CN113903589A

CN113903589A - Glue brushing device for reactor

Info

Publication number: CN113903589A
Application number: CN202111181387.1A
Authority: CN
Inventors: 张猛; 茆敏
Original assignee: Suzhou Yangmei Electric Technology Co ltd
Current assignee: Suzhou Yangmei Electric Technology Co ltd
Priority date: 2021-10-11
Filing date: 2021-10-11
Publication date: 2022-01-07
Anticipated expiration: 2041-10-11
Also published as: CN113903589B

Abstract

The invention discloses a glue brushing device for a reactor, which relates to the field of reactors and comprises a rack, a bottom plate, a pickup frame, a feeding and discharging assembly, a baffle plate, a push plate, a pressing device and a conveying belt; the baffle, the push plate and the two side plates enclose a rectangular area for limiting the iron core, the pickup frame is matched with the feeding and discharging assembly for use, the pickup frame can be driven to slide and brush glue for the iron core, and the iron core in the pickup frame can be supported and loosened above the rectangular area; the gluing and laminating processes can be realized once by once, so that the working efficiency is high, and the linear reciprocating motion is simple, so that the repeated positioning precision is high, and the cost is lower compared with that of a mechanical arm; after the stacked iron cores are compressed by the compressing device, the baffle plate descends, the push plate pushes the finished product forward, and the finished product can be pushed onto the conveying belt, so that automatic discharging is realized, and the working efficiency is further improved; because each iron core is coated with glue for fixing, the whole stability of the iron core is better.

Description

Glue brushing device for reactor

Technical Field

The invention relates to the field of reactors, in particular to a glue brushing device for a reactor.

Background

The reactor is also called an inductor and is generally used for inhibiting surge and harmonic current, and the reactor consists of three parts, namely an iron core, a coil framework and a coil.

The iron core of the reactor is generally preliminarily positioned by a positioning device, then is stacked by a worker or a manipulator matched with a sucker, and is fixed, and finally glue is coated on the outer side of the stacked iron core to fix a plurality of iron chips together. The manual work is piled up work load and is great, still need to pay attention to the quantity of iron core piece when piling up, and the manipulator cooperation sucking disc piles up, and is higher to the requirement of repeatability precision, and the cost is also higher relatively.

In addition, the connection between the iron core pieces is not tight due to the external fixing mode, and the gap between the iron core pieces is enlarged due to the vibration of the reactor along with the use of the reactor, so that the noise of the reactor is also large.

If glue can be coated between each iron core, the iron core pieces are bonded together, so that the stability of the whole iron core can be well improved, and the problem of large gap caused by vibration is solved.

Disclosure of Invention

The invention aims to provide a glue brushing device for a reactor, which is used for solving the problems in the prior art.

A glue brushing device for a reactor comprises a rack, a bottom plate, a piece taking frame, a feeding and discharging assembly, a baffle, a push plate, a pressing device and a conveying belt;

the iron core machining device comprises a rack, a baffle plate, a push plate and a conveying belt, wherein the bottom of the rack is fixedly connected with two side plates, the baffle plate, the push plate and the two side plates enclose a rectangular area for limiting an iron core, the baffle plate can lift at the front side of the rectangular area, the push plate can move towards the direction of the baffle plate to push the processed iron core onto the conveying belt, and the bottom plate can lift in the rectangular area;

the workpiece taking frame is connected to the rack in a sliding mode, a storage box fixedly connected with the rack is arranged above the front side of the workpiece taking frame, a sealing assembly is arranged at the bottom of the storage box and is linked with the workpiece taking frame to achieve blanking and material blocking of the storage box, and the workpiece taking frame can slide to be right below the storage box to achieve workpiece taking of the iron core;

the feeding and discharging assembly is used for driving the pickup frame to slide and brushing glue on the iron core, and can also support the iron core in the pickup frame and loosen the iron core above the rectangular area;

the pressing device is used for pressing the iron core in the rectangular area.

Preferably, get the centre of a frame and be equipped with the rectangle notch that supplies the iron core to lay, it is equipped with the spout to get both sides around the frame, two slide bars of fixedly connected with in the frame, get a frame and slide bar sliding connection, it is equipped with two connecting portion on the frame to get, the front end of slide bar still is equipped with proximity switch.

Preferably, go up the unloading subassembly and include preceding supporting block, back supporting block, coupling assembling and drive actuating cylinder, preceding supporting block and back supporting block all in slide bar sliding connection and lie in the front and back both sides of getting a frame, all be equipped with the bearing structure that can stretch out in the spout before and after the supporting block, be equipped with in the frame and supply spacing stopper one of preceding supporting block and be used for getting a spacing stopper two of frame, the back supporting block passes through coupling assembling with getting a frame and is connected, back supporting block and the output shaft fixed connection who drives actuating cylinder, it glues the box to go back fixedly connected with play on the supporting block, the bottom of going out gluey box is equipped with a plurality of glue outlets.

Preferably, coupling assembling includes spliced pole and connecting spring, the rear end of spliced pole passes connecting portion and is connected with back supporting block, and its front end is equipped with the dog, connecting spring overlaps and establishes on the spliced pole between dog and connecting portion.

Preferably, the pressing device comprises a pressing plate, a connecting plate and a pressing cylinder, the pressing plate is connected with the connecting plate through a buffering column, a pressurizing spring is sleeved on the buffering column between the pressing plate and the connecting plate, the connecting plate is fixedly connected with an output shaft of the pressing cylinder, and the pressing cylinder is fixedly connected with the rack.

Preferably, the sealing assembly comprises a plurality of sealing plates and a middle spring, and the sealing plates and the middle spring slide on the sliding rod at intervals from back to front in sequence.

Preferably, the baffle, the bottom plate and the push plate are all connected with the frame in a sliding mode, the baffle is fixedly connected with an output shaft of the lifting cylinder, the bottom plate is fixedly connected with an output shaft of the electric push rod, the push plate is fixedly connected with an output shaft of the discharging cylinder, and the lifting cylinder, the electric push rod and the discharging cylinder are all fixedly connected with the frame.

Compared with the prior art, the invention has the advantages that:

the pick-up frame is matched with the feeding and discharging assembly for use, the supporting structure can be inserted into the sliding groove and exceeds the sliding groove, when the pick-up frame slides to the storage box, the glue outlet box can automatically discharge glue, and the glue is coated above the iron chip;

when the pick-up frame slides to the lower part of the storage box, the iron chip automatically falls into the pick-up frame under the action of gravity, the support structure can support the iron chip so as to convey the iron chip to a rectangular area, and the automatic placement of the iron chip is realized under the action of the first limit block and the second limit block, and the processes of gluing and laminating can be realized once by once, so that the work efficiency is high, the simple linear reciprocating motion is realized, the repeated positioning precision is high, and the cost is lower compared with that of a mechanical arm;

after the stacked iron cores are compressed by the compressing device, the baffle plate descends, the push plate pushes the finished product forward, and the finished product can be pushed onto the conveying belt, so that automatic discharging is realized, and the working efficiency is further improved;

because each iron core is coated with glue for fixing, the whole stability of the iron core is better.

Drawings

FIG. 1 is an isometric view of the present invention;

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

FIG. 3 is a top view of the structure with portions of the frame and the compression unit removed;

FIG. 4 is a schematic structural view of a rectangular region surrounded by the baffle, the side plates and the push plate;

FIG. 5 is a schematic structural view of the pick-up frame, the loading and unloading assembly, and the sealing assembly;

fig. 6 is a sectional view of the extractor frame in a state where the extractor frame can support the core piece.

In the figure:

1-a frame, 2-a bottom plate, 21-an electric push rod, 3-a pickup frame, 31-a rectangular notch, 32-a chute and 33-a connecting part;

4-a feeding and discharging assembly, 41-a front supporting block, 42-a rear supporting block, 43-a connecting assembly, 431-a connecting column, 432-a connecting spring, 433-a stop block, 44-a driving cylinder, 45-a supporting structure, 46-a first limiting block, 47-a second limiting block, and 48-a glue discharging box;

5-baffle, 51-lifting cylinder, 6-push plate and 61-discharging cylinder;

7-a pressing device, 71-a pressing plate, 72-a connecting plate, 73-a pressing cylinder, 74-a buffer column and 75-a pressurizing spring;

8-conveyer belt, 9-side plate, 10-storage box, 11-sealing component, 111-sealing plate, 112-middle spring, 12-sliding rod and 13-approach switch.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 6, a glue brushing device for a reactor comprises a frame 1, a bottom plate 2, a pickup frame 3, a feeding and discharging assembly 4, a baffle 5, a push plate 6, a pressing device 7 and a conveying belt 8;

the bottom of the frame 1 is fixedly connected with two side plates 9, the baffle 5, the bottom plate 2 and the push plate 6 are all connected with the frame 1 in a sliding way, the baffle 5, the push plate 6 and the two side plates 9 enclose a rectangular area for limiting the iron core, the baffle 5 is fixedly connected with an output shaft of a lifting cylinder 51, the baffle 5 can be lifted and lowered at the front side of the rectangular area through the lifting cylinder 51, the push plate 6 is fixedly connected with an output shaft of the discharging cylinder 61, the push plate 6 can move towards the baffle 5 through the discharging cylinder 61 to push the processed iron core onto the conveyer belt 8, the bottom plate 2 is fixedly connected with an output shaft of the electric push rod 21, the bottom plate 2 can be lifted in a rectangular area through the electric push rod 21, and the electric push rod 21 can realize accurate pause of multi-section displacement compared with an air cylinder, so that the height of the iron chip on the uppermost layer of the bottom plate 2 is maintained unchanged. The lifting cylinder 51, the electric push rod 21 and the discharging cylinder 61 are all fixedly connected with the frame 1.

The workpiece taking frame 3 is connected to the rack 1 in a sliding mode, a storage box 10 fixedly connected with the rack 1 is arranged above the front side of the workpiece taking frame 3, a sealing assembly 11 is arranged at the bottom of the storage box 10, the sealing assembly 11 is linked with the workpiece taking frame 3 to achieve blanking and material blocking of the storage box 10, and the workpiece taking frame 3 can slide to be right below the storage box 10 to achieve workpiece taking of an iron core;

the feeding and discharging assembly 4 is used for driving the pickup frame 3 to slide and brushing glue on the iron core, and the feeding and discharging assembly 4 can also support the iron core in the pickup frame 3 and loosen the iron core above the rectangular area;

the pressing device 7 is used for pressing the iron core in the rectangular area.

In this embodiment, the pressing device 7 includes a pressing plate 71, a connecting plate 72 and a pressing cylinder 73, the pressing plate 71 is connected to the connecting plate 72 through a buffer column 74, a pressurizing spring 75 is sleeved on the buffer column 74 between the pressing plate 71 and the connecting plate 72, the connecting plate 72 is fixedly connected to an output shaft of the pressing cylinder 73, and the pressing cylinder 73 is fixedly connected to the frame 1.

In this embodiment, the sealing assembly 11 is composed of a plurality of sealing plates 111 and a middle spring 112, the sealing plates 111 and the middle spring 112 sequentially slide on the sliding rod 12 from back to front at intervals, the sealing plate 111 at the rearmost end is tightly attached to the front supporting block 41 under the action of the middle spring 112, so as to always provide a backward force to the front supporting block 41, and the sealing plate 111 at the rearmost end can move to be away from the bottom of the storage box 10 under the action of the thrust of the front supporting block, so as to make room for the pickup frame 3.

In this embodiment, get the centre of a frame 3 and be equipped with the rectangle notch 31 that supplies the iron core to lay, get around a frame 3 both sides and be equipped with spout 32, spout 32 supplies bearing structure 45 to pass, two slide bars 12 of fixedly connected with on the frame 1, slide bar 12 provide for parts such as getting a frame 3 and support the slip, get a frame 3 and slide bar 12 sliding connection, be equipped with two connecting portion 33 on getting a frame 3, the front end of slide bar 12 still is equipped with proximity switch 13, and proximity switch 13 is used for the count of iron core piece and controls electric putter 21's motion.

In this embodiment, go up unloading subassembly 4 and include preceding supporting block 41, back supporting block 42, coupling assembling 43 and drive actuating cylinder 44, preceding supporting block 41 and back supporting block 42 all in slide bar 12 sliding connection and lie in the front and back both sides of getting a frame 3, all be equipped with bearing structure 45 that can follow stretching out in spout 32 on preceding supporting block 41 and the back supporting block 42, when bearing structure 45 stretches out outside spout 32, can play the supporting role to the iron core piece.

In this embodiment, be equipped with on frame 1 and supply preceding supporting block 41 spacing stopper 46 and be used for getting a frame 3 spacing stopper two 47, back supporting block 42 with get a frame 3 and be connected through coupling assembling 43, back supporting block 42 with drive actuating cylinder 44's output shaft fixed connection, it glues box 48 to go back fixedly connected with play on the supporting block 42, the bottom that goes out gluey box 48 is equipped with a plurality of glue outlets, and the bottom that goes out gluey box 48 is provided with the sensor that detects the iron core piece and has or not.

In this embodiment, coupling assembling 43 includes spliced pole 431 and coupling spring 432, the rear end of spliced pole 431 passes connecting portion 33 and is connected with back supporting block 42, and its front end is equipped with dog 433, coupling spring 432 overlaps and establishes on spliced pole 431 between dog 433 and connecting portion 33, and coupling spring 432 can provide the pulling force effect for getting a frame 3 on the one hand, and on the other hand can be when getting a frame 3 and receive stopper two 47 spacing, does not restrict back supporting block 42 and continue the backward movement.

The working process and the principle thereof are as follows:

when the device is used, the iron core sheets are firstly filled in the storage box 10, the initial piece taking frame 3 is positioned right above the bottom plate 2, the distance from the bottom of the piece taking frame 3 to the upper surface of the bottom plate 2 is short, the sealing plate 111 is positioned at the bottom of the storage box 10, and the upper surface of the opening plate is flush with the bottom of the storage box 10, so that the iron core sheets in the storage box 10 can be prevented from falling.

When the material is taken, the driving cylinder 44 drives the rear supporting block 42 to move forward, the rear supporting block 42 sequentially pushes the taking frame 3, the front supporting block 41 and the sealing plate 111 to move, and the front supporting block 41 is tightly attached to the sealing plate 111 under the action of the spring in the moving process, so that the supporting structures 45 of the front supporting block 41 and the rear supporting block 42 are inserted into the sliding groove 32.

The bottom of the glue discharging box 48 is provided with a sensor (not shown in the figure) which can detect whether a core is below the box, when the core is detected, glue is automatically discharged onto the core, if no core is present, glue is not discharged,

as the distance between the sealing plates 111 is compressed and gradually moves forward from the bottom of the storage box 10, the proximity switch 13 detects the sealing plate 111 at the forefront, at the moment, the computer records the taking of the iron core once, and controls the electric push rod 21 to descend by a height equal to the thickness of the iron core sheet, so that the height from the iron core at the uppermost layer to the taking frame 3 and the glue outlet box 48 can be kept unchanged when the iron core is stacked next time.

The front support block 41 is first inserted into the bottom of the storage box 10, then the pick-up frame 3 is inserted into the bottom of the storage box 10, the rectangular notch 31 coincides with the opening at the bottom of the storage box 10, the core sheet falls into the rectangular notch 31 of the pick-up frame 3, and the core sheet can be supported in the rectangular notch 31 due to the support structure 45.

When the driving cylinder 44 drives the rear support block 42 to return, the front support block 41 is still in close contact with the sealing plate 111 by the action of the spring, and the support structure 45 is kept inserted into the chute 32. When the front supporting block 41 moves to the first limiting block 46, the front supporting block cannot move continuously, so that the front supporting block is fixed at the position under the action of the sealing plate 111 and the first limiting block 46. And the pickup frame 3 continues to move backwards under the action of the tension of the rear supporting block 42 under the action of the connecting assembly 43, the supporting structure 45 of the front supporting block 41 gradually retracts into the sliding groove 32, and when the pickup frame 3 moves to the second limiting block 47, the pickup frame 3 cannot move. Due to the cushioning effect of the connecting spring 432, the rear support block 42 can continue to move back a small distance so that the support structure 45 on the rear support block 42 is also retracted into the chute 32, thereby allowing the slug to fall without the support structure 45.

The baffle 5, the push plate 6 and the side plate 9 all have a limiting effect on the iron core in the falling process, so that the iron core can fall onto the bottom plate 2 or the original iron core on the bottom plate 2. If there is an iron core originally on the bottom plate 2, the glue on the lower layer iron core will make the two iron cores adhere together.

The process of getting a repeated piece and stacking the iron core piece afterwards, when the lamination quantity that proximity switch 13 recorded reached the default, drive actuating cylinder 44 and suspend, compress tightly air cylinder 73 drive connecting plate 72 for the clamp plate pushes down under the effect of pressure boost spring 75, further compresses tightly the iron core, make to connect more closely between the iron core piece, later compress tightly air cylinder 73 and reset, lift cylinder 51 drives baffle 5 and moves down, and the cylinder 61 of unloading promotes push pedal 6 and moves forward, with the iron core push on conveyer belt 8 can.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. A glue brushing device for a reactor is characterized by comprising a rack (1), a bottom plate (2), a pickup frame (3), a feeding and discharging assembly (4), a baffle (5), a push plate (6), a pressing device (7) and a conveying belt (8);

the iron core machining device is characterized in that two side plates (9) are fixedly connected to the bottom of the rack (1), a rectangular area for limiting an iron core is surrounded by the baffle plate (5), the push plate (6) and the two side plates (9), the baffle plate (5) can lift at the front side of the rectangular area, the push plate (6) can move towards the baffle plate (5) to push the processed iron core onto the conveying belt (8), and the bottom plate (2) can lift in the rectangular area;

the workpiece taking frame (3) is connected to the rack (1) in a sliding mode, a storage box (10) fixedly connected with the rack (1) is arranged above the front side of the workpiece taking frame (3), a sealing assembly (11) is arranged at the bottom of the storage box (10), the sealing assembly (11) is linked with the workpiece taking frame (3), blanking and material blocking of the storage box (10) are achieved, and the workpiece taking frame (3) can slide to the position right below the storage box (10) to achieve workpiece taking of an iron core;

the feeding and discharging assembly (4) is used for driving the pickup frame (3) to slide and brushing glue on the iron core, and the feeding and discharging assembly (4) can also support the iron core in the pickup frame (3) and loosen the iron core above the rectangular area;

the pressing device (7) is used for pressing the iron core in the rectangular area.

2. The glue brushing device for the reactor is characterized in that a rectangular notch (31) for placing an iron core is formed in the middle of the pickup frame (3), sliding grooves (32) are formed in the front side and the rear side of the pickup frame (3), two sliding rods (12) are fixedly connected to the rack (1), the pickup frame (3) is connected with the sliding rods (12) in a sliding mode, two connecting portions (33) are arranged on the pickup frame (3), and a proximity switch (13) is further arranged at the front end of each sliding rod (12).

3. The glue brushing device for the reactor according to claim 2, wherein the feeding and discharging assembly (4) comprises a front supporting block (41), a rear supporting block (42), a connecting assembly (43) and a driving cylinder (44), the front supporting block (41) and the rear supporting block (42) are slidably connected with a sliding rod (12) and are positioned at the front side and the rear side of the piece taking frame (3), supporting structures (45) capable of extending out of the sliding grooves (32) are arranged on the front supporting block (41) and the rear supporting block (42), a first limiting block (46) for limiting the front supporting block (41) and a second limiting block (47) for limiting the piece taking frame (3) are arranged on the machine frame (1), the rear supporting block (42) is connected with the piece taking frame (3) through the connecting assembly (43), and the rear supporting block (42) is fixedly connected with an output shaft of the driving cylinder (44), the back supporting block (42) is further fixedly connected with a glue outlet box (48), and the bottom of the glue outlet box (48) is provided with a plurality of glue outlets.

4. The glue brushing device for the reactor according to claim 3, wherein the connecting assembly (43) comprises a connecting column (431) and a connecting spring (432), the rear end of the connecting column (431) penetrates through the connecting part (33) and is connected with the rear supporting block (42), a stop block (433) is arranged at the front end of the connecting column (431), and the connecting spring (432) is sleeved on the connecting column (431) between the stop block (433) and the connecting part (33).

5. The glue brushing device for the reactor according to claim 1, characterized in that the pressing device (7) comprises a pressing plate (71), a connecting plate (72) and a pressing cylinder (73), the pressing plate (71) and the connecting plate (72) are connected through a buffer column (74), a pressurizing spring (75) is sleeved on the buffer column (74) between the pressing plate (71) and the connecting plate (72), the connecting plate (72) is fixedly connected with an output shaft of the pressing cylinder (73), and the pressing cylinder (73) is fixedly connected with the frame (1).

6. The glue brushing device for the reactor according to claim 1, characterized in that the sealing assembly (11) consists of a plurality of sealing plates (111) and intermediate springs (112), and the sealing plates (111) and the intermediate springs (112) are sequentially slid on the sliding rod (12) from back to front at intervals.

7. The glue brushing device for the reactor according to claim 1, characterized in that the baffle (5), the bottom plate (2) and the push plate (6) are all connected with the frame (1) in a sliding manner, the baffle (5) is fixedly connected with an output shaft of the lifting cylinder (51), the bottom plate (2) is fixedly connected with an output shaft of the electric push rod (21), the push plate (6) is fixedly connected with an output shaft of the discharging cylinder (61), and the lifting cylinder (51), the electric push rod (21) and the discharging cylinder (61) are all connected with the frame (1) in a fixed manner.