CN205779566U - Air-conditioner, compressor assembly and callosity thereof - Google Patents

Abstract

This utility model provides a kind of callosity, and one end of described callosity is connected with the chassis of compressor assembly, and the other end of described callosity is connected with the compressor bottom board of described compressor assembly；Described callosity includes: vibration damping body；And two screw elements, it is embedded at the two ends of described vibration damping body respectively, and the end of described screw element protrudes from the end of described vibration damping body；One of them described screw element is connected with described chassis, and another described screw element is connected with described compressor bottom board.By the way of embedding, screw element is fixed on vibration damping body, so can make the vibration damping body will not be by the effect of contraction of screw element so that vibration damping body can fully swing and twist, consume the vibrational energy of compressor, strengthen effectiveness in vibration suppression.Meanwhile, the screw element of embedding can also ensure that and there is not gap between vibration damping body and screw element, additionally it is possible to reduce the abrasion of vibration damping body, improves reliability.This utility model additionally provides air-conditioner and compressor assembly.

Description

Air-conditioner, compressor assembly and callosity thereof

Technical field

This utility model relates to compression device technical field, particularly relates to a kind of air-conditioner, compressor assembly and foot thereof Pad.

Background technology

At present, in the middle of callosity, there is the circular hole running through callosity, callosity can be inserted by this hole and be fixed on chassis Bolt.Compressor bottom board is stuck on callosity, and compressor bottom board bears compressor all wt.Owing to the diameter of bolt is than callosity circular hole Little, there is between nuts and callosity the gap of 0.5～2mm, callosity can rock in less scope.But, air-conditioning is in fortune In row and transportation, compressor produces and rocks more greatly, is susceptible between callosity and compressor bottom board, bolt and nuts Friction, causes callosity to wear and tear, when particularly compressor bottom board exists sharp edge, can cut callosity so that abrasion aggravation.Foot The abrasion of pad can weaken effectiveness in vibration suppression so that the pipeline stress of compressor increases, noise penalty.Meanwhile, the bolt run through is to foot Around pad, motion has certain constraint so that callosity can not fully swing and twist, and reduces its effectiveness in vibration suppression, And then affect the serviceability of air-conditioner.

Utility model content

Based on this, it is necessary to the abrasion existed for current callosity and the weak problem of effectiveness in vibration suppression, it is provided that a kind of reduce Abrasion, the callosity of enhancing effectiveness in vibration suppression, additionally provide a kind of compressor assembly containing above-mentioned callosity simultaneously, and containing above-mentioned The air-conditioner of compressor assembly.

Above-mentioned purpose is achieved through the following technical solutions:

A kind of callosity, one end of described callosity is connected with the chassis of compressor assembly, and the other end of described callosity is with described The compressor bottom board of compressor assembly connects；Described callosity includes:

Vibration damping body；And

Two screw elements, are embedded at the two ends of described vibration damping body respectively, and the end of described screw element protrudes from described The end of vibration damping body；

One of them described screw element is connected with described chassis, and another described screw element is connected with described compressor bottom board.

Wherein in an embodiment, the height sum of two described screw element described vibration damping body parts of embedding is described Vibration damping body is along 0.2 times～0.7 times of height of the axial direction of described screw element.

Wherein in an embodiment, described callosity also includes two pads, and two described pads are respectively arranged at described The two ends of vibration damping body；

Described pad is fixed on described vibration damping body, and described screw element wears described pad and is installed on described vibration damping originally On body.

Wherein in an embodiment, described pad is embedded on described vibration damping body；

The thickness of described pad is 0.1 times～0.5 times of the height of described vibration damping body.

Wherein in an embodiment, described vibration damping body be shaped as cylindricality.

Wherein in an embodiment, described vibration damping body is revolving body, and the cross sectional shape of outer peripheral face is curvilinear sets Put.

Wherein in an embodiment, the curved setting of cross sectional shape of the outer peripheral face of described vibration damping body；

And the outer peripheral face rounding off of described vibration damping body；

The size at the two ends of the described vibration damping body of arc is more than the size of the central region of described vibration damping body.

Wherein in an embodiment, described vibration damping body is vibration isolation rubber；

Described screw element is rustless steel screw element；

Described pad is sheet metal.

Wherein in an embodiment, the height of described vibration damping body is in the range of 30mm～60mm；

The radius of described vibration damping body is in the range of 30mm～60mm；

Described screw element embeds the degree of depth of described vibration damping body in the range of 3mm～10mm；

The thickness of described pad is in the range of 3mm～6mm.

Wherein in an embodiment, the shore hardness of described vibration isolation rubber is in the range of 30HA～50HA.

Further relate to a kind of compressor assembly, including compressor bottom board, chassis and the foot as described in any of the above-described technical characteristic Pad；

Described compressor bottom board is installed on described chassis by described callosity.

Further relate to a kind of air-conditioner, including the compressor assembly as described in above-mentioned technical characteristic.

The beneficial effects of the utility model are:

Callosity of the present utility model, structure design advantages of simple, two screw elements are respectively embedded in the two ends of vibration damping body, By the way of embedding, screw element is fixed on vibration damping body, vibration damping body so can be made will not to be retrained by screw element Effect so that vibration damping body can fully swing and twist, consumes the vibrational energy of compressor, strengthens effectiveness in vibration suppression.Meanwhile, embedding The screw element entered is embedded and can also ensure that and there is not gap between vibration damping body and screw element, additionally it is possible to reduce the mill of vibration damping body Damage, improve reliability.

Owing to callosity has above-mentioned technique effect, the compressor assembly containing above-mentioned callosity also has corresponding technology effect Really.

Owing to compressor assembly has above-mentioned technique effect, the air-conditioner containing above-mentioned compressor assembly also has accordingly Technique effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of the callosity of this utility model one embodiment；

Fig. 2 is the structural representation of the callosity of another embodiment of this utility model；

Wherein:

100-callosity；

110-vibration damping body；

120-screw element；

130-pad.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, by the following examples, and tie Close accompanying drawing, air-conditioner of the present utility model, compressor assembly and callosity thereof are further elaborated.Should be appreciated that this Specific embodiment described by place, only in order to explain this utility model, is not used to limit this utility model.

Seeing Fig. 1 and Fig. 2, this utility model provides a kind of callosity 100, one end of callosity 100 and compressor assembly Chassis connects, and the other end of callosity 100 is connected with the compressor bottom board of compressor assembly.Callosity 100 is provided in compressor bank Between compressor bottom board and the chassis of part, compressor is installed on compressor bottom board, and callosity 100 carries all heavy of compressor Amount.Compressor operationally can produce vibration, and vibration is delivered on compressor bottom board, and is delivered on chassis by callosity 100. Callosity 100 can play cushioning effect, to reduce chassis vibrations received, and then reduces the vibration that compressor assembly is overall, carries The serviceability of high air-conditioner.

Certainly, compressor assembly can also be applied in other electric equipments in addition to air-conditioner, to ensure electric equipment Serviceability.

In this utility model, callosity 100 includes vibration damping body 110 and two screw elements 120.Vibration damping body 110 is to use Play the main parts size of damping effect, to improve the damping property of callosity 100, it is ensured that the reliability of air-conditioner.Screw element 120 It is used to be installed to callosity 100 major part on compressor bottom board and chassis, and by adapting with screw element 120 size Nut realizes the fixing of callosity 100 and compressor bottom board and chassis, it is ensured that connect reliable.

Further, two screw elements 120 are embedded at vibration damping body 110 two ends respectively.It is to say, screw element 120 and vibration damping It is interference fit between body 110, so ensure that and be connected between screw element 120 with vibration damping body 110 reliably, and then ensure Callosity 100 connects the reliability on compressor bottom board and chassis, reduces the friction between callosity 100 and compressor bottom board and chassis, Ensure effectiveness in vibration suppression.

Meanwhile, two screw elements 120 are embedded at the two ends of vibration damping body 110 respectively so that screw element 120 will not run through and subtracts Shake body 110.So, screw element 120 is little to left and right, the porpoise constraint of vibration damping body 110, so that vibration damping body 110 fully swing and twisting on the axial direction of screw element 120, consume vibration of compressor energy, strengthen effectiveness in vibration suppression.Pass through Vibration damping body 110 and can further enhance the effectiveness in vibration suppression of callosity 100 with coordinating of screw element 120, improves callosity 100 Reliability, and then improve the serviceability of air-conditioner.

The end of screw element 120 protrudes from the end of vibration damping body 110, so can be easy to two screw elements 120 respectively It is connected with compressor bottom board and chassis.One of them screw element 120 in two screw elements 120 is connected with chassis, another screw thread Part 120 is connected with compressor bottom board, connects compressor bottom board and chassis realizing callosity 100, to reduce vibration, reduces compressor Management stress, reduce compressor assembly noise, improve air-conditioner serviceability.

Further, one end of vibration damping body 110 contacts with compressor bottom board, the other end of vibration damping body 110 and chassis phase Contact.Screw element 120 embeds the part of vibration damping body 110 and ensure that vibration damping body 110 end will not be at the bottom of relative to compressor Plate or chassis produce bigger motion, to reduce rubbing between the end of vibration damping body 110 and compressor bottom board or chassis Wipe, improve the abrasion reducing vibration damping body 110, improve the reliability of vibration damping body 110, and then improve the reliability of callosity 100. And owing to the central region of vibration damping body 110 does not exist screw element 120, so, vibration damping body 110 will not be produced by screw element 120 Raw constraint so that vibration damping body 110 can fully swing and twist, strengthens effectiveness in vibration suppression.

At present, in the middle of callosity, there is the circular hole running through callosity, callosity can be inserted by this hole and be fixed on chassis Bolt.Owing to the diameter of bolt is less than callosity circular hole, callosity can rock in less scope.But, air-conditioning is running and fortune During defeated, compressor produces and rocks more greatly, is susceptible to friction between callosity and compressor bottom board, bolt and nuts, Callosity is caused to wear and tear.The abrasion of callosity can weaken effectiveness in vibration suppression so that the pipeline stress of compressor increases, noise penalty.Meanwhile, The bolt run through has certain constraint to motion around callosity so that callosity can not fully swing and twist, and weakens Its effectiveness in vibration suppression, and then affect the serviceability of air-conditioner.Callosity 100 of the present utility model, structure design advantages of simple, two Individual screw element 120 is respectively embedded in the two ends of vibration damping body 110, screw element 120 is fixed to by the way of embedding vibration damping originally On body 110, so can make the vibration damping body 110 will not be by the effect of contraction of screw element 120 so that vibration damping body 110 can Fully swing and twisting, consume the vibrational energy of compressor, strengthen effectiveness in vibration suppression.Meanwhile, the screw element 120 of embedding can also be protected There is not gap between card vibration damping body 110 and screw element 120, additionally it is possible to reduce the abrasion of vibration damping body 110, improve reliable Property.

Further, the height sum that two screw elements 120 embed vibration damping body 110 part is that vibration damping body 110 is along spiral shell 2 times of the height of the axial direction of stricture of vagina part 120～10 times.Concrete, in the present embodiment, the model of the height of vibration damping body 110 Enclose for 30mm～60mm, and, screw element 120 embeds the degree of depth of vibration damping body 110 in the range of 3mm～10mm.So can Ensure that screw element 120 will not run through vibration damping body 110 so that vibration damping body 110 can fully swing and twist, strengthen vibration damping effect Really.Meanwhile, the part that screw element 120 embeds can also reduce the end of vibration damping body 110 and compressor bottom board or chassis it Between friction, improve reduce vibration damping body 110 abrasion, it is to avoid compressor bottom board sharp edge cutting vibration damping body 110, raising subtracts Shake the reliability of body 110.

As a kind of embodiment, callosity 100 also includes that two pads 130, two pads 130 are respectively arranged at vibration damping The two ends of body 110.Pad 130 can play protection and alleviate the effect of abrasion, reduces end and the compression of vibration damping body 110 The abrasion caused because of friction between machine bottom board or chassis, fully improves the reliability of callosity 100.

Although, when compressor transport or work, compressor can produce vibration, and the part that screw element 120 embeds can subtract Relative motion between end and compressor bottom board or the chassis of little vibration damping body 110, but the end of vibration damping body 110 with Still can there is trickle motion in compressor bottom board or chassis so that the end of vibration damping body 110 exists wear phenomenon, impact The reliability of callosity 100.

Therefore, this utility model increases pad 130 at the two ends of vibration damping body 110, reduces vibration damping body by pad 130 110 abrasions being subject to, improve vibration damping body 110 reliability, it is ensured that the reliability of callosity 100, and then ensure air-conditioner can By property.

Pad 130 is fixed on vibration damping body 110, and screw element 120 wears pad 130 and is installed on vibration damping body 110. Being provided with via on concrete pad 130, screw element 120 wears via and is installed on vibration damping body 110, to ensure screw element 120 and the fixing reliability of pad 130.

Further, pad 130 is embedded on vibration damping body 110, so ensure that pad 130 and vibration damping body 110 Between fixing reliability, it is to avoid there is play in the position of pad 130, it is to avoid produces and form abrasion, improves the reliable of callosity 100 Property.Further, the thickness of pad 130 is 0.1 times～0.5 times of the height of vibration damping body 110, to ensure that vibration damping body 110 is logical While crossing pad 130 reduction abrasion, additionally it is possible to ensure effectiveness in vibration suppression.

As a kind of embodiment, vibration damping body 110 is vibration isolation rubber, to ensure the effectiveness in vibration suppression of vibration damping body 110. Screw element 120 is rustless steel screw element, to ensure the reliability that callosity 100 connects.Pad 130 is sheet metal, wear-resisting to ensure Performance.Owing to sheet metal is more wear-resisting, it is ensured that callosity 100 is not damaged in the range of design service life, it is ensured that can By property.Further, rustless steel screw element is fixed on sheet metal by modes such as welding, to ensure to connect reliably.

Concrete, in the present embodiment, the height of vibration damping body 110 is in the range of 30mm～60mm.The thickness of pad 130 In the range of 3mm～6mm.Screw element 120 not through vibration damping body 110, and, screw element 120 exposes the one of vibration damping body 110 End is fine thread, can use with nut screw connection, to realize being fastened on compressor bottom board and dish, prevents callosity 100 and the end Rub between dish, compressor bottom board, improve the reliability of callosity 100.

Further, the shore hardness of vibration isolation rubber is in the range of 30HA～50HA.So ensure that vibration damping body 110 Damping property, play the effect of vibration reduction and cushioning, improve the reliability of callosity 100, it is ensured that the reliability of compressor assembly, improve The serviceability of air-conditioner.

As a kind of embodiment, in an embodiment of the present utility model, vibration damping body 110 be shaped as cylindricality. The height of vibration damping body 110 is in the range of 30mm～60mm, and the radius of vibration damping body 110 is in the range of 30mm～60mm.

As a kind of embodiment, in of the present utility model another is implemented, vibration damping body 110 is revolving body, and outward The curvilinear setting of cross sectional shape of side face, to avoid stress to concentrate, improves the reliability of callosity 100.

Further, the curved setting of the cross sectional shape of the outer peripheral face of vibration damping body 110；The vibration damping body 110 of arc The size at two ends is more than the size of the central region of vibration damping body 110.The vibration damping body 110 of arc can increase callosity 100 Elastic so that callosity 100 swings and twist relatively easily, strengthen effectiveness in vibration suppression.Meanwhile, the outer peripheral face of vibration damping body 110 is round and smooth Transition, it is not easy to there is stress and concentrate, improve the reliability of callosity 100.

This utility model additionally provides a kind of compressor assembly, including in compressor bottom board, chassis and above-described embodiment Callosity 100.Compressor bottom board is installed on chassis by callosity 100.Compressor assembly of the present utility model is real by callosity 100 Existing compressor bottom board and the connection of base plate, callosity 100 can support the compressor on compressor bottom board.Compression of the present utility model Thermomechanical components reduces vibration when compressor assembly works or transports by callosity 100, reduces the noise of compressor assembly, improves The reliability of compressor assembly.

This utility model additionally provides a kind of air-conditioner, including the compressor assembly in above-described embodiment.This utility model Air-conditioner by the callosity 100 of compressor assembly reduce work or transport time vibration, improve reliability, and then ensure The serviceability of compressor assembly.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, But therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, common for this area For technical staff, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these all belong to In protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (12)

1. a callosity, it is characterised in that one end of described callosity (100) is connected with the chassis of compressor assembly, described callosity (100) the other end is connected with the compressor bottom board of described compressor assembly；Described callosity (100) including:

Vibration damping body (110)；And

Two screw elements (120), are embedded at the two ends of described vibration damping body (110), and the end of described screw element (120) respectively Protrude from the end of described vibration damping body (110)；

One of them described screw element (120) is connected with described chassis, another described screw element (120) and described compressor bottom board Connect.

Callosity the most according to claim 1, it is characterised in that two described screw elements (120) embed described vibration damping body (110) the height sum of part be described vibration damping body (110) along the axial direction of described screw element (120) height 0.2 Times～0.7 times.

Callosity the most according to claim 1, it is characterised in that also include two pads (130), two described pads (130) two ends of described vibration damping body (110) it are respectively arranged at；

Described pad (130) is fixed on described vibration damping body (110), and described screw element (120) wears described pad (130) It is installed on described vibration damping body (110).

Callosity the most according to claim 3, it is characterised in that described pad (130) is embedded at described vibration damping body (110) On；

The thickness of described pad (130) is 0.1 times～0.5 times of the height of described vibration damping body (110).

Callosity the most according to claim 3, it is characterised in that described vibration damping body (110) be shaped as cylindricality.

Callosity the most according to claim 3, it is characterised in that described vibration damping body (110) is revolving body, and outer peripheral face The curvilinear setting of cross sectional shape.

Callosity the most according to claim 6, it is characterised in that the cross sectional shape of the outer peripheral face of described vibration damping body (110) Curved setting；

And the outer peripheral face rounding off of described vibration damping body (110)；

The size at the two ends of the described vibration damping body (110) of arc is more than the size of the central region of described vibration damping body (110).

8. according to the callosity described in any one of claim 3 to 7, it is characterised in that described vibration damping body (110) is vibration damping rubber Glue；

Described screw element (120) is rustless steel screw element；

Described pad (130) is sheet metal.

Callosity the most according to claim 8, it is characterised in that the height of described vibration damping body (110) is in the range of 30mm ～60mm；

The radius of described vibration damping body (110) is in the range of 30mm～60mm；

Described screw element (120) embeds the degree of depth of described vibration damping body (110) in the range of 3mm～10mm；

The thickness of described pad (130) is in the range of 3mm～6mm.

Callosity the most according to claim 9, it is characterised in that the shore hardness of described vibration isolation rubber is in the range of 30HA ～50HA.

11. 1 kinds of compressor assemblies, it is characterised in that include compressor bottom board, chassis and such as any one of claim 1 to 10 institute The callosity (100) stated；

Described compressor bottom board is installed on described chassis by described callosity (100).

12. 1 kinds of air-conditioners, it is characterised in that include compressor assembly as claimed in claim 11.