CN215710523U - Temporary stacker of conveying table - Google Patents

Abstract

The utility model relates to a temporary stacker for a conveying platform, which comprises a temporary stacking wane mechanism, wherein the temporary stacking wane mechanism is provided with a wane, and the upstream end of the wane can be tilted upwards; the temporary stacking part is provided with a front end supporting plate and is positioned below the temporary stacking wane mechanism, and a stacking plate is positioned at the downstream of the front end supporting plate; and a conveyor belt located downstream of the temporary stacking paddle mechanism. The beneficial effects are that: the paper can be continuously cut and conveyed during stack changing, and the stack changing is not required to be stopped in the production process; the paper is not easy to extrude wrinkles in the stack changing process; the stack changing after the number of the conveyed paper sheets can be accurately controlled.

Description

Temporary stacker of conveying table

Technical Field

The utility model belongs to the technical field of paper product processing, and particularly relates to a temporary stacker of a conveying table.

Background

The paper product needs unified transportation and storage after the stack after accomplishing to cut and pack, and the stacking mode of stock form product is artifical stack usually in the conventional art, and this kind of mode is wasted time and energy and efficiency is lower. The stacker is a special lifting machine for grabbing, carrying and stacking or storing and taking unit goods from a high-rise goods shelf by using a fork or a string rod. The stacking device has the function of carrying goods in the whole logistics system, and is an essential link of the automatic stereoscopic warehouse. The quality of the stacker performance plays a crucial role in the operation of the whole stereoscopic warehouse.

The existing paper cutting machine needs to be in a shutdown state when changing stack, resources are wasted, transmission is easy to damage, and stack changing operation without shutdown is difficult to realize.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model adopts the following technical scheme:

a conveyor table temporary stacker comprising

A temporary stacking wane mechanism is provided with

The upper end of the seesaw can be tilted upwards;

a temporary stacking part having

A front end supporting plate positioned below the temporary stacking wane mechanism,

a stacking plate downstream of the front end pallet; and

and the conveying belt is positioned at the downstream of the temporary stacking wane mechanism.

In some forms, the rocker shaft is coupled to an adjustment member, and the adjustment member is coupled to the frame via a telescoping mechanism.

In some modes, the adjusting part protrudes out of the outer wall of the rocker shaft, and two ends of the telescopic mechanism are respectively and rotatably connected to the adjusting part and the rack.

In some embodiments, the paddle is rotatable about a paddle axis, the paddle axis being located between the paddle and the conveyor belt.

In some modes, the downstream end of the front end supporting plate is inclined downwards, and a paper picking plate is arranged on the upper side of the downstream end of the front end supporting plate.

In some modes, a blowing device is arranged on the front end supporting plate below the paper picking plate.

In some forms the height of the upstream end of the stacking plate matches the height of the blowing device.

In some forms, the downstream end of the stacking plate has a paper stop.

In some embodiments, the conveyor belt has a driving roller and a conveyor belt sleeved on the driving roller.

The utility model has the beneficial effects that:

the paper can be continuously cut and conveyed during stack changing, and the stack changing is not required to be stopped in the production process; the paper is not easy to extrude wrinkles in the stack changing process; the stack changing after the number of the conveyed paper sheets can be accurately controlled.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the structural state of an assembly according to the present invention;

FIG. 3 is a schematic view of a temporary stacking wane mechanism of the present invention in a tilted state;

FIG. 4 is a schematic diagram of a normal transferring and stacking switching status of the present invention.

In the figure:

100 interim stack wane mechanism, 110 wane, 120 perk mechanism, 121 telescopic machanism, 122 regulating part, 123 perk axle, 200 interim stack portion, 210 front end layer board, 211 choose the cardboard, 220 pile board, 221 paper baffle, 230 blast apparatus, 300 transmission bands, 310 drive roller, 320 conveyer belts, 400 frames.

Detailed Description

The utility model is further illustrated below:

conveyor table temporary stackers, as in FIG. 1, comprising

A temporary stacking wane mechanism 100 having

A rocker 110, wherein the upstream end of the rocker 110 can be tilted upwards; after the upstream end of the wane 110 is tilted, a transmission gap can be formed between the front end of the wane 110 and the upstream conveying belt piece, so that the paperboard can enter the lower layer from the lower side of the front end of the wane 110;

the temporary stack 200, which in one embodiment is an inclined structure, has

A front end pallet 210 located below the temporary stacking wane mechanism 100, which is used to support the cardboard sheets by the front end pallet 210 after the cardboard sheets fall from the lower layer of the conveying gap,

a stacking plate 220 located downstream of the front end pallet 210, on which stacking plate 220 the final cardboard is stacked during the stack change; and

a conveyor 300 located downstream of the temporary stacking paddle mechanism 100; when the paddle 110 is in the horizontal position as in fig. 1, the sheet on the front conveyor is transported past the temporary stacking paddle 100 and onto the conveyor 300 to continue downstream.

As illustrated in fig. 2, the tilting mechanism 120 includes a telescopic mechanism 121, an adjusting member 122, a tilting plate shaft 123,

the rocker shaft 123 is connected with an adjusting member 122, and the adjusting member 122 is connected to the frame 400 through a telescopic mechanism 121.

The adjusting part 122 protrudes out of the outer wall of the warping plate shaft 123, and two ends of the telescopic mechanism 121 are respectively and rotatably connected to the adjusting part 122 and the frame 400.

The seesaw 110 can rotate around a seesaw shaft 123, and the seesaw shaft 123 is located between the seesaw 110 and the conveyor 300.

When the telescopic mechanism 121 extends, the adjusting member 122 is pushed to move backward, and as shown in fig. 3, the rocker shaft 123 rotates clockwise, so that the rocker 110 also rotates clockwise, and the front end of the rocker 110 tilts upward; when the telescopic mechanism 121 is retracted, the rocker 110 is also rotated clockwise and counterclockwise, so that the rocker 110 is restored to a horizontal state.

As shown in fig. 2, the downstream end of the front end pallet 210 is inclined downward, and a pick-up plate 211 is disposed on the upper side of the downstream end of the front end pallet 210.

A blowing device 230 is arranged on the front end supporting plate 210 below the paper picking plate 211; the blowing device 230 blows air to the upper side of the stacking plate 220, and when the paper boards pass through the upper side, the downstream ends of the paper boards can be tilted, so that the paper boards can be tilted and stacked on the stacked paper board stack on the stacking plate 220.

The height of the upstream end of the stacking plate 220 is matched with that of the blowing device 230, so that the air can be smoothly blown out from the gap between the front end supporting plate 210 and the stacking plate 220 and blown onto the paper board.

The downstream end of the stacking plate 220 has a paper stop 221 to prevent further slippage of the sheet.

The conveyor belt 300 has a driving roller 310 and a conveyor belt 320 disposed on the driving roller 310.

The operation process of the temporary stacking conveying device comprises the following steps: the paper cutter enters the fixed conveying roller after being finished, the paper is conveyed to the lifting stacking platform through the driven roller, the driving roller and the belt, if the situation of changing stacks is met, the temporary stacking wane is opened, the paper falls onto the lower temporary stacking plate, the wane is closed after the stack changing is finished, and the conveying platform continues to be in a normal conveying state. Accomplish the automation theory, the cost is practiced thrift in the effectual paper waste that reduces, reduces manual work and time, improves and trades buttress efficiency.

As shown in fig. 4, the temporary stacking or normal operation of the paper can be switched by controlling the up and down movement of the rocker 110; two-direction adjustment of paper going to the conveying belt 300 or the stacking plate 220 is achieved, and the paper with a fixed number can enter the stacking plate 220 by limiting the upwarp time of the warping plate 110, so that automatic shunting of the stack changing process is achieved. The lower stacked plates 220 may be replaced during the replacement process by some type of replacement mechanism or manually.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the utility model. All falling within the scope of protection of the present invention. The protection scheme of the utility model is subject to the appended claims.

Claims (9)

1. The temporary stacker of the conveying table is characterized by comprising

A temporary stacking wane mechanism (100) having

A rocker (110), wherein the upstream end of the rocker (110) can be tilted upwards;

a temporary stacking part (200) having

A front end pallet (210) located below the temporary stacking wane mechanism (100),

a stacking plate (220) downstream of the leading pallet (210); and

a conveyor (300) downstream of the temporary stacking paddle mechanism (100).

2. The conveyor table temporary stacker according to claim 1, wherein a rocker shaft (123) of the rocker (110) is connected with an adjusting member (122), and the adjusting member (122) is connected to the frame (400) through a telescopic mechanism (121).

3. The conveying table temporary stacker according to claim 2, wherein the adjusting member (122) protrudes from the outer wall of the rocker shaft (123), and two ends of the telescopic mechanism (121) are rotatably connected to the adjusting member (122) and the frame (400), respectively.

4. The conveyor table temporary stacker according to claim 1, wherein a rocker (110) can rotate about a rocker shaft (123), the rocker shaft (123) being located between the rocker (110) and the conveyor belt (300).

5. The conveyor table temporary stacker according to claim 1, wherein the downstream end of the front end pallet (210) is inclined downward, and a pick plate (211) is provided on the upper side of the downstream end of the front end pallet (210).

6. The conveyor table temporary stacker according to claim 5, wherein a blowing device (230) is provided on the front end pallet (210) below the pickup plate (211).

7. The conveyor table temporary stacker of claim 6, wherein an upstream end height of the stacking plate (220) matches the blowing device (230).

8. The conveyor table temporary stacker of claim 7, wherein the downstream end of the stacking plate (220) has a paper stop plate (221).

9. The conveyor table temporary stacker according to claim 1, wherein the conveyor belt (300) has a driving roller (310) and a conveyor belt (320) fitted over the driving roller (310).

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