CN216717636U - Power supply temperature monitoring inductor for wind power generation - Google Patents

Abstract

The utility model discloses a power supply temperature monitoring sensor for wind power generation, which comprises a power supply and a support assembly for supporting the power supply, wherein the support assembly comprises a support frame, the power supply is arranged in the support frame, the upper end and the lower end of the support frame are both horizontally provided with heat dissipation assemblies, one side of the support frame is provided with a temperature sensor, the bottom of the temperature sensor is provided with a processor, the temperature sensor is connected with a plurality of probes through leads, the probes are inserted on the vertical end surface of the support frame in a penetrating manner, the input end of the processor is electrically connected with the temperature sensor, and the temperature sensor and the processor are electrically connected with the output end of the power supply. The utility model can detect the heat of the power supply, carry out rapid processing, accelerate the heat loss of the power supply and improve the safety.

Description

Power supply temperature monitoring inductor for wind power generation

Technical Field

The utility model relates to the technical field of power supply temperature monitoring, in particular to a power supply temperature monitoring sensor for wind power generation.

Background

Wind power generation is that the kinetic energy of wind is turned into the electric energy, and wind energy is as a clean renewable energy, receives more and more the attention of all countries in the world, and when the kinetic energy that the fan rotation produced was changed into the electric energy, the electric energy was stored in transmitting the power, and the battery can generate heat when the storage electric energy, produces the potential safety hazard easily when the power was overheated, but the power that current wind power generation used lacks special monitoring device, and then leads to the later stage to use and has the potential safety hazard.

Therefore, a power supply temperature monitoring sensor for wind power generation is needed, which can detect the heat of a power supply, perform rapid processing, accelerate the heat loss of the power supply and improve the safety.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a power supply temperature monitoring sensor for wind power generation, aiming at solving the problem that the existing power supply used by wind power generation lacks a special monitoring device, so that potential safety hazards exist in later use.

The utility model is realized by the following steps:

the utility model provides a power temperature monitoring inductor for wind power generation, which comprises a power supply, still including the supporting component who is used for supporting the power, the supporting component is including a frame, the inside of a frame is provided with the power, the equal level in upper and lower both ends of a frame is provided with radiator unit, a temperature sensor is installed to one side of a frame, the treater is installed to temperature sensor's bottom, temperature sensor is last to be connected with a plurality of probes through the wire, a plurality of probes run through to peg graft on a vertical terminal surface of frame, the input and the temperature sensor electricity of treater are connected, temperature sensor and treater are connected with the output electricity of power.

Furthermore, the radiating assembly comprises a fan plate, the fan plate is horizontally fixed on the support frame, and a plurality of radiating fans penetrate through and are fixed on the fan plate.

And then fix on a frame through the fan board level, run through on the fan board and be fixed with a plurality of heat dissipation fans, heat dissipation fan work accelerates the air flow rate on power surface for the heat dissipation.

Furthermore, a plurality of heat dissipation fans are electrically connected with the power supply through wires, and electromagnetic switches are connected in series on the wires of the heat dissipation fans and the power supply.

And then pass through the wire electricity through a plurality of heat dissipation fans and be connected with the power through the wire, establish ties on the wire of a plurality of heat dissipation fans and power and have electromagnetic switch, form closed circuit, the later stage control of being convenient for and the break-make of power to whether control heat dissipation fan is worked.

Furthermore, inserting columns are vertically fixed on two sides of the upper end face and the lower end face of the supporting frame, and inserting cylinders are slidably sleeved on the inserting columns.

And then the both sides through the upper and lower both ends face of a frame are all vertically fixed with and insert the post, insert the post and go up the slip cover and be equipped with and insert a section of thick bamboo to do benefit to the later stage and hang the power and establish, make the outside of power all with the air contact, improve the radiating efficiency.

Furthermore, the inserting column is sleeved with a supporting spring, two ends of the supporting spring are respectively fixedly connected with the bottom end of the inserting cylinder and the supporting frame, and the top end of the inserting cylinder is horizontally fixed with a fixed pore plate.

And then through inserting the cover on the post and being equipped with supporting spring, supporting spring's both ends respectively with the bottom of inserting a section of thick bamboo and a frame fixed connection, the top level of inserting a section of thick bamboo is fixed with fixed orifice plate to the support is convenient for later stage absorption vibrations, improves and hangs the stability of establishing.

Furthermore, the output end of the processor is electrically connected with the electromagnetic switch, and the power supply is sleeved with a rubber sleeve.

And then the output through the treater is connected with the electromagnetic switch electricity to control electromagnetic switch's the state that opens and shuts, thereby whether control radiator unit works, the cover is equipped with the rubber sleeve on the power, and then reduces the friction between power and the frame, improves the life of power.

Compared with the prior art, the utility model has the beneficial effects that: when the power supply temperature monitoring sensor for wind power generation is used, a plurality of probes on the temperature sensor penetrate through the support frame, the probes monitor the heat of the power supply, the monitored data are transmitted to the processor, the processor is provided with a temperature value, if the monitored power supply temperature is higher than the value of the processor, the processor transmits signals to close the electromagnetic switch on the heat dissipation component, so that the heat dissipation fan on the fan plate is communicated with the power supply, the rotation is started to accelerate the air flow rate on the surface of the power supply and accelerate the heat dissipation, if the monitored data are transmitted to the processor, the processor is provided with the temperature value, if the monitored power supply temperature is lower than the value of the processor, the heat dissipation fan on the fan plate is not started, so that the heat of the power supply can be detected, the rapid processing is carried out, the heat of the power supply is accelerated, the safety is improved, and the power supply used by the existing wind power generation is overcome, lack special monitoring devices, and then lead to the later stage to have the problem of potential safety hazard in using.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

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

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

FIG. 3 is a schematic structural view of a support assembly in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a heat dissipation assembly in an embodiment of the utility model.

In the figure: 1. a power source; 11. a rubber sleeve; 2. a support assembly; 21. supporting a frame; 22. a temperature sensor; 221. a probe; 23. a processor; 24. inserting a column; 25. inserting a cylinder; 26. a support spring; 27. fixing the orifice plate; 3. a heat dissipating component; 31. a fan plate; 32. a heat dissipation fan; 33. an electromagnetic switch; 34. a support plate; 341. a screw hole; 35. a purification cartridge; 351. a threaded barrel; 36. filtering cotton; 37. a heat conductive sheet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, 2, 3 and 4, a power supply temperature monitoring sensor for wind power generation includes a power supply 1 and a support assembly 2 for supporting the power supply 1, the support assembly 2 includes a support frame 21, the power supply 1 is disposed inside the support frame 21, heat dissipation assemblies 3 are horizontally disposed at upper and lower ends of the support frame 21, a temperature sensor 22 is mounted at one side of the support frame 21, the temperature sensor 22 is of a PTC110-02D512, a processor 23 is mounted at the bottom of the temperature sensor 22, the processor is of an AMD series, the AMD series is of a6-7310, the temperature sensor 22 is connected with a plurality of probes 221 through wires, the plurality of probes 221 are inserted into a vertical end face of the support frame 21, an input end of the processor 23 is electrically connected with the temperature sensor 22, and the processor 23 are electrically connected with an output end of the power supply 1.

When the power supply temperature monitoring sensor for wind power generation is used, the plurality of probes 221 on the temperature sensor 22 penetrate through the support frame 21, the probes 221 monitor the heat quantity of the power supply 1, the monitored data are transmitted to the processor 23, the processor 23 is provided with a temperature value, if the temperature of the power supply 1 is higher than the value of the processor 23, the processor 23 transmits a signal to close the electromagnetic switch 33 on the heat dissipation component 3, the heat dissipation fan 32 on the fan plate 31 is connected with the power supply, so that the rotation is started to accelerate the air flow rate on the surface of the power supply 1, the heat dissipation is accelerated, if the monitored data are transmitted to the processor 23, the processor 23 is provided with a temperature value, if the temperature of the power supply 1 is lower than the value of the processor 23, the heat dissipation fan 32 on the fan plate 31 is not started, so that the heat quantity of the power supply can be detected, the rapid processing is carried out, and the heat dissipation of the power supply is accelerated, the safety is improved.

Referring to fig. 4, the heat dissipation assembly 3 includes a fan plate 31, the fan plate 31 is horizontally fixed on the support frame 21, and a plurality of heat dissipation fans 32 are fixed on the fan plate 31. And then be close to being fixed with a branch on the horizontal terminal surface of a frame 21 through fan plate 31, the branch is fixed on a frame 21, forms the clearance with dispersion board 31 and a frame 21, and the circulation of air of being convenient for improves the cooling effect, and the level is fixed on a frame 21, runs through on fan plate 31 and is fixed with a plurality of heat dissipation fans 32, and the air flow rate on heat dissipation fan 32 work quickening power 1 surface for the heat dissipation. The plurality of heat dissipation fans 32 are electrically connected with the power supply 1 through wires, and electromagnetic switches 33 are connected in series on the wires of the plurality of heat dissipation fans 32 and the power supply 1, wherein the specific model of the electromagnetic switches is DSPG-01-C-D12-20. And then establish ties on the intercommunication wire of power 1 through a plurality of heat dissipation fans 32, connect through the wire electricity, establish ties on the wire of a plurality of heat dissipation fan 32 power 1 and have electromagnetic switch 33, whether electromagnetic switch 33's opening and shutting control power 1, wire and heat dissipation fan 32 form closed loop, the later stage control of being convenient for and power 1's break-make to whether work of control heat dissipation fan 32.

Referring to fig. 4, a support plate 34 is fixed on a horizontal plane close to the air inlet end of the heat dissipating fan 32 on the fan plate 31, a plurality of screw holes 341 corresponding to the heat dissipating fan 32 one by one are formed on the support plate 34, a purifying cylinder 35 for purifying air is vertically arranged on a horizontal end surface of the support plate 34, a threaded cylinder 351 is vertically connected to an end portion of the purifying cylinder 35 close to the support plate 34 in a penetrating manner, the threaded cylinder 351 is installed in the screw holes 341 in a threaded manner, so that external air is guided into the heat dissipating fan 32 through the purifying cylinder 35, and a purifying filter element convenient for cleaning and replacing the purifying cylinder 35 is conveniently dismounted in a later stage, a plurality of heat conducting fins 37 are vertically arranged on one side of the purifying cylinder 35 close to the support plate 34 along the outer circumferential direction, the heat conducting fins 37 are made of a metal material with good heat conducting material such as a copper sheet, one end of the heat conducting fins 37 horizontally penetrates through the purifying cylinder 35 and extends to the outside, and the heat conducting fins 37 are in contact with air entering the purifying cylinder 35, heat in the air spreads out through conducting strip 37, conducting strip 37 and outside air contact are carried away the heat by air flow, thereby cooled off the air, air contact power 1 after the cooling, improve later stage cooling effect, the upper portion packing of purifying cylinder 35 has filter pulp 35, filter pulp 35 is arranged in carrying out filtration treatment to the dust in the air, and then air-purifying, avoid the dust adhesion at power 1 on the surface, make power 1 and outside air area of contact reduce, cause the heat dissipation of power 1 shell comparatively slow.

Referring to fig. 3, two sides of the upper and lower end surfaces of the supporting frame 21 are vertically fixed with inserting posts 24, and inserting cylinders 25 are slidably sleeved on the inserting posts 24. And then all vertically be fixed with through the both sides of the upper and lower both ends face of frame 21 and insert post 24, insert the slip cap on post 24 and be equipped with and insert a section of thick bamboo 25 to do benefit to the later stage and hang power 1 and establish, make the outside of power 1 all with the air contact, improve the radiating efficiency. The inserting column 24 is sleeved with a supporting spring 26, two ends of the supporting spring 26 are respectively fixedly connected with the bottom end of the inserting cylinder 25 and the supporting frame 21, and the top end of the inserting cylinder 25 is horizontally fixed with a fixed orifice plate 27. And then through inserting the cover on the post 24 and being equipped with supporting spring 26, supporting spring 26's both ends respectively with the bottom of inserting a section of thick bamboo 25 and a frame 21 fixed connection, the top level of inserting a section of thick bamboo 25 is fixed with fixed orifice plate 27 to the support is convenient for later stage absorption vibrations, improves and hangs the stability of establishing.

Referring to fig. 1, the output end of the processor 23 is electrically connected to the electromagnetic switch 33, and the power supply 1 is sleeved with the rubber sleeve 11. And then the output through treater 23 is connected with electromagnetic switch 33 electricity to control electromagnetic switch 33's the state that opens and shuts, thereby whether control radiator unit 3 worked, the cover is equipped with rubber sleeve 11 on the power 1, and then reduces the friction between power 1 and the frame 21, improves power 1's life.

The working principle is as follows: when the power supply temperature monitoring sensor for wind power generation is used, the plurality of probes 221 on the temperature sensor 22 penetrate through the insertion support frame 21, the probes 221 monitor the heat quantity of the power supply 1, the monitored data are transmitted to the processor 23, the processor 23 is provided with a temperature value, if the temperature of the power supply 1 is higher than the value of the processor 23, the processor 23 transmits a signal to close the electromagnetic switch 33 on the heat dissipation component 3, the heat dissipation fan 32 on the fan plate 31 is connected with the power supply, so that the rotation is started to accelerate the air flow rate on the surface of the power supply 1, the heat dissipation is accelerated, if the monitored data are transmitted to the processor 23, the processor 23 is provided with a temperature value, and if the temperature of the power supply 1 is lower than the value of the processor 23, the heat dissipation fan 32 on the fan plate 31 is not started.

The device obtained through the design can basically meet the requirements of a power supply temperature monitoring sensor for wind power generation, which can detect the heat of a power supply, carry out rapid processing, accelerate the heat loss of the power supply and improve the safety.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a power supply temperature monitoring inductor for wind power generation, includes power (1), its characterized in that: the temperature sensor is characterized by further comprising a supporting component (2) used for supporting the power source (1), the supporting component (2) comprises a supporting frame (21), the power source (1) is arranged inside the supporting frame (21), the heat dissipation components (3) are horizontally arranged at the upper end and the lower end of the supporting frame (21), a temperature sensor (22) is installed on one side of the supporting frame (21), a processor (23) is installed at the bottom of the temperature sensor (22), the temperature sensor (22) is connected with a plurality of probes (221) through wires, the probes (221) are connected with the vertical end face of the supporting frame (21) in a penetrating and inserting mode, the input end of the processor (23) is electrically connected with the temperature sensor (22), and the temperature sensor (22) and the processor (23) are electrically connected with the output end of the power source (1).

2. The power supply temperature monitoring sensor for wind power generation according to claim 1, wherein the heat dissipation assembly (3) comprises a fan plate (31), the fan plate (31) is horizontally fixed on the support frame (21), and a plurality of heat dissipation fans (32) are fixed on the fan plate (31) in a penetrating manner.

3. The power supply temperature monitoring sensor for wind power generation according to claim 2, wherein the plurality of heat dissipation fans (32) are electrically connected with the power supply (1) through wires, and electromagnetic switches (33) are connected in series on the wires of the plurality of heat dissipation fans (32) and the power supply (1).

4. The power supply temperature monitoring sensor for wind power generation according to claim 1, wherein the support frame (21) is vertically fixed with inserting columns (24) at two sides of the upper and lower end surfaces thereof, and the inserting columns (24) are slidably sleeved with inserting cylinders (25).

5. The power supply temperature monitoring sensor for wind power generation according to claim 4, wherein the insert column (24) is sleeved with a support spring (26), two ends of the support spring (26) are respectively fixedly connected with the bottom end of the insert cylinder (25) and the support frame (21), and the top end of the insert cylinder (25) is horizontally fixed with a fixed orifice plate (27).

6. The power supply temperature monitoring sensor for wind power generation according to claim 3, wherein the output end of the processor (23) is electrically connected with the electromagnetic switch (33), and the power supply (1) is sleeved with a rubber sleeve (11).

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