JP6784884B1 - Auxiliary device that can automatically remove water when the transformer oil gets wet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an auxiliary device capable of dynamically removing water when a transformer oil becomes damp. SOLUTION: The auxiliary device includes a housing 11, a transformer space 57 is installed in the housing, a sealing layer 36 is fixedly installed on an inner wall of the transformer space, and a transformer is installed in the transformer space 57. There is oil, the standard oil layer 45 is the standard oil level, the first connecting rod 47 is connected by a hinge to the left wall of the transformer space 57, and the first connecting rod 47 is floating on the other side surface. The ball 46 is fixedly installed, the floating ball 46 is located above the standard oil-liquid layer 45, the power space 68 is installed on the upper left of the transformer space 57, and the motor 19 is installed on the left wall of the power space 68. Is fixedly installed. The motor 19 operates for a certain period of time, then reverses and returns to its original position, and a sensing mechanism 101 for controlling the forward and reverse rotation of the motor 19 by raising or lowering the floating ball 46 is installed in the power space 68. .. [Selection diagram] Fig. 1

Description

The present invention takes up the field of transformer technology, and specifically, is an auxiliary device capable of automatically removing water when the transformer oil gets wet.

As a core device of a power system, transformers are so important that they need to be heavily protected and maintained, but transformers have core technologies that have not yet been resolved and are prone to anomalous problems. It occurs, causing damage to transformers and increased maintenance costs. Wet transformer oil is a common problem and a common solution is to have a power outage to clean the oil, but this method causes a large power outage and many normal equipment It becomes difficult to operate and causes serious damage to the equipment. There is also a way to treat the oil without a power outage, but it is very costly and risky.

Chinese Patent Application Publication No. 107588844

An object of the present invention is to provide an auxiliary device capable of automatically removing water when the transformer oil gets wet, which can solve the problems in the current technology described above.

An auxiliary device that can automatically remove water when the transformer oil gets wet includes a housing, a transformer space is installed in the housing, and a sealing layer is fixedly installed on the inner wall of the transformer space. There is a transformer oil liquid in the transformer space, the standard oil liquid layer is a standard oil liquid level, and a first connecting rod is connected to the left wall of the transformer space by a hinge, and the first connecting rod A floating ball is fixedly installed on the other side surface, the floating ball is located above the standard oil-liquid layer, a power space is installed on the upper left of the transformer space, and the left side of the power space. A motor is fixedly installed on the wall, and after operating for a certain period of time, the motor reverses and returns to the original position, and the floating ball rises or falls in the power space to reverse the motor forward or backward. A sensing mechanism to control is installed, the forward / reverse rotation of the motor adjusts the standard oil-liquid layer to return to the normal state, and the oil guide space is installed above the transformer space so as to communicate with the oil guide space. The communication space is installed on the left side of the communication space so as to communicate with each other, and the piston is installed in the communication space so that the piston can slide, the piston can open and close the oil guide space, and the motor is in the communication space. A door opening mechanism that can control the left-right movement of the piston is installed by the operation of, an oil discharge space is installed under the transformer space, and a screw rod space is communicated on the left side of the oil discharge space. is installed so as to, the inside of the threaded rod space is established control mechanism, the control mechanism may seal or communicating the oil emissions space by the positive reversal of the motor, the lower side of the oil discharge space The oil storage space is installed so as to communicate with each other, a rectangular space is installed in the upper right of the oil storage space, a filtration mechanism is installed in the rectangular space, and the filtration mechanism is an oil liquid in the oil storage space. Can be vacuum filtered and poured into the transformer space.

A further technical plan, the sensing mechanism includes a rotating shaft installed on the rear wall of the power space so that it can rotate, a rotating disk is fixedly installed on the outer periphery of the rotating shaft, and a rotating disk is fixedly installed on the outer periphery of the rotating disk. Two vertically symmetrical sensing blocks are fixedly installed, a first receiving block is fixedly installed on the right side surface of the motor, and the sensing block located on the upper side and the first receiving block come into contact with each other. When the motor is inverted and the sensing block located below and the first receiving block come into contact with each other, the motor rotates in the forward direction.

A further technical plan, the lower and right sides of the power space are both installed so that the slide spaces communicate with each other, and the slide blocks are installed so that they can slide in the slide space, and the slide blocks are extended. A second connecting rod is connected to the front side surface of the slide block and the front side surface of the turntable by hinges, and the slide block and the inner wall of the slide space are connected to each other. A spring is fixedly attached between the two, a slide wheel space is installed between the transformation space and the two slide spaces, and a slide wheel space is installed between the slide wheel space and the slide space. Both are installed so that the first connecting hole communicates with each other, and the second connecting hole is installed between the slide wheel space and the transformation space so as to communicate with each other, and on the rear wall of the slide wheel space. Both are installed so that the slide wheels can rotate, and a connecting string is fixedly connected between the slide block and the floating ball, and the connecting string and the slide wheel are connected so as to be slidable. To.

A further technical plan is that the motor shafts are connected to both the upper and lower sides of the motor so that the motor shafts can be transmitted, a worm space is installed above the power space, and a portion extending upward in the motor shaft located on the upper side is provided. It is inserted into the worm space and installed so that the worm can rotate between the left and right walls of the worm space, and the transmission shaft and the driven shaft are installed on the bottom wall of the worm space so as to rotate. A worm wheel is fixedly installed on the motor shaft, the transmission shaft, and the top surface of the driven shaft, and the worm wheel is in mesh with the worm, and a wheel space is below the power space. Is installed, the portion of the motor shaft located on the lower side extending downward is inserted into the wheel space , and the transmission wheel is placed on the bottom surface of the portion of the motor shaft located on the lower side extending downward. When it is fixedly installed, the wheel shaft is installed on the bottom wall of the wheel space so that the wheel shaft can rotate, the top surface of the wheel shaft and the transmission wheel are connected so as to be transmitted, and the motor rotates in the forward direction. , The motor shaft rotates the wheel shaft and the worm, and the worm rotates the transmission shaft and the driven shaft.

A further technical plan, the door opening mechanism includes a first screw rod fixedly installed on the left side surface of the piston, is installed on the left side of the communication space so that the transmission space communicates, and is on the right side of the transmission space. A screw sleeve is installed on the wall so that it can rotate, a first bevel gear is fixedly installed on the outer circumference of the screw sleeve, and a downwardly extending portion of the transmission shaft is inserted into the transmission space. Further, a second captive gear is fixedly installed on the bottom surface of a portion of the transmission shaft extending downward, and the second captive gear and the first captive gear are engaged with each other, and the first screw rod is left. A portion extending to the screw sleeve penetrates the screw sleeve, and the first screw rod and the screw sleeve are connected by a thread.

A further technical plan, the control mechanism includes a sealing block installed so as to slide on the inner wall of the screw rod space, in which a thread space opening to the left is installed, the screw rod space. A gear space is installed on the left side of the wheel space, the gear space is located below the wheel space , and a portion extending downward on the wheel shaft is inserted into the gear space and extends downward on the wheel shaft . A third umbrella gear is fixedly installed on the bottom surface of the portion, a second screw rod is installed on the right wall of the gear space so that it can rotate, and a fourth umbrella is installed on the left side surface of the second screw rod. The gear is fixedly installed, the fourth cap gear and the third cap gear are meshed with each other, and a portion of the second screw rod extending to the right is inserted into the screw rod space, and the screw rod space is inserted. A portion of the second screw rod extending to the right is connected to the thread space by a thread.

A further technical plan, the filtration mechanism includes a vacuum filtration pump fixedly installed on the bottom wall of the rectangular space, and an oil suction pipe is installed under the vacuum filtration pump so as to communicate with the oil suction. A downwardly extending portion of the pipe is inserted into the oil storage space, and an oil discharge pipe is installed on the left side of the vacuum filtration pump so as to communicate with the oil discharge pipe. It communicates with the oil guide space, and the exhaust pipe is installed above the vacuum filtration pump so as to communicate with each other, and the exhaust pipe and the outside communicate with each other. The two receiving blocks are connected so that they can be energized, a portion extending downward on the driven shaft is inserted into the rectangular space, and a fan-shaped sensing ring is fixedly attached to the bottom surface of the portion extending downward on the driven shaft. Installed, the fan-shaped sensing ring can come into contact with the second receiving block.

A further technical plan, a moisture-proof cover is fixedly installed on the outer circumference of the housing.

In a further technical plan, support blocks are fixedly installed on the left and right walls of the transformer space, and a transformer device is fixedly installed between the two support blocks.

The beneficial effect of the present invention is: The present invention effectively enhances the moisture-proof effect of the transformer oil, and at the same time, has the effect of preventing the oil level from dropping due to the loss of the oil liquid, and the interlocking effect of the present invention is high. Fully automated detection and corresponding adjustment control are performed to bring the oil level of the transformer oil to the standard state, and the sensing mechanism senses the oil level with a floating ball and controls the forward and reverse rotation of the motor to control the level. The door opening mechanism ensures that the oil is added normally by making the oil guide space in communication, and the control mechanism makes the oil discharge space in communication so that the oil is discharged normally. Guaranteeing that this is done, the filtration mechanism can filter the oil in a vacuum and the motor can control the interlocking of the door opening mechanism with the control and filtration mechanisms.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic view of the entire internal structure of the present invention. FIG. 2 is an enlarged schematic view of FIG. 1A of the present invention. FIG. 3 is an enlarged schematic view of FIG. 1B of the present invention. FIG. 4 is an enlarged schematic view of FIG. 1C of the present invention. FIG. 5 is a top view of the fan-shaped sensing ring of the present invention.

With reference to FIGS. 1 to 5, the auxiliary device capable of automatically removing water when the transformer oil of the present invention gets wet includes a housing 11, and a transformer space 57 is installed in the housing 11 to form the transformer. A sealing layer 36 is fixedly installed on the inner wall of the space 57, the transformer oil liquid is in the transformer space 57, the standard oil liquid layer 45 is the standard oil liquid level, and the left side of the transformer space 57. A first connecting rod 47 is connected to the wall by a hinge, a floating ball 46 is fixedly installed on the other side surface of the first connecting rod 47, and the floating ball 46 is above the standard oil-liquid layer 45. A power space 68 is installed on the upper left of the transformer space 57, a motor 19 is fixedly installed on the left wall of the power space 68, and the motor 19 is reversed after operating for a certain period of time. Then, it returns to the original position, and in the power space 68, a sensing mechanism 101 that controls the forward / reverse rotation of the motor 19 by raising or lowering the floating ball 46 is installed, and the forward / reverse rotation of the motor 19 is the standard. The oil-liquid layer 45 is adjusted to return to the normal state, and the oil guide space 49 is installed above the transformer space 57 so as to communicate with the oil guide space 49, and the communication space 60 communicates with the left side of the oil guide space 49. It is installed so that the piston 58 can slide in the communication space 60, the piston 58 can open and close the oil guide space 49, and the piston 58 is operated in the communication space 60 by the operation of the motor 19. A door opening mechanism 102 capable of controlling the left-right movement of 58 is installed, an oil discharge space 39 is installed under the transformer space 57 so as to communicate with the oil discharge space 39, and a screw rod space 35 is provided on the left side of the oil discharge space 39. is installed so as to communicate the inside of the threaded rod space 35 is disposed a control mechanism 103, the control mechanism 103 can seal or communicating the oil emissions space 39 by a positive reversal of the motor 19, the oil discharge An oil storage space 40 is installed below the space 39 so as to communicate with each other, a rectangular space 51 is installed at the upper right of the oil storage space 40, and a filtration mechanism 104 is installed in the rectangular space 51. The filtration mechanism 104 can vacuum filter the oil liquid in the oil storage space 40 and pour it into the transformer space 57.

Further, in one embodiment, the sensing mechanism 101 includes a rotating shaft 23 installed so as to be rotatable on the rear wall of the power space 68, and a rotating disk 22 is fixedly installed on the outer periphery of the rotating shaft 23. Two vertically symmetrical sensing blocks 21 are fixedly installed on the outer periphery of the turntable 22, and the first receiving block 20 is fixedly installed on the right side surface of the motor 19 and located on the upper side. When the sensing block 21 and the first receiving block 20 come into contact with each other, the motor 19 is inverted, and when the sensing block 21 located below and the first receiving block 20 come into contact with each other, the motor 19 Rotates in the forward direction, and the rotation of the turntable 22 can operate the motor 19.

Further, in one embodiment, the slide space 65 is installed on the lower side and the right side of the power space 68 so as to communicate with each other so that the slide block 25 can slide in the slide space 65. The installed portion of the slide block 25 extends into the power space 68, and a second connecting rod 24 is hinged on both the front side surface of the slide block 25 and the front side surface of the turntable 22. A spring 66 is fixedly attached between the slide block 25 and the inner wall of the slide space 65, and a slide wheel is fixedly attached between the transformation space 57 and the two slide spaces 65. A space 26 is installed, and a first connecting hole 67 is installed between the slide wheel space 26 and the slide space 65 so as to communicate with each other, and between the slide wheel space 26 and the transformation space 57. Are installed so that the second connecting hole 56 communicates with each other, and the slide wheels 27 are installed on the rear wall of the slide wheel space 26 so that the slide wheels 27 can rotate, and the slide block 25 and the floating ball 46 are connected to each other. The connecting string 48 is fixedly connected between them, and the connecting string 48 and the slide ring 27 are connected so as to be slidable. When the standard oil-liquid layer 45 is lowered, the floating ball 46 is lowered. As a result, the turntable 22 rotates clockwise, and when the inside of the transformation space 57 becomes moist, the standard oil-liquid layer 45 rises, and the floating ball 46 rises, whereby the turntable 22 rises. Rotate counterclockwise.

Further, in one embodiment, the motor shafts 18 are connected to both the upper and lower sides of the motor 19 so as to be able to transmit, a worm space 13 is installed above the power space 68, and the motor located above the motor. A portion of the shaft 18 extending upward is inserted into the worm space 13, and the worm 14 is installed between the left and right walls of the worm space 13 so as to be rotatable, and is transmitted to the bottom wall of the worm space 13. The shaft 16 and the driven shaft 17 are installed so as to be rotatable, and the worm wheel 15 is fixedly installed on the motor shaft 18, the transmission shaft 16 and the top surfaces of the driven shaft 17, and the worm wheel 15 is installed. Are all engaged with the worm 14, a wheel space 28 is installed below the power space 68, and a portion of the motor shaft 18 located below the motor shaft 18 extending downward is inside the wheel space 28. A transmission wheel 29 is fixedly installed on the bottom surface of a portion of the motor shaft 18 that is inserted and extends downward, and is installed on the bottom wall of the wheel space 28 so that the wheel shaft 30 can rotate. Then, the top surface of the wheel shaft 30 and the transmission wheel 29 are connected so as to be able to transmit, and when the motor 19 rotates in the forward direction, the motor shaft 18 rotates the wheel shaft 30 and the worm 14, and the worm 14 is rotated. When the worm 14 rotates the transmission shaft 16 and the driven shaft 17, and the motor 19 reverses, the motor shaft 18 rotates the worm 14, and the worm 14 rotates the transmission shaft 16 and the driven shaft 17. Rotate.

Further, in one embodiment, the door opening mechanism 102 includes a first screw rod 61 fixedly installed on the left side surface of the piston 58, and a transmission space 59 communicates with the left side of the communication space 60. The screw sleeve 62 is rotatably installed on the right wall of the transmission space 59, and the first umbrella gear 63 is fixedly installed on the outer periphery of the screw sleeve 62, and is downward on the transmission shaft 16. The second capscrew 64 is fixedly installed on the bottom surface of the portion extending downward in the transmission shaft 16 and the second capscrew 64 and the second capscrew 64 are fixedly installed. The first captive gear 63 is engaged, a portion of the first screw rod 61 extending to the left penetrates the screw sleeve 62, and the first screw rod 61 and the screw sleeve 62 are threaded. When the motor 19 is operated, the transmission shaft 16 rotates the screw sleeve 62, whereby the first screw rod 61 moves the piston 58 to the left, thereby the oil guide space. The 49 can be put into a communicating state.

Further, in one embodiment, the control mechanism 103 includes a sealing block 37 installed so as to be slidable on the inner wall of the screw rod space 35, and the screw thread space opened to the left in the sealing block 37. 38 is installed, a gear space 32 is installed on the left side of the screw rod space 35, the gear space 32 is located below the wheel space 28, and a portion of the wheel shaft 30 extending downward is said. A third umbrella gear 31 is fixedly installed on the bottom surface of a portion of the wheel shaft 30 that is inserted into the gear space 32 and extends downward, and a second screw rod 34 rotates on the right wall of the gear space 32. The fourth captive gear 33 is fixedly installed on the left side surface of the second screw rod 34 so that the fourth cape gear 33 and the third cape gear 31 are in mesh with each other. A portion of the two-thread rod 34 extending to the right is inserted into the screw rod space 35, and a portion of the second screw rod 34 extending to the right is connected to the thread space 38 by a thread. When the motor 19 reverses, the wheel shaft 30 rotates the second screw rod 34, whereby the thread space 38 moves to the left, whereby the oil discharge space 39 can be brought into a communicating state. it can.

Further, in one embodiment, the filtration mechanism 104 includes a vacuum filtration pump 54 fixedly installed on the bottom wall of the rectangular space 51, and an oil suction pipe 42 communicates under the vacuum filtration pump 54. The portion of the oil suction pipe 42 extending downward is inserted into the oil storage space 40, and the oil discharge pipe 50 is installed on the left side of the vacuum filtration pump 54 so as to communicate with the vacuum filtration pump 54. The portion of the oil discharge pipe 50 extending to the left and the oil guide space 49 are communicated with each other, and the exhaust pipe 55 is installed above the vacuum filtration pump 54 so as to communicate with the exhaust pipe 55. The second receiving block 53 is connected to the top surface of the vacuum filtration pump 54 so that it can be energized, and a portion of the driven shaft 17 extending downward is inserted into the rectangular space 51. When the fan-shaped sensing ring 52 is fixedly installed on the bottom surface of the portion of the driven shaft 17 extending downward, the fan-shaped sensing ring 52 can come into contact with the second receiving block 53, and the motor 19 operates. , The driven shaft 17 rotates the fan-shaped sensing ring 52, whereby the fan-shaped sensing ring 52 can come into contact with the second receiving block 53, thereby operating the vacuum filtration pump 54, whereby the oil storage space. The oil liquid in 40 can be vacuum-filtered and then introduced into the transformation space 57 again.

Further, in one embodiment, a moisture-proof cover 12 is fixedly installed on the outer periphery of the housing 11, and the moisture-proof cover 12 enhances the moisture-proof effect.

Further, in one embodiment, the support blocks 44 are fixedly installed on the left and right walls of the transformer space 57, and the transformer device 43 is fixedly installed between the two support blocks 44. ..

In the initial state, the floating ball 46 is located in the standard oil-liquid layer 45, the piston 58 and the sealing block 37 are both sealed, and the vacuum filtration pump 54 and the motor 19 are stopped.

When in use, the rotation of the turntable 22 causes the motor 19 to operate, and when the sensing block 21 located on the upper side and the first receiving block 20 come into contact with each other, the motor 19 reverses and the sensing block 21 located on the lower side is reversed. When the first receiving block 20 and the first receiving block 20 come into contact with each other, the motor 19 rotates in the positive direction, and when the standard oil / liquid layer 45 lowers, the floating ball 46 lowers, whereby the turntable 22 rotates clockwise and the transformation space. When the standard oil-liquid layer 45 rises due to the dampness inside 57, the floating ball 46 rises, which causes the turntable 22 to rotate counterclockwise and the motor 19 to rotate in the forward direction. 18 rotates the wheel shaft 30 and the worm 14, the worm 14 rotates the transmission shaft 16 and the driven shaft 17, and when the motor 19 reverses, the motor shaft 18 rotates the worm 14 and the worm 14 rotates the transmission shaft 16 and the driven shaft 16. When the shaft 17 is rotated and the motor 19 is operated, the transmission shaft 16 rotates the screw sleeve 62, whereby the first screw rod 61 moves the piston 58 to the left, thereby communicating the oil guide space 49. When the motor 19 reverses, the wheel shaft 30 rotates the second screw rod 34, which causes the thread space 38 to move to the left, thereby bringing the oil discharge space 39 into a communicative state. When the motor 19 is activated, the driven shaft 17 rotates the fan-shaped sensing ring 52, which allows the fan-shaped sensing ring 52 to come into contact with the second receiving block 53, thereby activating the vacuum filtration pump 54. The oil liquid in the oil storage space 40 can be vacuum-filtered and then introduced into the transformation space 57 again.

Engineers in this field can clarify that they do not deviate from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of protection of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (9)

Including the housing, a transformer space is installed in the housing, a sealing layer is fixedly installed on the inner wall of the transformer space, and there is a transformer oil liquid in the transformer space, and a standard oil liquid layer. Is a standard oil level, a first connecting rod is connected to the left wall of the transformer space by a hinge, and a floating ball is fixedly installed on the other side surface of the first connecting rod. Is located above the standard oil-liquid layer, a power space is installed in the upper left of the transformer space, a motor is fixedly installed on the left wall of the power space, and the motor operates for a certain period of time. After that, it reverses and returns to the original position, and a sensing mechanism that controls the forward / reverse rotation of the motor by raising or lowering the floating ball is installed in the power space.
The forward / reverse rotation of the motor adjusts the standard oil-liquid layer to return it to a normal state, and is installed so that the oil guide space communicates with the upper side of the transformation space, and the communication space communicates with the left side of the oil guide space. It is installed so that the piston can slide in the communication space, the piston can open and close the oil guide space, and the piston moves left and right in the communication space by the operation of the motor. A door opening mechanism capable of controlling the above is installed, an oil discharge space is installed under the transformation space so as to communicate with the oil discharge space, and a screw rod space is installed on the left side of the oil discharge space so as to communicate with the screw. Some rod space control mechanism is installed, the control mechanism may seal or communicating the oil emissions space by the positive reversal of the motor, as the oil storage space on the lower side of the oil discharge space communicating A rectangular space is installed in the upper right of the oil storage space, a filtration mechanism is installed in the rectangular space, and the filtration mechanism vacuum-filters the oil liquid in the oil storage space to form the transformer space. An auxiliary device that can automatically remove water when the transformer oil gets wet, which is characterized by being able to be poured into. The sensing mechanism includes a rotating shaft installed so as to be rotatable on the rear wall of the power space, a rotating disk is fixedly installed on the outer periphery of the rotating shaft, and is vertically symmetrical on the outer periphery of the rotating disk. When the two sensing blocks are fixedly installed, the first receiving block is fixedly installed on the right side surface of the motor, and the sensing block located on the upper side and the first receiving block come into contact with each other, the first receiving block is said to be fixedly installed. The transformer oil according to claim 1, wherein the motor rotates in the forward direction when the motor reverses and the sensing block located below and the first receiving block come into contact with each other. Auxiliary device that can automatically remove water when. Both the lower side and the right side of the power space are installed so that the slide space communicates with each other, and the slide blocks are installed so as to slide in the slide space, and the extended portion of the slide block is the said. A second connecting rod is hinged to both the front side surface of the slide block and the front side surface of the turntable, extending into the power space, and between the slide block and the inner wall of the slide space. In each case, a spring is fixedly attached, a slide wheel space is installed between the transformer space and the two slide spaces, and a first slide wheel space is provided between the slide wheel space and the slide space. The connecting holes are installed so as to communicate with each other, the second connecting holes are installed between the slide wheel space and the transformer space so as to communicate with each other, and the slide wheels are all installed on the rear wall of the slide wheel space. Is installed so that it can rotate, and a connecting string is fixedly connected between the slide block and the floating ball, and the connecting string and the slide wheel are connected so as to be slidable. An auxiliary device capable of automatically removing water when the transformer oil according to claim 2 is damp. Both the upper and lower sides of the motor are connected so that the motor shaft can be transmitted, a worm space is installed on the upper side of the power space, and a portion of the motor shaft located on the upper side extending upward is the worm space. Inserted inside, the worm is installed between the left and right walls of the worm space so that the worm can rotate, and the transmission shaft and the driven shaft are installed on the bottom wall of the worm space so that they can rotate. A worm wheel is fixedly installed on both the transmission shaft and the top surface of the driven shaft, both of the worm wheels are engaged with the worm, and a wheel space is installed below the power space. A portion of the motor shaft located on the lower side extending downward is inserted into the wheel space , and a transmission wheel is fixedly installed on the bottom surface of the portion of the motor shaft located on the lower side extending downward. The wheel shaft is installed on the bottom wall of the wheel space so that the wheel shaft can rotate, and the top surface of the wheel shaft and the transmission wheel are connected so as to be able to transmit, and when the motor rotates in the forward direction, the motor shaft Can rotate the wheel shaft and the worm, and the worm can rotate the transmission shaft and the driven shaft. When the transformer oil according to claim 3 becomes wet, water can be automatically removed. Auxiliary device. The door opening mechanism includes a first screw rod fixedly installed on the left side surface of the piston, is installed so that the transmission space communicates on the left side of the communication space, and is screwed on the right wall of the transmission space. The sleeve is installed so that it can rotate, a first bevel gear is fixedly installed on the outer circumference of the screw sleeve, a downwardly extending portion of the transmission shaft is inserted into the transmission space, and the transmission shaft is also installed. A second captive gear is fixedly installed on the bottom surface of the portion extending downward in the above, and the second captive gear and the first caption gear are engaged with each other, and the portion of the first screw rod extending to the left. The transformer oil according to claim 4 , wherein the first screw rod and the screw sleeve are connected by a screw thread, and the first screw rod and the screw sleeve are automatically moisture when the transformer oil gets wet. Auxiliary device that can remove. The control mechanism includes a sealing block installed so as to slide on the inner wall of the screw rod space, in which a thread space open to the left is installed, and on the left side of the screw rod space. A gear space is installed, the gear space is located below the wheel space , a portion extending downward on the wheel shaft is inserted into the gear space, and a bottom surface of a portion extending downward on the wheel shaft . The third umbrella gear is fixedly installed in the space, the second screw rod is installed on the right wall of the gear space so that it can rotate, and the fourth umbrella gear is fixed on the left side surface of the second screw rod. The fourth bevel gear and the third bevel gear are meshed with each other, and a portion of the second screw rod extending to the right is inserted into the screw rod space, and the second screw rod is also installed. The auxiliary device according to claim 5, wherein the portion extending to the right is connected to the screw thread space by a screw thread, and can automatically remove water when the transformer oil becomes wet. The filtration mechanism includes a vacuum filtration pump fixedly installed on the bottom wall of the rectangular space, and an oil suction pipe is installed under the vacuum filtration pump so as to communicate with the oil suction pipe, and downward in the oil suction pipe. The extended portion is inserted into the oil storage space, and an oil discharge pipe is installed on the left side of the vacuum filtration pump so as to communicate with the oil discharge pipe, and the portion extending to the left in the oil discharge pipe and the oil guide space. Is installed so that an exhaust pipe communicates with the upper side of the vacuum filtration pump, the exhaust pipe and the outside communicate with each other, and a second receiving block is provided on the top surface of the vacuum filtration pump. A portion of the driven shaft that is connected so as to be energized and extends downward is inserted into the rectangular space, and a fan-shaped sensing ring is fixedly installed on the bottom surface of the portion of the driven shaft that extends downward. The auxiliary device according to claim 4 , wherein the fan-shaped sensing ring can come into contact with the second receiving block, and can automatically remove water when the transformer oil gets wet. The auxiliary device according to claim 1, wherein a moisture-proof cover is fixedly installed on the outer periphery of the housing, which can automatically remove water when the transformer oil gets wet. The transformer according to claim 1, wherein support blocks are fixedly installed on the left and right walls of the transformer space, and a transformer device is fixedly installed between the two support blocks. An auxiliary device that can automatically remove water when the oil is wet.

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