CN112003167A - Intelligent heat dissipation switch cabinet - Google Patents

Abstract

The invention discloses an intelligent heat-dissipation switch cabinet, which comprises a cabinet body, a water cooling plate, a cooling water tank and a heat conducting plate, wherein the water cooling plate is arranged on the cabinet body; the cabinet body: a cabinet door is hinged to the front side, the cabinet door is a glass door, and a moving mechanism and a supporting unit are respectively installed at the bottom of the cabinet body; water cooling plate: the front side is provided with a handle, the inner side is provided with a circulating pipe, the bottom of the circulating pipe is provided with a damping mechanism, and the damping mechanism is movably connected with the cabinet body through a sliding mechanism; cooling the water tank: the cooling water tank is fixed on the rear side of the cabinet body, a hard straight pipe is fixedly communicated with the top of the cooling water tank, a circulating pump is installed at the joint of the output port of the hard straight pipe and the cooling water tank, the circulating pump is located on the inner side of the cooling water tank, and the hard straight pipe is communicated with the circulating pipe through a threaded telescopic pipe; this intelligent heat dissipation cubical switchboard, cooling efficiency is high, and the cooling is effectual, need not to set up the louvre on the cabinet body, has guaranteed the leakproofness of whole cubical switchboard, and the safety in utilization is good, and it is convenient to remove, convenient to use.

Description

Intelligent heat dissipation switch cabinet

Technical Field

The invention relates to the technical field of electrical equipment, in particular to an intelligent heat dissipation switch cabinet.

Background

The switch cabinet is an electric device, the outside line enters the main control switch in the cabinet firstly, then enters the branch control switch, each branch circuit is arranged according to the requirement, such as an instrument, an automatic control, a motor magnetic switch and various alternating current contactors, and the like, some switch cabinets are also provided with a high-voltage chamber and a low-voltage chamber, and are provided with a high-voltage bus, such as a power plant, and the like, some switch cabinets are also provided with a low-frequency load-reducing device for keeping the main device, because the switch cabinet is of a box body structure, and the heat generated by the external temperature and each electrical appliance element during the operation, the internal environment of the switch cabinet and even the local temperature of each part are high, the heat dissipation is generally carried out by adopting a mode of matching a fan with a heat dissipation hole, the efficiency of the heat dissipation mode is low, the heat dissipation effect is.

Disclosure of Invention

The intelligent heat dissipation switch cabinet aims to overcome the existing defects, is high in cooling efficiency and good in cooling effect, does not need to be provided with heat dissipation holes, ensures the sealing performance of the whole switch cabinet, is good in use safety, convenient to move and use, and can effectively solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent heat dissipation switch cabinet comprises a cabinet body, a water cooling plate, a cooling water tank and a heat conducting plate;

the cabinet body: a cabinet door is hinged to the front side, the cabinet door is a glass door, and a moving mechanism and a supporting unit are respectively installed at the bottom of the cabinet body;

water cooling plate: the front side is provided with a handle, the inner side is provided with a circulating pipe, the bottom of the circulating pipe is provided with a damping mechanism, and the damping mechanism is movably connected with the cabinet body through a sliding mechanism;

cooling the water tank: the cooling water tank is fixed on the rear side of the cabinet body, a hard straight pipe is fixedly communicated with the top of the cooling water tank, a circulating pump is installed at the joint of the output port of the hard straight pipe and the cooling water tank, the circulating pump is located on the inner side of the cooling water tank, and the hard straight pipe is communicated with the circulating pipe through a threaded telescopic pipe;

a heat conducting plate: one part of the cooling water tank extends into the cooling water tank, the other part of the cooling water tank is exposed to the outside of the cooling water tank, a refrigeration piece is arranged on the outer side surface of the heat conduction plate, the cold end of the refrigeration piece is attached to the heat conduction plate, and a heat dissipation unit is arranged at the hot end of the refrigeration piece;

the refrigerator further comprises a single chip microcomputer and a temperature sensor, wherein the single chip microcomputer and the temperature sensor are both mounted on the side face of the cabinet body, sensing elements of the temperature sensor are distributed on the inner side of the cabinet body, the input end of the single chip microcomputer is electrically connected with the output ends of the temperature sensor and an external power supply, and the output end of the single chip microcomputer is electrically connected with the input ends of the refrigerating sheet and the circulating pump.

Further, still include the handle, the handle is fixed in the end outside that opens and shuts of cabinet door, installs on the cabinet door to be used for carrying out the safety lock that the lock connects with the cabinet body, when maintaining electrical equipment, opens the cabinet door through the handle, has guaranteed the rationality of design, and the safety lock is used for avoiding non-relevant personnel to open the cabinet door.

Further, the supporting unit includes stand and callus on the sole, and the bottom at the cabinet body is fixed to the stand, the stand is the tubular structure, and the tip at the stand is fixed to the callus on the sole, supports the cabinet body through callus on the sole and stand, has guaranteed the stationarity of supporting.

Further, moving mechanism includes electric putter and gyro wheel, and electric putter installs in the bottom of the cabinet body and is located the inboard of stand, the gyro wheel is installed at electric putter's flexible tip, and the output of singlechip is connected to electric putter's input electricity, and electric putter's flexible end drives the gyro wheel and stretches out and draws back to shift out the gyro wheel stand, remove the cabinet body through the gyro wheel and predetermine the region, it removes conveniently convenient to use.

Further, damper includes telescopic link and spring, and the telescopic link is fixed between water-cooling board and link, the spring cup joints on the telescopic link, and the vibrations on the water-cooling board force the telescopic link flexible to order about the spring and produce deformation, the spring offsets the vibrations energy through deformation, thereby weakens the vibrations of water-cooling board, thereby avoids vibrations to the harmful effects of electrical equipment.

Further, slide mechanism includes spout and slide rail, and the spout is seted up in the inboard of the cabinet body, the slide rail is fixed on the link, slide rail and spout sliding connection, and the water-cooling board drives the slide rail and slides in the spout at the removal in-process, has guaranteed the rationality of design.

Furthermore, the circulating pipe is distributed in a snake shape and is a finned pipe, so that the heat exchange area is increased, and the heat exchange efficiency is improved.

Further, the radiating unit includes heat conduction silica gel piece and radiating fin, and radiating fin installs the hot junction region at the refrigeration piece, heat conduction silica gel piece pastes the junction at radiating fin and refrigeration piece, and the heat of refrigeration piece hot junction gathers on the heat conduction silica gel piece, and the heat on the heat conduction silica gel piece distributes to the external world through radiating fin to the refrigeration efficiency of refrigeration piece has been improved, and the heat conduction silica gel piece can fill the clearance of contact surface, reduces the thermal contact resistance that produces between heat source surface and the radiating device contact surface, can also play insulating and absorbing effect.

Compared with the prior art, the invention has the beneficial effects that: this intelligent heat dissipation cubical switchboard has following benefit:

1. install electrical equipment on the water-cooling board, cooling water in the cooling water tank passes through the circulating pump and carries to hard straight pipe, then carry to the circulating pipe through the flexible pipe of screw thread, cooling water in the circulating pipe carries out the energy exchange with the heat on the water-cooling board, thereby make the water-cooling board produce low temperature environment, cool down electrical equipment through the water-cooling board, its cooling efficiency is high, it is effectual to cool down, can satisfy the user demand, and simultaneously, need not to set up the louvre on the cabinet body, the leakproofness of whole cubical switchboard has been guaranteed, avoid external foreign matter to enter into the internal portion of cabinet through the louvre, the security of using has been guaranteed.

2. The cooling water after the exchange flows back to the cooling water tank, the heat after the exchange is derived by the heat-conducting plate, and the cold energy generated by the cold end of the refrigerating sheet exchanges the heat on the heat-conducting plate, so that the heat-conducting plate generates low temperature, and the low temperature on the heat-conducting plate acts on the cooling water, so that the cooling water keeps a low-temperature environment, and continuous cooling work is facilitated.

3. The output of singlechip is connected to electric putter's input electricity, and electric putter's flexible end drives the gyro wheel and stretches out and draws back to shift out the stand with the gyro wheel, remove the cabinet body to predetermineeing the region through the gyro wheel, it removes conveniently, and convenient to use supports the cabinet body through callus on the sole and stand, has guaranteed the stationarity of support.

4. On the heat gathering heat conduction silica gel piece in refrigeration piece hot junction, heat on the heat conduction silica gel piece gives off the external world through radiating fin to improved the refrigeration efficiency of refrigeration piece, the heat conduction silica gel piece can fill the clearance of contact surface, reduces the thermal contact resistance that produces between heat source surface and the heat abstractor contact surface, can also play insulating and absorbing effect.

Drawings

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a first cross-sectional view of the structure of the present invention;

FIG. 4 is a second cross-sectional view of the inventive structure;

FIG. 5 is a schematic bottom structure of the present invention.

In the figure: 1 cabinet body, 2 singlechips, 3 temperature sensor, 4 slide mechanism, 41 chutes, 42 slide rails, 5 damping mechanism, 51 telescopic link, 52 springs, 6 radiating unit, 61 heat-conducting silica gel sheet, 62 radiating fins, 7 moving mechanism, 71 electric push rod, 72 idler wheel, 8 supporting unit, 81 upright posts, 82 foot pad, 9 fastener, 10 connecting frame, 11 safety lock, 12 handle, 13 cabinet door, 14 water cooling plate, 15 thread extension tube, 16 hard straight tube, 17 cooling water tank, 18 refrigeration sheet, 19 heat-conducting plate, 20 circulating tube, 21 circulating pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an intelligent heat dissipation switch cabinet comprises a cabinet body 1, a water cooling plate 14, a cooling water tank 17 and a heat conducting plate 19;

the cabinet body 1: a cabinet door 13 is hinged to the front side, the cabinet door 13 is a glass door, so that the electrical equipment in the cabinet body 1 can be observed conveniently, and the bottom of the cabinet body 1 is provided with a moving mechanism 7 and a supporting unit 8 respectively;

water-cooling plate 14: the front side is provided with a buckle 9, the inner side is provided with a circulating pipe 20, the bottom of the circulating pipe is provided with a damping mechanism 5, and the damping mechanism 5 is movably connected with the cabinet body 1 through a sliding mechanism 4;

cooling water tank 17: the cooling water tank is fixed on the rear side of the cabinet body 1, the top of the cooling water tank 17 is fixedly communicated with a hard straight pipe 16, a circulating pump 21 is installed at the joint of the output port of the hard straight pipe 16 and the cooling water tank 17, the circulating pump 21 is positioned on the inner side of the cooling water tank 17, and the hard straight pipe 16 is communicated with a circulating pipe 20 through a threaded telescopic pipe 15;

heat-conducting plate 19: one part of the cooling water tank extends into the cooling water tank 17, the other part of the cooling water tank is exposed to the outside of the cooling water tank 17, the outer side surface of the heat conducting plate 19 is provided with a refrigerating sheet 18, the cold end of the refrigerating sheet 18 is attached to the heat conducting plate 19, and the hot end of the refrigerating sheet 18 is provided with a heat radiating unit 6;

the electric equipment is arranged on the water cooling plate 14, cooling water in the cooling water tank 17 is conveyed to the hard straight pipe 16 through the circulating pump 21 and then conveyed to the circulating pipe 20 through the threaded telescopic pipe 15, energy exchange is carried out between the cooling water in the circulating pipe 20 and heat on the water cooling plate 14, so that the water cooling plate 14 generates a low-temperature environment, the electric equipment is cooled through the water cooling plate 14, the cooling efficiency is high, the cooling effect is good, the use requirement can be met, meanwhile, no heat dissipation holes need to be formed in the cabinet body 1, the sealing performance of the whole switch cabinet is guaranteed, external foreign matters are prevented from entering the cabinet body 1 through the heat dissipation holes, and the use safety is guaranteed;

the exchanged cooling water flows back into the cooling water tank 17, the heat conducting plate 19 conducts the exchanged heat out, and the cold energy generated by the cold end of the refrigerating sheet 18 exchanges the heat on the heat conducting plate 19, so that the heat conducting plate 19 generates low temperature, and the low temperature on the heat conducting plate 19 acts on the cooling water, so that the cooling water is kept in a low-temperature environment, and continuous cooling work is facilitated;

the refrigerator further comprises a single chip microcomputer 2 and a temperature sensor 3, the single chip microcomputer 2 and the temperature sensor 3 are both mounted on the side face of the cabinet body 1, sensing elements of the temperature sensor 3 are distributed on the inner side of the cabinet body 1, the input end of the single chip microcomputer 2 is electrically connected with the temperature sensor 3 and the output end of an external power supply, and the output end of the single chip microcomputer 2 is electrically connected with the input ends of the refrigerating piece 18 and the circulating pump 21.

Detect the inside temperature environment of cabinet 1 through temperature sensor 3, when the temperature reaches the threshold value, refrigeration piece 18 and circulating pump 21 work.

Still include handle 12, handle 12 fixes in the end outside that opens and shuts of cabinet door 13, installs on the cabinet door 13 to be used for carrying out the safety lock 11 that the lock connects with the cabinet body 1, when maintaining electrical equipment, opens cabinet door 13 through handle 12, has guaranteed the rationality of design, and safety lock 11 is used for avoiding non-relevant personnel to open cabinet door 13.

The supporting unit 8 comprises a stand column 81 and a foot pad 82, the stand column 81 is fixed at the bottom of the cabinet body 1, the stand column 81 is of a cylindrical structure, the foot pad 82 is fixed at the end part of the stand column 81, the cabinet body 1 is supported through the foot pad 82 and the stand column 81, and the stability of the supporting is guaranteed.

Moving mechanism 7 includes electric putter 71 and gyro wheel 72, and electric putter 71 installs in the bottom of the cabinet body 1 and is located the inboard of stand 81, and the flexible tip at electric putter 71 is installed to gyro wheel 72, and the output of singlechip 2 is connected to electric putter 71's input electricity, and electric putter 71's flexible end drives gyro wheel 72 and stretches out and draws back to shift out gyro wheel 72 stand 81, remove the cabinet body 1 through gyro wheel 72 and predetermine the region, and it removes conveniently, convenient to use.

The shock absorption mechanism 5 comprises an expansion link 51 and a spring 52, the expansion link 51 is fixed between the water cooling plate 14 and the connecting frame 10, the spring 52 is sleeved on the expansion link 51, the expansion link 51 is forced to expand by the shock on the water cooling plate 14, so that the spring 52 is driven to deform, the spring 52 offsets shock energy by deformation, the shock of the water cooling plate 14 is weakened, and the adverse effect of the shock on the electrical equipment is avoided.

The sliding mechanism 4 comprises a sliding groove 41 and a sliding rail 42, the sliding groove 41 is arranged on the inner side of the cabinet body 1, the sliding rail 42 is fixed on the connecting frame 10, the sliding rail 42 is in sliding connection with the sliding groove 41, and the water cooling plate 14 drives the sliding rail 42 to slide in the sliding groove 41 in the moving process, so that the reasonability of design is ensured.

The circulating pipe 20 is distributed in a snake shape, and the circulating pipe 20 is a finned pipe, so that the heat exchange area is increased, and the heat exchange efficiency is improved.

Radiating element 6 includes heat conduction silica gel piece 61 and radiating fin 62, radiating fin 62 installs the hot junction region at refrigeration piece 18, heat conduction silica gel piece 61 is pasted at radiating fin 62 and the junction of refrigeration piece 18, the heat of refrigeration piece 18 hot junction is gathered on heat conduction silica gel piece 61, the heat on the heat conduction silica gel piece 61 distributes to the external world through radiating fin 62, thereby the refrigeration efficiency of refrigeration piece 18 has been improved, heat conduction silica gel piece 61 can fill the clearance of contact surface, reduce the thermal contact resistance that produces between heat source surface and the heat abstractor contact surface, can also play insulating and absorbing effect.

When in use: the flexible end of electric putter 71 drives the gyro wheel 72 and stretches out and draws back to shift out the stand 81 with the gyro wheel 72, remove the cabinet body 1 through the gyro wheel 72 and preset the region, then, electric putter 71 contracts, and the stand 81 is inboard is accomodate to the gyro wheel 72, supports the cabinet body 1 through callus on the sole 82 and stand 81.

The electric equipment is installed on the water cooling plate 14, cooling water in the cooling water tank 17 is conveyed to the hard straight pipe 16 through the circulating pump 21 and then conveyed to the circulating pipe 20 through the threaded telescopic pipe 15, energy exchange is carried out between the cooling water in the circulating pipe 20 and heat on the water cooling plate 14, and therefore the water cooling plate 14 generates a low-temperature environment, and the electric equipment is cooled through the water cooling plate 14.

The exchanged cooling water flows back into the cooling water tank 17, the heat conducting plate 19 conducts the exchanged heat out, and the cold energy generated by the cold end of the refrigerating sheet 18 exchanges the heat on the heat conducting plate 19, so that the heat conducting plate 19 generates low temperature, and the low temperature on the heat conducting plate 19 acts on the cooling water, so that the cooling water keeps a low-temperature environment.

The heat at the hot end of the refrigerating sheet 18 is gathered on the heat-conducting silica gel sheet 61, and the heat on the heat-conducting silica gel sheet 61 is dissipated to the outside through the heat dissipation fins 62, so that the refrigerating efficiency of the refrigerating sheet 18 is improved.

When the electrical equipment is maintained, the cabinet door 13 is opened through the handle 12, the buckle 9 is buckled, the water cooling plate 14 is pulled out, and the water cooling plate 14 drives the sliding rail 42 to slide in the sliding groove 41 during moving.

The vibration of the water cooling plate 14 forces the telescopic rod 51 to expand and contract, so as to drive the spring 52 to deform, and the spring 52 counteracts the vibration energy through deformation, so as to weaken the vibration of the water cooling plate 14.

It is worth noting that: the electric push rod 71, the temperature sensor 3, the refrigerating piece 18 and the circulating pump 21 are controlled by the single chip microcomputer 2 by adopting a common method in the prior art, the refrigerating piece 18 and the circulating pump 21 of the electric push rod 71 are subjected to type selection configuration according to an actual application scene, the single chip microcomputer 2 adopts an Intel8051 series, and the temperature sensor 3 adopts a product of Beijing star sensor technology Limited.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an intelligent heat dissipation cubical switchboard which characterized in that: comprises a cabinet body (1), a water cooling plate (14), a cooling water tank (17) and a heat conducting plate (19);

cabinet (1): a cabinet door (13) is hinged to the front side of the cabinet body, the cabinet door (13) is a glass door, and a moving mechanism (7) and a supporting unit (8) are respectively installed at the bottom of the cabinet body (1);

water-cooling plate (14): the front side is provided with a buckle (9), the inner side is provided with a circulating pipe (20), the bottom of the circulating pipe is provided with a damping mechanism (5), and the damping mechanism (5) is movably connected with the cabinet body (1) through a sliding mechanism (4);

cooling water tank (17): the cooling water tank is fixed on the rear side of the cabinet body (1), a hard straight pipe (16) is fixedly communicated with the top of the cooling water tank (17), a circulating pump (21) is installed at the joint of an output port of the hard straight pipe (16) and the cooling water tank (17), the circulating pump (21) is located on the inner side of the cooling water tank (17), and the hard straight pipe (16) is communicated with a circulating pipe (20) through a threaded telescopic pipe (15);

heat-conducting plate (19): one part of the cooling water tank extends into the inner side of the cooling water tank (17), the other part of the cooling water tank is exposed to the outer side of the cooling water tank (17), a refrigerating sheet (18) is arranged on the outer side surface of the heat conducting plate (19), the cold end of the refrigerating sheet (18) is attached to the heat conducting plate (19), and a heat radiating unit (6) is arranged at the hot end of the refrigerating sheet (18);

the refrigerator further comprises a single chip microcomputer (2) and a temperature sensor (3), wherein the single chip microcomputer (2) and the temperature sensor (3) are installed on the side face of the cabinet body (1), sensing elements of the temperature sensor (3) are distributed on the inner side of the cabinet body (1), the input end of the single chip microcomputer (2) is electrically connected with the output ends of the temperature sensor (3) and an external power supply, and the output end of the single chip microcomputer (2) is electrically connected with the input ends of a refrigerating sheet (18) and a circulating pump (21).

2. The intelligent heat dissipation switch cabinet of claim 1, wherein: the cabinet is characterized by further comprising a handle (12), wherein the handle (12) is fixed on the outer side of the opening and closing end of the cabinet door (13), and a safety lock (11) for locking with the cabinet body (1) is installed on the cabinet door (13).

3. The intelligent heat dissipation switch cabinet of claim 1, wherein: the supporting unit (8) comprises an upright post (81) and a foot pad (82), the upright post (81) is fixed at the bottom of the cabinet body (1), the upright post (81) is of a cylindrical structure, and the foot pad (82) is fixed at the end part of the upright post (81).

4. An intelligent heat-dissipation switch cabinet according to claim 3, wherein: the moving mechanism (7) comprises an electric push rod (71) and a roller (72), the electric push rod (71) is installed at the bottom of the cabinet body (1) and located on the inner side of the upright post (81), the roller (72) is installed at the telescopic end of the electric push rod (71), and the input end of the electric push rod (71) is electrically connected with the output end of the single chip microcomputer (2).

5. The intelligent heat dissipation switch cabinet of claim 1, wherein: the damping mechanism (5) comprises an expansion link (51) and a spring (52), the expansion link (51) is fixed between the water cooling plate (14) and the connecting frame (10), and the spring (52) is sleeved on the expansion link (51).

6. The intelligent heat dissipation switch cabinet of claim 1, wherein: slide mechanism (4) include spout (41) and slide rail (42), and the inboard at the cabinet body (1) is seted up in spout (41), slide rail (42) are fixed on link (10), slide rail (42) and spout (41) sliding connection.

7. The intelligent heat dissipation switch cabinet of claim 1, wherein: the circulating pipe (20) is distributed in a snake shape, and the circulating pipe (20) is a finned pipe.

8. The intelligent heat dissipation switch cabinet of claim 1, wherein: radiating unit (6) are including heat conduction silica gel piece (61) and radiating fin (62), and radiating fin (62) are installed in the hot junction region of refrigeration piece (18), heat conduction silica gel piece (61) are pasted in radiating fin (62) and the junction of refrigeration piece (18).

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