CN107350634B - Laser turnover type rubberizing machine - Google Patents

Abstract

The invention discloses a laser turnover type rubberizing machine, which comprises a base and a workbench arranged on the base, wherein a feeding end, a laser machine, a rubberizing device and a discharging end are sequentially arranged on the workbench according to the process sequence; a first station is arranged below the laser machine, one side of the first station is provided with a turnover device for turning over the carrier, and the other side of the first station is provided with a carrier conversion cylinder for pushing the carrier from a feeding end to the first station; a second station is arranged on one side of the rubberizing device, and a conveying device is connected between the first station and the second station; the workbench is provided with a control unit, and the laser machine, the turnover device, the carrier conversion cylinder, the rubberizing device and the conveying device are all connected with the control unit; therefore, the multi-surface laser skin cutting treatment and rubberizing treatment of the product are integrally realized on the same machine, the processing quality of the product is effectively ensured, the damage to the skin cutting treatment and the transfer process of the product is avoided, and the working efficiency is improved.

Description

Laser turnover type rubberizing machine

Technical Field

The invention relates to the technical field of rubberizing equipment, in particular to a laser turnover rubberizing machine.

Background

The rubberizing machine in the prior art can only realize rubberizing generally, and to some products that need cut the skin and then rubberize, can't cut skin and handle, cut skin with artificial mode usually and handle, the manual work cuts skin comparatively roughly, leads to the product to receive certain damage at the skin in-process of cutting, influences the quality of product, and work efficiency is low. Some rubberizing machines adopt a laser machine to cut the skin and then rubberize, but the rubberizing machines generally only cut the skin on one side of the product and are not suitable for the product which needs to cut the skin on both sides; in addition, unnecessary damage to products is easy to cause in the conveying process after the skin cutting treatment; and, go up the unloading and need artifical close range treatment, can't avoid laser to human harm.

Therefore, a new technology is required to solve the above-mentioned problems.

Disclosure of Invention

In view of the above, the present invention aims at overcoming the defects of the prior art, and its main purpose is to provide a laser turnover type rubberizing machine, which integrally implements multi-surface laser skin-cutting treatment and rubberizing treatment on a product on a same machine, effectively ensures the processing quality of the product, avoids damage to the skin-cutting treatment and transfer process of the product, and improves the working efficiency.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the laser turnover type rubberizing machine comprises a base and a workbench arranged on the base, wherein a feeding end, a laser machine for removing the surface skin, a rubberizing device for rubberizing the adhesive tape and a discharging end for outputting a finished product are sequentially arranged on the workbench according to the process sequence;

a first station is arranged below the laser machine, one side of the first station is provided with a turnover device for turning over the carrier, and the other side of the first station is provided with a carrier conversion cylinder for pushing the carrier from a feeding end to the first station;

a second station is arranged on one side of the rubberizing device, and a conveying device is connected between the first station and the second station; the workbench is provided with a control unit, and the laser machine, the turnover device, the carrier conversion cylinder, the rubberizing device and the conveying device are all connected with the control unit.

As a preferable scheme, one side of the first station is connected with a feeding conveyor belt, the carrier conversion cylinder is arranged at the joint of the first station and the feeding conveyor belt, and a carrier placement groove for fixing a carrier is arranged at the first station; the carrier placement groove is connected with the conveying device through the conversion manipulator, and one side of the carrier placement groove is connected with the turnover device.

As a preferable scheme, the discharging end is provided with a carrier reflow assembly line, and a discharging manipulator is connected between the second station and the carrier reflow assembly line.

As a preferable scheme, the outlet end of the carrier reflow assembly line and the inlet end of the feeding conveyor belt are jointly connected to the manual feeding and discharging operation area.

As a preferable scheme, the conveying device is provided with a conveying sliding rail, a moving block is arranged on the conveying sliding rail, and a fixing plate for fixing a carrier is connected to the moving block; the conveying device is further provided with a driving motor, and the driving motor is connected with the moving block through a lead screw.

As a preferable scheme, the conversion manipulator is arranged on the workbench through a first mounting frame, a first transverse sliding rail is arranged on the first mounting frame, and the conversion manipulator reciprocates between the first station and the conveying device through the first transverse sliding rail; the conversion manipulator is further provided with a first vertical driving mechanism for lifting the manipulator, the first vertical driving mechanism is installed on the first transverse sliding rail through a first fixing frame, and the first fixing frame is connected to the first transverse sliding rail through a first sliding block.

As a preferable scheme, the blanking manipulator is arranged on the workbench through a second mounting frame, a second transverse sliding rail is arranged on the second mounting frame, and the blanking manipulator reciprocates between a second station and a carrier reflow assembly line through the second transverse sliding rail; the blanking manipulator is further provided with a second vertical driving mechanism for lifting the manipulator, the second vertical driving mechanism is installed on a second transverse sliding rail through a second fixing frame, and the second fixing frame is connected to the second transverse sliding rail through a second sliding block.

As a preferable scheme, the turnover device comprises a turnover driving mechanism and a turnover mechanism connected with the turnover driving mechanism, wherein the turnover mechanism is connected with the carrier on the first station, and the turnover driving mechanism comprises a driving motor; the turnover device further comprises a base and a movable frame arranged on the base, the movable frame is movably arranged on the base through a sliding groove and is connected with a driving cylinder, and the turnover driving mechanism and the turnover mechanism are arranged on the movable frame.

Compared with the prior art, the invention has obvious advantages and beneficial effects, and in particular, the technical scheme can be as follows:

1. the multi-surface laser skin cutting treatment and rubberizing treatment of the product are integrally realized on the same machine table, the processing quality of the product is effectively ensured, the damage to the skin cutting treatment and the transfer process of the product is avoided, the working efficiency is improved, and the equipment acquisition quantity and the equipment management cost of enterprises are also reduced;

2. the remote feeding and discharging design structure of the feeding conveyer belt and the carrier reflow assembly line avoids the harm of laser to human bodies and ensures the safety problem of staff; meanwhile, as the feeding and the discharging are in the same area, the unloading empty carrier is convenient to use for feeding, the operation efficiency is improved, and the feeding area and the discharging area are not required to be arranged at the two ends of the whole machine, so that the whole length of the machine is shortened, the occupied space of the machine is reduced, and the application and arrangement of the machine in a workshop are facilitated;

3. the design that adopts the manipulator to transfer has avoided the damage to the product production in the transportation process, and it is also more accurate high-efficient to carry simultaneously, has improved the degree of automation of whole board.

In order to more clearly illustrate the structural features, technical means, and specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a rear view of an embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

FIG. 4 is a top view of an embodiment of the present invention;

fig. 5 is a partial enlarged view of an embodiment of the present invention.

The attached drawings are used for identifying and describing:

10. base 11, work bench

12. First mounting frame 13, second mounting frame

14. Console

20. Laser machine 21 and laser head

30. Turnover device 31 and turnover driving mechanism

32. Turnover mechanism 33, base

331. Chute 34, movable rack

35. Driving cylinder

40. Carrier conversion cylinder 50 and rubberizing device

60. Conveying device 61 and conveying slide rail

62. Moving block 63, fixed plate

64. Drive motor 65, lead screw

70. Conversion manipulator 71, first transverse slide rail

72. First vertical driving mechanism 73, first fixing frame

74. First sliding block 80 and carrier reflow assembly line

90. Discharging manipulator 91 and second transverse sliding rail

92. Second vertical driving mechanism 93 and second fixing frame

94. Second sliding block

101. First station 102, second station

103. Feeding conveyer 104 and carrier placement groove

105. And a carrier.

Detailed Description

Referring to fig. 1 to 5, specific structures of embodiments of the present invention are shown; the machine comprises a base 10 and a workbench 11 arranged on the base 10, wherein a laser machine 20 for removing the dough cover is arranged on the workbench 11, and a first station 101 is arranged below the laser machine 20; one side of the first station 101 is provided with a turnover device 30 for turning over a carrier, and the other side is provided with a carrier conversion cylinder 40; the device is characterized in that a rubberizing device 50 is arranged on one side of the laser machine 20, a second station 102 is arranged on one side of the rubberizing device 50, a conveying device 60 is connected between the first station 101 and the second station 102, a control unit is arranged on the workbench 11, and the laser machine 20, the turnover device 30, the carrier conversion cylinder 40, the rubberizing device 50 and the conveying device 60 are all connected with the control unit.

One side of the first station 101 is connected with a feeding conveyor belt 103, the carrier conversion cylinder 40 is arranged at the joint of the first station 101 and the feeding conveyor belt 103, and a carrier placement groove 104 for fixing a carrier is arranged at the first station 101; the carrier placement groove 104 is engaged with the conveying device 60 by the switching manipulator 70, and one side of the carrier placement groove 104 is engaged with the turning device 30. The conversion manipulator 70 can avoid the harm of laser to human body during manual material taking, and the manipulator replaces the structural design of conveying the conveyer belt, so that the damage to products caused by conversion between the conveyer belts can be avoided, and the conveying of the manipulator is more accurate.

A conversion manipulator 70 is connected between the first station 101 and the conveying device 60, a carrier reflow assembly line 80 is arranged on one side of the conveying device 60, and a discharging manipulator 90 is connected between the second station 102 and the carrier reflow assembly line 80. The outlet end of the carrier reflow line 80 is disposed in the feeding zone, and the feeding conveyor 103 in the feeding zone is disposed at one side of the reflow line. Here, the feeding conveyor 103 is designed to have a certain length so as to separate the laser 20 of the first station 101 from the feeding area, so that the problem that the worker is damaged by the laser due to close contact with the laser 20 is avoided, and the safety of the worker is ensured.

The conveying device 60 is provided with a conveying slide rail 61, a moving block 62 is arranged on the conveying slide rail 61, and a fixing plate 63 for fixing a carrier is connected to the moving block 62; the conveyor 60 is further provided with a drive motor 64, which drive motor 64 is connected to the moving block 62 by means of a threaded spindle 65. Here, in the present embodiment, the conveying device 60 is preferably designed in such a way that the driving motor 64 drives the screw 65, so that the conveying process is easier to control, and the screw 65 is more stably driven; of course, other forms of drive are also conceivable, such as a cylinder drive.

Specifically, the conversion manipulator 70 is located between the laser machine 20 and the rubberizing device 50, the conversion manipulator 70 is mounted on the workbench 11 through a first mounting frame 12, a first transverse sliding rail 71 is mounted on the first mounting frame 12, and the conversion manipulator 70 reciprocates between the first station 101 and the conveying device 60 through the first transverse sliding rail 71; the conversion manipulator 70 is further provided with a first vertical driving mechanism 72 for lifting the manipulator, the first vertical driving mechanism 72 is mounted on a first transverse sliding rail 71 through a first fixing frame 73, and the first fixing frame 73 is connected to the first transverse sliding rail 71 through a first sliding block 74.

The blanking manipulator 90 is located between the rubberizing device 50 and the carrier reflow assembly line 80, so that the carrier is taken down by the blanking manipulator 90 and is transferred to a feeding area by the carrier reflow assembly line 80, unnecessary laser hazard to workers due to manual blanking is avoided, and meanwhile damage to products due to blanking is also avoided. The blanking manipulator 90 is mounted on the workbench 11 through a second mounting frame 13, a second transverse sliding rail 91 is mounted on the second mounting frame 13, and the blanking manipulator 90 reciprocates between a second station 102 and the carrier reflow assembly line 80 through the second transverse sliding rail 91; the blanking manipulator 90 is further provided with a second vertical driving mechanism 92 for lifting the manipulator, the second vertical driving mechanism 92 is mounted on a second transverse sliding rail 91 through a second fixing frame 93, and the second fixing frame 93 is connected to the second transverse sliding rail 91 through a second sliding block 94.

The turning device 30 comprises a turning driving mechanism 31 and a turning mechanism 32 connected with the turning driving mechanism 31, the turning mechanism 32 is connected with the carrier on the first station 101, and the turning driving mechanism 31 comprises a driving motor 64; the turnover device 30 further comprises a base 33 and a movable frame 34 mounted on the base 33, the movable frame 34 is movably mounted on the base 33 through a chute 331, the movable frame 34 is connected with a driving cylinder 35, and the turnover driving mechanism 31 and the turnover mechanism 32 are mounted on the movable frame 34. Here, the turning device 30 implements the mechanical treatment of double-sided peeling of the product, improves the working efficiency of the product requiring double-sided peeling treatment, ensures the processing quality of the product by combining the peeling of the laser 20, and avoids damage to the product caused by peeling.

The laser 20 is provided with a laser head 21; the laser head 21 is positioned above the first station 101 and is arranged opposite to the first station 101; the workbench 11 is also provided with a console 14 connected with the control unit.

The working process is approximately as follows:

firstly, a product is fed to a carrier 105 by a person, the carrier 105 is put into a feeding conveyer belt 103, the carrier 105 is conveyed to a position of a carrier 105 conversion cylinder 40 by the feeding conveyer belt 103, after the carrier 105 is detected to be in place, the carrier 105 is pushed to a carrier placement groove 104 of a first station 101 by the carrier conversion cylinder 40, at the moment, a first wrapper of the product is removed by a laser 20, the carrier 105 is turned to a second face by a turning device 30 after the laser 20 is started, and then a second wrapper of the product is removed by the laser 20; then, the product after the surface skin is removed is transferred to a fixed plate 63 of a conveying device 60 by a conversion manipulator 70, and the conveying device 60 drives the product to a second station 102 for rubberizing treatment; finally, after rubberizing is accomplished, transfer the carrier 105 that has rubberizing completed products to carrier backward flow assembly line 80 by unloading manipulator 90 to flow back to the feed area and by artifical unloading, so, material loading and unloading are in same region, be convenient for be used for the material loading with the empty carrier after the unloading, simultaneously, to whole board, need not set up material loading district and unloading district respectively at the both ends of board, shortened the overall length of board, reduce the board occupation space, be favorable to the application arrangement of board in the workshop.

In summary, the design key point of the invention is that the multi-surface laser skin-cutting treatment and the rubberizing treatment of the product are realized on the same machine in an integrated manner, so that the processing quality of the product is effectively ensured, the damage to the skin-cutting treatment and the transfer process of the product is avoided, the working efficiency is improved, and the equipment acquisition quantity and the equipment management cost of enterprises are also reduced; secondly, the remote feeding and discharging design structure of the feeding conveyer belt and the carrier reflow assembly line avoids the harm of laser to human bodies and ensures the safety problem of staff; meanwhile, as the feeding and the discharging are in the same area, the unloading empty carrier is convenient to use for feeding, the operation efficiency is improved, and the feeding area and the discharging area are not required to be arranged at the two ends of the whole machine, so that the whole length of the machine is shortened, the occupied space of the machine is reduced, and the application and arrangement of the machine in a workshop are facilitated; and the design of transferring by the manipulator is adopted, so that the damage to the product in the conveying process is avoided, the conveying is more accurate and efficient, and the automation degree of the whole machine is improved.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present invention are still within the scope of the technical solutions of the present invention.

Claims (6)

1. A laser turnover type rubberizing machine is characterized in that: the automatic surface peeling machine comprises a base and a workbench arranged on the base, wherein a feeding end, a laser machine for peeling, a rubberizing device for rubberizing a tape and a discharging end for outputting a finished product are sequentially arranged on the workbench according to the process sequence;

a first station is arranged below the laser machine, one side of the first station is provided with a turnover device for turning over the carrier, and the other side of the first station is provided with a carrier conversion cylinder for pushing the carrier from a feeding end to the first station;

a second station is arranged on one side of the rubberizing device, and a conveying device is connected between the first station and the second station; the workbench is provided with a control unit, and the laser machine, the turnover device, the carrier conversion cylinder, the rubberizing device and the conveying device are all connected with the control unit;

the discharging end is provided with a carrier reflow assembly line, and a discharging manipulator is connected between the second station and the carrier reflow assembly line;

the turnover device comprises a turnover driving mechanism and a turnover mechanism connected with the turnover driving mechanism, the turnover mechanism is connected with the carrier on the first station, and the turnover driving mechanism comprises a driving motor; the turnover device further comprises a base and a movable frame arranged on the base, the movable frame is movably arranged on the base through a sliding groove and is connected with a driving cylinder, and the turnover driving mechanism and the turnover mechanism are arranged on the movable frame.

2. The laser roll-over laminator of claim 1, wherein: one side of the first station is connected with a feeding conveyer belt; the carrier conversion cylinder is arranged at the joint of the first station and the feeding conveyor belt, and a carrier placement groove for fixing a carrier is arranged at the first station; the carrier placement groove is connected with the conveying device through the conversion manipulator, and one side of the carrier placement groove is connected with the turnover device.

3. The laser roll-over laminator of claim 1, wherein: the outlet end of the carrier reflow assembly line and the inlet end of the feeding conveyor belt are jointly connected to the manual feeding and discharging operation area.

4. The laser roll-over laminator of claim 1, wherein: the conveying device is provided with a conveying sliding rail, a moving block is arranged on the conveying sliding rail, and a fixing plate for fixing the carrier is connected to the moving block; the conveying device is further provided with a driving motor, and the driving motor is connected with the moving block through a lead screw.

5. The laser roll-over laminator of claim 2, wherein: the conversion manipulator is arranged on the workbench through a first mounting frame, a first transverse sliding rail is arranged on the first mounting frame, and the conversion manipulator reciprocates between the first station and the conveying device through the first transverse sliding rail; the conversion manipulator is further provided with a first vertical driving mechanism for lifting the manipulator, the first vertical driving mechanism is installed on the first transverse sliding rail through a first fixing frame, and the first fixing frame is connected to the first transverse sliding rail through a first sliding block.

6. The laser roll-over laminator of claim 1, wherein: the blanking manipulator is arranged on the workbench through a second mounting frame, a second transverse sliding rail is arranged on the second mounting frame, and the blanking manipulator reciprocates between a second station and a carrier reflow assembly line through the second transverse sliding rail; the blanking manipulator is further provided with a second vertical driving mechanism for lifting the manipulator, the second vertical driving mechanism is installed on a second transverse sliding rail through a second fixing frame, and the second fixing frame is connected to the second transverse sliding rail through a second sliding block.