CN110768114A - Intelligent power distribution mechanism of household equipment - Google Patents

Abstract

The invention relates to the technical field of electrician and electronic equipment, in particular to an intelligent power distribution mechanism of household equipment, which comprises a power distribution cabinet, wherein at least two transverse division plates which are arranged at equal intervals are arranged in the power distribution cabinet, the transverse division plates divide the interior of the power distribution cabinet into at least three accommodating cavities which are vertically stacked and distributed, at least three cabinet doors corresponding to the accommodating cavities are arranged on the front surface of the power distribution cabinet, a main heat dissipation fan is arranged on the top wall of the inner side of the power distribution cabinet, and side auxiliary heat dissipation fans are arranged on the two sides of the accommodating cavities and on the inner wall of the power. This automatic temperature control switch board opens door more utilizes the fan to drive the inside air of switch board, has effectively improved the circulation speed of the inside air of switch board, can be more quick discharge the inside heat of switch board to the external world, can let in the running water through the inside to the cold water storehouse, utilize running water and heat exchange fin to mutually support and absorb the inside heat of switch board, the effect of cooling is better to the working property of the inside electronic component of switch board has effectively been guaranteed.

Description

Intelligent power distribution mechanism of household equipment

Technical Field

The invention relates to the technical field of electrician electronic equipment, in particular to an intelligent power distribution mechanism of household equipment.

Background

The power distribution cabinet is a common power distribution equipment, is a general name of an electric control center, is mainly used for connecting an external power supply and distributing line connections of electric equipment, is mainly used in occasions with concentrated loads and more loops, and is responsible for distributing electric energy of a certain circuit of the upper-level power distribution equipment to nearby loads. In the existing smart home system, a large number of electric devices need to be installed at different positions, and an excellent power distribution control cabinet is needed for providing line allocation and electric load adjustment for the electric devices. Most of the existing power distribution cabinets are provided with temperature control components, but the temperature control function is not understood generally, heat in the use process cannot be discharged in time, and sockets for installing and allocating electric equipment are fewer, so that the centralized control is not facilitated.

Disclosure of Invention

The invention aims to overcome the technical defects and provides an intelligent power distribution mechanism of household equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an intelligent distribution mechanism of household equipment, includes the switch board, the inside horizontal division board that is not less than two equidistance ranges that is provided with of switch board, horizontal division board becomes the interior partition of switch board to be no less than three and piles up the chamber that holds that distributes perpendicularly, and the front of switch board is provided with to be no less than three and holds the corresponding cabinet door in chamber.

The heat dissipation device is characterized in that a main heat dissipation fan is arranged on the inner side top wall of the power distribution cabinet, side auxiliary heat dissipation fans are arranged on the inner walls of the power distribution cabinet and on the two sides of the accommodating cavity, grid type ventilation openings are formed in the front face and the back face of each side auxiliary heat dissipation fan and on the inner wall of the power distribution cabinet, and heat dissipation fins which are arranged equidistantly are arranged at the bottom and the top of each side auxiliary heat dissipation fan and between the two grid type ventilation openings.

The utility model discloses a switch board, including switch board, cold water storehouse, the inside cold water storehouse of having seted up of cabinet wall at the switch board back, the inside of cold water storehouse is provided with a plurality of heat transfer fin, and the top at the switch board back is provided with the cold water that is linked together with the cold water storehouse and advances the pipe, and cold water advances to be provided with the electronic valve on managing, and the bottom at the switch board back is provided with the hot water.

The bottom of switch board is provided with the electron cabinet, and the inside of electron cabinet is provided with CPU, and CPU's input is connected with temperature sensor's output electricity, and CPU's input is connected with the output electricity of power, and CPU's output is connected with main radiator fan's input, and CPU's output is connected with the side auxiliary cooling fan's input.

Preferably, a filter screen layer is arranged inside the grid type ventilation opening.

Preferably, the cold water bins are uniformly distributed in the cabinet wall on the back of the power distribution cabinet in an S shape.

Preferably, the included angle between the heat exchange fins and the horizontal plane is twenty to forty degrees.

Preferably, the number of the temperature sensors is not less than three, and the temperature sensors are positioned in the accommodating cavity.

Preferably, the cabinet door is movably connected with the power distribution cabinet through a hinge.

Preferably, the temperature sensor is located on the inner wall of the back face of the power distribution cabinet inside the accommodating cavity.

The invention has the beneficial effects that: (1) through the mutually supporting use between main radiator fan, the supplementary radiator fan of side, grid formula vent, heat radiation fins, CPU and the temperature sensor, utilize the fan to drive the inside air of switch board, effectively improved the circulation rate of the inside air of switch board, can be more quick discharge the inside heat of switch board to the external world. (2) Through mutually supporting use between cold water storehouse, heat transfer fin, cold water advance pipe, electronic valve, hot water exit tube, CPU and the temperature sensor, can utilize running water and heat transfer fin to mutually support and absorb the inside heat of switch board through letting in the running water to the inside in cold water storehouse, the effect of cooling is better to effectively guaranteed the working property of the inside electronic component of switch board.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Figure 2 is a side cross-sectional view of the structure of the present invention.

FIG. 3 is a front sectional view of the structure of the present invention.

Fig. 4 is a structural section view of the cabinet wall at the back of the power distribution cabinet of the invention.

Fig. 5 is a schematic diagram of the system of the present invention.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1 to 5, the power distribution cabinet comprises a power distribution cabinet 1, at least two transverse division plates 2 are arranged in the power distribution cabinet 1 at equal intervals, the transverse division plates 2 divide the interior of the power distribution cabinet 1 into at least three accommodating cavities 3 which are vertically stacked and distributed, at least three cabinet doors 18 corresponding to the accommodating cavities 3 are arranged on the front surface of the power distribution cabinet 1, and the cabinet doors 18 are movably connected with the power distribution cabinet 1 through hinges. Be provided with main radiator fan 4 on the inboard roof of switch board 1, hold 3 both sides in chamber and all be provided with side auxiliary cooling fan 5 on being located the inner wall of switch board 1, the supplementary radiator fan 5's of side front and back all have seted up grid vent 6 on being located the inner wall of switch board 1, the inside of grid vent 6 is provided with filter screen layer 17, the side auxiliary cooling fan 5's bottom and top all are provided with the heat radiation fins 7 that the equidistance was arranged and are located between two grid vent 6.

The inside cold water storehouse 8 of having seted up of cabinet wall at the 1 back of switch board, cold water storehouse 8 is inside the cabinet wall at the 1 back of switch board of S-shaped evenly distributed, the inside of cold water storehouse 8 is provided with a plurality of heat transfer fin 9, contained angle between heat transfer fin 9 and the horizontal plane is twenty to forty degrees, the top at the 1 back of switch board is provided with the cold water that is linked together with cold water storehouse 8 and advances pipe 10, cold water advances to be provided with electronic valve 11 on pipe 10, the bottom at the 1 back of switch board is provided with hot water exit tube 12 that cold water storehouse 8 is linked together.

The bottom of switch board 1 is provided with electron cabinet 13, the inside of electron cabinet 13 is provided with CPU14, CPU 14's input is connected with temperature sensor 15's output electricity, temperature sensor 15's quantity is no less than three, temperature sensor 15 is located the inside that holds chamber 3, temperature sensor 15 is located the inner wall that holds the inside switch board 1 back in chamber 3, CPU 14's input is connected with 16 output electricity, CPU 14's output is connected with main radiator fan 4's input, CPU 14's output is connected with the side auxiliary cooling fan 5's input.

Through main radiator fan 4, side auxiliary cooling fan 5, grid formula vent 6, heat radiation fins 7, mutually support between CPU14 and the temperature sensor 15 and use, utilize main radiator fan 4 to drive the inside air of switch board, the circulation rate of the inside air of switch board has effectively been improved, can be faster discharge the inside heat of switch board to the external world, through cold water storehouse 8, heat radiation fins 9, cold water advances pipe 10, electronic valve 11, hot water exit tube 12, mutually support between CPU14 and the temperature sensor 15 and use, can let in the running water through the inside to cold water storehouse 8, utilize running water and heat radiation fins 9 to mutually support the heat absorption inside the switch board, the effect of cooling is better, thereby effectively guaranteed the working property of the inside electronic component of switch board.

During the use, detect the inside temperature height of switch board through temperature sensor 15, when the inside temperature of switch board is higher, CPU14 control main radiator fan 4 and the supplementary radiator fan 5 of side start, pump the inside heat of switch board to the external world, CPU14 control electronic valve 11 opens simultaneously, make the running water get into the inside in cold water storehouse 8, utilize running water and heat exchange fin 9 to mutually support and cool down the inside heat absorption of switch board, when temperature sensor 15 detects the inside temperature of switch board and reduces to a definite value, CPU14 controls main radiator fan 4 and the supplementary radiator fan 5 stall of side earlier, control electronic valve 11 is closed again, when temperature sensor 15 detects the inside temperature rise of switch board to a definite value, repeat above-mentioned step and cool down.

To sum up, this automatic temperature control switch board that opens door more utilizes main radiator fan 4 to drive the inside air of switch board, has effectively improved the circulation rate of the inside air of switch board, can be more quick discharge the inside heat of switch board to the external world.

And, can utilize running water and heat exchange fin 9 to mutually support and absorb the inside heat of switch board through letting in the running water to the inside of cold water storehouse 8, the effect of cooling is better to the working property of the inside electronic component of switch board has effectively been guaranteed.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (5)

1. The utility model provides an intelligent power distribution mechanism of household equipment, includes the switch board, its characterized in that: at least two transverse partition plates which are arranged at equal intervals are arranged in the power distribution cabinet, the transverse partition plates divide the interior of the power distribution cabinet into at least three accommodating cavities which are vertically stacked and distributed, and at least three cabinet doors corresponding to the accommodating cavities are arranged on the front surface of the power distribution cabinet; the top wall of the inner side of the power distribution cabinet is provided with a main radiating fan, the inner walls of the power distribution cabinet and the two sides of the accommodating cavity are respectively provided with a side auxiliary radiating fan, grid type ventilation openings are respectively formed in the front surface and the back surface of each side auxiliary radiating fan and positioned on the inner wall of the power distribution cabinet, and radiating fins which are arranged at equal intervals are respectively arranged at the bottom and the top of each side auxiliary radiating fan and positioned between the two grid type ventilation openings; a cold water bin is arranged in the cabinet wall on the back of the power distribution cabinet, a plurality of heat exchange fins are arranged in the cold water bin, a cold water inlet pipe communicated with the cold water bin is arranged at the top of the back of the power distribution cabinet, an electronic valve is arranged on the cold water inlet pipe, and a hot water outlet pipe communicated with the cold water bin is arranged at the bottom of the back of the power distribution cabinet; the bottom of the power distribution cabinet is provided with an electronic cabinet, a CPU is arranged in the electronic cabinet, the input end of the CPU is electrically connected with the output end of the temperature sensor, the input end of the CPU is electrically connected with the output end of a power supply, the output end of the CPU is connected with the input end of the main heat dissipation fan, and the output end of the CPU is connected with the input end of the side auxiliary heat dissipation fan; a filter screen layer is arranged inside the grid type ventilation opening; the temperature sensor is positioned on the inner wall of the back face of the power distribution cabinet inside the accommodating cavity.

2. The intelligent power distribution mechanism of household equipment according to claim 1, characterized in that: the cold water bin is S-shaped and is uniformly distributed inside the cabinet wall on the back of the power distribution cabinet.

3. The intelligent power distribution mechanism of household equipment according to claim 1, characterized in that: the included angle between the heat exchange fins and the horizontal plane is twenty-forty degrees.

4. The intelligent power distribution mechanism of household equipment according to claim 1, characterized in that: the quantity of the temperature sensors is not less than three, and the temperature sensors are located inside the accommodating cavity.

5. The intelligent power distribution mechanism of household equipment according to claim 1, characterized in that: the cabinet door is movably connected with the power distribution cabinet through a hinge.

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