CN107830095A - Vibration reducing and connecting structure and the compressor for including it - Google Patents

Abstract

The invention discloses a kind of vibration reducing and connecting structure and the compressor for including it.The vibration reducing and connecting structure, for producing the part of vibration and being fixedly connected for chassis, including vibration damping portion, the first fixed part and the second fixed part, wherein, first fixed part is used to be connected with the chassis, second fixed part is used to be connected with the part for producing vibration, is connected between first fixed part and the second fixed part by the vibration damping portion.Vibration reducing and connecting structure provided by the invention is connected by the first fixed part with chassis, is connected by the second fixed part with producing the part of vibration, and connected the first fixed part and the second fixed part by vibration damping portion.Vibration damping portion is only provided between the first fixed part and the second fixed part, between the two without rigid connector, so as to avoid vibrational energy from being transferred to from the second fixed part on the first fixed part, effectiveness in vibration suppression is more preferable.

Description

Vibration reducing and connecting structure and the compressor for including it

Technical field

The present invention relates to compressor be fixedly mounted correlative technology field, particularly a kind of vibration reducing and connecting structure and including its Compressor.

Background technology

In order to play the purpose of vibration damping, compressor is generally connected by foot pad with chassis, and compressor foot pad generally use The less material of rigidity, installed in order to facilitate foot pad, and prevent that foot pad takes off from compressor footing in the presence of external impacts Go out, bolt is generally set on chassis, the installation to foot pad is played the role of positioning, and foot pad can be prevented from compressor base Deviate from pin.

The bolt of existing compressor is fixed on chassis generally by way of spot welding, and compressor bolt is set Meter can solve the problem that complete machine is transporting the problem of deviating from foot pad in falling process from footing, but pin during compressor operating Pad foot pad in the presence of by cross force can be pushed up on bolt, and vibration of compressor energy can be delivered to by bolt On chassis, the effectiveness in vibration suppression of foot pad is caused to fail.

In the prior art in order to solve the problems, such as that vibration of compressor energy is delivered on chassis by bolt, generally will The matching design of bolt and foot pad endoporus coordinates for gap, the surplus of transverse shifting is reserved to foot pad, for bolt and pin The gap of endoporus is padded, design is bigger, is more advantageous to reduce the transmission of vibrational energy, but poorer for transporting and falling effect, It is conflicting relation between the two.

The content of the invention

In view of this, an object of the present invention, which is to provide, a kind of can avoid vibrational energy from being transferred to the vibration damping on chassis Attachment structure and the compressor for including it.

First aspect, there is provided a kind of vibration reducing and connecting structure, for producing the part of vibration and being fixedly connected for chassis, including Vibration damping portion, the first fixed part and the second fixed part, wherein, first fixed part is used to be connected with the chassis, and described second Fixed part is used to be connected with the part for producing vibration, passes through the vibration damping between first fixed part and the second fixed part Portion is connected.

Preferably, first fixed part is connected with the vibration damping portion by way of engaging；And/or

Second fixed part is connected with the vibration damping portion by connector.

Preferably, the vibration damping portion includes vibration damping portion main body, the cylindrical structure of vibration damping portion main body, the vibration damping portion master The both ends of body are respectively arranged with the first attachment structure being connected with first fixed part and are connected with second fixed part Second attachment structure.

Preferably, first attachment structure includes limiting section and connecting portion, wherein, the limiting section is used for described the One fixed part connect when carry out it is spacing, the connecting portion be used for connect the limiting section and vibration damping portion main body, the connection Portion is arranged between the limiting section and vibration damping portion main body, the connecting portion respectively with the limiting section and the vibration damping portion The end face connection of main body.

Preferably, the size of the limiting section in the circumferential is more than the size of the connecting portion in the circumferential.

Preferably, second attachment structure includes the link slot formed on the vibration damping portion main body end face and described The connecting hole formed in attachment structure side wall, for the connecting hole through the cell wall of at least partly described link slot, described second is solid Determine being at least partially inserted into the link slot for portion.

Preferably, the link slot forms T-shaped structure on the vibration damping portion main body end face.

Preferably, first fixed part includes riser and the fixed plate being connected with each other, the fixed plate and the chassis Connection, the riser are connected with the vibration damping portion.

Preferably, fixing hole is provided with the riser, the fixing hole is used for and the first attachment structure clamping.

Preferably, the edge of the fixing hole is provided with extension, and axial direction of the extension along the fixing hole is prolonged Stretch.

Preferably, gusset is provided with the fixed plate and riser, the gusset is connected with the fixed plate and riser.

Preferably, second fixed part include with the Part I that is connected of part for producing vibration, and with it is described The Part II of vibration damping portion connection, the Part I are connected with Part II, and the Part II is inserted in the link slot.

Preferably, the Part I includes platy structure, and the first face of the platy structure produces what is vibrated with described Part outer wall is connected, and the second face of the platy structure is connected with the Part II.

Preferably, the Part II includes the first plate and the second plate, the orthogonal company of the first plate and the second plate Be connected together the structure to form that end face is T-shaped.

Preferably, it is provided with through hole on first plate and/or the second plate, the of the through hole and vibration damping portion main body The connecting hole position correspondence of two attachment structures, the connector are inserted into the through hole and the connecting hole simultaneously.

Second aspect, there is provided a kind of compressor, the compressor are connected on chassis by above-mentioned vibration reducing and connecting structure.

Vibration reducing and connecting structure provided by the invention is connected by the first fixed part with chassis, by the second fixed part with producing The part connection of vibration, and connected the first fixed part and the second fixed part by vibration damping portion.It is solid in the first fixed part and second Determine only to be provided with vibration damping portion between portion, between the two without rigid connector, so as to avoid vibrational energy solid from second Determine portion to be transferred on the first fixed part, effectiveness in vibration suppression is more preferable.

Brief description of the drawings

By the description to the embodiment of the present invention referring to the drawings, above-mentioned and other purpose of the invention, feature and Advantage will be apparent from, in the accompanying drawings：

Fig. 1 shows the structural representation of vibration reducing and connecting structure provided by the invention；

Fig. 2 shows vibration reducing and connecting structure exploded perspective view；

Fig. 3 shows the structural representation in vibration damping portion；

Fig. 4 shows the first fixing part structure schematic diagram；

Fig. 5 shows the schematic cross-section of the first fixed part；

Fig. 6 shows the structural representation of the second fixed part；

Fig. 7 shows the structural representation that compressor is installed by vibration reducing and connecting structure.

Embodiment

Below based on embodiment, present invention is described, but the present invention is not restricted to these embodiments.Ability Domain it is to be appreciated by one skilled in the art that provided herein accompanying drawing be provided to explanation purpose, and accompanying drawing be not necessarily by than What example was drawn.

Unless the context clearly requires otherwise, otherwise entire disclosure is similar with the " comprising " in claims, "comprising" etc. Word should be construed to the implication included rather than exclusive or exhaustive implication；That is, it is containing for " including but is not limited to " Justice.

In the description of the invention, it is to be understood that term " first ", " second " etc. are only used for describing purpose, without It is understood that to indicate or implying relative importance.In addition, in the description of the invention, unless otherwise indicated, the implication of " multiple " It is two or more.

Vibration reducing and connecting structure provided by the invention is used for the body of compressor and the connection on chassis, on the one hand can be to compression The body of machine play fixed supporting role, and is transferred to vibrational energy when on the other hand can avoid or reduce compressor main body work Chassis, ensure the stability and reliability of compressor operating.

As shown in Figure 1, 2, vibration reducing and connecting structure provided by the invention includes vibration damping portion 100, the first fixed part 200 and second Fixed part 300, the vibration damping portion 100 are connected with the fixed part 300 of the first fixed part 200 and second respectively, and described first is solid Determine portion 200 to be fixedly connected with chassis, second fixed part 300 is fixedly connected with compressor, passes through the vibration damping portion 100 and institute Compressor is fixed on chassis and (introduced in detail below) by the connection for stating the first fixed part 200 and the second fixed part 300.

The vibration damping portion 100 be preferably block structure, as shown in figure 3, the vibration damping portion 100 include vibration damping portion main body 110, First attachment structure 120 and the second attachment structure 130, vibration damping portion main body 110 are prism either cylindrical structure, i.e. institute It is column construction to state vibration damping portion main body 110, and the end face of the column construction is circular or arbitrary shape polygon, described the One attachment structure 120 and the second attachment structure 130 are separately positioned on two relative ends of vibration damping portion main body 110.

First attachment structure 120 includes connecting portion 121 and limiting section 122, and the connecting portion 121 is positioned at described spacing Between portion 122 and vibration damping portion main body 110, and the connecting portion 121 simultaneously with vibration damping portion main body 110 and limiting section 122 Connection, also, the size of the limiting section 122 in the circumferential is more than the size of the connecting portion 121 in the circumferential, i.e., described limit The end face edge size that position portion 122 is connected with connecting portion 121 is more than the size of the end face edge of connecting portion 121.It is described spacing The bottom surface of portion 122 preferably round platform or pyramidal structure, the round platform or pyramidal structure is connected with the connecting portion 121.The company The setting of socket part 121 make it is spaced apart between the limiting section 122 and vibration damping portion main body 110, and described spacing Groove-like structure is formed between portion 122 and vibration damping portion main body 110, it is preferable that the groove-like structure is along the connecting portion 121 Whole side wall outer rim is formed, and first attachment structure 120 is connected by the groove-like structure with first fixed part 200 (introducing in detail below).Preferably, the bathtub construction can be annular groove, such as when the limiting section 122 is round platform or circle During pyramidal structure, or, formed when the limiting section 122 is included in round platform or conical structure along the face with diameter parallel Section when, the bathtub construction be annular groove a part.

Preferably, second attachment structure 130 includes forming the link slot 131 in the end of vibration damping portion main body 110, The link slot 131 coordinates with second fixed part 300, and described at least part of second fixed part 300 is inserted into described In link slot 131, and it is connected and (introduces in detail below) with second attachment structure 130 by connector 400.The link slot 131 be to extend the groove to be formed, the shape of the link slot 131 and institute to its inside on the end face of vibration damping portion main body 110 State the shape adaptation of the second fixed part 300, it is preferable that the link slot 131 is T-slot, i.e., described link slot 131 subtracts described Shake and the groove of T-shaped structure is formed on the end face of portion's main body 110.Second attachment structure 130 also includes connecting hole 132, the company It is the hole formed in the side wall of vibration damping portion main body 110 to connect hole 132, also, the connecting hole 132 at least runs through the company A part of cell wall of access slot 131, i.e., the cell wall of the described link slot 131 at least described in through part of connecting hole 132.The connecting hole 132 are used for the installation of the connector 400, and the connector 400 is inserted into the connecting hole 132, described second is fixed Portion 300 is connected with vibration damping portion main body 110.

Further, the vibration damping portion 100 is the less material of rigidity, it is played effective branch to compressor Support acts on, and a certain amount of deformation enough occurs for and can, so as to absorb vibrational energy caused by a part of compressor operating.

As shown in Figure 4,5, first fixed part 200 includes riser 210 and fixed plate 220, and the fixed plate 220 is with standing Plate 210 connects, and the fixed plate 220 is used to be fixedly connected with chassis, and the riser 210 is used to be connected with the vibration damping portion 100.

Fixing hole 211 is provided with the riser 210, the fixing hole 211 is connected with first in the vibration damping portion 100 Structure 120 connects, and specifically, the limiting section 122 of first attachment structure 120 passes through the fixing hole 211, positioned at described vertical First side of plate 210, vibration damping portion main body 110 are located at the second side of the riser 210, and the connecting portion 121 is positioned at described In fixing hole 211.Preferably, extension 212, the extension 212 and the fixing hole are additionally provided with the fixing hole 211 211 edge connection, and extending along the direction vertical with the riser 210, the setting of the extension 212 extend described Length on the axial direction of fixing hole 211, so that the limiting section 122 and vibration damping portion main body 110 can be pressed on described stand On plate 210.Further, the extension 212 extends to the first side of the riser 210, and the limiting section 122 is pressed on institute State on extension 212, vibration damping portion main body 110 is pressed on the riser 210, to improve first attachment structure 120 The reliability being connected with the connecting hole 211, prevent first attachment structure 120 from occurring relatively with the connecting hole 211 Displacement.Further, as shown in figure 3, first attachment structure 120 and the installation of the fixing hole 211 for convenience, described Limiting section 122 is preferably round platform or pyramidal structure, to facilitate the limiting section 122 to pass through the fixing hole 211, also, it is described The area for the end face that limiting section 122 is connected with the connecting portion 121 is more than the area of the fixing hole 211, the limiting section 122 The fixing hole 211 can be passed through after a certain amount of elastic deformation of generation.The outer wall of the connecting portion 121 preferably with the fixation The inwall in portion 211 is contacted but not compressed.

The fixed plate 220 and the riser vertical connection, the fixed plate 220 are used for first fixed part 200 Fixed on chassis, it is preferable that the fixed plate 220 is connected with the chassis by way of welding, to improve its connection Reliability.In other embodiments, the fixed plate 220 can also be connected to the chassis by dismountable mode such as bolt On.Gusset 230 is additionally provided between the riser 210 and the fixed plate 220, the gusset 230 is with the riser 210 and admittedly Fixed board 220 connects, the reliability that the setting of the gusset 230 improves the riser 210 and fixed plate 220 connects, it is preferable that The gusset 230 is connected to the first side of the riser 210.

As shown in fig. 6, second fixed part 300 includes Part I 310 and Part II 320, the Part I 310 are fixedly attached on the outer wall of compressor, and the Part II 320 is used for the link slot 131 with vibration damping portion main body 110 Connection.

The Part I 310 is platy structure, it is preferable that the Part I 310 is the outer wall shape with compressor The platy structure of adaptation, for example, the platy structure is arc, so that it can be fitted on the outer wall of the compressor. Preferably, the Part I 310 is fixedly attached on the compressor by the way of spot welding.The Part II 320 connects It is connected on the face that the Part I 310 is not connected with the compressor, it is preferable that in the embodiment shown in fig. 6, described Two parts 320 include the first plate 321 and the second plate 322, and the plate 322 of the first plate 321 and second is mutually perpendicular to, and formation and institute The T-shaped structure of the shape adaptation of link slot 131 in vibration damping portion main body 110 is stated, when mounted, the Part II 320 is inserted into In the link slot 131.Further, through hole 323 is provided with the Part II 320, the Part II 320 is inserted into When in the link slot 131, the through hole 323 is relative with the connecting hole 132 in vibration damping portion main body 110, the connector 400 can pass through the connecting hole 131 and the through hole 323 so as to by the Part II 320 and vibration damping portion main body 110 Connection, it is preferable that the through hole 323 can be alternatively provided at second plate according to the position and quantity of the connecting hole 131 322 and/or first on plate 321.Because the link slot 131 and Part II 320 are set to T-shaped structure corresponding to shape, Make to coordinate between the two and there is spacing function, the connector on the direction parallel with the vibration damping portion 110 end faces of main body 400 need to carry out along the restriction on the axial direction of vibration damping portion main body 110, and convenient both coordinate installation, are also convenient for described The installation of connector 400.Also, T-shaped structure also increases the contact between the Part II 320 and the link slot 131 Area, improve the reliability of both connections.

Further, in other embodiments, the link slot 131 and Part II 320 can also be arranged to other shapes The structure of shape, such as, it can be provided the structure such as cross, I-shaped.

As shown in fig. 7, the present invention also provides a kind of compressor 500, the compressor 500 passes through above-mentioned vibration reducing and connecting structure It is connected on chassis 600, second fixed part 300 is fixedly connected on the compressor 500 in the side wall of bottom, preferably Ground, after second fixed part 300 is connected on the compressor 500, the Part II 320 of second fixed part 300 is in The T-shaped of handstand.First fixed part 200 is fixedly attached on the chassis 600, and the vibration damping portion 100 is simultaneously with described the One fixed part 200 and the second fixed part 300 connect, so as to which the compressor 500 is fixed on the chassis 600.It is described to subtract Attachment structure of shaking is provided with multiple, and outer wall of multiple vibration reducing and connecting structures along the compressor 500 is circumferentially distributed on institute On the outer wall for stating compressor 500, it is preferable that the vibration reducing and connecting structure is provided with three.

As shown in fig. 7, after the vibration reducing and connecting structure installation, the axial direction in the vibration damping portion 100 and the compressor 500 It is axially vertical, the vibration damping portion 100 and the riser 210 of first fixed part 200 are vertically arranged, the fixing hole 211 Vibration damping can be carried out to the vibration on any direction in the place plane of riser 210 by coordinating with first attachment structure 120. It is pair vertical with the riser 210 meanwhile the limiting section 122 and vibration damping portion main body 110 coordinate with the riser 210 Vibration on direction carries out vibration damping.Further, because circumference of the vibration reducing and connecting structure along the outer wall of compressor 500 is set Put it is multiple, multiple vibration reducing and connecting structures can mutually carry out it is spacing, so as to play prevent first attachment structure 120 from Depart from the fixing hole 211, and then avoid the vibration damping portion 100 described in transportation from coming off, obtain the reliability of complete machine To effectively improving.

For those skilled in the art it is easily understood that on the premise of not conflicting, above-mentioned each preferred scheme can be free Ground combination, superposition.

It should be appreciated that above-mentioned embodiment is only illustrative, and not restrictive, without departing from the basic of the present invention In the case of principle, those skilled in the art can be directed to the various obvious or equivalent modification made of above-mentioned details or replace Change, be all included in scope of the presently claimed invention.

Claims (16)

1. A kind of 1. vibration reducing and connecting structure, for producing the part of vibration and being fixedly connected for chassis, it is characterised in that including vibration damping Portion, the first fixed part and the second fixed part, wherein, first fixed part is used to be connected with the chassis, and described second fixes Portion is used to be connected with the part for producing vibration, passes through vibration damping portion phase between first fixed part and the second fixed part Connection.
2. 2. vibration reducing and connecting structure according to claim 1, it is characterised in that first fixed part leads to the vibration damping portion The mode for crossing engaging connects；And/or

   Second fixed part is connected with the vibration damping portion by connector.
3. 3. vibration reducing and connecting structure according to claim 2, it is characterised in that the vibration damping portion includes vibration damping portion main body, institute The cylindrical structure of vibration damping portion main body is stated, the both ends of vibration damping portion main body are respectively arranged be connected with first fixed part One attachment structure and the second attachment structure being connected with second fixed part.
4. 4. vibration reducing and connecting structure according to claim 3, it is characterised in that first attachment structure include limiting section and Connecting portion, wherein, the limiting section is spacing for being carried out when being connected with first fixed part, and the connecting portion is used to connect institute Limiting section and vibration damping portion main body are stated, the connecting portion is arranged between the limiting section and vibration damping portion main body, described End face of the connecting portion respectively with the limiting section and vibration damping portion main body is connected.
5. 5. vibration reducing and connecting structure according to claim 4, it is characterised in that the size of the limiting section in the circumferential is more than The size of the connecting portion in the circumferential.
6. 6. vibration reducing and connecting structure according to claim 3, it is characterised in that second attachment structure includes being formed in institute The link slot on vibration damping portion main body end face and the connecting hole formed in the attachment structure side wall are stated, the connecting hole is through to The cell wall of link slot described in small part, second fixed part are at least partially inserted into the link slot.
7. 7. vibration reducing and connecting structure according to claim 6, it is characterised in that the link slot is in vibration damping portion bulk end T-shaped structure is formed on face.
8. 8. vibration reducing and connecting structure according to claim 3, it is characterised in that first fixed part includes what is be connected with each other Riser and fixed plate, the fixed plate are connected with the chassis, and the riser is connected with the vibration damping portion.
9. 9. vibration reducing and connecting structure according to claim 8, it is characterised in that fixing hole is provided with the riser, it is described Fixing hole is used for and the first attachment structure clamping.
10. 10. vibration reducing and connecting structure according to claim 9, it is characterised in that the edge of the fixing hole, which is provided with, prolongs Extending portion, the extension are axially extending along the fixing hole.
11. 11. vibration reducing and connecting structure according to claim 8, it is characterised in that be provided with muscle on the fixed plate and riser Plate, the gusset are connected with the fixed plate and riser.
12. 12. vibration reducing and connecting structure according to claim 6, it is characterised in that second fixed part includes and the production The Part I of the part connection of raw vibration, and the Part II being connected with the vibration damping portion, the Part I and second Divide connection, the Part II is inserted in the link slot.
13. 13. vibration reducing and connecting structure according to claim 12, it is characterised in that the Part I includes platy structure, First face of the platy structure be connected with the part outer wall for producing vibration, the second face of the platy structure and described the Two parts connect.
14. 14. vibration reducing and connecting structure according to claim 12, it is characterised in that the Part II includes the first plate and the Two plates, first plate and the second plate are orthogonal to be joined together to form the structure that end face is T-shaped.
15. 15. vibration reducing and connecting structure according to claim 14, it is characterised in that set on first plate and/or the second plate It is equipped with through hole, the through hole and the connecting hole position correspondence of the second attachment structure of vibration damping portion main body, the connection Part is inserted into the through hole and the connecting hole simultaneously.
16. A kind of 16. compressor, it is characterised in that vibration reducing and connecting structure of the compressor described in by one of claim 1-15 It is connected on chassis.