CN-224226144-U - Clamping and unpacking integrated mechanism

Abstract

The application relates to the technical field of unpacking of solid waste packing materials, and discloses a clamping and unpacking integrated mechanism, which comprises the following components: the clamping plate I, the clamping plate II, the connecting driving structure, the anti-slip structure, the scissors structure and the bag grabbing structure are composed of two clamping plates, and the clamping plate structure can clamp the waste bag beating materials. The opening and closing distance of the two clamping plates is relatively adjusted so as to adapt to solid waste packing materials with different sizes. The connection drive structure is located at both ends of the clamping plate for connecting the device with a forklift or other transportation device. The antiskid structure is located the splint one end that keeps away from the connection drive structure. The anti-slip structure is helpful for ensuring that the clamping plate can firmly clamp the solid waste packing material, preventing sliding or falling, and improving the working safety. The scissors structure is fixed on one side of the clamping plate far away from one end of the connecting driving structure. The scissors structure is used for shearing the packing ropes on the solid waste packing materials, so that unpacking operation is realized.

Inventors

• WANG JIAFAN
• WANG QIN
• XUE LIN

Assignees

• 重庆洁蓝城市环境服务有限公司

Dates

Publication Date

20260512

Application Date

20250620

Claims (7)

1. 1. Clamping and unpacking integrated mechanism assembled on forklift or other transportation equipment, clamping and unpacking solid waste packing materials, and is characterized by comprising: the clamping plate structure consists of two clamping plates; the connecting driving structure is positioned at one end of the two clamping plates and is connected with a forklift or other transportation equipment; the scissors structure is fixed at one end of the side clamping plate, which is far away from the connecting driving structure; the grabbing structure is fixed at one end of the other side clamping plate far away from the connecting driving structure; the scissors structure with grab a packet structure and set up relatively, during the use grab a packet structure and snatch the baling rope on the solid useless packing material, the scissors structure is cut the rope and is unpacked the action.
2. 2. The integrated clamping and unpacking mechanism according to claim 1, wherein the connecting driving structure drives the two clamping plates to move relatively, and the connecting driving structure comprises: a connection frame body providing a device connection area to drive the component mounting area; The hydraulic cylinder is provided with at least two hydraulic cylinders; The sliding track frames are two groups of two, and two groups of sliding track frames are arranged; And the sliding frame is matched with the sliding rail frame in sliding connection.
3. 3. The integrated clamping and unpacking mechanism according to claim 2, wherein two hydraulic cylinders are oppositely arranged, one ends of the two hydraulic cylinders are fixed with the connecting frame body, the other ends of the two hydraulic cylinders are carried on the clamping plates, bearing supports are arranged at the contact positions of the two hydraulic cylinders and the clamping plates, one group of the sliding rail frames is connected with the first clamping plate and the second clamping plate respectively, and when the two hydraulic cylinders work, the first clamping plate and the second clamping plate are driven to move outwards or inwards simultaneously, and then the sliding rail frames are matched to slide.
4. 4. The integrated clip and unwrap mechanism of claim 1 further comprising an anti-slip structure disposed at an end of the two jaws remote from the connection drive structure.
5. 5. The integrated clip and unwrap mechanism of claim 4, wherein the anti-slip structure comprises: an extension splint fixed with the splint structure; The anti-skid teeth are arranged on the inner side of the extension clamping plate and are in a rectangular array.
6. 6. The integrated clip and unwrap mechanism of claim 1, wherein the scissor structure comprises: The scissors positioning frame is fixed on the inner side of the side clamping plate and is in threaded connection with the side clamping plate; The scissors racks are provided with two scissors racks; The knife points on the two scissor racks are reversely arranged, and the two scissor racks move relatively when in operation.
7. 7. The integrated clip and unwrap mechanism of claim 1, wherein the unwrap structure comprises: a bag grabbing and positioning frame, is fixed on the inner side of the clamping plate on the other side is in threaded connection with the connecting rod; The grapple strip is provided with two grapple strips; The novel plastic packaging machine is characterized in that a plurality of crescent grapples are arranged on the grapple strips from top to bottom at equal distance, the two grapple strips move relatively, and the crescent grapples carry out the grabbing action of the packaging rope on the solid waste packaging material.

Description

Clamping and unpacking integrated mechanism Technical Field The application relates to the technical field of unpacking of solid waste packing materials, in particular to a clamping and unpacking integrated mechanism. Background In the processes of garbage disposal, waste recovery or resource recycling, unpacking of the solid waste packing material is an essential step. The solid waste packing material contains various wastes of different types. By unpacking, the materials can be separated, so that the subsequent classification, treatment and resource recycling are facilitated. For example, different materials such as plastic, paper, metal, etc. need to be treated separately to increase recovery efficiency and value. Mixing together of different waste materials may result in pollution, in particular in the release of harmful substances and toxic gases. After unpacking, environmental pollution can be better controlled and reduced, and the method is particularly important in treating electronic waste, chemical waste and the like. Some wastes can be compressed into big bags when solid wastes are packaged, mechanical treatment such as crushing, sorting and the like can be more conveniently carried out after unpacking, the production efficiency is improved, the equipment loss is reduced, and the binding materials of the solid waste packaging materials are treated in the unpacking process. The packing material may be bound by ropes or metal wires, and the ropes need to be cut when unpacking, so that the packing is quickly unpacked, and the sorting and recycling of wastes are prevented from being influenced by the ropes. If the rope is not cut in time, it may cause malfunction of the machine or prevent smooth proceeding of the unpacking process. The existing bag clamping machine often needs manual adjustment of clamping distance or intervention to complex operation, so that the operation flow is complicated, manual intervention is frequent, the rope needs to be manually disassembled, and the function is single when solid waste bag materials are processed. Disclosure of utility model In order to solve the above-mentioned problem, the present application provides a clamping and unpacking integrated mechanism. The application provides a clamping and unpacking integrated mechanism which adopts the following technical scheme: The clamping and unpacking integrated mechanism is assembled on a forklift or other conveying equipment and clamps and unpacks solid waste packing materials, and comprises a clamping plate structure, a connecting driving structure and a scissors structure, wherein the clamping plate structure is composed of two clamping plates, the connecting driving structure is positioned at one end of each clamping plate and connected with the forklift or other conveying equipment, the scissors structure is fixed at one end of one side of each clamping plate, which is far away from the connecting driving structure, the grabbing structure is fixed at the other end of each clamping plate, which is far away from one end of the connecting driving structure, the scissors structure and the grabbing structure are oppositely arranged, and when the clamping structure is used, the grabbing structure grabs packing ropes on the solid waste packing materials, and the scissors structure performs rope shearing and unpacking actions. The connecting driving structure comprises a connecting frame body which provides a device connecting area to drive a component mounting area, at least two hydraulic cylinders are arranged, two groups of sliding rail frames are arranged, and the sliding rail frames are matched with the sliding rail frames in a sliding connection mode. Preferably, two the pneumatic cylinders are relatively arranged, one end is fixed with the connecting frame body, the other end is carried on the clamping plate, a bearing support is arranged at the contact position of the clamping plate, one group of the sliding rail frames is respectively connected with the clamping plate I and the clamping plate II, and when the two pneumatic cylinders work, the clamping plate I and the clamping plate II are driven to move outwards or inwards simultaneously, and then the sliding rail frames are matched to slide. Preferably, the anti-slip structure is arranged at one end of the two clamping plates far away from the connecting driving structure. Preferably, the anti-skid structure comprises an extension splint fixed with the splint structure, and a plurality of anti-skid teeth which are arranged on the inner side of the extension splint and are arranged in a rectangular array. Preferably, the scissors structure comprises a scissors positioning frame which is fixed on the inner side of a side clamping plate and is in threaded connection with the side clamping plate, two scissors racks are arranged, the upper knife points of the two scissors racks are arranged reversely, and the two scissors racks move relatively when in operation. Pr