CN214166744U - Paperboard downward-suction feeding mechanism - Google Patents

Abstract

The utility model discloses a cardboard is suction feed mechanism down, including feed bin and extracting device. The storage bin is provided with a stacking cavity and a blocking structure, wherein the stacking cavity is used for stacking the paper feeding plates in a stacking manner in the vertical direction, and the blocking structure is protruded into the stacking cavity and used for blocking the paper plates in the stacking cavity from sliding downwards under the self weight; the extracting device contains vacuum suction head and is used for driving about the lift driver that vacuum suction head switched between a suction plate position and a play board position, vacuum suction head be located range upon range of stack chamber under and with lift driver's output assembled connection, vacuum suction head upwards crosses when switching to the suction plate position and blocks the structure and can hold range upon range of cardboard of stacking the chamber, vacuum suction head will range upon range of cardboard of piling the chamber when switching to a play board position and hold the structure and pull out in order to stack the chamber from range upon range of crossing downwards, make the utility model discloses a suction loading mechanism need not shut down just can in time feed supplement in order to improve production speed and production efficiency under the cardboard.

Description

Paperboard downward-suction feeding mechanism

Technical Field

The utility model relates to a cardboard machining field especially relates to a cardboard is suction feed mechanism down.

Background

With the rapid development of economy, the use of paperboard has increased dramatically due to its light weight, low cost, wide use, ease of manufacture, and ability to be recycled or even reused.

At present, in the production process of the box cover, the paperboard feeding mechanism adopts an up-suction feeding mode, and the feeding of the paperboard stacking bin can be completed only by stopping the paperboard feeding mechanism in the feeding mode, so that the production speed and the production efficiency of the box cover are influenced.

Therefore, there is a need for a paperboard downdraft feeding mechanism that can feed materials in time without stopping the machine to improve production speed and efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a do not need to shut down just in time feed supplement in order to improve production speed and production efficiency's cardboard downdraft feed mechanism.

A paperboard downward-suction feeding mechanism comprises a bin and a material taking device. The storage bin is provided with a stacking cavity and a blocking structure, wherein the stacking cavity is used for stacking the paper feeding plates in a stacking manner in the vertical direction, and the blocking structure is protruded into the stacking cavity and used for blocking the paper plates in the stacking cavity from sliding downwards under the self weight; the material taking device comprises a vacuum suction head and a lifting driver for driving the vacuum suction head to switch between a plate suction position and a plate discharge position, the vacuum suction head is positioned right below the stacked stacking cavity and is assembled and connected with the output end of the lifting driver, the vacuum suction head upwards crosses the blocking structure and can suck the paperboards in the stacked stacking cavity when switching to the plate suction position, and the vacuum suction head downwards crosses the blocking structure to be pulled out from the stacked stacking cavity when switching to the plate discharge position.

Preferably, the paperboard downdraft feeding mechanism further comprises a material bearing plate located right below the stock bin, the material bearing plate is provided with a material taking and avoiding space for avoiding the vacuum suction head, the lifting driver is located below the material bearing plate, the vacuum suction head correspondingly extends upwards or retracts downwards into the material taking and avoiding space in the process of switching between the position of the material bearing plate and the position of the material outlet plate, and the sucked paperboards are placed on the material bearing plate when the vacuum suction head is switched to the position of the material outlet plate.

Preferably, the paperboard downdraft feeding mechanism further comprises a pushing device, the pushing device comprises a telescopic driver, a pushing driver and a pushing piece, the material bearing plate is provided with a pushing avoiding gap which avoids the pushing piece to slide horizontally, the pushing avoiding gap is communicated with the material taking avoiding space, the pushing driver and the telescopic driver are respectively located below the material bearing plate, the telescopic driver is installed at the output end of the pushing driver, the pushing piece is installed at the output end of the telescopic driver, the pushing piece is aligned with the pushing avoiding gap up and down, and the pushing piece pushes the paperboard on the material bearing plate horizontally forwards under the cooperation of the pushing driver and the telescopic driver.

Preferably, the pushing device further comprises a horizontal traversing seat and a lifting support, the horizontal traversing seat is located below the material bearing plate and is in assembly connection with the output end of the pushing driver, the telescopic driver is installed on the horizontal traversing seat, the output end of the telescopic driver is arranged upward, the lifting support is installed at the output end of the telescopic driver, and at least two pushing pieces are arranged in a spaced manner along the length direction of the lifting support.

Preferably, the bin comprises a bin frame and first and second side frames for enclosing the stacked chambers, the first and second side frames being mounted to the bin frame.

Preferably, the first and second side frames are adjustably positionable relative to one another.

Preferably, the first side frame and the second side frame are respectively arranged on the bin frame in a sliding mode.

Preferably, the first side frame and the second side frame each comprise a side frame body and a first enclosing plate and a second enclosing plate which are adjustable in position on the side frame body, and the blocking structures are formed on the side frame bodies and are respectively positioned right below the first enclosing plates and the second enclosing plates.

Preferably, the paperboard downward-sucking feeding mechanism further comprises a first retaining edge and a second retaining edge which are positioned on two sides of the material pushing avoiding gap, and the first retaining edge and the second retaining edge are adjustably mounted on the material bearing plate.

Compared with the prior art, the storage bin is provided with a stacking cavity for stacking the paper feeding plates in an up-down direction and a blocking structure which is protruded in the stacking cavity and blocks the paper plates in the stacking cavity from sliding downwards under the self weight; simultaneously, because extracting device contains vacuum suction head and is used for ordering about the lift driver that vacuum suction head switched between a suction plate position and a play board position, vacuum suction head is located range upon range of stack chamber under and with lift driver's output be assembled between/be connected between, vacuum suction head upwards crosses the cardboard that blocks the structure and can hold range upon range of stack chamber when switching to the suction plate position, vacuum suction head will range upon range of stack chamber in the cardboard that absorbs downwards cross the structure that blocks and pull out in order to follow range upon range of stack chamber when switching to a play board position, make the utility model discloses a suction feed mechanism need not shut down just in time the feed supplement in order to improve production speed and production efficiency under the cardboard.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the paperboard downdraft feeding mechanism of the present invention.

Fig. 2 is a schematic perspective view of a material taking device in the paperboard downdraft and feeding mechanism shown in fig. 1.

Fig. 3 is a schematic perspective view of a material pushing assembly in the paperboard downdraft and feeding mechanism shown in fig. 1.

Fig. 4 is a schematic perspective view of a bin in the paperboard downdraft and loading mechanism shown in fig. 1.

Detailed Description

Referring to fig. 1 and 2, the paperboard downdraft loading mechanism 1 of the present invention includes a bin 10 and a material fetching device 20. The stock bin 10 is provided with a stacking cavity 10a for stacking the paper feeding plates in an up-and-down direction and a blocking structure 10b which is protruded in the stacking cavity 10a and blocks the paper plates in the stacking cavity 10a from sliding down under the self-weight; the material taking device 20 comprises a vacuum suction head 21 and a lifting driver 22 for driving the vacuum suction head 21 to switch between a plate suction position and a plate discharge position, the vacuum suction head 21 is positioned right below the stacked cavity 10a and is connected with an output end 22a of the lifting driver 22 in an assembling way, the vacuum suction head 21 crosses the blocking structure 10b upwards and can suck the paper plates in the stacked cavity 10a when switching to the plate suction position, and the vacuum suction head 21 crosses the sucked paper plates in the stacked cavity 10a downwards to cross the blocking structure 10b to be pulled out of the stacked cavity 10a when switching to the plate discharge position. More specifically, the following:

as shown in fig. 1, the paperboard downdraft loading mechanism 1 further includes a material supporting plate 30 located right below the bin 10, the material supporting plate 30 is provided with a material taking and avoiding space 30a for avoiding the vacuum suction head 21, the lifting driver 22 is located below the material supporting plate 30, and the vacuum suction head 21 correspondingly extends upwards or retracts downwards into the material taking and avoiding space 30a in the process of switching between the board suction position and the board discharge position, so that the vacuum suction head 21 can place the sucked paperboard on the material supporting plate 30 when switching to the board discharge position. In addition, the paperboard downward-sucking feeding mechanism 1 further comprises a first retaining edge 50 and a second retaining edge 60 which are positioned at two sides of the material pushing avoiding gap 30b, and the first retaining edge 50 and the second retaining edge 60 are adjustably mounted on the material bearing plate 30.

As shown in fig. 1 and 3, the paperboard downdraft loading mechanism 1 further includes a pushing device 40, the pushing device 40 includes a telescopic driver 41, a pushing driver 42 and a pushing member 43, the material supporting plate 30 is provided with a pushing avoiding gap 30b for avoiding the pushing member 43 to horizontally slide, the pushing avoiding gap 30b is communicated with the material taking avoiding space 30a, and the pushing member 43 can push the paperboard to slide on the material supporting plate 30. Each of the pushing driver 42 and the telescopic driver 41 is located below the material bearing plate 30, the telescopic driver 41 is installed at the output end of the pushing driver 42, the pushing member 43 is installed at the output end of the telescopic driver 41, the pushing member 43 is vertically aligned with the pushing avoiding gap 30b, so that the pushing member 43 pushes the paper sheets on the material bearing plate 30 horizontally and forwards under the cooperation of the pushing driver 42 and the telescopic driver 41, preferably, as shown in fig. 3, the pushing device 40 further comprises a horizontal traversing seat 44 and a lifting bracket 45 which are located below the material bearing plate 30, the horizontal traversing seat 44 is assembled and connected with the output end of the pushing driver 42, the telescopic driver 41 is installed at the horizontal traversing seat 44, the output ends of the telescopic drivers 41 are arranged upwards, the lifting bracket 45 is installed at the output end of the telescopic driver 41, at least two pushing members 43 are arranged along the length direction of the lifting bracket 45 at intervals, so that the pushing member 43 smoothly pushes the paper boards on the material receiving plate 30 forward under the cooperation of the pushing driver 42 and the telescopic driver 41, and the arrangement among the pushing member 43, the pushing driver 42 and the telescopic driver 41 is more reasonable and compact, but not limited thereto.

As shown in fig. 1 and 4, the storage bin 10 includes a storage bin frame 11 and a first side frame 12a and a second side frame 12b for enclosing the stacked cavity 10a, wherein the first side frame 12a and the second side frame 12b are mounted on the storage bin frame 11, and a position of the first side frame 12a and a position of the second side frame 12b are adjustably arranged with respect to each other, and specifically, as shown in fig. 1 and 4, the first side frame 12a and the second side frame 12b are slidably disposed on the storage bin frame 11, so as to facilitate adjustment of a distance between the first side frame 12a and the second side frame 12b, but not limited thereto. More specifically, as shown in fig. 1 and 4, each of the first side frame 12a and the second side frame 12b includes a side frame body 121 and a first enclosing plate 122 and a second enclosing plate 123 which are adjustable in position on the side frame body 121, so that the storage bin 10 can store paperboards of different sizes, and more conveniently, the paperboard downdraft feeding mechanism 1 of the present invention can convey paperboards of different sizes, but not limited thereto. In addition, the blocking structures 10b are formed on the side frame body 121 and located right below the first enclosing plate 122 and the second enclosing plate 123, so that the blocking structures 10b can block the paper boards in the stacking cavities 10a from sliding down under the self-weight.

The elevation actuator 22 and the extension actuator 41 are cylinders or cylinders, and the pusher actuator 42 is a motor.

Compared with the prior art, the storage bin 10 is provided with a stacking cavity 10a for stacking the paper feeding plates in an up-down direction in a stacking manner and a blocking structure 10b which is protruded in the stacking cavity 10a and blocks the paper plates in the stacking cavity 10a from sliding down under the self-weight; meanwhile, because extracting device 20 contains vacuum suction head 21 and is used for driving vacuum suction head 21 to switch over between a suction plate position and a play board position lift driver 22, vacuum suction head 21 is located range upon range of cavity 10a of stacking under and with lift driver 22's output 22a be assembled between/be connected, vacuum suction head 21 upwards crosses when switching to the suction plate position and blocks structure 10b and can hold range upon range of cardboard of stacking cavity 10a, vacuum suction head 21 will range upon range of cardboard of piling cavity 10a when switching to a play board position and hold structure 10b and pull out in order to follow range upon range of cavity 10a of piling downwards crossing, make the utility model discloses a cardboard inhale down feed mechanism 1 need not shut down just in time feed supplement with improvement production speed and production efficiency.

The above disclosure is only a preferred embodiment of the present invention, and the function is to facilitate the understanding and implementation of the present invention, which is not to be construed as limiting the scope of the present invention, and therefore, the present invention is not limited to the claims.

Claims (9)

1. The utility model provides a cardboard downdraft feed mechanism which characterized in that includes:

the paper feeding device comprises a storage bin and a control device, wherein the storage bin is provided with a stacking cavity and a blocking structure, the stacking cavity is used for stacking paper feeding plates in an up-down direction in a stacking mode, and the blocking structure protrudes into the stacking cavity and blocks the paper plates in the stacking cavity from sliding downwards under the self weight; and

the material taking device comprises a vacuum suction head and a lifting driver for driving the vacuum suction head to switch between a plate suction position and a plate discharge position, the vacuum suction head is located right below the stacked cavity and is in assembly connection with an output end of the lifting driver, the vacuum suction head upwards crosses the blocking structure and can suck the paperboards in the stacked cavity when switching to the plate suction position, and the vacuum suction head downwards crosses the blocking structure to be pulled out of the stacked cavity when switching to the plate discharge position.

2. The paperboard downdraft feeding mechanism according to claim 1, further comprising a material bearing plate located right below the stock bin, wherein the material bearing plate is provided with a material taking and avoiding space for avoiding the vacuum suction head, the lifting driver is located below the material bearing plate, the vacuum suction head correspondingly extends upwards or retracts downwards into the material taking and avoiding space in the process of switching between the suction plate position and the plate discharge position, and the sucked paperboard is placed on the material bearing plate when the vacuum suction head is switched to the plate discharge position.

3. The paperboard downdraft feeding mechanism according to claim 2, further comprising a pushing device, wherein the pushing device comprises a telescopic driver, a pushing driver and a pushing member, the material bearing plate is provided with a pushing avoiding gap for avoiding the pushing member to slide horizontally, the pushing avoiding gap is communicated with the material taking avoiding space, the pushing driver and the telescopic driver are respectively located below the material bearing plate, the telescopic driver is installed at an output end of the pushing driver, the pushing member is installed at an output end of the telescopic driver, the pushing member is aligned with the pushing avoiding gap vertically, and the pushing member pushes the paperboard on the material bearing plate horizontally forward under cooperation of the pushing driver and the telescopic driver.

4. A paperboard downdraft loading mechanism as recited in claim 3, wherein the pushing device further comprises a horizontal traversing seat and a lifting bracket, the horizontal traversing seat is disposed below the material bearing plate and is connected to an output end of the pushing driver, the telescopic driver is mounted on the horizontal traversing seat, an output end of the telescopic driver is arranged upward, the lifting bracket is mounted on an output end of the telescopic driver, and the pushing members are at least two and are arranged in a spaced manner along a length direction of the lifting bracket.

5. The paperboard downdraft loading mechanism of claim 1, wherein said magazine includes a magazine frame and first and second side frames for enclosing said stacked cavities, said first and second side frames being mounted to said magazine frame.

6. A carton downdraft loading mechanism according to claim 5, wherein said first and second side frames are adjustably positioned relative to each other.

7. A paperboard downdraft loading mechanism according to claim 6 wherein said first side frame and said second side frame are each slidably disposed on said magazine frame.

8. A carton downdraft loading mechanism according to claim 5, wherein said first and second side frames each comprise a side frame body and first and second closure plates adjustable in position relative to each other on said side frame body, said blocking structure being formed on said side frame body and located directly beneath said first and second closure plates, respectively.

9. The paperboard downdraft loading mechanism of claim 3, further comprising a first rib and a second rib positioned on either side of the stock-pushing avoidance gap, the first rib and the second rib being adjustably mounted to the stock plate.

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