CN204229982U - A kind of air-cooled transformer cooling system of forced oil-circulation energy-saving and low noise - Google Patents

Abstract

An energy-saving and low-noise air-cooled transformer cooling system with forced oil circulation, including a cooling frame, a heat dissipation pipe fixedly connected to the cooling frame, and an air guide tube. A fan motor and a water spray cooling device are installed in the frame. A control circuit module is arranged in the sub-control box, and the control circuit module is respectively connected to the first temperature sensor installed on the oil outlet pipe and the second temperature sensor installed on the oil inlet pipe, and the control circuit module is connected to the fan motor and the water spray cooling device. The utility model is an energy-saving and low-noise air-cooled transformer cooling system with forced oil circulation. It adopts new heat dissipation functional parts and heat dissipation methods, and adopts small volume, light weight and strong versatility under the condition that the heat exchange capacity is not reduced. Silent fan arrays and dust-proof and sound-absorbing nets achieve the purpose of noise reduction and energy saving; the functional components are small in size and light in weight to facilitate factory maintenance; adding water spray and evaporative auxiliary cooling to achieve heat dissipation.

Description

A forced oil circulation energy-saving and low-noise air-cooled transformer cooling system

technical field

The utility model relates to a forced oil circulation energy-saving and low-noise air-cooled transformer cooling system, which relates to the field of transformer cooling in power systems.

Background technique

The cooling methods using transformer oil as the cooling medium are: oil-immersed self-cooling, oil-immersed air cooling, forced oil circulation air cooling, forced oil circulation water cooling. Due to the limitations of manufacturing and design technical capabilities, the early transformers mainly used oil-immersed self-cooling and oil-immersed air cooling as cooling methods, which were only suitable for small-capacity transformers. In the 1980s, as the manufacturing capacity of transformers increased, their calorific value also increased, and the matching methods of forced oil circulation air cooling and forced oil circulation water cooling were applied to transformers.

In the existing technology, many old-fashioned cooling systems of main transformers above 220KV generally adopt YF-80, YF-100, and YF-120 cooling systems, which belong to the multi-circuit cooling pipe structure system, and there are many auxiliary power consumption and maintenance work. The volume is large, and the air cooling system is noisy. With the requirements of energy conservation, environmental protection and condition-based maintenance, a new type of energy-saving and consumption-reducing technology to solve the above problems is urgently needed.

At present, the cooling methods of oil-filled transformers at home and abroad are divided into natural circulation and forced circulation. They rely on convection and radiation to dissipate heat. The cooling method adopted by the transformer is related to its voltage level and capacity. There are:

A. Oil-immersed self-cooling (ONAN): suitable for products of 31500kVA and below, 35kV and below; 50000kVA and below, 110kV products.

B. Oil-immersed air cooling (ONAF): suitable for 12500kVA～63000kVA, 35kV～110kV products; below 75000kVA, 110kV products; 40000kVA and below, 220kV products.

C. Forced oil circulation cooling (forced oil circulation air cooling or water cooling): suitable for 75000kVA and above, 110kV products; 120000kVA and above, 220kV products; 330kV and 500kV products.

Development trend: With the improvement of design and manufacturing technology, high-voltage (110kV and above) and large-capacity transformers adopt oil-immersed self-cooling or air-cooling. This method has low noise and low energy consumption, but the volume increases and leakage Leaks increase.

Research on cooling methods of oil-filled transformers by foreign research institutions: Generally, different cooling technologies are adopted according to the manufacturing capacity, voltage level, and use environment of the transformer. Small-capacity, low-voltage distribution transformers adopt dry-type or oil-immersed self-cooling; large-capacity, high-voltage transformers adopt oil-immersed air cooling, forced oil circulation cooling (forced oil circulation air cooling or water cooling) as required.

With the application of new materials and new processes, the design and manufacturing technology has been improved, and large-capacity, high-voltage transformers are gradually adopting oil-immersed self-cooling and oil-immersed air-cooling technologies. In China, some transformer manufacturers try to transform the strong air-cooled cooling system. For example, in the transformation of 220kV transformers, due to the relatively large margins of the old-fashioned transformer's oil tank and body edge structure, it is beneficial to transform the forced oil circulation cooling system into a sheet cooling air cooling system. In the transformation of the 110kV transformer, the old-fashioned transformer with fan flat tube cooling system was transformed into a sheet-type natural cooling system. Disadvantages and deficiencies of the above transformation: 1. The transformation workload is large and the direct cost is high; 2. The transformation requires a long time of power outage; 3. Due to the increase of the surface area of the heat sink, the leakage points increase.

There are a total of 255 forced oil circulation air-cooled main transformers in the system of a provincial electric power company. Among the 18 220KV main transformers in a city’s first-level power supply company, 10 are forced oil circulation air-cooled main transformers, all of which are early design products. Due to the use of The cycle life has not yet come, and it has been put into use. The cooling system has high noise, high energy consumption, high failure rate, and difficult maintenance, which does not meet the development direction of the State Grid Corporation of "energy saving, environmental protection, factory maintenance".

Contents of the invention

The utility model provides a forced oil circulation energy-saving and low-noise air-cooled transformer cooling system, which adopts new heat dissipation functional parts and heat dissipation methods, and adopts a new control circuit. Light weight, low power, versatile mute fan array and noise reduction net to achieve the purpose of noise reduction and energy saving; functional components are small in size and light in weight to facilitate factory maintenance; adding water spray and evaporative auxiliary cooling to achieve heat dissipation.

The technical scheme that the utility model takes is:

An energy-saving and low-noise air-cooled transformer cooling system with forced oil circulation, including a cooling frame, a heat dissipation pipe fixedly connected to the cooling frame, and an air guide tube. A fan motor and a water spray cooling device are installed in the frame. A control circuit module is arranged in the sub-control box, and the control circuit module is respectively connected to the first temperature sensor installed on the oil outlet pipe and the second temperature sensor installed on the oil inlet pipe, and the control circuit module is connected to the fan motor and the water spray cooling device.

The oil inlet pipe is provided with a submersible oil pump, and the oil inlet pipe is connected to the transformer body through a heat dissipation pipe and an oil outlet pipe to form a closed series oil circuit.

The water spray cooling device includes a water tank connected to a water supply pipe, the water tank connected to a water pipe through a water pump, and a nozzle is arranged on the water pipe.

The fan motor is installed on the cooling frame through a metal bracket.

There are multiple fan motors, forming a silent fan array.

The heat dissipation pipe is a multi-circuit tubular heat dissipation pipe.

A forced oil circulation energy-saving and low-noise air-cooled transformer cooling method, through the temperature sensor, detects the temperature difference between the oil inlet pipe and the oil outlet pipe, and controls the fixed fan motor to blow air to the heat dissipation pipe through the control circuit module installed in the sub-control box. Convection heat dissipation, and at the same time control the water pump to spray water to the heat dissipation pipe for evaporative heat dissipation.

The utility model is an air-cooled transformer cooling system with forced oil circulation, energy saving and low noise, and the technical effects are as follows:

1) No need for transformer power failure, safe and reliable, small modification workload, no modification of the metal structure of the forced oil circulation cooler.

2) When the heat dissipation remains basically unchanged, the original heavy motor and fan are replaced with small, light and silent fan motors, which is conducive to noise reduction and maintenance.

3) Dust-proof and noise-proof: install a noise-proof and dust-proof filter on the inlet seal of the air guide tube to prevent dust and insects from adhering to the insulation layer formed on the surface of the heat dissipation pipe and improve the heat dissipation effect.

4) Auxiliary cooling medium: Spray water to the heat dissipation pipe through the water spray cooling device, cool down through evaporation, and improve heat exchange capacity.

5) When the heat dissipation effect is not lower than that of the original cooling system, a silent fan motor with low power, low speed, and small volume and weight is selected to reduce wind noise and mechanical noise, so as to achieve comprehensive energy saving and noise reduction effects.

Description of drawings

Fig. 1 is a schematic diagram of the main view structure of the utility model;

Fig. 2 is the utility model side view structure diagram;

Fig. 3 is a schematic structural diagram of the control circuit module of the present invention.

detailed description

As shown in Figure 1 and Figure 2, a forced oil circulation energy-saving and low-noise air-cooled transformer cooling system includes a cooling frame 1, and a heat dissipation pipe 2 and an air guide tube 3 fixedly connected to the cooling frame 1. A dust-proof and sound-absorbing net 4 is installed at the air inlet of the tube 3, and a fan motor 5 and a water spray cooling device are installed in the cooling frame 1. A control circuit module is arranged in the sub-control box 9, and the control circuit module is respectively connected with the first temperature sensor 10 installed on the oil outlet pipe 16 and the second temperature sensor 13 installed on the oil inlet pipe 17, and the control circuit module is connected with the fan motor 5 and the spray nozzle. Water cooling unit. The water spray cooling device includes a water tank 8 connected to a water supply pipe 15, the water tank 8 connected to a water pipe 12 through a water pump 7, and a plurality of nozzles 11 are arranged on the water pipe 12.

The oil inlet pipe 17 is provided with a submersible oil pump 14, and the cooling frame 1 is connected to the transformer body through the oil inlet pipe 17 and the oil outlet pipe 16 to form a closed series oil circuit. The submersible oil pump 14 extracts insulating oil with higher temperature from the transformer through the oil outlet pipe 16 , flows through the cooling pipe 2 , and flows back into the transformer through the oil outlet pipe 16 .

The fan motor 5 is installed on the cooling frame 1 through a metal bracket 6.

There are multiple fan motors 5, forming a silent fan array. Under the condition that the heat dissipation effect is not lower than that of the original cooling system, multiple fan motors 5 with low power, low speed, and small volume and weight are selected to reduce wind noise and mechanical noise, thereby achieving comprehensive energy saving and noise reduction effects.

The heat dissipation pipe 2 is a multi-circuit tubular heat dissipation pipe, and a metal spoiler wire is installed in the pipe to increase the contact between the insulating oil and the pipe wall; the outer wall of the heat dissipation pipe is equipped with metal fins to increase the heat dissipation area; multiple rows of heat dissipation pipes are arranged in parallel Connected, the bottom links to each other with the oil inlet pipe 17, and the top links to each other with the oil outlet pipe 16.

The control circuit module is connected to the fan motor 5, the water pump 7 and the submersible oil pump 14 of the water spray cooling device, and the control circuit module is connected to the power module.

Through the first temperature sensor 10 and the second temperature sensor 13, the temperature difference of the oil outlet pipe 16 and the oil inlet pipe 17 are sensed respectively, and the fan fixed on the metal bracket 6 in the cooling frame is controlled through the control circuit module provided in the sub-control box 9. The motor 5 blows air to carry out convection heat dissipation. At the same time, the water pump 7 is also controlled to spray water to the multi-circuit tubular heat dissipation pipes for evaporation and heat dissipation. Under the condition that the heat dissipation effect is not lower than that of the original cooling system, a plurality of fan motors 5 with low power, low speed, and small volume and weight are selected to form a silent fan array. The silent fan array is formed by a plurality of small silent fans, replacing the original A single motor with a large weight reduces the weight of inspection and maintenance, and at the same time reduces wind noise and mechanical noise, so as to achieve comprehensive energy saving and noise reduction effects and facilitate maintenance.

Claims (7)

1. An air-cooled transformer cooling system with forced oil circulation, energy saving and low noise, including a cooling frame (1), a heat dissipation pipe (2) and an air duct (3) fixedly connected to the cooling frame (1), its features That is, a dust-proof and sound-absorbing net (4) is installed at the air inlet of the air guide tube (3), and a fan motor (5) and a water spray cooling device are installed in the cooling frame (1); The control circuit module is connected to the first temperature sensor (10) installed on the oil outlet pipe (16) and the second temperature sensor (13) installed on the oil inlet pipe (17), respectively, and the control circuit module is connected to the fan motor ( 5) and water pump (7). 2. A forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 1, characterized in that, the oil inlet pipe (17) is provided with a submersible oil pump (14), and the heat dissipation pipe (2) passes through the inlet The oil pipe (17) and the oil outlet pipe (16) are connected to the transformer body to form a closed series oil circuit. 3. A forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 1, characterized in that the water spray cooling device includes a water tank (8), and the water tank (8) is connected to a water supply pipe (15), The water tank (8) is connected to the water pipe (12) through the water pump (7), and the water pipe (12) is provided with a nozzle (11). 4. The forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 1, characterized in that the fan motor (5) is mounted on the cooling frame (1) through a metal bracket (6). 5. The forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 1 or 4, characterized in that there are multiple fan motors (5) forming a silent fan array. 6. The forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 1, characterized in that the heat dissipation pipe (2) is a multi-circuit tubular heat dissipation pipe. 7. A forced oil circulation energy-saving and low-noise air-cooled transformer cooling system according to claim 2, characterized in that the heat dissipation pipe (2) is a multi-circuit tubular heat dissipation pipe, and a metal spoiler wire is installed in the pipe to dissipate heat. The outer wall of the tube is equipped with metal fins; multiple rows of cooling tubes (2) are connected side by side, the bottom is connected with the oil inlet pipe (17), and the upper part is connected with the oil outlet pipe (16).