CN104319069A - Temperature control device of transformer - Google Patents

Abstract

The invention discloses a temperature control device for a transformer, which comprises: a cooling plate is provided on the upper and lower end surfaces of the transformer; a fan is provided on both sides of the transformer; The top of the shape cover is connected to one end of the main pipe, and the other end of the main pipe communicates with the middle part of the branch pipe. The surface of the branch pipe is provided with N connection holes, and N exhaust pipes are connected between the two branch pipes. The two ends of the pipe are respectively communicated with the connection holes of the two branch pipes, M air outlets are arranged on the surface of the exhaust pipe, and the two fans are connected to the battery, and the battery is connected to the solar generator and the wind power. The generator is connected to realize the reasonable design of the transformer cooling device. The transformer cooling device is used to cool and dissipate the transformer. The heat dissipation and cooling effect is better, and the technical effect of ensuring the safety of the transformer is achieved.

Description

A transformer temperature control device

the

technical field

The invention relates to the field of power distribution equipment research, in particular to a transformer temperature control device.

Background technique

Transformers use the principle of mutual inductance. Transformer is a device that uses the principle of electromagnetic induction to change AC voltage. The main components are primary coil, secondary coil and iron core (magnetic core). The main functions are: voltage conversion, current conversion, impedance conversion, isolation, voltage stabilization (magnetic saturation transformer), etc. According to the purpose, it can be divided into: distribution transformers, power transformers, fully sealed transformers, combined transformers, dry-type transformers, oil-immersed transformers, single-phase transformers, electric furnace transformers, rectifier transformers, etc.

Transformers In electrical equipment and wireless circuits, transformers are often used for step-down voltage, matching impedance, safety isolation, etc. Therefore, the transformer is very important to the power system. Since the transformer generates a large amount of heat during operation, it is easy to cause the transformer to overheat, which in turn leads to damage to the transformer, resulting in economic losses and safety accidents.

To sum up, in the process of realizing the technical solution of the invention in the embodiment of the present application, the inventor of the present application found that the above-mentioned technology has at least the following technical problems:

In the prior art, since the transformer generates a large amount of heat energy during operation, it is easy to cause overheating of the transformer, thereby causing damage to the transformer, resulting in economic losses and safety accidents. Therefore, the transformer in the prior art has unreasonable structural design and poor heat dissipation Poor, easy to cause transformer damage, technical problems resulting in economic losses and safety accidents.

Contents of the invention

The invention provides a transformer temperature control device, which solves the technical problems of unreasonable structural design of the transformer in the prior art, poor heat dissipation effect, easy damage to the transformer, economic loss and safety accidents, and realizes the transformer cooling device The design is reasonable, and the transformer cooling device is used to cool down and dissipate the temperature of the transformer, and the heat dissipation and cooling effect is good, which ensures the safety of the transformer.

In order to solve the above technical problems, an embodiment of the present application provides a transformer temperature control device, which includes:

The upper and lower ends of the transformer are each provided with a cooling plate, the cooling water is installed in the cooling plate, a fan is provided on the left and right sides of the transformer in the horizontal direction, the fan casing is connected with the bottom end of the cone cover, and the cone The top of the shaped cover is connected to one end of the main pipe, and the other end of the main pipe communicates with the middle part of the branch pipe. The two ends of the branch pipe are sealed, and the surface of the branch pipe is provided with N connection holes. an exhaust pipe, the two ends of the exhaust pipe communicate with the connecting holes of the two branch pipes respectively, the surface of the exhaust pipe is provided with M air outlets, and the N and M are greater than or equal to 1 is a positive integer, the N exhaust pipes are evenly distributed around the transformer, the two fans are connected to a storage battery, and the storage battery is connected to a solar generator and a wind power generator.

Wherein, a support is provided on the left and right sides of the transformer in the horizontal direction, and a slide groove is provided on the support, and the cooling plate is slidably connected to the support through pulleys.

Wherein, the N connection holes are evenly distributed on the surface of the branch pipe, and the M air outlets are evenly distributed on the surface of the exhaust pipe.

Wherein, the connection between the fan casing and the conical cover, the connection between the conical cover and the main pipe, the connection between the main pipe and the branch pipe, and the connection between the branch pipe and the exhaust pipe are all With sealing ring.

Wherein, the diameter of the main pipe is larger than the diameter of the branch pipe, the diameter of the branch pipe is larger than the diameter of the exhaust pipe, and the exhaust pipe is specifically a hose.

One or more technical solutions provided in the embodiments of this application have at least the following technical effects or advantages:

Due to the adoption of the design of the transformer temperature control device to include: the upper and lower ends of the transformer are respectively provided with a cooling plate, the cooling water is installed in the cooling plate, a fan is provided on the left and right sides of the transformer in the horizontal direction, and the fan casing It is connected to the bottom end of the conical cover, the top of the conical cover is connected to one end of the main pipe, the other end of the main pipe is connected to the middle part of the branch pipe, the two ends of the branch pipe are sealed, and the surface of the branch pipe is provided with N connections There are N exhaust pipes connected between the two branch pipes, and the two ends of the exhaust pipe are respectively connected with the connection holes of the two branch pipes. The N and M are positive integers greater than or equal to 1, the N exhaust pipes are evenly distributed around the transformer, the two fans are connected to the battery, and the battery is connected to the solar generator and the wind power The technical solution for generator connection is to use the transformer cooling device to assist cooling and heat dissipation of the transformer, use the cooling water in the cooling plate to exchange heat for the transformer, transfer the excess heat, and then cool the transformer, and use the fan to generate heat. The flowing wind then passes through the main pipe, the branch pipe, and the exhaust pipe respectively, and finally blows the transformer through the exhaust port on the exhaust pipe to dissipate heat from the transformer. Since multiple exhaust pipes are evenly distributed around the transformer, and the exhaust pipe There are multiple air outlets on the top, so it can evenly dissipate heat on the surface of the transformer, ensure that all parts can dissipate heat, and the heat dissipation effect is good. The effect is poor, and it is easy to cause damage to the transformer, resulting in economic losses and safety accidents. The design of the transformer cooling device is reasonable, and the transformer cooling device is used to cool the transformer. The cooling effect is better, and the safety of the transformer is guaranteed. technical effect.

Description of drawings

Fig. 1 is a schematic structural diagram of a transformer temperature control device in Embodiment 1 of the present application;

Among them, 1-transformer, 2-cooling plate, 3-fan, 4-cone cover, 5-main pipe, 6-branch pipe, 7-exhaust pipe, 8-exhaust outlet, 9-battery, 10-solar generator , 11-wind generator, 12-support.

Detailed ways

The invention provides a transformer temperature control device, which solves the technical problems of unreasonable structural design of the transformer in the prior art, poor heat dissipation effect, easy damage to the transformer, economic loss and safety accidents, and realizes the transformer cooling device The design is reasonable, and the transformer cooling device is used to cool down and dissipate the temperature of the transformer, and the heat dissipation and cooling effect is good, which ensures the safety of the transformer.

The technical solution in the implementation of this application is to solve the above technical problems. The general idea is as follows:

The temperature control device of the transformer is designed to include: the upper and lower ends of the transformer are respectively provided with a cooling plate, the cooling water is installed in the cooling plate, and a fan is provided on the left and right sides of the transformer in the horizontal direction, and the casing of the fan is connected with the The bottom end of the conical cover is connected, the top of the conical cover is connected to one end of the main pipe, the other end of the main pipe is connected to the middle part of the branch pipe, the two ends of the branch pipe are sealed, and N connection holes are provided on the surface of the branch pipe , there are N exhaust pipes connected between the two branch pipes, the two ends of the exhaust pipe are respectively connected with the connecting holes of the two branch pipes, and the surface of the exhaust pipe is provided with M air outlets , the N and M are both positive integers greater than or equal to 1, the N exhaust pipes are evenly distributed around the transformer, the two fans are connected to the storage battery, and the storage battery is connected to the solar generator and the wind power generator. The technical solution for electrical connection is to use the transformer cooling device to assist cooling and heat dissipation of the transformer, use the cooling water in the cooling plate to exchange heat for the transformer, transfer the excess heat, and then cool the transformer, and use the fan to generate flow Then the wind passes through the main pipe, the branch pipe, and the exhaust pipe respectively, and finally blows the transformer through the exhaust port on the exhaust pipe to dissipate heat from the transformer. Since multiple exhaust pipes are evenly distributed around the transformer, and the exhaust pipe There are multiple air outlets, so that the surface of the transformer can be evenly dissipated, ensuring that all parts can dissipate heat, and the heat dissipation effect is good. Therefore, it effectively solves the unreasonable structural design of the transformer in the prior art and the heat dissipation effect. Poor, easy to cause damage to the transformer, resulting in economic losses and safety accidents technical problems, and then realized the design of the transformer cooling device is reasonable, using the transformer cooling device to cool down the transformer, the effect of heat dissipation is better, and the technology of ensuring the safety of the transformer Effect.

In order to better understand the above-mentioned technical solution, the above-mentioned technical solution will be described in detail below in conjunction with the accompanying drawings and specific implementation methods.

Embodiment one:

In Embodiment 1, a transformer temperature control device is provided, please refer to Figure 1, the device includes:

The upper and lower end faces of the transformer 1 are respectively provided with a cooling plate 2, and cooling water is housed in the cooling plate 2, and a fan 3 is provided on the left and right sides of the horizontal direction of the transformer 1, and the casing of the fan 3 and the conical cover 4 The bottom end is connected, the top of the conical cover 4 is connected to one end of the main pipe 5, the other end of the main pipe 5 communicates with the middle part of the branch pipe 6, the two ends of the branch pipe 6 are sealed, and the surface of the branch pipe 6 is provided with N Connecting holes, N exhaust pipes 7 are communicated between the two branch pipes 6, the two ends of the exhaust pipe 7 are respectively connected to the connecting holes of the two branch pipes 6, and the surface of the exhaust pipe 7 is There are M exhaust outlets 8, the N and M are positive integers greater than or equal to 1, the N exhaust pipes 7 are evenly distributed around the transformer 1, and the two fans 3 are connected to the battery 9 connected, the storage battery 9 is connected with the solar power generator 10 and the wind power generator 11.

Among them, in practical applications, the cooling water in the cooling plate can be used to exchange heat for the transformer, which is convenient for cooling and heat dissipation of the transformer. In practical applications, the shape of the cooling plate can be consistent with the shape of the upper and lower surfaces of the transformer, which is convenient for increasing the contact area. More effective cooling and heat dissipation.

Wherein, in the embodiment of the present application, a support 12 is provided on the left and right sides of the transformer in the horizontal direction, and a sliding groove is provided on the support 12, and the cooling plate 2 is slidingly connected to the support 12 through pulleys.

Among them, in practical applications, the cooling plate is designed to be slidingly connected with the bracket, so that the distance between the two cooling plates can be adjusted, and it can be adjusted when cooling different transformers, which is convenient for use.

Wherein, in the embodiment of the present application, the N connection holes are evenly distributed on the surface of the branch pipe, and the M air outlets are evenly distributed on the surface of the exhaust pipe.

Among them, in practical applications, there are multiple connection holes, and the positions of the connection holes are different, which can ensure that the number of connected exhaust pipes is large and the positions are uniform, so as to achieve uniform distribution around the transformer, and the surface of the exhaust pipes is evenly designed. There are multiple exhaust holes, which can evenly dissipate heat to each position of the transformer, and the heat dissipation effect is better.

Wherein, in the embodiment of the present application, the connection between the fan casing and the conical cover, the connection between the conical cover and the main pipe, the connection between the main pipe and the branch pipe, and the connection between the branch pipe and the Sealing rings are provided at the joints of the exhaust pipes.

Among them, in practical applications, setting the sealing ring can reduce air leakage, ensure the effect of air supply, and then ensure the effect of heat dissipation.

Wherein, in the embodiment of the present application, the diameter of the main pipe is larger than the diameter of the branch pipe, the diameter of the branch pipe is larger than the diameter of the exhaust pipe, and the exhaust pipe is specifically a hose.

Among them, in practical applications, solar generators and wind power generators are used to generate electricity to charge the battery, the battery supplies power to the fan, the fan rotates and blows air, and the conical cover is used to collect and send the wind, which is transmitted from the main pipe to the support, and then It is transmitted from the branch pipe to the exhaust pipe, and finally blows from the exhaust port of the exhaust pipe to the transformer for heat dissipation.

The above-mentioned technical solutions in the embodiments of the present application have at least the following technical effects or advantages:

Due to the adoption of the design of the transformer temperature control device to include: the upper and lower ends of the transformer are respectively provided with a cooling plate, the cooling water is installed in the cooling plate, a fan is provided on the left and right sides of the transformer in the horizontal direction, and the fan casing It is connected to the bottom end of the conical cover, the top of the conical cover is connected to one end of the main pipe, the other end of the main pipe is connected to the middle part of the branch pipe, the two ends of the branch pipe are sealed, and the surface of the branch pipe is provided with N connections There are N exhaust pipes connected between the two branch pipes, and the two ends of the exhaust pipe are respectively connected with the connection holes of the two branch pipes. The N and M are positive integers greater than or equal to 1, the N exhaust pipes are evenly distributed around the transformer, the two fans are connected to the battery, and the battery is connected to the solar generator and the wind power The technical solution for generator connection is to use the transformer cooling device to assist cooling and heat dissipation of the transformer, use the cooling water in the cooling plate to exchange heat for the transformer, transfer the excess heat, and then cool the transformer, and use the fan to generate heat. The flowing wind then passes through the main pipe, the branch pipe, and the exhaust pipe respectively, and finally blows the transformer through the exhaust port on the exhaust pipe to dissipate heat from the transformer. Since multiple exhaust pipes are evenly distributed around the transformer, and the exhaust pipe There are multiple air outlets on the top, so it can evenly dissipate heat on the surface of the transformer, ensure that all parts can dissipate heat, and the heat dissipation effect is good. The effect is poor, and it is easy to cause damage to the transformer, resulting in economic losses and safety accidents. The design of the transformer cooling device is reasonable, and the transformer cooling device is used to cool the transformer. The cooling effect is better, and the safety of the transformer is guaranteed. technical effect.

While preferred embodiments of the invention have been described, additional changes and modifications to these embodiments can be made by those skilled in the art once the basic inventive concept is appreciated. Therefore, it is intended that the appended claims be construed to cover the preferred embodiment as well as all changes and modifications which fall within the scope of the invention.

Obviously, those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if these modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalent technologies, the present invention also intends to include these modifications and variations.

Claims (5)

1. A transformer temperature control device, characterized in that said device comprises: The upper and lower ends of the transformer are each provided with a cooling plate, the cooling water is installed in the cooling plate, a fan is provided on the left and right sides of the transformer in the horizontal direction, the fan casing is connected with the bottom end of the cone cover, and the cone The top of the shaped cover is connected to one end of the main pipe, and the other end of the main pipe communicates with the middle part of the branch pipe. The two ends of the branch pipe are sealed, and the surface of the branch pipe is provided with N connection holes. an exhaust pipe, the two ends of the exhaust pipe communicate with the connecting holes of the two branch pipes respectively, the surface of the exhaust pipe is provided with M air outlets, and the N and M are greater than or equal to 1 is a positive integer, the N exhaust pipes are evenly distributed around the transformer, the two fans are connected to a storage battery, and the storage battery is connected to a solar generator and a wind power generator. 2 . The device according to claim 1 , wherein a support is provided on the left and right sides of the transformer in the horizontal direction, and a slide groove is provided on the support, and the cooling plate is slidably connected to the support through pulleys. 3 . 3. The device according to claim 1, wherein the N connecting holes are evenly distributed on the surface of the branch pipe, and the M air outlets are evenly distributed on the surface of the exhaust pipe. 4. The device according to claim 1, characterized in that, the connection between the fan casing and the conical cover, the connection between the conical cover and the main pipe, and the connection between the main pipe and the branch pipe , The connection between the branch pipe and the exhaust pipe is provided with a sealing ring. 5. The device according to claim 1, wherein the diameter of the main pipe is larger than that of the branch pipe, the diameter of the branch pipe is larger than the diameter of the exhaust pipe, and the exhaust pipe is specifically a hose.