CN111871724B - Magnetic steel gluing conveying line with automatic lifting device and gluing method - Google Patents

Abstract

The invention relates to a magnetic steel gluing conveying line with an automatic lifting device and a gluing method, and belongs to the field of magnetic steel gluing. Including the transfer chain support, be equipped with the doubly fast chain transfer chain of one deck on the transfer chain support, the top of the doubly fast chain transfer chain of one deck is equipped with the doubly fast chain transfer chain of two layers, automatic lifting and conveying mechanism of belt and the double-deck belt transfer chain of arranging in proper order, the doubly fast chain transfer chain input of two layers is equipped with elevating system, and the output is connected with the automatic lifting and conveying mechanism of belt, be equipped with the equidistant frock board of a plurality of on the doubly fast chain transfer chain of two layers, be equipped with on frock board direction of advance one side with transfer chain support fixed connection's the cylinder first that blocks. Compared with the prior art, the invention has the beneficial effects that: the magnetic steel of the invention moves on the speed-multiplying chain conveying line along with the tooling plate, each station is specially operated manually, the labor division is clear, the labor intensity is low, and the efficiency is improved.

Description

Magnetic steel gluing conveying line with automatic lifting device and gluing method

Technical Field

The invention relates to a magnetic steel gluing conveying line with an automatic lifting device and a gluing method, and belongs to the field of magnetic steel gluing.

Background

The magnetic steel is generally an alnico alloy, the magnetic steel is synthesized by several hard strong metals, such as iron, aluminum, nickel, cobalt and the like, sometimes copper, niobium and tantalum, and is used for manufacturing the super-hardness permanent magnet alloy, so that the magnetic steel gluing is a crucial production process and is concerned by all circles, but the magnetic steel gluing on the market at present has three defects, and when the magnetic steel gluing on the first market and the current market is carried out, the magnetic steel gluing needs to be moved along with the magnetic steel manually, so that the labor intensity is high, and the efficiency is low; secondly, the glue has strong taste during gluing, which affects the working environment of workers; thirdly, the gluing personnel frequently touch the shell, the curing effect is not ideal, and the qualification rate of finished products is low, so that a magnetic steel gluing conveying line with an automatic lifting device and a gluing method are urgently needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a magnetic steel gluing conveying line with an automatic lifting device and a gluing method.

The technical scheme for solving the technical problems is as follows:

a magnetic steel gluing conveying line with an automatic lifting device comprises a conveying line support, wherein a first-layer speed-multiplying chain conveying line is arranged on the conveying line support, a second-layer speed-multiplying chain conveying line, an automatic belt lifting conveying mechanism and a double-layer belt conveying line are sequentially arranged above the first-layer speed-multiplying chain conveying line, the input end of the second-layer speed-multiplying chain conveying line is provided with a lifting mechanism, and the output end of the second-layer speed-multiplying chain conveying line is connected with the automatic belt lifting conveying mechanism; the input end of the automatic belt lifting and conveying mechanism is connected with the output end of the double-layer speed-multiplying chain conveying line, and the output end of the automatic belt lifting and conveying mechanism is connected with the double-layer belt conveying line; the double-layer speed chain conveying line is provided with a plurality of tool plates at equal intervals, and a blocking cylinder A fixedly connected with the conveying line support is arranged on one side of the advancing direction of the tool plates.

Preferably, the automatic belt lifting and conveying mechanism comprises mounting plates fixedly mounted on two sides of the conveying line support, a vertical guide rail A is arranged on the upper side of the inner wall of each mounting plate, and a guide rail C is arranged on the lower side of each mounting plate; a first sliding block and a third sliding block which are connected in a sliding mode are arranged on the first guide rail and the third guide rail respectively, a first support and a third support which are connected fixedly are arranged on the first sliding block and the third sliding block respectively, and a first lifting conveying belt and a second lifting conveying belt are arranged on the first support and the third support respectively.

Preferably, the bracket A and the bracket C are fixedly connected through angle steel, the bracket A is positioned under the bracket C, and the fixedly connected cylinder A is arranged under the bracket A.

Preferably, double-deck belt conveyor is including being equipped with one deck belt conveyor and the double-deck belt conveyor that is parallel to each other, and one deck belt conveyor is located double-deck belt conveyor under, vertical distance between one deck lift conveyer and the double-deck lift conveyer equals the distance between one deck belt conveyor and the double-deck belt conveyor.

Preferably, the output end of the layer of belt conveying line is provided with a glue removing platform.

Preferably, a curing table is arranged on one side of the layer of double-speed chain conveying line.

Preferably, the conveying direction of the one-layer speed-multiplying chain conveying line is opposite to that of the two-layer speed-multiplying chain conveying line, the one-layer belt conveying line and the two-layer belt conveying line.

Preferably, elevating system includes lifting support, is equipped with four vertical guide rails second on the lifting support, all is equipped with slider second on the vertical guide rail second, is equipped with fixed connection's mounting bracket between four slider second, and the mounting bracket top is equipped with the power drum transfer chain, and the below is equipped with cylinder second.

Preferably, a blocking cylinder B is arranged at the output end of the two-layer speed chain conveying line.

A gluing method of a magnetic steel gluing conveying line with an automatic lifting device comprises the following steps: the gluing method comprises the following gluing steps:

firstly, fixing a shell on a tooling plate by using bolts;

secondly, a circle of glue is beaten on the position of the inner wall of the shell away from the bottom 2/3 according to a reverse time needle;

thirdly, gluing the shell bottom plate, and then transversely and longitudinally punching the shell bottom plate into a shape like a Chinese character 'jing';

step four, sequentially putting four pieces of magnetic steel, and ensuring that the side surfaces and the bottom surface of the magnetic steel are coated with glue;

step five, gluing the top of the magnetic steel, and firstly, transversely and then longitudinally gluing the top of the magnetic steel into a shape like a Chinese character 'jing', so that the edge of the shell is also coated with glue;

step six, gluing the ears of the cover plate, placing the cover plate on the shell to be extruded forcibly after gluing, extruding the redundant glue out and cleaning the redundant glue by cloth;

step seven, placing a plastic base plate on the top of the cover plate, and placing a pressing plate on the plastic base plate, wherein the plastic base plate prevents the glue overflowing from the cover plate from adhering to the pressing plate; finally, the cover plate ears and the shell are fixed together by bolts, so that the cover plate is prevented from deviating; and neatly placing the steel plates on the first-layer belt conveying line and the second-layer belt conveying line for curing for 30 minutes to finish the gluing of the magnetic steel, then detaching the finished products, placing the finished products on a curing table, and simultaneously placing the tooling plates back on the first-layer double-speed chain conveying line.

Compared with the prior art, the invention has the beneficial effects that: firstly, the magnetic steel moves on the speed-multiplying chain conveying line along with the tooling plate, each station is specially and manually operated, the labor division is clear, the labor intensity is low, and the efficiency is improved; secondly, the sealing cover and the air outlet are arranged on the conveying line support, the glued smell is discharged from the inside of the sealing cover through the air outlet, the glue smell is prevented from being diffused in a workshop, and the working environment of workers is further improved; and thirdly, the shell is completely fixed on a tooling plate of the double-speed chain conveying line, in the gluing process, gluing personnel touch the shell and cannot cause the shell to move, the personnel cannot touch the product during curing, the curing effect is improved, and the qualification rate of finished products is improved.

Drawings

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

Fig. 2 is a schematic structural diagram of the lifting mechanism.

Fig. 3 is a schematic structural view of the automatic belt lifting and conveying mechanism.

Fig. 4 is a schematic structural diagram of a two-layer speed chain conveying line.

Fig. 5 is a partially enlarged view of a in fig. 4.

Fig. 6 is a front view of the present invention.

Fig. 7 is a flow chart of the gluing method of the invention.

In the figure, 1, a conveyor line support; 2. a layer of double-speed chain conveying line; 3. a two-layer speed chain conveying line; 31. assembling a plate; 32. blocking the cylinder A; 33. blocking the cylinder B; 4. a double-layer belt conveyor line; 41. a layer of belt conveyor line; 42. a two-layer belt conveying line; 5. the belt automatic lifting transmission mechanism; 51. a layer of lifting conveyor belt; 52. a second layer of lifting conveyor belt; 53. a guide rail A; 54. a first sliding block; 55. a bracket A; 56. a bracket C; 57. a guide rail C; 58. a slide block C; 59. Mounting a plate; 6. a lifting mechanism; 61. a power roller conveyor line; 62. a mounting frame; 63. a vertical guide rail B; 64. a slide block B; 65. a lifting support; 66. a cylinder B; 7. a glue removing platform; 8. a curing station; 9. a cylinder A; 10. and (5) angle steel.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1 to 6, a magnetic steel gluing conveyor line with an automatic lifting device comprises a conveyor line support 1, a one-layer speed-multiplying chain conveyor line 2 is arranged on the conveyor line support 1, two layers of speed-multiplying chain conveyor lines 3, an automatic belt lifting and conveying mechanism 5 and a double-layer belt conveyor line 4 are arranged above the one-layer speed-multiplying chain conveyor line 2 in sequence, a lifting mechanism 6 is arranged at an input end of the two-layer speed-multiplying chain conveyor line 3, and an output end of the two-layer speed-multiplying chain conveyor line is connected with the automatic belt lifting and conveying mechanism 5; the input end of the automatic belt lifting and conveying mechanism 5 is connected with the output end of the double-layer speed chain conveying line 3, and the output end of the automatic belt lifting and conveying mechanism is connected with the double-layer belt conveying line 4; be equipped with the frock board 31 of a plurality of equidistant on the double-deck chain transfer chain 3, be equipped with the first 32 of cylinder that blocks with 1 fixed connection of transfer chain support in frock board 31 advancing direction one side.

The belt automatic lifting and conveying mechanism 5 comprises mounting plates 59 fixedly mounted on two sides of the conveying line support 1, vertical guide rail nails 53 are arranged on the upper side of the inner walls of the mounting plates 59, and guide rail nails 57 are arranged on the lower side of the inner walls of the mounting plates 59; a first sliding block 54 and a third sliding block 58 which are connected in a sliding mode are arranged on the first guide rail 53 and the third guide rail 57 respectively, a first support 55 and a third support 56 which are fixedly connected are arranged on the first sliding block 54 and the third sliding block 58 respectively, and a first layer of lifting conveyor belt 51 and a second layer of lifting conveyor belt 52 are arranged on the first support 55 and the third support 56 respectively.

The bracket A55 and the bracket C56 are fixedly connected through angle steel 10, the bracket A55 is positioned under the bracket C56, and a fixedly connected cylinder A9 is arranged under the bracket A55.

Double-deck belt conveyor 4 is including being equipped with one deck belt conveyor 41 and the double-deck belt conveyor 42 that are parallel to each other, and one deck belt conveyor 41 is located double-deck belt conveyor 42 under, vertical distance between one deck lift conveyer 51 and the double-deck lift conveyer 52 equals the distance between one deck belt conveyor 41 and the double-deck belt conveyor 42.

And the output end of the layer of belt conveying line 41 is provided with a glue removing platform 7.

And a curing table 8 is arranged on one side of the one-layer speed chain conveying line 2.

The conveying directions of the one-layer speed-multiplying chain conveying line 2, the two-layer speed-multiplying chain conveying line 3, the one-layer belt conveying line 41 and the two-layer belt conveying line 42 are opposite.

Elevating system 6 includes lifting support 65, is equipped with four vertical guide rails second 63 on lifting support 65, all is equipped with slider second 64 on the vertical guide rail second 63, is equipped with fixed connection's mounting bracket 62 between four slider second 64, and the mounting bracket 62 top is equipped with power cylinder transfer chain 61, and the below is equipped with cylinder second 66.

And a blocking cylinder B33 is arranged at the output end of the two-layer speed chain conveying line 3.

A gluing method of a magnetic steel gluing conveying line with an automatic lifting device comprises the following steps: the gluing method comprises the following gluing steps:

firstly, fixing a shell on a tooling plate 31 by using bolts;

secondly, a circle of glue is beaten on the position of the inner wall of the shell away from the bottom 2/3 according to a reverse time needle;

thirdly, gluing the shell bottom plate, and then transversely and longitudinally punching the shell bottom plate into a shape like a Chinese character 'jing';

step four, sequentially putting four pieces of magnetic steel, and ensuring that the side surfaces and the bottom surface of the magnetic steel are coated with glue;

step five, gluing the top of the magnetic steel, and firstly, transversely and then longitudinally gluing the top of the magnetic steel into a shape like a Chinese character 'jing', so that the edge of the shell is also coated with glue;

step six, gluing the ears of the cover plate, placing the cover plate on the shell to be extruded forcibly after gluing, extruding the redundant glue out and cleaning the redundant glue by cloth;

step seven, placing a plastic base plate on the top of the cover plate, and placing a pressing plate on the plastic base plate, wherein the plastic base plate prevents the glue overflowing from the cover plate from adhering to the pressing plate; finally, the cover plate ears and the shell are fixed together by bolts, so that the cover plate is prevented from deviating; and the steel magnets are neatly placed on the first-layer belt conveying line 41 and the second-layer belt conveying line 42 to be cured for 30 minutes, the steel magnets are coated with glue, then finished products are disassembled and placed on the curing table 8, and meanwhile the tooling plate 31 is placed back to the first-layer double-speed chain conveying line 2.

The working principle of the invention is as follows:

fix the shell in the frock board 31 department of the first frock position of two layers of doubly fast chain transfer chain 3 earlier, artifical pedal foot switch blocks that cylinder first 32 free end stretches out and blocks that the shell follows two layers of doubly fast chain transfer chain 3 and continues to advance, then the manual work is beaten glue at the shell inner wall earlier, has beaten the back of gluing, artifical pedal foot switch blocks that cylinder first 32 free end contracts and releases the shell, the shell will follow two layers of doubly fast chain transfer chain 3 and move to second frock position department.

The pedal switch is manually operated to prevent the free end of the cylinder A32 from extending out and blocking the shell, four pieces of magnetic steel are sequentially placed in the shell manually, and then the gluing of the magnetic steel is completed.

After the gluing of the magnetic steel is finished, the shell is manually pedaled through a foot switch, the free end of the blocking cylinder A32 is contracted and released, the shell moves to a third tool position or a fourth tool position along with the two layers of speed chain conveying lines 3, the ear of the cover plate is manually placed on the shell to be forcibly extruded after being glued, redundant glue is extruded out and cleaned by cloth, then a plastic base plate is placed on the top of the cover plate, a pressing plate is placed on the plastic base plate, the ear of the cover plate is fixed through bolts (the cover plate is ensured not to be deviated by cross screwing), the free end of the blocking cylinder A32 is pedally contracted and released through the manual foot switch, the shell is conveyed to the two layers of lifting conveying belts 52 on the same horizontal plane through the two layers of speed chain conveying lines 3, the two layers of lifting conveying belts 52 are driven by the cylinder A9 to ascend to the same horizontal plane with the two layers of belt conveying lines 42, and then the shell is conveyed to the two layers of belt, at this time, the two-layer speed-doubling chain conveying line 3 and the one-layer belt conveying line 41 are also positioned at the same horizontal plane, the next shell reaches the one-layer belt conveying line 41 from the two-layer speed-doubling chain conveying line 3, then the second layer lifting conveyor belt 52 is driven by the cylinder A9 to descend to the same horizontal plane with the second layer speed doubling chain conveyor line 3, and the process is circulated, the shells which have reached the two-layer belt conveying line 42 and the one-layer belt conveying line 41 are conveyed to the primary glue platform 7 while being cured in the sealing cover, then, the excess residual glue is manually disposed, meanwhile, the finished product is detached from the tooling plate 31, finally, the tooling plate 31 is placed on a layer of double-speed chain conveying line 2, is reversely conveyed back to the power roller conveying line 61 of the lifting mechanism 6 through a layer of speed-multiplying chain conveying line 2, and then ascends to the double-layer speed chain conveying line 3 through the lifting mechanism 6, so that the tooling plate 31 can be recycled.

Install the sealed cowling on the transfer chain support 1, the sealed cowling top is equipped with the air exit, and the rubber coating flavor that gives off on one deck belt transfer chain 41 and the two-deck belt transfer chain 42 is discharged outdoors through the air exit on the sealed cowling, prevents to glue the flavor and gives off the workshop to workman's operational environment has been improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a take automatic lifting device's magnet steel rubber coating transfer chain which characterized in that: the automatic belt conveying device comprises a conveying line support (1), wherein a layer of speed-multiplying chain conveying line (2) is arranged on the conveying line support (1), a second layer of speed-multiplying chain conveying line (3), an automatic belt lifting and conveying mechanism (5) and a double-layer belt conveying line (4) are sequentially arranged above the layer of speed-multiplying chain conveying line (2), the input end of the second layer of speed-multiplying chain conveying line (3) is provided with a lifting mechanism (6), and the output end of the second layer of speed-multiplying chain conveying line is connected with the automatic belt lifting and conveying mechanism (5); the input end of the automatic belt lifting and conveying mechanism (5) is connected with the output end of the double-layer speed chain conveying line (3), and the output end of the automatic belt lifting and conveying mechanism is connected with the double-layer belt conveying line (4); a plurality of tool plates (31) which are equally spaced are arranged on the two-layer speed-multiplying chain conveying line (3), and a blocking cylinder A (32) fixedly connected with the conveying line support (1) is arranged on one side of the advancing direction of the tool plates (31);

the automatic belt lifting and conveying mechanism (5) comprises mounting plates (59) fixedly mounted on two sides of the conveying line support (1), a vertical guide rail A (53) is arranged on the upper side of the inner wall of each mounting plate (59), and a guide rail C (57) is arranged on the lower side of each mounting plate; a first sliding block (54) and a third sliding block (58) which are connected in a sliding manner are respectively arranged on the first guide rail (53) and the third guide rail (57), a first bracket (55) and a third bracket (56) which are fixedly connected are respectively arranged on the first sliding block (54) and the third sliding block (58), and a first lifting conveyor belt (51) and a second lifting conveyor belt (52) are respectively arranged on the first bracket (55) and the third bracket (56);

the bracket A (55) and the bracket C (56) are fixedly connected through angle steel (10), the bracket A (55) is positioned right below the bracket C (56), and a fixedly connected cylinder A (9) is arranged below the bracket A (55);

double-deck belt conveyor line (4) are including one deck belt conveyor line (41) and the double-deck belt conveyor line (42) that are equipped with mutual parallel, and one deck belt conveyor line (41) are located double-deck belt conveyor line (42) under, vertical distance between one deck lift conveyer belt (51) and the double-deck lift conveyer belt (52) equals the distance between one deck belt conveyor line (41) and the double-deck belt conveyor line (42).

2. A magnetic steel gluing conveying line with an automatic lifting device according to claim 1, characterized in that: the output end of the layer of belt conveying line (41) is provided with a glue removing platform (7).

3. A magnetic steel gluing conveying line with an automatic lifting device according to claim 1, characterized in that: and a curing table (8) is arranged on one side of the one-layer speed-multiplying chain conveying line (2).

4. A magnetic steel gluing conveying line with an automatic lifting device according to claim 1, characterized in that: the conveying direction of the one-layer speed-multiplying chain conveying line (2) is opposite to that of the two-layer speed-multiplying chain conveying line (3), the one-layer belt conveying line (41) and the two-layer belt conveying line (42).

5. A magnetic steel gluing conveying line with an automatic lifting device according to claim 1, characterized in that: elevating system (6) are equipped with four vertical guide rails second (63) including lifting support (65) on lifting support (65), all are equipped with slider second (64) on vertical guide rail second (63), are equipped with fixed connection's mounting bracket (62) between four slider second (64), and mounting bracket (62) top is equipped with power roller transfer chain (61), and the below is equipped with cylinder second (66).

6. A magnetic steel gluing conveying line with an automatic lifting device according to claim 1, characterized in that: and a blocking cylinder B (33) is arranged at the output end of the two-layer speed chain conveying line (3).

7. A gluing method of a magnetic steel gluing conveying line with an automatic lifting device as claimed in any one of claims 1 to 6, comprising the following steps: the method is characterized in that: the gluing method comprises the following gluing steps:

firstly, fixing a shell on a tooling plate (31) by using bolts;

secondly, a circle of glue is beaten on the position of the inner wall of the shell away from the bottom 2/3 according to a reverse time needle;

thirdly, gluing the shell bottom plate, and then transversely and longitudinally punching the shell bottom plate into a shape like a Chinese character 'jing';

step four, sequentially putting four pieces of magnetic steel, and ensuring that the side surfaces and the bottom surface of the magnetic steel are coated with glue;

step five, gluing the top of the magnetic steel, and firstly, transversely and then longitudinally gluing the top of the magnetic steel into a shape like a Chinese character 'jing', so that the edge of the shell is also coated with glue;

step six, gluing the ears of the cover plate, placing the cover plate on the shell to be extruded forcibly after gluing, extruding the redundant glue out and cleaning the redundant glue by cloth;

step seven, placing a plastic base plate on the top of the cover plate, and placing a pressing plate on the plastic base plate, wherein the plastic base plate prevents the glue overflowing from the cover plate from adhering to the pressing plate; finally, the cover plate ears and the shell are fixed together by bolts, so that the cover plate is prevented from deviating; and the steel plates are neatly placed on the first-layer belt conveying line (41) and the second-layer belt conveying line (42) to be cured for 30 minutes, the magnetic steel is coated with glue, then the finished products are disassembled and placed on a curing table (8), and meanwhile, the tooling plates (31) are placed back on the first-layer double-speed chain conveying line (2).

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