CN220338736U - Cooling structure for water chiller - Google Patents

Abstract

The utility model discloses a cooling structure for a water chiller, which belongs to the technical field of water chillers and aims at solving the problem that a cooling mechanism additionally arranged outside a compressor affects overhauling and replacement in the prior art, and the cooling structure comprises a water chiller body, wherein an equipment room is arranged inside the water chiller body; according to the cooling mechanism, the first heat conduction shell and the second heat conduction shell can be separated and completely expose the cold water machine compressor, and the first heat conduction shell and the second heat conduction shell which are in flexible switching package states can provide possibility for convenient overhaul of the cold water machine compressor.

Description

Cooling structure for water chiller

Technical Field

The utility model belongs to the technical field of water coolers, and particularly relates to a cooling structure for a water cooler.

Background

The water chiller comprises four main components: the compressor, the evaporator, the condenser and the expansion valve realize the refrigerating and heating effects of the unit; the compressor is indispensable in the refrigeration system, can realize the suction, compression and the exclusion of gaseous, accomplishes continuous gas compression circulation, and the compressor can produce high heat at the during operation, and can appear unable immediately to use owing to the air temperature is too high after the compression, so need add extra cooling arrangement and cool off it.

At present, a circulating water cooling mode is sometimes adopted to cool the compressor, and the circulating water cooling needs to be provided with a cooling cover and a cooling liquid pipeline, so that a shielding object exists outside the compressor and is inconvenient to overhaul and replace, and therefore, complicated disassembly and assembly procedures are needed to be implemented in the overhaul and replacement process of the compressor.

Therefore, a cooling structure for a water chiller is needed, which solves the problem that the cooling mechanism additionally arranged outside the compressor in the prior art affects the maintenance and replacement of the compressor.

Disclosure of Invention

The utility model aims to provide a cooling structure for a water chiller, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cooling structure for cold water machine, includes the cold water machine body, the inside of cold water machine body is provided with the equipment room, the interior bottom wall of cold water machine body is fixed with the cold water machine compressor, the outside of cold water machine compressor is provided with cooling body, cooling body includes first heat conduction shell, second heat conduction shell, flexible inner tube and telescopic tube, first heat conduction shell sets up in one side of cold water machine compressor, the second heat conduction shell sets up the opposite side at the cold water machine compressor, two flexible inner tube is horizontal fixation respectively on the cambered surface that first heat conduction shell and second heat conduction shell are on the back of the body, two telescopic tube overlaps respectively and establishes the outside at two flexible inner tubes, one telescopic tube's one end is fixed with the inlet channel, and another telescopic tube's one end is fixed with outlet channel, one side surface fixation of cold water machine body has the coolant tank, the inside of coolant tank is provided with circulating water pump.

In the scheme, it is to be noted that a splicing plug is fixed on one end face of the first heat conducting shell, a splicing jack is formed in one end face of the second heat conducting shell, the splicing plug is matched with the splicing jack in a clamping mode, and the splicing plug is communicated with the first heat conducting shell.

It is further worth to say that the inside cavity that first heat conduction shell with the second heat conduction shell sets up, one flexible inner tube is linked together with first heat conduction shell, another flexible inner tube is linked together with the second heat conduction shell, first heat conduction shell with be provided with the centre gripping mouth between the second heat conduction shell.

It is still further to be noted that, flexible smooth chamber has been seted up to telescopic tube's inside, telescopic tube's inside is located telescopic tube's one end cover and is established fixedly with the sealing washer, telescopic tube sliding connection is in telescopic tube's flexible smooth chamber, the inner wall of sealing washer laminating telescopic tube.

As a preferred embodiment, one end of the water inlet pipeline penetrates into the cooling water tank and then is fixed at the water outlet of the circulating water pump, and one end of the water outlet pipeline penetrates into the cooling water tank.

As a preferred implementation mode, the front end of the water chiller body is provided with an equipment overhaul port, and four corners of the lower surface of the water chiller body are respectively fixed with a supporting foot seat.

Compared with the prior art, the cooling structure for the water chiller provided by the utility model at least comprises the following beneficial effects:

through the cooling mechanism that sets up, can implement separation operation and expose cold water machine compressor completely to first heat conduction shell and second heat conduction shell, the first heat conduction shell and the second heat conduction shell of nimble switching parcel state provide the possibility for the convenient maintenance of cold water machine compressor.

The first heat conduction shell, the second heat conduction shell and the clamping opening are arranged, in the disassembling process of the water chiller compressor, the first heat conduction shell and the second heat conduction shell can be horizontally moved to two sides so as to enlarge and disassemble the operation space of the water chiller compressor, so that shielding caused by the cooling mechanism to the disassembling of the water chiller compressor is reduced, and when the water chiller compressor is assembled on a water chiller, the clamping opening is formed between the first heat conduction shell and the second heat conduction shell so as to conveniently indicate the assembling position of the water chiller compressor.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a perspective view of the cooling mechanism of the present utility model;

FIG. 3 is a perspective view of a first thermally conductive shell structure of the present utility model;

fig. 4 is a perspective view of a splice plug structure of the present utility model.

In the figure: 1. a water chiller body; 2. a support foot base; 3. an equipment room; 4. an equipment access port; 5. a chiller compressor; 6. a first thermally conductive shell; 7. a second thermally conductive shell; 8. a telescopic inner tube; 9. a telescoping tube; 10. a seal ring; 11. a telescopic sliding cavity; 12. a water inlet pipe; 13. a cooling water tank; 14. a water outlet pipe; 15. a splice plug; 16. splicing jacks; 17. and a clamping opening.

Detailed Description

The utility model is further described below with reference to examples.

Referring to fig. 1-4, the utility model provides a cooling structure for a water chiller, which comprises a water chiller body 1, wherein an equipment room 3 is arranged in the water chiller body 1, a water chiller compressor 5 is fixed on the inner bottom wall of the water chiller body 1, a cooling mechanism is arranged outside the water chiller compressor 5, the cooling mechanism comprises a first heat conducting shell 6, a second heat conducting shell 7, a telescopic inner pipe 8 and a telescopic sleeve 9, the first heat conducting shell 6 is arranged on one side of the water chiller compressor 5, the second heat conducting shell 7 is arranged on the other side of the water chiller compressor 5, the two telescopic inner pipes 8 are respectively horizontally fixed on cambered surfaces of the first heat conducting shell 6 and the second heat conducting shell 7, the two telescopic sleeves 9 are respectively sleeved outside the two telescopic inner pipes 8, one end of one telescopic sleeve 9 is fixed with a water inlet pipe 12, one end of the other telescopic sleeve 9 is fixed with a water outlet pipe 14, one side surface of the water chiller body 1 is fixed with a cooling water tank 13, and the inside of the cooling water tank 13 is provided with a circulating water pump.

Further, as shown in fig. 1, fig. 2 and fig. 3, it is worth specifically explaining that a splicing plug 15 is fixed on one end face of the first heat conducting shell 6, a splicing jack 16 is provided on one end face of the second heat conducting shell 7, the splicing plug 15 is matched with the splicing jack 16 in a clamping manner, and the splicing plug 15 is communicated with the first heat conducting shell 6.

Further, as shown in fig. 3, it is worth specifically explaining that the first heat conducting shell 6 and the second heat conducting shell 7 are hollow, one telescopic inner tube 8 is communicated with the first heat conducting shell 6, the other telescopic inner tube 8 is communicated with the second heat conducting shell 7, and a clamping opening 17 is arranged between the first heat conducting shell 6 and the second heat conducting shell 7.

The scheme comprises the following working processes: when the cooling device is used, the first heat conduction shell 6 and the second heat conduction shell 7 which are used for circularly introducing cooling liquid are wrapped outside the cold water machine compressor 5 and are subjected to cooling treatment, before the cold water machine compressor 5 is overhauled, the first heat conduction shell 6 and the second heat conduction shell 7 are pulled along opposite directions, the telescopic inner pipe 8 is retracted into the telescopic sleeve 9, and therefore separation operation can be carried out on the first heat conduction shell 6 and the second heat conduction shell 7 and the cold water machine compressor 5 is completely exposed, and convenience in overhauling of the cold water machine compressor 5 is provided for the first heat conduction shell 6 and the second heat conduction shell 7 which are flexibly switched to a wrapped state.

The working process can be as follows: the first heat conduction shell 6 and the second heat conduction shell 7 can be separated and completely expose the cold water machine compressor 5, and the first heat conduction shell 6 and the second heat conduction shell 7 which flexibly switch the package state provide possibility for convenient maintenance of the cold water machine compressor 5.

Further, as shown in fig. 1, fig. 2 and fig. 4, it is worth specifically explaining that the telescopic sliding cavity 11 is formed in the telescopic sleeve 9, the sealing ring 10 is fixedly sleeved at one end of the telescopic inner tube 8 in the telescopic sleeve 9, the telescopic inner tube 8 is slidably connected in the telescopic sliding cavity 11 of the telescopic sleeve 9, the sealing ring 10 is attached to the inner wall of the telescopic sleeve 9, the first heat conducting shell 6 and the second heat conducting shell 7 can be horizontally moved to two sides so as to enlarge the operation space for disassembling the cold water machine compressor 5 in the disassembling process of the cold water machine compressor 5, thereby reducing shielding caused by the disassembling of the cold water machine compressor 5 by the cooling mechanism, and when the cold water machine compressor 5 is assembled on the cold water machine, the clamping opening 17 is formed between the first heat conducting shell 6 and the second heat conducting shell 7 so as to conveniently indicate the assembling position of the cold water machine compressor 5.

Further, as shown in fig. 4, it is worth specifically explaining that one end of the water inlet pipe 12 penetrates into the cooling water tank 13 and then is fixed at the water outlet of the circulating water pump, and one end of the water outlet pipe 14 penetrates into the cooling water tank 13.

Further, as shown in fig. 1, it is worth specifically explaining that the front end of the water chiller body 1 is provided with an equipment access opening 4, and four corners of the lower surface of the water chiller body 1 are fixed with supporting feet 2.

To sum up: the first heat conduction shell 6 and the second heat conduction shell 7 can be separated and completely expose the cold water machine compressor 5, and the first heat conduction shell 6 and the second heat conduction shell 7 which flexibly switch the package state provide possibility for convenient maintenance of the cold water machine compressor 5; in the process of disassembling the water chiller compressor 5, the first heat conducting shell 6 and the second heat conducting shell 7 can be horizontally moved to two sides so as to enlarge and disassemble the operation space of the water chiller compressor 5, thereby reducing shielding caused by the cooling mechanism on the disassembly of the water chiller compressor 5, and when the water chiller compressor 5 is assembled on a water chiller, a clamping opening 17 is formed between the first heat conducting shell 6 and the second heat conducting shell 7 so as to conveniently indicate the assembling position of the water chiller compressor 5.

The water chiller compressor 5 is commercially available and is provided with a power supply, which is well known in the art, and therefore will not be repeated in the specification.

Claims (6)

1. The utility model provides a cooling structure for cold water machine, includes cold water machine body (1), its characterized in that: the inside of cold water machine body (1) is provided with equipment room (3), the interior bottom wall of cold water machine body (1) is fixed with cold water machine compressor (5), the outside of cold water machine compressor (5) is provided with cooling body, cooling body includes first heat conduction shell (6), second heat conduction shell (7), flexible inner tube (8) and telescopic tube (9), first heat conduction shell (6) set up in one side of cold water machine compressor (5), second heat conduction shell (7) set up in the opposite side of cold water machine compressor (5), two flexible inner tube (8) are respectively the level and are fixed on the cambered surface that first heat conduction shell (6) and second heat conduction shell (7) are carried on the back of the body, two telescopic tube (9) are respectively the cover and are established in the outside of two flexible inner tube (8), one telescopic tube (9) one end is fixed with inlet channel (12), and another telescopic tube (9) one end is fixed with outlet pipe (14), one side surface of cold water machine body (1) is fixed with cooling water tank (13), inside cooling water tank (13) is provided with.

2. The cooling structure for a water chiller according to claim 1 wherein: a splicing plug (15) is fixed on one end face of the first heat conduction shell (6), a splicing jack (16) is formed in one end face of the second heat conduction shell (7), the splicing plug (15) is matched with the splicing jack (16) in a clamping mode, and the splicing plug (15) is communicated with the first heat conduction shell (6).

3. The cooling structure for a water chiller according to claim 2, characterized in that: the heat conducting device comprises a first heat conducting shell (6) and a second heat conducting shell (7), wherein one heat conducting shell is hollow, the other heat conducting shell is hollow, the first heat conducting shell is provided with a clamping opening (17), the second heat conducting shell is provided with a clamping opening (17), the first heat conducting shell (6) is provided with a clamping opening (17), the second heat conducting shell (7) is provided with a clamping opening (17), and the first heat conducting shell (6) is provided with a clamping opening (17).

4. A cooling structure for a water chiller according to claim 3 wherein: the telescopic sliding cavity (11) is formed in the telescopic sleeve (9), a sealing ring (10) is sleeved and fixed at one end of the telescopic inner tube (8) in the telescopic sleeve (9), the telescopic inner tube (8) is slidably connected in the telescopic sliding cavity (11) of the telescopic sleeve (9), and the sealing ring (10) is attached to the inner wall of the telescopic sleeve (9).

5. The cooling structure for a water chiller according to claim 4 wherein: one end of the water inlet pipeline (12) penetrates into the cooling water tank (13) and then is fixed at the water outlet of the circulating water pump, and one end of the water outlet pipeline (14) penetrates into the cooling water tank (13).

6. The cooling structure for a water chiller according to claim 5 wherein: the front end of the water chiller body (1) is provided with an equipment overhaul port (4), and four corners of the lower surface of the water chiller body (1) are respectively fixed with a supporting foot seat (2).