CN215557476U - Tile-shaped magnet alignment paperboard stacking bin - Google Patents

Abstract

The utility model relates to the technical field of paperboard stacking equipment, in particular to a tile-shaped magnet arraying paperboard stacking bin which comprises a rack, a first paperboard bin, a first paperboard pushing mechanism, a second paperboard pushing mechanism, a first jacking mechanism, a blocking mechanism, a paperboard stacking mechanism, a second paperboard bin, a second jacking mechanism, an induction mechanism and a controller, wherein the first paperboard bin is arranged at the right end of a machine table, the first paperboard pushing mechanism is arranged at one end of the first paperboard bin, the second paperboard pushing mechanism is arranged at the other end of the first paperboard bin, the first jacking mechanism is arranged at the lower end of the rack, the first paperboard pushing mechanism and the first paperboard bin are matched for use, so that the paperboard can be ejected and transported without using tools such as a paperboard clamp and the like during ejection, and the overtravel of the ejected paperboard can be prevented through the blocking mechanism, and sensing whether the paper board is offside or not through the sensing mechanism.

Description

Tile-shaped magnet alignment paperboard stacking bin

Technical Field

The utility model relates to the technical field of paperboard stacking equipment, in particular to a tile-shaped magnet whole-row paperboard stacking bin.

Background

In recent years, with the emphasis on environmental protection in China, more and more products tend to be packaged by environment-friendly paper, wherein the paper box is widely applied to the packaging and transportation of various products; in the production process of the carton, grooving needs to be carried out after the printing of the paperboard so as to facilitate the folding and forming of the carton in the later period; however, among the prior art, the cardboard is after printing and fluting, directly drop, the position that drops at every turn can not be controlled, cause the cardboard to be mixed and disorderly, often need the staff to bow the arrangement and stack after neatly, remove fast, return fast again and carry out next round of arrangement, physical demands to the staff is high, degree of automation is not high, production efficiency is lower, and because need closely be close to the operation of printing machine position, the noise is big, the danger coefficient is high, the cardboard has been common article in our life, present cardboard production is mostly the volume production, and volume postnatal then need carry out the permutation, but present permutation device need use cardboard positioning fixture, just can fix a position and transport, for this reason, make the improvement.

SUMMERY OF THE UTILITY MODEL

Utility model is not enough to overcome the above condition, aims at providing a technical scheme that can solve above-mentioned problem.

A tile-shaped magnet arraying paperboard stacking bin comprises a rack, a first paperboard bin, a first paperboard pushing mechanism, a second paperboard pushing mechanism, a first jacking mechanism, a blocking mechanism, a paperboard stacking mechanism, a second paperboard bin, a second jacking mechanism, a sensing mechanism and a controller, wherein the first paperboard bin is arranged at the right end of the rack, the first paperboard pushing mechanism is arranged at one end of the first paperboard bin, the second paperboard pushing mechanism is arranged at the other end of the first paperboard bin, the first jacking mechanism is arranged at the lower end of the rack, the blocking mechanism is arranged at the upper end of the rack, the paperboard stacking mechanisms are arranged at two ends of the second paperboard bin, the second paperboard bin is arranged at the upper end of the rack, the second jacking mechanism is arranged at the upper end of the second paperboard bin, the sensing mechanism is arranged on the rack, the controller is arranged in the rack; first cardboard push mechanism, second cardboard push mechanism, first climbing mechanism, stop mechanism, cardboard stack mechanism, second climbing mechanism, response mechanism all with controller electric connection.

Preferably, the first paperboard pushing mechanism comprises a first pushing plate and a first sliding device, the first pushing plate is mounted at one end of the first paperboard bin, the first sliding device is mounted at the lower end of the first pushing plate, and the first pushing plate is connected with the first sliding device in a sliding mode.

Preferably, the first jacking mechanism comprises an air cylinder, a lifting frame and a supporting plate, the lifting frame is installed at the lower end of the supporting plate, a groove matched with the supporting plate is formed in the rack, the supporting plate is installed at the upper end of the rack, and the air cylinder is installed at the lower end of the supporting plate.

Preferably, the blocking mechanism comprises a blocking block and a first lifting device, the first lifting device is installed at one end of the first jacking mechanism, and the blocking block is installed at the upper end of the first lifting device.

Preferably, the cardboard stacking mechanism comprises sliding plates and a second lifting device, the sliding plates are mounted at two ends of the second cardboard bin, and the second lifting device is mounted at the lower end of the sliding plates.

Preferably, the sensing mechanism comprises a first sensor, a second sensor, a third sensor and a fourth sensor, the first sensor is installed at one end of the first paperboard bin, the second sensor is installed at the rear end of the second paperboard pushing mechanism, the third sensor is installed at one end of the blocking mechanism, and the fourth sensor is installed at one end of the second paperboard bin.

Compared with the prior art, the utility model has the beneficial effects that: through the cooperation use of first cardboard push mechanism and first cardboard feed bin, make the cardboard when ejecting, need not to use tools such as cardboard anchor clamps just can carry out ejecting transportation, later can prevent through stop mechanism that the cardboard from ejecting back overrun to and whether offside through response mechanism response cardboard.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a perspective view of the present invention.

In the figure: 1-a rack, 2-a first paperboard bin, 3-a first paperboard pushing mechanism, 4-a second paperboard pushing mechanism, 5-a first jacking mechanism, 6-a blocking mechanism, 8-a paperboard stacking mechanism, 9-a second paperboard bin, 10-a second jacking mechanism, 11-an induction mechanism, 31-a first push plate, 32-a first sliding device, 51-an air cylinder, 52-a lifting frame, a supporting plate-53, 61-a blocking block, 62-a first lifting device, 81-a sliding plate, 82-a second lifting device, 111-a first inductor, 112-a second inductor, 113-a third inductor and 114-a fourth inductor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, a tile-shaped magnet aligned paper board stacking bin includes a frame 1, a first paper board bin 2, a first paper board pushing mechanism 3, a second paper board pushing mechanism 4, a first jacking mechanism 5, a blocking mechanism 6, a paper board stacking mechanism 8, a second paper board bin 9, a second jacking mechanism 10, a sensing mechanism 11, and a controller, wherein the first paper board bin 2 is installed at a right end of the frame 1, the first paper board pushing mechanism 3 is installed at one end of the first paper board bin 2, the second paper board pushing mechanism 4 is installed at the other end of the first paper board bin 2, the first jacking mechanism 5 is installed at a lower end of the frame 1, the blocking mechanism 6 is installed at an upper end of the frame 1, the paper board stacking mechanism 8 is installed at two ends of the second paper board bin 9, the second paper board bin 9 is installed at an upper end of the frame 1, the second jacking mechanism 10 is mounted at the upper end of the second paperboard bin 9, the sensing mechanism 11 is mounted on the rack 1, and the controller is mounted in the rack 1; the first paperboard pushing mechanism 3, the second paperboard pushing mechanism 4, the first jacking mechanism 5, the blocking mechanism 6, the paperboard stacking mechanism 8, the second jacking mechanism 10 and the sensing mechanism 11 are electrically connected with the controller, when the automatic paper feeding device is used, the paperboards are placed in the first paperboard bin 2, then the paperboards placed in the first paperboard bin 2 are pushed by the first paperboard pushing mechanism 3, the first paperboard pushing mechanism 3 pushes the lowest layer of the paperboards in the first paperboard bin 2 to the upper end of the first jacking mechanism 5, the paper boards pushed out are paused when the sensing mechanism 11 senses that the pushed paperboards are dislocated, the automatic paper feeding device is reset continuously after a worker gets rid of a fault, the blocking mechanism 6 is blocked when the sensing mechanism 11 senses that the paperboards are pushed out by the first paperboard pushing mechanism 3, then the paper boards are jacked by the first jacking mechanism 5, the paperboards are pushed by the second paperboard pushing mechanism 4 to be pushed into the second paperboard bin 9, and then stacked by the paperboard stacking mechanism 8.

First cardboard push mechanism 3 includes first push pedal 31, first slider 32, first push pedal 31 install in 2 one end in first cardboard feed bin, first slider 32 install in first push pedal 31 lower extreme, first push pedal 31 with first slider 32 sliding connection makes first push pedal 31 carry out the horizontal slip through first slider 32.

The first jacking mechanism 5 comprises an air cylinder 51, a lifting frame 52 and a supporting plate 53, wherein the lifting frame 52 is installed at the lower end of the supporting plate 53, the rack 1 is provided with a groove matched with the supporting plate 53, the supporting plate 53 is installed at the upper end of the rack 1, the air cylinder 51 is installed at the lower end of the supporting plate 53, the lifting frame 52 is driven to lift through the air cylinder 51, and then the paperboard is supported through the supporting plate 53.

The blocking mechanism 6 comprises a blocking block 61 and a first lifting device 62, the first lifting device 62 is installed at one end of the first jacking mechanism 5, the blocking block 61 is installed at the upper end of the first lifting device 62, and the blocking block 61 is lifted through the first lifting device 62, so that the blocking function is realized.

The paperboard stacking mechanism 8 comprises sliding plates 81 and second lifting devices 82, the sliding plates 81 are mounted at two ends of the second paperboard bin 9, the second lifting devices 82 are mounted at the lower ends of the sliding plates 81, the sliding plates 81 slide, and then the sliding plates 81 can be lifted up and down through the second lifting devices 82, so that the sorting function is realized.

The sensing mechanism 11 comprises a first sensor 111, a second sensor 112, a third sensor 113 and a fourth sensor 114, the first sensor 111 is installed at one end of the first cardboard storage bin 2, the second sensor 112 is installed at the rear end of the second cardboard pushing mechanism 4, the third sensor 113 is installed at one end of the blocking mechanism 6, and the fourth sensor 114 is installed at one end of the second cardboard storage bin 9.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The scope of the utility model is defined by the appended claims.

Claims (6)

1. A tile-shaped magnet arraying paperboard stacking bin is characterized by comprising a rack (1), a first paperboard bin (2), a first paperboard pushing mechanism (3), a second paperboard pushing mechanism (4), a first jacking mechanism (5), a blocking mechanism (6), a paperboard stacking mechanism (8), a second paperboard bin (9), a second jacking mechanism (10), an induction mechanism (11) and a controller, wherein the first paperboard bin (2) is installed at the right end of the rack (1), the first paperboard pushing mechanism (3) is installed at one end of the first paperboard bin (2), the second paperboard pushing mechanism (4) is installed at the other end of the first paperboard bin (2), the first jacking mechanism (5) is installed at the lower end of the rack (1), the blocking mechanism (6) is installed at the upper end of the rack (1), and the paperboard stacking mechanism (8) is installed at two ends of the second paperboard bin (9), the second paperboard bin (9) is mounted at the upper end of the rack (1), the second jacking mechanism (10) is mounted at the upper end of the second paperboard bin (9), the sensing mechanism (11) is mounted on the rack (1), and the controller is mounted in the rack (1);

the first paperboard pushing mechanism (3), the second paperboard pushing mechanism (4), the first jacking mechanism (5), the blocking mechanism (6), the paperboard stacking mechanism (8), the second jacking mechanism (10) and the sensing mechanism (11) are all electrically connected with the controller.

2. The tile-shaped magnet alignment paperboard stacking bin according to claim 1, wherein the first paperboard pushing mechanism (3) comprises a first pushing plate (31) and a first sliding device (32), the first pushing plate (31) is installed at one end of the first paperboard bin (2), the first sliding device (32) is installed at the lower end of the first pushing plate (31), and the first pushing plate (31) is slidably connected with the first sliding device (32).

3. The tile-shaped magnet alignment paperboard stacking bin according to claim 1, wherein the first jacking mechanism (5) comprises an air cylinder (51), a lifting frame (52) and a supporting plate (53), the lifting frame (52) is installed at the lower end of the supporting plate (53), the rack (1) is provided with a groove matched with the supporting plate (53), the supporting plate (53) is installed at the upper end of the rack (1), and the air cylinder (51) is installed at the lower end of the supporting plate (53).

4. The tile-shaped magnet alignment paperboard stacking bin according to claim 1, wherein the blocking mechanism (6) comprises a blocking block (61) and a first lifting device (62), the first lifting device (62) is installed at one end of the first lifting mechanism (5), and the blocking block (61) is installed at the upper end of the first lifting device (62).

5. The tile-shaped magnet alignment paper board stacking bin according to claim 1, wherein the paper board stacking mechanism (8) comprises sliding plates (81) and second lifting devices (82), the sliding plates (81) are installed at two ends of the second paper board bin (9), and the second lifting devices (82) are installed at the lower ends of the sliding plates (81).

6. The tile-shaped magnet alignment cardboard stacking bin of claim 1, wherein the sensing mechanism (11) comprises a first sensor (111), a second sensor (112), a third sensor (113) and a fourth sensor (114), the first sensor (111) is installed at one end of the first cardboard bin (2), the second sensor (112) is installed at the rear end of the second cardboard pushing mechanism (4), the third sensor (113) is installed at one end of the blocking mechanism (6), and the fourth sensor (114) is installed at one end of the second cardboard bin (9).

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