CN215409093U - Cold-storage constant-temperature liquid cooling unit - Google Patents

Abstract

The utility model discloses a cold-storage constant-temperature liquid cooling unit, which comprises a refrigeration compressor, wherein a plurality of parallel annular grooves are formed in the outer wall of the refrigeration compressor, radiating pipes matched with the annular grooves in shape are sleeved in the annular grooves, a water inlet pipe and a water outlet pipe are respectively arranged on the side surface of the refrigeration compressor, the water inlet pipe is communicated with the radiating pipes, the water outlet pipe is communicated with the radiating pipes, electromagnetic valves are arranged at the positions where the water inlet pipe is communicated with the radiating pipes, the electromagnetic valves are also arranged at the positions where the water outlet pipe is communicated with the radiating pipes, a plurality of electronic thermometers are arranged on the side surface of the refrigeration compressor and used for detecting the temperature of different positions of a shell of the refrigeration compressor, a mounting box is arranged on one side of the refrigeration compressor, a control circuit board is arranged in the mounting box, a water circulation device is arranged on one side of the refrigeration compressor and has the function of controlling the flow of cooling water in the radiating pipes at different positions, the energy-saving advantage is achieved.

Description

Cold-storage constant-temperature liquid cooling unit

Technical Field

The utility model relates to the field of refrigerating units, in particular to a cold accumulation constant-temperature liquid cooling unit.

Background

The cold accumulation unit comprises an air compressor, the air compressor is a driven fluid machine for lifting low-pressure gas into high-pressure gas and is the heart of a refrigeration system, and the air compressor generates large heat and high temperature during refrigeration operation, so that the air compressor is easily damaged, and the service life of the air compressor is shortened.

Among the prior art, an air compressor passes through the water-cooling heat dissipation, and general cold-storage unit open time is longer to satisfy the sufficient air conditioning of outside needs, consequently the time that the water-cooling heat dissipation was opened is also longer, and the discharge that every cooling tube of this kind of water cooling plant passes through is the same, and the temperature of the different positions of compressor is different, and the discharge that the heat dissipation needs to be used is also different, and this kind of structure setting has caused the consumption to increase.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cold-storage constant-temperature liquid cooling unit which has the advantage of saving energy by controlling the flow of cooling water in cooling pipes at different positions.

The technical purpose of the utility model is realized by the following technical scheme:

a cold-storage constant-temperature liquid cooling unit comprises a refrigeration compressor, wherein a plurality of parallel annular grooves are formed in the outer wall of the refrigeration compressor, the annular grooves are sequentially arranged along the length of the refrigeration compressor, radiating pipes matched with the shapes of the annular grooves are sleeved in the annular grooves, a water circulating device is arranged on one side of the refrigeration compressor and used for circulating cooling water in the radiating pipes, a water inlet pipe and a water outlet pipe are arranged on the side face of the refrigeration compressor, one port of the water inlet pipe and one port of the water outlet pipe are communicated with the water circulating device, the other port of the water inlet pipe and the other port of the water outlet pipe are sealed, a plurality of electromagnetic valves are arranged on the water inlet pipe and the water outlet pipe, the plurality of electromagnetic valves on the water inlet pipe are respectively connected with the plurality of radiating pipes, a plurality of electromagnetic valves on the water outlet pipe are respectively connected with the plurality of radiating pipes, and a plurality of electronic thermometers are arranged on the side face of the refrigeration compressor, the quantity that equals the cooling tube of electron thermometer's quantity, it is a plurality of electron thermometer arranges in proper order along compressor's length, a plurality of electron thermometers and a plurality of cooling tube one-to-one, and electron thermometer all is located same one side that corresponds the cooling tube, one side of compressor is provided with the mounting box, be provided with control circuit board in the mounting box, electron thermometer and solenoid valve with the equal electric connection of control circuit board.

Through adopting above-mentioned technical scheme, a plurality of electronic thermometers that are provided with can detect the temperature of the different positions of refrigeration compressor casing, electronic thermometer and solenoid valve through with control circuit board electric connection, convey temperature signal to the solenoid valve, the volume of opening and shutting of every solenoid valve of control circuit board control, each electronic thermometer detects behind the temperature of each region, if regional temperature is higher, the solenoid valve volume of opening of corresponding region position is corresponding great, if regional temperature is lower, the solenoid valve volume of opening of corresponding region position is corresponding less, thereby reach the effect of the different position cooling water flow of control.

Further setting: the water circulation device comprises a water outlet bin and a water inlet bin, one side of the water outlet bin is provided with a first water suction pump, the water inlet end of the first water suction pump is communicated with the water outlet bin, the water outlet end of the first water suction pump is connected with the water inlet pipe, the water outlet pipe is communicated with the water inlet bin, a second water suction pump is arranged between the water outlet bin and the water inlet bin, the water inlet end of the second water suction pump is communicated with the water inlet bin, and the water outlet end of the second water suction pump is communicated with the water outlet bin.

Through adopting above-mentioned technical scheme, through the first suction pump that is provided with, in extracting the cooling water in the storehouse of delivering water into the water pipe, the cooling water in the water pipe enters into each radiator pipe again, dispel the heat to compressor's casing, later the cooling water enters into the outlet pipe, the cooling water in the water pipe enters into the storehouse of intaking, be provided with the second suction pump again to intake in the storehouse the cooling water extraction in the storehouse to the storehouse of delivering water, accomplish the hydrologic cycle, the storehouse of delivering water that is provided with simultaneously and the storehouse of intaking can let the cooling water fully flow, reach the effect of cooling water cooling.

Further setting: the water inlet pipe is located at the top of the refrigeration compressor, and the water outlet pipe is located at the bottom of the refrigeration compressor.

Through adopting above-mentioned technical scheme, the inlet tube is located compressor's top, and the outlet pipe is located compressor's bottom, through such setting, can accelerate the velocity of flow of cooling water through the gravity of cooling water for hydrologic cycle improves the radiating efficiency.

Further setting: all be provided with radiator unit in storehouse and the play sump of intaking, radiator unit is including rotating the motor, it is located the top of storehouse, play sump of intaking to rotate the motor, the equal coaxial coupling of output shaft of rotation motor has the dwang, circumference along the dwang is provided with a plurality of stirring vanes on the side of dwang.

Through adopting above-mentioned technical scheme, all be provided with radiator unit in storehouse and the play sump of intaking, the radiator unit who is provided with can stir the cooling water in storehouse and the play sump of intaking for the cooling of cooling water, in the cooling water after the cooling enters into the radiator pipe, can not reduce radiating effect, makes the radiating effect more stable.

Further setting: first suction pump, second suction pump, rotation motor all with control circuit board electric connection.

Through adopting above-mentioned technical scheme, first suction pump, second suction pump, rotating electrical machines all with control circuit board electric connection, control circuit board can control the power of first suction pump, second suction pump, rotating electrical machines, realizes regulating and controlling under different radiating efficiency requirements.

Further setting: one side of the refrigeration compressor is provided with a cold accumulation bin, a cold accumulation agent is arranged in the cold accumulation bin, and a cold air outlet end of the refrigeration compressor is communicated with the cold accumulation bin.

Through adopting above-mentioned technical scheme, be provided with the coolant in the cold-storage storehouse, the coolant can be preserved the surplus cold volume that refrigeration compressor produced, only provides the cold air volume of needs to the outside, can not cause the waste of air conditioning, releases the air conditioning of storage when needs, reaches energy-conserving effect.

In conclusion, the utility model has the following beneficial effects: the flow of cooling water in the radiating pipes at different positions is controlled, so that the energy-saving effect is achieved, and the radiating effect is good.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

fig. 3 is an enlarged view of the refrigeration compressor.

In the figure, 1, a refrigeration compressor; 2. an annular groove; 3. a radiating pipe; 4. a water inlet pipe; 5. a water outlet pipe; 6. an electromagnetic valve; 7. an electronic thermometer; 8. mounting a box; 9. a water outlet bin; 10. a water inlet bin; 11. a first water pump; 12. a second water pump; 13. rotating the motor; 14. stirring blades; 15. and (4) a cold storage bin.

Detailed Description

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

Referring to fig. 1 and 3, the refrigeration compressor comprises a refrigeration compressor 1, a plurality of parallel annular grooves 2 are formed in the outer wall of the refrigeration compressor 1, the plurality of annular grooves 2 are sequentially arranged along the length of the refrigeration compressor 1, heat dissipation pipes 3 matched with the annular grooves 2 in shape are sleeved in the annular grooves 2, a water circulation device is arranged on one side of the refrigeration compressor 1 and used for circulating cooling water in the heat dissipation pipes 3, a water inlet pipe 4 and a water outlet pipe 5 are arranged on the side surface of the refrigeration compressor 1, one port of the water inlet pipe 4 and one port of the water outlet pipe 5 are both communicated with the water circulation device, the other port of the water inlet pipe 4 and the other port of the water outlet pipe 5 are both closed, a plurality of electromagnetic valves 6 are arranged on the water inlet pipe 4 and the water outlet pipe 5, the water inlet pipe 4 is connected with the plurality of heat dissipation pipes 3 through the plurality of electromagnetic valves 6, one electromagnetic valve 6 on the water inlet pipe 4 is connected with one heat dissipation pipe 3, the water outlet pipe 5 is connected with the plurality of heat dissipation pipes 3 through the plurality of electromagnetic valves 6, an electromagnetic valve 6 on a water outlet pipe 5 is connected with a radiating pipe 3, a plurality of electronic thermometers 7 are arranged on the side surface of the refrigeration compressor 1, the number of the electronic thermometers 7 is equal to the number of the radiating pipes 3, the electronic thermometers 7 are sequentially arranged along the length of the refrigeration compressor 1, the electronic thermometers 7 are in one-to-one correspondence with the radiating pipes 3, the electronic thermometers 7 are all positioned at the same side of the corresponding radiating pipes 3, a mounting box 8 is arranged at one side of the refrigeration compressor 1, a control circuit board is arranged in the mounting box 8, the electronic thermometers 7, the electromagnetic valve 6 and the control circuit board are electrically connected, a water circulating device is arranged for circulating cooling water in the radiating pipes 3, the arranged electronic thermometers 7 can detect the temperatures of different positions of a shell of the refrigeration compressor 1, and the electronic thermometers 7 and the electromagnetic valve 6 are electrically connected with the control circuit board, the temperature signals are transmitted to the electromagnetic valves 6, the control circuit board controls the opening and closing amount of each electromagnetic valve 6, after each electronic thermometer 7 detects the temperature of each area, if the temperature of each area is higher, the opening amount of the electromagnetic valve 6 at the corresponding area position is correspondingly larger, and if the temperature of each area is lower, the opening amount of the electromagnetic valve 6 at the corresponding area position is correspondingly smaller, so that the effect of controlling the flow of cooling water at different positions is achieved.

Referring to fig. 1 and 2, the water circulation device includes a water outlet bin 9 and a water inlet bin 10, a first water pump 11 is disposed on one side of the water outlet bin 9, a water inlet end of the first water pump 11 is communicated with the water outlet bin 9, a water outlet end of the first water pump 11 is connected with a water inlet pipe 4, a water outlet pipe 5 is communicated with the water inlet bin 10, a second water pump 12 is disposed between the water outlet bin 9 and the water inlet bin 10, a water inlet end of the second water pump 12 is communicated with the water inlet bin 10, a water outlet end of the second water pump 12 is communicated with the water outlet bin 9, cooling water in the water outlet bin 9 is pumped into the water inlet pipe 4 through the disposed first water pump 11, cooling water in the water inlet pipe 4 is then pumped into each radiating pipe 3 to radiate heat of the shell of the refrigeration compressor 1, then cooling water enters the water outlet pipe 5, cooling water in the water inlet pipe 4 enters the water inlet bin 10, a second water pump 12 is disposed to pump cooling water in the water outlet bin 10, the water circulation step is completed, and the water outlet bin 9 and the water inlet bin 10 which are arranged simultaneously can enable cooling water to fully flow, so that the cooling effect of the cooling water is achieved.

Referring to fig. 3, inlet tube 4 is located the top of compressor 1, and outlet pipe 5 is located compressor 1's bottom, and inlet tube 4 is located compressor 1's top, and outlet pipe 5 is located compressor 1's bottom, through such setting, can accelerate the velocity of flow of cooling water through the gravity of cooling water for hydrologic cycle improves the radiating efficiency.

Referring to fig. 2, all be provided with radiator unit in the storehouse 10 and the play sump 9 of intaking, radiator unit is including rotating motor 13, it is located the storehouse 10 of intaking to rotate motor 13, go out the top of sump 9, the equal coaxial coupling of output shaft that rotates motor 13 has the dwang, circumference along the dwang on the side of dwang is provided with a plurality of stirring vanes, all be provided with radiator unit in storehouse 10 and the play sump 9 of intaking, the radiator unit who is provided with can stir the cooling water in storehouse 10 and the play sump 9 of intaking, accelerate the cooling of cooling water, the cooling water after the cooling enters into in cooling tube 3, can not reduce radiating effect, make the radiating effect more stable.

Referring to fig. 1, the first water pump 11, the second water pump 12 and the rotating motor 13 are electrically connected to the control circuit board, and the control circuit board can control the power of the first water pump 11, the second water pump 12 and the rotating motor 13, so that regulation and control can be realized under different heat dissipation efficiency requirements.

Referring to fig. 1, a cold storage bin 15 is arranged on one side of a refrigeration compressor 1, a cold storage agent is arranged in the cold storage bin 15, the cold air outlet end of the refrigeration compressor 1 is communicated with the cold storage bin 15, and the cold storage agent is arranged in the cold storage bin 15 and can store the redundant cold energy generated by the refrigeration compressor 1 and provide the required cold air quantity to the outside only, so that the waste of the cold air is avoided, the stored cold air is released when required, and the energy-saving effect is achieved.

The working principle of the utility model is as follows: the six electronic thermometers 7 are arranged to detect the temperatures of different positions of the shell of the refrigeration compressor 1, the electronic thermometers 7 and the electromagnetic valves 6 are electrically connected with the control circuit board to transmit temperature signals to the electromagnetic valves 6, the control circuit board controls the opening and closing amount of each electromagnetic valve 6, after each electronic thermometer 7 detects the temperature of each area, if the temperature of each area is higher, the opening amount of the electromagnetic valve 6 of the corresponding area is correspondingly larger, if the temperature of each area is lower, the opening amount of the electromagnetic valve 6 of the corresponding area is correspondingly smaller, so that the effect of controlling the flow of cooling water at different positions is achieved, the first water suction pump 11 pumps the cooling water in the water outlet bin 9 into the water inlet pipe 4, the cooling water in the water inlet pipe 4 enters each radiating pipe 3 again to radiate the shell of the refrigeration compressor 1, then the cooling water enters the water outlet pipe 5, and the cooling water in the water inlet pipe 4 enters the water inlet bin 10, a second water pump 12 is arranged to pump the cooling water in the water inlet bin 10 into the water outlet bin 9, and water circulation is completed.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (6)

1. The cold-storage constant-temperature liquid cooling unit comprises a refrigeration compressor (1) and is characterized in that a plurality of parallel annular grooves (2) are formed in the outer wall of the refrigeration compressor (1), the annular grooves (2) are sequentially arranged along the length of the refrigeration compressor (1), radiating pipes (3) matched with the shapes of the annular grooves (2) are sleeved in the annular grooves (2), a water circulation device is arranged on one side of the refrigeration compressor (1) and used for circulating cooling water in the radiating pipes (3), a water inlet pipe (4) and a water outlet pipe (5) are arranged on the side face of the refrigeration compressor (1), one port of the water inlet pipe (4) and one port of the water outlet pipe (5) are communicated with the water circulation device, the other port of the water inlet pipe (4) and the other port of the water outlet pipe (5) are sealed, and a plurality of electromagnetic valves (6) are arranged on the water inlet pipe (4) and the water outlet pipe (5), the water inlet pipe (4) is connected with the radiating pipes (3) through a plurality of electromagnetic valves (6), the water outlet pipe (5) is connected with a plurality of radiating pipes (3) through a plurality of electromagnetic valves (6), a plurality of electronic thermometers (7) are arranged on the side surface of the refrigeration compressor (1), the number of the electronic thermometers (7) is equal to that of the radiating pipes (3), the electronic thermometers (7) are sequentially arranged along the length of the refrigeration compressor (1), the electronic thermometers (7) are in one-to-one correspondence with the radiating pipes (3), and the electronic thermometers (7) are all positioned at the same side of the corresponding radiating pipe (3), a mounting box (8) is arranged on one side of the refrigeration compressor (1), a control circuit board is arranged in the mounting box (8), the electronic thermometer (7) and the electromagnetic valve (6) are electrically connected with the control circuit board.

2. The cold-storage constant-temperature liquid cooling unit as claimed in the claims, wherein the water circulation device comprises a water outlet bin (9) and a water inlet bin (10), a first water pump (11) is arranged on one side of the water outlet bin (9), the water inlet end of the first water pump (11) is communicated with the water outlet bin (9), the water outlet end of the first water pump (11) is connected with the water inlet pipe (4), the water outlet pipe (5) is communicated with the water inlet bin (10), a second water pump (12) is arranged between the water outlet bin (9) and the water inlet bin (10), the water inlet end of the second water pump (12) is communicated with the water inlet bin (10), and the water outlet end of the second water pump (12) is communicated with the water outlet bin (9).

3. The cold-storage and constant-temperature liquid cooling unit as claimed in, wherein the water inlet pipe (4) is located at the top of the refrigeration compressor (1), and the water outlet pipe (5) is located at the bottom of the refrigeration compressor (1).

4. The cold-storage constant-temperature liquid cooling unit as claimed in claim, wherein heat dissipation assemblies are arranged in the water inlet bin (10) and the water outlet bin (9), each heat dissipation assembly comprises a rotating motor (13), the rotating motors (13) are arranged at the tops of the water inlet bin (10) and the water outlet bin (9), output shafts of the rotating motors (13) are coaxially connected with rotating rods, and a plurality of stirring blades are arranged on the side surfaces of the rotating rods along the circumferential direction of the rotating rods.

5. The cold-storage constant-temperature liquid cooling unit as claimed in claim, wherein the first water pump (11), the second water pump (12) and the rotating motor (13) are electrically connected to the control circuit board.

6. The cold-storage constant-temperature liquid cooling unit as recited in claim, wherein a cold-storage bin (15) is disposed at one side of the refrigeration compressor (1), a cold-storage agent is disposed in the cold-storage bin (15), and a cold air outlet end of the refrigeration compressor (1) is communicated with the cold-storage bin (15).

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