CN113782308B - A mobile locking mechanism for the installation of oil conservator inside a transformer and its use method - Google Patents

Abstract

The invention discloses a movable locking mechanism for installing an oil storage cabinet in a transformer, which comprises a first adjusting component, a first supporting component, a lifting component, a second supporting component and a second adjusting component, wherein the first adjusting component is convenient for a first sliding block to drive a screw locking machine to move forwards and backwards, the front and back positions of the screw locking machine are convenient to adjust, the screw locking machine can conveniently carry out omnibearing locking and fixing on the oil storage cabinet, the flexibility of the screw locking machine in locking and fixing on the oil storage cabinet of the transformer is realized, the first supporting component is arranged on the top of a supporting plate, the front and back movement of the screw locking machine is ensured to be more stable, the second adjusting component is further ensured to adjust the position of the screw locking machine, the mechanism can conveniently carry out omnibearing screw locking and fixing on the oil storage cabinet of the transformer according to different specifications, the mechanism can carry out locking and fixing on the oil storage cabinet of the transformer, manpower can be saved, and the working efficiency is improved.

Description

Movable locking mechanism for installation of oil storage cabinet in transformer and use method of movable locking mechanism

Technical Field

The invention relates to a locking mechanism, in particular to a movable locking mechanism for installing an oil storage cabinet in a transformer and a use method thereof, and belongs to the technical field of electricity.

Background

The main effect of transformer oil storage cabinet is to avoid the oil in the oil tank to contact with the air to grease proofing oxidative deterioration, infiltration moisture, reduce insulating properties, because large-scale transformer, the volume is big, the oil mass is also big, oil and air contact surface are big, after installing the oil storage cabinet, partial oil just enters into the oil storage cabinet when oil thermal expansion, and when oil cooling, a part of oil returns the oil tank from the oil storage cabinet again, can avoid insulating oil large tracts of land to contact with empty gas like this, reduce oxidation and moisture infiltration, install very big improvement work efficiency to transformer oil storage cabinet through removing locking rack.

The existing movable locking mechanism for installing the oil storage cabinet inside the transformer still has great defects when in use, the existing movable locking mechanism for installing the oil storage cabinet inside the transformer can only be installed manually, the working efficiency is low, and the existing movable locking mechanism for installing the oil storage cabinet inside the transformer can only be installed on the oil storage cabinet of the transformer with the same specification, and the adaptation range is small.

Disclosure of Invention

The invention aims to solve the problems that the existing movable locking mechanism for installing the oil storage cabinet in the transformer can only be installed manually and has low working efficiency, and the existing movable locking mechanism for installing the oil storage cabinet in the transformer can only be installed on the oil storage cabinet of the transformer with the same specification and has small adaptation range.

The aim of the invention can be achieved by the following technical scheme: the movable locking mechanism comprises a first adjusting component, a first supporting component, a lifting component, a second supporting component and a second adjusting component, wherein the bottom of the first adjusting component is provided with a supporting plate, the first adjusting component comprises a first screw rod, a first sliding block and a first baffle, two ends of the first screw rod are movably connected with the first baffle, a first screw hole is formed in the middle of the first sliding block, one end of the first screw rod is provided with a first motor, and one side of the supporting plate is provided with the first supporting component;

the first supporting component comprises a first sliding rod, a second sliding block and a second baffle, a first slotted hole is formed in the middle of the second sliding block, the second baffle is welded at two ends of the first sliding rod, and a lifting component is arranged at the top of the first sliding block;

the lifting assembly comprises a first supporting frame, a second screw rod, a first slideway and a fourth slideway, a second motor is arranged at the top of the second screw rod, a third slideway is movably connected to the second screw rod, the first slideway is arranged on both sides of the second screw rod, the fourth slideway is connected to the two first slideways, a first slideway is arranged in the middle of the fourth slideway, and a second supporting assembly is arranged at the top of the second slideway;

the second support assembly comprises a second support frame, a second slide bar, a second slideway and a sixth slide block, a fifth slide block is movably connected to the second slide bar, the second slide ways are arranged on two sides of the second slide bar, a second slide groove is formed in the middle of the sixth slide block, and a second adjustment assembly is arranged between the first support frame and the second support frame;

the second adjusting component comprises a third screw rod, a seventh sliding block, a third sliding rod and a supporting frame, wherein a third motor is installed at one end of the third screw rod, the seventh sliding block is movably connected to the third screw rod, the supporting frames are welded at two ends of the third sliding rod, fixing seats are welded at the bottoms of the two supporting frames, a screw locking machine is arranged at the bottom of the seventh sliding block, a second screw hole is formed in one side of the seventh sliding block, and a second slot hole is formed in one side of the seventh sliding block.

The invention further technically improves that: the first slider is the cuboid structure, and first slider is in the top of backup pad, and first screw runs through first slider, and first lead screw runs through first slider through first screw, and first lead screw is in the top of backup pad, first baffle is the cuboid structure, and two equal welding in the top of backup pad in first baffle bottoms, swing joint between first lead screw and the first slider.

The invention further technically improves that: two the second baffle all is the cuboid structure, and two second baffle bottoms all weld at the top of backup pad, and first slide bar is the cylinder structure, and first slide bar is in the top of backup pad, and first slide bar runs through the second slider through first slotted hole, and first slotted hole middle part is provided with ball bearing, and the second slider is in the top of backup pad, and parallel between first lead screw and the first slide bar, swing joint between first slide bar and the second slider.

The invention further technically improves that: two first slide welding is in the inside of first braced frame, second lead screw bottom and first braced frame bottom swing joint, and first slide is through first spout and fourth slider swing joint, and is parallel between two first slide and the second lead screw, and first braced frame bottom welding is at the top of second slider.

The invention further technically improves that: the second slide bar is the cylinder structure, the fifth slider is the cuboid structure, two the second slide is all welded in the inside of second braced frame, and the second slide passes through second spout and sixth slider swing joint, and is parallel between two second slide and the second slide bar, and the bottom welding of second braced frame is at the top of second slider, and is parallel between first braced frame and the second braced frame.

The invention further technically improves that: the seventh slider is the cuboid structure, and the third motor is installed at the top of support frame, the second screw runs through the seventh slider, and the third lead screw passes through second screw and seventh slider swing joint.

The invention further technically improves that: the third lead screw is the cylinder structure, the second slotted hole runs through the seventh slider, is provided with ball bearing in the middle part of the second slotted hole, and the third slide bar passes through second slotted hole and seventh slider swing joint, and is parallel between third lead screw and the third slide bar.

The invention further technically improves that: the two support frames are parallel, the two fixing seats are parallel, one side of one fixing seat is welded on one side of the two fourth sliding blocks and one side of the third sliding block, and one side of the other fixing seat is welded on one side of the two sixth sliding blocks and one side of the fifth sliding block.

The movable locking mechanism for installing the oil storage cabinet in the transformer comprises the following steps:

step one: firstly, a transformer which is not provided with a locking oil storage cabinet is placed at the top of a supporting plate, the oil storage cabinet is placed at the top of the transformer, a first motor is started, the first motor drives a first screw rod to rotate, the first screw rod drives a first sliding block to move back and forth, the first sliding block drives a screw locking machine at the bottom of a seventh sliding block to move back and forth, and when the screw locking machine moves to the upper side of the oil storage cabinet, the first motor is closed.

Step two: and starting the second motor, driving the second screw rod to rotate by the second motor, driving the third sliding block to move up and down by the second screw rod, driving the fixing seat to move up and down by the third sliding block, locking and fixing the oil storage cabinet inside the transformer by the screw locking machine at the bottom of the seventh sliding block, and closing the second motor after locking and fixing the oil storage cabinet.

Step three: the third motor is started, the third motor drives the third screw rod to rotate, the third screw rod drives the seventh sliding block to move left and right, the screw locking machine at the bottom of the seventh sliding block locks and fixes the oil storage cabinet at the top of the transformer in an all-round mode, the third motor is closed, after the screw locking machine locks the oil storage cabinet inside the transformer, the second motor is started, the screw locking machine is far away from the oil storage cabinet, the transformer after being installed and locked is transported, and when the next transformer oil storage cabinet is locked and installed, the steps are repeated.

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

according to the movable locking mechanism for installing the oil storage cabinet in the transformer, the uninstalled oil storage cabinet of the transformer is placed in the transformer, the transformer is integrally placed at the top of the supporting plate, the first screw rod drives the first sliding block to move back and forth through the first adjusting component, the first sliding block conveniently drives the screw locking machine to move back and forth, the front and back positions of the screw locking machine are conveniently adjusted, the screw locking machine performs omnibearing locking and fixing on the oil storage cabinet, the flexibility of locking and fixing on the oil storage cabinet of the transformer is realized, the first supporting component is arranged at the top of the supporting plate, the front and back movement of the screw locking machine is ensured to be more stable, the screw locking machine is mainly convenient to perform locking and fixing on the oil storage cabinet more accurately and stably, and the stability of the mechanism in installing and locking on the oil storage cabinet of the transformer is realized.

According to the movable locking mechanism for installing the transformer internal oil storage cabinet, the lifting assembly is adjusted, the upper and lower heights of the screw locking machine are adjusted, the screw locking machine can be further locked and fixed for transformer oil storage tanks of different specifications, flexibility of the mechanism in installing and locking the transformer oil storage cabinet is achieved, the first sliding ways are arranged on two sides of the second screw rod, stability in adjusting the upper and lower positions of the screw locking machine is guaranteed, shaking of the screw locking machine is avoided, locking and fixing of the transformer oil storage cabinet is facilitated, the second sliding bars are arranged in the middle of the second supporting frame, stability in moving up and down of the screw locking machine is guaranteed, locking and fixing of the mechanism to the transformer oil storage cabinet is facilitated, stability in locking and fixing of the screw locking machine in up and down movement of the transformer oil storage cabinet is guaranteed, and stability in installing and locking the transformer oil storage cabinet is facilitated.

According to the movable locking mechanism for installing the transformer internal oil storage cabinet, the left position and the right position of the screw locking machine are conveniently adjusted through the second adjusting component, on one hand, the mechanism can be further guaranteed to be locked and fixed according to transformer oil storage cabinets of different specifications, on the other hand, the position of the screw locking machine is adjusted, the mechanism is convenient to carry out the omnibearing screw locking on the transformer oil storage cabinet, the oil storage cabinet is fixed more stably and firmly, the flexibility of the mechanism when the mechanism is used for installing and locking the transformer oil storage cabinet is achieved, the stability of the screw locking machine when the position of the screw locking machine is adjusted is guaranteed, the screw locking machine is convenient to carry out the locking and fixing on the transformer oil storage cabinet, on the other hand, the labor can be saved, the working efficiency is improved, and on the other hand, the structure is guaranteed to be more stable when the mechanism is used for installing and locking the transformer oil storage cabinet.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

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

FIG. 2 is a schematic diagram of a structure of the adjusting assembly of the present invention.

FIG. 3 is a schematic view of a support assembly according to the present invention.

FIG. 4 is a schematic view of a lifting assembly according to the present invention.

Fig. 5 is a schematic view of a fourth slider structure according to the present invention.

Fig. 6 is a schematic view of a first slide structure according to the present invention.

Fig. 7 is a schematic view of a second structure of the support assembly of the present invention.

Fig. 8 is a schematic view of a second slide structure according to the present invention.

FIG. 9 is a schematic view of a sixth slider according to the present invention.

FIG. 10 is a schematic diagram of a second embodiment of the adjusting assembly of the present invention.

FIG. 11 is a schematic view of a seventh slider structure according to the present invention.

In the figure: 1. a support plate; 2. an adjusting component I; 201. a first screw rod; 202. a first slider; 203. a first screw hole; 204. a first baffle; 205. a first motor; 3. a first support assembly; 301. a first slide bar; 302. a second slider; 303. a first slot; 304. a second baffle; 4. the group price is improved; 401. a first support frame; 402. a second screw rod; 403. a third slider; 404. a second motor; 405. a first slideway; 406. a fourth slider; 407. a first chute; 5. a second supporting component; 501. a second support frame; 502. a second slide bar; 503. a fifth slider; 504. a second slideway; 505. a sixth slider; 506. a second chute; 6. an adjusting component II; 601. a third screw rod; 602. a seventh slider; 603. a third motor; 604. a third slide bar; 605. a support frame; 606. a fixing seat; 607. a screw locking machine; 608. a second screw hole; 609. and a second slot.

Description of the embodiments

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, a mobile locking mechanism for installing an oil storage cabinet in a transformer comprises a first adjusting component 2, a first supporting component 3, a lifting component 4, a second supporting component 5 and a second adjusting component 6, wherein a supporting plate 1 is arranged at the bottom of the first adjusting component 2, the first adjusting component 2 comprises a first screw rod 201, a first sliding block 202 and a first baffle 204, the two ends of the first screw rod 201 are movably connected with the first baffle 204, a first screw hole 203 is formed in the middle of the first sliding block 202, a first motor 205 is installed at one end of the first screw rod 201, the first screw rod 201 drives the first sliding block 202 to move back and forth through adjusting the first adjusting component 2, the first sliding block 202 is convenient to drive the screw locking machine 607 to move back and forth, the screw locking machine 607 is convenient to adjust the back and forth position of the screw locking machine 607, the screw locking machine 607 is comprehensively locked and fixed to the oil storage cabinet in aspects, the flexibility of the screw locking machine 607 for locking and fixing the oil storage cabinet of the transformer is realized, the first supporting component 3 is arranged on one side of the supporting plate 1, the supporting component 3 is arranged at the top of the supporting plate 1, the screw locking machine is guaranteed to move back and forth, the screw locking machine 607 is more stable, and the stable locking mechanism can be used for installing the oil storage cabinet more accurately and locking and stably.

The first support component 3 comprises a first slide bar 301, a second slide block 302 and a second baffle 304, a first slotted hole 303 is formed in the middle of the second slide block 302, the second baffle 304 is welded at two ends of the first slide bar 301, the top of the first slide block 202 is provided with a lifting component 4, the lifting component 4 is adjusted, the upper and lower heights of the screw locking machine 607 are adjusted, the screw locking machine 607 is further ensured to be locked and fixed for transformer oil tanks of different specifications, and the stability of the mechanism in the process of installing and locking the transformer oil tank is realized.

The lifting assembly 4 comprises a first supporting frame 401, a second screw rod 402, a first slide way 405 and a fourth slide way 406, a second motor 404 is installed at the top of the second screw rod 402, a third slide way 403 is movably connected to the second screw rod 402, first slide ways 405 are arranged on two sides of the second screw rod 402, the fourth slide way 406 is connected to the two first slide ways 405, a first slide way 407 is arranged in the middle of the fourth slide way 406, the first slide ways 405 are connected to the middle of the first slide way 407 in a clamping mode, the first slide ways 407 are arranged on two sides of the second screw rod 402, the screw locking machine 607 is prevented from shaking when the upper position and the lower position of the adjusting screw locking machine 607 are guaranteed, locking and fixing of a transformer oil storage cabinet is facilitated, and the second slide way 302 is provided with a supporting assembly II 5.

The second supporting component 5 comprises a second supporting frame 501, a second sliding rod 502, a second sliding way 504 and a sixth sliding block 505, the fifth sliding block 503 is movably connected to the second sliding rod 502, the second sliding rod 502 is arranged in the middle of the second supporting frame 501, the second sliding groove 506 is guaranteed to move up and down, the second supporting frame 401 and the second supporting frame 501 are more stable, the second sliding rod 502 is facilitated to lock and fix the transformer oil storage cabinet, the second sliding ways 504 are arranged on two sides of the second sliding rod 502, the second sliding ways 504 are clamped in the middle of the second sliding ways 506, the screw locking machine 607 is guaranteed to move up and down more stably, the locking and fixing of the mechanism to the transformer oil storage cabinet are facilitated, the stability of the mechanism when the transformer oil storage cabinet is installed and locked is achieved, the second sliding way 506 is guaranteed to be arranged in the middle of the sixth sliding block 505, the second supporting frame 401 and the second supporting frame 501 are provided with an adjusting component second 6, the left and right positions of the adjusting screw locking machine are adjusted conveniently, on the one hand, the fact that the mechanism can be locked and fixed to the transformer oil storage cabinet can be locked and fixed according to different transformer cabinets is guaranteed, and the whole position of the transformer oil storage cabinet can be locked and fixed by the adjusting mechanism is more stable, and the screw locking mechanism can be realized.

The second adjusting component 6 comprises a third screw rod 601, a seventh sliding block 602, a third sliding rod 604 and a supporting frame 605, wherein a third motor 603 is arranged at one end of the third screw rod 601, the seventh sliding block 602 is movably connected to the third screw rod 601, the supporting frame 605 is welded at two ends of the third sliding rod 604, the third sliding rod 604 is arranged in the middle of the seventh sliding block 602, the stability of the screw locking machine 607 on the transformer oil storage cabinet is guaranteed, the screw locking machine 607 is convenient to carry out locking fixation on the transformer oil storage cabinet, the stability of the mechanism when the mechanism is used for installing and locking the transformer oil storage cabinet is realized, the bottoms of the two supporting frames 605 are welded with fixing seats 606, the screw locking machine 607 is arranged at the bottom of the seventh sliding block 602, a second slot 609 is formed in one side of the seventh sliding block 602, the second slot 609 is locked and fixed on the transformer oil storage cabinet through the mechanism, on one hand, the labor can be saved, the working efficiency is improved, and on the other hand the stability of the structure on the transformer oil storage cabinet locking fixation is guaranteed.

The first slider 202 is the cuboid structure, and first slider 202 is in the top of backup pad 1, and the first slider 202 fore-and-aft movement of being convenient for, and then the front and back position of adjusting screw locking machine 607 has guaranteed that this mechanism carries out the omnidirectional locking to the transformer oil storage cabinet and fixes, and first screw 203 runs through first slider 202, and first lead screw 201 runs through first slider 202 through first screw 203, and first lead screw 201 is in the top of backup pad 1, and first baffle 204 is the cuboid structure, and two first baffle 204 bottoms all weld at the top of backup pad 1, swing joint between first lead screw 201 and the first slider 202.

The two second baffles 304 are both in a cuboid structure, the bottoms of the two second baffles 304 are welded at the top of the supporting plate 1, the first sliding rod 301 is in a cylinder structure, the first sliding rod 301 is arranged above the supporting plate 1, the first sliding rod 301 penetrates through the second sliding block 302 through the first slotted hole 303, a ball bearing is arranged in the middle of the first slotted hole 303, friction force between the second sliding block 302 and the first sliding rod 301 is reduced through the ball bearing arranged in the middle of the first slotted hole 303, smoothness and stability of the first adjusting component 2 in the front-back position of the adjusting bolt in the present year 607 are guaranteed, locking and fixing of the mechanism to the transformer oil tank are facilitated, the second sliding block 302 is arranged above the supporting plate 1, the front-back movement of the second sliding block 302 is facilitated, the front-back position of the screw locking machine 607 is adjusted, the mechanism is guaranteed to carry out omnibearing locking and fixing on the transformer oil tank, the first screw 201 is parallel to the first sliding rod 301, and the second sliding rod 301 is movably connected with the second sliding rod 302.

Two first slide ways 405 are welded in the first supporting frame 401, the bottom of the second screw rod 402 is movably connected with the bottom of the first supporting frame 401, the first slide ways 405 are movably connected with the fourth sliding block 406 through the first sliding groove 407, the two first slide ways 405 are parallel to the second screw rod 402, and the bottom of the first supporting frame 401 is welded at the top of the second sliding block 302.

The second slide bar 502 is the cylinder structure, and the fifth slider 503 is the cuboid structure, and two second slides 504 all weld in the inside of second carriage 501, and second slide 504 is parallel between two second slides 504 and the second slide bar 502 through second spout 506 and sixth slider 505 swing joint, and the bottom welding of second carriage 501 is at the top of second slider 302, is parallel between first carriage 401 and the second carriage 501.

The seventh slider 602 is rectangular, and the third motor 603 is installed at the top of support frame 605, and second screw 608 runs through seventh slider 602, and third lead screw 601 passes through second slotted hole 609 and seventh slider 602 swing joint.

The third lead screw 601 is the cylinder structure, and the second slotted hole 609 runs through seventh slider 602, and second slotted hole 609 middle part is provided with ball bearing, through being provided with ball bearing in second slotted hole 609 middle part and reducing the frictional force between third slide bar 604 and the seventh slider 602, be convenient for adjust more smooth and easy steady when the position about the second 6 adjusting screw lockers 607 of subassembly, third slide bar 604 passes through second slotted hole 609 and seventh slider 602 swing joint, parallel between third lead screw 601 and the third slide bar 604.

The two supporting frames 605 are parallel, the two fixing seats 606 are parallel, one side of one fixing seat 606 is welded on one side of the two fourth sliding blocks 406 and the third sliding blocks 403, and one side of the other fixing seat 606 is welded on one side of the two sixth sliding blocks 505 and the fifth sliding blocks 503.

The movable locking mechanism for installing the oil storage cabinet in the transformer comprises the following steps:

step one: firstly, a transformer which is not provided with a locking oil conservator is placed on the top of a supporting plate 1, the oil conservator is placed on the top of the transformer, a first motor 205 is started, the first motor 205 drives a first screw rod 201 to rotate, the first screw rod 201 drives a first sliding block 202 to move back and forth, the first sliding block 202 drives a screw locking machine 607 at the bottom of a seventh sliding block 602 to move back and forth, and when the screw locking machine 607 moves to the upper side of the oil conservator, the first motor 205 is closed.

Step two: the second motor 404 is started, the second motor 404 drives the second screw rod 402 to rotate, the second screw rod 402 drives the third sliding block 403 to move up and down, the third sliding block 403 drives the fixing seat 606 to move up and down, the screw locking machine 607 at the bottom of the seventh sliding block 602 locks and fixes the oil storage cabinet inside the transformer, and after the oil storage cabinet is locked and fixed, the second motor 404 is closed.

Step three: the third motor 603 is started, the third motor 603 drives the third screw rod 601 to rotate, the third screw rod 601 drives the seventh sliding block 602 to move left and right, the screw locking machine 607 at the bottom of the seventh sliding block 602 locks and fixes the oil storage cabinet inside the transformer in an all-round mode, the third motor 603 is closed, after the screw locking machine 607 locks the oil storage cabinet at the top of the transformer, the second motor 404 is started, the screw locking machine 607 is far away from the oil storage cabinet, the transformer after being installed and locked is transported, and when the next transformer oil storage cabinet is locked and installed, the steps are repeated.

When the oil conservator locking device is used, firstly, a transformer which is not provided with a locking oil conservator is placed at the top of the supporting plate 1, the oil conservator is placed in the transformer, the first motor 205 is started, the first motor 205 drives the first screw rod 201 to rotate, the first screw rod 201 drives the first sliding block 202 to move back and forth, the first sliding block 202 drives the screw locking machine 607 at the bottom of the seventh sliding block 602 to move back and forth, and when the screw locking machine 607 moves to the upper side of the oil conservator, the first motor 205 is closed.

Then, the second motor 404 is started, the second motor 404 drives the second screw rod 402 to rotate, the second screw rod 402 drives the third sliding block 403 to move up and down, the third sliding block 403 drives the fixing seat 606 to move up and down, the screw locking machine 607 at the bottom of the seventh sliding block 602 locks and fixes the oil storage cabinet at the top of the transformer, and after the oil storage cabinet is locked and fixed, the second motor 404 is closed.

Finally, the third motor 603 is started, the third motor 603 drives the third screw rod 601 to rotate, the third screw rod 601 drives the seventh sliding block 602 to move left and right, the screw locking machine 607 at the bottom of the seventh sliding block 602 locks and fixes the oil storage cabinet inside the transformer in an all-round manner, the third motor 603 is closed, after the screw locking machine 607 locks the oil storage cabinet at the top of the transformer, the second motor 404 is started, the screw locking machine 607 is far away from the oil storage cabinet, the transformer after being installed and locked is transported, and when the next transformer oil storage cabinet is locked and installed, the steps are repeated.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (9)

1. A remove locking mechanism for installation of transformer inside oil storage cabinet, including adjusting part one (2), supporting component one (3), lifting unit (4), supporting component two (5) and adjusting part two (6), its characterized in that: the bottom of the first adjusting component (2) is provided with a supporting plate (1), the first adjusting component (2) comprises a first screw rod (201), a first sliding block (202) and a first baffle plate (204), the two ends of the first screw rod (201) are movably connected with the first baffle plate (204), the middle part of the first sliding block (202) is provided with a first screw hole (203), one end of the first screw rod (201) is provided with a first motor (205), and one side of the supporting plate (1) is provided with a first supporting component (3);

the first supporting component (3) comprises a first sliding rod (301), a second sliding block (302) and a second baffle plate (304), a first slotted hole (303) is formed in the middle of the second sliding block (302), the second baffle plate (304) is welded at two ends of the first sliding rod (301), and a lifting component (4) is arranged at the top of the first sliding block (202);

the lifting assembly (4) comprises a first supporting frame (401), a second screw rod (402), a first slideway (405) and a fourth sliding block (406), a second motor (404) is installed at the top of the second screw rod (402), a third sliding block (403) is movably connected to the second screw rod (402), the first sliding blocks (405) are arranged on two sides of the second screw rod (402), the fourth sliding blocks (406) are connected to the two first sliding blocks (405), the first sliding grooves (407) are formed in the middle of the fourth sliding blocks (406), and a second supporting assembly (5) is arranged at the top of the second sliding block (302);

the second supporting component (5) comprises a second supporting frame (501), a second sliding rod (502), a second slideway (504) and a sixth sliding block (505), wherein a fifth sliding block (503) is movably connected to the second sliding rod (502), the second sliding rails (504) are arranged on two sides of the second sliding rod (502), a second sliding chute (506) is formed in the middle of the sixth sliding block (505), and an adjusting component II (6) is arranged between the first supporting frame (401) and the second supporting frame (501);

the second adjusting component (6) comprises a third screw rod (601), a seventh sliding block (602), a third sliding rod (604) and a supporting frame (605), wherein a third motor (603) is installed at one end of the third screw rod (601), the seventh sliding block (602) is movably connected to the third screw rod (601), the supporting frames (605) are welded at two ends of the third sliding rod (604), fixing seats (606) are welded at the bottoms of the supporting frames (605), a screw locking machine (607) is arranged at the bottoms of the seventh sliding blocks (602), a second screw hole (608) is formed in one side of the seventh sliding block (602), and a second slot hole (609) is formed in one side of the seventh sliding block (602).

2. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: the first sliding block (202) is of a cuboid structure, the first sliding block (202) is arranged above the supporting plate (1), the first screw hole (203) penetrates through the first sliding block (202), the first screw rod (201) penetrates through the first screw hole (203) and is arranged above the supporting plate (1), the first baffle (204) is of a cuboid structure, the bottoms of the two first baffle (204) are welded at the top of the supporting plate (1), and the first screw rod (201) and the first sliding block (202) are movably connected.

3. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: two second baffle (304) all are cuboid structure, and two second baffle (304) bottoms all weld at the top of backup pad (1), and first slide bar (301) are cylinder structure, and first slide bar (301) are in the top of backup pad (1), and first slide bar (301) run through second slider (302) through first slotted hole (303), and first slotted hole (303) middle part is provided with ball bearing, and second slider (302) are in the top of backup pad (1), and parallel between first lead screw (201) and first slide bar (301), swing joint between first slide bar (301) and second slider (302).

4. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: two first slide ways (405) are welded in the first supporting frame (401), the bottom of the second screw rod (402) is movably connected with the bottom of the first supporting frame (401), the first slide ways (405) are movably connected with the fourth slide block (406) through the first slide grooves (407), the two first slide ways (405) are parallel to the second screw rod (402), and the bottom of the first supporting frame (401) is welded at the top of the second slide block (302).

5. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: the second slide bar (502) is the cylinder structure, fifth slider (503) is the cuboid structure, two second slide (504) all weld the inside at second carriage (501), second slide (504) are through second spout (506) and sixth slider (505) swing joint, are parallel between two second slide (504) and second slide bar (502), the bottom welding of second carriage (501) is at the top of second slider (302), are parallel between first carriage (401) and second carriage (501).

6. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: the seventh sliding block (602) is of a cuboid structure, the third motor (603) is installed at the top of the supporting frame (605), the second screw hole (608) penetrates through the seventh sliding block (602), and the third screw rod (601) is movably connected with the seventh sliding block (602) through the second screw hole (608).

7. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: the third screw rod (601) is of a cylindrical structure, the second slotted hole (609) penetrates through the seventh sliding block (602), a ball bearing is arranged in the middle of the second slotted hole (609), the third sliding rod (604) is movably connected with the seventh sliding block (602) through the second slotted hole (609), and the third screw rod (601) is parallel to the third sliding rod (604).

8. A mobile locking mechanism for installation of an internal oil reservoir of a transformer as claimed in claim 1, wherein: the two support frames (605) are parallel, the two fixing seats (606) are parallel, one side of one fixing seat (606) is welded on one side of the two fourth sliding blocks (406) and one side of the third sliding block (403), and one side of the other fixing seat (606) is welded on one side of the two sixth sliding blocks (505) and one side of the fifth sliding block (503).

9. A method of using a mobile locking mechanism for installation of a transformer internal oil conservator as claimed in any one of claims 1 to 8, comprising the steps of:

step one: firstly, placing a transformer which is not provided with a locking oil storage cabinet on the top of a supporting plate (1), placing the oil storage cabinet on the top of the transformer, starting a first motor (205), driving a first screw rod (201) to rotate by the first motor (205), driving a first sliding block (202) to move back and forth by the first screw rod (201), driving a screw locking machine (607) at the bottom of a seventh sliding block (602) to move back and forth by the first sliding block (202), and closing the first motor (205) when the screw locking machine (607) moves to the upper part of the oil storage cabinet;

step two: starting a second motor (404), driving a second screw rod (402) to rotate by the second motor (404), driving a third sliding block (403) to move up and down by the second screw rod (402), driving a fixing seat (606) to move up and down by the third sliding block (403), locking and fixing an oil storage cabinet at the top of a transformer by a screw locking machine (607) at the bottom of a seventh sliding block (602), and closing the second motor (404) after locking and fixing the oil storage cabinet;

step three: starting a third motor (603), driving a third screw rod (601) to rotate by the third motor (603), driving a seventh sliding block (602) to move left and right by the third screw rod (601), locking and fixing an oil storage cabinet inside a transformer in an all-round manner by a screw locking machine (607) at the bottom of the seventh sliding block (602), closing the third motor (603), after the oil storage cabinet inside the transformer is locked by the screw locking machine (607), starting a second motor (404), keeping the screw locking machine (607) away from the oil storage cabinet, transferring the transformer after installation and locking, and repeating the steps when the next transformer oil storage cabinet is locked and installed.