CN114670319B - Cutter balancing and anti-pricking device - Google Patents

Abstract

The application discloses a cutter balancing and anti-pricking device, which comprises an orthopedic plate for extruding and correcting the appearance of a plate, and an extrusion roller set which is arranged on the upstream side of the orthopedic plate and is used for extruding and drawing the plate to the direction of a plate cutting mechanism; and a cutting plate mechanism disposed on a downstream side of the orthopedic plate and used for cutting the plate. According to the application, the gypsum board is corrected and shaped again by arranging the squeeze roller group and the correction board, and the corrected board is cut by the board cutting mechanism, so that the situation that the cutting work is difficult to carry out due to the soft bending of the board is avoided, the continuous production is ensured, and the equipment fault shutdown condition is reduced.

Description

Cutter balancing and anti-pricking device

Technical Field

The application relates to the technical field of gypsum board production, in particular to a cutter balancing and anti-pricking device.

Background

In gypsum board assembly line production, need cut stack processing to shaping panel, in shaping gypsum board transportation, the panel setting time in the transportation is not enough and is led to the board soft easily, and the soft gypsum board of board is crooked to warp easily, hardly gets into appointed cutting position accurately, causes cutting equipment to shut down easily.

In the prior art, most of gypsum board cutting systems are provided with cutters at the top of a transmission mechanism, and cut boards on the transmission mechanism, so that the boards are easy to collapse when in soft deformation, thereby causing cutting failure or unqualified board cutting quality, and being unfavorable for stable and efficient continuous operation of the system.

Therefore, if the plastic correction can be carried out on the soft board in the transmission process, and the cutting requirement is met, the shutdown times can be greatly reduced, and the operation stability of the gypsum board is improved.

Disclosure of Invention

The application aims to provide a cutter balancing and anti-pricking device, which solves the technical problem that a plate slitting system cannot operate continuously and efficiently due to bending deformation of a plate caused by plate softness in the prior art.

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

a balanced anti-stick device for a cutter, comprising:

the straightening plate is used for extruding and straightening the appearance of the plate;

the extrusion roller set is arranged on one side of the upper stream of the correcting plate and is used for extruding and drawing the plate in the direction of the plate cutting mechanism;

and the plate cutting mechanism is arranged on one side of the downstream of the straightening plate and is used for cutting the plate.

As a preferable mode of the application, the squeeze roller group comprises a movable bracket and a group of squeeze rollers arranged on the movable bracket, the plate is squeezed and pulled out from the squeeze rollers, and the squeeze rollers pull the plate to the direction of the plate cutting mechanism; the two squeeze rollers are arranged in parallel up and down, and the installation direction of the squeeze rollers is perpendicular to the conveying direction of the plates.

As a preferred aspect of the present application, the orthopedic plate includes a U-shaped plate and a bottom plate, the plate is extruded between the U-shaped plate and the bottom plate, and the U-shaped plate is used as a template for plasticity of the plate;

the U-shaped plate and the bottom plate are respectively connected with a driving mechanism, the driving mechanism drives the U-shaped plate and the bottom plate to be close to or far away from each other so as to buckle and squeeze the plate to mould, the thickness of the plate is matched with the height of the U-shaped plate, and the width of the plate is matched with the length of the U-shaped plate.

As a preferable scheme of the application, the plate cutting mechanism comprises a supporting disc and a rotating roller for driving the supporting disc to rotate, wherein a cutter and a balance block are arranged on the supporting disc, and the balance block is used for balancing dynamic balance when the cutter moves along with the supporting disc in a spiral manner;

the rotary roller is installed on the movable support through a group of support frames, the support disc is coaxially sleeved on the rotary roller and rotates along with the rotary roller, and the balance weight and the cutter are oppositely arranged on the support disc.

As a preferable scheme of the application, the supporting disc comprises a disc body, a fixing groove is formed in the disc body, the balance weight is arranged at one end part in the fixing groove, the cutter is arranged at the other end part in the fixing groove through a fixing piece, the fixing piece can slide along the fixing groove under the action of external force, the fixing piece moves and drives the cutter to move in the fixing groove, and the cutter cuts the plate once every time the rotary roller rotates.

As a preferable scheme of the application, the fixing piece comprises a moving block, the cutter is inserted into the moving block, sliding grooves are formed in two sides of the moving block, sliding channels are formed in two sides of the fixing groove, the sliding grooves are clamped and installed in the sliding channels, and the moving block drives the cutter to move along the sliding channels.

As a preferable scheme of the application, the two sides of the movable support are provided with the conveying belts, the movable support is connected and arranged on the side frames of the conveying belts, and when the plate material is conveyed on the movable support to correct the appearance, the height of the plate material is kept consistent with the horizontal height on the conveying belts at the two sides.

As a preferable scheme of the application, the movable support comprises a supporting rod, a mounting frame and a limit adjusting structure, wherein the supporting rod is erected and mounted on the mounting frame, the rotating roller frame is fixed on the mounting frame, the driving mechanisms of the U-shaped plate and the bottom plate are respectively mounted on the supporting rod, the extruding roller frame is mounted on the mounting frame, and the limit adjusting structure is mounted on the mounting frame and is used for adjusting the distance between the upper extruding roller and the lower extruding roller.

As a preferable scheme of the application, the limiting and adjusting structure comprises a limiting block and a moving column arranged on the limiting block, wherein the limiting block is slidably arranged on the mounting frame, one end of the moving column is connected to the limiting block, the other end of the moving column is arranged on the mounting frame in a penetrating manner, a locking block is arranged on the mounting frame, the end part of the extruding roller is arranged on the limiting block, the moving column can move in the vertical direction under the action of external force, and the moving column synchronously drives the extruding roller to move through the limiting block, and the locking block is used for limiting and locking the moving column.

As a preferable scheme of the application, two groups of plate cutting mechanisms are arranged, the two groups of plate cutting mechanisms are arranged up and down in parallel, the plate material passes through the space between the two groups of plate cutting mechanisms, the two groups of cutters of the upper and lower groups of plate cutting mechanisms synchronously act, and the upper and lower groups of cutters simultaneously cut the plate material after rotating for a circle.

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

according to the application, the gypsum board is corrected and shaped again by arranging the squeeze roller group and the correction board, and the corrected board is cut by the board cutting mechanism, so that the situation that the cutting work is difficult to carry out due to the soft bending of the board is avoided, the continuous production is ensured, and the equipment fault shutdown condition is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

FIG. 1 is a schematic diagram of the overall structure of a device according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a cutting plate mechanism according to an embodiment of the present application;

fig. 3 is a schematic diagram of a limit adjustment structure according to an embodiment of the present application;

FIG. 4 is a schematic view of an orthopedic plate according to an embodiment of the present application;

FIG. 5 is a schematic diagram illustrating connection between a fixing member and a fixing groove according to an embodiment of the present application;

reference numerals in the drawings are respectively as follows:

1-a squeeze roll set; 2-correcting plates; 3-a plate cutting mechanism; 4-a conveyor belt;

11-a movable bracket; 12-squeeze rolls; a 21-U-shaped plate; 22-a bottom plate;

31-a support plate; 32-rotating the roller; 33-a cutter; 34-balancing weight; 35-supporting frames;

111-supporting rods; 112-mounting frame; 113-a limit adjustment structure;

311-a tray body; 312-a fixed slot; 313-fixing member; 314-a sliding channel;

1131-limiting block; 1132-moving a column; 1133-locking blocks; 3101—move blocks; 3102-sliding notch.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The application is mainly suitable for the technical field of gypsum board production, in particular for the forming, conveying and cutting process of a gypsum board production line, corrects and shapes the gypsum board again by arranging the squeeze roller group 1 and the correction plate 2, and cuts the corrected board by the board cutting mechanism 3, so that the problem that the board enters cutting equipment to cause soft bending of the gypsum board due to insufficient solidification, cannot enter a specified cutting position accurately, and therefore, the cutting work is difficult to carry out, the continuous production is ensured, and the fault shutdown condition of the equipment is reduced.

As shown in fig. 1, the application provides a cutter balancing and anti-pricking device, which comprises an orthopedic plate 2 for extrusion correction of the shape of a plate, and a squeeze roller set 1 which is arranged on the upstream side of the orthopedic plate 2 and is used for extrusion traction of the plate to the direction of a plate cutting mechanism 3; and a plate cutting mechanism 3 provided on the downstream side of the orthopedic plate 2 for cutting the plate.

According to the embodiment, the problem that the plate cannot be cut efficiently due to the fact that the plate is subjected to correction before being cut to solve the plate softness problem is solved, and the conventional plate conveying mode is improved due to the fact that the plate is required to be cut after correction, namely, the position of the plate is cut correspondingly on the existing long conveying belt, the extruding roller set 1, the correcting plate 2 and the plate cutting mechanism 3 are arranged at the position of the cutting position, and after correction and cutting, the cut plate is continuously conveyed on the conveying belt.

Specifically, the squeeze roll set 1 includes a movable support 11 and a set of squeeze rolls 12 mounted on the movable support 11, the sheet material is squeezed and pulled out from the squeeze rolls 12, and the squeeze rolls 12 draw the sheet material to the direction in which the sheet cutting mechanism 3 is located, the two squeeze rolls 12 are arranged side by side up and down, and the mounting direction of the squeeze rolls 12 is perpendicular to the sheet material conveying direction.

The conveying belts 4 are arranged on two sides of the movable support 11, the movable support 11 is connected and installed on a frame of the conveying belt 4, and when the plate is conveyed on the movable support 11 to correct the appearance, the height of the plate is kept consistent with the horizontal height of the conveying belts 4 on two sides so as to keep the plate to be conveyed smoothly on the conveying belt and the disconnected correcting and cutting part.

The sheet material is generally in a regular rectangular structure, so the present embodiment corrects the collapsed soft deformed sheet material into a regular rectangular shape, and for this purpose, the orthopedic plate 2 in the present embodiment includes a U-shaped plate 21 and a bottom plate 22, the sheet material is extruded between the U-shaped plate 21 and the bottom plate 22, and the U-shaped plate is used as a template for sheet material plasticity; the U-shaped plate 21 and the bottom plate 22 are respectively connected with a driving mechanism, the driving mechanism drives the U-shaped plate 21 and the bottom plate 22 to be close to or far away from each other so as to buckle and squeeze the plate for shaping, and as shown in fig. 4, the thickness of the plate is matched with the height of the U-shaped plate 21, the width of the plate is matched with the length of the U-shaped plate 21, and the driving mechanism can adopt the existing cylinder driving mode so as to conveniently move back and forth.

The extrusion roller set 1 extrudes and pulls the board that deforms to the board can continue to transmit down, and extrusion pull-out board itself is an extrusion moulding to the board, after being preliminary extruded by the extrusion roller set 1, the board is reshaped by orthopedic board 2, and carries cutting board mechanism 3 after moulding to cut.

Specifically, the plate cutting mechanism 3 includes a supporting disc 31 and a rotating roller 32 for driving the supporting disc 31 to rotate, a cutter 33 and a balance block 34 are arranged on the supporting disc 31, and the balance block 34 is used for balancing dynamic balance when the cutter 33 moves along with the supporting disc 31 in a rotating way; as shown in fig. 1 and 2, the rotary roller 32 is mounted on the movable bracket 11 through a set of supporting frames 35, the supporting plate 31 is coaxially sleeved on the rotary roller 32 and rotates along with the rotary roller 32, and the balance weight 34 and the cutter 33 are oppositely arranged on the supporting plate 31.

The plate is dynamically transported and cut according to the moving specification and size, so that the cutter needs to cut at intervals, in this embodiment, the problem is solved by using a dynamic rotation mode of the cutter, the interval waiting time, the number of turns of the cutter is proportional to the number of cuts, for example, in this embodiment, the cutter 33 cuts the plate once every turn. And because the cutter 33 is mounted on the supporting disc 31 and rotates along with the supporting disc 31, if the cutter 33 is directly mounted on one side of the supporting disc 31 in the rotating process, the supporting disc 31 is easy to cause mass unbalance due to the cutter in the rotating process, so that the cutter is unstable in vibration and easy to deform the section of the plate, and the plate is disqualified, therefore, the balance block 34 is mounted on the supporting disc 31 to balance the influence of the weight of the cutter 33, dynamically balance the cutter 33 and keep the stability of the cutter 33.

The bottom of the supporting disc 31 can be contacted with the plate or not, when the supporting disc is contacted with the plate, the pressure between the supporting disc 31 and the plate cannot be larger than the force for deforming the plate, and the distance between the supporting disc 31 and the plate is not contacted with the plate, so that the length of a cutter exposed out of the supporting disc 31 is smaller than the length of the cutter, and the normal cutting of the plate is ensured, and the shape of the plate is not unnecessarily changed.

The embodiment provides a specific implementation manner of the supporting disc: the supporting disc 31 comprises a disc body 311, a fixing groove 312 is formed in the disc body 311, as shown in fig. 5, a balance block 34 is arranged at one end part in the fixing groove 312, a cutter 33 is arranged at the other end part in the fixing groove 312 through a fixing piece 313, the fixing piece 313 can slide along the fixing groove 312 under the action of external force, the fixing piece 313 moves and drives the cutter 33 to move in the fixing groove 312, so that the cutter 33 can retract into the disc body 311, the cutter 33 is prevented from being cut by accident, the cutter 33 is cut once every one turn of the rotating roller 32, the balance block 34 is arranged opposite to the cutter 33, and the mass of the balance block 34 is equal to the sum of the structural masses of one side of the disc body 311, on which the cutter 33 is arranged, so as to achieve dynamic balance.

In order to drive the cutter 33 to move, in this embodiment, the fixing member 313 includes a moving block 3101, the cutter 33 is inserted into the moving block 3101, as shown in fig. 5, sliding slots 3102 are formed on two sides of the moving block 3101, sliding channels 314 are formed on two sides of the fixing slot 312, the sliding slots 3102 are installed in the sliding channels 314 in a clamping manner, and the moving block 3101 drives the cutter 33 to move along the sliding channels 314.

In order to cut more efficiently, the two sets of cutting plate mechanisms 3 are arranged in the application, the two sets of cutting plate mechanisms 3 are arranged up and down in parallel, a plate passes through the two sets of cutting plate mechanisms 3, the two sets of cutters 33 of the upper and lower sets of cutting plate mechanisms 3 synchronously act, the upper and lower sets of cutters 33 simultaneously cut the plate after rotating for one circle, the two sets of cutters 33 rotate clockwise, and the initial rotation phase is different by one hundred eighty degrees, so that the two sets of cutters 33 can cut from two sides of the width of the plate towards the middle direction, and the cutting efficiency is higher.

Wherein, movable support 11 includes bracing piece 111, mounting bracket 112 and spacing adjustment structure 113, and the bracing piece 111 erects to be installed on mounting bracket 112, and rotatory roller 32 erects to be fixed on mounting bracket 112, and U-shaped board 21 and bottom plate 22's actuating mechanism is installing respectively on bracing piece 111, and squeeze roller 12 erects to be installed on mounting bracket 112, and spacing adjustment structure 113 installs on mounting bracket 112 for be used for adjusting the distance between two upper and lower squeeze rollers 12, thereby adjust panel and receive the extrusion degree.

In detail, as shown in fig. 1 and 3, the limiting adjustment structure 113 includes a limiting block 1131 and a moving column 1132 installed on the limiting block 1131, the limiting block 1131 is slidably installed on the mounting frame 112, one end of the moving column 1132 is connected to the limiting block 1131, the other end of the moving column 1132 is installed on the mounting frame 112 in a penetrating manner, a locking block 1133 is provided on the mounting frame 112, the end of the squeeze roller 12 is installed on the limiting block 1131, the moving column 1132 is vertically installed longitudinally, the moving column 1132 can move in a vertical direction under the action of an external force, the moving column 1132 synchronously drives the squeeze roller 12 through the limiting block 1131, the locking block 1133 performs limiting locking on the moving column 1132, the locking block 1133 adopts a common buckle fastening manner, and the buckle locking fixing manner has a plurality of and is widely used, so long as the lock can be unlocked when the movement can be realized.

The above embodiments are only exemplary embodiments of the present application and are not intended to limit the present application, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this application will occur to those skilled in the art, and are intended to be within the spirit and scope of the application.

Claims (4)

1. A balanced anti-prick device for a cutter, comprising:

the straightening plate (2) is used for carrying out extrusion straightening on the appearance of the plate;

the extrusion roller set (1) is arranged on one side of the upstream of the orthopedic plate (2), and the extrusion roller set (1) is used for extruding and drawing the plate in the direction of the plate cutting mechanism (3);

a cutting plate mechanism (3) arranged on the downstream side of the orthopedic plate (2), wherein the cutting plate mechanism (3) is used for cutting the plate;

the extrusion roller set (1) comprises a movable bracket (11) and a set of extrusion rollers (12) arranged on the movable bracket (11), wherein the plate is extruded and pulled out from the extrusion rollers (12), and the extrusion rollers (12) draw the plate to the direction of the plate cutting mechanism (3); the two squeeze rollers (12) are arranged in parallel up and down, and the installation direction of the squeeze rollers (12) is perpendicular to the plate conveying direction;

the orthopedic plate (2) comprises a U-shaped plate (21) and a bottom plate (22), wherein the plate is extruded between the U-shaped plate (21) and the bottom plate (22), and the U-shaped plate is used as a template for plasticity of the plate;

the U-shaped plate (21) and the bottom plate (22) are respectively connected with a driving mechanism, the driving mechanism drives the U-shaped plate (21) and the bottom plate (22) to be close to or far away from each other so as to buckle and squeeze the plate for shaping, the thickness of the plate is matched with the height of the U-shaped plate (21), and the width of the plate is matched with the length of the U-shaped plate (21);

the cutting plate mechanism (3) comprises a supporting plate (31) and a rotating roller (32) for driving the supporting plate (31) to rotate, a cutter (33) and a balance block (34) are arranged on the supporting plate (31), and the balance block (34) is used for balancing dynamic balance when the cutter (33) rotates along with the supporting plate (31);

the rotary roller (32) is arranged on the movable bracket (11) through a group of supporting frames (35), the supporting disc (31) is coaxially sleeved on the rotary roller (32) and rotates along with the rotary roller (32), and the balance block (34) and the cutter (33) are oppositely arranged on the supporting disc (31);

the supporting disc (31) comprises a disc body (311), a fixed groove (312) is formed in the disc body (311), the balance block (34) is installed at one end part in the fixed groove (312), the cutter (33) is installed at the other end part in the fixed groove (312) through a fixing piece (313), the fixing piece (313) can slide along the fixed groove (312) under the action of external force, the fixing piece (313) moves and drives the cutter (33) to move in the fixed groove (312), and the rotary roller (32) rotates once for cutting the sheet material by the cutter (33);

the fixing piece (313) comprises a moving block (3101), the cutter (33) is inserted into the moving block (3101), sliding grooves (3102) are formed in two sides of the moving block (3101), sliding channels (314) are formed in two sides of the fixing groove (312), the sliding grooves (3102) are installed in the sliding channels (314) in a clamping mode, and the moving block (3101) drives the cutter (33) to move along the sliding channels (314);

the cutting plate mechanism (3) is provided with two groups, and two groups the cutting plate mechanism (3) is arranged side by side from top to bottom, panel is followed two groups cut between the plate mechanism (3) two groups about cut the plate mechanism (3) two groups cutter (33) synchronization action, and two groups cutter (33) are rotatory a week back and are cut simultaneously panel, and two groups cutter (33) all rotate clockwise, and initial rotation phase difference one hundred eighty degrees, two groups cutter (33) can follow panel width both sides and cut to middle direction in opposite directions.

2. A balanced puncture preventing device for a cutting knife according to claim 1, wherein,

the two sides of the movable support (11) are provided with conveying belts (4), the movable support (11) is connected and installed on a side frame of the conveying belts (4), and when the plate is conveyed on the movable support (11) to correct the appearance, the height of the plate is consistent with the horizontal height of the conveying belts (4) on the two sides.

3. A balanced puncture preventing device for a cutting knife according to claim 1, wherein,

the movable support (11) comprises a support rod (111), a mounting frame (112) and a limiting and adjusting structure (113), wherein the support rod (111) is erected and installed on the mounting frame (112), the rotating roller (32) is erected and fixed on the mounting frame (112), the U-shaped plate (21) and the driving mechanism of the bottom plate (22) are respectively installed on the support rod (111), the extruding roller (12) is erected and installed on the mounting frame (112), and the limiting and adjusting structure (113) is installed on the mounting frame (112) and used for adjusting the distance between the upper extruding roller and the lower extruding roller (12).

4. A balanced puncture preventing device for cutters according to claim 3, wherein,

limiting and adjusting structure (113) is including stopper (1131) and install remove post (1132) on stopper (1131), stopper (1131) slidable mounting is in on mounting bracket (112), the one end of removing post (1132) is connected on stopper (1131), the other end of removing post (1132) is installed and is run through and set up on mounting bracket (112), and be provided with locking piece (1133) on mounting bracket (112), the tip of squeeze roll (12) is installed on stopper (1131), remove post (1132) can be under the external force effect at vertical direction removal, just remove post (1132) through stopper (1131) synchronous drive squeeze roll (12) removal, locking piece (1133) is right remove post (1132) and is spacing locking.