CN217737629U - Refrigeration equipment capable of dissipating heat - Google Patents

Abstract

The utility model belongs to the technical field of refrigeration plant and specifically relates to a refrigeration plant that can dispel heat is related to, its include the refrigeration plant main part, with the first backup pad of refrigeration plant main part inner wall looks rigid coupling, install refrigerator in the first backup pad, install air cooling subassembly in the first backup pad, install be used for in the refrigeration plant main part to refrigerator cooling radiating cold water pipe and with the water cycle subassembly that the cold water pipe both ends are connected, the cold water pipe is installed the top of first backup pad. This application can promote the radiating efficiency in the refrigeration plant, extension refrigeration plant's life.

Description

Refrigeration equipment capable of dissipating heat

Technical Field

The application relates to the field of refrigeration equipment, in particular to refrigeration equipment capable of dissipating heat.

Background

A refrigerator is a machine that is placed inside a refrigeration apparatus and transfers heat of a cooled object having a relatively low temperature to an ambient medium to obtain cold. At cryogenic in-process, the refrigerator can produce certain heat in the refrigeration plant, because the refrigeration plant is the form of enclosing all around, the heat can pile up in the refrigeration plant, if the heat of production can not in time discharge, then can cause the damage to the component in the refrigeration plant to lead to the refrigeration effect decline of refrigerator, reduce refrigeration plant's life.

At present, a fan is generally installed in a refrigeration machine in a refrigeration device to dissipate heat of the refrigeration machine, and a vent hole is opened on the surface of the refrigeration device to discharge heat generated by the refrigeration machine. However, the heat dissipated from the refrigerator causes the temperature of the air inside the refrigeration equipment to be high, the fan blows hot air out of the refrigeration equipment, and the fan accelerates the flow of the hot air only, thereby causing the heat dissipation efficiency inside the refrigeration equipment to be low.

SUMMERY OF THE UTILITY MODEL

In order to promote the radiating efficiency in the refrigeration plant, prolong refrigeration plant's life, this application provides a refrigeration plant that can dispel the heat.

The application provides a refrigeration plant that can dispel heat adopts following technical scheme:

the utility model provides a refrigeration plant that can dispel heat, includes the refrigeration plant main part, with the first backup pad of refrigeration plant main part inner wall looks rigid coupling, install the refrigerator on first backup pad, install the forced air cooling subassembly on first backup pad, install in the refrigeration plant main part and be used for the radiating cold water pipe of refrigerator cooling and the water cycle subassembly that is connected with cold water pipe both ends, the cold water pipe is installed in the top of first backup pad.

Through adopting above-mentioned technical scheme, carry out the forced air cooling heat dissipation to the refrigerator through the air-cooled subassembly, the cold water pipe carries out the water-cooling heat dissipation to the refrigerator, and the water cycle subassembly makes the cold water circulation in the cold water pipe flow, and air-cooled subassembly and cold water pipe dispel the heat to the refrigerator simultaneously to the radiating efficiency in the refrigeration plant main part has been promoted, refrigeration plant's life has been prolonged.

Optionally, the air cooling subassembly includes the blast pipe of rigid coupling one side on first backup pad, is equipped with a plurality of exhaust vents along its length direction spaced apart on the blast pipe, and the exhaust vent is seted up in one side of blast pipe towards the refrigerator, and the one end of blast pipe is the open end, and the open end of blast pipe is provided with the hair-dryer.

Through adopting above-mentioned technical scheme, when needs dispel the heat to the refrigerator, open the hair-dryer for the wind of hair-dryer overflows to the refrigeration plant main part in through the blast pipe from the exhaust vent, thereby dispels the heat to the refrigerator.

Optionally, one side of the refrigeration equipment main body is an open end, one side of the open end of the refrigeration equipment main body is hinged with a baffle plate used for enabling the interior of the refrigeration equipment main body to be closed with the outside, and a plurality of first ventilation holes for hot air to flow out of the refrigeration equipment main body are formed in the baffle plate.

Through adopting above-mentioned technical scheme, when wind in the blast pipe dispels the heat to the refrigerator, hot-blast air can be followed first ventilation hole and discharged outside the refrigeration plant main part, carries out the forced air cooling heat dissipation in the refrigeration plant main part to avoid hot-blast component to in the refrigeration plant main part to cause the damage.

Optionally, the baffle is located one side of the refrigerator far away from the blast pipe, and the first vent hole and the air outlet hole are respectively located on two opposite sides of the refrigerator and are arranged oppositely.

Through adopting above-mentioned technical scheme, the wind that spills over from the exhaust vent can directly be discharged from first ventilation hole, has promoted radiating efficiency.

Optionally, a second supporting plate is fixedly connected to the outer wall of one side, deviating from the baffle, of the refrigeration equipment main body, the water circulation assembly comprises two first connecting pipes fixedly connected to two ends of the cold water pipe respectively, and a circulating water pump and a water storage tank fixedly connected to the second supporting plate, one ends, far away from the cold water pipe, of the two first connecting pipes are connected with the circulating water pump and the water storage tank respectively, and a second connecting pipe is connected between the circulating water pump and the water storage tank.

By adopting the technical scheme, when the refrigerating machine needs to be cooled, cold water is injected into the water storage tank, the circulating water pump is started, and the cold water reaches the cold water pipe and flows circularly all the time so as to realize the water-cooling heat dissipation of the refrigerating machine.

Optionally, a temperature detector for detecting the temperature of water in the water storage tank is installed inside the water storage tank, the temperature detector is coupled with a controller, and the controller is coupled with the circulating water pump.

By adopting the technical scheme, in a normal state, after the temperature detector detects that the temperature of water in the water storage tank is lower than the lower threshold value, the controller controls the circulating water pump to be in an open state, so that cold water flows circularly all the time. After a period of heat dissipation, the temperature detector detects that the temperature of water in the water storage tank is higher than the upper threshold value, the controller controls the circulating water pump to be in a closed state, so that water flow stops circulating flow, water in the water storage tank can be replaced manually, and heat dissipation work can be continued better.

Optionally, a fan is fixedly connected to the second supporting plate and used for cooling the water in the water storage tank and the interior of the refrigeration equipment main body.

Through adopting above-mentioned technical scheme, during the heat dissipation, can start the fan and cool down, dispel the heat in storing up the refrigeration plant main part.

Optionally, a second vent hole is formed in one side, close to the second supporting plate, of the refrigeration equipment main body, and the second vent hole is formed above the second supporting plate, so that wind of the fan can be blown into the refrigeration equipment main body.

Through adopting above-mentioned technical scheme, when starting the fan, the fan then blows outside low-temperature gas to the refrigeration plant main part inside, low-temperature gas can reduce gaseous temperature through the cold water pipe to dispel the heat the cooling to the refrigerator, the radiating effect is better.

Optionally, a cooling fin is detachable from one side of the refrigerator far away from the blast pipe.

By adopting the technical scheme, the heat radiating fins conduct the heat dissipated by the refrigerating machine to the heat radiating fins.

Optionally, one side of the refrigerator, which is far away from the air supply pipe, is fixedly connected with a first mounting plate, a second mounting plate is fixedly connected to the heat sink, and the first mounting plate is in plug-in fit with the second mounting plate.

Through adopting above-mentioned technical scheme, opening the baffle, the fin can take off from the refrigerator through the second mounting panel, changes the fin, prevents that the fin from using for a long time, and the effect is not good.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the refrigeration equipment comprises a refrigeration equipment main body, a first supporting plate, a refrigerator, an air cooling assembly, a cold water pipe and a water circulation assembly, wherein the air cooling assembly is used for dissipating heat of the refrigerator;

2. by arranging the air supply pipe, the air outlet hole and the blower, when the refrigerator needs to be cooled, the blower is opened, so that air of the blower is introduced into the air supply pipe, and the air in the air supply pipe overflows into the refrigeration equipment main body from the air outlet hole, so that the refrigerator is cooled;

3. by arranging the first connecting pipe, the second connecting pipe, the circulating water pump, the water storage tank, the temperature detector and the controller, when the temperature detector detects that the temperature of water in the water storage tank is lower than a lower threshold value, the controller controls the circulating water pump to be in an open state, so that cold water can flow in a circulating mode among the cold water pipe, the first connecting pipe and the second connecting pipe all the time; after a period of heat dissipation, the temperature detector detects that the temperature of water in the water storage tank is higher than an upper threshold value, the controller controls the circulating water pump to be in a closed state, water flow stops circularly flowing among the cold water pipe, the first connecting pipe and the second connecting pipe, water in the water storage tank is manually replaced, the temperature of water in the water storage tank is lower than a lower threshold value, and at the moment, the controller can control the circulating water pump to be started again to continue heat dissipation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic diagram showing an internal structure of the present application.

Fig. 3 is a schematic view of a water circulation module embodying the present invention.

Fig. 4 is a schematic view showing a structure of a heat sink mounting system according to the present invention.

Description of reference numerals: 1. a refrigeration device main body; 2. a first support plate; 3. a refrigerator; 4. a cold water pipe; 5. an air-cooled assembly; 51. an air supply pipe; 52. an air outlet; 53. a blower; 6. a baffle plate; 7. a first vent hole; 8. a second support plate; 9. a water circulation assembly; 91. a first connecting pipe; 92. a water circulating pump; 93. a water storage tank; 94. a second connection pipe; 10. a temperature detector; 11. a fan; 12. a second vent hole; 13. a first mounting plate; 14. a second mounting plate; 15. a slot; 16. a heat sink; 17. and (7) protruding ribs.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses refrigeration equipment capable of dissipating heat.

Referring to fig. 1 and 2, a cooling device capable of dissipating heat includes a cooling device body 1, a first support plate 2 fixedly connected to an inner wall of the cooling device body 1, a refrigerator 3 mounted on the first support plate 2, an air cooling assembly 5 mounted on the first support plate 2 and used for providing wind power for the refrigerator 3 to dissipate heat, a cold water pipe 4 mounted in the cooling device body 1 and used for cooling and dissipating heat of the refrigerator 3, and a water circulation assembly 9 connected to two ends of the cold water pipe 4. The water circulation subassembly 9 sets up in the refrigeration plant main part 1 outside, and the both ends of cold water pipe 4 run through the relative both sides wall of refrigeration plant main part 1 and extend to the external world, and refrigeration plant main part 1 provides the support for cold water pipe 4 through cold water pipe 4 both ends, and cold water pipe 4 sets up in the top of first backup pad 2 for leave the space that the air feed stream passes through between cold water pipe 4 and the first backup pad 2, be convenient for dispel the heat.

Wherein, cold water pipe 4 can be located between refrigerator 3 and the air-cooled subassembly 5 for air-cooled subassembly 5 can also blow the air conditioning in cold water pipe 4 to refrigerator 3 when wind dispels the heat to refrigerator 3, and the radiating effect is better. Of course, the cold water pipe 4 may also be located on a side of the air cooling assembly 5 away from the refrigerator 3, and may be specifically configured according to actual needs. The present application will be described by taking an example in which the air-cooling unit 5 is located between the refrigerator 3 and the cold water pipe 4.

Wherein, the coil pipe of U-shaped can be chooseed for use to cold water pipe 4 to increase the area of cold water pipe 4 in refrigeration plant main part 1, make the radiating effect of water-cooling more obvious.

Carry out the forced air cooling heat dissipation to refrigerator 3 through air-cooled subassembly 5, cold water pipe 4 carries out the water-cooling heat dissipation to refrigerator 3, and water circulation subassembly 9 makes the cold water circulation in the cold water pipe 4 flow to guarantee the effect of water-cooling heat dissipation, air-cooled subassembly 5 and cold water pipe 4 dispel the heat to refrigerator 3 simultaneously, thereby promoted the radiating efficiency in the refrigeration plant main part 1, prolonged refrigeration plant's life.

Referring to fig. 2, the air cooling module 5 includes a blower pipe 51 fixedly connected to one side of the first support plate 2, the blower pipe 51 is fixedly connected to the first support plate 2, a plurality of air outlets 52 are spaced apart along the length direction of the blower pipe 51, the air outlets 52 are opened in the direction toward the refrigerator 3, one end of the blower pipe 51 is an open end, and the open end of the blower pipe 51 extends out of the refrigeration apparatus main body 1 and is fixedly connected to a blower 53. When the refrigerator 3 needs to be cooled, the blower 53 is turned on, so that air of the blower 53 is introduced into the blast pipe 51, and the air in the blast pipe 51 overflows into the refrigeration equipment main body 1 from the air outlet 52, thereby cooling the refrigerator 3.

Referring to fig. 1 and 2, one side of the refrigeration equipment main body 1 is an open end, the open end is located on one side of the refrigerator 3 away from the air cooling assembly 5, one side of the open end of the refrigeration equipment main body 1 is hinged to a baffle 6, the baffle 6 is used for keeping the inside of the refrigeration equipment main body 1 closed with the outside, and a plurality of first ventilation holes 7 for hot air to flow out of the refrigeration equipment main body 1 are formed in the baffle 6. The baffle 6 is located on one side of the refrigerator 3 far away from the blast pipe 51, and the first vent 7 and the air outlet 52 are respectively located on two opposite sides of the refrigerator 3 and are oppositely arranged. When the air in the blast pipe 51 is blown out from the air outlet 52 into the refrigeration equipment main body 1 to dissipate heat of the refrigerator 3, the hot air can be directly discharged out of the refrigeration equipment main body 1 from the first vent hole 7, so that a large amount of hot air is prevented from remaining in the refrigeration equipment main body 1 and damaging elements in the refrigeration equipment main body 1.

Referring to fig. 2 and 3, a second supporting plate 8 is fixedly connected to the outer wall of the side of the refrigeration apparatus main body 1 away from the baffle 6, and the second supporting plate 8 is perpendicular to the side wall of the refrigeration apparatus main body 1. The water circulation assembly 9 includes two first connection pipes 91 respectively fixedly connected to both ends of the cold water pipe 4, and a water circulation pump 92 and a water storage tank 93 fixedly connected to the second support plate 8. One ends of the two first connecting pipes 91 far away from the cold water pipe 4 are respectively connected with a circulating water pump 92 and a water storage tank 93, and a second connecting pipe 94 is connected between the circulating water pump 92 and the water storage tank 93.

When the refrigerator 3 needs to be cooled, cold water is injected into the water storage tank 93, the circulating water pump 92 is started, the cold water reaches the cold water pipe 4 through the second connecting pipe 94 and the first connecting pipe 91, and the cold water flows in a circulating manner among the cold water pipe 4, the first connecting pipe 91 and the second connecting pipe 94 all the time, so that the water-cooling heat dissipation of the refrigerator 3 is realized.

Referring to fig. 2, a temperature detector 10 for detecting the temperature of water in the water tank 93 is fixedly connected to the water tank 93, and a controller (not shown) is coupled to the temperature detector 10 and coupled to the circulating water pump 92.

In a normal state, when the temperature detector 10 detects that the temperature of water in the water storage tank 93 is lower than the lower threshold, the controller controls the circulating water pump 92 to be in an open state, so that cold water always flows in a circulating manner among the cold water pipe 4, the first connecting pipe 91 and the second connecting pipe 94. After a period of heat dissipation, the temperature detector 10 detects that the temperature of water in the water storage tank 93 is higher than the upper threshold, the controller controls the circulating water pump 92 to be in a closed state, so that water flow stops circulating among the cold water pipe 4, the first connecting pipe 91 and the second connecting pipe 94, water in the water storage tank 93 is manually replaced, the temperature of water in the water storage tank 93 is lower than the lower threshold, and at the moment, the controller controls the circulating water pump 92 to be started again to continue heat dissipation.

Referring to fig. 3, a fan 11 is fixedly connected to the second supporting plate 8, the fan 11 is disposed between the water storage tank 93 and the outer wall of the refrigeration equipment main body 1, and the fan 11 is used for cooling the inside of the refrigeration equipment main body 1. A second vent hole 12 is formed in one side, close to the second supporting plate 8, of the refrigeration equipment main body 1, and the second vent hole 12 is formed above the second supporting plate 8, so that wind of the fan 11 can be blown into the refrigeration equipment main body 1.

The air blown by the fan 11 can reach the inside of the refrigeration apparatus main body 1 through the second vent hole 12, and dissipates heat of the cold water pipe 4 and the refrigerator 3 in the refrigeration apparatus main body 1. Specifically, when starting fan 11, fan 11 then blows outside cryogenic gas to the refrigeration plant main part 1 inside, for the inside cooling of refrigeration plant main part 1, simultaneously because fan 11 is located cold water pipe 4 and keeps away from one side of refrigerator 3, so when fan 11 drives outside cryogenic gas and reachs the refrigeration plant main part 1 inside, cryogenic gas can reduce gaseous temperature once more through cold water pipe 4, when cryogenic gas continues to move to refrigerator 3 department to one side of keeping away from fan 11, will dispel the heat to refrigerator 3 once more and cool down, the radiating effect is better.

Referring to fig. 4, a heat sink 16 is detachably connected to a side of the refrigerator 3 away from the air supply pipe 51, a first mounting plate 13 is fixedly connected to a side of the refrigerator 3 away from the air supply pipe 51, a second mounting plate 14 is fixedly connected to the heat sink 16, and the first mounting plate 13 and the second mounting plate 14 are in insertion fit. Specifically, the first mounting plate 13 is fixedly connected with a protruding edge 17 which is integrally in a dovetail shape, and the second mounting plate 14 is provided with a slot 15 for the protruding edge 17 to be embedded.

When the refrigerator 3 is in operation, the heat radiating fins 16 can conduct heat radiated by the refrigerator 3 to the heat radiating fins 16; when the baffle 6 is opened, the radiating fins 16 can be taken down from the first mounting plate 13 through the second mounting plate 14, and the radiating fins 16 are replaced, so that the radiating fins 16 are prevented from being used for a long time, and the radiating effect is poor.

The implementation principle of the refrigeration equipment capable of dissipating heat in the embodiment of the application is as follows: when the refrigerator 3 needs to be cooled, the blower 53 is turned on, air flows into the blast pipe 51 and overflows from the air outlet 52 into the refrigeration equipment main body 1, and hot air can be discharged out of the refrigeration equipment main body 1 through the first vent hole 7. At the same time, the water storage tank 93 is filled with cold water, and the circulating water pump 92 is started to circulate the cold water. When the temperature detector 10 detects that the temperature of the water in the water storage tank 93 is lower than the lower threshold value, the controller controls the circulating water pump 92 to be in an open state; after a period of heat dissipation, the temperature detector 10 detects that the temperature of the water in the water storage tank 93 is higher than the upper threshold value, the controller controls the circulating water pump 92 to be in a closed state, and at the moment, the water in the water storage tank 93 is manually replaced. When the heat sink 16 needs to be replaced, the shutter 6 is opened, and the second mounting plate 14 is removed from the first mounting plate 13.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A refrigeration device capable of dissipating heat is characterized in that: including refrigeration plant main part (1), with first backup pad (2) of refrigeration plant main part (1) inner wall looks rigid coupling, install refrigerator (3) on first backup pad (2), install air-cooled subassembly (5) on first backup pad (2), install be used for in refrigeration plant main part (1) to refrigerator (3) cooling radiating cold water pipe (4) and with water circulation subassembly (9) that cold water pipe (4) both ends are connected, cold water pipe (4) are installed the top of first backup pad (2).

2. A heat-dissipatable refrigeration unit according to claim 1, wherein: the air cooling component (5) comprises a blast pipe (51) fixedly connected to one side of the first supporting plate (2), a plurality of air outlet holes (52) are formed in the blast pipe (51) at intervals along the length direction of the blast pipe, the air outlet holes (52) are formed in one side, facing the refrigerator (3), of the blast pipe (51), one end of the blast pipe (51) is an open end, and a blower (53) is arranged at the open end of the blast pipe (51).

3. A heat-dissipatable refrigeration unit according to claim 2, wherein: one side of refrigeration plant main part (1) is the open end, open end one side of refrigeration plant main part (1) articulates there is to be used for making inside and external confined baffle (6) of refrigeration plant main part (1), seted up on baffle (6) and supplied steam flow extremely a plurality of first ventilation holes (7) outside refrigeration plant main part (1).

4. A heat-dissipatable refrigeration unit according to claim 3, wherein: baffle (6) are located refrigerator (3) are kept away from one side of blast pipe (51), first ventilation hole (7) with exhaust vent (52) are located respectively refrigerator (3) relative both sides and relative setting.

5. A heat-dissipatable refrigeration unit according to claim 3, wherein: deviating from on refrigeration plant main part (1) rigid coupling has second backup pad (8) on the outer wall of one side of baffle (6), water circulation subassembly (9) are in including difference rigid coupling two first connecting pipes (91) and rigid coupling at cold water pipe (4) both ends are in circulating water pump (92) and storage water tank (93) on second backup pad (8), two first connecting pipe (91) are kept away from the one end of cold water pipe (4) respectively with circulating water pump (92) with storage water tank (93) are connected, circulating water pump (92) with be connected with second connecting pipe (94) between storage water tank (93).

6. A heat dissipatable refrigeration unit according to claim 5, wherein: the water storage tank (93) is internally provided with a temperature detector (10) for detecting the temperature of water in the water storage tank (93), the temperature detector (10) is coupled with a controller, and the controller is coupled with the circulating water pump (92).

7. A heat dissipatable refrigeration unit according to claim 5, wherein: a fan (11) is fixedly connected to the second supporting plate (8), and the fan (11) is used for cooling the water in the water storage tank (93) and the interior of the refrigeration equipment main body (1).

8. A heat-dissipatable refrigeration unit according to claim 7, wherein: a second ventilation hole (12) is formed in one side, close to the second supporting plate (8), of the refrigeration equipment main body (1), the second ventilation hole (12) is formed above the second supporting plate (8), and therefore wind of the fan (11) can be blown into the refrigeration equipment main body (1).

9. A heat dissipatable refrigeration unit according to claim 2, wherein: and a cooling fin (16) is detachably arranged on one side of the refrigerator (3) far away from the blast pipe (51).

10. A heat-dissipatable refrigeration unit according to claim 9, wherein: one side rigid coupling that refrigerator (3) kept away from blast pipe (51) has first mounting panel (13), the rigid coupling has second mounting panel (14) on fin (16), first mounting panel (13) and second mounting panel (14) are pegged graft the cooperation.

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