CN221093114U - Flexible paper piling mechanism of platform - Google Patents

Abstract

The utility model discloses a platform telescopic paper stacking mechanism, which comprises: the machine body comprises a support frame body and an outer cover arranged on part of the support frame body; the first pushing part comprises a first driving component and a moving component, and the first driving component is used for driving the moving component to do linear reciprocating motion along the supporting frame body; the second pushing part comprises a second driving component and a pushing component, and the second driving component is used for driving the pushing component to make linear reciprocating motion on the moving component; the paper pile moving device comprises a paper pile moving assembly, a pushing assembly, a paper pile moving assembly and a cover, wherein the paper pile moving assembly is used for placing a paper pile, the moving assembly is perpendicular to the moving direction of the pushing assembly, one side of the paper pile is in contact fit with the pushing assembly, and the other side of the paper pile is in contact fit with the cover. The utility model can bear paper piles with larger size, and has stable integral structure and convenient use.

Description

Flexible paper piling mechanism of platform

Technical Field

The utility model relates to the technical field of stacking equipment, in particular to a platform telescopic paper stacking mechanism.

Background

At present, paper materials are generally required to be stacked and leveled through stacking equipment, such as a paper pushing table disclosed in CN217971911U, and the paper pushing table comprises an underframe, a first paper pushing device and a second paper pushing device; the first paper pushing device comprises a first executing mechanism arranged on the underframe and a plurality of push rods arranged on the first executing mechanism, and the first executing mechanism drives the push rods to move up and down and left and right relative to the bearing plate; the paper pushing device comprises a first mounting plate, a first air cylinder arranged on the first mounting plate and a first paper pushing plate arranged on a telescopic rod of the first air cylinder, wherein the first air cylinder drives the first paper pushing plate to approach or separate from the center of the front and rear directions of the bearing plate. The existing pushing flattening structure is complex, and the flatness adjustment of the paper pile is insufficient.

And as another example, the components disclosed in CN209755399U are connected, one end of the paper stacking platform (1) is provided with two sliding seats (3) which are arranged up and down, the two sliding seats (3) are respectively connected with corresponding sliding rails (2) in a matched manner, and the sliding rails (2) are fixedly arranged on the frame. It has the problem of limited size carrying capacity and insufficient flatness adjustment for the pile.

Disclosure of utility model

The utility model provides a platform telescopic paper stacking mechanism with high size and high bearing capacity and capable of realizing high flatness adjustment, aiming at avoiding the defects existing in the prior art.

The utility model solves the technical problems by adopting the following technical scheme: a deck-telescoping stacker mechanism comprising:

The machine body comprises a support frame body and an outer cover arranged on part of the support frame body;

The first pushing part comprises a first driving component and a moving component, and the first driving component is used for driving the moving component to do linear reciprocating motion along the supporting frame body;

The second pushing part comprises a second driving component and a pushing component, and the second driving component is used for driving the pushing component to make linear reciprocating motion on the moving component;

The paper pile moving device comprises a paper pile moving assembly, a pushing assembly, a paper pile moving assembly and a cover, wherein the paper pile moving assembly is used for placing a paper pile, the moving assembly is perpendicular to the moving direction of the pushing assembly, one side of the paper pile is in contact fit with the pushing assembly, and the other side of the paper pile is in contact fit with the cover.

In several embodiments, the outer cover includes a main cover body and an end cover disposed on one side of the main cover body, the end cover having a flat end surface with an opening disposed thereon.

In several embodiments, the first driving assembly is disposed in the housing, and the first driving assembly includes a first driving motor and a driving belt, where the first driving motor is configured to drive the driving belt to move.

In several embodiments, the moving assembly includes a first linear guide rail, a support plate set, and clamping bodies connected to the support plate set, at least one of the clamping bodies being slidably connected to the first linear guide rail, at least one of the clamping bodies being connected to the driving belt.

In several embodiments, the support plate group includes two support plate bodies and a fixed plate body, the fixed plate body sets up in the below of two support plate bodies, one the centre gripping body sets up in the concatenation position of two support plate bodies, every all be provided with at least one centre gripping body on the support plate body.

In several embodiments, a limiting plate is disposed on one of the support plates, and the limiting plate is disposed in the outer cover and cannot penetrate out of the end cover.

In several embodiments, the second driving assembly is disposed in the housing, and the second driving assembly includes a second driving motor and a transmission chain, where the second driving motor is used to drive the transmission chain to move.

In several embodiments, the pushing component includes an adapter seat, a second linear guide rail, and a pushing plate, where the adapter seat is clamped on the transmission chain and slidably connected with the second linear guide rail, and the pushing plate is connected with the adapter seat.

In several embodiments, the first linear guide is disposed perpendicular to the second linear guide.

The utility model has the beneficial effects that:

According to the utility model, through the structures of the machine body, the first pushing part and the second pushing part, a paper pile with a larger size can be borne, and the flatness of the paper pile and the pushing effect are adjusted by matching with the machine body structure, so that the machine has a stable overall structure and is convenient to use.

Drawings

The drawings described herein are for illustration purposes only of selected embodiments and are not intended to represent all possible implementations and should not be construed as limiting the scope of the present utility model.

FIG. 1 schematically shows the overall structure of a deck-type telescopic stacker mechanism in the present embodiment;

FIG. 2 schematically illustrates a portion of the structure of FIG. 1, wherein the housing is not included;

FIG. 3 schematically illustrates the structure of FIG. 2 at another view angle;

FIG. 4 schematically illustrates an enlarged structure of the moving assembly of FIG. 3;

fig. 5 schematically shows an enlarged structure of the portion a of fig. 4.

Detailed Description

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings, and for the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model but not all embodiments of the present utility model.

Accordingly, the following detailed description of the embodiments of the utility model, provided in connection with the accompanying drawings, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model, as all other embodiments that may be obtained by one of ordinary skill in the art without making inventive efforts based on the embodiments herein, are within the scope of this utility model.

As shown in fig. 1-3, the telescopic paper stacking mechanism for a platform provided by the utility model is mainly composed of a machine body, a first pushing part arranged on the machine body and a second pushing part arranged on the machine body, wherein the movement direction of the first pushing part is vertical to that of the second pushing part, and the paper stack 100 is pushed and flattened through the cooperation of the first pushing part, the second pushing part and the third pushing part.

Specifically, the body includes a supporting frame 10 and an outer cover 20 disposed on a portion of the supporting frame 10, the outer cover 20 substantially covers an upper half portion of the supporting frame 10 with a half length, the outer cover 20 includes a main cover 21 and an end cover 22 disposed on one side of the main cover 21, the end cover 22 has a straight end surface 221, and an opening 222 is disposed on the straight end surface 221.

The second pushing portion includes a second driving component and a pushing component, the second driving component is configured to drive the pushing component to make a linear reciprocating motion on the moving component, the second driving component is disposed in the housing 20, the second driving component includes a second driving motor 51 and a transmission chain 52, the second driving motor 51 is configured to drive the transmission chain 52 to move, the pushing component includes a adapting seat 61, a second linear guide 62 and a pushing plate 63, the adapting seat 61 is configured to clamp the transmission chain 52 and is slidably connected with the second linear guide 62, the pushing plate 63 is connected with the adapting seat 61, an opening 222 is configured to allow the adapting seat 61 to penetrate, and the opening 222 is configured along the second linear guide 62, so that a space required by the movement of the adapting seat 61 is provided through the opening 222.

Referring to fig. 4-5, the first pushing portion includes a first driving component and a moving component, where the first driving component is configured to drive the moving component to reciprocate linearly along the supporting frame 10, the first driving component is disposed in the outer cover 20, and the first driving component includes a first driving motor 31 and a driving belt 32, and the first driving motor 31 is configured to drive the driving belt 32 to move.

The moving assembly comprises a first linear guide rail 41, a support plate group 42 and clamping bodies 43, wherein the clamping bodies 43 are connected with the support plate group 42, at least one clamping body 43 is slidably connected with the first linear guide rail 41, at least one clamping body 43 is connected with the driving belt 32, the upper end face of the support plate group 42 is lower than the upper end position of the support plate body 10, the moving assembly is composed of two support plate bodies 421 and a fixing plate body 422, the fixing plate body 422 is arranged below the two support plate bodies 421, the support plate bodies 421 are supported through the fixing plate bodies 422, the support capacity is improved, the support plate bodies 421 and the fixing plate bodies 422 can be selectively increased or reduced according to the size requirement, one clamping body 43 is arranged at the splicing position of the two support plate bodies 421, and at least one clamping body 43 is arranged on each support plate body 421.

Wherein the first linear guide 41 is disposed perpendicular to the second linear guide 62, whereby the moving assembly is perpendicular to the direction of motion of the pushing assembly.

Meanwhile, a limiting plate 4211 is disposed on one of the supporting plate 421, and the limiting plate 4211 is disposed in the housing 20 and cannot penetrate out of the end cover 22, so that the movement range of the supporting plate set 42 is limited by the limiting plate 4211.

Thus, one side of the paper stack 100 is in contact fit with the pushing assembly, and the other side of the paper stack 100 is in contact fit with the outer cover 20, namely, when the paper stack 100 is placed on the supporting plate group 42, one side of the paper stack 100 is leveled by the motion of the supporting plate group 42 and the end cover 22, and the other side of the paper stack 100 is leveled by the pushing plate 63 and one end part of the supporting frame body 10.

All of the manners described herein may be performed in any suitable order. The use of any and all examples, or exemplary language (e.g., "such as") provided herein, is intended merely to better illuminate the utility model and does not pose a limitation on the scope of the utility model unless otherwise claimed. No language in the specification should be construed as indicating any non-claimed element as essential to the practice of the utility model.

The present utility model describes preferred embodiments, including the best mode known to the inventors for carrying out the utility model. Variations of these preferred embodiments will, of course, be apparent to those skilled in the art. The inventors expect skilled artisans to employ such variations as appropriate, and the inventors intend for the utility model to be practiced otherwise than as specifically described herein. Accordingly, this utility model includes all modifications encompassed within the spirit and scope of the utility model as defined by the claims. Moreover, unless indicated otherwise or clearly contradicted by context, the present utility model includes any of the above-described factors and all possible variations thereof.

Claims (9)

1. A platform telescopic stacker mechanism, comprising:

The machine body comprises a support frame body and an outer cover arranged on part of the support frame body;

The first pushing part comprises a first driving component and a moving component, and the first driving component is used for driving the moving component to do linear reciprocating motion along the supporting frame body;

The second pushing part comprises a second driving component and a pushing component, and the second driving component is used for driving the pushing component to make linear reciprocating motion on the moving component; the paper pile moving device comprises a paper pile moving assembly, a pushing assembly, a paper pile moving assembly and a cover, wherein the paper pile moving assembly is used for placing a paper pile, the moving assembly is perpendicular to the moving direction of the pushing assembly, one side of the paper pile is in contact fit with the pushing assembly, and the other side of the paper pile is in contact fit with the cover.

2. The flatbed telescopic stacker mechanism of claim 1, wherein the housing comprises a main housing body and an end cover disposed on one side of the main housing body, the end cover having a flat end surface with an opening disposed thereon.

3. The flatbed stacker mechanism of claim 2, wherein the first driving assembly is disposed in the housing, the first driving assembly comprises a first driving motor and a driving belt, and the first driving motor is configured to drive the driving belt to move.

4. A telescopic flatbed stacker mechanism as recited in claim 3, wherein the moving assembly comprises a first linear guide, a set of support plates, and a clamping body, the clamping body being connected to the set of support plates, at least one of the clamping bodies being slidably connected to the first linear guide, at least one of the clamping bodies being connected to the belt.

5. The telescopic paper stacker mechanism according to claim 4, wherein the support plate group includes two support plate bodies and a fixing plate body, the fixing plate body is disposed below the two support plate bodies, one of the clamping bodies is disposed at a splicing position of the two support plate bodies, and at least one clamping body is disposed on each support plate body.

6. The telescopic paper stacker mechanism according to claim 5, wherein a limiting plate is disposed on one of the support plates, and the limiting plate is disposed in the housing and cannot pass through the end cover.

7. The telescopic stacker mechanism of claim 4, wherein the second driving assembly is disposed in the housing, the second driving assembly includes a second driving motor and a driving chain, and the second driving motor is configured to drive the driving chain to move.

8. The telescopic paper stacker mechanism according to claim 7, wherein the pushing assembly comprises an adapter, a second linear guide rail and a pushing plate, the adapter is clamped on the transmission chain and slidably connected with the second linear guide rail, and the pushing plate is connected with the adapter.

9. The flatbed telescopic stacker mechanism of claim 8, wherein the first linear guide is disposed perpendicular to the second linear guide.