CN113782308A

CN113782308A - A remove locking mechanism that is used for inside oil conservator of transformer to install

Info

Publication number: CN113782308A
Application number: CN202111066737.XA
Authority: CN
Inventors: 孙子亿
Original assignee: Anhui Zhengda Electric Power Construction Co ltd
Current assignee: Mengcheng Power Supply Co of State Grid Anhui Electric Power Co Ltd
Priority date: 2021-09-13
Filing date: 2021-09-13
Publication date: 2021-12-10
Anticipated expiration: 2041-09-13
Also published as: CN113782308B

Abstract

The invention discloses a movable locking mechanism for mounting an oil conservator 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 slide block to drive a screw locking machine to move back and forth, 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 conservator, the flexibility of the screw locking machine in locking and fixing the oil conservator of the transformer is realized, the first supporting component is arranged at the top of the supporting plate, the forward and back movement of the screw locking machine is ensured to be more stable, the second adjusting component is adjusted, the mechanism is further ensured to carry out locking and fixing according to the oil conservators of different specifications, the position of the screw locking machine is adjusted, and the omnibearing screw locking machine is convenient to be carried out by the mechanism on the oil conservator of the transformer, the transformer oil conservator is locked and fixed through the mechanism, so that labor can be saved, and the working efficiency is improved.

Description

A remove locking mechanism that is used for inside oil conservator of transformer to install

Technical Field

The invention relates to a locking mechanism, in particular to a movable locking mechanism for mounting an oil conservator in a transformer, and belongs to the technical field of electricity.

Background

The transformer stores up oil tank's primary action is to avoid oil and air contact in the oil tank, deteriorate with the oil oxidation, the infiltration moisture, reduce insulating properties, because large-scale transformer, it is bulky, the oil mass is also big, oil and air contact surface are big, after storing up oil tank through the installation, part oil just enters into storing up oil tank when oil thermal expansion, and when the oil cooling, part oil gets back to the oil tank from storing up oil tank again, can avoid insulating oil large tracts of land and empty gas contact like this, reduce oxidation and moisture infiltration, install very big improvement work efficiency to transformer stores up oil tank through removing the locking rack.

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

The purpose of the invention can be realized by the following technical scheme: a movable locking mechanism for mounting an oil conservator inside a transformer comprises a first adjusting assembly, a first supporting assembly, a lifting assembly, a second supporting assembly and a second adjusting assembly, wherein a supporting plate is arranged at the bottom of the first adjusting assembly, the first adjusting assembly comprises a first lead screw, a first sliding block and a first baffle, the two ends of the first lead screw are movably connected with the first baffle, a first screw hole is formed in the middle of the first sliding block, a first motor is mounted at one end of the first lead screw, and the first supporting assembly is arranged on one side of the supporting plate;

the first supporting assembly 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 assembly is arranged at the top of the first sliding block;

the lifting assembly comprises a first supporting frame, a second lead screw, first slide ways and fourth slide blocks, a second motor is mounted at the top of the second lead screw, the second lead screw is movably connected with a third slide block, the first slide ways are arranged on two sides of the second lead screw, the fourth slide blocks are connected to the two first slide ways, first slide grooves are formed in the middle of the fourth slide blocks, and a second supporting assembly is arranged at the top of the second slide block;

the second support assembly comprises a second support frame, a second slide bar, a second slide way and a sixth slide block, the second slide bar is movably connected with a fifth slide block, the second slide way is arranged on each of two sides of the second slide bar, a second slide way is arranged in the middle of the sixth slide block, and a second adjusting assembly is arranged between the first support frame and the second support frame;

the second adjusting assembly comprises a third lead screw, a seventh slider, a third slide bar and a support frame, a third motor is installed at one end of the third lead screw, a seventh slider is movably connected onto the third lead screw, the support frames are welded at two ends of the third slide bar, a fixing seat is welded at the bottom of each support frame, a screw locking machine is arranged at the bottom of each seventh slider, a second screw hole is formed in one side of each seventh slider, and a second screw hole is formed in one side of each seventh slider.

The invention has further technical improvements 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 first baffle bottoms all weld at the top of backup pad, swing joint between first lead screw and the first slider.

The invention has further technical improvements 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 just 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 parallel between first lead screw and the first slide bar in the top of backup pad, swing joint between first slide bar and the second slider.

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

The invention has further technical improvements that: the second slide bar is the cylinder structure, the fifth slider is the cuboid structure, two the second slide all welds in the inside of second carriage, and the second slide passes through second spout and sixth slider swing joint, and is parallel between two second slides and the second slide bar, and the bottom welding of second carriage is parallel at the top of second slider, between first carriage and the second carriage.

The invention has further technical improvements that: the seventh sliding block is of a cuboid structure, the third motor is installed at the top of the supporting frame, the second screw hole penetrates through the seventh sliding block, and the third screw rod is movably connected with the seventh sliding block through the second screw hole.

The invention has further technical improvements that: the third screw rod is of a cylindrical structure, the second slotted hole penetrates through the seventh sliding block, a ball bearing is arranged in the middle of the second slotted hole, the third sliding rod is movably connected with the seventh sliding block through the second slotted hole, and the third screw rod is parallel to the third sliding rod.

The invention has further technical improvements that: the two support frames are parallel to each other, the two fixing seats are parallel to each other, one side of one fixing seat is welded to one side of the two fourth sliding blocks and one side of the other fixing seat is welded to one side of the two sixth sliding blocks and one side of the fifth sliding block.

A movable locking mechanism for mounting an oil conservator inside a transformer specifically comprises the following steps:

the method comprises the following steps: firstly, a transformer without an oil storage cabinet is placed on the top of a supporting plate, the oil storage cabinet is placed on 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 position above the oil storage cabinet, the first motor is turned off.

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

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 carries out omnibearing locking and fixing on the oil conservator at the top of the transformer, the third motor is closed, after the screw locking machine locks the oil conservator inside the transformer, the second motor is started, the screw locking machine is kept away from the oil conservator, the transformer after being installed and locked is transported, and when the next transformer oil conservator is locked and installed, the steps are repeated.

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

1. the invention relates to a movable locking mechanism for installing an oil conservator in a transformer, which is characterized in that the oil conservator which is not installed is placed in the transformer, the whole transformer is placed at the top of a supporting plate, by adjusting the first adjusting component, the first screw rod drives the first slide block to move back and forth, so that the first slide block can drive the screw locking machine to move back and forth, the front and back positions of the screw locking machine can be adjusted conveniently, the screw locking machine can carry out omnibearing locking and fixing on the oil conservator, the flexibility of the screw locking machine in locking and fixing the transformer oil conservator is realized, the supporting component I is arranged at the top of the supporting plate, so that the front and back movement of the screw locking machine is more stable, the screw locking machine can be more accurately and stably locked and fixed to the oil conservator, and the stability of the mechanism to the transformer oil conservator during installation and locking is realized.

2. The movable locking mechanism for mounting the oil conservator in the transformer further ensures that the screw locking machine can be locked and fixed aiming at the oil conservators of the transformers with different specifications by adjusting the lifting component and further adjusting the upper and lower heights of the screw locking machine, realizes the flexibility of the mechanism when mounting and locking the oil conservator of the transformer, ensures more stability when adjusting the upper and lower positions of the screw locking machine by arranging the first slide rails on the two sides of the second screw rod, avoids causing the screw locking machine to shake, is favorable for locking and fixing the oil conservator of the transformer, ensures more stability of the up and down movement of the screw locking machine by arranging the second slide rail in the middle of the second support frame, is favorable for locking and fixing the oil conservator of the transformer, ensures more stability of the up and down movement of the screw locking machine by arranging the second slide rails on the two sides of the second slide rail, be favorable to this mechanism to lock fixedly to the transformer oil conservator, stability when having realized this mechanism to the transformer oil conservator installation locking.

3. The movable locking mechanism for mounting the oil conservator in the transformer is convenient to adjust the left and right positions of the screw locking machine by adjusting the second adjusting component, further ensures that the mechanism can be locked and fixed according to the oil conservators of the transformers with different specifications on one hand, and is convenient to carry out omnibearing screw locking on the oil conservator of the transformer by adjusting the position of the screw locking machine on the other hand, so that the oil conservator is more stably and firmly fixed, the flexibility of the mechanism in mounting and locking the oil conservator of the transformer is realized, the position of the screw locking machine is more stably adjusted by arranging the third slide bar in the middle of the seventh slide block, the screw locking machine is convenient to tightly lock and fix the oil conservator of the transformer, the stability of the mechanism in mounting and locking the oil conservator of the transformer is realized, and the oil conservator of the transformer is locked and fixed by the mechanism, on the one hand, the labor can be saved, the working efficiency is improved, and on the other hand, the structure is more stable to locking of the transformer oil conservator.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of an adjusting assembly according to 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 structural diagram of a second supporting 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 structure according to the present invention.

FIG. 10 is a schematic structural diagram of an 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. a first adjusting component; 201. a first lead screw; 202. a first slider; 203. a first screw hole; 204. a first baffle plate; 205. a first motor; 3. a first support component; 301. a first slide bar; 302. a second slider; 303. a first slot; 304. a second baffle; 4. the group price is promoted; 401. a first support frame; 402. a second lead screw; 403. a third slider; 404. a second motor; 405. a first slideway; 406. a fourth slider; 407. a first chute; 5. a second support 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. a second adjusting component; 601. a third screw rod; 602. a seventh slider; 603. a third motor; 604. a third slide bar; 605. a support frame; 606. a fixed seat; 607. a screw locking machine; 608. a second screw hole; 609. a second slot.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a movable locking mechanism for mounting an oil conservator inside 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 201, a first sliding block 202 and a first baffle 204, two ends of the first screw 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 arranged at one end of the first screw 201, the first screw 201 drives the first sliding block 202 to move back and forth by adjusting the first adjusting component 2, the first sliding block 202 drives a screw locking machine 607 to move back and forth, the front and back positions of the screw locking machine 607 are adjusted, the screw locking machine 607 is fastened and fixed to the oil conservator in an omnibearing manner, and the flexibility of the screw locking machine 607 to fasten and fix the oil conservator is realized, backup pad 1 one side is provided with supporting component 3, is provided with supporting component 3 through the top at backup pad 1, has guaranteed screw locking machine 607 seesaw more stable, and it is fixed mainly that screw locking machine 607 can be more accurate stable carry out the lock to the oil conservator of being convenient for, has realized the stability of this mechanism when locking the installation of transformer oil conservator.

The first supporting assembly 3 comprises a first sliding rod 301, a second sliding block 302 and a second baffle 304, a first slot 303 is formed in the middle of the second sliding block 302, the second baffles 304 are welded at two ends of the first sliding rod 301, a lifting assembly 4 is arranged at the top of the first sliding block 202, and the upper and lower heights of the screw locking machine 607 can be adjusted by adjusting the lifting assembly 4 (model: SMPS-LS-09 manufacturer: Authompus Automation technology Co., Ltd., Shenzhen city) so as to further ensure that the screw locking machine 607 can be locked and fixed aiming at transformer oil storage tanks with different specifications, and the stability of the mechanism in locking the installation of the transformer oil storage tank is realized.

Lifting unit 4 includes first carriage 401, second lead screw 402, first slide 405, fourth slider 406, second motor 404 is installed at second lead screw 402 top, swing joint has third slider 403 on the second lead screw 402, second lead screw 402 both sides all are provided with first slide 405, all be connected with fourth slider 406 on two first slides 405, first spout 407 has all been seted up at fourth slider 406 middle part, first slide 405 joint is at first spout 407 middle part, through be provided with first slide 407 in second lead screw 402 both sides, guaranteed more stable when adjusting screw locking machine 607 upper and lower position, avoid causing screw locking machine 607 to rock, be favorable to locking fixedly to transformer oil conservator, second slider 302 top is provided with supporting component two 5.

The second support assembly 5 comprises a second support frame 501, a second slide bar 502, a second slide way 504 and a sixth slide block 505, the second slide bar 502 is movably connected with a fifth slide block 503, the second slide bar 502 is arranged in the middle of the second support frame 501, so that the up-and-down movement of the screw locking machine 607 is more stable, the mechanism is favorable for locking and fixing the transformer conservator, the second slide ways 504 are arranged on both sides of the second slide bar 502, the second slide ways 504 are clamped in the middle of the second slide way 506, so that the up-and-down movement of the screw locking machine 607 is more stable, the mechanism is favorable for locking and fixing the transformer conservator, the stability of the mechanism in locking and mounting the transformer conservator is realized, the second slide way 506 is arranged in the middle of the sixth slide block 505, a second adjustment assembly 6 is arranged between the first support frame 401 and the second support frame 501, through adjusting part two 6, the position about convenient adjusting screw locking machine 607, on the one hand further guaranteed that this mechanism can carry out the lock tightly fixedly according to the transformer oil conservator of different specifications, on the other hand passes through the position of adjusting screw locking machine 607, be convenient for this mechanism to carry out omnidirectional screw locking machine to the transformer oil conservator, it is firm to make the fixed more stable of oil conservator, flexibility when having realized this mechanism to the installation lock tightly of transformer oil conservator.

The second adjusting component 6 comprises a third screw 601, a seventh slider 602, a third sliding rod 604 and a support frame 605, one end of the third screw 601 is provided with a third motor 603, the third screw 601 is movably connected with the seventh slider 602, the two ends of the third sliding rod 604 are both welded with the support frame 605, the third sliding rod 604 is arranged in the middle of the seventh slider 602, so that the position of the screw locking machine 607 can be more stably adjusted, the screw locking machine 607 can be conveniently locked and fixed to the transformer conservator, the stability of the mechanism to the transformer conservator can be realized, the bottoms of the two support frames 605 are both welded with the fixing seats 606, the bottom of the seventh slider 602 is provided with the screw locking machine 607, one side of the seventh slider 602 is provided with a second screw hole 608, the mechanism is used for locking and fixing the transformer conservator, on the one hand, labor can be saved, improve work efficiency, on the other hand has guaranteed that this structure is to the transformer oil conservator locking more stable.

First slider 202 is the cuboid structure, first slider 202 is in the top of backup pad 1, be convenient for first slider 202 seesaw, and then the front and back position of adjusting screw locking machine 607, it is fixed to have ensured that this mechanism carries out omnidirectional locking to the transformer oil conservator, first screw 203 runs through first slider 202, first lead screw 201 runs through first slider 202 through first screw 203, first lead screw 201 is in the top of backup pad 1, first baffle 204 is the cuboid structure, all weld at the top of backup pad 1 bottom two first baffles 204, 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 support plate 1, the first sliding rod 301 is in a cylindrical structure, the first sliding rod 301 is arranged above the support plate 1, the first sliding rod 301 penetrates through the second sliding block 302 through the first slotted hole 303, the ball bearing is arranged in the middle of the first slotted hole 303, the friction force between the second sliding block 302 and the first sliding rod 301 is reduced, the smoothness and the stability of the adjusting assembly I2 at the front and back positions of the adjusting bolt 607 in this year are ensured, the mechanism is favorable for locking and fixing the transformer oil conservator, the second sliding block 302 is arranged above the support plate 1, the forward and backward movement of the second sliding block 302 is facilitated, the forward and backward movement of the screw locking machine 607 is further adjusted, the omnibearing locking and fixing of the transformer oil conservator is ensured, the first screw 201 and the first sliding rod 301 are parallel, the first slide bar 301 and the second slide block 302 are movably connected.

Two first slide ways 405 are welded inside the first support frame 401, the bottom of the second screw rod 402 is movably connected with the bottom of the first support 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 and the second screw rod 402 are parallel, and the bottom of the first support frame 401 is welded on the top of the second slide block 302.

The second sliding rod 502 is a cylindrical structure, the fifth sliding block 503 is a rectangular parallelepiped structure, the two second sliding ways 504 are welded inside the second supporting frame 501, the second sliding way 504 is movably connected with the sixth sliding block 505 through the second sliding groove 506, the two second sliding ways 504 and the second sliding rod 502 are parallel, the bottom of the second supporting frame 501 is welded on the top of the second sliding block 302, and the first supporting frame 401 and the second supporting frame 501 are parallel.

The seventh sliding block 602 is a rectangular parallelepiped structure, the third motor 603 is mounted on the top of the supporting frame 605, the second screw hole 608 penetrates through the seventh sliding block 602, and the third screw 601 is movably connected with the seventh sliding block 602 through the second screw hole 608.

The third screw 601 is in a cylindrical structure, the second slot 609 penetrates through the seventh sliding block 602, a ball bearing is arranged in the middle of the second slot 609, the friction between the third sliding rod 604 and the seventh sliding block 602 is reduced by the ball bearing arranged in the middle of the second slot 609, the second adjusting assembly 6 can adjust the left and right positions of the screw locking machine 607 more smoothly and stably, the third sliding rod 604 is movably connected with the seventh sliding block 602 through the second slot 609, and the third screw 601 is parallel to the third sliding rod 604.

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

the method comprises the following steps: firstly, a transformer without an oil conservator is placed on the top of the supporting plate 1, the oil conservator is placed on the top of 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 part 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 slide block 403 to move up and down, the third slide block 403 drives the fixing seat 606 to move up and down, the screw locking machine 607 at the bottom of the seventh slide block 602 locks and fixes the oil storage cabinet in 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 carries out omnibearing locking and fixing on the oil conservator inside the transformer, the third motor 603 is closed, after the screw locking machine 607 locks the oil conservator at the top of the transformer, the second motor 404 is started, the screw locking machine 607 is far away from the oil conservator, the transformer after being installed and locked is transported, and when the next transformer oil conservator is locked and installed, the steps are repeated.

When the locking oil conservator is used, firstly, a transformer without an oil conservator locking device is placed at the top of the supporting plate 1, the oil conservator is placed inside the transformer, the first motor 205 is started, the first motor 205 drives the first screw rod 201 to rotate, then the first screw rod 201 drives the first sliding block 202 to move back and forth, then 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 turned on, the second motor 404 drives the second screw 402 to rotate, the second screw 402 drives the third slide block 403 to move up and down, the third slide block 403 drives the fixing seat 606 to move up and down, the screw locking machine 607 at the bottom of the seventh slide block 602 locks and fixes the oil conservator at the top of the transformer, and after the oil conservator is locked and fixed, the second motor 404 is turned off.

And 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 carries out omnibearing locking and fixing on the oil conservator inside the transformer, the third motor 603 is closed, after the screw locking machine 607 locks the oil conservator at the top of the transformer, the second motor 404 is started, the screw locking machine 607 is far away from the oil conservator, the transformer after being installed and locked is transported, and when the next transformer oil conservator is locked and installed, the steps are repeated.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms 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 utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A remove locking mechanism for installation of transformer inside oil conservator, includes adjusting part (2), supporting component (3), hoisting component (4), supporting component two (5) and adjusting part two (6), its characterized in that: a supporting plate (1) is arranged at the bottom of the first adjusting assembly (2), the first adjusting assembly (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), and a first supporting assembly (3) is arranged on one side of the supporting plate (1);

the supporting assembly I (3) comprises a first sliding rod (301), a second sliding block (302) and a second baffle (304), a first slotted hole (303) is formed in the middle of the second sliding block (302), the second baffle (304) is welded at two ends of the first sliding rod (301), and a lifting assembly (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 slide way (405) and a fourth slide block (406), a second motor (404) is installed at the top of the second screw rod (402), a third slide block (403) is movably connected to the second screw rod (402), the first slide way (405) is arranged on each of two sides of the second screw rod (402), the fourth slide blocks (406) are connected to the two first slide ways (405), a first sliding groove (407) is formed in the middle of each fourth slide block (406), and a second supporting assembly (5) is arranged at the top of the second slide block (302);

the second supporting assembly (5) comprises a second supporting frame (501), a second sliding rod (502), a second slideway (504) and a sixth sliding block (505), the second sliding rod (502) is movably connected with a fifth sliding block (503), the second slideway (504) is arranged on each of two sides of the second sliding rod (502), a second sliding groove (506) is formed in the middle of the sixth sliding block (505), and a second adjusting assembly (6) is arranged between the first supporting frame (401) and the second supporting frame (501);

the second adjusting assembly (6) comprises a third screw rod (601), a seventh sliding block (602), a third sliding rod (604) and a support frame (605), a third motor (603) is installed at one end of the third screw rod (601), the third screw rod (601) is movably connected with the seventh sliding block (602), the support frame (605) is welded at two ends of the third sliding rod (604), a fixed seat (606) is welded at the bottom of the support frame (605), a screw locking machine (607) is arranged at the bottom of the seventh sliding block (602), a second screw hole (608) is formed in one side of the seventh sliding block (602), and the second screw hole (608) is formed in one side of the seventh sliding block (602).

2. The mobile locking mechanism for installation of a transformer internal conservator according to claim 1, wherein: first slider (202) are the cuboid structure, and first slider (202) are in the top of backup pad (1), and first screw (203) run through first slider (202), and first lead screw (201) run through first slider (202) through first screw (203), first lead screw (201) are in the top of backup pad (1), first baffle (204) are the cuboid structure, and two first baffle (204) bottom all welds at the top of backup pad (1), swing joint between first lead screw (201) and first slider (202).

3. The mobile locking mechanism for installation of a transformer internal conservator according to claim 1, wherein: two second baffle (304) all are the cuboid structure, all weld at the top of backup pad (1) bottom two second baffle (304), first slide bar (301) are the cylinder structure, 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), first slotted hole (303) middle part is provided with ball bearing, second slider (302) are in the top of backup pad (1), it is parallel between first lead screw (201) and first slide bar (301), swing joint between first slide bar (301) and second slider (302).

4. The mobile locking mechanism for installation of a transformer internal conservator according to claim 1, wherein: the two first sliding ways (405) are welded inside 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 sliding way (405) is movably connected with the fourth sliding block (406) through the first sliding groove (407), the two first sliding 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).

5. The mobile locking mechanism for installation of a transformer internal conservator according to 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 in the inside of second carriage (501), and second slide (504) are through second spout (506) and sixth slider (505) swing joint, and 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), and parallel between first carriage (401) and the second carriage (501).

6. The mobile locking mechanism for installation of a transformer internal conservator according to claim 1, wherein: the seventh sliding block (602) is of a cuboid structure, the third motor (603) is installed at the top of the support 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. The mobile locking mechanism for installation of a transformer internal conservator according to 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) and the third sliding rod (604) are parallel.

8. The mobile locking mechanism for installation of a transformer internal conservator according to 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 sides of the two fourth sliding blocks (406) and the third sliding block (403), and one side of the other fixing seat (606) is welded on one sides of the two sixth sliding blocks (505) and the fifth sliding block (503).

9. A mobile locking mechanism for the installation of a conservator inside a transformer according to any of claims 1 to 8, the method comprising in particular the following steps:

the method comprises the following steps: firstly, a transformer without an oil conservator locking device is placed at the top of a support plate (1), the oil conservator is placed at 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: a second motor (404) is started, the second motor (404) drives a second screw rod (402) to rotate, the second screw rod (402) drives a third sliding block (403) to move up and down, the third sliding block (403) drives a fixed seat (606) to move up and down, a screw locking machine (607) at the bottom of a seventh sliding block (602) locks and fixes an oil conservator at the top of the transformer, and after the oil conservator is locked and fixed, the second motor (404) is closed;

step three: the method comprises the following steps of 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 the oil conservator inside the transformer in an all-dimensional mode by a screw locking machine (607) at the bottom of the seventh sliding block (602), closing the third motor (603), locking the oil conservator inside the transformer by the screw locking machine (607), starting a second motor (404), keeping the screw locking machine (607) away from the oil conservator, transferring the transformer after being locked, and repeating the steps when locking and installing the next oil conservator of the transformer.