CN114102840A

CN114102840A - Board edge anticollision formula gypsum board turning plate device

Info

Publication number: CN114102840A
Application number: CN202111367236.5A
Authority: CN
Inventors: 高成海
Original assignee: Beijing New Building Material Group Co Ltd
Current assignee: Beijing New Building Material Group Co Ltd
Priority date: 2021-11-18
Filing date: 2021-11-18
Publication date: 2022-03-01
Anticipated expiration: 2041-11-18
Also published as: CN114102840B

Abstract

The invention discloses a gypsum board turning device with anti-collision board edges, which comprises a cushion block, a turning board fork rotationally connected to one side of the cushion block and a board receiving fork rotationally connected to the other side of the turning board fork, wherein a buffer device is arranged between the turning board fork and the board receiving fork, the buffer device is arranged right above the cushion block, and the surfaces of the turning board fork and the board receiving fork are respectively provided with a connecting area. Namely, the impact force of the gypsum board is discharged through the suspended buffer device.

Description

Board edge anticollision formula gypsum board turning plate device

Technical Field

The invention relates to the technical field of gypsum board manufacturing, in particular to a board edge anti-collision type gypsum board turning device.

Background

Is a material prepared by using building gypsum as a main raw material. The building material has the advantages of light weight, high strength, small thickness, convenient processing, sound insulation, heat insulation, fire prevention and other good performances, and is one of the currently-developed novel light boards.

In the production process, the cut plate needs to be turned at the position of the two-control post plate turnover machine, so that the lower paper surface faces upwards. Because horizontal conveyer belt and motor start at every turn, stop to lose the fast difference, the stop position appears differently, and when the stop position was non-placed in the middle, the panel turnover machine left side turned over the board fork and rotated and stands, and the whereabouts falls, falls the garrulous limit easily under the effect of gravity, and is difficult for discovering, carries the triple control and need in the buttress quick-witted tall and erect one and choose, has increased post labour, has brought the quality risk.

That is to say, gypsum board flap gear among the prior art, it can't solve the problem of easily breaking into pieces the board edge at the board in-process that turns over.

Disclosure of Invention

The invention aims to provide a board edge anti-collision type gypsum board turning device, which solves the technical problem that board edges are easy to break in the board turning process in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a gypsum board turning device with an anti-collision board edge comprises a cushion block, a turning board fork rotationally connected to one side of the cushion block and a board receiving fork rotationally connected to the other side of the turning board fork, wherein a buffer device is arranged between the turning board fork and the board receiving fork, the buffer device is arranged right above the cushion block, the surfaces of the turning board fork and the board receiving fork are respectively provided with a connecting area, and two ends of the buffer device are respectively correspondingly connected with the two connecting areas;

the turnover plate fork can bear gypsum boards and drive the gypsum boards to turn towards the direction of the turnover plate fork, and the turnover plate fork can deflect towards the direction of the turnover plate fork to bear the turned gypsum boards;

when the turning plate fork and the joint plate fork are in a horizontal state, the distance between the connecting area on the turning plate fork and the connecting area on the joint plate fork is increased so that the buffer device is pulled to extend and cling to the cushion block;

when the flap forks and the joint plate forks are deflected towards each other, the distance between the connecting area on the flap forks and the connecting area on the joint plate forks is reduced so that the buffer device restores the length before being stretched and is suspended right above the cushion block, and meanwhile, the gypsum board moves along the surface of the flap forks towards the buffer device and contacts the suspended buffer device.

As a preferred scheme of the invention, the buffer device comprises a rubber pad arranged right above the cushion block, and two ends of the rubber pad are provided with a stretching component;

the same side surface of the turning plate fork and the same side surface of the connecting plate fork are respectively provided with a storage groove in the connecting area, and each storage groove can be used for fixing a stretching part;

the stretching component comprises a lifting ring device connected in the storage groove, a spring device is connected to the lifting ring device, and the spring device is connected with the end part of the rubber pad;

when the turning plate fork and the plate receiving fork are in a horizontal state, the lifting ring device pulls the corresponding spring device to movably extend towards the direction away from the cushion block so as to enable the rubber pad to be tightly attached to the surface of the cushion block;

when the turning plate fork and the joint plate fork deflect towards each other, the turning plate fork and the joint plate fork can respectively drive the corresponding lifting ring device, the corresponding spring device and the corresponding end part of the rubber pad to move so that the surface of the rubber pad is gradually changed from a state parallel to the cushion block to a state of bending towards one side of the cushion block, and meanwhile, the stretched spring device resets and drives the rubber pad in the bending state to be suspended right above the cushion block.

As a preferable mode of the present invention, the storage groove includes a fixing groove and a guide groove, an introduction groove is provided between the fixing groove and the guide groove, the fixing groove, the guide groove, and the introduction groove are sequentially provided in a direction toward the pad block in the connection region, an introduction port communicating with the fixing groove is provided at one end of the introduction groove, and an insertion port communicating with the guide groove is provided at the other end of the introduction groove;

the fixed groove can accommodate the hanging ring device and the spring device, and the guide groove can guide the rubber pad to enter the fixed groove to be connected with the spring device.

As a preferable mode of the present invention, the edge of the insertion guide opening coincides with the bottom inner wall of the guide groove, the position of the insertion guide opening is higher than the position of the introduction opening, and the width value of the introduction groove is not less than the thickness value of the rubber pad;

when the turning plate fork and the joint plate fork are in a horizontal state, the guide grooves in the turning plate fork and the joint plate fork can respectively drive two ends of the rubber pad to incline towards the bottoms of the corresponding fixed grooves.

As a preferable scheme of the invention, the turning plate fork and the plate receiving fork are connected with the cushion block through rotating shafts.

In a preferred embodiment of the present invention, a guide angle is formed between the flap fork and the joint plate fork, and the guide angle is used for guiding the gypsum board to be dumped from the flap fork to the joint plate fork.

As a preferable aspect of the present invention, a center line of the rubber pad coincides with a center line of the pad.

In a preferred embodiment of the present invention, the groove width of the fixing groove is not less than the width of the spring device, and the spring device can pull the end of the rubber pad to move in the fixing groove.

As a preferable scheme of the invention, the angle range of the guide angle is 0-180 degrees, and in the process that the turning plate fork and the plate receiving fork deflect to form the guide angle, the insertion guide opening on the turning plate fork and the insertion guide opening on the plate receiving fork are in the same horizontal straight line.

In a preferred embodiment of the present invention, the surface of the pad is lower than the surface of the flap fork and the surface of the tab fork when the surfaces of the flap fork and the tab fork are at the same level.

Compared with the prior art, the invention has the following beneficial effects:

the invention can avoid the board edge from being broken due to the over-high descending speed of the board turning plate caused by the turning stop of the gypsum board through the spring device and the rubber pad, thereby improving the qualification rate of products and reducing the labor force of picking up the board by personnel at three control positions.

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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic structural view of a flap fork and a plate receiving fork in an embodiment of the present invention when not turned over;

fig. 2 is a schematic structural view of the turnover plate fork and the plate receiving fork after being turned over in the embodiment of the invention.

The reference numerals in the drawings denote the following, respectively:

1-a gypsum board; 2-turning plate fork; 3-plate receiving fork; 4-a spring device; 5-a rotating shaft; 6-cushion block; 7-rubber pad; 8-a lifting ring device; 9-a storage groove; 10-a buffer device; 11-a lead angle;

91-fixing the groove; 92-a guide groove; 93-an introduction groove; 94-an introduction port; 95-inserting the guide opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

As shown in fig. 1, the invention provides a gypsum board edge anti-collision turnover device, which comprises a cushion block 6, a turnover plate fork 2 rotatably connected to one side of the cushion block 6, and a board receiving fork 3 rotatably connected to the other side of the turnover plate fork 2, wherein a buffer device 10 is arranged between the turnover plate fork 2 and the board receiving fork 3, the buffer device 10 is arranged right above the cushion block 6, the surfaces of the turnover plate fork 2 and the board receiving fork 3 are respectively provided with a connecting area, and two ends of the buffer device 10 are respectively correspondingly connected with the two connecting areas;

the turnover plate fork 2 can bear the gypsum board 1 and drive the gypsum board 1 to turn over towards the direction of the joint plate fork 3, and the joint plate fork 3 can deflect towards the direction of the turnover plate fork 2 so as to bear the turned gypsum board 1;

when the turning plate fork 2 and the plate receiving fork 3 are in a horizontal state, the distance between the connecting area on the turning plate fork 2 and the connecting area on the plate receiving fork 3 is increased so that the buffer device 10 is pulled to extend and cling to the cushion block 6;

when the

flap forks

2 and 3 are pivoted toward each other, the distance between the connection area on the flap fork 2 and the connection area on the flap fork 3 is reduced so that the damping device 10 returns to the pre-tensioned length and floats directly above the spacer 6 while the plasterboard 1 moves along the surface of the flap fork 2 toward the damping device 10 and contacts the floating damping device 10.

According to the invention, the phenomenon that the gypsum board 1 falls down too fast after turning over due to the fact that the gypsum board 1 stops turning over and the board edges are broken due to the fact that the falling speed is too fast can be avoided through the spring device 10 and the rubber pad 7, the qualified rate of products is improved, and the labor force for picking up boards by personnel at three control posts is reduced, when the gypsum board 1 is implemented specifically, namely the gypsum board 1 is turned over and the board works into two parts, namely the first part, when the board turning fork 2 and the board turning fork 3 are in a horizontal state, the distance between the connecting area on the board turning fork 2 and the connecting area on the board turning fork 3 is increased so that the buffer device 10 is pulled to extend and is attached to the cushion block 6, and at the moment, the gypsum board 1 is horizontally placed on the board turning fork 2 as shown in figure 1;

second, as the flap forks and the butt forks are deflected toward each other, the distance between the attachment area on the flap fork 2 and the attachment area on the butt fork 3 is reduced to restore the length of the cushioning device 10 before being stretched and to suspend directly above the spacer 6, while the gypsum board moves along the surface of the flap fork toward the cushioning device 10 and contacts the suspended cushioning device 10, i.e., the impact force of the gypsum board is discharged through the suspended cushioning device 10.

As shown in fig. 1 and 2, the cushioning device 10 includes a rubber pad 7 disposed directly above the cushion block 6, and both ends of the rubber pad 7 are provided with a tension member;

the same side surfaces of the turning plate fork 2 and the plate receiving fork 3 are respectively provided with a storage groove 9 in a connecting area, and each storage groove 9 can be used for fixing one stretching part;

the stretching component comprises a lifting ring device 8 connected in a storage groove 9, the lifting ring device 8 is connected with a spring device 4, and the spring device 4 is connected with the end part of the rubber pad 7;

when the turning plate fork 2 and the plate receiving fork 3 are in a horizontal state, the lifting ring device 8 pulls the corresponding spring device 4 to movably extend towards the direction away from the cushion block 6 so as to enable the rubber pad 7 to be tightly attached to the surface of the cushion block 6;

when the turning plate fork 2 and the plate receiving fork 3 deflect towards each other, the turning plate fork 2 and the plate receiving fork 3 can respectively drive the corresponding lifting ring device 8, the spring device 4 and the end part of the corresponding rubber pad 7 to move so that the surface of the rubber pad 7 is gradually changed from a state parallel to the cushion block 6 into a state of bending towards one side of the cushion block 6, and meanwhile, the stretched spring device 4 is reset to drive the rubber pad 7 in the bending state to suspend above the cushion block 6.

The concrete implementation operation of the buffer device 10 needs to be explained according to the states of the turning plate fork 2 and the plate receiving fork 3, when the turning plate fork 2 and the plate receiving fork 3 are in a horizontal state, the lifting ring device 8 pulls the corresponding spring device 4 to movably extend towards the direction away from the cushion block 6 so as to enable the rubber pad 7 to be tightly attached to the surface of the cushion block 6;

As shown in fig. 1 and 2, the holder tank 9 includes a fixing groove 91 and a guide groove 92, an introduction groove 93 is provided between the fixing groove 91 and the guide groove 92, the fixing groove 91, the guide groove 92, and the introduction groove 93 are provided in the connecting region in this order in the direction toward the pad 6, an introduction port 94 communicating with the fixing groove 91 is provided at one end of the introduction groove 93, and an insertion port 95 communicating with the guide groove 92 is provided at the other end of the introduction groove 93;

the fixing groove 91 can accommodate the hanging ring device 8 and the spring device 4, and the guide groove 93 can guide the rubber pad 7 into the fixing groove 91 to be connected with the spring device 4.

The arrangement of the guide groove 92 can not only guide the rubber pad 7 to be inserted into the guide groove 93, but also prevent the joint of the rubber pad 7 and the cushion block 6 from being raised to influence the movement of the gypsum board.

As shown in fig. 1 and 2, the edge of the insertion guide opening 95 coincides with the inner wall of the bottom of the guide groove 92, the insertion guide opening 95 is higher than the guide opening 94, and the width of the guide groove 93 is not less than the thickness of the rubber pad 7, so that the phenomenon that one end is higher and the other end is lower when the subsequent rubber pad 7 floats due to unsmooth sliding when the rubber pad 7 slides again can be avoided;

when turning over board fork 2 and fishplate bar fork 3 and being in the horizontality, turn over the leading-in groove 93 that board fork 2 and fishplate bar fork 3 were last can drive the both ends of rubber pad 7 respectively and incline towards corresponding fixed slot 91 bottom, so set up for making rubber pad 7 can hug closely cushion 6 after being stretched more easily.

The turning plate fork 2 and the connecting plate fork 3 are both connected with the cushion block 6 through the rotating shaft 5, and the preferred connection mode is that the problem of larger gap at the connection position cannot occur in the hinge connection mode.

A guide angle 11 is formed between the turning plate fork 2 and the joint plate fork 3, and the guide angle 11 is used for guiding the gypsum board 1 to topple over to the joint plate fork 3 from the turning plate fork 2.

The center line of the rubber pad 7 coincides with the center line of the cushion block 6, so that the phenomenon that the center line of the rubber pad 7 deviates from the center line of the cushion block 6 to cause the edge of the gypsum board to impact the bottom of the joint plate fork 3 is prevented.

The groove width value of the fixing groove 91 is not less than the width value of the spring device 4, the spring device 4 can pull the end of the rubber pad 7 to move in the fixing groove 91, the movement of the spring device 4 is not affected, and the situation that the contraction stroke of the spring device 4 is limited by the fixing groove 91 to cause the rubber pad 7 to stretch or contract incompletely is avoided.

The angle range of the guide angle 11 is 0-180 degrees, and in the process that the turning plate fork 2 and the joint plate fork 3 deflect to form the guide angle 11, the insertion guide port 95 on the turning plate fork 2 and the insertion guide port 95 on the joint plate fork 3 are in the same horizontal straight line, so that the gypsum board 1 can smoothly move from the turning plate fork 2 to the joint plate fork 3, and the phenomenon of center line deviation cannot occur in the process that the rubber pad 7 is bent again.

When the surfaces of the turning plate fork 2 and the joint plate fork 3 are on the same horizontal plane, the surface of the cushion block 6 is lower than the surfaces of the turning plate fork 2 and the joint plate fork 3, so that the surface of the rubber pad 7 can be on the same horizontal plane with the surfaces of the turning plate fork 2 and the joint plate fork 3 after the rubber pad 7 is stretched.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. The board edge anti-collision type gypsum board turning device is characterized by comprising a cushion block (6), a turning plate fork (2) rotatably connected to one side of the cushion block (6) and a board receiving fork (3) rotatably connected to the other side of the turning plate fork (2), wherein a buffer device (10) is arranged between the turning plate fork (2) and the board receiving fork (3), the buffer device (10) is arranged right above the cushion block (6), the surfaces of the turning plate fork (2) and the board receiving fork (3) are respectively provided with a connecting area, and two ends of the buffer device (10) are respectively and correspondingly connected with the two connecting areas;

the turnover plate fork (2) can bear the gypsum board (1) and drive the gypsum board (1) to turn towards the direction of the plate receiving fork (3), and the plate receiving fork (3) can deflect towards the direction of the turnover plate fork (2) to bear the turned gypsum board (1);

when the turning plate fork (2) and the plate receiving fork (3) are in a horizontal state, the distance between a connecting area on the turning plate fork (2) and a connecting area on the plate receiving fork (3) is increased so that the buffer device (10) is pulled to extend and is tightly attached to the cushion block (6);

when the flap fork (2) and the plate fork (3) are deflected towards each other, the distance between the connection area on the flap fork (2) and the connection area on the plate fork (3) is reduced so that the damping device (10) recovers the pre-stretched length and floats directly above the cushion block (6), and the gypsum board (1) moves along the surface of the flap fork (2) towards the damping device (10) and contacts the floating damping device (10).

2. A board-edge crashproof plasterboard turning device according to claim 1, wherein the buffer device (10) comprises a rubber pad (7) arranged right above the cushion block (6), and both ends of the rubber pad (7) are provided with a stretching component;

the same side surface of the flap fork (2) and the same side surface of the flap fork (3) are respectively provided with a storage groove (9) in the connecting area, and each storage groove (9) can respectively fix one stretching component;

the stretching component comprises a lifting ring device (8) connected in a storage groove (9), the lifting ring device (8) is connected with a spring device (4), and the spring device (4) is connected with the end part of the rubber pad (7);

when the turning plate fork (2) and the plate receiving fork (3) are in a horizontal state, the lifting ring device (8) pulls the corresponding spring device (4) to movably extend towards the direction away from the cushion block (6) so as to enable the rubber pad (7) to be tightly attached to the surface of the cushion block (6);

when the turning plate fork (2) and the plate receiving fork (3) deflect towards each other, the turning plate fork (2) and the plate receiving fork (3) can respectively drive the corresponding lifting ring device (8), the spring device (4) and the corresponding end part of the rubber pad (7) to move, so that the surface of the rubber pad (7) is gradually changed from a state parallel to the cushion block (6) to a state of bending towards one side of the cushion block (6), and meanwhile, the stretched spring device (4) resets to drive the rubber pad (7) in the bending state to suspend right above the cushion block (6).

3. The board edge anti-collision plasterboard turning device according to claim 2, wherein the storage groove (9) comprises a fixing groove (91) and a guide groove (92), an introduction groove (93) is arranged between the fixing groove (91) and the guide groove (92), the fixing groove (91), the guide groove (92) and the introduction groove (93) are sequentially arranged in the connecting area in a direction towards the cushion block (6), an introduction port (94) communicated with the fixing groove (91) is arranged at one end of the introduction groove (93), and an insertion guide port (95) communicated with the guide groove (92) is arranged at the other end of the introduction groove (93);

the fixing groove (91) can accommodate the lifting ring device (8) and the spring device (4), and the guide groove (93) can guide the rubber pad (7) to enter the fixing groove (91) to be connected with the spring device (4).

4. A board edge anti-collision plasterboard turning device according to claim 3, wherein the edge of the insertion guide opening (95) coincides with the bottom inner wall of the guide groove (92), the insertion guide opening (95) is higher than the introduction opening (94), and the width of the introduction groove (93) is not less than the thickness of the rubber gasket (7);

when the turning plate fork (2) and the plate receiving fork (3) are in a horizontal state, the two ends of the rubber pad (7) can be respectively driven by the guiding grooves (93) in the turning plate fork (2) and the plate receiving fork (3) to incline towards the bottoms of the corresponding fixing grooves (91).

5. A plasterboard panel turnover device with anti-collision panel edges as claimed in claim 1, wherein the panel turnover forks (2) and the panel turnover forks (3) are connected with the cushion blocks (6) through rotating shafts (5).

6. A plasterboard edge-strike panel turnover according to claim 1, wherein a guide angle (11) is formed between the panel-turning fork (2) and the panel-receiving fork (3), the guide angle (11) being used to guide the plasterboard (1) to be dumped from the panel-turning fork (2) to the panel-receiving fork (3).

7. A board edge crashproof plasterboard turning device according to claim 2, characterised in that the centre line of the rubber mat (7) coincides with the centre line of the spacer block (6).

8. A board edge anti-collision plasterboard turning device according to claim 3, wherein the groove width value of the fixing groove (91) is not less than the width value of the spring device (4), and the spring device (4) can pull the end of the rubber pad (7) to move in the fixing groove (91).

9. A board edge crashproof plasterboard panel turnover device according to claim 3, wherein the angle range of the guide angle (11) is 0-180 degrees, and the insertion guide opening (95) on the board turning fork (2) and the insertion guide opening (95) on the board receiving fork (3) are in the same horizontal straight line in the process that the board turning fork (2) and the board receiving fork (3) deflect and form the guide angle (11).

10. A board edge crashproof plasterboard flap arrangement according to claim 1, wherein the surface of the flap fork (2) and the surface of the slat fork (3) are at the same level, and the surface of the spacer block (6) is lower than the surface of the flap fork (2) and the surface of the slat fork (3).