, the installation base can be directly connected with a pump case integrally, or be fixed on the pump case via screws. The installation base and the pump case are unadjustable after being assembled together, so that a position and direction on the pump case between the water outlet and the installation base are relatively fixed, and a direction of an installation face of the installation base has to be changed once the position or direction of the water outlet is required to be adjusted.

[0004] Generally, a bottom surface of the installation base is installed on a bottom wall of a pond. Because water outlets of most of water pumps are arranged in a direction perpendicular to the bottom surface of the installation base, the water outlets of most of water pumps are in an upward direction perpendicular to the bottom wall of the pond.

[0005] A pipeline is used in a pond for connecting a water pump to lead water out of the pond, and the water outlet is always required to be led to lateral directions on two sides of the water pump, however the orientation of the existing water outlet is unadjustable in use, so that difficulties would be caused to pipeline installation, and a pipeline is likely to be bended during installation, and/or an elbow or a flexible pipe is required to be adopted for changing a water draining direction, thereby increasing not only consumption of water flow, but also equipment cost and/or operation cost.

Summary of Invention

[0006] The invention aims to provide an installation structure of a water pump. A pump body of the water pump can rotate by 360 degrees around planes of an installation base in up, down, left and right directions, so that a position and direction of a water outlet of the pump body is adjustable in use for conveniently connecting with a water diversion pipeline.

[0007] The invention further aims to provide an installation structure of a water pump submitting an assembly structure form of a pump body, an installation base and a rotary shaft, so that people can simply and conveniently mount or dismount as required.

[0008] Aims of the invention are realized by following schemes.

[0009] An installation structure of a water pump includes a pump body which is provided with a water outlet and an installation base. The installation base is provided with a rotary shaft hole; the pump body is provided with a rotary shaft which is installed in the rotary shaft hole and is rotatable around the rotary shaft hole.

[0010] Hence, when using the water pump with this kind of structure after the installation base is fixed, position and direction of the water outlet is still adjustable by the pump body via rotation of the rotary shaft, so as to achieve a better connection with a pipeline, thereby solving a problem that an elbow is to be relied upon or the pipeline would bend during connection, so that connection and installation are more convenient; meanwhile, smoothness of the pipeline facilitates reduction of water flow consumption, and improvement of operation efficiency of the water pump.

[0011] In the scheme above, the installation base and/or the rotary shaft hole are/is axially provided with a first limit surface and a second limit surface; the pump body and/or the rotary shaft are/is axially provided with a third limit surface and a fourth limit surface, and the first limit surface and the second limit surface are positioned between the third limit surface and the fourth limit surface, or the third limit surface and the fourth limit surface are positioned between the first limit surface and the second limit surface, and two limit surfaces positioned on outer sides can restrict axial displacement of two limit surfaces positioned in the middle. Thus, axial displacement between the rotary shaft and the rotary shaft hole can be prevented so as to prevent falling off between the rotary shaft and the rotary shaft hole.

[0012] In the scheme above, the rotary shaft is directly formed at periphery of the pump body in axial direction, so that the rotary shaft can directly drive the pump body to rotate around the rotary shaft hole of the installation base.

[0013] In the scheme above, the rotary shaft is an independent annular element, and can be sleeved outside of the pump body via a central hole of the rotary shaft, and the rotary shaft and the pump body cannot rotate relatively after being assembled, so that the rotary shaft can drive the pump body to rotate, and there is possibility of dismounting and assembly between the pump body and the rotary shaft.

[0014] In the scheme above, the rotary shaft extends out from the rotary shaft hole of the installation base from back to front; an outer convex ring is formed at a rear part of the rotary shaft; a front end surface of the outer convex ring acts as a fourth limit surface; a rear end surface of the rotary shaft hole acts as a second limit surface which is blocked by the fourth limit surface, and the rotary shaft is positioned in the rotary shaft hole of the installation base; the pump body extends into the central hole of the rotary shaft from front to back; the pump body is provided with bulged shoulders; a rear end surface of each bulged shoulder acts as third limit surfaces; a front end surface of the rotary shaft hole acts as a first limit surface which is blocked by the third limit surfaces, and the pump body is positioned in the central hole of the rotary shaft; the rotary shaft is axially fixed on the pump body via screws.

[0015] Therefore, the installation base can be clamped between the rotary shaft and the pump body; moreover, the rotary shaft cannot axially move or fall off along the pump body.

[0016] Regarding the installation structure of the water pump obtained in this way, because the annular rotary shaft is clamped between the rotary shaft hole and the pump body by the installation base via the rotary shaft hole, and the rotary shaft is fixed on the pump body, not only the installation base and the pump body are connected together and cannot be separated from each other, but also the rotary shaft cannot axially move along the pump body; meanwhile, weight of the pump body is supported upon the installation base via the rotary shaft.

[0017] Regarding the installation structure of the water pump of the invention, the rotary shaft can rotate along an inner side wall of the rotary shaft hole, so that the pump body can be driven by the rotary shaft to rotate by 360 degrees around the rotary shaft hole of the installation base along planes in up, down, left and right directions, so that position and orientation of the water outlet in the pump body is adjustable so as to connect with pipelines led in from different directions; because adjustment of the water outlet enables the water outlet to be located in any position of the installation base at 360 degrees along planes in up, down, left and right directions, so that adjustment of the water outlet has a wider range.

[0018] The installation base of the water pump is simple in structure and is easy to produce, and a sleeving structure is adopted for the rotary shaft and the pump body, and limit surfaces of the installation base and the pump body or the rotary shaft are adopted to limit each other, so that the pump body, the rotary shaft and the installation base can be easily dismounted and assembled, and are convenient for users to use; meanwhile, it would facilitate manufacturers to reduce packaging and transportation costs.

[0019] In the description, the rotary shaft hole and/or the rotary shaft can be composed of one or a plurality of planes or cambered surfaces.

[0020] In the description, any of the first, second, third and fourth limit surfaces can be composed of one or a plurality of continuous or discontinuous planes or cambered surfaces.

[0021] In the scheme, an anti-sliding structure can be further arranged between the installation base and the rotary shaft or between the installation base and the pump body, so that the pump body and the installation base can be positioned relatively after adjusting the water outlet, so as to prevent random free rotation of the pump body during water pumping.

Description of Drawings

[0022] 

Fig. 1 is a structural schematic diagram showing a specific embodiment of the invention;

Fig. 2 is an exploded schematic diagram showing each part of an installation structure of a water pump in Fig. 1;

Fig. 3 is a sectional schematic diagram showing the installation structure of the water pump in Fig. 1;

Fig. 4 is a structural schematic diagram showing another specific embodiment of the invention;

Fig. 5 is an exploded schematic diagram showing each part of the installation structure of the water pump in Fig. 4;

Fig. 6 is a sectional schematic diagram showing the installation structure of the water pump in Fig. 4.

Detailed Description of Embodiment

[0023] Structures of the invention are described in detail below in conjunction with accompanying drawings.

Embodiment 1:

[0024] Referring to Fig 1 to Fig. 3, an installation structure of a water pump includes a pump body 1, an installation base 2, a rotary shaft 3 and screws 4.

[0025] The pump body 1 is provided with a water outlet 11, and is axially provided with a plurality of protruding edges 1a; periphery of outer side of the rotary shaft 3 is provided with a rotary shaft surface 31; the installation base 2 is provided with a rotary shaft hole 21; the rotary shaft surface 31 can be internally sleeved into the rotary shaft hole 21 which supports the rotary shaft 3 and enables the rotary shaft 3 to rotate; an inner side surface of the rotary shaft 3 is also provided with a plurality of grooves 33; the rotary shaft 3 can externally sleeve outer side of the pump body 1, and the plurality of protruding edges 1a can be respectively positioned in and matched with the plurality of grooves 33, so that the rotary shaft 3 and the pump body 1 cannot rotate relatively, and the rotary shaft 3 can drive the pump body 1 to rotate around the rotary shaft hole 21; in addition, a front end surface 21a of the rotary shaft hole 21 acts as a first limit surface, and a rear end surface 21b of the rotary shaft hole 21 acts as a second limit surface; an outer convex ring 32 is formed on a rear part of the rotary shaft 3, and a front end surface 32a of the outer convex ring 32 acts as a fourth limit surface; a rear end surface 12a of each bulged shoulder 12 of an installation column of the pump body 1 is used as a third limit surface; the rotary shaft 3 extends out from the rotary shaft hole 21 of the installation base 2 from back to front, and the second limit surface 21b is blocked by the fourth limit surface 32a so as to prevent the rotary shaft hole 21 from displacing or falling off backwardly, and the rotary shaft 3 is positioned in the rotary shaft hole 21 of the installation base 2; the pump body 1 extends into a central hole of the rotary shaft 3 from front to back, and the first limit surface 21a is blocked by the third limit surface 12a so as to prevent the rotary shaft hole 21 from displacing or falling off forwardly, and the pump body 1 is positioned in the central hole of the rotary shaft 3; moreover, the rotary shaft hole 21 of the installation base 2 is provided with a clamping block 23 which is provided with a protruding edge 23a; the rotary shaft surface 31 of the rotary shaft 3 is provided with a plurality of grooves 34; when the rotary shaft 3 rotates around the rotary shaft hole 21, the protruding edge 23a can be clamped into a certain groove 34, thereby preventing free rotation between the rotary shaft 3 and the pump body 1; finally, the rotary shaft 3 is axially fixed on the pump body 1 via screws 4.

[0026] In this way, the installation base 2 can be clamped between the third limit surfaces 12a of the pump body 1 and the fourth limit surface 32a of the rotary shaft 3 via the first limit surface 21a and the second limit surface 21b of the rotary shaft hole 21, and the rotary shaft 3 is fixed on the pump body 1 via the screws 4, hence, not only the installation base 2 and the pump body 1 are connected together and cannot separate from each other, but also the rotary shaft 3 cannot axially move along the pump body 1; meanwhile, weight of the pump body 1 is supported upon the installation base 2 via the rotary shaft 3, and most importantly, the rotary shaft 3 can rotate in the rotary shaft hole 21 with manpower, and drive the pump body 1 to rotate around the installation base 2; in addition, the protruding edge 23a can be clamped into a certain groove 34 to prevent free rotation between the rotary shaft 3 and the pump body 1 so as to prevent random rotation of the pump body 1 that is likely to occur during water pumping.

Embodiment 2:

[0027] Referring to Fig. 4-Fig. 6, an installation structure of a water pump includes a pump body 1, an installation base 2, a rotary shaft 3, screws 4, a limit ring 5 and an anti-sliding screw 6. The pump body 1 is provided with a water outlet 11; an annular rotary shaft 3 is axially formed on periphery of outer side of the pump body 1; a front end surface 3a of the rotary shaft 3 acts as a third limit surface, and a rear end surface 3b of the rotary shaft 3 acts as a fourth limit surface; the installation base 2 is provided with a rotary shaft hole 21, a rotary shaft surface 31 can be internally sleeved in the rotary shaft hole 21, the rotary shaft hole 21 supports the rotary shaft 3 and enables the rotary shaft 3 to rotate, an inner bulged ring 22 is formed on a rear end part of the rotary shaft hole 21, and an inner side surface 22a of the inner bulged ring 22 acts as a second limit surface; a limit ring 5 is a flat annular element and is provided with a plurality of screw holes which can be fixed with the installation base 2 via the screws 4, middle of the limit ring 5 is provided with a hole through which the pump body 1 can extend through, and a surface 5a of the limit ring 5 toward the installation base 2 acts as a first limit surface; after the limit ring 5 and the installation base 2 are fixedly assembled, the first limit surface 5a on the limit ring 5 is positioned on a front end of the third limit surface 3a of the rotary shaft 3 in axial direction so as to restrict forwardly displacing or falling off of the rotary shaft 3; the second limit surface 22a on the installation base 2 is positioned on a rear end of the fourth limit surface 3b of the rotary shaft 3 so as to restrict backwardly displacing or falling off of the rotary shaft 3; an installation frame is provided with a threaded anti-sliding screw hole 23; the anti-sliding screw 6 is threaded and is installed in the anti-sliding screw hole 23 of the installation frame; rotation of the anti-sliding screw 6 enables the anti-sliding screw 6 to displace inwardly and abut against the rotary shaft 3, or to displace outwardly and loosen the rotary shaft 3.

[0028] Thus, the pump body 1 is clamped between the first limit surface 5a of the limit ring 5 and the second limit surface 22a of the installation base 2 by the third limit surface 3a and the fourth limit surface 3b of the rotary shaft 3, and the limit ring 5 is fixed on the installation base 2 via the screws 4, therefore, not only the pump body 1 and the installation base 2 are connected together and cannot separate from each other, but also the rotary shaft 3 cannot axially move along the rotary shaft hole 21 of the installation base 2; meanwhile, weight of the pump body 1 is supported upon the installation base 2 via the rotary shaft 3, and most importantly, the rotary shaft 3 can rotate in the rotary shaft hole 21 with manpower, and drive the pump body 1 to rotate around the installation base 2; in addition, the anti-sliding screw 6 can be rotated to displace inwardly and abut against the rotary shaft 3 so as to prevent random rotation of the pump body 1 that is likely to occur during water pumping.

Claims

1. An installation structure of a water pump, comprising a pump body and an installation base, wherein the pump body is provided with a water outlet, characterized in that the installation base is provided with a rotary shaft hole; the pump body is provided with a rotary shaft which is installed in the rotary shaft hole and is rotatable around the rotary shaft hole.

2. The installation structure of a water pump according to claim 1, wherein the installation base and/or the rotary shaft hole are/is axially provided with a first limit surface and a second limit surface; the pump body and/or the rotary shaft are/is axially provided with a third limit surface and a fourth limit surface, and the first limit surface and the second limit surface are positioned between the third limit surface and the fourth limit surface, or the third limit surface and the fourth limit surface are positioned between the first limit surface and the second limit surface.

3. The installation structure of a water pump according to claim 1 or 2, wherein the rotary shaft is directly formed at periphery of the pump body in axial direction.

4. The installation structure of a water pump according to claim 1 or 2, wherein the rotary shaft is an independent annular element, and can be sleeved outside of the pump body via a central hole, and the rotary shaft and the pump body cannot rotate relatively after assembly.

5. The installation structure of a water pump according to claim 4, wherein the rotary shaft extends out from the rotary shaft hole of the installation base from back to front; an outer convex ring is formed at a rear part of the rotary shaft; a front end surface of the outer convex ring acts as a fourth limit surface; a rear end surface of the rotary shaft hole acts as a second limit surface which is blocked by the fourth limit surface, and the rotary shaft is positioned in the rotary shaft hole of the installation base; the pump body extends into the central hole of the rotary shaft from front to back; the pump body is provided with bulged shoulders; a rear end surface of each bulged shoulder acts as a third limit surface, a front end surface of the rotary shaft hole acts as a first limit surface which is blocked by the third limit surface, and the pump body is positioned in the central hole of the rotary shaft; the screws axially fix the rotary shaft on the pump body.

6. The installation structure of a water pump according to claim 1 or 2, wherein an anti-sliding structure is arranged between the installation base and the rotary shaft or between the installation base and the pump body.

7. The installation structure of a water pump according to claim 3, wherein an anti-sliding structure is arranged between the installation base and the rotary shaft or between the installation base and the pump body.

8. The installation structure of a water pump according to claim 4, wherein an anti-sliding structure is arranged between the installation base and the rotary shaft or between the installation base and the pump body.

9. The installation structure of a water pump according to claim 5, wherein an anti-sliding structure is arranged between the installation base and the rotary shaft or between the installation base and the pump body.

10. The installation structure of a water pump according to claim 1 or 2, wherein the rotary shaft hole and/or the rotary shaft are/is composed of one or a plurality of cambered surfaces or planes; any of the first, second, third and fourth limit surfaces is composed of one or a plurality of continuous or discontinuous planes or cambered surfaces.

Drawing