CN219220858U - Shock-absorbing structure, water pump and air conditioner - Google Patents

Abstract

The embodiment of the application belongs to the technical field of air conditioners and relates to a damping structure, which comprises a base, a workpiece seat and sleeved components, wherein the base is connected with the workpiece seat through the sleeved components with the set number, and the sleeved components are arranged at intervals; the sleeving assembly comprises a damping sleeve, a supporting piece and a locking piece, wherein the supporting piece is fixedly installed with the base, a limiting table equidistant with the base is arranged on the supporting piece, the locking piece is installed on the supporting piece and is in butt joint with the limiting table, the damping sleeve is sleeved on the supporting piece, one end of the damping sleeve is in butt joint with the base, and the other end of the damping sleeve is in butt joint with the locking piece; the middle part of shock attenuation cover inlays and locates the work piece seat, and the support piece is kept apart to the shock attenuation cover and the work piece seat. The application also relates to a water pump, the water pump is installed on the work piece seat of above-mentioned shock-absorbing structure. The application also relates to an air conditioner, which comprises the water pump. The technical scheme can ensure that the damping sleeve is compressed consistently, can reduce vibration and noise, and prolongs the service life of the water pump.

Description

Shock-absorbing structure, water pump and air conditioner

Technical Field

The application relates to the technical field of air conditioners, and more particularly relates to a damping structure, a water pump and an air conditioner.

Background

The indoor unit of the air conditioner can cool water in the air to form water drops in the using process, a collector for collecting the water drops is arranged in the indoor unit, and water in the collector is sucked by the water pump. The water pump can vibrate and generate noise when running, in order to reduce vibration and noise, a rubber pad is sleeved on a bolt for installing the water pump, and the water pump is separated from a base for installing the water pump by the rubber pad. At present, when installing the water pump, be difficult to guarantee that the rubber pad compresses unanimously in each bolt department for the water pump installation difficulty, the rotation axis of water pump skew setting for the direction easily, lead to inside the water pump with rotatory relevant part wearing and tearing fast, vibrations and noise are big, water pump life is short.

Disclosure of Invention

The embodiment of the application is used for solving the technical problem that in the prior art, when the water pump is installed in the air conditioner indoor unit, the rubber pad is difficult to ensure that the compression of each bolt is consistent.

In order to solve the above technical problems, the embodiments of the present application provide a shock absorbing structure, which adopts the following technical scheme:

the damping structure comprises a base, a workpiece seat and sleeved components, wherein the base is connected with the workpiece seat through a set number of the sleeved components, and the sleeved components are arranged at intervals;

the assembly comprises a damping sleeve, a supporting piece and a locking piece, wherein the supporting piece is fixedly installed with the base, a limiting table equidistant with the base is arranged on the supporting piece, the locking piece is installed on the supporting piece and is abutted to the limiting table, the damping sleeve is sleeved on the supporting piece, one end of the damping sleeve is abutted to the base, and the other end of the damping sleeve is abutted to the locking piece;

the middle part of the damping sleeve is embedded in the workpiece seat, and the damping sleeve isolates the supporting piece from the workpiece seat.

Further, the end portion of the damping sleeve facing the base is provided with a damping groove, and an opening of the damping groove along the axial direction of the damping groove is flush with the end face of the damping sleeve facing the base.

Further, the shock absorbing groove includes a central cavity and a plurality of radial grooves, each of the radial grooves being in communication with the central cavity.

Further, the shock absorbing structure further comprises a connecting piece, the connecting piece is connected with at least two shock absorbing sleeves, and the connecting piece is made of shock absorbing materials.

Further, at least one shock absorbing piece is arranged on the connecting sleeve piece and connected with the workpiece seat, and the shock absorbing piece and the shock absorbing sleeve are arranged at intervals; or/and the combination of the two,

the side surface, far away from the base, of the connecting piece is abutted against the workpiece seat.

Further, the workpiece seat is L-shaped, one arm of the L-shape is connected with the sleeving assembly, and the other arm of the L-shape is installed with the workpiece.

Further, a bayonet is arranged at the edge of the workpiece seat, a necking part is arranged on the damping sleeve, and the necking part is embedded in the bayonet.

Further, the bayonet comprises a round portion and a straight portion, the round portion is communicated with the straight portion, the necking portion enters the round portion through the straight portion, the diameter of the round portion is larger than the width of the straight portion, and the direction of the width is perpendicular to the direction of the necking portion through the straight portion.

In order to solve the technical problems, the embodiment of the application also provides a water pump, which adopts the following technical scheme:

the water pump is arranged on the workpiece seat of the shock absorption structure.

In order to solve the technical problems, the embodiment of the application also provides an air conditioner, which adopts the following technical scheme:

an air conditioner comprising the water pump.

Compared with the prior art, the embodiment of the application has the following main beneficial effects: the base is connected with the workpiece seat through the support piece, through the suit damping sleeve on the support piece, the middle part of the damping sleeve is embedded in the workpiece seat, the one end butt base of the damping sleeve, the other end butt of the damping sleeve is in the retaining member of installing on the support piece, make the damping sleeve separate support piece and base with the workpiece seat, the damping sleeve can avoid the vibrations that work piece (such as water pump) that install on the workpiece seat produced to directly transmit to support piece and base, can weaken vibrations to a great extent, through setting up the spacing platform equidistant with the base on the support piece, retaining member and spacing platform butt can guarantee that the damping sleeve is unanimous by the retaining member compression, make the water pump installation simple, the rotation axis line of water pump is unanimous with setting for the inside and rotatory relevant part of water pump can smooth operation, avoid quick wear, make water pump vibrations and noise little, long service life.

Drawings

For a clearer description of the solution of the present application, a brief introduction will be given to the drawings needed in the description of the embodiments, which are some embodiments of the present application, and from which other drawings can be obtained for a person skilled in the art without the inventive effort.

FIG. 1 is a schematic perspective view of a shock absorbing structure according to one embodiment of the present application;

FIG. 2 is a schematic view of the mounting of the base and support of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the retaining member of FIG. 1;

FIG. 5 is a schematic illustration of the coupling member of FIG. 1 coupled to a damping sleeve;

FIG. 6 is a schematic view of the coupling member of FIG. 1 in another direction of coupling with the damping sleeve;

fig. 7 is a schematic view of the workpiece holder and workpiece mounting of fig. 1.

Reference numerals: 1000-damping structure, 1-base, 2-workpiece seat, 21-bayonet, 211-round part, 212-straight part, G-workpiece, G1-water pump, 3-suit component, 31-damping sleeve, 311-damping groove, 3111-central cavity, 3112-radial groove, 312-necking part, 32-supporting piece, 321-limiting table, 33-locking piece, 4-connecting piece and 41-shock absorbing piece.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the applications herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the present application and in the description of the figures above are intended to cover non-exclusive inclusions. The terms first, second and the like in the description and in the claims or in the above-described figures, are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

An embodiment of the present application provides a shock absorbing structure, referring to the shock absorbing structure 1000 shown in fig. 1, which is a schematic perspective view of an embodiment of the shock absorbing structure of the present application, where the shock absorbing structure 1000 includes a base 1, a workpiece seat 2, and a sleeve assembly 3. The work piece holder 2 is used for mounting a work piece G (e.g., a water pump G1 or a motor) that generates vibration when in shipment. The base 1 is connected with the workpiece seat 2 through a set number of sleeved components 3, and the sleeved components 3 are arranged at intervals.

Referring to fig. 1, in combination with fig. 2 to 6, each sheathing assembly 3 has the same structure, and the sheathing assembly 3 includes a damping sleeve 31, a support member 32, and a locking member 33. Each supporting member 32 is fixedly installed on the base 1 (see fig. 2), a limiting table 321 (see fig. 3) equidistant from the base 1 is arranged on each supporting member 32, a locking member 33 is installed on each supporting member 32, the locking member 33 is abutted to the limiting table 321, a damping sleeve 31 is sleeved on each supporting member 32, one end of the damping sleeve 31 is abutted to the base 1, and the other end of the damping sleeve 31 is abutted to the locking member 33. The middle part of the damping sleeve 31 is embedded in the workpiece seat 2, and the damping sleeve 31 isolates the supporting piece 32 from the workpiece seat 2. Since the middle part of the damping sleeve 31 is embedded in the workpiece seat 2, the damping sleeve 31 also isolates the base 1 from the workpiece seat 2. That is, the damper sleeve 31 separates both the support 32 and the base 1 from the workpiece holder 2, the damper sleeve 31 plays a role in damping, and the damper sleeve 31 is made of a material having a role in absorbing vibration energy, such as rubber. The locking member 33 may be a nut, and when the nut is a nut, the supporting member 32 is provided with a thread which is engaged with the nut. For a better understanding of retaining member 33, reference is also made to retaining member 33 shown in fig. 4. The locking member 33 may have other structures, as long as it can be locked with the supporting member 32, and can simultaneously abut against the limiting table 321 and the damping sleeve 31 to ensure that the damping sleeve 31 is compressed and consistent. For example, the locking member 33 may include a press sleeve (not shown) and a locking pin (not shown), the press sleeve is sleeved on the supporting member 32, a pin hole (not shown) is provided on the supporting member 32, a center line of the pin hole is perpendicular to a center line of the supporting member 32, the locking pin is installed in the pin hole, and a portion of the locking pin exposed out of the pin hole presses the press sleeve on the limiting table 321.

Since the support member 32 is spaced from the workpiece seat 2 by the damping sleeve 31, the damping sleeve 31 can prevent vibration generated by the workpiece G mounted on the workpiece seat 2 from being directly transmitted to the support member 32, and since the support member 32 and the damping sleeve 31 isolate the base 1 from the workpiece seat 2, the base 1 can be prevented from being driven to vibrate, so that vibration can be greatly weakened, and noise can be reduced. Through all set up on each support piece 32 with base 1 equidistant spacing platform 321, retaining member 33 and spacing platform 321 butt can guarantee that damping sleeve 31 is unanimous by retaining member 33 compression for work piece G installation such as water pump G1 is simple, can guarantee that work piece G's rotation axis is unanimous with the settlement direction, and work piece G inside and the rotatory relevant part can smooth and easy operation, avoid quick wearing and tearing, make work piece G long service life, vibrations and noise are little.

Further, in this embodiment, the number of the sheathing assemblies 3 is four, however, in other embodiments, the number of the sheathing assemblies 3 may be increased or decreased according to the sizes of the workpiece G, the supporting member 32 and the damping sleeve 31. When the workpiece G is small and the cross-sections of the support 32 and the damping sleeve 31 are large, the sheathing assembly 3 may even be just one.

Further, in the present embodiment, the end of the damper sleeve 31 facing the base 1 is provided with a damper groove 311 (see the damper sleeve 31 shown in fig. 6), and the opening of the damper groove 311 in the axial direction thereof is flush with the end face of the damper sleeve 31 facing the base 1. The shock absorbing grooves 311 may reduce the contact area of the shock absorbing cap 31 with the base 1 to reduce the shock transferred to the base 1 by the shock absorbing cap 31.

Further, referring to fig. 6, in the present embodiment, the shock absorbing groove 311 includes a central cavity 3111 and a plurality of radial grooves 3112, each radial groove 3112 is communicated with the central cavity 3111, and along an axial direction of the shock absorbing groove 311, an opening of each radial groove 3112 and an opening of the central cavity 3111 are flush with an end face of the shock absorbing sleeve 31 facing the base 1. The shape of the shock absorbing groove 311 can be optimized, and the shock absorbing effect of the shock absorbing groove 311 can be enhanced.

Further, referring to fig. 6, in this embodiment, the shock absorbing structure 1000 further includes a connecting member 4, where each two shock absorbing sleeves 31 are connected by one connecting member 4, and the connecting member 4 is made of a shock absorbing material such as rubber. The connecting sleeve piece 4 is connected with the damping sleeve 31, and the damping sleeve 31 is convenient to store and install. The connecting sleeve 4 is made of damping materials, so that the damping effect can be enhanced. Of course, in other embodiments, three or more damping sleeves 31 may be connected by a coupling member 4.

Further, referring to fig. 1 and fig. 5, in this embodiment, each of the connecting members 4 is provided with a shock absorbing member 41, the shock absorbing member 41 is connected to the workpiece seat 2, and the shock absorbing member 41 is spaced from the shock absorbing sleeve 31. The shock absorbing member 41 is made of a shock absorbing material such as rubber, and can enhance the shock absorbing effect. Of course, in other embodiments, the number of shock absorbing members 41 may be increased.

Further, referring to fig. 1, in the present embodiment, the side surface of the connecting member 4 away from the base 1 abuts against the workpiece seat 2, and the connecting member 4 can directly absorb the vibration of the workpiece seat 2, so as to enhance the damping effect.

Further, referring to fig. 7, in conjunction with fig. 1, in this embodiment, the workpiece seat 2 is L-shaped, one arm of the L-shape is connected to the sleeving assembly 3, and the other arm of the L-shape is mounted to the workpiece G. In order to adapt to the requirements of the use scene of the workpiece G, under the condition that the installation orientations of the base 1 and the sleeving assembly 3 are unchanged, the direction of the rotation axis of the workpiece G can be changed, for example, the direction of the rotation axis is changed from the vertical direction to the horizontal direction, or the horizontal direction is changed from the horizontal direction to the vertical direction.

Further, referring to fig. 7, in the embodiment, with reference to fig. 1 and 5, the edge of the workpiece seat 2 is provided with a bayonet 21, and the damping sleeve 31 is provided with a necking portion 312 (referring to the damping sleeve 31 shown in fig. 5), and the necking portion 312 is embedded in the bayonet 21, so that the damping sleeve 31 and the workpiece seat 2 can be conveniently installed.

Further, referring to fig. 7, in this embodiment, with reference to fig. 1, the bayonet 21 includes a round portion 211 and a straight portion 212, the round portion 211 is communicated with the straight portion 212, the necked portion 312 enters the round portion 211 through the straight portion 212, the diameter of the round portion 211 is larger than the width of the straight portion 212, and the direction of the width is perpendicular to the direction of the necked portion 312 passing through the straight portion 212, so as to avoid the damping sleeve 31 from being accidentally pulled out from the bayonet 21.

The embodiment of the application further provides a water pump, referring to the water pump G1 shown in fig. 1, where the water pump G1 is installed on the workpiece seat 2 of the shock absorbing structure 1000. This water pump G1 is because of installing on the work piece seat 2 of shock-absorbing structure 1000 of this application, can weaken the vibrations that water pump G1 produced greatly, and damping sleeve 31 is compressed unanimously, can ensure that the rotation axis of water pump G1 follows the settlement direction, makes the inside part smooth operation that is correlated with the rotation of water pump G1, avoids quick wearing and tearing, and water pump running noise is little, long service life.

The embodiment of the application also provides an air conditioner, which comprises the water pump G1 (see fig. 1). This air conditioner is because of using the water pump G1 of this application, and the noise is little, long service life, and the drainage is reliable.

It is apparent that the embodiments described above are only some embodiments of the present application, but not all embodiments, the preferred embodiments of the present application are given in the drawings, but not limiting the patent scope of the present application. This application may be embodied in many different forms, but rather, embodiments are provided in order to provide a more thorough understanding of the present disclosure. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing, or equivalents may be substituted for elements thereof. All equivalent structures made by the specification and the drawings of the application are directly or indirectly applied to other related technical fields, and are also within the protection scope of the application.

Claims (10)

1. A shock-absorbing structure, characterized in that: the damping structure comprises a base, a workpiece seat and sleeved components, wherein the base is connected with the workpiece seat through a set number of the sleeved components, and the sleeved components are arranged at intervals;

the assembly comprises a damping sleeve, a supporting piece and a locking piece, wherein the supporting piece is fixedly installed with the base, a limiting table equidistant with the base is arranged on the supporting piece, the locking piece is installed on the supporting piece and is abutted to the limiting table, the damping sleeve is sleeved on the supporting piece, one end of the damping sleeve is abutted to the base, and the other end of the damping sleeve is abutted to the locking piece;

the middle part of the damping sleeve is embedded in the workpiece seat, and the damping sleeve isolates the supporting piece from the workpiece seat.

2. The shock absorbing structure of claim 1, wherein: the end of the damping sleeve facing the base is provided with a damping groove, and an opening of the damping groove along the axial direction of the damping groove is flush with the end face of the damping sleeve facing the base.

3. The shock absorbing structure of claim 2, wherein: the shock absorbing groove comprises a central cavity and a plurality of radial grooves, and each radial groove is communicated with the central cavity.

4. The shock absorbing structure of claim 1, wherein: the shock-absorbing structure further comprises a connecting piece, the connecting piece is connected with at least two shock-absorbing sleeves, and the connecting piece is made of shock-absorbing materials.

5. The shock absorbing structure of claim 4, wherein: the connecting sleeve piece is provided with at least one shock absorbing piece, the shock absorbing piece is connected with the workpiece seat, and the shock absorbing piece and the shock absorbing sleeve are arranged at intervals; or/and the combination of the two,

the side surface, far away from the base, of the connecting piece is abutted against the workpiece seat.

6. The shock absorbing structure as claimed in any one of claims 1 to 5, wherein: the workpiece seat is L-shaped, one arm of the L-shape is connected with the sleeving assembly, and the other arm of the L-shape is installed with a workpiece.

7. The shock absorbing structure as claimed in any one of claims 1 to 5, wherein: the edge of the workpiece seat is provided with a bayonet, the damping sleeve is provided with a necking part, and the necking part is embedded in the bayonet.

8. The shock absorbing structure of claim 7, wherein: the bayonet comprises a round part and a straight part, the round part is communicated with the straight part, the necking part enters the round part through the straight part, the diameter of the round part is larger than the width of the straight part, and the direction of the width is perpendicular to the direction of the necking part through the straight part.

9. A water pump, characterized in that: the water pump is mounted on the work piece seat of the shock absorbing structure according to any one of claims 1 to 8.

10. An air conditioner, characterized in that: the air conditioner comprises the water pump of claim 9.

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