CN215039099U - Assembly line automatic cutting machine is used in dull and stereotyped production of glass magnesium - Google Patents

Abstract

The utility model provides an automatic cutting machine of a glass magnesium flat plate production assembly line, which comprises a main body component, an adjusting component, a control component and a leveling component, wherein the main body component comprises a working platform, a moving platform, a support column, a first plate body, a first through groove, a second through groove, a first chute and a second chute; the adjusting assembly is mounted inside the main body assembly and comprises a first sliding block, a second plate body, a first hydraulic cylinder, a cutting machine body, a second threaded rod and a second nut, the first sliding chute is connected with the first sliding block in a sliding mode inside, and the second plate body is welded at the bottom of the first sliding block; the utility model discloses utilize four second pneumatic cylinders can be quick support work platform's four corners, cooperate spheroidal use, can be according to the height and the angle of environment quick adjustment work platform and ground four corners of locating to make work platform steady fast, labour saving and time saving, thereby improve the dull and stereotyped precision that cuts of glass magnesium.

Description

Assembly line automatic cutting machine is used in dull and stereotyped production of glass magnesium

Technical Field

The utility model relates to a dull and stereotyped processing equipment technical field of glass magnesium, in particular to assembly line automatic cutout machine is used in dull and stereotyped production of glass magnesium.

Background

The production line automatic cutting machine for the glass magnesium flat plate is used for cutting the glass magnesium flat plate, the conveying platform above the working platform is used for driving the glass magnesium flat plate to move, the position of the cutting machine is adjusted according to the size, so that the glass magnesium flat plate is cut when passing through the cutting machine, and then the glass magnesium flat plate is brought into the next processing program area by the conveying platform for subsequent processing, but the existing production line automatic cutting machine for the glass magnesium flat plate has the following defects when in use;

when the glass magnesium flat plate is cut, the requirement on the size of the glass magnesium flat plate is not constant, and when the position of the cutting machine is adjusted, the existing assembly line automatic cutting machine for the production of the glass magnesium flat plate needs to be detached and installed again, so that the time and the labor are consumed, and the working efficiency of workers is reduced;

secondly, because the ground of a production workshop is not completely flat, the existing automatic cutting machine for the production line of the glass magnesium flat plate is lack of a leveling device, and the traditional mode is that a hard object is used for being cushioned at the bottom of an uneven angle of equipment, so that the condition of inconvenient adjustment of the smoothness is caused, and the cutting accuracy of the glass magnesium flat plate is reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention is intended to provide an automatic cutting machine for a glass magnesium flat plate production line, so as to solve or alleviate the technical problems existing in the prior art, and at least provide a useful choice.

The embodiment of the utility model provides a technical scheme is so realized: an automatic cutting machine of a production line for producing a glass magnesium flat plate comprises a main body component, an adjusting component, a control component and a leveling component,

the main body assembly comprises a working platform, a moving platform, a support column, a first plate body, a first through groove, a second through groove, a first sliding groove and a second sliding groove;

the adjusting assembly is mounted inside the main body assembly and comprises a first sliding block, a second plate body, a first hydraulic cylinder, a cutting machine body, a second threaded rod and a second nut, the first sliding block is connected inside the first sliding groove in a sliding mode, the second plate body is welded to the bottom of the first sliding block, the first hydraulic cylinder is connected to the bottom of the second plate body through screw threads, a piston rod of the first hydraulic cylinder is fixedly connected with the cutting machine body, the second threaded rod is welded to the top of the first sliding block, the bottom of the second threaded rod penetrates through the inside of the first through groove, and the second nut is connected to the outer side wall of the second threaded rod in a threaded mode; (ii) a

The control assembly is arranged on the outer side wall of the main body assembly and comprises a second sliding block, a connecting rod, an infrared inductor, a third shell, a PLC (programmable logic controller) board and a touch display;

the leveling component is installed on the outer side wall of the main body component and comprises a second hydraulic cylinder, a fourth shell, a fifth shell and a ball body.

In some embodiments, the upper surface of the working platform is provided with a moving platform, the top of the working platform is symmetrically welded with two support columns, the top of the two support columns is welded with a first plate body, the outer side wall of the first plate body is symmetrically provided with two second chutes, the bottom of the first plate body is provided with a first chute, the upper surface of the first plate body is provided with a first through groove and two second through grooves, the bottom of the first through groove is communicated with the top of the first chute, and the bottom of the second through groove is communicated with the tops of the two second chutes respectively.

In some embodiments, a third shell is welded on the outer side wall of the working platform, a PLC board is installed on the inner bottom wall of the third shell, a touch display is installed on the top of the third shell, a second sliding block is slidably connected to the inside of the second sliding groove, a connecting rod is welded on one side, away from the second sliding groove, of the second sliding block, and an infrared inductor is installed at the bottom of the connecting rod.

In some embodiments, four fifth housings are symmetrically welded to the outer side wall of the working platform, the bottom of each fifth housing is connected with a fourth housing through a screw thread, a sphere is rotatably connected to the inside of the adjacent fifth housing and the inside of the adjacent fourth housing, and the bottom of the sphere penetrates through the bottom of the fourth housing and is fixedly connected to a piston rod of the second hydraulic cylinder.

In some embodiments, a first threaded rod is arranged inside the second through groove, the bottom of the first threaded rod is welded with the top of the adjacent second sliding block, and a first nut is connected to the outer side wall of the first threaded rod in a threaded mode.

In some embodiments, a dust collector is arranged on one side of the working platform, an air inlet of the dust collector is communicated with a hose, one end, far away from the dust collector, of the hose is communicated with a first shell, and the bottom of the first shell is fixedly connected to the top of the working platform; through the arrangement of the dust collector, the dust collector can absorb the scraps generated when the glass magnesium flat plate is cut by matching with the hose and the first shell.

In some embodiments, two scales are symmetrically and fixedly connected to the top of the first plate body, a second shell is welded to the outer side wall of the working platform, a top cover is hinged to the top of the second shell, and a box door lock is mounted on the front surface of the second shell; through the setting of scale, can be convenient for the staff look over the size position, through the setting of second casing, be convenient for deposit instrument commonly used, through the setting of top cap and case lock, can be with the top shutoff of second casing.

In some embodiments, the front surface of the work platform is hinged with two door panels, and the front surface of the door panels is provided with a cabinet door lock; through the setting of cabinet door lock, can be convenient for look over and maintain moving platform's bottom with door plant and work platform fixed connection, open the door plant.

The embodiment of the utility model provides a owing to adopt above technical scheme, it has following advantage:

the utility model discloses a first pneumatic cylinder slides for the second plate body drives first slider and slides, thereby is convenient for adjust the position of cutting machine organism, and rotatory second nut extrudes first plate body, and the position control with the cutting machine organism that can be quick is fixed, labour saving and time saving, thereby improves staff's work efficiency.

Two, the utility model discloses utilize four second pneumatic cylinders can be quick to support work platform's four corners, cooperate spheroidal use, can be according to the height and the angle of environment quick adjustment work platform and ground four corners of locating to make work platform steady fast, labour saving and time saving improves the dull and stereotyped precision that cuts of glass magnesium.

The foregoing summary is provided for the purpose of description only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present invention will be readily apparent by reference to the drawings and following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments or technical descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

fig. 2 is a top view structural diagram of the first plate of the present invention;

FIG. 3 is a side view of the ball of the present invention;

FIG. 4 is a top view of the third housing of the present invention;

fig. 5 is a circuit diagram of the PLC board of the present invention.

Reference numerals: 1. a first threaded rod; 2. a first nut; 3. a graduated scale; 4. a first housing; 5. a hose; 6. a vacuum cleaner; 7. a second housing; 8. a top cover; 9. a box door lock; 10. a body assembly; 11. a working platform; 12. a mobile platform; 13. a support pillar; 14. a first plate body; 15. a first through groove; 16. a second through groove; 17. a first chute; 18. a second chute; 20. an adjustment assembly; 21. a first slider; 22. a second plate body; 23. a first hydraulic cylinder; 24. a cutter body; 25. a second threaded rod; 26. a second nut; 30. a control component; 31. a second slider; 32. a connecting rod; 33. an infrared sensor; 34. a third housing; 35. a PLC board; 36. a touch display; 40. a leveling assembly; 41. a second hydraulic cylinder; 42. a fourth housing; 43. a fifth housing; 44. a sphere; 50. a door panel; 51. a cabinet door lock.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, the embodiment of the present invention provides an automatic cutting machine for a glass magnesium flat plate production line, which comprises a main body assembly 10, an adjusting assembly 20, a control assembly 30 and a leveling assembly 40,

the main body assembly 10 comprises a working platform 11, a moving platform 12, a support column 13, a first plate body 14, a first through groove 15, a second through groove 16, a first sliding groove 17 and a second sliding groove 18;

the adjusting assembly 20 is installed inside the main body assembly 10, the adjusting assembly 20 comprises a first sliding block 21, a second plate body 22, a first hydraulic cylinder 23, a cutting machine body 24, a second threaded rod 25 and a second nut 26, the first sliding block 21 is connected inside the first sliding groove 17 in a sliding mode, the second plate body 22 is welded at the bottom of the first sliding block 21, the first hydraulic cylinder 23 is connected to the bottom of the second plate body 22 through screw threads, the cutting machine body 24 is fixedly connected to a piston rod of the first hydraulic cylinder 23, the second threaded rod 25 is welded at the top of the first sliding block 21, the bottom of the second threaded rod 25 penetrates through the inside of the first through groove 15, and the second nut 26 is connected to the outer side wall of the second threaded rod 25 through screw threads;

the control assembly 30 is mounted on the outer side wall of the main body assembly 10, and the control assembly 30 includes a second slider 31, a connecting rod 32, an infrared sensor 33, a third housing 34, a PLC board 35 and a touch display 36;

the leveling assembly 40 is installed at an outer sidewall of the body assembly 10, and the leveling assembly 40 includes a second hydraulic cylinder 41, a fourth housing 42, a fifth housing 43, and a ball 44.

In one embodiment, a movable platform 12 is mounted on the upper surface of a working platform 11, two support columns 13 are symmetrically welded on the top of the working platform 11, a first plate body 14 is welded on the tops of the two support columns 13, two second sliding grooves 18 are symmetrically formed in the outer side wall of the first plate body 14, a first sliding groove 17 is formed in the bottom of the first plate body 14, a first through groove 15 and two second through grooves 16 are respectively formed in the upper surface of the first plate body 14, the bottom of the first through groove 15 is communicated with the top of the first sliding groove 17, and the bottoms of the two second through grooves 16 are respectively communicated with the tops of the two second sliding grooves 18; through the setting of work platform 11, have the effect of supporting to moving platform 12 and support column 13 respectively, through the setting of support column 13, have the effect of supporting to first plate 14.

In one embodiment, a third shell 34 is welded on the outer side wall of the working platform 11, a PLC board 35 is installed on the bottom wall of the inner side of the third shell 34, a touch display 36 is installed on the top of the third shell 34, a second sliding block 31 is connected inside the second sliding groove 18 in a sliding manner, a connecting rod 32 is welded on one side of the second sliding block 31 away from the second sliding groove 18, and an infrared sensor 33 is installed at the bottom of the connecting rod 32; through infrared inductor 33's setting, can respond to the dull and stereotyped position of glass magnesium, the start-up that can control the consumer through setting up of PLC board 35, through touch-sensitive display 36's setting, can assign the instruction to PLC board 35, through the setting of third casing 34, has the effect of support to PLC board 35 and touch-sensitive display 36.

In one embodiment, four fifth housings 43 are symmetrically welded to the outer side wall of the working platform 11, the bottom of each fifth housing 43 is connected with a fourth housing 42 through a screw thread, a sphere 44 is rotatably connected inside each adjacent fifth housing 43 and fourth housing 42, and the bottom of each sphere 44 penetrates through the bottom of the fourth housing 42 and is fixedly connected to a piston rod of the second hydraulic cylinder 41; after four second hydraulic cylinders 41 are controlled to be started, the second hydraulic cylinders 41 can be made to push the ball 44 to move, so that the height of the four corners of the working platform 11 can be adjusted, meanwhile, the ball 44 can rotate inside the fifth shell 43 and the fourth shell 42, so that the angle between the second hydraulic cylinders 41 and the fifth shell 43 can be adjusted, the angle between the four corners of the working platform 11 and the ground can be adjusted, and the surface of the working platform 11 is stable.

In one embodiment, a first threaded rod 1 is arranged inside the second through groove 16, the bottom of the first threaded rod 1 is welded with the top of the adjacent second sliding block 31, and a first nut 2 is connected to the outer side wall of the first threaded rod 1 in a threaded manner; through the setting of first threaded rod 1, have the effect of support to first nut 2, rotate first nut 2 and extrude the top of first plate 14, can fix the position of second slider 31.

In one embodiment, a dust collector 6 is arranged on one side of the working platform 11, an air inlet of the dust collector 6 is communicated with a hose 5, one end, far away from the dust collector 6, of the hose 5 is communicated with a first shell 4, and the bottom of the first shell 4 is fixedly connected to the top of the working platform 11; through the arrangement of the dust collector 6, the dust generated when the glass magnesium flat plate is cut can be absorbed by matching with the use of the hose 5 and the first shell 4.

In one embodiment, the top of the first plate 14 is symmetrically and fixedly connected with two graduated scales 3, the outer side wall of the working platform 11 is welded with a second shell 7, the top of the second shell 7 is hinged with a top cover 8, and the front surface of the second shell 7 is provided with a box door lock 9; through the setting of scale 3, can be convenient for the staff look over the size position, through the setting of second casing 7, be convenient for deposit instrument commonly used, through the setting of top cap 8 and case lock 9, can be with the top shutoff of second casing 7.

In one embodiment, the front surface of the working platform 11 is hinged with two door panels 50, and the front surface of the door panels 50 is provided with a cabinet door lock 51; through the setting of cabinet lock 51, can be with door plant 50 and work platform 11 fixed connection, open door plant 50 and be convenient for look over and maintain the bottom of moving platform 12.

In one embodiment, the first hydraulic cylinder 23 and the second hydraulic cylinder 41 are both JYC, the dust collector 6 is WD-80P, the specific model of the PLC board 35 is SM1 EM331, a switch set capable of controlling the PLC board 35 to start and stop is installed on the top of the third housing 34, the switch set is connected to the external mains supply to supply power to the PLC board 35, an electrical output end of the PLC board 35 is electrically connected to an electrical input end of the touch display 36, the second hydraulic cylinder 41, the dust collector 6, the first hydraulic cylinder 23, the infrared sensor 33 and the cutting machine body 24, and a signal transmission end of the PLC board 35 is in signal connection with a signal transmission end of the infrared sensor 33 and a signal transmission end of the touch display 36.

The utility model discloses at the during operation: the first hydraulic cylinder 23 is moved according to the size requirement, so that the second plate 22 drives the first slider 21 to move in the first sliding chute 17, the position of the cutting machine body 24 is determined by observing the scale 3, then the second nut 26 is rotated to press the top of the first plate 14, so that the position of the first slider 21 is fixed, so that the position of the cutting machine body 24 is fixed, the positions of the infrared sensor 33 and the second slider 31 can be adjusted by the movable connecting rod 32, the position of the infrared sensor 33 is fixed by rotating the first nut 2 to press the top of the first plate 14, so that the position of the second slider 31 is fixed, so that the position of the infrared sensor 33 is fixed, the PLC board 35 is started through the switch set, so that the PLC board 35 respectively starts the touch display 36 and the infrared sensor 33, instructions are issued through the touch display 36, so that the PLC board 35 respectively controls the four second hydraulic cylinders 41 to start, so that the second hydraulic cylinders 41 push the sphere 44 to move, therefore, the height of the four corners of the working platform 11 is adjusted, and meanwhile, the ball 44 can rotate inside the fifth casing 43 and the fourth casing 42, so that the angle between the second hydraulic cylinder 41 and the fifth casing 43 can be adjusted, so that the angle between the four corners of the working platform 11 and the ground is adjusted, so that the surface of the working platform 11 is stable, when the moving platform 12 drives the glass magnesium flat plate to move below the first infrared sensor 33, the PLC board 35 receives the information transmitted by the first infrared sensor 33, and then the dust collector 6, the first hydraulic cylinder 23 and the cutting machine body 24 are respectively started, so that the first hydraulic cylinder 23 pushes the cutting machine body 24 to move downwards to a set position, when the moving platform 12 drives the glass magnesium flat plate to pass through the cutting machine body 24, the glass magnesium flat plate is cut by the cutting machine body 24, at this time, the dust collector 6 absorbs the debris generated when the glass magnesium flat plate is cut through the hose 5 and the first casing 4, when the glass magnesium flat plate passes through the second infrared sensor 33, the PLC board 35 receives the information transmitted by the second infrared sensor 33, so as to stop operating the vacuum cleaner 6 and the cutting machine body 24, thereby saving electric power, and allowing the moving platform 12 to bring the cut glass magnesium flat plate into the next processing area.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various changes or substitutions within the technical scope of the present invention, which should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a glass magnesium flat board production is with assembly line automatic cutout machine, includes main part subassembly (10), adjusting part (20), control assembly (30) and leveling subassembly (40), its characterized in that:

the main body assembly (10) comprises a working platform (11), a moving platform (12), a supporting column (13), a first plate body (14), a first through groove (15), a second through groove (16), a first sliding groove (17) and a second sliding groove (18);

the adjusting component (20) is arranged inside the main body component (10), the adjusting component (20) comprises a first sliding block (21), a second plate body (22), a first hydraulic cylinder (23), a cutting machine body (24), a second threaded rod (25) and a second nut (26), a first sliding block (21) is connected inside the first sliding groove (17) in a sliding way, a second plate body (22) is welded at the bottom of the first sliding block (21), a first hydraulic cylinder (23) is connected at the bottom of the second plate body (22) through screw threads, a piston rod of the first hydraulic cylinder (23) is fixedly connected with a cutter body (24), a second threaded rod (25) is welded at the top of the first sliding block (21), the bottom of the second threaded rod (25) penetrates through the inside of the first through groove (15), the outer side wall of the second threaded rod (25) is in threaded connection with a second nut (26);

the control assembly (30) is installed on the outer side wall of the main body assembly (10), and the control assembly (30) comprises a second sliding block (31), a connecting rod (32), an infrared sensor (33), a third shell (34), a PLC (programmable logic controller) board (35) and a touch display (36);

the leveling component (40) is installed on the outer side wall of the main body component (10), and the leveling component (40) comprises a second hydraulic cylinder (41), a fourth shell (42), a fifth shell (43) and a ball body (44).

2. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: the upper surface mounting of work platform (11) has moving platform (12), the top symmetrical welding of work platform (11) has two support columns (13), two the top welding of support column (13) has first plate body (14), two second spout (18) have been seted up to the lateral wall symmetry of first plate body (14), first spout (17) have been seted up to the bottom of first plate body (14), first logical groove (15) and two logical groove (16) of second have been seted up respectively to the upper surface of first plate body (14), the bottom of first logical groove (15) with the top intercommunication of first spout (17), two the bottom that the second led to groove (16) is respectively with two the top intercommunication of second spout (18).

3. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: the outer wall welding of work platform (11) has third casing (34), PLC board (35) are installed to the inboard diapire of third casing (34), touch-control display (36) are installed at the top of third casing (34), the inside sliding connection of second spout (18) has second slider (31), keep away from second slider (31) one side welding of second spout (18) has connecting rod (32), infrared inductor (33) are installed to the bottom of connecting rod (32).

4. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: the outer wall symmetric welding of work platform (11) has four fifth casing (43), there is fourth casing (42) bottom of fifth casing (43) through screw thread connection, and is adjacent fifth casing (43) with the inside rotation of fourth casing (42) is connected with spheroid (44), the bottom of spheroid (44) runs through the bottom of fourth casing (42) and fixed connection in the piston rod of second pneumatic cylinder (41).

5. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: the inside of second logical groove (16) is equipped with first threaded rod (1), the bottom of first threaded rod (1) with adjacent the top welding of second slider (31), the lateral wall threaded connection of first threaded rod (1) has first nut (2).

6. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: one side of work platform (11) is equipped with dust catcher (6), the air intake intercommunication of dust catcher (6) has hose (5), hose (5) are kept away from the one end intercommunication of dust catcher (6) has first casing (4), the bottom fixed connection of first casing (4) in the top of work platform (11).

7. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: two scales (3) of top symmetry fixedly connected with of first plate body (14), the lateral wall welding of work platform (11) has second casing (7), the top of second casing (7) articulates there is top cap (8), the front surface mounting of second casing (7) has case lock (9).

8. The automatic cutting machine of the assembly line for producing the glass magnesium flat plate of claim 1 is characterized in that: the front surface of the working platform (11) is hinged with two door panels (50), and a cabinet door lock (51) is installed on the front surface of each door panel (50).

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