CN215159435U

CN215159435U - Feeding device capable of adapting to paper feeding requirements of different thicknesses

Info

Publication number: CN215159435U
Application number: CN202121157173.6U
Authority: CN
Inventors: 胡邦林
Original assignee: Anhui Tianjin Printing Technology Co ltd
Current assignee: Anhui Tianjin Printing Technology Co ltd
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2021-12-14
Anticipated expiration: 2031-05-27

Abstract

The utility model relates to a can adapt to feedway of different thickness paper feed demands, including the take out board conveyer belt that is used for taking out the cardboard material lower floor's cardboard, the top of taking out the board conveyer belt is provided with and is used for retraining the restraint mechanism that makes the cardboard material descend to the cardboard, restraint mechanism is including being located the about portion of A and the about portion of B that two outsides of cardboard set up respectively, A, B about portion sets up along the direction of delivery interval of taking out the board conveyer belt, the cardboard material is located between the about portion of A, B, the A that supports by the cardboard material has in the about portion of A and supports the face, A supports the face and makes lower floor's cardboard and its adjacent upper strata cardboard be close to A and supports and lean on the face one deck and be contained angle form and arrange, A supports the face and is connected with face adjustment mechanism, face adjustment mechanism is used for adjusting A and supports the cardboard material feeding of the shape adaptation different thickness of face. The mechanism can adapt to paperboards with different thicknesses, and the paperboards are pulled out to be conveyed, so that the automatic feeding requirement of the paperboards is met.

Description

Feeding device capable of adapting to paper feeding requirements of different thicknesses

Technical Field

The utility model relates to a cardboard preparation field, concretely relates to feedway that can adapt to different thickness paper feed demands.

Background

Common feedway feeds the cardboard of sign indicating number fold form among the carton packing box production facility, in order to realize the reliable separation between the two adjacent cardboards, the face of supporting that supports against the piece that will support against the cardboard sets the curved surface into usually, the cardboard that will take out like this just can with upper strata cardboard phase separation, but this kind of structure of supporting against of tradition, the feeding separation of the cardboard that can only realize a thickness, just can't carry out reliable separation feed when the cardboard thickness size differs greatly, consequently, it is necessary to provide a feedway that can adapt to different thickness paper feed demands.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feedway that can adapt to different thickness paper feed demands can improve the feeding efficiency of cardboard.

The utility model discloses the technical scheme who takes specifically as follows:

the utility model provides a feedway that can adapt to different thickness paper feed demands which characterized in that: including being used for taking out the board conveyer belt of taking out of cardboard material lower floor's cardboard, the top of taking out the board conveyer belt is provided with and is used for retraining the restraint mechanism that makes the cardboard material descend to the cardboard, restraint mechanism is including lieing in the two outsides of cardboard A restraint portion and the restraint portion of B that set up respectively, the restraint portion of A, B sets up along the direction of delivery interval of taking out the board conveyer belt, the cardboard material is located between the restraint portion of A, B, the A that has on the restraint portion and support and lean on the face by the A that supports by the cardboard material, A supports by the face and makes lower floor's cardboard and its adjacent upper strata cardboard be close to A and supports by a one deck and be contained angle form and arrange, A supports by the face and is connected with face adjustment mechanism, face adjustment mechanism is used for adjusting A and supports by the cardboard material feeding of the different thickness of shape adaptation of face.

The method specifically comprises the following steps: the A constraint parts are respectively composed of A sub constraint parts arranged at intervals along the belt width direction of the drawing plate conveying belt, A sub abutting surfaces are respectively arranged on the A sub constraint parts, the A abutting surfaces are formed by the A sub abutting surfaces, and the surface adjusting mechanism is used for synchronously adjusting the shapes of the A sub abutting surfaces.

The A sub-constraint part comprises elastic sheet bars which are vertically arranged, the surface of each elastic sheet bar close to the B constraint part forms the A sub-support surface, and the surface adjusting mechanism is used for adjusting the bending state of each elastic sheet bar.

The A sub-restraint part comprises an A1 restraint part, the lower end of the elastic sheet is fixedly connected with the A1 restraint part, the upper side of the A1 restraint part is provided with an A abutting part used for abutting against the lower body section of the elastic sheet and bulging towards one side close to the B restraint part, the upper end of the elastic sheet is connected with the A2 restraint part, and the A2 restraint part is used for adjusting the bending degree of the upper body section of the elastic sheet.

The A abutting piece is formed by abutting a cam.

The A1 restraint piece is composed of an A1 restraint block, an A1 restraint clamping opening is formed in the A1 restraint block, and the lower end of the elastic plate is fixed in the A1 restraint clamping opening.

The A2 restraint piece is composed of an A2 restraint block, the A2 restraint block is provided with an A2 restraint clamping opening, the upper end of the elastic plate is fixed in the A2 restraint clamping opening, the A2 restraint block is provided with an arc guide surface for molding the elastic plate, and the A2 restraint clamping opening is located at the upper edge of the arc guide surface.

The A2 restraints are movably mounted in the spacing direction and the vertical direction between the A, B restraints.

Each A sub-restraint part is movably arranged along the belt width direction of the drawing plate conveying belt.

The B restraint parts are respectively composed of B sub restraint parts arranged at intervals along the belt width direction of the drawing plate conveying belt, and the B sub restraint parts are movably arranged along the belt width direction of the drawing plate conveying belt.

Has the advantages that: the utility model discloses A supports the shape that the face can adjust into different states according to the demand, and A supports the face and makes the cardboard slope form that is about to break away from feedway arrange, not only be convenient for the cardboard steady fall take out the board conveyer belt on, and avoided traditional cardboard to influence the difficult condition of separating each other when breaking away from. In addition, the mechanism can adapt to paperboards with different thicknesses, and the paperboards are pulled out to be conveyed, so that the automatic feeding requirement is realized.

Drawings

FIG. 1 is a top view of a feeding device according to an embodiment;

FIG. 2 is a front view of a feeding device according to an embodiment;

FIG. 3 is a partial front view of FIG. 2;

fig. 4 is an isometric view of the a constraint.

100-cardboard material (cardboard), 200-drawing board conveyer belt, 300-A restraint part, 310-A restraint part, 311-elastic sheet, 311a-A abutment surface, 312-A1 restraint part, 313-A abutment part, 314-A2 restraint part, 315-A1 restraint clamping opening, 316-A2 restraint clamping opening, 317-guide surface, A1 bracket 318, A2 connecting plate 319, 320-A abutment surface, A2 bracket upper 321, 320a-A abutment surface, 400-B restraint part and 410-B restraint part.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

As shown in fig. 1-3, a feeding device capable of meeting the requirements of paper feeding with different thicknesses comprises a drawing board conveyer belt 200 for drawing out the lowest layer of paper boards of paper board materials 100, a restraining mechanism for restraining the paper boards 100 to enable the paper board materials 100 to descend is arranged above the drawing board conveyer belt 200, the restraining mechanism comprises an a restraining part 300 and a B restraining part 400 which are respectively arranged at two outer sides of the paper boards 100, the restraining parts A, B are arranged at intervals along the conveying direction of the drawing board conveyer belt 200, the paper board materials 100 are located at a, between the B restraining parts, the A restraining part 300 is provided with an A abutting surface 320 abutting against the paperboard material 100, the A abutting surface 320 enables the lowest layer of paperboard and the adjacent upper layer of paperboard to be arranged in an included angle shape close to the A abutting surface 320, the A abutting surface 320 is connected with a surface adjusting mechanism, and the surface adjusting mechanism is used for adjusting the shape of the A abutting surface 320 to adapt to feeding of the paperboard materials 100 with different thicknesses.

As shown in fig. 3, the distance between the abutting surface 320a and the constraining portion 400B is gradually decreased, the minimum distance is smaller than the width of the paper boards, so that when the paper board materials 100 are placed, the paper boards are inclined and stacked, then the distance is increased, the maximum distance is larger than the width of the paper boards, so that the paper boards can be flatly laid on the pulling board conveyer belt 200 when falling, and then the pulling board conveyer belt 200 conveys the flatly laid single paper boards 100.

As shown in fig. 1, the a constraining section 300 is composed of a plurality of a sub-constraining sections 310 arranged at intervals along the belt width direction of the pumping plate conveyor belt 200, each a sub-constraining section 310 has a sub-abutting surface 320a thereon, each a sub-abutting surface 320a constitutes the a abutting surface 320, and the surface adjusting mechanism is used for synchronously adjusting the shape of each a sub-abutting surface 320 a.

As shown in fig. 3, the a sub-restraint portion 310 includes an elastic sheet 311 arranged in a standing manner, a plate surface of the elastic sheet 311 near the B restraint portion 400 constitutes the a sub-abutting surface 320a, and the surface adjusting mechanism is used for adjusting a bending state of the elastic sheet 311. The A sub-restraint part 310 comprises an A1 restraint part 312, the lower end of the elastic sheet 311 is fixedly connected with the A1 restraint part 312, an A abutting part 313 used for abutting against the lower body section of the elastic sheet 311 and bulging towards the side close to the B restraint part 400 is arranged on the upper side of the A1 restraint part 312, the upper end of the elastic sheet 311 is connected with the A2 restraint part 314, and the A2 restraint part 314 is used for adjusting the bending degree of the upper body section of the elastic sheet 311. The a abutting piece 313 is constituted by an abutting cam. The A1 constraint piece 312 consists of an A1 constraint block, an A1 constraint clip opening is formed in the A1 constraint block, and the lower end of the elastic plate piece 311 is fixed in the A1 constraint clip opening.

The A2 restraining piece 314 consists of an A2 restraining block, an A2 restraining clamping opening is formed in the A2 restraining block, the upper end of the elastic plate piece 311 is fixed in the A2 restraining clamping opening, an arc-shaped guide surface 317 for molding the elastic plate piece 311 is formed in the A2 restraining block, and the A2 restraining clamping opening is located at the upper edge portion of the arc-shaped guide surface 317.

As shown in fig. 3, the elastic sheet can be well shaped to change the curvature, and the elastic sheet can be changed into various postures by abutting the a abutting piece 313 and changing the positions of the a1 constraint 312 and the a2 constraint 314, so as to adapt to the feeding requirements of the paperboard materials 100 with different thicknesses.

The a2 restraints 314 are movably mounted in the pitch and vertical directions between the A, B restraints. Each of the a sub-constraining sections 310 is movably disposed along the belt width direction of the drawer panel conveyer 200.

As shown in fig. 4, each a1 restraint 312 is movable on the a bracket 318 in the direction of the width of the strap of the drawer transport 200, and the a1 restraint 312 slides on an open slot provided in the a1 bracket 318. Of course the a1 bracket 318 could also be movably mounted in the transport direction to accommodate different widths of cardboard sheets. The A2 restraint 314 is slidably mounted on the A2 bracket 321 through the A2 connecting plate 319 along the width and length directions of the drawer transport belt 200, and the A2 bracket 321 is vertically mounted on the frame 500. The a abutting member 313 is slidably mounted on the spline shaft in the belt width direction of the drawer conveyor 200, but the spline shaft may be movably mounted in the vertical direction.

As shown in fig. 1-2, the B constraining sections 400 are composed of B sub-constraining sections 410 arranged at intervals along the belt width direction of the drawer transport belt 200, and the B sub-constraining sections 410 are movably disposed along the belt width direction of the drawer transport belt 200. An abutting plate 411 for abutting the paper boards is arranged on the B sub-restraint part 410, the abutting plate 411 is arranged in a standing suspension mode, and the distance between the bottom of the abutting plate 411 and the board drawing and conveying belt 200 is slightly larger than the thickness of the paper boards, so that the single paper boards can pass through.

The utility model discloses A supports the shape that the face can adjust into different states according to the demand, and A supports the face and makes the cardboard slope form that is about to break away from feedway arrange, not only be convenient for the cardboard steady fall take out the board conveyer belt on, and avoided traditional cardboard to influence the difficult condition of separating each other when breaking away from. In addition, the mechanism can adapt to paperboards with different thicknesses, and the paperboards are pulled out to be conveyed, so that the automatic feeding requirement is realized.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims

1. The utility model provides a feedway that can adapt to different thickness paper feed demands which characterized in that: including being used for taking out the board conveyer belt of taking out of cardboard material lower floor's cardboard, the top of taking out the board conveyer belt is provided with and is used for retraining the restraint mechanism that makes the cardboard material descend to the cardboard, restraint mechanism is including lieing in the two outsides of cardboard A restraint portion and the restraint portion of B that set up respectively, the restraint portion of A, B sets up along the direction of delivery interval of taking out the board conveyer belt, the cardboard material is located between the restraint portion of A, B, the A that has on the restraint portion and support and lean on the face by the A that supports by the cardboard material, A supports by the face and makes lower floor's cardboard and its adjacent upper strata cardboard be close to A and supports by a one deck and be contained angle form and arrange, A supports by the face and is connected with face adjustment mechanism, face adjustment mechanism is used for adjusting A and supports by the cardboard material feeding of the different thickness of shape adaptation of face.

2. The feeding device of claim 1, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A constraint parts are respectively composed of A sub constraint parts arranged at intervals along the belt width direction of the drawing plate conveying belt, A sub abutting surfaces are respectively arranged on the A sub constraint parts, the A abutting surfaces are formed by the A sub abutting surfaces, and the surface adjusting mechanism is used for synchronously adjusting the shapes of the A sub abutting surfaces.

3. The feeding device of claim 2, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A sub-constraint part comprises elastic sheet bars which are vertically arranged, the surface of each elastic sheet bar close to the B constraint part forms the A sub-support surface, and the surface adjusting mechanism is used for adjusting the bending state of each elastic sheet bar.

4. The feeding device of claim 3, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A sub-restraint part comprises an A1 restraint part, the lower end of the elastic sheet is fixedly connected with the A1 restraint part, the upper side of the A1 restraint part is provided with an A abutting part used for abutting against the lower body section of the elastic sheet and bulging towards one side close to the B restraint part, the upper end of the elastic sheet is connected with the A2 restraint part, and the A2 restraint part is used for adjusting the bending degree of the upper body section of the elastic sheet.

5. The feeding device of claim 4, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A abutting piece is formed by abutting a cam.

6. The feeding device of claim 5, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A1 restraint piece is composed of an A1 restraint block, an A1 restraint clamping opening is formed in the A1 restraint block, and the lower end of the elastic plate is fixed in the A1 restraint clamping opening.

7. The feeding device of claim 6, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A2 restraint piece is composed of an A2 restraint block, the A2 restraint block is provided with an A2 restraint clamping opening, the upper end of the elastic plate is fixed in the A2 restraint clamping opening, the A2 restraint block is provided with an arc guide surface for molding the elastic plate, and the A2 restraint clamping opening is located at the upper edge of the arc guide surface.

8. The feeding device of claim 7, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the A2 restraints are movably mounted in the spacing direction and the vertical direction between the A, B restraints.

9. The feeding device of claim 8, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses: each A sub-restraint part is movably arranged along the belt width direction of the drawing plate conveying belt.

10. The feeding device of claim 2, wherein the feeding device is capable of meeting the requirements of paper feeding with different thicknesses, and comprises: the B restraint parts are respectively composed of B sub restraint parts arranged at intervals along the belt width direction of the drawing plate conveying belt, and the B sub restraint parts are movably arranged along the belt width direction of the drawing plate conveying belt.