CN213878989U - Novel high-voltage power distribution cabinet capable of automatically radiating - Google Patents

Abstract

The utility model discloses a can automatic radiating novel high voltage distribution cabinet, its technical scheme is: including the roof, roof right side fixed mounting right side board, roof left side fixed mounting left side board, roof top fixed mounting heat exchange box, the water injection hole is seted up at heat exchange box top, the water circulation export is seted up all around to the exchange box, the hydrologic cycle entry, the outlet, exhaust hole two and inlet port two, heat exchange box outer wall fixed mounting suction pump and two-way scavenging pump, the heat exchange incasement still is equipped with hot air exchange device, two-way scavenging pump scavenging end fixed connection scavenge pipe, scavenge pipe keeps away from scavenge pump one end fixed connection inlet port two, the utility model discloses inside cold water that pours into of heat exchange box, the coiled pipe is soaked in heat exchange box, cools off the coiled pipe outer wall through cold water, carries the switch board with the cold air after the cooling again in to solve the radiating problem of switch board.

Description

Novel high-voltage power distribution cabinet capable of automatically radiating

Technical Field

The utility model relates to a switch board heat dissipation field, concretely relates to can automatic radiating novel high voltage distribution cabinet.

Background

Electric power is the indispensable equipment in our life, no matter the mill power consumption or domestic power consumption, the switch board plays important role in regulating circuit voltage and carrying the power consumption, when the switch board works for a long time, produces a large amount of heats easily, in order to guarantee the system stability of switch board, generally all need dispel the heat to the switch board.

The prior art has the following defects: the existing power distribution cabinet generally dissipates heat inside the box body through a fan, generally needs a large amount of air sucked into the box body, easily brings dust to influence heat dissipation of electric elements, and easily causes circuit faults.

Therefore, the invention is necessary to invent a novel high-voltage power distribution cabinet capable of automatically radiating heat.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a can automatic radiating novel high voltage distribution cabinet, through pouring into cold water to the heat exchange incasement portion, the inside hot-air of box is taken out to two-way scavenging pump and is inhaled the coiled pipe, and the coiled pipe soaks in the heat exchange incasement, cools off the coiled pipe outer wall through cold water, carries the cold air after will cooling again in the switch board to solve the radiating problem of switch board.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the utility model provides a can automatic radiating novel high voltage distribution cabinet, the power distribution box comprises a box body, the box includes the roof, roof right side fixed mounting right side board, roof left side fixed mounting left side board, roof top fixed mounting heat exchange box, the water injection hole is seted up at the heat exchange box top, the exchange box is seted up hydrologic cycle export, hydrologic cycle entry, outlet, exhaust hole two and inlet port two all around, heat exchange box outer wall fixed mounting suction pump and two-way scavenging pump, still be equipped with hot air exchange device in the heat exchange box, hot air exchange device includes the coiled pipe, coiled pipe one end fixed connection exhaust hole two, the two-way scavenging pump suction end of coiled pipe one end fixed connection, two-way scavenging pump scavenging fixed connection scavenge pipe, scavenge pipe keeps away from scavenge pump one end fixed connection inlet port two.

Preferably, the inside water circle device that is equipped with of commuting case, water circle device includes the outlet pipe, outlet pipe one end and hydrologic cycle export fixed connection, outlet pipe one end fixed connection suction pump input, suction pump output fixed connection oral siphon, oral siphon and hydrologic cycle entry fixed connection.

Preferably, the water outlet port is fixedly provided with a valve.

Preferably, the top of the top plate is provided with a first exhaust hole and a first air inlet hole, the coiled pipe is fixedly connected with the first exhaust hole, the scavenging pipe is fixedly connected with the first air inlet hole, a sealing ring is arranged at the joint of the coiled pipe and the first exhaust hole, and a sealing ring is arranged at the joint of the scavenging pipe and the first air inlet hole.

Preferably, the right side board outer wall fixed mounting waterproof board one, a waterproof board bottom fixed mounting filter screen seat, first filter screen of filter screen seat grafting, the handle is installed at first filter screen top, right side inboard wall fixed mounting negative pressure fan one, negative pressure fan one and filter screen seat axis coincidence.

Preferably, a second negative pressure fan is fixedly installed on the outer wall of the left side plate, a second waterproof plate is arranged at the top of the second negative pressure fan, and the second waterproof plate is fixedly connected with the outer wall of the left side plate.

Preferably, the hot air exchange device is further provided with a second coiled pipe, the second coiled pipe is connected with the air exchange end of the bidirectional air exchange pump, and one end, far away from the bidirectional air exchange pump, of the second coiled pipe sequentially penetrates through the second air inlet hole and the first air inlet hole.

The embodiment of the utility model provides a have following advantage:

1. the coil pipe is sucked out of hot air in the power distribution cabinet through the hot air exchange device, the coil pipe is cooled through cold water, and cold air after cooling is input into the power distribution cabinet, so that dust caused by direct ventilation of the fan is avoided, and the service life of electrical equipment in the power distribution cabinet is prolonged.

2. Carry out the circulation through setting up rivers of water circle device in to heat exchange box and flow, the rivers of outlet pipe and oral siphon in to heat exchange box are connected to the suction pump, through suction pump pumping circulation rivers, the velocity of flow of increase rivers erodees coiled pipe and scavenge pipe through rivers, and the increase is to the radiating efficiency of hot-air.

3. The negative pressure fan I is arranged on the right side plate, the negative pressure fan II is arranged on the left side plate, so that an air channel inside the power distribution cabinet is formed, natural wind heat dissipation is achieved at low temperature in the power distribution cabinet, energy is saved, the negative pressure air channel is more favorable for flowing of air speed, and the heat dissipation effect is better.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural diagram provided by the present invention;

fig. 2 is a schematic structural view of a heat exchange box according to the present invention;

fig. 3 is a front view of the right side plate provided by the present invention;

fig. 4 is a schematic view of the inner wall of the right side plate provided by the present invention;

fig. 5 is a schematic view of the embodiment 2 of the present invention.

In the figure: 100 box body, 110 top plate, 111 air outlet I, 112 air inlet I, 120 right side plate, 121 waterproof plate I, 122 negative pressure fan I, 123 filter screen seat, 124 first filter screen, 125 handle, 126 second filter screen, 130 left side plate, 131 negative pressure fan II, 132 waterproof plate II, 140 heat exchange box, 141 water injection hole, 142 water circulation outlet, 143 water circulation inlet, 144 water outlet, 145 valve, 146 air outlet hole II, 147 air inlet hole II, 148 bidirectional scavenging pump, 150 water circulation device, 151 water outlet pipe, 152 water suction pump, 153 water inlet pipe, 160 hot air exchange device, 161 serpentine pipe I, 162 scavenging pipe, 163 sealing ring, 164 serpentine pipe II.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

referring to fig. 1-4 of the specification, the novel high voltage distribution cabinet capable of automatically dissipating heat of the embodiment comprises a cabinet 100, wherein the cabinet 100 comprises a top plate 110, a right side plate 120, a left side plate 130, a heat exchange box 140, a water circulation device 150 and a hot air exchange device 160, specifically, the box body 100 comprises a top plate 110, a right side plate 120 is fixedly arranged at the right side of the top plate 110, a left side plate 130 is fixedly installed at the left side of the top plate 110, a heat exchange box 140 is fixedly installed at the top of the top plate 110, the heat exchange box 140 is also internally provided with a hot air exchange device 160, the exchange box 140 is internally provided with a water circulation device 150, the box body 100 has an installation function, the top plate 110, the right side plate 120 and the left side plate 130 have an installation function, the water circulation device 150 has a function of circulating water flow in the heat exchange box, and the hot air exchange device 160 has a function of sucking out hot air in the power distribution cabinet for cooling and then conveying the hot air into the power distribution cabinet for heat dissipation;

further, the top plate 110 includes a first exhaust hole 111 and a first intake hole 112, the top plate 110 is installed on the top of the box body 100, specifically, the top plate 110 is provided with the first exhaust hole 111 and the first intake hole 112, the first exhaust hole 111 has a function of installing the first serpentine pipe 161, the first intake hole 112 has a function of installing the ventilation pipe 162,

further, the right side plate 120 includes a first waterproof plate 121, a first negative pressure fan 122, a filter screen seat 123, a filter screen 124 and a handle 125, and the right side plate 120 is installed on the right side of the box 100, specifically, a first waterproof plate 121 is fixedly arranged on the outer wall of the right side plate 120, a filter screen seat 123 is fixedly arranged at the bottom of the first waterproof plate 121, the filter screen seat 123 is inserted with a first filter screen 124, the top of the first filter screen 124 is provided with a handle 125, the inner wall of the right side plate 120 is fixedly provided with a first negative pressure fan 122, the axis of the first negative pressure fan 122 is overlapped with that of the filter screen seat 123, the waterproof plate 121 has the function of preventing rainwater from entering the box body, the first negative pressure fan 122 is set to be DX-500, the first negative pressure fan 122 has the function of sucking outside air into the power distribution cabinet, the filter screen seat 123 has the function of installing the filter screen 124, the filter screen 124 has the function of filtering dust in air, and the lifting handle 125 has the function of lifting the filter screen when the filter screen is replaced;

further, the left side plate 130 comprises a second negative pressure fan 131 and a second waterproof plate 132, the left side plate 130 is installed on the left side of the box body 100, specifically, the second negative pressure fan 131 is fixedly installed on the outer wall of the left side plate 130, the second waterproof plate 132 is arranged at the top of the second negative pressure fan 131, the second waterproof plate 132 is fixedly connected with the outer wall of the left side plate 130, the second negative pressure fan 131 is arranged to be DX-600, the second negative pressure fan 131 has the function of drawing hot air in the power distribution cabinet out of the power distribution cabinet to form a negative pressure air duct with the first negative pressure fan 122, so that the rapid flowing heat dissipation of air is facilitated, and the second waterproof plate 132 has the function of keeping off rain;

further, the heat exchange box 140 includes a water injection hole 141, a water circulation outlet 142, a water circulation inlet 143, a water discharge port 144, a valve 145, a second air discharge hole 146, a second air intake hole 147, and a bidirectional scavenging pump 148, the heat exchange box 140 is installed on the top of the top plate 110, specifically, the top of the heat exchange box 140 is provided with the water injection hole 141, the periphery of the heat exchange box 140 is provided with the water circulation outlet 142, the water circulation inlet 143, the water discharge port 144, the second air discharge hole 146, and the second air intake hole 147, the valve 145 is fixedly installed at the port of the water discharge port 144, the water injection hole 141 has a function of injecting water into the heat exchange box 140, the water circulation outlet 142 and the water circulation inlet 143 have a function of providing a water circulation path, the water discharge port 144 has a function of discharging water in the heat exchange box 140, and the valve 145 has a function of opening and closing the water discharge port 144;

further, the water circulation device 150 includes a water outlet pipe 151, a water pump 152 and an inlet pipe 153, the water circulation device 150 is installed inside the heat exchange box 140, specifically, the water circulation device 150 includes a water outlet pipe 151, one end of the water outlet pipe 151 is fixedly connected with the water circulation outlet 142, one end of the water outlet pipe 151 is fixedly connected with the input end of the water pump 152, the output end of the water pump 152 is fixedly connected with the inlet pipe 153, the inlet pipe 153 is fixedly connected with the water circulation inlet 143, the water outlet pipe 151 has a function of guiding out cold water, the water pump 152 is set to CN-8300, has a function of pumping and delivering water flow, and the inlet pipe 153 has a function of guiding water flow into the heat exchange box 140;

further, the hot air exchange device 160 includes a first coil 161, a second coil 162, a sealing ring 163, and a second coil 164, and the hot air exchange device 160 is installed inside the heat exchange box, specifically, the hot air exchanging device 160 comprises a coiled pipe 161, one end of the coiled pipe 161 is fixedly connected with the second exhaust hole 146, one end of the coiled pipe 161 is fixedly connected with the air suction end of the bidirectional scavenging pump 148, the air scavenging end of the bidirectional scavenging pump 148 is fixedly connected with the scavenging pipe 162, one end of the air exchange pipe 162, far away from the bidirectional air exchange pump 148, is fixedly connected with the air inlet hole II 147, the coiled pipe I161 is made of copper, the copper has a good heat conduction effect and is high in heat dissipation capacity, the coiled pipe I161 has the function of guiding hot air in the power distribution cabinet, the air exchange pipe 162 has the function of guiding cooled air into the power distribution cabinet, and the bidirectional air exchange pump 148 is set to be XQR-50 and has the function of air pumping and exchanging.

The implementation scenario is specifically as follows: when the temperature in the power distribution cabinet is low, the first negative pressure fan 122 and the second negative pressure fan 131 are started, the rotating speed of the first negative pressure fan 122 is lower than that of the second negative pressure fan 131, the air flow in the power distribution cabinet is accelerated through the negative pressure air duct, so that the hot air in the power distribution cabinet is driven to be replaced, the temperature of the air in the power distribution cabinet is conveniently reduced, when the distribution cabinet cannot reach the required temperature through the heat dissipation of the scheme, the hot air in the power distribution cabinet is sucked out of the cabinet body and conveyed into the heat exchange cabinet through the first coil pipe 161 by starting the bidirectional scavenging pump 148, the hot air is dissipated through the copper pipeline, the inner surface area of the pipeline is increased by arranging the coil pipe, the air heat dissipation stroke can be increased, the heat dissipation of the power distribution cabinet is facilitated, the cooled air is guided into the power distribution cabinet through the scavenging pipe, the heat dissipation of the power distribution cabinet is realized, and meanwhile, the water flow in the heat exchange cabinet 140 is circulated and flowed by starting the water pump, because rivers strike coiled pipe and scavenge pipe 162 to further cool down hot-air, thereby realize the inside heat dissipation of switch board.

Example 2:

referring to the specification and the attached fig. 5, the novel high voltage power distribution cabinet capable of automatically dissipating heat of the embodiment includes a box body 100 when the utility model is used, wherein the box body 100 includes a top plate 110, a right side plate 120, a left side plate 130, a heat exchange box 140, a water circulation device 150 and a hot air exchange device 160;

furthermore, the hot air exchange device 160 is further provided with a second coiled pipe 164, the second coiled pipe 164 is connected with the ventilation end of the bidirectional ventilation pump 148, one end of the second coiled pipe 164, which is far away from the bidirectional ventilation pump 148, sequentially penetrates through the second air inlet 147 and the first air inlet 112, and the second coiled pipe 164 guides cooled air into the power distribution cabinet to realize heat dissipation treatment on the power distribution cabinet;

the implementation scenario is specifically as follows: when using the utility model discloses can know from embodiment 1 when, replace the scavenge pipe 162 for coiled pipe two 164, thereby the air after will cooling is leading-in realizes the inside hot-air replacement of distribution cabinet in the switch board and plays radiating effect.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (7)

1. The utility model provides a can automatic radiating novel high voltage distribution cabinet, includes box (100), its characterized in that: the box body (100) comprises a top plate (110), a right side plate (120) is fixedly installed on the right side of the top plate (110), a left side plate (130) is fixedly installed on the left side of the top plate (110), a heat exchange box (140) is fixedly installed on the top of the top plate (110), a water injection hole (141) is formed in the top of the heat exchange box (140), a water circulation outlet (142), a water circulation inlet (143), a water outlet (144), a second exhaust hole (146) and a second air inlet hole (147) are formed in the periphery of the heat exchange box (140), a water suction pump (152) and a bidirectional air exchange pump (148) are fixedly installed on the outer wall of the heat exchange box (140), a hot air exchange device (160) is further arranged in the heat exchange box (140), the hot air exchange device (160) comprises a coiled pipe (161), one end of the coiled pipe (161) is fixedly connected with the second exhaust hole (146), one end of the coiled pipe (161) is fixedly connected with the air suction end of the bidirectional air exchange pump (148), the air exchange end of the bidirectional air exchange pump (148) is fixedly connected with an air exchange pipe (162), and one end, far away from the bidirectional air exchange pump (148), of the air exchange pipe (162) is fixedly connected with a second air inlet hole (147).

2. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: the inside water circle device (150) that is equipped with of commuting case (140), water circle device (150) includes outlet pipe (151), outlet pipe (151) one end and hydrologic cycle export (142) fixed connection, outlet pipe (151) one end fixed connection suction pump (152) input, suction pump (152) output end fixed connection oral siphon (153), oral siphon (153) and hydrologic cycle entry (143) fixed connection.

3. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: and a valve (145) is fixedly arranged at the port of the water outlet (144).

4. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: the top of the top plate (110) is provided with a first exhaust hole (111) and a first air inlet hole (112), the coiled pipe (161) is fixedly connected with the first exhaust hole (111), the ventilation pipe (162) is fixedly connected with the first air inlet hole (112), a sealing ring (163) is arranged at the joint of the coiled pipe (161) and the first exhaust hole (111), and a sealing ring (163) is arranged at the joint of the ventilation pipe (162) and the first air inlet hole (112).

5. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: right side board (120) outer wall fixed mounting waterproof board (121), waterproof board (121) bottom fixed mounting filter screen seat (123), first filter screen (124) are pegged graft in filter screen seat (123), handle (125) are installed at first filter screen (124) top, right side board (120) inner wall fixed mounting negative pressure fan (122), negative pressure fan (122) and filter screen seat (123) axis coincidence.

6. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: the outer wall of the left side plate (130) is fixedly provided with a second negative pressure fan (131), the top of the second negative pressure fan (131) is provided with a second waterproof plate (132), and the second waterproof plate (132) is fixedly connected with the outer wall of the left side plate (130).

7. The novel high-voltage power distribution cabinet capable of automatically dissipating heat according to claim 1, characterized in that: the hot air exchange device (160) is further provided with a second coiled pipe (164), the second coiled pipe (164) is connected with the ventilation end of the bidirectional ventilation pump (148), and one end, far away from the bidirectional ventilation pump (148), of the second coiled pipe (164) sequentially penetrates through the second air inlet hole (147) and the first air inlet hole (112).

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