CN216982241U - Cabinet in liquid refrigeration mode - Google Patents

Abstract

The utility model discloses a cabinet in a liquid refrigeration mode, which comprises an inner cabinet and an outer cabinet, wherein the outer cabinet is sleeved on the surface of the inner cabinet, a water cooling assembly is arranged between the inner cabinet and the outer cabinet, a plurality of heat dissipation plates are arranged on two sides of the inner cabinet, the heat dissipation plates are arranged from top to bottom at the same intervals, the water cooling assembly comprises a water cooling pipe and a circulating pump, two ends of the water cooling pipe are respectively communicated with the circulating pump, flowable cooling liquid is injected into the water cooling pipe, the water cooling pipe is sequentially arranged around the top of the inner cabinet, the side wall of the inner cabinet, the bottom of the inner cabinet and the side wall of the inner cabinet, the water cooling pipe is arranged in an S-shaped structure corresponding to the heat dissipation plates on two sides of the inner cabinet, the water cooling pipe is sequentially arranged between the two heat dissipation plates in an inserting manner, an evaporator is arranged above the inner cabinet and is communicated with external liquid refrigeration equipment, and the evaporator is attached to the water cooling pipe on the top of the inner cabinet. The utility model provides a cabinet in a liquid refrigeration mode, which can dissipate heat in the cabinet, so that the phenomenon that equipment in the cabinet is burnt and damaged due to overhigh temperature in the cabinet is avoided.

Description

Cabinet in liquid refrigeration mode

Technical Field

The utility model relates to the technical field of cabinet equipment, in particular to a cabinet in a liquid refrigeration mode.

Background

The cabinet is not only a cabinet for containing IT equipment or communication equipment, but also has important auxiliary functions with a UPS (uninterrupted power supply) for computers or communication equipment per se, and a good cabinet means that the computers or the communication equipment can operate in a good environment, so that the cabinet plays an important role.

When a computer or communication equipment works in the cabinet, a large amount of heat is generated, the heat dissipation performance of the cabinet is not particularly good for protecting the computer or the communication equipment, and if the heat dissipation performance of the cabinet cannot be timely realized, the equipment in the cabinet is easily burnt and damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cabinet in a liquid refrigeration mode, which can efficiently dissipate heat inside the cabinet, so that the phenomenon that equipment inside the cabinet is burnt and damaged due to overhigh temperature inside the cabinet is avoided.

The technical scheme adopted by the cabinet in the liquid refrigeration mode is as follows:

a cabinet in a liquid refrigeration mode comprises an inner cabinet and an outer cabinet, wherein the outer cabinet is sleeved on the surface of the inner cabinet, one side of the outer cabinet is provided with a cabinet door, the cabinet door is rotatably connected with the outer cabinet, one side of the inner cabinet, which corresponds to the cabinet door, is provided with an opening, a water cooling assembly is arranged between the inner cabinet and the outer cabinet, two sides of the inner cabinet are respectively provided with a plurality of heat dissipation plates, the heat dissipation plates are arranged from top to bottom at the same interval, the water cooling assembly comprises a water cooling pipe and a circulating pump, two ends of the water cooling pipe are respectively communicated with the circulating pump, flowable cooling liquid is injected into the water cooling pipe, the water cooling pipe is sequentially arranged around the top, the side wall, the bottom and the side wall of the inner cabinet, the heat dissipation plates of the water cooling pipe, which correspond to two sides of the inner cabinet, are arranged in an S-shaped structure, the water cooling pipe is sequentially inserted between the two heat dissipation plates, an evaporator is arranged above the inner cabinet, the evaporator is communicated with external liquid refrigeration equipment, and the evaporator is attached to a water-cooling pipe at the top of the inner cabinet.

As a preferred scheme, the surface of the inner cabinet is provided with support frames, the support frames are positioned between the inner cabinet and the outer cabinet, the number of the support frames is 4, and the support frames are respectively positioned at four corners of the inner cabinet.

As the preferred scheme, the inner cabinet is internally provided with placing plates which are sequentially arranged at intervals from top to bottom.

Preferably, the water-cooling pipes are located at the top of the inner cabinet and the bottom plate structure is an S-shaped bent structure.

Preferably, an evaporator is arranged below the inner cabinet, the evaporator is attached to the surface of the water cooling pipe, and the evaporator is communicated with external liquid refrigeration equipment.

As a preferred scheme, the top of the outer cabinet is provided with a mounting groove, and the upper end of the evaporator extends out of the mounting groove.

The cabinet in the liquid refrigeration mode disclosed by the utility model has the beneficial effects that: when the cabinet is used, the equipment is placed in the inner cabinet, the heat generated by the equipment during working is transferred to the surface of the inner cabinet, the heat is further dissipated through the heat dissipation plates on the two sides of the inner cabinet, the water cooling pipes are sequentially arranged around the top, the side wall, the bottom and the side wall of the inner cabinet and are attached to the top, the bottom and the side wall of the inner cabinet, the water cooling pipes are arranged corresponding to the heat dissipation plates in an S-shaped structure, so that the contact area between the water cooling pipes and the inner cabinet and the heat dissipation plates is increased, the heat on the surfaces of the inner cabinet and the heat dissipation plates can be better transferred to the water cooling pipes, the cooling liquid in the water cooling pipes flows through the circulating pump, when the cooling liquid flows to the upper part of the inner cabinet, the evaporator is utilized to absorb heat with external liquid refrigeration equipment, the cooling liquid in the water cooling pipes is cooled through the evaporator, so that the cooling liquid can circularly flow in the water cooling pipes, the heat dissipation of the inner cabinet and the heat dissipation plates is ensured that the internal temperature of the inner cabinet is within a normal range, the equipment can work normally, the outer cabinet is sleeved on the surface of the inner cabinet, and the water cooling assembly is positioned between the inner cabinet and the outer cabinet, so that the outer cabinet can protect the water cooling assembly. Through the structure, the heat of the inside of the cabinet can be efficiently dissipated, so that the phenomenon that the temperature inside the cabinet is too high and the equipment inside the cabinet is burnt and damaged is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a cabinet in a liquid cooling mode according to the present invention.

Figure 2 is an exploded view of a cabinet of the present invention in a liquid cooling mode.

Fig. 3 is a schematic diagram of the internal structure of the cabinet in the liquid cooling mode according to the present invention.

Detailed Description

The utility model will be further elucidated and described with reference to the embodiments and drawings of the specification:

referring to fig. 1, 2 and 3, a cabinet with a liquid refrigeration mode includes an inner cabinet 10 and an outer cabinet 20, the outer cabinet 20 is sleeved on the surface of the inner cabinet 10, a cabinet door 21 is disposed on one side of the outer cabinet 20, the cabinet door 21 is rotatably connected to the outer cabinet 20, and an opening is disposed on one side of the inner cabinet 10 corresponding to the cabinet door 21.

Be equipped with water cooling module 30 between interior cabinet 10 and the outer cabinet 20, interior cabinet 10 both sides all are equipped with a plurality of heating panel 11, heating panel 11 becomes the same interval and arranges the setting from last to last, water cooling module 30 includes water-cooled tube 31 and circulating pump 32, water-cooled tube 31 both ends communicate with circulating pump 32 respectively, inject flowable coolant liquid in the water-cooled tube 31, water-cooled tube 31 encircles in the laminating in proper order cabinet 10 top, interior cabinet 10 lateral wall, interior cabinet 10 bottom and the setting of interior cabinet 10 lateral wall.

And the water-cooling tube 31 corresponds the heating panel 11 of interior cabinet 10 both sides and becomes the setting of S type structure, and water-cooling tube 31 alternates in proper order and sets up between two heating panels 11, and interior cabinet 10 top is equipped with evaporimeter 33, and evaporimeter 33 and outside liquid refrigeration plant intercommunication, the laminating of water-cooling tube 31 at evaporimeter 33 and interior cabinet 10 top.

The rack is when using, place equipment in interior cabinet 10 'S inside, equipment is at produced heat transfer to interior cabinet 10 surface of during operation, the heating panel 11 of 10 both sides of rethread interior cabinet further dispels the heat, and water-cooled tube 31 encircles the interior cabinet 10 top of laminating in proper order, interior cabinet 10 lateral wall, interior cabinet 10 bottom and interior cabinet 10 lateral wall setting, water-cooled tube 31 corresponds heating panel 11 and becomes S type structure setting, thereby increased water-cooled tube 31 and interior cabinet 10 and heating panel 11' S area of contact, can be better with interior cabinet 10 and the heat transfer on heating panel 11 surface to water-cooled tube 31 in, coolant liquid through in the water-cooled tube 31 flows through circulating pump 32.

When the cooling liquid flows to the upper part of the inner cabinet 10, the evaporator 33 and the external liquid refrigeration equipment are utilized to absorb heat, the cooling liquid in the water cooling pipe 31 is cooled through the evaporator 33, so that the cooling liquid can flow in the water cooling pipe 31 in a circulating manner, the inner cabinet 10 and the heat dissipation plate 11 are cooled, the internal temperature of the inner cabinet 10 is ensured to be within a normal range, the equipment can work normally, the outer cabinet 20 is sleeved on the surface of the inner cabinet 10, the water cooling assembly 30 is positioned between the inner cabinet 10 and the outer cabinet 20, and the outer cabinet 20 can play a role in protecting the water cooling assembly 30. Through the structure, the water-cooling tube 31 firstly cools the internal temperature of the inner cabinet 10, the cooling liquid in the water-cooling tube 31 is cooled by the evaporator 33, and the inside of the cabinet can be efficiently cooled by the cooling mode twice, so that the internal temperature of the cabinet is prevented from being too high, and the equipment inside the cabinet is prevented from being burnt and damaged.

Mounting groove 22 has been seted up at outer cabinet 20 top, and evaporator 33 upper end extends mounting groove 22 to be convenient for evaporator 33 and outside liquid refrigeration plant communicate.

In the above scheme, the surface of the inner cabinet 10 is provided with the support frames 12, the support frames 12 are located between the inner cabinet 10 and the outer cabinet 20, the number of the support frames 12 is 4, and the support frames 12 are respectively located at four corners of the inner cabinet 10. Carry out fixed connection with outer cabinet 20 and interior cabinet 10 through support frame 12 to the distance between outer cabinet 20 and the interior cabinet 10 is injectd, plays the fixed effect of support to interior cabinet 10, makes the water cooling module 30 between interior cabinet 10 and the outer cabinet 20 can normal operating.

The inner cabinet 10 is internally provided with a placing plate 13, the placing plate 13 is sequentially arranged from top to bottom at intervals, communication equipment or a computer can be arranged on the placing plate 13 and arranged from top to bottom, so that the installation and the use are convenient, and the equipment can also be cooled.

The water-cooling tube 31 is located at the top of the inner cabinet 10, the bottom plate structure is an S-shaped bent structure, the evaporator 33 is arranged below the inner cabinet 10, the evaporator 33 is attached to the surface of the water-cooling tube 31, and the evaporator 33 is communicated with external liquid refrigeration equipment.

The water-cooled tubes 31 of the top and the bottom plate of the inner cabinet 10 are all set to be S-shaped bent structures, so that the contact area between the water-cooled tubes 31 and the evaporator 33 can be increased, and the evaporator 33 can better cool the cooling liquid in the water-cooled tubes 31. And the evaporator 33 is also arranged on the bottom plate of the inner cabinet 10, so that the cooling liquid in the water-cooling pipe 31 can be further cooled, the cooling liquid in the water-cooling pipe 31 is heated from one side of the inner cabinet 10, cooled to the top of the inner cabinet 10, heated to the other side of the inner cabinet 10 and finally cooled to the bottom plate of the inner cabinet 10, a new cycle is started, and the change process of one-round double heating and double cooling is realized, so that the heat dissipation effect of the inner cabinet 10 is improved.

The utility model provides a cabinet in a liquid refrigeration mode, when the cabinet is used, equipment is placed in an inner cabinet, heat generated by the equipment during working is transmitted to the surface of the inner cabinet, further heat dissipation is carried out through heat dissipation plates on two sides of the inner cabinet, water cooling pipes are sequentially arranged around the top, the side wall, the bottom and the side wall of the inner cabinet, the water cooling pipes are arranged corresponding to the heat dissipation plates in an S-shaped structure, so that the contact area of the water cooling pipes with the inner cabinet and the heat dissipation plates is increased, the heat on the surfaces of the inner cabinet and the heat dissipation plates can be better transmitted to the water cooling pipes, cooling liquid in the water cooling pipes flows through a circulating pump, when the cooling liquid flows above the inner cabinet, an evaporator and external liquid refrigeration equipment are used for absorbing heat, the cooling liquid in the water cooling pipes is cooled through the evaporator, and the cooling liquid can conveniently circulate in the water cooling pipes, the inner cabinet and the heating panel are cooled, the inner temperature of the inner cabinet is ensured to be in a normal range, the equipment can work normally, the outer cabinet is sleeved on the surface of the inner cabinet, the water cooling assembly is located between the inner cabinet and the outer cabinet, and the outer cabinet can protect the water cooling assembly. Through the structure, the heat of the inside of the cabinet can be efficiently dissipated, so that the phenomenon that the temperature inside the cabinet is too high and the equipment inside the cabinet is burnt and damaged is avoided.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A cabinet with a liquid refrigeration mode is characterized by comprising an inner cabinet and an outer cabinet, wherein the outer cabinet is sleeved on the surface of the inner cabinet, one side of the outer cabinet is provided with a cabinet door, the cabinet door is rotatably connected with the outer cabinet, one side of the inner cabinet, which corresponds to the cabinet door, is provided with an opening, a water cooling assembly is arranged between the inner cabinet and the outer cabinet, two sides of the inner cabinet are respectively provided with a plurality of heat dissipation plates, the heat dissipation plates are arranged from top to bottom at the same interval, the water cooling assembly comprises a water cooling pipe and a circulating pump, two ends of the water cooling pipe are respectively communicated with the circulating pump, flowable cooling liquid is injected into the water cooling pipe, the water cooling pipe is sequentially arranged around the top, the side wall, the bottom and the side wall of the inner cabinet, the heat dissipation plates corresponding to two sides of the inner cabinet are arranged in an S-shaped structure, the water cooling pipe is sequentially inserted between the two heat dissipation plates, an evaporator is arranged above the inner cabinet, the evaporator is communicated with external liquid refrigeration equipment, and the evaporator is attached to a water-cooling pipe at the top of the inner cabinet.

2. The cabinet in a liquid refrigeration mode according to claim 1, wherein the inner cabinet is provided with support frames on a surface thereof, the support frames are located between the inner cabinet and the outer cabinet, the number of the support frames is 4, and the support frames are located at four corners of the inner cabinet respectively.

3. The cabinet in a liquid cooling mode according to claim 2, wherein a placing plate is provided inside the inner cabinet, and the placing plates are sequentially spaced from top to bottom.

4. The cabinet in liquid cooling mode of claim 3, wherein the water cooling tubes are located on the top and bottom plate of the inner cabinet and are in S-bend configuration.

5. The cabinet of claim 4, wherein an evaporator is disposed below the inner cabinet, the evaporator is attached to the surface of the water-cooling tube, and the evaporator is in communication with an external liquid refrigeration device.

6. The cabinet in liquid refrigeration mode of claim 1, wherein a mounting groove is formed at the top of the outer cabinet, and the upper end of the evaporator extends out of the mounting groove.

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