CN217560180U - Industry cold water machine with shock-absorbing function - Google Patents

Abstract

The utility model discloses an industry cold water machine with shock-absorbing function, including casing, refrigeration cycle system and water circulating system, the casing erects subaerial, and refrigeration cycle system is located the inside intermediate position of casing, water circulating system are located the inside one end of casing still including being used for refrigeration cycle system provides the supporting mechanism that supports, be used for carrying out absorbing damper and be used for going on the positioning mechanism who fixes a position the compressor to refrigeration cycle system, supporting mechanism is located the inboard lower part of casing just is located refrigeration cycle system below, and damping mechanism is located supporting mechanism's inboard, and positioning mechanism corresponds the compressor and is located supporting mechanism upper portion one end, the beneficial effects of the utility model are that be equipped with supporting mechanism, can provide stable support and install refrigeration cycle system inside the casing for refrigeration cycle system, be equipped with damper, can cooperate supporting mechanism to carry out the shock attenuation to refrigeration cycle system, be equipped with positioning mechanism, can fix a position the compressor.

Description

Industry cold water machine with shock-absorbing function

Technical Field

The utility model belongs to the technical field of the cooling water set technique and specifically relates to an industry cooling water machine with shock-absorbing function is related to.

Background

In the prior art, the refrigeration industry is divided into an air-cooled chiller and a water-cooled chiller, and the chiller is divided into a screw chiller and a scroll chiller according to a compressor, and is divided into a low-temperature industrial chiller and a normal-temperature chiller in terms of temperature control. The water chilling unit is commonly used in the industry, most of common water chilling units are placed indoors, under some special conditions, the water chilling unit is placed outdoors to operate, the water chilling unit is provided with a fan, a pump, a compressor and other equipment, vibration can be generated during operation, and after long-time operation, the vibration inevitably can cause negative effects on the service life of the water chilling unit.

The application numbers are: 202010669139.0, the invention discloses an industrial water chilling unit, which comprises a base, a protection mechanism, a supporting mechanism, a driving mechanism, a connecting mechanism, a damping mechanism and a locking universal wheel, wherein the protection mechanism is fixedly mounted at the upper end of the base, the protection mechanism comprises a water chilling unit, a box body, a winding drum, a winding rod, a strip-shaped opening, supporting rods, a rotating shaft and dust blocking cloth, the water chilling unit is fixedly mounted at the upper end of the base, the box body is mounted at the upper end of the base and is arranged in a hollow mode, the winding drum and the winding rod are connected into the box body in a vertically symmetrical and rotating mode, the strip-shaped opening is formed in the side wall, close to the water chilling unit, of the box body and communicated with the interior of the box body, the two supporting rods are symmetrically and fixedly connected to the upper end of the base and far away from the box body, and the rotating shaft is connected to the upper ends of the two supporting rods in a rotating mode. However, this kind of industrial water chilling unit can not provide stable support for the refrigeration cycle system in the unit, this damper is external shock-absorbing structure, through carrying out the shock attenuation to the complete machine in order to realize the shock attenuation purpose, can't carry out the shock attenuation to appointed part, it can't reduce the vibrations that refrigeration cycle system itself produced, and can't reduce the influence that outside vibrations produced refrigeration cycle system, the shock attenuation effect is relatively poor, and external shock-absorbing structure is when carrying out the shock attenuation, drive the complete machine action easily, equipment stability is relatively poor, it can't fix a position the inside part of unit, after long-time work, the skew appears easily in its inside part, positioning accuracy is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an industry cold water machine with shock-absorbing function.

In order to achieve the above object, the present invention provides a technical solution:

the utility model provides an industry cold water machine with shock-absorbing function, includes casing, refrigeration cycle system and water circulating system, the casing erects subaerial, and refrigeration cycle system is located the inside intermediate position of casing, water circulating system are located the inside one end of casing still including being used for refrigeration cycle system provide the supporting mechanism that supports, be used for carrying out absorbing damper and be used for going on the positioning mechanism who fixes a position the compressor, supporting mechanism is located the inboard lower part of casing just is located the refrigeration cycle system below, and damping mechanism is located supporting mechanism's inboard, and positioning mechanism corresponds the compressor and is located supporting mechanism upper portion one end.

The supporting mechanism comprises a supporting base, a supporting rubber block and a supporting plate, wherein the supporting base is arranged at the lower part of the inner side of the casing and fixedly connected with the casing, the supporting rubber block is arranged at the upper corner of the supporting base and fixedly connected with the supporting base, the supporting plate is arranged at the upper end of the supporting rubber block and fixedly connected with the supporting rubber block, a gap is reserved between the supporting plate and the supporting base, and the supporting base and one side, opposite to the supporting plate, of the supporting plate correspond to the damping mechanism and are provided with mounting grooves.

Damper includes shock attenuation concave block, shock attenuation branch and damping spring, shock attenuation concave block is equipped with two, two shock attenuation concave block is the interval setting side by side, two one side that shock attenuation concave block is relative is indent open structure, shock attenuation concave block inlays through the mounting groove and establishes support the base and the backup pad is inboard, damping branch sets up two between the shock attenuation concave block and its lower extreme with be located the below shock attenuation concave block fixed connection, damping branch is located two the opening that shock attenuation concave block is relative is inboard, damping spring sets up two between the shock attenuation concave block and its both ends respectively with two shock attenuation concave block fixed connection, damping spring cover is established the outside of shock attenuation concave block just is located two the open structure that shock attenuation concave block is relative is inboard, and damper is equipped with a plurality of groups, and a plurality of groups damper inlays through the mounting groove and establishes support the base with between the backup pad.

Positioning mechanism includes positioning base, positioning bolt and locating plate, positioning base is equipped with two, two positioning base symmetric interval sets up the one end both sides of backup pad and with backup pad fixed connection, positioning bolt corresponds two positioning base is equipped with two, two positioning bolt sets up respectively two positioning base's upper portion and with correspond positioning base threaded connection, two positioning bolt runs through the correspondence positioning base and relative setting, the locating plate corresponds two positioning bolt is equipped with two, two the locating plate sets up respectively two the relative one end of positioning bolt and with correspond positioning bolt fixed connection.

The positioning anti-slip pads are arranged corresponding to the two positioning plates, and the two positioning anti-slip pads are respectively arranged on one opposite side of the two positioning plates and fixedly connected with the corresponding positioning plates.

Refrigeration cycle system includes compressor, condenser and evaporimeter, the compressor corresponds positioning mechanism and sets up the one end upper portion of backup pad and through the screw with backup pad fixed connection, the locating plate passes through location limited slip pad with the compressor butt, the condenser sets up backup pad upper end and with backup pad fixed connection, the condenser pass through the pipeline with the compressor intercommunication, the evaporimeter sets up the backup pad is kept away from the one end upper portion of compressor and with backup pad fixed connection, the evaporimeter pass through the pipeline with the condenser and the compressor intercommunication, the compressor the condenser and the evaporimeter passes through the supporting mechanism setting and is in inside the casing.

The water circulation system comprises a circulation water tank and a circulation water pump, the circulation water tank is arranged inside the casing and is far away from one end of the compressor and fixedly connected with the casing, the circulation water pump is arranged on one side of the circulation water tank and is communicated with the circulation water tank, and the circulation water tank and the circulation water pump are arranged inside the casing through a mounting base.

Still include water inlet and delivery port, the water inlet with the delivery port corresponds circulating water pump sets up at intervals side by side the one end of casing just runs through the casing, the water inlet pass through the pipeline with the evaporimeter intercommunication, the delivery port pass through the pipeline with circulating water pump intercommunication.

Still include heat dissipation mechanism, heat dissipation mechanism includes radiator fan, heat dissipation window and heat dissipation dust screen, radiator fan corresponds the evaporimeter sets up the inboard upper portion of casing and through the screw with casing fixed connection, the heat dissipation window corresponds radiator fan sets up the upper portion of casing and with casing fixed connection, the heat dissipation window will the inside and the outside intercommunication of casing, the heat dissipation dust screen corresponds the compressor sets up the casing is close to the one end of compressor and with casing fixed connection.

Still include gyro wheel mechanism, gyro wheel mechanism includes gyro wheel base and locking universal wheel, the gyro wheel base is equipped with four, four the gyro wheel base sets up respectively the lower part four corners of casing and with casing fixed connection, the locking universal wheel corresponds four the gyro wheel base is equipped with four, four the locking universal wheel sets up respectively four the lower part of gyro wheel base and with correspond gyro wheel base fixed connection, be equipped with the brake block on the locking universal wheel, the casing passes through gyro wheel mechanism and erects subaerial.

The utility model has the advantages that:

the vibration reduction device is provided with the supporting mechanism, can provide stable support for the refrigeration cycle system, and can install the refrigeration cycle system in the shell, the vibration reduction mechanism is arranged, the supporting mechanism can be matched for carrying out vibration reduction on the refrigeration cycle system, a built-in vibration reduction structure is formed, vibration reduction can be carried out on a specified part, vibration generated by the refrigeration cycle system is reduced, influence of external vibration on the refrigeration cycle system is reduced, the vibration reduction effect is good, the stability of the device is improved, the positioning mechanism is arranged, the compressor can be positioned, deviation of the compressor after long-time work is avoided, and the positioning precision is high.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the damping mechanism of the present invention;

fig. 3 is a schematic view of the positioning mechanism and the compressor of the present invention.

In the figure: 1. a housing; 2. a support base; 3. supporting the rubber block; 4. a support plate; 5. a shock-absorbing concave block; 6. a shock-absorbing strut; 7. a damping spring; 8. a positioning base; 9. positioning the bolt; 10. positioning a plate; 11. positioning the anti-slip pad; 12. a compressor; 13. a condenser; 14. an evaporator; 15. a circulating water tank; 16. a water circulating pump; 17. a water inlet; 18. a water outlet; 19. a heat-dissipating fan; 20. a heat dissipation window; 21. a heat dissipation dustproof net; 22. a roller base; 23. and locking the universal wheels.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings,

the utility model provides an industry cold water machine with shock-absorbing function, including casing 1, refrigeration cycle system and water circulating system, casing 1 erects subaerial, refrigeration cycle system is located the inside intermediate position of casing 1, water circulating system is located the inside one end of casing 1, still including being used for providing the supporting mechanism that supports for refrigeration cycle system, be used for carrying out absorbing damper and being used for going on the positioning mechanism who fixes a position compressor 12 to refrigeration cycle system, supporting mechanism is located the inboard lower part of casing 1 and is located the refrigeration cycle system below, damping mechanism is located supporting mechanism's inboard, positioning mechanism corresponds compressor 12 and is located supporting mechanism upper portion one end, the utility model discloses the overall structure sketch is as shown in FIG 1.

The supporting mechanism comprises a supporting base 2, a supporting rubber block 3 and a supporting plate 4, wherein the supporting base 2 is arranged at the lower part of the inner side of the casing 1 and is fixedly connected with the casing 1, the supporting rubber block 3 is arranged at the corner part of the upper end of the supporting base 2 and is fixedly connected with the supporting base 2, the supporting plate 4 is arranged at the upper end of the supporting rubber block 3 and is fixedly connected with the supporting rubber block 3, a gap is reserved between the supporting plate 4 and the supporting base 2, one opposite side of the supporting base 2 and the supporting plate 4 is provided with a mounting groove corresponding to the damping mechanism, the supporting mechanism is matched with the supporting base 2, the supporting rubber block 3 and the supporting plate 4 to provide mounting support for the refrigerating circulation system and install the refrigerating circulation system in the casing 1, the supporting base 2 is used for providing mounting support for the supporting rubber block 3, the supporting rubber block 3 is used for providing support for the supporting plate 4 and providing fine adjustment allowance for the supporting plate 4 according to the self property of the supporting rubber block, the supporting plate 4 is used for providing mounting support for the refrigerating circulation system and providing a certain buffering support for the refrigerating circulation system under the action of the supporting rubber block 3, and the mounting groove is used for providing mounting space for the damping mechanism.

Damper includes shock attenuation concave block 5, shock attenuation branch 6 and damping spring 7, shock attenuation concave block 5 is equipped with two, two shock attenuation concave block 5 parallel interval sets up, two relative one sides of shock attenuation concave block 5 are indent open structure, shock attenuation concave block 5 inlays through the mounting groove and establishes at support base 2 and backup pad 4 inboardly, damping branch 6 sets up between two shock attenuation concave block 5 and its lower extreme and the shock attenuation concave block 5 fixed connection who is located the below, damping branch 6 is located two relative open sides of shock attenuation concave block 5, damping spring 7 sets up between two shock attenuation concave block 5 and its both ends respectively with two shock attenuation concave block 5 fixed connection, damping spring 7 cover is established in the outside of shock attenuation concave block 5 and is located two relative open structure of shock attenuation concave block 5 inboardly, damping structure is equipped with four groups, damping mechanism is equipped with four groups, four groups of damping mechanism establish between support base 2 and backup pad 4 through inlaying, damping mechanism passes through shock attenuation concave block 5, damping branch 6 and damping spring 7 cooperate, the cooperation of cooperation support rubber block 3 carries out the shock attenuation concave block 5 and is used for two shock attenuation concave block 5 to carry out shock attenuation concave block 5 and the shock attenuation concave block 5 and carry out the spacing block 5 and support the damping mechanism and carry out the damping spring and carry out the damping effect for shock attenuation concave block 5 and the damping mechanism and carry out the damping effect for the damping block 5 and carry out the damping mechanism for the damping effect for the damping mechanism is provided with the damping spring 5, thereby two shock attenuation concave block 5 and the damping mechanism is shown damping block 5.

Positioning mechanism includes positioning base 8, positioning bolt 9 and locating plate 10, positioning base 8 is equipped with two, two positioning base 8 symmetry intervals set up in the one end both sides of backup pad 4 and with backup pad 4 fixed connection, positioning bolt 9 corresponds two positioning base 8 and is equipped with two, two positioning bolt 9 set up respectively on two positioning base 8 upper portions and with corresponding positioning base 8 threaded connection, two positioning bolt 9 run through corresponding positioning base 8 and set up relatively, locating plate 10 corresponds two positioning bolt 9 and is equipped with two, two locating plate 10 set up respectively in two relative one end of positioning bolt 9 and with corresponding positioning bolt 9 fixed connection, positioning mechanism passes through positioning base 8, positioning bolt 9 and locating plate 10 cooperation, fix a position compressor 12, compressor 12 appears squinting after avoiding long-time work, wherein, positioning base 8 is used for providing the erection bracing for positioning bolt 9, positioning bolt 9 is used for providing the erection bracing for locating plate 10 and drives locating plate 10 horizontal migration through its relative rotation between with positioning base 8, locating plate 10 is used for horizontal migration under positioning bolt 9's the drive, thereby change the interval between two locating plates 10, fix a position the compressor 12 cooperation with the long-time work of compressor 12 as the schematic diagram 3 shows.

The positioning anti-slip device further comprises two positioning anti-slip pads 11, the two positioning anti-slip pads 11 correspond to the two positioning plates 10, the two positioning anti-slip pads 11 are respectively arranged on one side opposite to the two positioning plates 10 and fixedly connected with the corresponding positioning plates 10, wherein the positioning anti-slip pads 11 are used for increasing the friction force between the positioning plates 10 and the compressor 12 and avoiding relative sliding between the positioning plates 10 and the compressor 12.

The refrigeration cycle system comprises a compressor 12, a condenser 13 and an evaporator 14, wherein the compressor 12 is arranged at the upper part of one end of the support plate 4 corresponding to a positioning mechanism and is fixedly connected with the support plate 4 through screws, the positioning plate 10 is abutted against the compressor 12 through a positioning anti-slip pad 11, the condenser 13 is arranged at the upper end of the support plate 4 and is fixedly connected with the support plate 4, the condenser 13 is communicated with the compressor 12 through a pipeline, the evaporator 14 is arranged at the upper part of one end of the support plate 4 far away from the compressor 12 and is fixedly connected with the support plate 4, the evaporator 14 is communicated with the condenser 13 and the compressor 12 through a pipeline, the compressor 12, the condenser 13 and the evaporator 14 are arranged in the shell 1 through a supporting mechanism, the refrigeration cycle system is matched with the compressor 12, the condenser 13 and the evaporator 14 to provide a refrigeration function for the water chiller, wherein the compressor 12 is used for lifting low-pressure gas to realize compression-condensation, namely heat release-expansion-evaporation, namely refrigeration cycle, the condenser 13 is used for absorbing heat, the evaporator 14 is used for exchanging heat with external air, and gasifying and absorbing heat, thereby achieving the refrigeration effect.

The water circulation system comprises a circulation water tank 15 and a circulation water pump 16, the circulation water tank 15 is arranged at one end, far away from the compressor 12, of the machine shell 1 and is fixedly connected with the machine shell 1, the circulation water pump 16 is arranged on one side of the circulation water tank 15 and is communicated with the circulation water tank 15, the circulation water tank 15 and the circulation water pump 16 are arranged inside the machine shell 1 through an installation base, the water circulation system is matched with the circulation water tank 15 and the circulation water pump 16 to provide water circulation for the refrigerator, wherein the circulation water tank 15 is used for storing circulation water, and the circulation water pump 16 is used for pumping out cooling water in the circulation water tank 15.

The water cooling system further comprises a water inlet 17 and a water outlet 18, the water inlet 17 and the water outlet 18 are arranged at one end of the machine shell 1 at intervals in parallel corresponding to the circulating water pump 16 and penetrate through the machine shell 1, the water inlet 17 is communicated with the evaporator 14 through a pipeline, the water outlet 18 is communicated with the circulating water pump 16 through a pipeline, water can be added into the water cooling machine through the water inlet 17, and cooling water in the water cooling machine can be discharged through the water outlet 18.

The refrigeration cycle system further comprises a heat dissipation mechanism, the heat dissipation mechanism comprises a heat dissipation fan 19, a heat dissipation window 20 and a heat dissipation dustproof net 21, the heat dissipation fan 19 is arranged on the upper portion of the inner side of the machine shell 1 corresponding to the evaporator 14 and fixedly connected with the machine shell 1 through screws, the heat dissipation window 20 is arranged on the upper portion of the machine shell 1 corresponding to the heat dissipation fan 19 and fixedly connected with the machine shell 1, the heat dissipation window 20 communicates the inside with the outside of the machine shell 1, the heat dissipation dustproof net 21 is arranged at one end, close to the compressor 12, of the machine shell 1 corresponding to the compressor 12 and fixedly connected with the machine shell 1, the heat dissipation mechanism is matched with the heat dissipation fan 19, the heat dissipation window 20 and the heat dissipation dustproof net 21 to dissipate heat of the refrigeration cycle system, wherein the heat dissipation fan 19 is used for dissipating heat of the condenser 13, the heat dissipation window 20 is used for matching with the heat dissipation fan 19 and providing a ventilation flow passage for the heat dissipation fan 19, and the heat dissipation dustproof net 21 is used for dissipating heat of the compressor 12 and preventing external dust and impurities from entering the machine shell 1.

Still include gyro wheel mechanism, gyro wheel mechanism includes gyro wheel base 22 and locking universal wheel 23, gyro wheel base 22 is equipped with four, four gyro wheel bases 22 set up respectively in the lower part four corners of casing 1 and with casing 1 fixed connection, locking universal wheel 23 is equipped with four corresponding four gyro wheel bases 22, four locking universal wheels 23 set up respectively in four gyro wheel base 22's lower part and with corresponding gyro wheel base 22 fixed connection, be equipped with the braking vane on the locking universal wheel 23, casing 1 erects subaerial through gyro wheel mechanism, gyro wheel mechanism passes through gyro wheel base 22 and the cooperation of locking universal wheel 23, thereby it removes to drive casing 1 removal drive the cold water machine, wherein, gyro wheel base 22 is used for providing the erection bracing for locking universal wheel 23 and is connected locking universal wheel 23 and casing 1, locking universal wheel 23 is used for driving equipment through gyro wheel base 22 and removes to the assigned position, the braking vane is used for braking operation locking universal wheel 23, thereby make its locking in assigned position department.

The number of the damping mechanisms can be increased or decreased according to actual conditions.

The working principle is as follows:

the compressor 12 can be positioned by the positioning mechanism, the position of the compressor 12 is prevented from deviating due to continuous vibration during long-time working, the positioning mechanism can position the compressors 12 of different specifications and models, the adaptability is strong, and the heat dissipation mechanism can fully dissipate heat of the refrigeration cycle system.

The beneficial effects of the utility model are that be equipped with supporting mechanism, can provide stable support and install refrigeration cycle system inside the casing for refrigeration cycle system, be equipped with damper, can cooperate supporting mechanism to carry out the shock attenuation to refrigeration cycle system, constitute built-in shock-absorbing structure, can carry out the shock attenuation to appointed part, reduce the vibrations that refrigeration cycle system itself produced and reduce the influence that outside vibrations produced refrigeration cycle system, the shock attenuation is effectual, lifting means's stability, be equipped with positioning mechanism, can fix a position the compressor, avoid long-time work back compressor to produce the skew, positioning accuracy is high.

While one embodiment of the present invention has been described in detail, the present invention is only a preferred embodiment of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides an industry cold water machine with shock-absorbing function, includes casing (1), refrigeration cycle system and water circulating system, casing (1) erects subaerial, and refrigeration cycle system is located casing (1) inside intermediate position, water circulating system are located the inside one end of casing (1), its characterized in that still including be used for refrigeration cycle system provide the supporting mechanism of support, be used for carrying out absorbing damper and be used for going on the positioning mechanism who fixes a position compressor (12) to refrigeration cycle system, supporting mechanism is located casing (1) inboard lower part just is located the refrigeration cycle system below, and damper is located supporting mechanism's inboard, and positioning mechanism corresponds compressor (12) and is located supporting mechanism upper portion one end.

2. The industrial water chiller with the damping function according to claim 1, wherein the supporting mechanism comprises a supporting base (2), a supporting rubber block (3) and a supporting plate (4), the supporting base (2) is arranged at the lower part of the inner side of the casing (1) and fixedly connected with the casing (1), the supporting rubber block (3) is arranged at the upper corner of the supporting base (2) and fixedly connected with the supporting base (2), the supporting plate (4) is arranged at the upper end of the supporting rubber block (3) and fixedly connected with the supporting rubber block (3), a gap is reserved between the supporting plate (4) and the supporting base (2), and a mounting groove is arranged on the opposite side of the supporting base (2) and the supporting plate (4) corresponding to the damping mechanism.

3. The industrial water chiller with the shock absorption function according to claim 2, wherein the shock absorption mechanism comprises two shock absorption concave blocks (5), two shock absorption support rods (6) and two shock absorption springs (7), the two shock absorption concave blocks (5) are arranged in parallel at intervals, one sides of the two shock absorption concave blocks (5) opposite to each other are of concave opening structures, the shock absorption concave blocks (5) are embedded in the supporting base (2) and the inner side of the supporting plate (4) through mounting grooves, the shock absorption support rods (6) are arranged between the two shock absorption concave blocks (5) and the lower ends of the shock absorption concave blocks are fixedly connected with the shock absorption concave blocks (5) below, the shock absorption support rods (6) are arranged inside the openings of the two shock absorption concave blocks (5) opposite to each other, the shock absorption springs (7) are arranged between the two shock absorption concave blocks (5) and the two ends of the shock absorption concave blocks are fixedly connected with the two shock absorption concave blocks (5) respectively, the shock absorption springs (7) are sleeved outside the shock absorption concave blocks (5) and the openings of the two shock absorption concave blocks (5) opposite to each other, a plurality of shock absorption mechanisms are arranged inside the supporting plate through mounting grooves (2), and a plurality of shock absorption concave support mechanisms (4) are arranged inside the supporting plate sets.

4. The industrial water chiller with the damping function according to claim 3, wherein the positioning mechanism comprises two positioning bases (8), two positioning bolts (9) and two positioning plates (10), the two positioning bases (8) are symmetrically arranged on two sides of one end of the support plate (4) at intervals and fixedly connected with the support plate (4), the two positioning bolts (9) are arranged corresponding to the two positioning bases (8), the two positioning bolts (9) are respectively arranged on the upper portions of the two positioning bases (8) and are in threaded connection with the corresponding positioning bases (8), the two positioning bolts (9) penetrate through the corresponding positioning bases (8) and are oppositely arranged, the two positioning plates (10) are arranged corresponding to the two positioning bolts (9), and the two positioning plates (10) are respectively arranged at one ends of the two positioning bolts (9) opposite and are fixedly connected with the corresponding positioning bolts (9).

5. The industrial water chiller with the shock absorption function according to claim 4, further comprising two positioning anti-slip pads (11), wherein the two positioning anti-slip pads (11) are disposed corresponding to the two positioning plates (10), and the two positioning anti-slip pads (11) are respectively disposed on one side of the two positioning plates (10) opposite to each other and fixedly connected to the corresponding positioning plates (10).

6. The industrial water chiller with shock absorption function according to claim 5, wherein the refrigeration cycle system comprises a compressor (12), a condenser (13) and an evaporator (14), the compressor (12) is disposed on the upper portion of one end of the support plate (4) corresponding to the positioning mechanism and is fixedly connected to the support plate (4) through screws, the positioning plate (10) is abutted against the compressor (12) through the positioning anti-slip pad (11), the condenser (13) is disposed on the upper end of the support plate (4) and is fixedly connected to the support plate (4), the condenser (13) is communicated with the compressor (12) through a pipeline, the evaporator (14) is disposed on the upper portion of one end of the support plate (4) far away from the compressor (12) and is fixedly connected to the support plate (4), the evaporator (14) is communicated with the condenser (13) and the compressor (12) through a pipeline, and the compressor (12), the condenser (13) and the evaporator (14) are disposed inside the housing (1) through the supporting mechanism.

7. The industrial water chiller with a shock absorption function according to claim 6, wherein the water circulation system comprises a circulation water tank (15) and a circulation water pump (16), the circulation water tank (15) is arranged at one end of the interior of the machine shell (1) far away from the compressor (12) and is fixedly connected with the machine shell (1), the circulation water pump (16) is arranged at one side of the circulation water tank (15) and is communicated with the circulation water tank (15), and the circulation water tank (15) and the circulation water pump (16) are arranged in the interior of the machine shell (1) through a mounting base.

8. The industrial water chiller with the shock absorption function according to claim 7, further comprising a water inlet (17) and a water outlet (18), wherein the water inlet (17) and the water outlet (18) are arranged at one end of the machine shell (1) in parallel at intervals corresponding to the circulating water pump (16) and penetrate through the machine shell (1), the water inlet (17) is communicated with the evaporator (14) through a pipeline, and the water outlet (18) is communicated with the circulating water pump (16) through a pipeline.

9. The industrial water chiller with the damping function according to claim 6, further comprising a heat dissipation mechanism, wherein the heat dissipation mechanism comprises a heat dissipation fan (19), a heat dissipation window (20) and a heat dissipation dust screen (21), the heat dissipation fan (19) is disposed at the upper portion of the inner side of the casing (1) corresponding to the evaporator (14) and is fixedly connected with the casing (1) through a screw, the heat dissipation window (20) is disposed at the upper portion of the casing (1) corresponding to the heat dissipation fan (19) and is fixedly connected with the casing (1), the heat dissipation window (20) communicates the inside and the outside of the casing (1), and the heat dissipation dust screen (21) is disposed at one end of the casing (1) close to the compressor (12) corresponding to the compressor (12) and is fixedly connected with the casing (1).

10. The industrial water chiller with the shock absorption function according to claim 1, further comprising a roller mechanism, wherein the roller mechanism comprises four roller bases (22) and four locking universal wheels (23), the four roller bases (22) are respectively disposed at four corners of the lower portion of the housing (1) and fixedly connected to the housing (1), the four locking universal wheels (23) are disposed corresponding to the four roller bases (22), the four locking universal wheels (23) are respectively disposed at the lower portions of the four roller bases (22) and fixedly connected to the corresponding roller bases (22), brake plates are disposed on the locking universal wheels (23), and the housing (1) is erected on the ground through the roller mechanism.

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