CN210700896U - Negative plate insulating strip installation device - Google Patents

Abstract

The utility model relates to a cathode plate insulating strip mounting device, which comprises a mounting platform, two groups of clamping mechanisms and a lifting mechanism; the two groups of clamping mechanisms are fixed on two sides of the mounting platform; the lifting mechanism is arranged on the mounting platform and is positioned between the clamping mechanisms; the clamping mechanism is used for clamping the insulating strips on the two sides of the cathode plate on the platform; the lifting mechanism is used for lifting the cathode plate on the platform to a position corresponding to the lifting mechanism. The utility model discloses a put mounting platform with the negative plate on, the insulating strip that will scribble the hot melt adhesive again adorns in advance on the both sides of negative plate, and then makes the negative plate aim at clamping mechanism through elevating system, and rethread clamping mechanism compresses tightly the insulating strip, makes the workman reduce intensity of labour, improves work efficiency, improves maintenance quality.

Description

Negative plate insulating strip installation device

Technical Field

The utility model relates to a negative plate technical field especially relates to a negative plate insulating strip installation device.

Background

Because the maintenance volume of workshop negative plate is great every day, the efficiency is lower when installing the negative plate insulated strip, and artifical intensity is big, hardly guarantees the installation quality of insulated strip simultaneously, can bring certain influence for production in later stage use.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at overcoming the shortcoming and not enough among the prior art, provide a negative plate insulating strip installation device.

A cathode plate insulating strip mounting device comprises a mounting platform, two groups of clamping mechanisms and a lifting mechanism; the two groups of clamping mechanisms are fixed on two sides of the mounting platform; the lifting mechanism is arranged on the mounting platform and is positioned between the clamping mechanisms; the clamping mechanism is used for clamping the insulating strips on the two sides of the cathode plate on the platform; the lifting mechanism is used for lifting the cathode plate on the platform to a position corresponding to the lifting mechanism.

A negative plate insulating strip installation device, through on putting mounting platform with the negative plate, the insulating strip that will scribble the hot melt adhesive again adorns in advance on the both sides of negative plate, and then makes the negative plate aim at clamping mechanism through elevating system, rethread clamping mechanism compresses tightly the insulating strip, makes the workman reduce intensity of labour, improves work efficiency, improves maintenance quality.

Further, the lifting mechanism comprises two lifting platforms and two lifting cylinders; the two lifting platforms are uniformly arranged on the mounting platform, and the two lifting cylinders are respectively arranged below the corresponding lifting platforms and drive the corresponding lifting platforms to move up and down.

The lifting platform can be pushed through the lifting cylinder, so that the cathode plate placed on the lifting platform can be aligned to the clamping mechanism.

Furthermore, each group of clamping mechanisms comprises a plurality of clamping cylinders and a pressing strip; the clamping cylinders are uniformly distributed on one side of the mounting platform, and the output ends of the clamping cylinders are connected with the pressing strips; the pressing strip is parallel to one side of the mounting platform.

The pressing strips are pushed by the clamping cylinders, so that the insulating strips are pressed on the cathode plate by the pressing strips.

As an improvement of the technical scheme, the device also comprises two material grooves; each material groove is arranged above two sides of the mounting platform respectively, each material groove is arranged in parallel with the pressing strip, and the bottom of each material groove is positioned on one side of the corresponding pressing strip close to the mounting platform.

The insulating strips in batches are placed in the material groove in advance, so that the insulating strips automatically fall to proper positions on the mounting platform, and the pressing strips can be pressed on the negative plate under the pushing of the clamping air cylinders.

Furthermore, one side of the bottom of the material groove is provided with a horizontal opening along the length direction.

Through setting up horizontal opening, can make things convenient for the workman to give the material super interior insulating strip rubberizing.

Further, the automatic gluing machine is also included; the automatic gluing machine is arranged outside the horizontal opening of the material groove.

Through setting up automatic gluing machine, the insulating strip rubberizing that the accessible horizontal opening corresponds for the horizontal opening automatically.

As another improvement of the technical scheme, the material groove comprises an upper straight groove, a semicircular curved groove and a lower straight groove which are sequentially and hermetically communicated from top to bottom; the semicircular curved groove is close to one side of the straight groove far away from the mounting platform; the bottom of the lower straight groove is positioned at one side of the corresponding pressing strip close to the mounting platform; one side of the bottom of the upper straight groove, which is far away from the mounting platform, is horizontally provided with a gluing hole along the length direction; and one side of the upper end of the semicircular bent groove, which is close to the mounting platform, is horizontally provided with a hole along the length direction.

Through setting up straight flute, semicircle curved groove and straight flute down, and then make the rubberizing hole can set up in the one side of keeping away from mounting platform, make things convenient for the workman to go up glue, the insulating strip after having gone up glue can realize 180 degrees rotations after semicircle curved groove to align the negative plate.

Further, the device also comprises two pushing cylinders and two pushing strips; each pushing cylinder is arranged outside the opening of the corresponding semicircular bent groove; each pushes away the strip setting and is in each pushes away the output of cylinder, and each pushes away the strip and is parallel with corresponding trompil.

Through promoting the cylinder, can promote the insulating strip of straight flute below automatically and get into semicircle curved groove.

Further, the automatic gluing machine is also included; the automatic gluing machine is arranged outside the gluing hole of the upper straight groove.

Through setting up automatic gluing machine, can realize the automatic gluing of insulating strip.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure of the second embodiment of the present invention;

fig. 3 is a schematic diagram of a material tank according to a second embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure of a third embodiment of the present invention;

fig. 5 is a schematic diagram of a material tank according to a third embodiment of the present invention.

In the figure: 10. mounting a platform; 21. a clamping cylinder; 22. layering; 31. a lifting cylinder; 32. a lifting platform; 40. a material groove; 41. a horizontal opening; 42. an upper straight groove; 421. gluing holes; 43. a semicircular curved groove; 431. opening a hole; 44. a lower straight groove; 50. an automatic gluing machine; 51. a slide rail; 52. gluing heads; 60. a push cylinder; 70. pushing the strips; 80. an insulating strip.

Detailed Description

The first embodiment is as follows:

referring to fig. 1, the cathode plate insulating strip mounting device of the present embodiment includes a mounting platform 10, two sets of clamping mechanisms and a lifting mechanism; each group of clamping mechanisms comprises two clamping cylinders 21 and a pressing strip 22; the lifting mechanism comprises two lifting platforms 32 and two lifting cylinders 31;

preferably, the mounting platform 10 is formed by welding 8# carbon steel channel steel; the clamping cylinder 21 uses an MGQM50-50 cylinder; the lifting cylinder 31 uses an MGPM50-75 cylinder.

The connection mode of this embodiment:

two clamping cylinders 21 are respectively fixed on two sides of the mounting platform 10, and the output ends of the clamping cylinders 21 positioned on the same side are simultaneously connected with a pressing strip 22; the pressing strip 22 is parallel to one side of the mounting platform 10;

the two lifting platforms 32 are uniformly arranged on the mounting platform 10 and are positioned between the two groups of clamping mechanisms; the two lifting cylinders 31 are respectively arranged below the corresponding lifting platforms 32, and the output ends of the two lifting cylinders are respectively connected with one lifting platform 32 and drive the corresponding lifting platform 32 to move up and down.

The working process of the embodiment:

carrying the polished cathode plate to the mounting platform 10 by using a sucker type power-assisted manipulator or hands; starting the lifting cylinder 31, lifting the cathode plate by using the lifting table 32, and pre-installing the insulating strip 80 coated with the glue on two sides of the cathode plate by hands; then the lifting cylinder 31 is started to lower the cathode plate to the platform and is aligned to the clamping cylinder 21 and the pressing strip 22; and then the clamping cylinder 21 is started to press the preassembled insulating strip 80 into the cathode plate, the clamping cylinder 21 is loosened after clamping is carried out for 10 seconds, and then the cathode plate provided with the insulating strip 80 is moved away from the platform by using a sucker type power-assisted manipulator or a hand, so that the installation work is completed.

Compared with the prior art, the mounting platform 10 is placed with the cathode plate, the insulating strips 80 coated with hot melt adhesive are arranged on two sides of the cathode plate in advance, the cathode plate is aligned to the clamping mechanism through the lifting mechanism, and the insulating strips 80 are pressed tightly through the clamping mechanism, so that the labor intensity of workers is reduced, the working efficiency is improved, and the maintenance quality is improved.

Example two:

referring to fig. 1 to 3, the second embodiment further includes two material tanks 40 and an automatic gluing machine 50 on the basis of the first embodiment; a horizontal opening 41 is formed in one side of the bottom of the material groove 40 along the length direction of the material groove; the automatic gluing machine 50 is provided with a telescopic gluing head 52, and the gluing head 52 is aligned with the horizontal opening 41;

each material groove 40 is respectively arranged above two sides of the mounting platform 10, and an insulating strip 80 can be placed in a gap between the horizontal opening 41 of the material groove 40 and the mounting platform 10; each material groove 40 is arranged in parallel with the pressing strip 22, and the bottom of each material groove 40 is positioned at one side of the corresponding pressing strip 22 close to the mounting platform 10; the automatic gluing machine 50 is arranged outside the horizontal opening 41 of the material groove 40 through a slide rail 51.

The working process of the embodiment:

carrying the polished cathode plate onto the mounting platform 10 by using a sucker type power-assisted manipulator or a human hand, starting the lifting cylinder 31, adjusting the position of the cathode plate by using the lifting table 32, and aligning the clamping cylinder 21 and the pressing strip 22;

placing the insulating strips 80 into the material groove 40 in sequence, and enabling the openings of the insulating strips 80 to face the horizontal opening 41 of the material groove 40; pre-gluing the insulating strip 80 at the lowest part of the material groove 40, starting the automatic gluing machine 50, driving the gluing head 52 to move along the slide rail 51 by the automatic gluing machine 50, aligning the gluing head 52 with the insulating strip 80 at the position of the horizontal opening 41, and gluing;

when the automatic gluing machine 50 is used for gluing, the clamping cylinder 21 is started, the insulation strip 80 which is glued at the lowest part of the material groove 40 is pressed onto the cathode plate, the clamping cylinder 21 is loosened after clamping is carried out for 10 seconds, and then the cathode plate provided with the insulation strip 80 is moved away from the platform by using a sucker type power-assisted manipulator or a hand; when the clamping cylinder 21 pushes the insulating strip 80 at the lowest part, the insulating strip 80 above the clamping cylinder is prevented from falling, and after the clamping cylinder 21 is loosened, the insulating strip 80 above the clamping cylinder falls and is compressed by replacing another cathode plate.

Compared with the prior art and the first embodiment, the insulating strips 80 can be orderly placed by arranging the material grooves 40, so that the working environment is improved; by arranging the horizontal opening 41 and the corresponding automatic gluing machine 50 in the material groove 40, automatic gluing is realized, the automatic gluing machine 50 and the clamping cylinder 21 can work simultaneously, and the production efficiency is further improved.

Example three:

referring to fig. 1, 4 and 5, the third embodiment further includes two material tanks, an automatic gluing machine 50, two pushing cylinders 60 and two pushing bars 70 on the basis of the first embodiment; each material groove comprises an upper straight groove 42, a semicircular bent groove 43 and a lower straight groove 44 which are sequentially and hermetically communicated from top to bottom; the semicircular curved groove 43 is close to one side of the straight groove far away from the mounting platform 10; a gluing hole 421 is horizontally arranged on one side of the bottom of the upper straight groove 42, which is far away from the mounting platform 10, along the length direction; an opening 431 is horizontally formed in one side, close to the mounting platform 10, of the upper end of the semicircular bent groove 43 along the length direction of the semicircular bent groove; the automatic gluing machine 50 is provided with a telescopic gluing head 52, and the gluing head 52 is aligned with the horizontal opening 41;

each material groove is respectively arranged above two sides of the mounting platform 10, each material groove is arranged in parallel with the pressing strip 22, and the bottom of each lower straight groove 44 is positioned at one side of the corresponding pressing strip 22 close to the mounting platform 10; an insulating strip 80 can be placed in the gap between the bottom of the lower straight groove 44 and the mounting platform 10; each pushing cylinder 60 is arranged outside the opening 431 of the corresponding semicircular curved groove 43; each pushing bar 70 is arranged at the output end of each pushing cylinder 60, and each pushing bar 70 is parallel to the corresponding opening 431; the automatic gluing machine 50 is arranged outside the gluing hole 421 of the upper straight groove 42.

The working process of the embodiment:

carrying the polished cathode plate onto the mounting platform 10 by using a sucker type power-assisted manipulator or a human hand, starting the lifting cylinder 31, adjusting the position of the cathode plate by using the lifting table 32, and aligning the clamping cylinder 21 and the pressing strip 22;

placing the insulating strips 80 into the material groove in sequence, and enabling the openings of the insulating strips 80 to face the gluing holes 421 of the material groove; pre-gluing the insulation strip 80 at the lowest part of the upper straight groove 42, starting the automatic gluing machine 50, driving the gluing head 52 to move along the slide rail 51 by the automatic gluing machine 50, and aligning the gluing head 52 to the insulation strip 80 in the gluing hole 421 position for gluing; or the insulating strip 80 in the position of the gluing hole 421 is glued directly by hands;

when the automatic gluing machine 50 or a person carries out gluing, the pushing cylinder 60 is started, the insulating strip 80 glued at the lowest part of the upper straight groove 42 is pushed into the semicircular curved groove 43 by the pushing strip 70, the insulating strip 80 is turned over for 180 degrees and reaches the mounting platform 10 through the lower straight groove 44, the clamping cylinder 21 is started, the insulating strip 80 is pressed into the cathode plate, the clamping cylinder 21 is released after clamping for 10 seconds, and then the cathode plate with the insulating strip 80 mounted is moved away from the platform by a suction cup type power-assisted manipulator or a person;

when the push cylinder 60 pushes the insulating strip 80 at the lowest part of the upper straight groove 42, the insulating strip 80 above the push cylinder is simultaneously stopped from falling, after the push cylinder 60 is loosened, the insulating strip 80 above the push cylinder falls, after the clamping cylinder 21 below finishes clamping and loosening, the push cylinder 60 is started again, the next insulating strip 80 is pushed into the semicircular bent groove 43, and the next cathode plate is pressed by the clamping cylinder 21.

Compared with the prior art, embodiment one and embodiment two, the utility model discloses a set up semicircle curved groove 43, can make the rubberizing hole 421 on the material groove set up in the one side of keeping away from the platform, and then can make things convenient for the workman to stand in mounting platform 10's the outside to manual rubberizing on the material groove, also can conveniently set up automatic gluing machine 50 and its corresponding slide rail 51 in the one side of keeping away from the platform simultaneously, avoid automatic gluing machine 50 and slide rail 51 to influence the transport of negative plate on mounting platform 10.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is 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, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (9)

1. The utility model provides a negative plate insulating strip installation device which characterized in that: comprises that

Mounting a platform;

the two groups of clamping mechanisms are fixed on two sides of the mounting platform; and

the lifting mechanism is arranged on the mounting platform and is positioned between the clamping mechanisms;

the clamping mechanism is used for clamping the insulating strips on the two sides of the cathode plate on the platform; the lifting mechanism is used for lifting the cathode plate on the platform to a position corresponding to the lifting mechanism.

2. A cathode plate insulating strip mounting apparatus as claimed in claim 1, wherein: each group of clamping mechanisms comprises a plurality of clamping cylinders and a pressing strip; the clamping cylinders are uniformly distributed on one side of the mounting platform, and the output ends of the clamping cylinders are connected with the pressing strips; the pressing strip is parallel to one side of the mounting platform.

3. A cathode plate insulating strip mounting apparatus as claimed in claim 2, wherein: the device also comprises two material grooves; each material groove is arranged above two sides of the mounting platform respectively, each material groove is arranged in parallel with the pressing strip, and the bottom of each material groove is positioned on one side of the corresponding pressing strip close to the mounting platform.

4. A cathode plate insulating strip mounting apparatus as claimed in claim 3, wherein: one side of the bottom of the material groove is provided with a horizontal opening along the length direction.

5. A cathode plate insulating strip mounting apparatus as claimed in claim 4, wherein: the automatic gluing machine is also included; the automatic gluing machine is arranged outside the horizontal opening of the material groove.

6. A cathode plate insulating strip mounting apparatus as claimed in claim 2, wherein: the material groove comprises an upper straight groove, a semicircular bent groove and a lower straight groove which are sequentially and hermetically communicated from top to bottom; the semicircular curved groove is close to one side of the straight groove far away from the mounting platform; the bottom of the lower straight groove is positioned at one side of the corresponding pressing strip close to the mounting platform; one side of the bottom of the upper straight groove, which is far away from the mounting platform, is horizontally provided with a gluing hole along the length direction; and one side of the upper end of the semicircular bent groove, which is close to the mounting platform, is horizontally provided with a hole along the length direction.

7. A cathode plate insulating strip mounting apparatus as claimed in claim 6, wherein: the device also comprises two pushing cylinders and two pushing strips; each pushing cylinder is arranged outside the opening of the corresponding semicircular bent groove; each pushes away the strip setting and is in each pushes away the output of cylinder, and each pushes away the strip and is parallel with corresponding trompil.

8. A cathode plate insulating strip mounting apparatus as claimed in claim 7, wherein: the automatic gluing machine is also included; the automatic gluing machine is arranged outside the gluing hole of the upper straight groove.

9. A cathode plate insulating strip mounting apparatus as claimed in any one of claims 1 to 8, characterised in that: the lifting mechanism comprises two lifting platforms and two lifting cylinders; the two lifting platforms are uniformly arranged on the mounting platform, and the two lifting cylinders are respectively arranged below the corresponding lifting platforms and drive the corresponding lifting platforms to move up and down.

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