CN112530687B

CN112530687B - Quick tinning device of transformer

Info

Publication number: CN112530687B
Application number: CN202011357871.0A
Authority: CN
Inventors: 王晓华
Original assignee: Ganzhou Hexin Electronic Co ltd
Current assignee: Ganzhou Hexin Electronic Co ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2022-05-10
Anticipated expiration: 2040-11-27
Also published as: CN112530687A

Abstract

The invention relates to a quick tin-coating device, in particular to a quick tin-coating device for a transformer. The invention provides a transformer rapid tinning device which can be used for simultaneously tinning and cleaning a plurality of transformers and tinning at the same height. The invention provides a quick tin-coating device for a transformer, which comprises: the bottom plate is provided with a first bracket; the middle part of the first support is provided with a lifting mechanism; the first bracket is provided with a moving mechanism; the turnover mechanism is arranged on the moving mechanism, and the moving mechanism is matched with the turnover mechanism. The transformer can be conveyed to the lower side of the turnover mechanism through the upward movement of the lifting mechanism, the transformer can be clamped tightly through the turnover mechanism, the turnover mechanism can be driven to move to a tinning and cleaning position through the moving mechanism, and the rapid tinning and cleaning of the transformer can be realized through downward turnover of the turnover mechanism.

Description

Quick tinning device of transformer

Technical Field

The invention relates to a quick tin-coating device, in particular to a quick tin-coating device for a transformer.

Background

A transformer is a device that changes an alternating voltage using the principle of electromagnetic induction, and main components are a primary coil, a secondary coil, and an iron core (magnetic core).

The transformer need be through tin after can making the circuit board electrically conductive in process of production, general tin feeding mode all carries out tin feeding and abluent one by one through the staff, such mode not only work efficiency is low, and tin feeding is not accurate moreover, leads to the transformer quality to obtain not promoting in process of production.

Therefore, it is desirable to design a transformer fast tinning device capable of simultaneously tinning and cleaning a plurality of transformers and tinning at the same height, so as to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome general tin-coating mode and all carry out tin-coating and washing one by one through the staff, such mode not only work efficiency is low, and tin-coating is not accurate moreover, leads to the transformer to obtain the shortcoming that promotes in process of production quality, and the technical problem is: the transformer rapid tinning device can be used for tinning and cleaning a plurality of transformers at the same time and tinning at the same height.

The technical scheme is as follows: a quick tinning device for a transformer comprises a bottom plate, a first support and a lifting mechanism, wherein the first support is arranged on the bottom plate; the middle part of the first support is provided with a lifting mechanism; the first bracket is provided with a moving mechanism; the turnover mechanism is arranged on the moving mechanism, and the moving mechanism is matched with the turnover mechanism.

Further, the elevating mechanism includes: the two sides of the middle part of the first support are provided with first guide rods; the sliding plate is arranged between the two first guide rods in a sliding manner; the bottom of the sliding plate is provided with a first bearing seat; the second bearing seats are symmetrically arranged on the first bracket between the two first guide rods; the first rotating shaft is rotatably arranged between the two second bearing blocks; the first connecting rod is arranged on the first rotating shaft; the first bearing seat is rotatably provided with two second connecting rods through a support rod, and the two second connecting rods are rotatably connected with the first connecting rod through the support rod; the two ends of the first rotating shaft are provided with one-way bearings, and the inner rings of the two one-way bearings are connected with the two ends of the first rotating shaft; the outer rings of the two one-way bearings are provided with gears; the second bracket is arranged between one sides of the first brackets; the second bracket is provided with a cylinder; and two racks are arranged at one end of the cylinder telescopic rod close to the gear, and the two racks are meshed with the two gears.

Further, the moving mechanism includes: two first fixed blocks are symmetrically arranged on two sides of the first support; the frame body is arranged between two adjacent first fixed blocks; the two sides of the two frame bodies are provided with second fixed blocks; the four second fixed blocks are provided with third connecting rods; the first straight chute plate is arranged between the two third connecting rods on the same side; the first sliding blocks are arranged in the two first straight sliding groove plates in a sliding manner; the second guide rods are arranged between the two second fixed blocks on the same side; the sliding sleeves are arranged on two sides of the two first sliding blocks, and the four sliding sleeves are in sliding fit with the two second guide rods; the first elastic pieces are arranged between one sides of the four sliding sleeves and two sides of the two second guide rods; the handle is arranged on the sliding sleeve on one side.

Further, tilting mechanism includes: the two first sliding blocks are rotatably provided with a first rotating shaft, and the two first rotating shafts penetrate through the two first sliding blocks; the opposite ends of the two second rotating shafts are provided with third fixed blocks; the two third fixing blocks are internally provided with third guide rods; the clamping blocks are symmetrically arranged between the two third guide rods in a sliding manner; and the second elastic piece is arranged between the two sides of the two clamping blocks.

Further, still include: the two ends of each clamping block are provided with a fourth fixed block; the fifth fixing blocks are arranged on two sides of the sliding plate; the wedge plates are symmetrically arranged on the two fifth fixing blocks.

Further, still include: the two ends of the second rotating shafts, which are opposite to each other, are provided with first rotating blocks; the two first rotating blocks are provided with first fixing rods; the third elastic pieces are arranged between one sides of the two first rotating blocks and one sides of the two second rotating shafts; the four second fixed blocks are provided with wedge blocks.

Further, still include: two second fixing rods are arranged on the two sides of the frame body close to one side of the cylinder; the second straight sliding groove plate is arranged between two adjacent second fixing rods; a sliding rod is arranged between the two second straight sliding chute plates in a sliding manner; the sliding rod is provided with a scraper; the fourth elastic piece is arranged between the two ends of the sliding rod and one side of each of the two second straight sliding chute plates; the two ends of the sliding rod are provided with third fixing rods; and the two first sliding blocks are provided with sixth fixing blocks, and the two sixth fixing blocks are matched with the two third fixing rods.

Further, still include: the bottom parts of the two sliding sleeves, which are close to one side of the cylinder, are provided with fourth fixed rods; the bottom ends of the two fourth fixing rods are respectively provided with a third bearing seat; the two third bearing seats are internally and rotatably provided with a second rotating block through a supporting rod; the two racks are respectively provided with a straight sliding groove, and the two straight sliding grooves are internally provided with a second sliding block in a sliding manner; and the two second sliding blocks are back to one side and are provided with fifth fixing rods, and the two fifth fixing rods are matched with the two second rotating blocks.

Compared with the prior art, the invention has the following advantages: 1. the transformer can be conveyed to the lower side of the turnover mechanism through the upward movement of the lifting mechanism, the transformer can be clamped tightly through the turnover mechanism, the turnover mechanism can be driven to move to a tinning and cleaning position through the moving mechanism, and the rapid tinning and cleaning of the transformer can be realized through downward turnover of the turnover mechanism.

2. The slide can place a plurality of transformers simultaneously.

3. The clamp splice can press from both sides the transformer tightly, and the second pivot rotates and then overturns and has realized that the transformer goes up tin fast.

4. The scraper slides rightwards to scrape off the solidified tin on the inner surface of the frame body.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 3 is a schematic perspective view of the moving mechanism of the present invention.

Fig. 4 is a schematic perspective view of the turnover mechanism of the present invention.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

Fig. 6 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

In the above drawings: 1: bottom plate, 2: first bracket, 3: elevating mechanism, 31: first guide bar, 32: slide plate, 33: first bearing seat, 34: second bearing housing, 35: first rotating shaft, 36: first link, 37: second link, 38: one-way bearing, 39: gear, 310: second bracket, 311: cylinder, 312: rack, 4: moving mechanism, 41: first fixing block, 42: frame, 43: second fixed block, 44: third link, 45: first straight chute plate, 46: first slider, 47: second guide bar, 48: sliding sleeve, 49: first elastic member, 410: handle, 5: turnover mechanism, 51: second rotating shaft, 52: third fixed block, 53: third guide bar, 54: clamping block, 55: second elastic member, 6: fourth fixed block, 7: fifth fixed block, 8: wedge plate, 9: first rotation block, 10: first fixing lever, 11: third elastic member, 12: wedge block, 13: second fixing lever, 14: second straight chute plate, 15: slide bar, 16: scraper, 17: fourth elastic member, 18: third fixing lever, 19: sixth fixed block, 20: fourth fixing lever, 21: third bearing housing, 22: second turning block, 23: second slider, 24: and a fifth fixing rod.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, etc. are used to describe the figures and are not meant to limit the scope of the invention as defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

As shown in fig. 1, a transformer quick tin-coating device comprises a bottom plate 1, a first support 2, a lifting mechanism 3, a moving mechanism 4 and a turnover mechanism 5, wherein the first support 2 is arranged on the bottom plate 1, the lifting mechanism 3 is arranged in the middle of the first support 2, the moving mechanism 4 is arranged on the first support 2, the turnover mechanism 5 is arranged on the moving mechanism 4, and the moving mechanism 4 is matched with the turnover mechanism 5.

When the transformer needs to be tinned, a certain amount of tin and clean water are poured into the moving mechanism 4 respectively by a worker, then the worker places the transformer on the lifting mechanism 3, then the worker starts the lifting mechanism 3, the lifting mechanism 3 moves upwards, when the lifting mechanism 3 moves to a certain position, the worker pulls the turnover mechanism 5 in a back direction, then the turnover mechanism 5 resets to clamp the transformer on the lifting mechanism 3, the lifting mechanism 3 moves downwards under the action of gravity to reset, then the worker pushes the moving mechanism 4 rightwards, the moving mechanism 4 moves rightwards to drive the turnover mechanism 5 to move rightwards, when the turnover mechanism 5 moves right above the moving mechanism 4, the worker turns the turnover mechanism 5 downwards to tin the transformer, after the tinning of the transformer is finished, the worker turns the turnover mechanism 5 upwards, then the worker pushes the moving mechanism 4 leftwards, moving mechanism 4 moves left and drives tilting mechanism 5 and move left, when tilting mechanism 5 moved to directly over the left side of moving mechanism 4, the staff overturned tilting mechanism 5 downwards, and then made the transformer wash, treat that the transformer washs the completion after, the staff overturns tilting mechanism 5 upwards, promote moving mechanism 4 right again, moving mechanism 4 moves right and drives tilting mechanism 5 and move right, at this moment the staff stimulate tilting mechanism 5 dorsad and unclamp the transformer, the transformer drops the staff thereupon and collects. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2, 3 and 4, based on embodiment 1, the lifting mechanism 3 includes a first guide rod 31, a sliding plate 32, a first bearing seat 33, a second bearing seat 34, a first rotating shaft 35, a first connecting rod 36, a second connecting rod 37, a one-way bearing 38, a gear 39, a second bracket 310, a cylinder 311 and a rack 312, the first guide rod 31 is disposed on both front and rear sides of the middle portion of the first bracket 2, the sliding plate 32 is slidably disposed between the two first guide rods 31, the first bearing seat 33 is disposed at the bottom of the sliding plate 32, the second bearing seats 34 are symmetrically disposed on the front and rear sides of the first bracket 2 between the two first guide rods 31, the first rotating shaft 35 is rotatably disposed between the two second bearing seats 34, the first connecting rod 36 is disposed on the first rotating shaft 35, the first bearing seat 33 is rotatably disposed with two second connecting rods 37 by a strut, the two second connecting rods 37 are rotatably connected with the first connecting rod 36 by a strut, one-way bearings 38 are arranged at the front end and the rear end of the first rotating shaft 35, the inner rings of the two one-way bearings 38 are connected with the two ends of the first rotating shaft 35, gears 39 are arranged on the outer rings of the two one-way bearings 38, a second support 310 is arranged between the right sides of the first supports 2, an air cylinder 311 is arranged on the second support 310, two racks 312 are arranged on the telescopic rods of the air cylinder 311, and the two racks 312 are meshed with the two gears 39 respectively.

When the transformer needs to be tinned, a worker firstly pours a certain amount of tin and clean water into the moving mechanism 4 respectively, then places the transformer on the sliding plate 32, then controls the cylinder 311, the telescopic rod of the cylinder 311 contracts to drive the rack 312 to move rightwards to be meshed with the gear 39, the gear 39 rotates to drive the first rotating shaft 35 to rotate, the first rotating shaft 35 rotates to drive the first connecting rod 36 to rotate upwards, the first connecting rod 36 rotates upwards to drive the second connecting rod 37 to rotate upwards, the second connecting rod 37 rotates upwards to drive the sliding plate 32 to slide upwards on the first guide rod 31, when the transformer on the sliding plate 32 is positioned under the turnover mechanism 5, the worker pulls the turnover mechanism 5 backwards, the turnover mechanism 5 resets to clamp the transformer, when the telescopic rod of the cylinder 311 contracts to drive the rack 312 to move rightwards to be disengaged with the gear 39, under the action of the gravity of the sliding plate 32, the sliding plate 32 slides downwards on the first guide rod 31 to reset, the sliding plate 32 slides downwards to drive the second connecting rod 37 to rotate downwards to reset, the second connecting rod 37 rotates downwards to drive the first connecting rod 36 to rotate downwards to reset, the first connecting rod 36 rotates downwards to drive the first rotating shaft 35 to rotate, then the worker controls the air cylinder 311, the telescopic rod of the air cylinder 311 extends to drive the rack 312 to move leftwards to be meshed with the gear 39 to reset, the gear 39 rotates under the action of the one-way bearing 38 to enable the first rotating shaft 35 not to rotate any more, then the worker pushes the moving mechanism 4 rightwards, the moving mechanism 4 moves rightwards to drive the turnover mechanism 5 to move rightwards, when the turnover mechanism 5 moves right above the moving mechanism 4, the worker turns the turnover mechanism 5 downwards to further tin the transformer, after the tin on the transformer is finished, the worker turns the turnover mechanism 5 upwards, then the worker pushes the moving mechanism 4 leftwards, moving mechanism 4 moves left and drives tilting mechanism 5 and move left, when tilting mechanism 5 moved to directly over the left side of moving mechanism 4, the staff overturned tilting mechanism 5 downwards, and then made the transformer wash, treat that the transformer washs the completion after, the staff upwards overturns tilting mechanism 5, the staff loosens moving mechanism 4, moving mechanism 4 moves right and drives tilting mechanism 5 and move right, at this moment the staff spurs tilting mechanism 5 dorsad and unclamps the transformer, the transformer drops the staff thereupon and collects. The device has simple structure, and can be used for placing a plurality of transformers for tinning.

The moving mechanism 4 comprises a first fixed block 41, a frame 42, a second fixed block 43, a third connecting rod 44, a first straight sliding groove plate 45, a first sliding block 46, a second guide rod 47, a sliding sleeve 48, a first elastic part 49 and a handle 410, wherein the first fixed block 41 is symmetrically arranged at the front side and the rear side of the first bracket 2, the frame 42 is arranged between the front and rear two first fixed blocks 41 at the left side and the right side, the second fixed blocks 43 are arranged at the front side and the rear side of the two frame 42, the third connecting rods 44 are arranged on the four second fixed blocks 43, the first straight sliding groove plate 45 is arranged between the two third connecting rods 44 at the front side and between the two third connecting rods 44 at the rear side, the first sliding block 46 is arranged in the two first straight sliding groove plates 45 in a sliding manner, the second guide rod 47 is arranged between the two second fixed blocks 43 at the front side and between the two second fixed blocks 43 at the rear side, the two sliding sleeves 48 are arranged at the two sides of the two first sliding blocks 46, the sliding sleeve 48 is slidably fitted with the second guide rod 47 on the same side, a first elastic member 49 is arranged between the sliding sleeve 48 and the second guide rod 47, and a handle 410 is arranged on the left side of the sliding sleeve 48 at the rear part.

When the transformer needs to be tinned, a certain amount of tin is firstly added into the frame body 42 on the right side by a worker, a certain amount of clear water is added into the frame body 42 on the left side by the worker, after the turnover mechanism 5 is reset to clamp the transformer tightly, the worker pushes the handle 410 rightwards, the handle 410 moves rightwards to drive the first sliding block 46 to slide rightwards in the first straight sliding chute plate 45, the first sliding block 46 slides rightwards to drive the sliding sleeve 48 to slide rightwards on the second guide rod 47, the first elastic piece 49 on the right side is compressed, the first elastic piece 49 on the left side is stretched, the first sliding block 46 slides rightwards to drive the turnover mechanism 5 to move rightwards, when the turnover mechanism 5 moves right above the frame body 42 on the right side, the worker turns the turnover mechanism 5 downwards to enable the transformer to be in contact with the tin in the frame body 42 to complete tinning, and after the tinning of the transformer is completed, the worker turns the turnover mechanism 5 upwards, then, the worker pushes the handle 410 leftwards, the handle 410 moves leftwards to drive the first sliding block 46 to slide leftwards in the first straight sliding groove plate 45, the first sliding block 46 slides leftwards to drive the sliding sleeve 48 to slide leftwards on the second guide rod 47, the first elastic piece 49 on the left side is compressed, the first elastic piece 49 on the right side is stretched, the first sliding block 46 slides leftwards to drive the turnover mechanism 5 to move leftwards, when the turnover mechanism 5 moves right above the frame body 42 on the right side, the worker turns over the turnover mechanism 5 downwards to further clean the transformer, after the transformer is cleaned, the worker turns over the turnover mechanism 5 upwards to reset, the worker releases the handle 410, the first elastic piece 49 on the left side resets to drive the sliding sleeve 48 to slide rightwards to reset on the second guide rod 47, the sliding sleeve 48 slides rightwards to drive the first sliding block 46 to slide rightwards in the first straight sliding groove plate 45 to reset, the first sliding block 46 slides rightwards to drive the turnover mechanism 5 to move rightwards, at the moment, a worker pulls the turnover mechanism 5 backwards to loosen the transformer, and the transformer falls along with the turnover mechanism to be collected by the worker. The device has simple structure, and can move the turnover mechanism 5 for tinning and cleaning.

Tilting mechanism 5 is including second pivot 51, third fixed block 52, third guide arm 53, clamp splice 54 and second elastic component 55, equal rotary type is provided with second pivot 51 in two first sliders 46, two second pivots 51 run through two first sliders 46, two second pivot 51 one ends in opposite directions all are provided with third fixed block 52, all be provided with third guide arm 53 in two third fixed blocks 52, the symmetry slidingtype is provided with clamp splice 54 between two third guide arms 53, all be provided with second elastic component 55 between two clamp splice 54 both sides.

When the transformer on the sliding plate 32 is positioned under the clamping block 54, a worker pulls the clamping block 54 back, the clamping block 54 slides back on the third guide rod 53, the second elastic piece 55 is stretched, then the worker loosens the clamping block 54, the second elastic piece 55 resets to drive the clamping block 54 to slide in the opposite direction of the third guide rod 53, the clamping block 54 slides in the opposite direction to reset to clamp the transformer, the first sliding block 46 slides right to drive the third fixed block 52 to move rightwards, the third fixed block 52 moves rightwards to drive the clamping block 54 to move rightwards, when the clamping block 54 moves rightwards to be positioned over the right frame body 42, the worker rotates the second rotating shaft 51, the second rotating shaft 51 rotates to drive the third fixed block 52 to rotate downwards, the third fixed block 52 rotates downwards to drive the clamping block 54 to turn downwards, so that the transformer is contacted with tin in the frame body 42 to finish tin coating, and after the tin coating on the transformer is finished, the worker rotates the second rotating shaft 51, the second rotating shaft 51 rotates to drive the third fixing block 52 to rotate upwards, the third fixing block 52 rotates upwards to drive the clamping block 54 to turn upwards, when the first sliding block 46 slides leftwards to drive the third fixing block 52 to move leftwards, the third fixing block 52 moves leftwards to drive the clamping block 54 to move leftwards, the clamping block 54 moves leftwards to be right above the left frame body 42, the operator rotates the second rotating shaft 51, the second rotating shaft 51 rotates to drive the third fixing block 52 to rotate downwards, the third fixing block 52 rotates downwards to drive the clamping block 54 to turn downwards, so that the transformer is cleaned, after the transformer is cleaned, the operator rotates the two rotating shafts, the second rotating shaft 51 rotates to drive the third fixing block 52 to rotate upwards, the third fixing block 52 rotates upwards to drive the clamping block 54 to turn upwards, the operator releases the handle 410, the left first elastic piece 49 resets to drive the sliding sleeve 48 to slide rightwards to reset on the second guide rod 47, the sliding sleeve 48 slides rightwards to drive the first sliding block 46 to slide rightwards and reset in the first straight sliding groove plate 45, the first sliding block 46 slides rightwards to drive the third fixing block 52 to move rightwards, the third fixing block 52 moves rightwards to drive the clamping block 54 to move rightwards, at the moment, a worker pulls the clamping block 54 in a back direction, the clamping block 54 slides in a back direction on the third guide rod 53, the second elastic piece 55 is stretched, the clamping block 54 slides in a back direction to stop clamping the transformer, the transformer drops along with the transformer and is collected by the worker, the transformer drops, the worker loosens the clamping block 54, and the second elastic piece 55 resets to drive the clamping block 54 to slide rightwards and reset on the third guide rod 53. The device is simple in structure, and can clamp the transformer tightly, so that the transformer can be turned over to realize quick tin feeding.

Example 3

As shown in fig. 5, 6 and 7, the clamping device further comprises a fourth fixing block 6, a fifth fixing block 7 and wedge plates 8, the fourth fixing blocks 6 are arranged at the front end and the rear end of each of the two clamping blocks 54, the fifth fixing blocks 7 are arranged at the front side and the rear side of the sliding plate 32, and the wedge plates 8 are symmetrically arranged on the two fifth fixing blocks 7 in the left-right direction.

The sliding plate 32 slides upwards to drive the wedge-shaped plate 8 to contact with the fourth fixing block 6 and extrude the fourth fixing block 6, the fourth fixing block 6 moves backwards to drive the clamping block 54 to slide backwards on the third guide rod 53, the second elastic piece 55 is stretched, the sliding plate 32 slides downwards to drive the wedge-shaped plate 8 to separate from the contact with the fourth fixing block 6, the second elastic piece 55 resets to drive the clamping block 54 to slide oppositely on the third guide rod 53, the clamping block 54 slides oppositely to drive the fourth fixing block 6 to move oppositely to reset, and the clamping blocks 54 slide oppositely to further clamp the transformer. The device has a simple structure, can automatically clamp the transformer, and does not need manual operation any more.

Still including first pivot piece 9, first dead lever 10, third elastic component 11 and wedge 12, two second pivot 51 one end dorsad all are provided with first pivot piece 9, all are provided with first dead lever 10 on two first pivot pieces 9, all are provided with third elastic component 11 between two first pivot 9 one sides and two second pivot 51 one sides, all are provided with wedge 12 on four second fixed blocks 43.

The novel multifunctional sliding frame is characterized by further comprising second fixing rods 13, second straight sliding groove plates 14, sliding rods 15, a scraper 16, a fourth elastic part 17, third fixing rods 18 and sixth fixing blocks 19, the second fixing rods 13 are symmetrically arranged on the left side and the right side of the frame body 42 on the right side in a front-back mode, the second straight sliding groove plates 14 are arranged between the two second fixing rods 13 on the front side and between the two second fixing rods 13 on the rear side, the sliding rods 15 are arranged between the two second straight sliding groove plates 14 in a sliding mode, the scraper 16 is arranged on the sliding rods 15, the fourth elastic part 17 is arranged between the two ends of each sliding rod 15 and one side of each second straight sliding groove plate 14, the third fixing rods 18 are arranged at the front end and the rear end of each sliding rod 15, the sixth fixing blocks 19 are arranged on the two first sliding blocks 46, and the two sixth fixing blocks 19 are matched with the two third fixing rods 18.

The first sliding block 46 slides rightwards to drive the sixth fixed block 19 to contact with the third fixed rod 18 and push the third fixed rod 18 rightwards, the third fixed rod 18 moves rightwards to drive the sliding rod 15 to slide rightwards in the second straight chute plate 14, the fourth elastic element 17 is compressed, the sliding rod 15 slides rightwards to drive the scraper 16 to slide rightwards to scrape off tin solidified on the inner surface of the frame body 42, when the first sliding block 46 slides rightwards to drive the right first fixed rod 10 to contact with the inclined surface of the right wedge-shaped block 12, the first fixed rod 10 rotates upwards to drive the first rotating block 9 to rotate upwards, the third elastic element 11 deforms, the first rotating block 9 rotates upwards to drive the second rotating shaft 51 to rotate, the second rotating shaft 51 rotates to drive the third fixed block 52 to rotate downwards, the third fixed block 52 rotates downwards to drive the clamping block 54 to turn downwards, so that the transformer contacts with the tin in the frame body 42, and then tin feeding is completed, after the tinning of the transformer is finished, the first sliding block 46 slides leftwards to drive the sixth fixed block 19 to be separated from contact with the third fixed rod 18, the fourth elastic part 17 resets to drive the sliding rod 15 to slide leftwards in the second straight sliding chute plate 14, the sliding rod 15 slides leftwards to drive the third fixed rod 18 to move leftwards, the first sliding block 46 slides leftwards to drive the right first fixed rod 10 to be separated from contact with the inclined plane of the right wedge-shaped block 12, the third elastic part 11 resets to drive the first rotating block 9 to rotate downwards, the first fixed rod 10 rotates downwards to drive the first rotating block 9 to rotate downwards, the first rotating block 9 rotates downwards to drive the second rotating shaft 51 to rotate, the second rotating shaft 51 rotates to drive the third fixed block 52 to rotate upwards, the third fixed block 52 rotates upwards to drive the clamping block 54 to turn upwards, when the clamping block 54 moves leftwards to be right above the left frame body 42, the left first fixed rod 10 is in contact with the inclined plane of the left wedge-side wedge-shaped block 12, the first fixed rod 10 rotates upwards to drive the first rotating block 9 to rotate upwards, the third elastic part 11 deforms, the first rotating block 9 rotates upwards to drive the second rotating shaft 51 to rotate, the second rotating shaft 51 rotates to drive the third fixed block 52 to rotate downwards, the third fixed block 52 rotates downwards to drive the clamping block 54 to turn downwards, and further the transformer is cleaned, after the transformer is cleaned, the first sliding block 46 slides rightwards to drive the left first fixed rod 10 to be separated from the inclined plane of the left wedge-shaped block 12, the third elastic part 11 resets to drive the first rotating block 9 to rotate downwards, the first fixed rod 10 rotates downwards to drive the first rotating block 9 to rotate downwards, the first rotating block 9 rotates downwards to drive the second rotating shaft 51 to rotate, the second rotating shaft 51 rotates to drive the third fixed block 52 to rotate upwards, and the third fixed block 52 rotates upwards to drive the clamping block 54 to turn upwards to reset. This device simple structure can overturn clamp splice 54 automatically, realizes going up tin fast, and scraper blade 16 slides right and can scrape off the tin that the framework 42 internal surface solidifies.

Still including fourth dead lever 20, third bearing frame 21, second turning block 22, second slider 23 and fifth dead lever 24, two sliding sleeve 48 bottoms on right side all are provided with fourth dead lever 20, two fourth dead lever 20 bottoms all are provided with third bearing frame 21, all be provided with second turning block 22 through the branch rotary type in two third bearing frame 21, a word spout has all been opened on two racks 312, it is provided with second slider 23 all to slidingtype in two word spouts, two second sliders 23 all are provided with fifth dead lever 24 to one side dorsad, two fifth dead levers 24 cooperate with two second turning blocks 22 respectively.

When the rack 312 moves rightwards to drive the second sliding block 23 to contact with the leftmost side of the word chute, the second sliding block 23 moves rightwards to drive the fifth fixing rod 24 to move rightwards, the fifth fixing rod 24 moves rightwards to drive the fourth fixing rod 20 to move rightwards through the second rotating block 22, the fourth fixing rod 20 moves rightwards to drive the sliding sleeve 48 to slide rightwards on the second guide rod 47, the sliding sleeve 48 slides rightwards to drive the first sliding block 46 to slide rightwards in the first straight chute plate 45, the first sliding block 46 slides rightwards to further realize the rightwards movement of the clamping block 54 to tin the transformer, after the tin coating is finished, the first sliding block 46 slides leftwards to drive the second rotating block 22 to rotate upwards and not to contact with the fifth fixing rod 24, the first sliding block 46 slides leftwards to drive the sliding sleeve 48 to slide leftwards on the second guide rod 47, the sliding sleeve 48 slides leftwards to drive the first sliding block 46 to slide leftwards in the first straight chute plate 45, the leftward sliding of the first slider 46 enables the leftward movement of the clamping block 54 to clean the transformer. This device simple structure can drive first slider 46 and slide right at first straight sliding chute board 45 after the transformer presss from both sides tightly, carries out quick tinning to the transformer.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a quick tinning device of transformer, characterized by includes:

the device comprises a bottom plate (1), wherein a first support (2) is arranged on the bottom plate (1);

the middle part of the first bracket (2) is provided with a lifting mechanism (3);

the moving mechanism (4) is arranged on the first bracket (2);

the turnover mechanism (5) is arranged on the moving mechanism (4), and the moving mechanism (4) is matched with the turnover mechanism (5);

the moving mechanism (4) includes:

two first fixing blocks (41) are symmetrically arranged on two sides of the first bracket (2);

the frame body (42) is arranged between two adjacent first fixed blocks (41);

the two sides of the two frame bodies (42) are respectively provided with a second fixed block (43);

the four second fixed blocks (43) are provided with third connecting rods (44); the first straight sliding groove plate (45) is arranged between the two third connecting rods (44) on the same side;

the first sliding blocks (46) are arranged in the two first straight sliding groove plates (45) in a sliding manner;

the second guide rod (47) is arranged between the two second fixed blocks (43) on the same side;

the sliding sleeves (48) are arranged on two sides of the two first sliding blocks (46), and the four sliding sleeves (48) are in sliding fit with the two second guide rods (47);

the first elastic pieces (49) are arranged between one sides of the four sliding sleeves (48) and two sides of the two second guide rods (47);

the handle (410) is arranged on the sliding sleeve (48) on one side of the handle (410);

the turning mechanism (5) comprises:

the two first sliding blocks (46) are rotatably provided with a second rotating shaft (51), and the two second rotating shafts (51) penetrate through the two first sliding blocks (46);

the opposite ends of the two second rotating shafts (51) are provided with third fixed blocks (52);

the third guide rods (53) are arranged in the two third fixed blocks (52);

the clamping blocks (54) are symmetrically and slidably arranged between the two third guide rods (53); and a second elastic piece (55), wherein the second elastic piece (55) is arranged between the two sides of the two clamping blocks (54).

2. The transformer rapid tinning device according to claim 1, characterized in that the lifting mechanism (3) comprises:

the two sides of the middle part of the first bracket (2) are respectively provided with a first guide rod (31);

a sliding plate (32) is arranged between the two first guide rods (31) in a sliding manner;

the bottom of the sliding plate (32) is provided with a first bearing seat (33);

the second bearing seats (34) are symmetrically arranged on the first bracket (2) between the two first guide rods (31);

the first rotating shaft (35) is rotatably arranged between the two second bearing seats (34);

the first connecting rod (36) is arranged on the first rotating shaft (35);

the first bearing seat (33) is provided with two second connecting rods (37) in a rotating mode through supporting rods, and the two second connecting rods (37) are connected with the first connecting rod (36) in a rotating mode through the supporting rods;

the two ends of the first rotating shaft (35) are provided with one-way bearings (38), and the inner rings of the two one-way bearings (38) are connected with the two ends of the first rotating shaft (35);

the outer rings of the two one-way bearings (38) are provided with gears (39);

the second bracket (310) is arranged between one sides of the first brackets (2);

the air cylinder (311) is arranged on the second bracket (310);

and one end of the telescopic rod of the cylinder (311) close to the gear (39) is provided with two racks (312), and the two racks (312) are meshed with the two gears (39).

3. The transformer rapid tinning device according to claim 2, further comprising:

the fourth fixed blocks (6) are arranged at the two ends of the two clamping blocks (54);

the fifth fixing blocks (7) are arranged on two sides of the sliding plate (32);

wedge plates (8) are symmetrically arranged on the two fifth fixing blocks (7).

4. The transformer rapid tinning device according to claim 3, further comprising:

the two ends, back to the other end, of the two second rotating shafts (51) are provided with the first rotating blocks (9);

the two first rotating blocks (9) are respectively provided with a first fixing rod (10);

third elastic pieces (11), wherein the third elastic pieces (11) are arranged between one sides of the two first rotating blocks (9) and one sides of the two second rotating shafts (51);

the wedge blocks (12) are arranged on the four second fixing blocks (43).

5. The transformer rapid tinning device according to claim 4, further comprising:

two second fixing rods (13) are arranged on two sides of the frame body (42) close to one side of the air cylinder (311);

a second straight sliding groove plate (14) is arranged between two adjacent second fixing rods;

a sliding rod (15) is arranged between the two second straight sliding groove plates (14) in a sliding manner;

the scraper (16) is arranged on the sliding rod (15);

a fourth elastic piece (17), wherein the fourth elastic piece (17) is arranged between the two ends of the sliding rod (15) and one side of each of the two second straight chute plates (14);

the third fixing rod (18) is arranged at both ends of the sliding rod (15); and the two first sliding blocks (46) are respectively provided with a sixth fixing block (19), and the two sixth fixing blocks (19) are matched with the two third fixing rods (18).

6. The transformer rapid tinning device according to claim 5, further comprising:

the bottom parts of the two sliding sleeves (48) close to one side of the cylinder (311) are respectively provided with a fourth fixed rod (20);

the bottom ends of the two fourth fixing rods (20) are respectively provided with a third bearing seat (21);

the second rotating blocks (22) are rotatably arranged in the two third bearing seats (21) through supporting rods;

the two racks (312) are respectively provided with a straight sliding groove, and the two straight sliding grooves are internally provided with the second sliding block (23) in a sliding manner;

and the two second sliding blocks (23) are respectively provided with a fifth fixing rod (24) at one side back to the fifth fixing rod (24), and the two fifth fixing rods (24) are matched with the two second rotating blocks (22).