CN209937669U - Plastic uptake product shearing and stacking machine - Google Patents

Abstract

The utility model provides a plastic uptake goods is cuted and is piled up machine, includes frame, processing unit transport mechanism, shears mechanism, stacking mechanism, and processing unit transport mechanism, shear mechanism, stacking mechanism install in the frame its characterized in that respectively: the processing unit conveying mechanism comprises a conveying unit and a plurality of dies, and the dies are respectively and sequentially arranged on the conveying unit; the stacking mechanism comprises an ejection unit, a vertical stacking unit and a pushing unit. Compared with the prior art, the utility model beneficial effects are that, the ejecting unit of stacking mechanism can be piled up the perpendicular unit of piling up of sending into with the plastic uptake goods ejecting on the sheet that is located the mould, then the release unit will pile up the plastic uptake goods release, and press the cup unit then can keep certain pressure to the plastic uptake goods that are located the perpendicular unit of piling up from the top to the plastic uptake goods piles up better.

Description

Plastic uptake product shearing and stacking machine

Technical Field

The utility model relates to a shearing of plastic uptake goods and equipment of piling up, more specifically say and relate to a plastic uptake goods shearing stacker that machining efficiency is high.

Background

The plastic uptake is a plastic processing technology, and the main principle is that after a flat plastic hard sheet is heated and softened, the plastic hard sheet is absorbed on the surface of a mould in vacuum, and the plastic hard sheet is formed after cooling, so that the plastic hard sheet is widely used in the industries of plastic packaging, lamp decoration, advertisement, decoration and the like.

The blister product is obtained after shaping as a semi-finished product (one or more blister products are formed on the sheet, but the blister product remains on the sheet) which needs to be cut off from the semi-finished product to obtain a finished blister product. At present, the cutting device is generally a hydraulic press which drives a cutting die to move downwards so as to cut the plastic uptake product from the sheet.

The problem of this kind of shearing equipment is because need manual operation to collect blister product and sheet waste material respectively after the shearing, therefore not only machining efficiency is lower, and is with high costs moreover, and the energy that consumes is many moreover, and the sanitary conditions of blister product also is difficult to obtain fine guarantee.

Disclosure of Invention

The utility model aims at providing a plastic uptake goods is cuted and is piled up machine, this kind of plastic uptake goods is cuted and is piled up machine and can accomplish the shearing of plastic uptake goods fast in proper order, pile up, see off. The technical scheme is as follows:

the utility model provides a plastic uptake goods is cuted and is piled up machine, includes frame, processing unit transport mechanism, shears mechanism, stacking mechanism, and processing unit transport mechanism, shear mechanism, stacking mechanism install in the frame its characterized in that respectively: the processing unit conveying mechanism comprises a conveying unit and a plurality of dies, and the dies are respectively and sequentially arranged on the conveying unit; the stacking mechanism comprises an ejection unit, a vertical stacking unit and a pushing unit; the ejection unit comprises an ejection frame and an ejection frame driving device, the ejection frame driving device is arranged on the rack, the ejection frame is arranged on the ejection frame driving device, and the ejection frame is positioned below the conveying unit; the vertical stacking unit comprises a stacking frame and a stacking frame driving device, the stacking frame driving device is installed on the rack, the stacking frame is installed on the stacking frame driving device, and the stacking frame is located above the conveying unit; the pushing unit comprises a plurality of pushing frames and pushing frame driving devices, the pushing frame driving devices are installed on the rack, the pushing frames are installed on the pushing frame driving devices, and the pushing frames are located on the rear side of the stacking frame.

In a preferred scheme, the ejection frame driving device is a first cylinder, and the ejection frame is mounted on a first piston shaft of the first cylinder.

The better scheme, the stacking rack has at least one vertical stacking space, the vertical stacking space comprises two partition plates and at least one support plate group, the support plate group comprises two elastic support plates, the bottom ends of the two elastic support plates are respectively fixed on the opposite side faces of the two partition plates, the two elastic support plates extend towards the upper side of the other partition plate from bottom to top, and the distance between the top ends of the two elastic support plates is smaller than the diameter of a plastic suction product. Because the elastic supporting sheets are elastic and deformable, when the plastic suction product is ejected by the ejection frame, the two elastic supporting sheets can be squeezed open and move to the positions above the two elastic supporting sheets, then the two elastic supporting sheets recover to the original state when not stressed, and when the ejection frame descends to the original position, the plastic suction product is supported by the top ends of the two elastic supporting sheets, so that the plastic suction product is stacked above the two elastic supporting sheets by continuous repeated action.

Preferably, the stacking rack driving device is a second cylinder, and the stacking rack is mounted on a second piston shaft of the second cylinder.

According to a preferred scheme, the pushing frame driving device comprises two transverse sliding rails and at least one pushing frame driving mechanism, the two transverse sliding rails are respectively installed on the rack, the bottom end of the pushing frame can be respectively installed on the transverse sliding rails along the transverse sliding rails, the pushing frame driving mechanism is installed on one transverse sliding rail, and the pushing frame driving mechanism is connected with the pushing frame.

Preferably, the pushing frame driving mechanism comprises a second motor, a transmission belt and two transmission wheels, the second motor is installed on the side face of the transverse sliding rail, the two transmission wheels are respectively and rotatably installed on the transverse sliding rail, one transmission wheel is connected with an output shaft of the second motor, the transmission belt is sleeved on the two transmission wheels, and the pushing frame is connected with the transmission belt. The second motor works to drive the transmission wheel connected with the second motor to rotate to drive the transmission belt to move, so that the push-out frame moves along with the transmission belt.

The stacking mechanism further comprises a material pressing unit, the material pressing unit comprises a mounting frame, a mounting frame driving device and a material pressing piece, the material pressing piece comprises a material pressing plate and an installation rod, the mounting frame driving device is installed on the frame, the mounting frame is installed on the mounting frame driving device, the top end of the installation rod is hung on the mounting frame in a liftable mode, the material pressing plate is fixed at the bottom end of the installation rod, and the material pressing plate vertically stretches into a vertical stacking space of the stacking frame from top to bottom.

More preferably, each vertical stacking space corresponds to at least one material pressing piece.

More preferably, the mounting bracket driving device is a third cylinder, and the mounting bracket is mounted on a third piston shaft of the third cylinder.

Compared with the prior art, the utility model beneficial effects are that, the ejecting unit of stacking mechanism can be piled up the perpendicular unit of piling up of sending into with the plastic uptake goods that is located on the sheet of mould is ejecting, then the plastic uptake goods that the release unit will pile up are released, and press the material unit then can keep certain pressure to the plastic uptake goods that is located perpendicular unit of piling up from the top to the plastic uptake goods piles up better.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of the preferred embodiment shown in FIG. 1;

FIG. 3 is an enlarged view of the preferred embodiment stacking mechanism of FIG. 1 with the ejector unit removed;

FIG. 4 is a schematic view showing the construction of the push-out unit of the preferred embodiment shown in FIG. 1;

fig. 5 is a top view of fig. 4.

Detailed Description

As shown in fig. 1 to 5, the cutting and stacking machine for blister products in the preferred embodiment includes a frame 1, a processing unit conveying mechanism 2, a cutting mechanism 3, and a stacking mechanism 4, wherein the processing unit conveying mechanism 2, the cutting mechanism 3, and the stacking mechanism 4 are respectively mounted on the frame 1.

The processing unit transfer mechanism 2 includes a transfer unit 21 and a plurality of molds 22, and the molds 22 are mounted on the transfer unit 21 in sequence.

The stacking mechanism 4 includes an ejection unit 41, a vertical stacking unit 42, and an ejection unit 43. In this embodiment, the conveying unit 21 is a chain conveyor. In order to avoid the overlap of the pushing unit 43 and the vertical stacking unit 42, which makes them difficult to be distinguished, the pushing unit 43 is not shown in fig. 3, and the pushing unit 43 is shown separately in fig. 4.

The ejection unit 41 includes an ejection frame 411 and an ejection frame driving device, the ejection frame driving device is installed on the frame 1, the ejection frame 411 is installed on the ejection frame driving device, and the ejection frame 411 is located below the conveying unit 21.

The ejection frame driving device is a first cylinder 412, and the ejection frame 411 is mounted on a first piston shaft of the first cylinder 412.

The vertical stacking unit 42 includes a stacking rack 421 mounted on the frame 1, and a stacking rack driving device on which the stacking rack 421 is mounted, the stacking rack 421 being located above the conveying unit 21.

The stacking rack driving device is a second cylinder 422, and the stacking rack 421 is mounted on a second piston shaft of the second cylinder 422.

The ejector unit 43 includes an ejector rack 431 and an ejector rack driving device 432, the ejector rack driving device 432 is mounted on the frame 1, the ejector rack 431 is mounted on the ejector rack driving device 432, and the ejector rack 431 is located at the rear side of the stacker rack 421.

The said pushing-out frame driving device 432 includes two horizontal sliding rails 4321, a pushing-out frame driving mechanism 4322, the two horizontal sliding rails 4321 are respectively mounted on the mounting rack 1, the bottom end of the pushing-out frame 431 can be respectively mounted on the horizontal sliding rails 4321 along the horizontal sliding rails 4321, the pushing-out frame driving mechanism 4322 is mounted on one horizontal sliding rail 4321 and the pushing-out frame driving mechanism 4322 is connected with the pushing-out frame 431.

The pushing-out frame driving mechanism 4322 comprises a second motor 43221, a transmission belt 43222 and two transmission wheels 43223, wherein the second motor 43221 is installed on the lateral surface of the transverse sliding rail 4321, the two transmission wheels 43223 are respectively and rotatably installed on the transverse sliding rail 4321, one transmission wheel 43223 is connected with an output shaft of the second motor 43221, the transmission belt 43222 is sleeved on the two transmission wheels 43223, and the pushing-out frame is connected with the transmission belt 43222. The second motor 43221 operates to drive the transmission wheel 43223 connected thereto to rotate, so as to drive the transmission belt 43222 to move, such that the pushing frame 431 moves along with the transmission belt 43222.

The stacking rack 421 has 3 vertical stacking spaces 4211, and the vertical stacking spaces 4211 include two partition plates 42111 and two support plate groups 42112, and one support plate group 42112 is located above the other support plate group 42112. The support plate set 42112 comprises two elastic support plates 421121, the bottom ends of the two elastic support plates 421121 are respectively fixed on the opposite sides of the two partition plates 42111, the two elastic support plates 421121 extend from bottom to top towards the top of the other partition plate 42111, and the distance between the top ends of the two elastic support plates 421121 is smaller than the diameter of the plastic uptake product. Because the elastic support pieces 421121 are elastic and deformable, when the plastic-absorbing product is ejected by the ejection frame 411, the two elastic support pieces 421121 can be pushed open and move to the positions above the two elastic support pieces 421121, then the two elastic support pieces 421121 recover to the original shape when not stressed, when the ejection frame 411 descends to the original position, the plastic-absorbing product is supported by the top ends of the two elastic support pieces 421121, and thus the plastic-absorbing product is stacked above the two elastic support pieces 421121 after repeated actions.

The stacking mechanism 4 further comprises a material pressing unit 44, the material pressing unit 44 comprises a mounting rack 441, a mounting rack driving device and a material pressing piece 443, the material pressing piece 443 comprises a material pressing plate 4431 and a mounting rod 4432, the mounting rack driving device is mounted on the rack 1, the mounting rack 441 is mounted on the mounting rack driving device, the top end of the mounting rod 4432 is hung on the mounting rack 441 in a liftable manner, the material pressing plate 4431 is fixed at the bottom end of the mounting rod 4432, and the material pressing plate 4431 extends into a vertical stacking space 4211 of the stacking rack 421 from top to bottom.

The mounting frame driving means is a third cylinder 442, and the mounting frame 441 is mounted on a third piston shaft of the third cylinder 442.

Each vertical stacking space 4211 corresponds to 5 pressers 443 (the number of pressers 443 is the same as the number of holes on the mold below each vertical stacking space 4211).

The following operation is described with reference to fig. 1-5:

the conveying unit 21 drives the plurality of molds 22 to move intermittently in sequence, and when the molds 22 move to the shearing mechanism 3, the shearing mechanism 3 cuts the blister products from the sheets to separate the blister products from the sheets; when the mold 22 moves to the stacking mechanism 4, the first air cylinder 412 drives the ejection frame 411 to ascend, and the blister product is ejected and sent to the vertical stacking space 4211 for stacking; when the blister products are stacked, the pushing unit 43 pushes out a stack of the stacked blister products.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (9)

1. The utility model provides a plastic uptake goods is cuted and is piled up machine, includes frame, processing unit transport mechanism, shears mechanism, stacking mechanism, and processing unit transport mechanism, shear mechanism, stacking mechanism install in the frame its characterized in that respectively: the processing unit conveying mechanism comprises a conveying unit and a plurality of dies, and the dies are respectively and sequentially arranged on the conveying unit; the stacking mechanism comprises an ejection unit, a vertical stacking unit and a pushing unit; the ejection unit comprises an ejection frame and an ejection frame driving device, the ejection frame driving device is arranged on the rack, the ejection frame is arranged on the ejection frame driving device, and the ejection frame is positioned below the conveying unit; the vertical stacking unit comprises a stacking frame and a stacking frame driving device, the stacking frame driving device is installed on the rack, the stacking frame is installed on the stacking frame driving device, and the stacking frame is located above the conveying unit; the pushing unit comprises a plurality of pushing frames and pushing frame driving devices, the pushing frame driving devices are installed on the rack, the pushing frames are installed on the pushing frame driving devices, and the pushing frames are located on the rear side of the stacking frame.

2. The blister product shearing and stacking machine of claim 1, wherein: the ejection frame driving device is a first air cylinder, and the ejection frame is arranged on a first piston shaft of the first air cylinder.

3. The blister product shearing and stacking machine of claim 1, wherein: the stacking frame is provided with at least one vertical stacking space, the vertical stacking space comprises two partition plates and at least one support plate group, the support plate group comprises two elastic support plates, the bottom ends of the two elastic support plates are respectively fixed on the opposite side faces of the two partition plates, the two elastic support plates extend towards the upper side of the other partition plate from bottom to top, and the distance between the top ends of the two elastic support plates is smaller than the diameter of a plastic suction product.

4. The blister product shearing and stacking machine of claim 3, wherein: the stacking frame driving device is a second air cylinder, and the stacking frame is installed on a second piston shaft of the second air cylinder.

5. The blister product shearing and stacking machine of any one of claims 1-4, wherein: the pushing frame driving device comprises two transverse sliding rails and at least one pushing frame driving mechanism, the two transverse sliding rails are respectively installed on the rack, the bottom end of the pushing frame can be respectively installed on the transverse sliding rails along the transverse sliding rails, the pushing frame driving mechanism is installed on one transverse sliding rail, and the pushing frame driving mechanism is connected with the pushing frame.

6. The blister product shearing and stacking machine of claim 5, wherein: the push-out frame driving mechanism comprises a second motor, a transmission belt and two transmission wheels, the second motor is arranged on the side face of the transverse sliding rail, the two transmission wheels are respectively and rotatably arranged on the transverse sliding rail, one transmission wheel is connected with an output shaft of the second motor, the transmission belt is sleeved on the two transmission wheels, and the push-out frame is connected with the transmission belt.

7. The blister product shearing and stacking machine of claim 3, wherein: the stacking mechanism further comprises a material pressing unit, the material pressing unit comprises a mounting frame, a mounting frame driving device and a material pressing piece, the material pressing piece comprises a material pressing plate and a mounting rod, the mounting frame driving device is mounted on the frame, the mounting frame is mounted on the mounting frame driving device, the top end of the mounting rod is suspended on the mounting frame in a liftable mode, the material pressing plate is fixed at the bottom end of the mounting rod, and the material pressing plate extends into a vertical stacking space of the stacking frame from top to bottom.

8. The blister product shearing and stacking machine of claim 7, wherein: each vertical stacking space corresponds to at least one material pressing piece.

9. The blister product shearing and stacking machine of claim 7 or 8, wherein: the mounting bracket driving device is a third cylinder, and the mounting bracket is installed on a third piston shaft of the third cylinder.

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