CN109938434B - Automatic edge tearing device for integral plastic glove - Google Patents

Abstract

The invention belongs to the technical field of plastic glove processing devices, and particularly relates to an automatic edge tearing device for an integral plastic glove. The device includes material receiving component and tears limit subassembly, and material receiving component is including receiving material conveying part, material receiving pushing-down part, material receiving limit for height part and the flattening part of blowing, tears limit subassembly and includes finished product conveying part, tears limit and compresses tightly the part, tears limit and keep off waste material part and press from both sides tight limit part that tears. The material receiving assembly receives a material removing component of the bag making machine, conveys the integral plastic glove to the edge tearing assembly, and keeps the integral glove flat through pressing, blowing and height limiting. The tearing edge component is connected with the receiving component to finish bag clamping, compaction, tearing edge, waste falling and finished product output. The device completes the edge tearing action of the whole glove under the condition that the bag making machine continuously works, has high working efficiency, saves labor cost, reduces labor intensity, and is suitable for the flow production of plastic glove production and processing.

Description

Automatic edge tearing device for integral plastic glove

Technical Field

The invention belongs to the technical field of plastic glove processing devices, and particularly relates to an automatic edge tearing device for an integral plastic glove.

Background

Along with the continuous enhancement of people's health and safety consciousness, disposable plastic gloves are increasingly widely applied in daily production and life, the disposable plastic gloves are usually produced by using modes of film blowing, hot pressing, cutting and the like, production equipment and processing technology of the disposable plastic gloves are increasingly mature, but in the whole production process, the traditional processing mode usually adopts a manual tearing mode for removing glove rim charge, so that the workload is high, the labor cost is high, and the benefit of production and processing is greatly restricted. At present, a plurality of people are dedicated to researching and removing the automatic equipment of the redundant rim charge of the plastic glove, the technical scheme of the disclosed partial plastic glove rim charge removing equipment has advantages and disadvantages, mainly has the problems of complex structure, high failure rate, low production efficiency and the like, and is difficult to meet the production requirement of higher and higher degree of automation, so that a more efficient, simpler and more reliable automatic rim tearing device of the plastic glove is required to be provided for solving the problems.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the automatic edge tearing device for the integral plastic glove, which has higher working efficiency and automation degree, simple structure, stability and reliability. In order to solve the technical problems, the invention adopts the following technical scheme:

an automatic edge tearing device for an integral plastic glove comprises a material receiving component and an edge tearing component. The material receiving assembly comprises a material receiving conveying component, a material receiving pressing component, a material receiving height limiting component and a blowing leveling component, wherein the material receiving pressing component is arranged at the front end of the material receiving conveying component, and the material receiving height limiting component is arranged at the rear end of the material receiving conveying component; the blowing flattening component is positioned above the front end of the receiving and conveying component, and simultaneously blows air forwards and downwards and is used for flattening gloves and preventing turnover; the receiving and pressing component receives signals from the needle-removing electromagnetic valve of the bag making machine, synchronously acts with the needle-removing electromagnetic valve of the bag making machine, and presses the overlapped glove on the conveying component so as to facilitate discharging. The tearing edge assembly comprises a finished product conveying component, a clamping tearing edge component for clamping the glove and tearing edge materials and a tearing edge pressing component for pressing the finished product part of the glove, and the tearing edge pressing component directly presses the finished product part in the middle of the glove on the finished product conveying component; the clamping tearing part comprises a clamping frame and a clamping cylinder arranged on the clamping frame, the clamping cylinder is connected with a clamping head, and the clamping cylinder drives the clamping head to move up and down to clamp the glove; the clamping and tearing part further comprises a clamping and tearing part mounting frame and a tearing cylinder, the tearing cylinder is mounted on the clamping and tearing part mounting frame, and a guide column is arranged between the tearing cylinder and the clamping frame. The edge tearing cylinder drives the clamping frame to horizontally move through the guide post, and the edge is torn.

Further, the material receiving and conveying component comprises a material receiving and conveying frame, a material receiving and conveying belt arranged on the material receiving and conveying frame and a material receiving motor for driving the material receiving and conveying belt.

Preferably, the material receiving conveyor belt is three sections of parallel moving belts in the same direction, and the tail end of the middle belt of the material receiving conveyor belt is slightly longer than the left belt and the right belt; the tail end of the middle belt is provided with a material supporting frame, the tail ends of the left belt and the right belt are provided with material feeding plates, and the extending ends of the material feeding plates are provided with square notches.

Further, the material receiving and pressing component comprises a material receiving and pressing installation frame, a material receiving and pressing support frame and a material receiving and pressing cylinder, wherein the material receiving and pressing installation frame is installed on the material receiving and conveying frame, the material receiving pressing cylinder is arranged between the material receiving and pressing installation frames, and the material receiving and pressing cylinder is used for driving the material receiving pressing cylinder to move up and down; the receiving pressing cylinder is arranged on the receiving pressing support frame; the material receiving compression roller is provided with a plurality of contact rings.

Further, the material receiving and height limiting component comprises a material receiving and height limiting mounting frame, a material receiving and height limiting support frame and a height limiting strip mounting frame and a material receiving and height limiting cylinder, wherein the material receiving and height limiting mounting frame is arranged on the material receiving and conveying frame, the height limiting strip mounting frame is arranged between the material receiving and height limiting mounting frames, and the material receiving and height limiting cylinder is used for driving the height limiting strip mounting frame to move up and down; the material receiving height limiting cylinder is arranged on the material receiving height limiting support frame, and a plurality of height limiting strips are arranged on the height limiting strip mounting frame.

Further, the blowing flattening component comprises a fan and an air pipe connected with the fan, an air outlet nozzle is arranged at the tail end of the air pipe, a manual regulating valve is arranged between the air pipe and the air outlet nozzle, and the air quantity is adjustable.

Further, the finished product conveying component comprises a tearing edge conveying rack, a finished product glove conveying belt and a flat plate supporting frame, wherein the finished product glove conveying belt and the flat plate supporting frame are arranged on the tearing edge conveying rack, the finished product glove conveying motor is used for driving the finished product glove conveying belt to move, and the flat plate supporting frame is supported at the lower part of the front end of the finished product glove conveying belt; the two sides of the tearing edge conveying frame are provided with a linear guide rail and a clamping tearing edge driving belt, and the linear guide rail is provided with a sliding block; the clamping and tearing edge part is arranged on the sliding block and connected with the clamping and tearing edge driving belt, and the clamping and tearing edge driving belt drives the linear guide rail to move back and forth; the finished product conveying part further comprises a clamping and tearing edge transmission motor which is arranged on the tearing edge conveying frame and used for driving the clamping and tearing edge transmission belt to move.

Further, tear limit and compress tightly the top that the part is located dull and stereotyped support frame, including installing in tearing limit conveying frame tear limit compress tightly the support frame, tear limit and compress tightly the crossbeam and install tear limit on the limit compresses tightly the crossbeam and compress tightly the cylinder, it is connected with and compresses tightly the mounting panel to tear limit and compress tightly the cylinder, it compresses tightly the post to be provided with on the mounting panel to compress tightly, it drives through compressing tightly the mounting panel to tear limit and compress tightly the post up-and-down motion for loosen or compress tightly gloves.

Further, the tearing edge assembly further comprises a tearing edge waste blocking component, the tearing edge waste blocking component comprises a blocking support frame, a blocking cross beam, a blocking air cylinder and a blocking column, the tearing edge waste blocking component is installed on the tearing edge conveying rack through the blocking support frame, and the installation position is in front of the tearing edge pressing component; the material blocking cylinder and the material blocking column are arranged on the material blocking cross beam, and the material blocking column is driven by the material blocking cylinder to move up and down.

Preferably, the clamping and tearing edge component further comprises a material aligning plate arranged on the clamping frame, and the material aligning plate enables the edges of the whole glove to be tidy; and a drag chain for arranging data lines and an air supply pipe of the cylinder is arranged between the clamping and tearing part and the tearing and pressing part.

The beneficial effects of the invention are as follows:

1. the material receiving assembly and the tearing assembly are designed in a split mode, and the material receiving assembly is simple and convenient to install and convenient to transport.

2. The device has high automation, can continuously carry out the operations of receiving materials, feeding semi-finished products, clamping, pressing down, tearing edges, falling waste materials and outputting finished products under the condition that the plastic glove production equipment at the front end does not stop working, and is more suitable for the production line production of plastic gloves.

3. The glove edge tearing device has the advantages that the edge tearing of the whole glove can be realized, the front end of the receiving and conveying component receives semi-finished gloves conveyed by glove production equipment, the semi-finished gloves are stacked to a certain amount and conveyed to the edge tearing component, the semi-finished gloves can be pressed and flattened through the pressing, blowing flattening and height limiting component, the fluffiness, flanging and folding are prevented, and the edge tearing component is convenient to clamp and tear edges.

4. Because the flat support frame is arranged below the front end of the finished glove conveying belt, the tearing edge pressing part can directly press the whole glove on the finished glove conveying belt, and the finished glove is directly conveyed to the rear after the tearing edge is finished, so that the working efficiency is greatly improved.

5. The integrated design of the clamping and tearing parts is that the driving device drives the whole to move back and forth, the actions of clamping up and down and horizontally tearing the edges are easier to cooperate, and the glove edge material tearing effect is better.

6. The stop column of the edge tearing and waste blocking component is driven by the air cylinder to move up and down, blanking of the edge tearing and waste blocking component can be completed simultaneously in the process of clamping the front and back movement of the edge tearing component, and the working efficiency is higher.

Drawings

FIG. 1 is a schematic general construction of the present invention;

FIG. 2 is a schematic view of the material receiving assembly of the present invention;

FIG. 3 is a schematic view of the tear edge assembly of the present invention;

FIG. 4 is a schematic view of the structure of the receiving and conveying member of the present invention;

FIG. 5 is a schematic view of the structure of the receiving hold-down member of the present invention;

FIG. 6 is a schematic view of the structure of the material receiving height limiting component of the present invention;

FIG. 7 is a schematic view of the structure of the blowing leveling component of the present invention;

FIG. 8 is a schematic view of the structure of the finished conveying component of the present invention;

FIG. 9 is a schematic view of the construction of the tear edge compression component of the present invention;

FIG. 10 is a schematic view of the construction of the tear edge tab waste feature of the present invention;

FIG. 11 is a schematic view of the structure of the pinch-to-tear edge member of the present invention.

In each schematic: 1. a receiving and conveying component; 2. a receiving and pressing component; 3. a material receiving and height limiting component; 4. a blowing flattening component; 5. a finished product conveying component; 6. a tear edge pressing member; 7. a tear edge waste component; 8. clamping the edge tearing component; 11. a receiving and conveying frame; 12. a receiving conveyor belt; 13. a material receiving motor; 14. a material feeding plate; 15, a material supporting frame; 21. receiving and pressing down the mounting frame; 22. receiving and pressing down the supporting frame; 23. a receiving and pressing cylinder; 24. receiving a material pressing roller; 25. a contact ring; 26. a blowing bracket; 31. receiving and height limiting mounting rack; 32. a material receiving height limiting support frame; 33. height limiting strips; 34. a material receiving height limiting cylinder; 35. a photoelectric mounting rack; 36. height limiting strip mounting rack; 41. a blower; 42. an air duct; 43. a tee joint; 44. a fixing clamp; 45. an air outlet nozzle; 46. a manual adjustment valve; 51. tearing edge conveying rack; 52. a finished glove transfer belt; 53. a flat plate support frame; 54. clamping the tearing edge driving belt; 55. a linear guide rail; 56. a slide block; 57. a proximity switch; 58. a finished glove conveying motor; 59. clamping and tearing edge transmission motor; 61. tearing edges to compress the supporting frame; 62. tearing edges to compress the cross beam; 63. tearing edges to compress the cylinder; 64. a compression column; 65. tow chain; 66. compressing the mounting plate; 71. a material blocking support frame; 72. a material blocking cross beam; 73. a material blocking cylinder; 74. a material blocking column; 81. clamping the tear edge component mounting frame; 82. a clamping frame; 83. a clamping cylinder; 84. a clamping head; 85. a material plate is aligned; 86. edge tearing cylinder; 87. a guide post; 88. a drive belt clamping plate; 89. and a drag chain connecting plate.

Detailed Description

For a better understanding of the present invention, reference will now be made to the accompanying drawings and specific examples, which are set forth to provide a more thorough understanding of the present invention. This embodiment is a preferred form of the invention and not all embodiments, and all other embodiments, which would be obvious to one skilled in the art based on this embodiment without the exercise of inventive faculty, are intended to be within the scope of the invention.

For the convenience of description, the direction of one end of the glove semi-finished product is defined as front, and the direction of one end of the glove finished product is defined as rear. The rear end of the receiving component is connected with the front end of the tearing component.

1-3, the automatic edge tearing device for the integral glove comprises a material receiving component and an edge tearing component, wherein the material receiving component receives semi-finished products of the glove which are not torn off and are continuously conveyed by a bag making machine of glove production equipment positioned in front of the device, the semi-finished products of the glove are stacked and then conveyed to the edge tearing component, and the edge tearing component clamps, compresses, tears edges and blanking the semi-finished products of the integral glove, and outputs finished products of the integral glove with the edges removed;

the material receiving assembly comprises a material receiving conveying component 1, a material receiving pressing component 2, a material receiving height limiting component 3 and a blowing leveling component 4, wherein the material receiving pressing component 2 is arranged at the front end of the material receiving conveying component 1, the material receiving height limiting component 3 is arranged at the rear end of the material receiving conveying component 1, the blowing leveling component 4 blows forward from the upper part and the front end of the material receiving conveying component 1 and is used for leveling a glove semi-finished product, the whole glove semi-finished product is pressed through the material receiving pressing component 2, and the thickness of the whole glove semi-finished product is limited through the material receiving height limiting component 3;

the tearing edge assembly comprises a finished product conveying part 5, a tearing edge pressing part 6, a tearing edge waste blocking part 7 and a clamping tearing edge part 8, wherein the tearing edge pressing part 6 directly presses the whole glove on the finished product conveying part 5;

the clamping tearing edge part 8 comprises a clamping frame 82 and a clamping cylinder 83 arranged on the clamping frame 82, the clamping cylinder 83 is connected with a clamping head 84, and the clamping cylinder 83 drives the clamping head 84 to move up and down to clamp the glove; the clamping and tearing edge part 8 further comprises a clamping and tearing edge part mounting frame 81 and a tearing edge cylinder 86, the tearing edge cylinder 86 is mounted on the clamping and tearing edge part mounting frame 81, a guide column 87 is arranged between the tearing edge cylinder 86 and the clamping frame 82, and the tearing edge cylinder 86 drives the clamping frame 82 to horizontally move through the guide column 87 to tear off the edge material.

In the invention, the glove semi-finished product is received by the receiving and conveying part 1, the glove semi-finished product produced by front end production equipment is continuously conveyed and stacked at the front end of the receiving and conveying part 1, and the blowing flattening part 5 is positioned above the front end of the receiving and conveying part 1 and simultaneously blows forward and downward. After the gloves are pushed and overlapped to a certain amount, the material receiving pressing part 2 presses down to press the whole glove; the material receiving and conveying part 1 conveys the semi-finished product of the integral glove to the rear end, and the material receiving and height limiting part 4 arranged at the rear end limits the thickness of the integral glove, so that subsequent equipment is convenient for clamping and tearing the integral glove; then clamping the semi-finished glove products stacked by the clamping and tearing parts 8, pressing the glove by the tearing and pressing parts 6, clamping and tearing the glove rim materials by the clamping and tearing parts 8, and directly outputting the finished glove products by the receiving and conveying part 1 after the tearing. The material receiving component and the tearing component are designed in a split mode, so that the material receiving component and the tearing component are simple to install and convenient to transport; the clamping and tearing part 8 is integrally designed, the driving device drives the whole to move back and forth, the actions of clamping up and down and horizontally tearing are easier to cooperate, and the glove rim material tearing effect is better.

Further, as shown in fig. 4, the receiving and conveying part 1 includes a receiving and conveying frame 11, a receiving and conveying belt 12 provided on the receiving and conveying frame 11, and a receiving motor 13 for driving the receiving and conveying belt 12.

In one embodiment of the invention, the receiving conveyor belt 12 is composed of three parallel moving belts in the same direction, the front ends of the three belts are level, the tail end of the middle belt is slightly longer than the left and right belts, the tail end of the middle belt is provided with a material supporting frame 15, the tail ends of the left and right belts are respectively provided with a material feeding plate 14, and the extending ends of the material feeding plates 14 are provided with square notches.

The material receiving conveyer belt 12 is designed according to the scheme, so that the clamping and tearing part 8 is more convenient to clamp a bag when the whole plastic glove semi-finished product is conveyed to the tail end of the belt, for example, the material receiving conveyer belt 12 is a whole wide belt, the material feeding plate 14 arranged at the tail end of the belt is longer than the whole belt, when the glove semi-finished product is conveyed to the tail end of the belt, the material feeding plate 14 holds two sides of the glove semi-finished product, the middle part of the glove is easy to droop and is easy to roll into a gap at the lower part of the tail end of the conveyer belt, and the clamping effect of the clamping and tearing part 8 on the whole plastic glove semi-finished product can be influenced, so that the follow-up tearing action is unfavorable. The receiving conveyor belt 12 is designed into three parallel moving belts with longer middle and shorter two sides in the same direction, and after the feeding plates 14 are arranged at the tail ends of the belts at the two sides, the end parts of the feeding plates 14 are basically level with the end parts of the belts at the middle part, so that the problems can be overcome. The end of the material feeding plate 14 is designed into a shape with a square notch in the middle, so that the clamping tearing edge part 8 is more convenient for clamping the semi-finished glove product, and the clamping head 84 is pressed and clamped at the square notch. Meanwhile, the material supporting frame 15 can support the middle part of the glove on one hand, and on the other hand, when the tearing edge assembly finishes tearing edges to bring the waste back, the material supporting frame 15 can block the waste to enable the waste to fall into the waste collecting box below.

Further, as shown in fig. 5, the material receiving and pressing component 2 comprises a material receiving and pressing installation frame 21, a material receiving and pressing support frame 22, a material receiving press roller 24 and a material receiving and pressing cylinder 23, wherein the material receiving and pressing installation frame 21 is installed on the material receiving and conveying frame 11, and the material receiving press roller 24 is arranged between the material receiving and pressing installation frames 21, and the material receiving press cylinder 23 is used for driving the material receiving press roller 24 to move up and down; the receiving and pressing cylinder 23 is arranged on the receiving and pressing support frame 22; the material receiving compression roller 24 is provided with a plurality of contact rings 25, and the material receiving pressing support frame 22 is provided with a blowing support 26 for connecting and fixing an air outlet nozzle 45 of the blowing flattening component 4. When the material receiving pressing component drives the material receiving pressing roller to move downwards by the material receiving pressing cylinder, the contact ring is in contact with the glove, so that the stacked semi-finished glove is pressed, the glove is prevented from being too fluffy, and the waste is convenient to tear off subsequently.

Further, as shown in fig. 6, the material receiving and height limiting component 3 comprises a material receiving and height limiting mounting frame 31, a material receiving and height limiting support frame 32, a height limiting strip mounting frame 35 and a material receiving and height limiting cylinder 34, wherein the material receiving and height limiting mounting frame 31 is arranged at the rear end of the material receiving and conveying frame 11, and the height limiting strip mounting frame 35 is arranged between the material receiving and height limiting mounting frames 31; the material receiving height limiting cylinder 34 is arranged on the material receiving height limiting support frame 31, and a plurality of height limiting strips 33 are arranged on the height limiting strip mounting frame 31; the material receiving height limiting support frame 32 is also provided with a photoelectric mounting frame 35 which can be used for mounting photoelectric detection equipment. Through photoelectric detection equipment, detect that the gloves come, connect material limit for height cylinder 34 drive limit for height strip mounting bracket 35 downward movement, limit for the height of whole stack plastics gloves through limit for height strip 33 for glove thickness does not exceed limit for height strip 33, prevents that whole stack gloves from too fluffy, is convenient for follow-up clamp get and tear the limit.

Further, as shown in fig. 7, the blowing leveling component 4 comprises a blower 41, an air pipe 42 connected with the blower 41, and an air outlet nozzle 45 arranged at the tail end of the air pipe 42, wherein a fixing clamp 44 is arranged at the tail end of the air pipe 42 close to the air outlet nozzle 45, the fixing clamp 44 is arranged on the blowing bracket 26, a manual adjusting valve is arranged between the air pipe 42 and the air outlet nozzle 45, and the air volume is adjustable. The air outlet nozzle 45 blows air from the front end of the receiving conveyor belt 12 forward to the semi-finished glove product conveyed by the bag making machine, and simultaneously blows air from the upper part of the receiving conveyor belt 12 downward to the semi-finished glove product stacked at the front end of the belt, so that the stacked plastic glove can be kept flat, and flanging or folding can be prevented during stacking. A tee 43 is provided in the middle of the air duct 42.

Before the plastic glove production equipment is placed in the material receiving assembly, the plastic glove semi-finished products without tearing edges are continuously conveyed to the front end of the material receiving conveying belt 12 from the production equipment and stacked into an integral stack, and the air blowing leveling component 4 keeps downward air blowing, so that the glove semi-finished products are kept level; when the glove is stacked to a certain number, for example 50, the receiving pressing cylinder 23 drives the receiving pressing roller 24 to press down, the semi-finished product of the whole glove is pressed, and meanwhile, the receiving motor 13 drives the receiving conveying belt 12 to convey the semi-finished product of the whole glove to the rear end; when the semi-finished product of the integral glove is conveyed to the rear end of the receiving conveying belt 12, the receiving height limiting cylinder 34 drives the height limiting strip mounting frame 35 to move downwards, the height limiting strip 33 limits the stacking height of the semi-finished product of the integral glove, and the semi-finished product of the integral glove is prevented from being too fluffy, so that the subsequent edge tearing parts are not beneficial to clamping the integral glove; at this time, the material receiving motor 13 stops driving, the material receiving and feeding plate 14 holds the whole stack of glove semi-finished products, the glove semi-finished products are clamped and fed by the clamping and tearing parts 8, meanwhile, the front end production equipment continues to convey the non-torn plastic glove semi-finished products to the front end of the material receiving and feeding conveyor belt 12, and the above actions are repeated until the number of the plastic glove semi-finished products is 50. The material receiving motor 13 and each driving cylinder receive the needle-removing electromagnetic valve signals from the glove production equipment, so that the cooperation of actions between the material receiving assembly and the glove production equipment can be ensured.

Further, the finished glove conveying apparatus 5, as shown in fig. 8, includes a tear edge conveyor frame 51, a finished glove conveying belt 52 and a flat support 53 mounted on the tear edge conveyor frame 51, and a finished glove conveying motor 58 for driving the finished glove conveying belt 52 to move. The flat plate supporting frame 53 is supported at the lower part of the front end of the finished glove conveying belt 51; the two sides of the tearing edge conveying frame 51 are provided with a linear guide rail 55 and a clamping tearing edge driving belt 54, and the linear guide rail 55 is provided with a sliding block 56; the clamping and tearing edge part 8 is arranged on the sliding block 56 and connected with the clamping and tearing edge driving belt 54, and is driven by the clamping and tearing edge driving belt 54 to move back and forth along the linear guide rail 55; the finished product conveying member 5 further includes a clamping and tearing edge drive motor 59 mounted on the tearing edge conveying frame 51 for driving the clamping and tearing edge drive belt 54 to move. The finished product conveying part 51 enables the clamping and tearing part 8 to move back and forth on the linear guide rail 55, so that the movement route is single, and deviation cannot occur.

Further, as shown in fig. 9, the tear edge pressing component 6 is located above the flat plate supporting frame 53, and includes a tear edge pressing supporting frame 61 installed on the tear edge conveying frame 51, a tear edge pressing beam 62, and a tear edge pressing cylinder 63 installed on the tear edge pressing beam 62, where the tear edge pressing cylinder 63 is connected with a pressing mounting plate 66, the pressing mounting plate 66 is provided with a pressing column 64, and the tear edge pressing cylinder 63 drives the pressing column 64 to move up and down through the pressing mounting plate 66 to loosen or press the glove; because tear limit compresses tightly part 6 and is located the top of dull and stereotyped support frame 53, and finished product gloves conveyer belt 52 receives dull and stereotyped support frame 53 and props the support here, when compressing tightly post 64 downstream, can directly press whole overlapping gloves on the conveyer belt, compress tightly the range setting that compresses tightly post 64 in the size range of gloves finished product, after compressing tightly the finished gloves part in the middle of the whole overlapping gloves semi-manufactured goods of post 64, press from both sides tight tear limit part 8 and press from both sides the horizontal movement about glove rim charge, tear the rim charge.

As a preferable scheme, tow chains 65 are further arranged on two sides of the tearing edge pressing cross beam 62, and the other ends of the tow chains 65 are mounted on a tow chain connecting plate 89 for clamping the tearing edge component 8 and used for laying data lines and cylinder air supply pipes.

In another embodiment of the invention, the tearing edge waste blocking component 7 is further included, as shown in fig. 10, the tearing edge waste blocking component 7 comprises a material blocking support frame 71, a material blocking cross beam 72, a material blocking cylinder 73 and a material blocking column 74, and the tearing edge waste blocking component is installed on the tearing edge conveying rack 51 through the material blocking support frame 71, and the installation position is before the tearing edge pressing component 8; the material blocking cross beam 72 is arranged at the top of the material blocking support frame 71, the material blocking air cylinder 73 and the material blocking column 74 are arranged on the material blocking cross beam 72, and the material blocking column 74 is driven by the material blocking air cylinder 73 to move up and down; after the rim charge is torn off by clamping the rim tearing component 8, the rim charge is carried to move backwards, meanwhile, the material blocking cylinder 73 drives the material blocking column 74 to move downwards, the rim charge is blocked by the material blocking column 74, meanwhile, the clamping head 84 is driven by the clamping cylinder 83 to loosen upwards, and the rim charge falls into a waste collection box located at the lower part of the rim charge tearing component 7. The material blocking column 74 of the edge tearing and waste blocking component 7 is driven by the material blocking cylinder 74 to move up and down, blanking of the torn edge can be finished simultaneously in the process of clamping the front and back movement of the edge tearing component 8, and the working efficiency is higher.

Further, the clamping tear edge member 8, as shown in fig. 11, further includes a belt clamping plate 88 and a drag chain connecting plate 89 provided on the clamping tear edge member mounting frame 81, and a stock plate 85 provided on the clamping frame 82. The clamping and tearing part 8 is arranged on the sliding blocks 56 of the left linear guide rail 55 and the right linear guide rail 55 through the clamping and tearing part mounting frame 81, the driving belt clamping plate 88 is clamped on the clamping and tearing driving belt 54, and the clamping and tearing part 8 is driven by the clamping and tearing driving belt 54 to reciprocate between the feeding plate 14 and the tearing pressing part 6 along the linear guide rail 55. The material-aligning plate 85 is arranged on the clamping frame 82, so that the edges of the semi-finished glove product can be tidier when the clamping and tearing edge part 8 clamps the semi-finished glove product.

When the receiving conveyor belt 12 conveys the semi-finished product of the integral glove to the rear end, the clamping and tearing part 8 moves to the feeding plate 14 along the linear guide rail 55, the clamping cylinder 83 drives the clamping head 84 to move downwards, the edge material part of the edge of the semi-finished product of the integral glove supported on the feeding plate 14 is clamped, the clamping part is driven by the clamping and tearing driving belt 54 to move to the position of the tearing and pressing part 6 along the linear guide rail 55, at the moment, the pressing column 64 is driven by the pressing cylinder 63 to move downwards, the semi-finished product of the integral glove is pressed on the front end of the finished glove conveying belt 52, the pressing part of the pressing column 64 is the middle finished glove part, and the pressing part can be ensured to be stressed stably due to the supporting of the flat plate supporting frame 53 under the position of the finished glove conveying belt 52. Simultaneously, the edge tearing cylinder 86 drives the clamping frame 82 to horizontally move to tear the glove edge, then the clamping edge tearing component 8 is driven by the clamping edge tearing driving belt 54 to return to the feeding plate 14 along the linear guide rail 55, and the glove edge is simultaneously torn off from the glove, and then the clamping head 84 is loosened; when the clamping and tearing edge part 8 returns, the material blocking column 74 moves downwards under the drive of the material blocking cylinder 73 to block the torn glove edge materials and fall into the waste collection box below. After the glove trim is torn off, the pressing column 64 moves upwards, the finished glove conveying motor 58 drives the finished glove conveying belt 52 to convey the finished glove to the rear end, and the glove trimming action is completed. The clamping and tearing part 8 is driven by the clamping and tearing driving belt 54, and returns to the feeding plate 14 to clamp and take off a batch of semi-finished gloves, and then the above actions are repeated. The action of each driving component is controlled by a program and is synchronous with the action of the material receiving component.

The edge tearing device for the integral laminated plastic glove can continuously tear off the edge of the integral laminated glove under the condition that glove production equipment does not stop working, and compared with the prior art, the edge tearing device for the integral laminated plastic glove has higher automation degree and working efficiency, better edge tearing effect, is more suitable for modern production line production, and has wide market application prospect.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims (9)

1. The utility model provides an automatic limit device that tears of whole stack plastics gloves, includes material receiving subassembly and tears limit subassembly, its characterized in that:

the material receiving assembly comprises a material receiving conveying component, a material receiving pressing component, a material receiving height limiting component and a blowing flattening component; the receiving and conveying component comprises a receiving and conveying frame, a receiving and conveying belt arranged on the receiving and conveying frame and a receiving motor for driving the receiving and conveying belt, and a feeding plate is arranged at the rear end of the receiving and conveying belt; the receiving pressing component is arranged at the front end of the receiving conveying component and comprises a receiving pressing roller which is arranged above the receiving conveying belt and can move up and down; the material receiving and height limiting component is arranged at the rear end of the material receiving and conveying component and comprises a height limiting strip mounting frame which is arranged above the material receiving and conveying belt and can be transported up and down, and a plurality of height limiting strips are arranged on the height limiting strip mounting frame; the blowing flattening component is positioned above the front end of the receiving and conveying component, and simultaneously blows air forwards and downwards and is used for flattening gloves and preventing turnover; the material receiving pressing component presses the integral glove on the material receiving conveying component so as to facilitate discharging;

the front end of the tearing edge component is connected with the rear end of the receiving component and comprises a finished product conveying component, a clamping tearing edge component for clamping the glove and tearing off the edge and a tearing edge pressing component for pressing the finished product glove; the finished product conveying component comprises a tearing edge conveying rack, a finished product conveying belt is arranged on the tearing edge conveying rack, a flat plate supporting frame is arranged below the front end of the finished product conveying belt, and a tearing edge pressing component is arranged above the flat plate supporting frame and is provided with a pressing column capable of moving up and down to directly press the finished product part of the whole glove on the finished product conveying component; the clamping tearing part comprises a clamping frame and a clamping cylinder arranged on the clamping frame, the clamping cylinder is connected with a clamping head, and the clamping cylinder drives the clamping head to move up and down to clamp the glove; the clamping and tearing part further comprises a clamping and tearing part mounting frame and a tearing cylinder, the tearing cylinder is mounted on the clamping and tearing part mounting frame, a guide column is arranged between the tearing cylinder and the clamping frame, the tearing cylinder drives the clamping frame to horizontally move through the guide column, and the edge is torn; the two sides of the tearing edge conveying frame are provided with linear guide rails, and the clamping and tearing edge component can reciprocate between the feeding plate and the tearing edge compacting component along the linear guide rails.

2. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: the material receiving conveyor belt is three sections of parallel moving belts in the same direction, and the tail end of the middle belt is slightly longer than the left belt and the right belt; the tail end of the middle belt is provided with a material supporting frame, the material feeding plates are arranged at the tail ends of the left belt and the right belt, and a square notch is formed in the extending end of each material feeding plate.

3. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: the receiving pressing component comprises a receiving pressing installation frame and a receiving pressing support frame which are arranged on the receiving conveying frame, the receiving pressing rollers are arranged between the receiving pressing installation frames, and a receiving pressing cylinder for driving the receiving pressing rollers to move up and down is arranged on the receiving pressing support frame; the material receiving compression roller is provided with a plurality of contact rings.

4. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: the material receiving and height limiting component comprises a material receiving and height limiting mounting frame and a material receiving and height limiting support frame which are mounted on the material receiving and conveying frame, wherein the height limiting mounting frame is arranged between the material receiving and height limiting mounting frames and is used for driving the material receiving and height limiting cylinder which moves up and down of the height limiting mounting frame to be arranged on the material receiving and height limiting support frame.

5. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: the air blowing flattening component comprises a fan and an air pipe connected with the fan, an air outlet nozzle is arranged at the tail end of the air pipe, a manual adjusting valve is arranged between the air pipe and the air outlet nozzle, and the air quantity is adjustable.

6. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: clamping tearing edge transmission belts are arranged on two sides of the tearing edge conveying frame, and sliding blocks are arranged on the linear guide rails; the clamping and tearing edge component is arranged on the sliding block and connected with the clamping and tearing edge driving belt, and the clamping and tearing edge driving belt drives the linear guide rail to move back and forth; the finished product conveying part further comprises a clamping and tearing edge transmission motor which is arranged on the tearing edge conveying rack and used for driving the clamping and tearing edge transmission belt to move.

7. An automated edge tearing apparatus for an integral plastic glove according to claim 6, wherein: the tear limit compresses tightly the part including installing the tear limit in tearing limit conveying frame and compress tightly the support frame, tear limit and compress tightly the crossbeam and install tear limit on the limit compresses tightly the crossbeam and compress tightly the cylinder, it is connected with and compresses tightly the mounting panel to tear limit compress tightly the cylinder, it sets up to compress tightly the post compress tightly on the mounting panel tear limit compress tightly the cylinder and drive through compressing tightly the mounting panel compress tightly the post up-and-down motion for loosen or compress tightly gloves.

8. An automated edge tearing apparatus for an integral plastic glove according to claim 6, wherein: the tearing edge assembly further comprises a waste blocking component, wherein the waste blocking component comprises a material blocking support frame, a material blocking cross beam, a material blocking cylinder and a material blocking column, the waste blocking component is installed on the tearing edge conveying rack through the material blocking support frame, and the installation position is in front of the tearing edge pressing component; the material blocking cylinder and the material blocking column are arranged on the material blocking cross beam, and the material blocking column is driven by the material blocking cylinder to move up and down.

9. An automated edge tearing apparatus for integral plastic gloves as claimed in claim 1 wherein: the clamping and tearing part further comprises a material-aligning plate arranged on the clamping frame, and the material-aligning plate enables the edges of the whole glove to be tidy; and a drag chain for laying data lines and an air supply pipe of the cylinder is arranged between the clamping and tearing part and the tearing and pressing part.