CN209896551U - Intelligent temperature control power distribution cabinet - Google Patents

Abstract

The utility model provides an intelligence control by temperature change switch board, relate to the power supply field, including the electricity distribution room, the electricity distribution room top is equipped with the control by temperature change room, install the heat dissipation window on the lateral wall of control by temperature change room, the control by temperature change indoor fixation is equipped with the water pump, the water tank, the cooling tube that is close to the heat dissipation window, the fan that corresponds with the cooling tube, wherein water pump and water tank pipe connection, the delivery port and the water tank pipe connection of cooling tube, the fixed heat pipe that is equipped with in the electricity distribution room, heat pipe one end and water pump pipe connection, the other end is connected with the water inlet pipe of cooling tube, install first temperature sensor in the electricity distribution room, still be equipped with the first time relay. This technique utilizes time relay to prevent that the temperature from suddenly rising suddenly low the innovation point that leads to cooling part mistake to start, combines temperature sensor and time relay to control water pump and fan, realizes the function of intelligent control by temperature change.

Description

Intelligent temperature control power distribution cabinet

Technical Field

The utility model belongs to the technical field of the power supply and specifically relates to an intelligence control by temperature change switch board.

Background

The switch board is at the in-process of work, and the inside particle of electrical components is violent movement after the circular telegram, leads to electrical components to generate heat, and the metallic conductor resistance in the electrical components is different, produces the joule heat also differently, and contact failure also can cause resistance increase and then produce more heats, and power increases makes the contact site temperature higher, leads to the further increase of resistance. Except that the inside of the switch board generates heat, external reasons such as hot weather also are the important reason that influences the inside temperature rise of switch board.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model aims at providing an intelligence control by temperature change switch board in time adjusts the switch board.

Its solution is, an intelligence control by temperature change switch board, including the electricity distribution room, its characterized in that, the electricity distribution room top is equipped with the control by temperature change room, installs the heat dissipation window on the lateral wall of control by temperature change room, and the control by temperature change indoor fixation is equipped with water pump, water tank, is close to the cooling tube of heat dissipation window, the fan that corresponds with the cooling tube, and wherein water pump and water tank pipe connection, the delivery port and the water tank pipe connection of cooling tube, the fixed heat pipe that is equipped with in the electricity distribution room, heat pipe one end and water pump pipe connection, the other end and the water inlet pipe connection of cooling tube, install first temperature sensor in the electricity distribution room, still be equipped with the first time relay of being connected with first temperature sensor wire in the control by.

Preferably, a second temperature sensor is installed on the water tank, and a warning lamp connected with a second time relay lead is installed outside the temperature control chamber.

Preferably, the temperature control room is of an upper opening structure, the periphery and the bottom of the temperature control room are sealed in a seamless mode, and a detachable cabinet top is arranged above the temperature control room.

Preferably, the heat conduction pipe is of a concave structure, the middle of the heat conduction pipe is flat, two ends of the heat conduction pipe are circular interfaces, and the circular interfaces extend out of the power distribution chamber.

Preferably, the heat conduction pipe has a plurality of, end to end in proper order between the heat conduction pipe.

Preferably, a protective cover fixed outside the cabinet body of the power distribution room is further arranged outside the heat conduction pipe.

Preferably, the radiating pipe comprises an upper frame, a lower frame and a plurality of flat bent pipes uniformly distributed in the lower frame, the upper frame and the lower frame are both provided with the same grooves, sealing rings are distributed around the grooves, the grooves are jointed to form a complete water channel after the upper frame and the lower frame are spliced, and a water inlet and a water outlet of the radiating pipe are both communicated with the bent pipes through the water channel.

The utility model has the advantages that: compared with the prior art, the novel point that the temperature is suddenly raised and lowered to cause the false start of the cooling part is prevented by using the time relay, the water pump and the fan are controlled by combining the temperature sensor and the time relay, the intelligent temperature control function is realized, the heat of the electrical appliance element is dissipated by using water cooling, and the novel cooling device has the advantages of quicker heat dissipation and higher cooling efficiency compared with the traditional natural cooling and mechanical air cooling.

Drawings

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

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

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of a heat pipe structure;

fig. 5 is a schematic view of a heat dissipation tube structure.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

Given by fig. 1-5, an intelligent temperature control power distribution cabinet, including a power distribution room 1, characterized in that, a temperature control room 2 is arranged above the power distribution room 1, a heat dissipation window 6 is installed on the side wall of the temperature control room 2, a water pump 8, a water tank 9, a heat dissipation pipe 10 close to the heat dissipation window 6, and a fan 11 corresponding to the heat dissipation pipe 10 are fixed in the temperature control room 2, wherein the water pump 8 is connected with the water tank 9 through a pipeline, the water pump 8 pumps water from the water tank 9, the fan 11 blows directly to the heat dissipation pipe 10 to take away the heat of the water in the heat dissipation pipe 10 and output the heat dissipation window 6, the water outlet of the heat dissipation pipe 10 is connected with the water tank 9 through a pipeline, after the heat of the water in the heat dissipation pipe 10 is taken away, the cooled water enters the water tank 9 again, a heat conduction pipe 7 is fixed in the power distribution room 1, one end of the heat conduction pipe, take away the heat of electrical components and wire, get into cooling tube 10 with the heat release, flow back water tank 9 again and form cooling circuit, install first temperature sensor 12 in the electricity distribution room 1, still be equipped with the first time relay 13 of being connected with first temperature sensor 12 wire in the control by temperature change room 2, first time relay 13 is connected with water pump 8, fan 11 wire. When the first temperature sensor 12 detects that the temperature in the power distribution room 1 rises to a set value, the temperature sensor sends a signal to the first time relay 13, and in order to prevent unnecessary mechanical loss caused by the instantaneous rise of the temperature in the power distribution room 1, the first time relay 13 starts the water pump 8 and the fan 11 to perform cooling and heat dissipation actions after time delay processing.

And a second temperature sensor 14 is arranged on the water tank 9, and a warning lamp 4 connected with a second time relay 15 through a lead is arranged outside the temperature control chamber 2. In the process of the water cooling cycle, if the electric components are overheated, so that the temperature in the distribution room 1 is too high for the fan 11 to effectively dissipate the heat from the heat dissipation pipe 10, the temperature of the water in the water tank 9 will continuously rise, at this time, the second temperature sensor 14 detects that the temperature of the water tank 9 reaches the set value, and then sends a signal to the second time relay 15, and the warning lamp 4 will be triggered to light up if the temperature of the water tank 9 does not fall below the set value within the time period delayed by the second time relay 15, so as to draw attention of the worker.

Temperature control room 2 is top open structure, and is seamless sealed with the bottom all around, and temperature control room 2 top is equipped with detachable cabinet top 3. All the components in the temperature control chamber 2 are put in from the upper opening, and when any one of the water tank 9, the radiating pipe 10 or the water pump 8 has a water leakage problem, the sealing structures at the periphery and the bottom can ensure that water cannot overflow into the distribution chamber 1 to burn electrical elements.

The heat conduction pipe 7 is of a concave structure, the middle of the heat conduction pipe is flat, two ends of the heat conduction pipe are circular interfaces, and the circular interfaces extend out of the power distribution chamber 1. Because the middle of the heat conduction pipe 7 is flat, the installation of electrical components is not influenced, meanwhile, the heat conduction pipe contacts the electrical components in a larger area to take away more heat, the interface is arranged outside the distribution room 1, and the electrical components in the distribution room are not influenced even if water leaks.

The heat conduction pipes 7 are multiple, and the heat conduction pipes 7 are sequentially connected end to end. The cooling water flows through each of the heat conductive pipes 7 in turn, taking away the heat in all the heat conductive pipes 7.

The heat conducting pipe 7 is also provided with a protective cover 5 fixed outside the cabinet body of the power distribution room 1. The protective cover 5 protects the joint of the heat pipe 7 from being damaged by external force, and prevents the heat pipe 7 from leaking to the outside.

The radiating pipe 10 comprises an upper frame 101, a lower frame 102 and a plurality of flat bent pipes 105 uniformly distributed in the lower frame 102, wherein the upper frame 101 and the lower frame 102 are both provided with the same grooves 103, sealing rings 104 are distributed around the grooves 103, the grooves 103 are jointed to form a complete water channel after the upper frame 101 and the lower frame 102 are spliced, and a water inlet and a water outlet of the radiating pipe 10 are both communicated with the bent pipes 105 through the water channel. The cooling water enters the bent pipes 105 of the radiating pipe 10 after absorbing heat, the fan 11 takes away the heat in the cooling water, and the more the bent pipes 105 are, the flatter the more the number is, the better the radiating effect is; the radiating pipe 10 has an up-down splicing structure, which facilitates the actual processing of the water channel in the radiating pipe 10 and facilitates the installation and disassembly of the bent pipe 105.

The utility model discloses when using, detect the temperature in the electricity distribution room 1 by first temperature sensor 12, first time relay 13 begins timing after reaching the setting value, time is after water pump 8 and fan 11 start, water pump 8 takes out the cooling water from water tank 9 and sends into in heat pipe 7, take away the heat in the heat pipe 7, reentrant cooling tube 10, through the wind-force cooling of fan 11, the heat is exported from heat dissipation window 6, the water after the cooling gets into water tank 9 and forms the hydrologic cycle, until the temperature in electricity distribution room 1 falls to below first temperature sensor 12; in the timing process, if the temperature in the distribution room 1 is reduced to be lower than the set value, the first time relay 13 does not continue to perform timing any more, and the above functions can be controlled by a programmable controller without being limited.

The utility model has the advantages that: compared with the prior art, the novel point that the temperature is suddenly raised and lowered to cause the false start of the cooling part is prevented by using the time relay, the water pump and the fan are controlled by combining the temperature sensor and the time relay, the intelligent temperature control function is realized, the heat of the electrical appliance element is dissipated by using water cooling, and the novel cooling device has the advantages of quicker heat dissipation and higher cooling efficiency compared with the traditional natural cooling and mechanical air cooling.

The above-mentioned embodiments are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design concept of the present invention should be included in the protection scope defined by the claims of the present invention.

Claims (7)

1. An intelligent temperature control power distribution cabinet comprises a power distribution room (1) and is characterized in that a temperature control room (2) is arranged above the power distribution room (1), a heat dissipation window (6) is installed on the side wall of the temperature control room (2), a water pump (8), a water tank (9), a heat dissipation pipe (10) close to the heat dissipation window (6) and a fan (11) corresponding to the heat dissipation pipe (10) are fixedly arranged in the temperature control room (2), wherein the water pump (8) is in pipeline connection with the water tank (9), a water outlet of the heat dissipation pipe (10) is in pipeline connection with the water tank (9), a heat conduction pipe (7) is fixedly arranged in the power distribution room (1), one end of the heat conduction pipe (7) is in pipeline connection with the water pump (8), the other end of the heat conduction pipe is in pipeline connection with a water inlet of the heat dissipation pipe (10), a first temperature sensor (12) is installed in the power distribution room (1), a first time relay (, the first time relay (13) is connected with the water pump (8) and the fan (11) through wires.

2. The intelligent temperature-controlled power distribution cabinet according to claim 1, wherein a second temperature sensor (14) is installed on the water tank (9), and a warning lamp (4) connected with a second time relay (15) through a lead is installed outside the temperature control chamber (2).

3. The intelligent temperature-control power distribution cabinet according to claim 1, wherein the temperature control chamber (2) is of an upper opening structure, the periphery and the bottom of the temperature control chamber are seamlessly sealed, and a detachable cabinet top (3) is arranged above the temperature control chamber (2).

4. The intelligent temperature-controlled power distribution cabinet according to claim 1, wherein the heat conducting pipe (7) is of a concave structure, the middle of the heat conducting pipe is flat, and the two ends of the heat conducting pipe are circular interfaces which extend out of the power distribution room (1).

5. The intelligent temperature-controlled power distribution cabinet according to claim 1 or 4, wherein the number of the heat conducting pipes (7) is multiple, and the heat conducting pipes (7) are sequentially connected end to end.

6. The intelligent temperature-controlled power distribution cabinet according to claim 5, wherein a protective cover (5) fixed outside the cabinet body of the power distribution room (1) is further arranged outside the heat conducting pipe (7).

7. The intelligent temperature-controlled power distribution cabinet according to claim 1, wherein the heat dissipation pipe (10) comprises an upper frame (101), a lower frame (102) and a plurality of flat bent pipes (105) uniformly distributed in the lower frame (102), the upper frame (101) and the lower frame (102) are both provided with the same groove (103), a sealing ring (104) is distributed around the groove (103), the groove (103) is jointed after the upper frame (101) and the lower frame (102) are spliced to form a complete water channel, and the water inlet and the water outlet of the heat dissipation pipe (10) are both communicated with the bent pipes (105) through the water channel.

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