CN114613572A - Electronic transformer with high stability - Google Patents

Abstract

The invention relates to the technical field of transformers and discloses an electronic transformer with strong stability, which comprises a shell, wherein a binding post is arranged at the top end of the shell, a first abdominal cavity and a second abdominal cavity are arranged in the binding post, and a looseness detecting device for detecting the state of the binding post is arranged on one side of the binding post; according to the invention, the loosening condition of the nut is amplified through the auxiliary body, the first elastic column and the second elastic column occupy the space in the cavity of the water bin, water in the water bin pushes the magnet on the foam block to move upwards through the thin tube, so that the first contact block is attracted to be contacted with the second electric shock block, the detection circuit where the first contact block and the second electric shock block are located is switched on, and the detection circuit is timely processed through the fastening device, so that the influence on the stability of the transformer caused by the loosened wiring terminal is avoided, and the short-circuit ignition condition of the transformer is prevented to the greatest extent.

Description

Electronic transformer with high stability

Technical Field

The invention relates to the technical field of transformers, in particular to an electronic transformer with strong stability.

Background

The transformer has a certain voltage boosting and reducing function and plays an important role in our daily life, wherein the binding post of the transformer is an important component of the transformer, when in use, a large current passes through the binding post, a certain amount of heat is generated, and the binding post expands at the moment; when the wiring terminal is loosened, an operator is required to fasten the wiring terminal, but the screw thread of the wiring terminal is easily damaged when the wiring terminal is fastened manually for many times, and the wiring terminal with the damaged screw thread cannot be normally used, so that a new wiring terminal needs to be replaced, and resources and labor cost are wasted; in addition, the installation steps of the transformer are very complicated, and long time is needed for replacing the transformer in the later period, so that the transformer is extremely inconvenient.

Therefore, an electronic transformer with strong stability is provided.

Disclosure of Invention

The present invention is directed to an electronic transformer with high stability, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an electronic transformer with strong stability comprises a shell, wherein a binding post is arranged at the top end of the shell, a first abdominal cavity and a second abdominal cavity are arranged in the binding post, and a looseness detecting device for detecting the state of the binding post is arranged on one side of the binding post;

a hollow groove block is arranged in the looseness detection device, an auxiliary body is arranged above the hollow groove block, a pushing piece is fixedly connected to one side of the surface of the auxiliary body, a water sump is arranged in the first abdominal cavity, a first elastic column and a second elastic column penetrate through the surface of the water sump, a thin tube is inserted into the top end of the water sump, a foam block and a magnet are connected in the thin tube in a sliding mode, a first contact block is arranged on one side of the magnet, and a second contact block is arranged on the other side of the magnet;

preferably, the hydraulic cylinder switch is arranged in the fastening device, a first spring piece and a clamping block are fixedly connected to the upper surface of the auxiliary body, a gear piece is arranged above the auxiliary body, a second spring piece and a matching block are fixedly connected to the bottom surface of the gear piece, a cylinder rod is arranged in the second abdominal cavity, a tooth column is inserted into the surface of the cylinder rod, a first inclined plane column is arranged above the tooth column on the surface of the cylinder rod, a second inclined plane column is arranged above the first inclined plane column, and a lower pressing rod is fixedly connected to the side surface of the second inclined plane column.

Preferably, a nut is arranged above the binding post, and a mounting device is arranged on the side surface of the shell;

preferably, a first bearing plate is arranged in the mounting device, a first hydraulic column is arranged below the first bearing plate, an inclined block is fixedly connected to one side of the first bearing plate, an inclined body is connected to the surface of the inclined block in a sliding manner, a moving plate is arranged at one end, away from the inclined block, of the inclined body, and a shaft lever is hinged to the center of the moving plate;

preferably, the inclined surface of the inclined block is matched with the inclined surface of the inclined body.

Preferably, the pushing sheet is provided with a first elastic column on the motion track.

Preferably, water in the water bin can enter the thin tube, and the first contact block and the second electric contact block belong to the same circuit and can slide in a slide way.

Preferably, the first spring piece, the clamping block, the second spring piece and the matching block are provided with a plurality of groups.

Preferably, the gear piece and the tooth column are well meshed, the tooth column and the first inclined plane column are internally provided with motors, the tooth column has a certain thickness, and the gear piece can still be driven to rotate when moving downwards.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the loosening condition of the nut is amplified through the auxiliary body, the first elastic column and the second elastic column occupy the space in the cavity of the water sump, water in the water sump pushes the magnet on the foam block to move upwards through the thin tube, so that the first contact block is attracted to be in contact with the second electric shock block, the detection circuit where the first contact block and the second electric shock block are located is switched on, and the detection circuit is timely processed through the fastening device, so that the influence on the stability of the transformer caused by the loosened wiring terminal is avoided, and the short-circuit ignition condition of the transformer is prevented to the greatest extent.

2, according to the invention, when the nut is fastened firmly, the hollow groove block on the nut does not move any more, but the driven and rotated auxiliary body still rotates, and as is known, when the hydraulic column switch body is subjected to certain resistance, the internal switch can be triggered, at the moment, the rotated auxiliary body can extrude the hydraulic column switch body to trigger the switch in the hydraulic column switch body, at the moment, the motor in the first inclined plane column starts to rotate reversely, the reversely rotated first inclined plane column can make the second inclined plane column move upwards under the assistance of the inclined plane, the second inclined plane column moving upwards can drive the lower pressing rod on one side not to extrude the gear piece any more, the gear piece and the auxiliary body can gradually get away from each other in the recovery of the first spring piece and the second spring piece and recover to the initial state, at the moment, the auxiliary body can not drive the hollow groove block to fasten the nut through the hydraulic column switch body any more, and the nut is prevented from being damaged due to excessive fastening.

3. According to the invention, the first bearing plate is pressed downwards by the self weight of the shell, the inclined body is pushed by the inclined block on the first bearing plate, the pushed movable plate can quickly fix the shell by taking a hinge point with the shaft rod as an axis, namely, the shell is limited in the middle of the movable plates at two sides of the shell, and meanwhile, the weight-dependent mounting mode is different from the traditional fixed mounting mode, so that the situations that the shell is stressed by the traditional mounting point, the shell is mounted at a place to deform and the like are avoided.

4. According to the invention, due to the elastic recovery of the first spring piece and the second spring piece, the auxiliary body does not drive the hollow groove block to fasten the nut through the hydraulic column switch body any more, the nut is prevented from being damaged due to excessive fastening, meanwhile, the nut is prevented from being fastened by an operator regularly, the labor cost is reduced, the thread of the binding post is prevented from being damaged due to the fact that the operator fastens the nut forcibly, the frequency of replacing a new binding post is reduced to a certain extent, and resources and labor cost are saved.

Drawings

FIG. 1 is a view showing the structure of the main body of the present invention;

FIG. 2 is a side view of the main structure of the present invention;

FIG. 3 is an enlarged view of the invention at A;

FIG. 4 is a related structure diagram of the pushing plate, the first elastic post and the second elastic post according to the present invention;

FIG. 5 is a view showing the structure of a magnet, a first contact block and a second contact block according to the present invention;

FIG. 6 is a view showing the construction of the looseness detecting unit and the fastening unit according to the present invention;

FIG. 7 is a related structure diagram of the auxiliary body and the gear piece according to the present invention;

FIG. 8 is an exploded view of a portion of the present invention;

FIG. 9 is a diagram illustrating the movement of the first and second inclined plane columns;

fig. 10 is a schematic view of the fastening device of the present invention in operation.

In the figure:

1. a housing; 2. a binding post; 201. a first abdominal cavity; 202. a second abdominal cavity; 3. a nut;

4. a mounting device; 401. a first bearing plate; 402. a first hydraulic column; 403. a sloping block; 404. an italic; 405. moving the plate; 406. a shaft lever;

5. a loosening detection device; 501. a hollow groove block; 502. an auxiliary body; 503. pushing the sheet; 504. a first elastic column; 505. a second elastic column; 506. a water sump; 507. a thin tube; 508. a foam block; 509. a magnet; 510. a first contact block; 511. a second contact block;

6. a fastening device; 601. a hydraulic column switch body; 602. a first spring plate; 603. a bit block; 604. a gear piece; 605. a second spring plate; 606. a matching block; 607. a post rod; 608. a tooth post; 609. a first bevel post; 610. a second inclined plane column; 611. a lower pressure rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example one

Please refer to fig. 1 to fig. 3:

the top end of the shell 1 is provided with a binding post 2, the side surface of the shell 1 is provided with a mounting device 4, the mounting device 4 is internally provided with a first bearing plate 401, a first hydraulic column 402 is arranged below the first bearing plate 401, the first hydraulic column 402 is provided with a plurality of, one side of the first bearing plate 401 is fixedly connected with an inclined block 403, the surface of the inclined block 403 is slidably connected with an inclined body 404, the inclined block 403 can be matched with an inclined plane of the inclined body 404 through an inclined plane of the inclined block 403 and can push the inclined body 404 to move, one end of the inclined body 404, which is far away from the inclined block 403, is provided with a movable plate 405, and the center of the movable plate 405 is hinged with a shaft lever 406.

Example two

Please refer to fig. 4 to fig. 6:

a first abdominal cavity 201 and a second abdominal cavity 202 are arranged in the binding post 2, and a looseness detecting device 5 for detecting the state of the binding post 2 is arranged on one side of the binding post 2; a nut 3 is arranged above the binding post 2, a hollow groove block 501 is arranged in the looseness detection device 5, the size of the hollow groove block 501 is matched with that of the nut 3, in an initial state, the hollow groove block 501 is sleeved on the nut 3, the hollow groove block 501 is connected with the auxiliary body 502 through a hydraulic column switch body 601, the auxiliary body 502 is arranged above the hollow groove block 501, the auxiliary body 502 can touch a second elastic column 505 when moving upwards in a loosening manner, a pushing sheet 503 is fixedly connected to one side of the surface of the auxiliary body 502, a first elastic column 504 is arranged on the motion track of the pushing sheet 503, a water bin 506 is arranged in the first abdominal cavity 201, water in the water bin 506 can enter a thin tube 507, the first elastic column 504 and the second elastic column 505 are arranged on the surface of the water bin 506 in a penetrating manner, the thin tube 507 is inserted at the top end of the water bin 506, a foam block 508 and a magnet 509 are connected in a sliding manner in the thin tube 507, a first contact block 510 is arranged on one side of the magnet 509, the first contact block 510 and the second contact block 511 belong to the same circuit and can slide in a slide rail, and the second contact block 511 is provided on the other side of the magnet 509.

EXAMPLE III

Please refer to fig. 7 to 10:

the nut 3 is arranged above the binding post 2, the hydraulic column switch body 601 is arranged in the fastening device 6, the internal switch can be triggered when the hydraulic column switch body 601 is subjected to certain resistance, the upper surface of the auxiliary body 502 is fixedly connected with a first spring leaf 602 and a clamping block 603, the first spring leaf 602 and a second spring leaf 605 have certain elasticity, the first spring leaf 602 and the second spring leaf 605 are not compressed in the initial state, at the moment, the matching block 606 at the bottom surface of the gear piece 604 is not clamped between the clamping blocks 603 on the upper surface of the auxiliary body 502, the gear piece 604 is arranged above the auxiliary body 502, the second spring leaf 605 and the matching block 606 are fixedly connected with the bottom surface of the gear piece 604, a plurality of groups of the first spring leaf 602, the clamping block 603, the second spring leaf 605 and the matching block 606 are arranged, the column rod 607 is arranged in the second abdominal cavity 202, the tooth column 608 is inserted in the surface of the column rod 607, and has a certain thickness, the gear piece 604 is well meshed with the tooth column 608, a first inclined plane column 609 is arranged above the tooth column 608 on the surface of the column rod 607, motors are arranged in the tooth column 608 and the first inclined plane column 609, a second inclined plane column 610 is arranged above the first inclined plane column 609, a certain weight is provided for the second inclined plane column 610, inclined planes of the first inclined plane column 609 and the second inclined plane column 610 are mutually abutted in an initial state, at the moment, the second inclined plane column 610 cannot slide downwards on the inclined plane of the first inclined plane column 609, and a pressing rod 611 is fixedly connected to the side surface of the second inclined plane column 610.

Example four

Please refer to fig. 1 to 10:

the top end of a shell 1 is provided with a binding post 2, the side surface of the shell 1 is provided with a mounting device 4, a first bearing plate 401 is arranged in the mounting device 4, a first hydraulic column 402 is arranged below the first bearing plate 401, a plurality of first hydraulic columns 402 are arranged, one side of the first bearing plate 401 is fixedly connected with an inclined block 403, the surface of the inclined block 403 is slidably connected with an inclined body 404, the inclined block 403 is matched with the inclined surface of the inclined body 404 through the inclined surface of the inclined block 403, so that the inclined body 404 can be pushed to move, a moving plate 405 is arranged at one end, away from the inclined block 403, of the inclined body 404, and a shaft lever 406 is hinged to the center of the moving plate 405;

a first abdominal cavity 201 and a second abdominal cavity 202 are arranged in the binding post 2, and a looseness detecting device 5 for detecting the state of the binding post 2 is arranged on one side of the binding post 2; a nut 3 is arranged above the binding post 2, a hollow groove block 501 is arranged in the looseness detection device 5, the hollow groove block 501 is matched with the nut 3 in size, in an initial state, the hollow groove block 501 is sleeved on the nut 3, the hollow groove block 501 is connected with an auxiliary body 502 through a hydraulic column switch body 601, the auxiliary body 502 is arranged above the hollow groove block 501, the auxiliary body 502 can touch a second elastic column 505 when moving upwards in a loosening manner, one side of the surface of the auxiliary body 502 is fixedly connected with a pushing sheet 503, a first elastic column 504 is arranged on the motion track of the pushing sheet 503, a water bin 506 is arranged in the first abdominal cavity 201, water in the water bin 506 can enter a thin tube 507, the surface of the water bin 506 is provided with the first elastic column 504 and the second elastic column 505 in a penetrating manner, the top end of the water bin 506 is inserted with the thin tube 507, a foam block 508 and a magnet 509 are connected in a sliding manner, one side of the magnet 509 is provided with a first contact block 510, the first contact block 510 and the second contact block 511 belong to the same circuit and can slide in a slide way, and the second contact block 511 is arranged on the other side of the magnet 509;

the nut 3 is arranged above the binding post 2, the hydraulic column switch body 601 is arranged in the fastening device 6, the internal switch can be triggered when the hydraulic column switch body 601 is subjected to certain resistance, the upper surface of the auxiliary body 502 is fixedly connected with a first spring leaf 602 and a clamping block 603, the first spring leaf 602 and a second spring leaf 605 have certain elasticity, the first spring leaf 602 and the second spring leaf 605 are not compressed in the initial state, at the moment, the matching block 606 at the bottom surface of the gear piece 604 is not clamped between the clamping blocks 603 on the upper surface of the auxiliary body 502, the gear piece 604 is arranged above the auxiliary body 502, the second spring leaf 605 and the matching block 606 are fixedly connected with the bottom surface of the gear piece 604, a plurality of groups of the first spring leaf 602, the clamping block 603, the second spring leaf 605 and the matching block 606 are arranged, the column rod 607 is arranged in the second abdominal cavity 202, the tooth column 608 is inserted in the surface of the column rod 607, and has a certain thickness, the gear piece 604 is well meshed with the tooth column 608, a first inclined plane column 609 is arranged above the tooth column 608 on the surface of the column rod 607, motors are arranged in the tooth column 608 and the first inclined plane column 609, a second inclined plane column 610 is arranged above the first inclined plane column 609, a certain weight is provided for the second inclined plane column 610, inclined planes of the first inclined plane column 609 and the second inclined plane column 610 are mutually abutted in an initial state, at the moment, the second inclined plane column 610 cannot slide downwards on the inclined plane of the first inclined plane column 609, and a pressing rod 611 is fixedly connected to the side surface of the second inclined plane column 610.

The working principle is as follows:

when in use, two sets of mounting devices 4 are arranged on two sides of the housing 1, the following description only refers to one side, and the other side is not repeated, the housing 1 is placed on the first receiving plate 401, due to the gravity of the first receiving plate 401, the first receiving plate 401 moves downward, the first hydraulic column 402 located below the first receiving plate 401 is compressed, the first receiving plate 401 moving downward carries the inclined block 403 on one side to move downward, due to the inclined surface of the inclined block 403, the inclined block 403 pushes the inclined body 404 on one side to move rightward when moving downward, the inclined body 404 moving rightward pushes the moving plate 405 to rotate counterclockwise at the hinge point of the moving plate 405 and the shaft lever 406, when the moving plate 405 rotates counterclockwise, the upper end of the moving plate 405 gradually approaches the housing 1 and cooperates with the moving plate 405 moving toward the other side of the housing 1 to clamp the housing 1, namely, the first bearing plate 401 is pressed downwards by the self weight of the housing 1, the inclined body 404 is pushed by the inclined block 403 on the first bearing plate 401, the pushed moving plate 405 can quickly fix the housing 1 by taking a hinge point with the shaft lever 406 as an axis, namely, the housing 1 is limited in the middle of the moving plates 405 on two sides of the housing 1, and meanwhile, the weight-based mounting mode is different from the traditional fixed mounting mode, so that the situations that the housing 1 is stressed by the traditional mounting point to cause the deformation of the mounting place of the housing 1 and the like are avoided;

furthermore, when the nut 3 on the binding post 2 is loosened and rotated upwards in cold and hot conditions, the auxiliary body 502 amplifies the movement of the nut 3 through the hollow groove block 501 connected with the hydraulic column switch body 601, and on the premise that two components on the same rotation axis rotate the same, the radius is larger, the rotation arc line is larger, that is, when the nut 3 is loosened and rotated, the auxiliary body 502 rotates along with the nut, the rotating auxiliary body 502 pushes the first elastic column 504 on the same horizontal plane of the pushing sheet 503 to move towards the direction close to the water tank 506 through the pushing sheet 503, meanwhile, because the binding post 2 and the nut 3 are in threaded connection, the loosened nut 3 also moves upwards, when moving upwards, the second elastic column 505 is pushed towards the direction close to the water tank 506 through the inclined plane of the second elastic column 505 on the auxiliary body 502, the pushed second elastic column 505 and the end of the first elastic column 504 far away from the auxiliary body 502 occupy a part of the space in the cavity of the water tank 506 during pushing, as the water tank 506 is filled with water, the water in the water tank 506 is pushed into the superfine tubule 507 by the first elastic column 504 and the second elastic column 505 occupying the space, the foam block 508 in the tubule 507 pushes the water in the water tank 506 to carry the magnet 509 to move upwards in the tubule 507, when the magnet 509 moves to the same horizontal plane with the first contact block 510 and the second contact block 511, the first contact block 510 and the second contact block 511 gradually approach the magnet 509 under the magnetic attraction of the magnet 509, finally the first contact block 510 and the second contact block 511 contact together, the circuit is connected, the tooth column 608 and the first inclined column 609 start to rotate, namely the loosening condition of the nut 3 is amplified by the auxiliary body 502, the space in the cavity of the water tank 506 is occupied by the first elastic column 504 and the second elastic column 505, and the water in the water tank 506 pushes the magnet 509 on the foam block 508 to move upwards through the tubule 507, thereby attracting the first contact block 510 to contact with the second contact block 511, so that the detection circuit where the first contact block 510 and the second contact block 511 are positioned is switched on, and is processed in time through the fastening device 6, thereby avoiding the influence on the stability of the transformer caused by the loosened wiring terminal 2 and preventing the short-circuit fire of the transformer to the maximum extent;

furthermore, it is known that, in the initial state, the inclined planes of the first inclined plane column 609 and the second inclined plane column 610 abut against each other, the second inclined plane column 610 does not slide downward on the inclined plane of the first inclined plane column 609, the second inclined plane column 610 has a certain weight, at this time, the rotating first inclined plane column 609 breaks the initial state, due to the gravity of the second inclined plane column 610, the second inclined plane column 610 slides downward on the inclined plane of the first inclined plane column 609 and drives the down rod 611 on one side to move downward, the down rod 611 moving downward presses down the gear piece 604, at this time, the first spring piece 602 and the second spring piece 605 which are not compressed in the initial state are gradually compressed due to the pressing of the down rod 611, at this time, the gear piece 604 and the auxiliary body 502 gradually approach to each other, and in the approach, the matching block 606 on the gear piece 604 is clamped between the clamping blocks 603 arranged on the upper surface of the auxiliary body 502 during the rotation of the gear piece 604, the gear piece 604 rotating continuously drives the auxiliary body 502 to rotate through the matching block 606 clamped between the clamping blocks 603, the rotating auxiliary body 502 drives the hollow groove block 501 sleeved on the nut 3 to rotate through the hydraulic column switch body 601, the rotating hollow groove block 501 can rotationally fasten the nut 3 to enable the loosened nut 3 to be fastened again, when the nut 3 is fastened firmly, the hollow groove block 501 on the nut 3 does not move any more, but the auxiliary body 502 driven to rotate still rotates, it is known that the internal switch can be triggered when the hydraulic column switch body 601 receives a certain resistance, at this time, the rotating auxiliary body 502 can press the hydraulic column switch body 601 to enable the switch inside the hydraulic column switch body to be triggered, at this time, the motor in the first inclined plane column 609 starts to reverse, the first reversed inclined plane column 609 can make the second inclined plane column 610 move upwards under the assistance of the inclined plane, the second upwards-moving column 610 can drive the pressing rod 611 at one side to press the gear piece 604, the gear piece 604 and the auxiliary body 502 can be gradually kept away from each other in the recovery of the first spring piece 602 and the second spring piece 605, and the initial state is recovered, at the moment, the auxiliary body 502 does not drive the hollow groove block 501 to fasten the nut 3 through the hydraulic column switch body 601 any more, the phenomenon that an operator fastens the nut 3 regularly is avoided, the thread damage of the wiring terminal 2 can not be caused when the operator fastens the nut 3 with force, the frequency of replacing the wiring terminal 2 is reduced to a certain extent, and resources and labor cost are saved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An electronic transformer that stability is strong, includes casing (1), its characterized in that: a binding post (2) is arranged at the top end of the shell (1), a first abdominal cavity (201) and a second abdominal cavity (202) are arranged in the binding post (2), and a looseness detection device (5) for detecting the state of the binding post (2) is arranged on one side of the binding post (2);

be provided with hollow groove piece (501) in not hard up detection device (5), hollow groove piece (501) top is provided with auxiliary body (502), auxiliary body (502) surface one side fixedly connected with promotes piece (503), be provided with sump (506) in first abdominal cavity (201), sump (506) surface runs through and is provided with first elasticity post (504) and second elasticity post (505), sump (506) top is pegged graft and is had tubule (507), sliding connection has foam piece (508) and magnetite (509) in tubule (507), magnetite (509) one side is provided with first contact piece (510), magnetite (509) opposite side is provided with second contact piece (511).

2. The electronic transformer of claim 1, wherein: the hydraulic cylinder switch is characterized by further comprising a fastening device (6), a hydraulic cylinder switch body (601) is arranged in the fastening device (6), the upper surface of the auxiliary body (502) is fixedly connected with a first spring piece (602) and a clamping block (603), a gear piece (604) is arranged above the auxiliary body (502), the bottom surface of the gear piece (604) is fixedly connected with a second spring piece (605) and a matching block (606), a cylinder rod (607) is arranged in the second abdominal cavity (202), a tooth column (608) is spliced on the surface of the cylinder rod (607), a first inclined plane column (609) is arranged above the tooth column (608) on the surface of the cylinder rod (607), a second inclined plane column (610) is arranged above the first inclined plane column (609), and a lower pressing rod (611) is fixedly connected to the side surface of the second inclined plane column (610).

3. The electronic transformer of claim 1, wherein: a nut (3) is arranged above the binding post (2), and a mounting device (4) is arranged on the side surface of the shell (1);

the hydraulic support is characterized in that a first bearing plate (401) is arranged in the mounting device (4), a first hydraulic column (402) is arranged below the first bearing plate (401), an inclined block (403) is fixedly connected to one side of the first bearing plate (401), an inclined body (404) is connected to the surface of the inclined block (403) in a sliding mode, a moving plate (405) is arranged at one end, away from the inclined block (403), of the inclined body (404), and a shaft rod (406) is hinged to the center of the moving plate (405).

4. A robust electronic transformer as recited in claim 3, wherein: the inclined surface of the inclined block (403) is matched with the inclined surface of the inclined body (404).

5. The electronic transformer of claim 1, wherein: the motion track of the pushing sheet (503) is provided with a first elastic column (504).

6. The electronic transformer of claim 1, wherein: the first contact block (510) and the second contact block (511) belong to the same circuit and can slide in a slide way.

7. The electronic transformer of claim 2, wherein: the first spring piece (602), the clamping block (603), the second spring piece (605) and the matching block (606) are provided with a plurality of groups.

8. The electronic transformer of claim 2, wherein: the gear piece (604) is well meshed with the tooth column (608), and motors are arranged in the tooth column (608) and the first inclined plane column (609).

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