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CN-117818975-B - Vertical slice stacking device

CN117818975BCN 117818975 BCN117818975 BCN 117818975BCN-117818975-B

Abstract

The application relates to a stacking and erecting sheet device which comprises a machine base, wherein a sorting and conveying assembly, a belt conveying assembly, a pushing assembly and a receiving assembly are sequentially arranged on the machine base, the sorting and conveying assembly is used for sorting sheets and conveying the sheets to an inlet of the belt conveying assembly in batches, an outlet of the belt conveying assembly is opposite to the receiving assembly, a material box is connected to the receiving assembly, the pushing assembly is used for pushing the sheets at the outlet of the belt conveying assembly into the material box, a limiting assembly used for limiting the quantity of the sheets once entering the material box is arranged at the inlet of the belt conveying assembly, a layered support used for containing a material net is arranged at one side, deviating from the material box, of the belt conveying assembly, and a barrier assembly used for clamping the material net and placing the material net between two adjacent sheets in the material box is arranged on the machine base. The whole process of the application is carried out manually without staff, thereby reducing the labor intensity of workers and improving the production efficiency of magnetic materials.

Inventors

  • DONG LEI
  • ZHANG HONGTU

Assignees

  • 北京北方华创磁电科技有限公司

Dates

Publication Date
20260505
Application Date
20220927

Claims (7)

  1. 1. The stacking and standing piece device is characterized by comprising a machine base (1), wherein a sorting and conveying assembly (2), a belt conveying assembly (3), a pushing assembly (4) and a containing assembly (5) are sequentially arranged on the machine base (1); The sorting and conveying assembly (2) is used for sorting the material sheets (9) and conveying the material sheets (9) to an inlet of the belt conveying assembly (3) in batches, an outlet of the belt conveying assembly (3) is opposite to the containing assembly (5), the containing assembly (5) is connected with a material box (10), the pushing assembly (4) is used for pushing the material sheets (9) at the outlet of the belt conveying assembly (3) into the material box (10), the belt conveying assembly (3) is provided with limiting assemblies (7) at the inlet, the limiting assemblies are used for limiting the quantity of the material sheets (9) entering the material box (10) at one time, a layering bracket (8) for containing a material net (11) is arranged on one side, away from the material box (10), of the belt conveying assembly (3), and a interlayer assembly (6) used for clamping the material net (11) and placing the material net (11) between two adjacent material sheets (9) in the material box (10) is arranged on the machine base (1); the arrangement transmission assembly (2) comprises an arrangement bracket (21), a panel (22), a suction and discharge piece (24) and a conveying piece (25); The sorting support (21) is arranged on the machine base (1) and the belt transmission assembly (3) is positioned on one side of the sorting support (21), the panel (22) is horizontally arranged and connected with a control piece (23) for controlling the panel (22) to horizontally slide along the direction close to or far away from the belt transmission assembly (3), the sorting support (21) is provided with an adjusting piece (26) for reducing the gap between the material sheets (9) on the panel (22), the absorbing and releasing piece (24) is arranged on the machine base (1) and used for absorbing and placing the material sheets (9) on the panel (22) on the belt transmission assembly (3), and the conveying piece (25) is arranged on the machine base (1) and used for driving the absorbing and releasing piece (24) to slide along the direction close to or far away from the belt transmission assembly (3); The belt transmission assembly (3) comprises a conveyor belt (31) and guide plates (33), the conveyor belt (31) is horizontally arranged on the machine base (1) along the moving direction perpendicular to the panel (22), the panel (22) and the material box (10) are respectively positioned on two sides of the conveyor belt (31) along the self transmission direction and are distributed in a staggered mode, two guide baffles (32) are arranged above the conveyor belt (31) at intervals along the self transmission direction, a first channel (34) for moving the material feeding plate (9) is arranged between the two guide baffles (32), the guide plates (33) are distributed along the transmission direction of the conveyor belt (31) and are positioned in the first channel (34), one end, close to the panel (22), of the guide plates (33) is fixed with one guide baffle (32), and one end, close to the material box (10), of the guide plates (33) is inclined along the direction close to the other guide baffle (32) and is provided with a second channel (35) for sequentially passing through the material feeding plate (9) between the other guide baffles (32); the accommodating assembly (5) comprises an accommodating bracket (51), an installing support plate (52) and an adjusting cylinder (53); The storage support (51) is arranged on the machine base (1) and located on one side of the conveyor belt (31) along the transmission direction of the machine base, the installation support plate (52) is arranged on the storage support (51) and opposite to the conveyor belt (31) and hinged to the top end of the storage support (51) along the top end of the length direction, the material box (10) is arranged on the installation support plate (52) opposite to the end face of the conveyor belt (31), the adjusting cylinder (53) is hinged to the storage support (51) and the output shaft is hinged to the end face, opposite to the installation support plate (52), of the installation support plate (52) and used for driving the installation support plate (52) to vertically rotate along the direction close to or far away from the conveyor belt (31).
  2. 2. The stacking and standing sheet device according to claim 1, wherein the adjusting piece (26) comprises an adjusting air cylinder (261) and an adjusting baffle plate (263), the adjusting baffle plate (263) is horizontally and rotatably arranged on the arranging support (21) along the moving direction perpendicular to the panel (22), the adjusting air cylinder (261) is arranged on the arranging support (21) and the output shaft is distributed along the moving direction of the panel (22), and the adjusting baffle plate (263) is arranged above the panel (22) and is provided with adjusting connecting rods (262) fixedly connected with the output shaft of the adjusting air cylinder (261) at two ends.
  3. 3. The stacking sheet device according to claim 1, wherein the conveying member (25) comprises a conveying bracket (251), a conveying motor (252), a reduction bevel gear set, a conveying gear (256) and a conveying rack (257); The suction and discharge piece (24) is arranged on the transmission support (251), the transmission motor (252) is vertically arranged on the transmission support (251) and is connected with the speed reduction bevel gear set, the transmission support (251) is horizontally rotated along the moving direction vertical to the panel (22) and is connected with the transmission rotating rod (253), the two ends of the transmission rotating rod (253) are coaxially provided with the transmission gear (256), the transmission gear (256) is connected with the speed reduction bevel gear set, and the transmission rack (257) is arranged on the base (1) along the moving direction of the panel (22) and is meshed with the transmission gear (256).
  4. 4. The stacking and erecting device according to claim 1, wherein the pushing assembly (4) comprises a pushing cylinder (41) and a pushing plate (42), the pushing cylinder (41) is arranged on the machine base (1) and the output shaft is arranged along a moving direction parallel to the panel (22), the pushing plate (42) is positioned right above the conveyor belt (31) and is connected with the output shaft of the pushing cylinder (41), and the pushing plate (42) is right opposite to the opening of the material box (10).
  5. 5. The stacking device according to claim 4, wherein the limiting assembly (7) comprises a limiting stop block (71) and a position sensor (72), the limiting stop block (71) is arranged on one side of the pushing plate (42) opposite to the material box (10) and opposite to the second channel (35), the position sensor (72) is arranged on the conveyor belt (31) and is arranged on one side of the limiting stop block (71) opposite to the second channel (35), and a pushing channel for pushing the material sheet (9) into the material box (10) is arranged between the position sensor (72) and the limiting stop plate and is opposite to the opening of the material box (10).
  6. 6. The stacking sheet device according to claim 1, wherein the mounting support plate (52) is provided with a moving member (54), and the moving member (54) is used for driving the material box (10) to slide back and forth along the length direction of the mounting support plate (52).
  7. 7. The stacking sheet device according to claim 1, wherein the interlayer assembly (6) comprises a driving cylinder (61), a driving bracket (62), a grabbing cylinder (63) and a needling gripper (64); The layering support (8) and the material box (10) are oppositely arranged along the moving direction parallel to the panel (22), the driving cylinder (61) is installed on the machine base (1) and is arranged along the moving direction parallel to the panel (22), the driving cylinder (61) is located right above the material box (10) and is connected with the driving support (62) through an output shaft, the grabbing cylinder (63) is installed on the driving support (62) and is vertically downwards arranged, and the needling gripper (64) is installed on the output shaft of the grabbing cylinder (63) and drives the needling gripper (64) to stretch into the layering support (8) to grab the material net (11) through the grabbing cylinder (63).

Description

Vertical slice stacking device Technical Field The application relates to the field of magnetic material production devices, in particular to a stacking vertical sheet device. Background The magnetic material is a functional material with very wide application and is widely applied to our life. For example, a permanent magnet material is used as a motor, an iron core material used in a transformer, a magneto-optical disk used as a memory, a magnetic recording floppy disk for a computer, and the like. The magnetic material is closely related to the aspects of informatization, automation, electromechanical integration, national defense and national economy. The final procedure of the magnetic material during production is PVD coating, and the coated magnetic material can be batched into tablets for arrangement and packaging so as to be convenient for sale in the future. When the tablets are subjected to batch tidying and packing, stacking and stacking are needed to be carried out manually. Because the quantity of the magnetic materials is more during batch packing, the required staff is more, and a plurality of staff need to finish the steps of stacking and stacking the materials together, so that the workload according to the staff is increased, the times of stacking and stacking the magnetic materials can be prolonged by manual stacking, and the production efficiency of the magnetic materials is reduced. Disclosure of Invention In order to reduce the labor intensity of workers and improve the production efficiency of magnetic materials, the application provides a material stacking and standing sheet device. The application provides a material stacking vertical sheet device which adopts the following technical scheme: The stacking and standing sheet device comprises a machine base, wherein a sorting and conveying assembly, a belt conveying assembly, a pushing assembly and a storage assembly are sequentially arranged on the machine base; The sorting and conveying assembly is used for sorting the tablets and conveying the tablets to an inlet of the belt conveying assembly in batches, an outlet of the belt conveying assembly is opposite to the accommodating assembly, a material box is connected to the accommodating assembly, the material pushing assembly is used for pushing the tablets at the outlet of the belt conveying assembly into the material box, a limiting assembly used for limiting the number of the tablets entering the material box once is arranged at the inlet of the belt conveying assembly, a layered support used for accommodating a material net is arranged at one side of the belt conveying assembly, deviating from the material box, and a separation layer assembly used for clamping the material net and placing the material net between two adjacent layers of tablets in the material box is arranged on the base. Through adopting above-mentioned technical scheme, when packing in batches magnetic material, firstly place the tablet in batches on arrangement transmission subassembly, arrangement transmission subassembly is to the tablet arrangement, make the tablet arrangement of batch rectangle shape, afterwards place every row of tablet on belt transmission subassembly in proper order, carry out the transmission, pass through belt transmission subassembly with the tablet convey to the magazine department in proper order, limit the tablet quantity in the magazine is put at every turn through limiting component, make the quantity that push away the material subassembly once only promote the tablet be the tablet quantity that the magazine one deck can accomodate, later interlayer subassembly places the web in one deck tablet top, so cut apart every layer tablet in the magazine, repeat above action until whole magazine is full, thereby realize packing to magnetic material, whole process need not the staff and carry out by hand, and then alleviate workman intensity of labour, improve magnetic material's production efficiency. Preferably, the arrangement and transmission assembly comprises an arrangement bracket, a panel, a suction and discharge piece and a conveying piece; The sorting support is arranged on the machine base, the belt transmission assembly is arranged on one side of the sorting support, the panel is horizontally arranged and connected with a control piece for controlling the panel to horizontally slide along the direction close to or far away from the belt transmission assembly, the sorting support is provided with an adjusting piece for reducing gaps between the material sheets on the panel, the suction and discharge piece is arranged on the machine base and used for sucking and placing the material sheets on the panel on the belt transmission assembly, and the conveying piece is arranged on the machine base and used for driving the suction and discharge piece to slide along the direction close to or far away from the belt transmission assembly. Through adopting above-mentioned technical schem