CN115592766B - Production equipment for pressing beam belt of edge bonding machine - Google Patents

Abstract

The application relates to the technical field related to edge bonding machines and discloses production equipment for a beam pressing belt of an edge bonding machine, which comprises a base band, wherein the base band is trapezoidal, a layer of rope framework is arranged in the base band close to the lower bottom of the base band, the number of the base bands is 2, the lower bottoms are respectively attached to two ends of the bottom surface of a holding layer, two layers of supporting layers are arranged at intervals in the holding layer, the upper end surface of the holding layer is attached to a wear-resistant layer, and the upper end surface of the wear-resistant layer is provided with surface patterns, and the production equipment has the following advantages and effects: the press beam belt produced by the device has the advantages of strong running stability, good wear resistance, small damage to workpieces and remarkable edge sealing effect.

Description

Production equipment for pressing beam belt of edge bonding machine

Technical Field

The application relates to the technical field of edge bonding machines, in particular to production equipment for a press beam belt of an edge bonding machine.

Background

The edge banding machine is an indispensable core process of the plate furniture production line, and along with the automation and the intellectualization of woodworking machinery, the automatic edge banding machine is generated, and the automatic edge banding machine is mainly used for the edge banding of the plate material of the plate furniture.

The press beam belt is an important transmission tool in the edge bonding machine, because the feeding speed of the automatic edge bonding machine and the size of a workpiece are improved, the conventional press beam belt is poor in transmission quality in use, short in service life, difficult to ensure the flatness of the whole belt, easy to shake in work and influence the wear resistance of the belt, so that the press beam belt of the edge bonding machine is required to run more stably and is better in wear resistance, all layers of the press beam belt are required to be pressed when the press beam belt is produced, and meanwhile the cut width and safety are required to be paid attention to when the press beam belt is cut, so that the damage to the press beam belt is reduced.

Disclosure of Invention

The application aims to provide production equipment for a press beam belt of an edge bonding machine, which has the effects of strong operation stability, good wear resistance, small damage to workpieces and remarkable edge bonding effect.

The technical aim of the application is realized by the following technical scheme: including the baseband, the baseband is trapezoidal, is close to the baseband is provided with one deck cotton rope skeleton in the baseband of the bottom, baseband quantity is 2 and the bottom laminating respectively in holding layer bottom surface both ends down, hold in the intra-layer interval and be provided with two-layer supporting layer, it is provided with the wearing layer to hold the laminating of layer up end, the wearing layer up end is provided with the surface decorative pattern.

By adopting the technical scheme, the base band is the basis of the material pressing band and can receive power to enable the band body to move, and the rope framework in the base band can enable the band body to be free from deviation and torsion and smooth in movement; in addition, the supporting layer with certain static rigidity and elasticity can be effectively combined with the base band and other layers, does not delaminate or crack, and the supporting band body reduces deformation in movement, so that the supporting band body is completely adhered to a plate workpiece, and the surface abrasion of a belt is reduced; the holding layer has lower hardness and higher elasticity, when the flatness of the materials is different, the holding layer is properly deformed under pressure, so that the materials can be effectively held and less slip is generated, the edge sealing processing is facilitated, and after the pressure is released, the high elasticity enables the belt body to recover the original state; the wear-resistant layer is made of rubber-plastic alloy and other composite materials, has higher friction coefficient and lower abrasion, can be effectively attached to materials to reduce sliding, and has low abrasion, so that the service life is prolonged.

The application is further provided with: the belt type automatic feeding device is characterized by comprising a frame, wherein a driving roller and a driven roller are rotatably connected to the frame, and a beam pressing belt is sleeved on the driving roller and the driven roller, and is characterized in that: the device comprises a rack, a driving roll, a pressing assembly, a first chuck, a second chuck, a driving plate, a rotating plate, clamping plates, a clamping plate, a first chuck and a second chuck, wherein the pressing assembly is arranged on the rack and is close to the driving roll, the pressing assembly is used for pressing a pressing beam belt, the supporting frame is fixed on the rack and is parallel to the upper side of the pressing beam belt, the supporting layer rotating roll and the holding layer rotating roll are respectively connected in a rotating mode in the supporting frame, the clamping plates are respectively connected to the two opposite sides of the rotating plate in a rotating mode, the clamping plates can be respectively clamped with the two chucks, the first chuck and the second chuck are respectively connected through a switching driving assembly, the driving shaft is fixedly connected with an output shaft of the first motor, two ends of the driving shaft are respectively sleeved with a driven shaft and a second driven shaft which are rotatably connected to the rack, chucks are respectively fixed at two ends of the first driven shaft and the second driven shaft, a driving plate is connected to the second chuck in a sliding mode between the chucks, and the two opposite sides of the rotating plate are respectively fixed with the clamping plates.

Through the technical scheme, the supporting layers in the beam pressing belt are distributed in the holding layer, the supporting layers are separately processed, when the supporting layers are needed to be partially pressed on the base band, the driving plate is pushed, the clamping plate on one side of the driving plate is clamped in the chuck on one end edge of the driven shaft, when the motor drives the key shaft to rotate anticlockwise, the key shaft drives the rotating plate clamped with the key shaft to rotate, the rotating plate rotates in the driving plate, the clamping plates fixed on two sides of the rotating plate can drive the driven shaft to rotate when rotating, the driven shaft and the supporting layer rotating roller are respectively driven to rotate through the belt pulley assembly, the supporting layer rotating roller can be driven to rotate through the driven shaft, the supporting layer winding on the supporting layer rotating roller is gradually put on the beam pressing belt, after the supporting layer feeding is finished, the motor is stopped, the driving plate is pushed reversely, the clamping plate on the other side of the rotating plate is clamped in the chuck on two end edges of the rotating shaft, the holding layer rotating roller is driven to rotate anticlockwise through the belt pulley assembly, the holding layer winding is also rotated, the holding layer winding is gradually put on the beam pressing belt, the driving roller can be singly driven by the belt pulley assembly, the driving layer rotating can be realized through the motor, the driving layer rotating structure can be independently realized, the driving layer rotating can be independently or the driving belt can be reduced, and the multiple-layer driving structure can be realized, and the requirement can be met only by using one-by singly and can be reduced.

The application is further provided with: the vulcanizing device is characterized by further comprising a dividing assembly, the dividing assembly comprises a door template fixed on the vulcanizing device, a dividing rotating shaft I, a dividing rotating shaft II and a dividing rotating shaft III are arranged in the door template in parallel, the adjacent dividing rotating shaft I, the dividing rotating shaft II and the dividing rotating shaft III are connected through a driving pulley and a driven pulley, one end of the dividing rotating shaft II is fixedly connected with an output shaft of a motor II, a cam I, a cam II and a cam III are respectively and rotatably connected to the dividing rotating shaft I, the dividing rotating shaft II and the dividing rotating shaft III, one protruding side of the cam I, the cam II and the cam III takes the dividing rotating shaft I, the dividing rotating shaft II and the dividing rotating shaft III as circle centers, the angle that the protruding arc limit corresponds on cam one, cam two and the cam three reduces by a multiple, cam one, cam two and cam three's circumference side is provided with the recess, movable joint has the actuating lever in the recess, the actuating lever runs through the connecting plate perpendicularly, and in the centre the connecting plate both ends rotate and are connected with the turning block, sliding connection has the connecting rod in the turning block, two in the turning block the connecting rod other end respectively sliding connection in the turning block in the connecting plate both ends that the both sides kept away from mutually, every the connecting plate up end is fixed with branch, every branch runs through the bar groove on the diaphragm of door template, articulated on the branch have cut apart the blade, cut apart the blade and be fan-shaped and one end activity joint in the draw-in groove on actuating lever top.

The application is further provided with: the three-dimensional connecting plate is characterized in that 3, 2 and 1 flat keys are sequentially arranged on the first division rotating shaft, the second division rotating shaft and the third division rotating shaft, the flat keys on the same division rotating shaft are arranged at equal intervals, the flat keys on the 3 division rotating shafts close to the second motor are parallel to the side plates of the door plate and are positioned on the same vertical plane, a screw rod is connected above the first division rotating shaft in a rotating mode, and the screw rod penetrates through a connecting block on the side edge of the connecting plate.

By adopting the technical scheme, when the press beam belt is divided after multi-layer pressing is completed, the first cam, the second cam and the third cam are positioned on a flat key close to the second motor and positioned on the same plane, and as the angles corresponding to the convex arc edges on the first cam, the second cam and the third cam are reduced in multiple, preferably 180 DEG, 120 DEG and 60 DEG, when the rotation angle of the second motor is between 180 DEG and 240 DEG, only the first cam rotates to jack up the driving rod, when the rotation angle of the second motor is between 240 DEG and 300 DEG, the first cam and the second cam jack up the driving rod, when the rotation angle of the second motor is between 300 DEG and 360 DEG, the first cam, the second cam and the third cam are jacked up by the driving rod matched with the first cam, the second cam and the third cam, and the convex side of the first cam respectively take the split rotating shaft, the second cam and the split rotating shaft as circle centers, so that the heights of the driving rod are the same when the driving rod is jacked up; the first dividing rotating shaft, the second dividing rotating shaft and the dividing rotating shaft are perpendicular to the conveying direction of the press beam belt, and when the press beam belt is narrow and only needs to be divided once, only the first cam is required to be rotated to enable the dividing blade to jack up for dividing the press beam belt; when the pressing beam belt is wider and needs to be divided twice, a motor III is started, the motor III drives a screw rod to rotate, the screw rod drives a cam I to slide on a dividing rotating shaft I, the cam I slides to a flat key at the middle part of the dividing rotating shaft I to be connected with the flat key, then the motor II is started, the dividing rotating shaft I, the dividing rotating shaft II and the dividing rotating shaft III rotate to 240-300 degrees, at the moment, the cam I and the cam II jack up driving rods, and dividing blades on the cam I and the cam II are jacked up to divide the pressing beam belt into three parts; when the beam pressing belt is wider and needs to be divided for three times, the motor III is started, the motor III drives the screw rod to rotate, the screw rod drives the cam I to slide on the dividing rotating shaft I, when the cam I slides to a flat key farthest from the starting point, the connecting plate on the cam I drives the connecting plate on the cam II to slide to the other flat key on the dividing rotating shaft II to be connected, the cam III is positioned in place and is not moved, at the moment, the three cams are positioned on the same straight line, then the motor II is started again, the motor II drives the dividing rotating shaft I, the dividing rotating shaft II and the dividing rotating shaft III to rotate to 300-360 degrees, the three driving rods jack up, and the dividing blades on the cam I, the cam II and the cam III are jacked up to divide the beam pressing belt into four parts.

The application is further provided with: the novel roller is characterized in that a plurality of supporting layer rolls are arranged on the supporting layer rotating roller, a first gear is fixed at the end edge of the supporting layer rotating roller, a second gear is externally meshed on a supporting frame on one side edge of the first gear, a third gear is externally meshed on one side edge of the second gear, the third gear is coaxially fixed with a belt pulley connected with a belt pulley assembly on a driven shaft, the third gear is coaxially fixed with a driving gear, the number of the driving gears is 2 and respectively externally meshed with an arc-shaped rack, the circle centers corresponding to the arc-shaped racks face the driving gears, two arc-shaped racks are connected with supporting rods, a plurality of limiting blocks are arranged on the supporting rods at equal intervals, the limiting blocks are isosceles trapezoid, two waist edges are gradually close to the supporting layer rotating roller, and the two arc-shaped racks are slidably connected in arc-shaped sliding grooves on the supporting frame.

Through adopting above-mentioned technical scheme, when driven shaft one anticlockwise rotates, the belt pulley that is connected through belt pulley assembly with driven shaft one drives the three anticlockwise rotations of gear, gear two clockwise rotations this moment, gear one anticlockwise rotations drives the supporting layer and changes the roller anticlockwise rotation, be convenient for rotate the supporting layer roll on the supporting layer and unload, when gear three anticlockwise rotations, coaxial fixed drive gear anticlockwise rotation, with drive gear engagement's arc rack is promoted towards supporting layer changes roller motion, the stopper that sets up on the bracing piece between the arc rack constantly is close to and deep into between the adjacent supporting layer roll this moment, owing to the stopper is isosceles trapezoid and two waist limit are close to gradually towards supporting layer roller, along with Hu Ding rack gradually moves to the extreme point department, the stopper just blocks between adjacent supporting layer roll, guarantee that the distance between the adjacent supporting layer roll falls into the same on the compensating beam belt, and then guarantee that the supporting layer roll falls into the relative position on the compensating beam belt keeps unanimous, guarantee beam belt finished product quality, the setting of arc slot can be spacing for the arc rack, guarantee the accuracy of slip direction.

The application is further provided with: the support frame of supporting layer commentaries on classics roller and gripping layer commentaries on classics roller side is fixed with the U type frame, two the equal sliding lifting of U type frame bottom surface has the pre-compaction roller, two the pre-compaction roller end limit joint respectively in two wedge inclined planes, two the wedge is right angled triangle and inclined plane setting in opposite directions, two the wedge is fixed in on the slide, slide sliding connection is in the extension board, be fixed with the drive cylinder on the extension board, the piston rod of drive cylinder and the wedge fixed connection of one side.

Through adopting above-mentioned technical scheme, through setting up the pre-compression roller, when the backing layer is rolled up or is held the layer and rotate the unloading to the pressure beam belt, drive actuating cylinder drive slide is slided on the extension board, when the actuating cylinder extension, the pre-compression roller that is close to the layer of holding is rolled up is lifted at the in-process that the wedge moved left, meanwhile, the pre-compression roller that is close to the backing layer is rolled up descends, can rotate with pressure beam belt upper surface contact, the pressure beam belt further drives the backing layer and rolls up or hold the roll and rotate when the drive roller rotates, when the piston rod of actuating cylinder shrink, be applicable to and carry out the pre-compression spacing when holding the layer and roll unloading, two pre-compression rollers can in good time with backing layer roll up or hold the layer and roll cooperation pre-compression, carry out preliminary spacing when backing layer roll or hold the layer roll and remove to the pressfitting roller below, avoid backing layer roll or hold the layer roll and remove and cause the pressfitting uneven.

The application is further provided with: the U-shaped frame on the side of the supporting layer rotating roller is connected with guide rods, a plurality of guide plates are fixed on the guide rods at equal intervals, and each supporting layer roll is located right above the adjacent guide plates.

Through adopting above-mentioned technical scheme, the setting of deflector on the guide bar for every supporting layer is rolled up and can accurately fall into between the adjacent deflector after rotating, further falls into the position that presses on the roof beam belt to the supporting layer and carries out spacingly, guarantees that the distance of adjacent supporting layer is rolled up the same, further guarantees the finished product quality.

The application is further provided with: the pressing assembly comprises a pressing roller positioned right above the driving roller, the pressing roller is rotationally connected in the supporting plate, a pressing cylinder is fixed on the frame above the supporting plate, and the pressing cylinder drives the pressing roller to be close to the driving roller.

Through adopting above-mentioned technical scheme, after supporting layer is rolled up or is held the layer and rolls up the unloading, along with the rotation of pressure beam belt, with supporting layer roll up or hold layer and roll up and carry to the initiative roller below, start the pressfitting cylinder, pressfitting cylinder drive pressfitting roller acts on supporting layer roll up or holds layer and rolls up and form multilayer structure, and the effort of pressfitting cylinder carries out preliminary compaction between each level, forms a whole preparation for follow-up vulcanization.

The application is further provided with: the support frame above the key shaft is fixedly provided with a slide bar, the slide bar penetrates through the driving plate, and the top end of the driving plate is fixedly provided with an operating ball.

Through adopting above-mentioned technical scheme, act on the operation ball, promote the drive plate and slide on the slide bar, realize the cardboard of drive plate both sides face respectively with pivot one with pivot two epaxial chuck's joint.

The application is further provided with: the air exhaust device comprises a frame, and is characterized by further comprising an air exhaust assembly, wherein the air exhaust assembly is arranged on the frame close to the driven roller and comprises an air exhaust needle, the air exhaust needle is fixed on the bottom surface of a flat plate, the upper end of the flat plate is fixed on a piston rod of an air exhaust cylinder, and the air exhaust cylinder is fixed on a door-shaped frame.

Through adopting above-mentioned technical scheme, through setting up exhaust assembly, use the exhaust to carry out the exhaust to the pressure beam belt before carrying out the vulcanization, effectively promote the inseparable connection between each layer after the vulcanization.

The beneficial effects of the application are as follows:

1. the press beam belt product is larger in contact surface with a workpiece and is stable in conveying through structural optimization and improvement. The pressing beam is prevented from crushing the workpiece, the surface of the workpiece is protected, the pressing is tighter, the edge sealing effect is more remarkable, and the stable noise is low.

2. Through setting up the pressfitting subassembly, after supporting layer is rolled up or is held layer and is rolled up the unloading, along with the rotation of pressure beam belt, is rolled up supporting layer or is held layer and is rolled up and carry to the drive roll below, starts the pressfitting cylinder, and pressfitting cylinder drive pressfitting roller acts on supporting layer and rolls up or holds layer and roll up and form multilayer structure, and the effort of pressfitting cylinder is preliminary to compressing tightly between each level, forms a whole preparation for follow-up vulcanization.

3. Through setting up and cutting apart the group price, the width of the pressure roof beam belt that can cut apart as required carries out the quantity of reasonable selection and cuts apart blade work, avoids appearing the pressure roof beam belt too short but cuts apart the accident that the blade exposes and causes unexpected injury, improves the security when cutting apart.

4. By arranging the exhaust component, exhaust is carried out on the press beam belt before vulcanization by using the exhaust, the tight connection between the vulcanized layers is effectively improved,

drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of a press beam belt of the present application.

Fig. 2 is a schematic diagram of the structure of the assembly of the production equipment and the press beam belt in the present application.

Fig. 3 is a partially enlarged schematic view of the structure of fig. 2.

Fig. 4 is a schematic view of the structure of the support layer roll in the present application.

Fig. 5 is a schematic diagram of the structure of the exchanging driving assembly in the present application.

FIG. 6 is a schematic illustration of the effect of the nip rolls and the nip beam belt of the present application.

Fig. 7 is a schematic view of a split assembly cutting press beam belt of the present application.

Fig. 8 is a bottom view of fig. 7.

Fig. 9 is a schematic view of a segmentation assembly in accordance with the present application.

In the figure, 1, a baseband; 2. a cord frame; 3. a grip layer; 4. a support layer; 5. a wear-resistant layer; 6. a frame; 7. a drive roll; 8. driven roller; 9. a beam pressing belt; 10. a support frame; 11. a support layer roll; 12. holding the layer roll; 13. a support layer rotating roller; 14. holding the laminating roller; 15. exchanging the driving component; 151. a key shaft; 152. a first motor; 153. a driven shaft I; 154. a driven shaft II; 155. a chuck; 156. a driving plate; 157. a clamping plate; 16. a segmentation component; 1601. a door template; 1602. dividing a first rotating shaft; 1603. dividing a second rotating shaft; 1604. dividing a rotating shaft III; 1605. a second motor; 1606. a first cam; 1607. a second cam; 1608. a cam III; 1609. a groove; 1610. a driving rod; 1611. a connecting plate; 1612. a rotating block; 1613. a connecting rod; 1614. a support rod; 1615. a bar-shaped groove; 1616. a dividing blade; 17. a vulcanizing device; 18. a flat key; 19. a screw rod; 20. a door-shaped frame; 21. a first gear; 22. a second gear; 23. a third gear; 24. a drive gear; 25. an arc-shaped rack; 26. a support rod; 27. a limiting block; 28. an arc chute; 29. a U-shaped frame; 30. a pre-press roller; 31. wedge blocks; 32. a slide plate; 33. a support plate; 34. a driving cylinder; 35. a guide rod; 36. a guide plate; 37. a pressing roller; 38. a pressing cylinder; 39. a slide bar; 40. an operation ball; 41. an exhaust needle; 42. and (5) exhausting the air cylinder.

Detailed Description

The technical scheme of the present application will be clearly and completely described in connection with specific embodiments. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. 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 fall within the scope of the application.

The embodiment of the application relates to a beam pressing belt for an edge bonding machine and production equipment thereof, as shown in fig. 1-9, the beam pressing belt comprises a base band 1, wherein the base band 1 is trapezoidal, a layer of rope framework 2 is arranged in the base band 1 close to the lower bottom of the base band 1, the number of the base bands 1 is 2, the lower bottoms are respectively attached to two ends of the bottom surface of a holding layer 3, two layers of supporting layers 4 are arranged in the holding layer 3 at intervals, the upper end surface of the holding layer 3 is attached to a wear-resistant layer 5, the upper end surface of the wear-resistant layer 5 is provided with surface patterns, the base band 1 is a base of a material pressing belt, and can accept power to enable a belt body to move; in addition, the supporting layer 4 with certain static rigidity and elasticity can be effectively combined with the base band 1 and other layers, does not delaminate or crack, and supports the band body in motion to reduce deformation, so that the band body is completely attached to a plate workpiece, and the surface abrasion of a belt is reduced; the holding layer 3 has lower hardness and higher elasticity, when the flatness of the materials is different, the materials are properly deformed under pressure, so that the materials can be effectively held and less slip is generated, the edge sealing processing is convenient, and after the pressure is released, the high elasticity enables the belt body to recover the original state; the wear-resistant layer 5 is made of rubber-plastic alloy and other composite materials, has higher friction coefficient and lower abrasion, can be effectively attached to materials to reduce sliding, and has low abrasion, so that the service life is prolonged.

Further, including frame 6, the rotation is connected with drive roll 7 and driven voller 8 on the frame 6, and the cover is equipped with pressure beam belt 9, its characterized in that on drive roll 7 and the driven voller 8: a pressing component for pressing the pressing beam belt 9 is arranged on the frame 6 close to the driving roller 7, a supporting frame 10 is fixed on the frame 6 parallel to the upper side of the pressing beam belt 9, a supporting layer rotating roller 13 and a holding layer rotating roller 14 for placing the supporting layer roll 11 and the holding layer roll 12 are respectively and rotatably connected in the supporting frame 10, the supporting layer rotating roller 13 and the holding layer rotating roller 14 are connected through a change driving component 15, the change driving component 15 comprises a key shaft 151, the key shaft 151 is fixedly connected with an output shaft of a first motor 152, two ends of the key shaft 151 are respectively sleeved with a first driven shaft 153 and a second driven shaft 154 which are rotatably connected on the frame 6, two ends of the first driven shaft 153 and two driven shafts 154 which are close to each other are respectively fixed with chucks 155, a driving plate 156 is slidably connected on the key shaft 151 between the chucks 155, a rotating plate is rotatably connected on the key shaft 151, the two opposite sides of the rotating plate are respectively fixed with clamping plates 157, the two clamping plates 157 can be respectively clamped with two chucks 155, the two ends of a driven shaft I153 and a driven shaft II 154 drive a support layer rotating roller 13 and a holding layer rotating roller 14 to rotate through belt pulley assemblies, the support layer 4 in the pressing beam belt 9 is distributed in the holding layer 3 and is separately processed, when the support layer 4 is needed to be partially pressed on a base band 1, a driving plate 156 is pushed, the clamping plates 157 on one side of the driving plate 156 are clamped in the chucks 155 on the end edge of the driven shaft I153, when a motor I152 drives a key shaft 151 to rotate anticlockwise, the key shaft 151 drives the rotating plate clamped with the key shaft I153 to rotate, the rotating plate rotates in the driving plate 156, so that the clamping plates 157 fixed on the two sides of the rotating plate can drive the driven shaft I153 to rotate when the driven shaft I153 and the support layer rotating roller 13 rotate through the belt pulley assemblies, the first 153 of driven shaft rotates and can drive the backing layer to rotate roller 13, will support layer roll 11 on the backing layer to rotate roller 13 progressively puts to the roof beam belt 9, after the material loading of backing layer 4 is accomplished, pause motor one 152 earlier, then reverse promotion drive plate 156 for the cardboard 157 joint of the rotor plate opposite side is in the chuck 155 on pivot both ends limit, it rotates to drive through belt pulley assembly and hold layer roll 14, make and hold layer roll 12 anticlockwise rotation, will hold layer roll 12 and progressively put on roof beam belt 9 equally, through setting up change drive assembly 15, can realize using a motor can separate drive backing layer roll 13 or hold layer roll 14's function, not only can satisfy the work requirement that roof beam belt 9 multilayer structure accomplished in proper order, and can save and use a plurality of motors one 152 independent drive, effectively reduce cost.

Further, the vulcanizing device further comprises a dividing assembly 16, the dividing assembly 16 comprises a door template 1601 fixed on the vulcanizing device 17, the door template 1601 is provided with a first dividing rotating shaft 1602, a second dividing rotating shaft 1603 and a third dividing rotating shaft 1604 in parallel, the first dividing rotating shaft 1602, the second dividing rotating shaft 1603 and the third dividing rotating shaft 1604 which are adjacent are connected through a driving pulley and a driven pulley, one end of the second dividing rotating shaft 1603 is fixedly connected with an output shaft of the second motor 1605, the first dividing rotating shaft 1602, the second dividing rotating shaft 1603 and the third dividing rotating shaft 1604 are respectively connected with a first cam 1606, a second cam 1607 and a third cam 1608 in a rotating manner, one side of the first cam 1606, the second cam 1607 and the third cam 1608 are respectively protruded by taking the first dividing rotating shaft 1602, the second dividing rotating shaft 1603 and the third dividing rotating shaft 1604 as circle centers, the angles corresponding to the arc edges of the protrusions on the first cam 1606, the second cam 1607 and the third cam 1608 are reduced in a multiple way, grooves 1609 are formed in the circumference sides of the first cam 1606, a driving rod 1610 is movably clamped in the grooves 1609, the driving rod 1610 vertically penetrates through a connecting plate 1, a middle connecting plate 1 is rotatably connected with a second cam 1607 and the third cam 1605 respectively, one end of the sliding plate 1614 is connected with two ends of the sliding plates 1614 in the sliding plates 1614 is connected with two ends of the sliding plates 1614, and two ends of the sliding plates 1614 are respectively connected with two ends of the sliding plates 1614 are respectively, and the sliding plates 1614 are connected.

Further, the first division rotating shaft 1602, the second division rotating shaft 1603 and the third division rotating shaft 1604 are sequentially provided with 3, 2 and 1 flat keys 18, the flat keys 18 on the same division rotating shaft are equidistantly arranged, the flat keys 18 on the 3 division rotating shafts close to the second motor 1605 are parallel to the side plates of the door template 1601 and are positioned on the same vertical plane, the screw rod 19 is rotationally connected above the first division rotating shaft 1602, the screw rod 19 penetrates through the connecting block on the side edge of the connecting plate 1611, when the press beam belt 9 is pressed and divided in a multi-layer manner, the first cam 1606, the second cam 1607 and the third cam 1608 are positioned on the flat keys 18 close to the second motor 1605 and are positioned on the same plane, and the angles corresponding to the arc edges of the protrusions on the first cam 1606, the second cam 1607 and the third cam 1608 are reduced in multiple times, preferably 180 °, 120 ° and 60 °, so that only the first cam 1606 rotates to jack up the driving lever 1610 when the angle of rotation of the second motor 1605 is between 180 ° and 240 °, the first cam 1606 and the second cam 1607 jack up the driving lever 1610 when the angle of rotation of the second motor 1605 is between 240 ° and 300 °, the driving lever 1610 with which the first cam 1606, the second cam 1607 and the third cam 1608 are engaged is jacked up when the angle of rotation of the second motor 1605 is between 300 ° and 360 °, and since the protruding sides of the first cam 1606, the second cam 1607 and the third cam 1608 are centered on the first split shaft 1602, the second split shaft 1603 and the third split shaft 1604, respectively, the heights of the driving levers 1610 when jacked up are the same; the first division rotating shaft 1602, the second division rotating shaft 1603 and the division rotating shaft are kept perpendicular to the transportation direction of the press beam belt 9, when the press beam belt 9 is narrow and only needs to be divided once, only the first cam 1606 needs to be rotated to enable the division blade 1616 to jack up and divide the press beam belt 9; when the pressing beam belt 9 is wider and needs to be divided twice, a third motor is started, the third motor drives a screw rod 19 to rotate, the screw rod 19 drives a first cam 1606 to slide on a first division rotating shaft 1602, the first cam 1606 slides to a flat key 18 in the middle of the first division rotating shaft 1602 to be connected by a key, then a second motor 1605 is started, the first division rotating shaft 1602, a second division rotating shaft 1603 and the third division rotating shaft 1604 rotate to 240-300 ℃, at the moment, the first cam 1606 and the second cam 1607 jack up the driving rod 1610, and a dividing blade 1616 on the first cam 1606 and the second cam 1607 are jacked up to divide the pressing beam belt 9 into three parts; when the pressing beam belt 9 is wider and needs to be divided three times, the motor III is started, the motor III drives the screw rod 19 to rotate, the screw rod 19 drives the cam I1606 to slide on the dividing rotating shaft I1602, when the cam I1606 slides to the flat key 18 farthest from the starting point, the connecting plate 1611 on the cam I1606 drives the connecting plate 1611 on the cam II 1607 to slide to the other flat key 18 on the dividing rotating shaft II 1603 to be connected, the cam III 1608 is positioned in place and is not moved, at the moment, the three cams are positioned on the same straight line, then the motor II 1605 is started again, the motor II 1605 drives the dividing rotating shaft I1602, the dividing rotating shaft II 1603 and the dividing rotating shaft III 1604 to rotate to 300-360 degrees, the three driving rods 1610 jack up, the dividing blades 1616 on the cam I1606, the cam II 1607 and the cam III 1608 are all jacked up to divide the pressing beam belt 9 into four parts, the number of dividing blades 1616 can be reasonably selected according to the width of the pressing beam belt 9 to be divided according to the requirement, the accident that the cutting blade 6 is exposed is avoided, and the accident is avoided.

Further, a plurality of supporting layer rolls 11 are arranged on the supporting layer rotating roller 13, a first gear 21 is fixed on the end edge of the supporting layer rotating roller 13, a second gear 22 is externally meshed on the supporting frame 10 on the side edge of the first gear 21, a third gear 23 is externally meshed on the side edge of the second gear 22, the third gear 23 is coaxially fixed with a belt pulley in a belt pulley assembly connected with a driven shaft 153, the third gear 23 is also coaxially fixed with a driving gear 24, the number of the driving gears 24 is 2 and respectively externally meshed with arc racks 25, the circle centers corresponding to the arc racks 25 face the driving gears 24, the end edges of the two arc racks 25 are connected with supporting rods 26, a plurality of limiting blocks 27 are arranged on the supporting rods 26 at equal intervals, the limiting blocks 27 are in isosceles trapezoid shapes, the two waist edges are gradually close to the supporting layer rotating roller 13, the two arc racks 25 are slidably connected in arc sliding grooves 28 on the supporting frame 10, when the driven shaft I153 rotates anticlockwise, the belt pulley connected with the driven shaft I153 through the belt pulley assembly drives the gear III 23 to rotate anticlockwise, at the moment, the gear II 22 rotates clockwise, the gear I21 rotates anticlockwise to drive the support layer rotating roller 13 to rotate anticlockwise, the support layer roll 11 on the support layer rotating roller 13 is convenient to rotate and discharge, when the gear III 23 rotates anticlockwise, the coaxially fixed driving gear 24 rotates anticlockwise, the arc-shaped racks 25 meshed with the driving gear 24 are pushed to move towards the support layer rotating roller 13, at the moment, the limiting blocks 27 arranged on the supporting rods 26 between the arc-shaped racks 25 are continuously close to and extend into the adjacent support layer rolls 11, as the limiting blocks 27 are isosceles trapezoids and the two waist edges gradually approach towards the support layer rotating roller 13, and as the Hu Ding racks move gradually to the end points, the limiting blocks 27 are just clamped between the adjacent support layer rolls 11, the distance between the adjacent supporting layer rolls 11 is guaranteed to be the same, and then the supporting layer rolls 11 fall into the relative position on the pressure beam belt 9 and keep unanimous, the quality of the finished product of the pressure beam belt 9 is guaranteed, the setting of arc-shaped arc grooves can be spacing for the arc-shaped rack 25, and the accuracy of the sliding direction is guaranteed.

Further, the supporting frames 10 on the side edges of the supporting layer rotating roller 13 and the holding layer rotating roller 14 are fixedly provided with the U-shaped frames 29, the bottom surfaces of the two U-shaped frames 29 are respectively slidably lifted with the pre-pressing roller 30, the end edges of the two pre-pressing rollers 30 are respectively clamped on the inclined surfaces of the two wedge-shaped blocks 31, the two wedge-shaped blocks 31 are in right-angled triangle and are oppositely arranged, the two wedge-shaped blocks 31 are fixedly arranged on the sliding plate 32, the sliding plate 32 is slidably connected in the supporting plate 33, the supporting plate 33 is fixedly provided with the driving cylinder 34, a piston rod of the driving cylinder 34 is fixedly connected with the wedge-shaped block 31 on one side, the driving cylinder 34 is arranged through the pre-pressing roller 30, when the supporting layer roll 11 or the holding layer roll 12 rotates and is fed down to the pressing beam belt 9, the driving cylinder 34 drives the sliding plate 32 to slide on the supporting plate 33, the pre-pressing roller 30 close to the holding layer roll 12 is lifted in the process of left moving of the wedge-shaped blocks 31, and simultaneously, the pre-pressing roller 30 close to the supporting layer roll 11 can rotate in contact with the upper surface of the beam belt 9, the driving roll 7 further drives the supporting layer 11 or the holding layer 11 to rotate, and the pressing roll 11 or the pressing roll 12 can not rotate to be matched with the supporting layer 11 or the pressing layer 12 when the supporting layer is matched with the supporting layer 11 or the pressing layer 12 to be prevented from moving to the pre-pressing layer 11 or the pressing layer.

Further, be connected with the guide bar 35 on the U type frame 29 of supporting layer roller 13 side, equidistant a plurality of deflector 36 of being fixed with on the guide bar 35, every supporting layer is rolled up 11 and is located adjacent deflector 36 directly over, the setting of deflector 36 on the guide bar 35 for every supporting layer is rolled up 11 and can accurately fall into between the adjacent deflector 36 after rotating, further carries out spacingly to the position that supporting layer is rolled up 11 and falls into on the pressure beam belt 9, guarantees that the distance of adjacent supporting layer is rolled up 11 the same, further guarantees the finished product quality.

Further, the pressing assembly comprises a pressing roller 37 located right above the driving roller 7, the pressing roller 37 is rotatably connected in the supporting plate, a pressing cylinder 38 is fixed on the frame 6 above the supporting plate, the pressing cylinder 38 drives the pressing roller 37 to be close to the driving roller 7, after the supporting layer roll 11 or the holding layer roll 12 is fed, the supporting layer roll 11 or the holding layer roll 12 is conveyed to the lower portion of the driving roller 7 along with rotation of the pressing beam belt 9, the pressing cylinder 38 is started, the pressing cylinder 38 drives the pressing roller 37 to act on the supporting layer roll 11 or the holding layer roll 12 to form a multi-layer structure, and the acting force of the pressing cylinder 38 performs preliminary pressing on each layer to prepare for subsequent vulcanization to form an integral body.

Further, a sliding rod 39 is fixed on the support frame 10 above the key shaft 151, the sliding rod 39 penetrates through the driving plate 156, the top end of the driving plate 156 is fixed with the operating ball 40, the operating ball 40 acts on the operating ball to push the driving plate 156 to slide on the sliding rod 39, and clamping plates 157 on two sides of the driving plate 156 are respectively clamped with the chuck 155 on the first rotating shaft and the second rotating shaft.

Further, still include exhaust assembly, exhaust assembly is close to driven roller 8 and sets up on frame 6, and exhaust assembly includes exhaust needle 41, and exhaust needle 41 is fixed in dull and stereotyped bottom surface, and dull and stereotyped upper end is fixed in on the piston rod of exhaust cylinder 42, and exhaust cylinder 42 is fixed in on the door frame 20, through setting up exhaust assembly, uses exhaust needle 41 to exhaust the pressure beam belt 9 before carrying out the vulcanization, effectively promotes the inseparable connection between each layer after the vulcanization.

A press beam belt 9 for edge banding machine and the working principle of its production equipment:

the base band 1 is sleeved on the driving roller 7 and the driven roller 8, as the supporting layer 4 in the beam pressing belt 9 is distributed in the holding layer 3, the two are separately processed, a part of the supporting layer is firstly pressed, when the supporting layer 4 is partially pressed on the base band 1, the driving plate 156 is pushed, the clamping plate 157 on one side of the driving plate 156 is clamped in the chuck 155 on the end edge of the driven shaft 153, when the motor 152 drives the key shaft 151 to rotate anticlockwise, the key shaft 151 drives the rotating plate clamped with the key shaft 151 to rotate, the rotating plate rotates in the driving plate 156, the clamping plates 157 fixed on two sides of the rotating plate can drive the driven shaft 153 to rotate when the rotating plate rotates, the driven shaft 153 and the supporting layer rotating roller 13 can drive the supporting layer rotating roller 13 to rotate through the belt pulley assembly, the supporting layer 11 on the supporting layer rotating roller 13 is gradually put on the beam pressing belt 9, after the supporting layer 4 is completely fed, the motor 152 is firstly suspended, then the driving plate 156 is reversely pushed, the clamping plate 157 on the other side of the rotating plate is clamped in the chuck 155 on the end edge of the belt pulley assembly, the motor 14 can drive the rotating shaft 14 to rotate through the motor, the holding layer 14 can be independently realized, the holding layer 12 can be realized, the holding layer can be separated by the driving roller 12 through the single holding layer, the holding layer can be realized, the holding layer can be reduced in a multiple layers, and the cost can be reduced, the holding layer can be realized, and the holding layer can be independently by the holding layer by the driving roller is only by the one or the holding layer by the driving roller, and the holding layer by the driving roller is by the one and the holding layer by the one and the one can be the cost can be used.

Then, the air discharging needle 41 is driven to start punching and discharging, vulcanization is started after the discharging is completed, and the belt 9 is divided according to the width of the press beam after the vulcanization is completed.

Claims (9)

1. A production facility for press beam belt of bag sealer, its characterized in that: including frame (6), pressing assembly, change drive assembly (15), segmentation subassembly (16) and vulcanizer (17) have set gradually on frame (6), rotate on frame (6) and be connected with drive roll (7) and driven voller (8), the cover is equipped with pressure beam belt (9) on drive roll (7) and driven voller (8), is close to drive roll (7) be provided with the pressing assembly who is used for pressing pressure beam belt (9) on frame (6), be parallel to pressure beam belt (9) top be fixed with support frame (10) on frame (6), rotate respectively in support frame (10) and be connected with support layer commentaries on classics roller (13) and the layer commentaries on classics roller (14) of holding of being used for placing support layer roll (11) and holding layer roll (12), be connected through drive assembly (15) between support layer commentaries on classics roller (13) and the layer commentaries on classics roller (14) of holding, drive assembly (15) are including key shaft (151), key shaft (151) and motor output shaft (152) are fixed connection on top frame (6) are fixed with support frame (153) on both ends are connected with two driven shaft (153) and two ends (153) are close to one and two opposite ends (153) are fixed respectively, a driving plate (156) is connected to a key shaft (151) between the chucks (155) in a sliding manner, a rotating plate is connected to the driving plate (156) in a rotating manner, the rotating plate is connected to the key shaft (151) in a sliding manner, clamping plates (157) are fixed to two opposite side surfaces of the rotating plate, the two clamping plates (157) can be respectively clamped with the two chucks (155), and two ends of a driven shaft I (153) and a driven shaft II (154) drive a supporting layer rotating roller (13) and a holding layer rotating roller (14) to rotate through belt pulley assemblies;

the press beam belt that is used for above-mentioned production facility of press beam belt of bag sealer to produce includes:

baseband (1), baseband (1) are trapezoidal, be close to baseband (1) lower the baseband (1) is interior to be provided with one deck cotton rope skeleton (2), baseband (1) quantity is 2 and lower the end laminating respectively in gripping layer (3) bottom surface both ends, the interval is provided with two-layer supporting layer (4) in gripping layer (3), gripping layer (3) up end laminating is provided with wearing layer (5), wearing layer (5) up end is provided with surface decorative pattern.

2. The production equipment of the press beam belt for the edge banding machine according to claim 1, wherein: the dividing assembly (16) comprises a door plate (1601) fixed on the vulcanizing device (17), the door plate (1601) is provided with a first dividing rotating shaft (1602), a second dividing rotating shaft (1603) and a third dividing rotating shaft (1604) in parallel, the adjacent first dividing rotating shaft (1602), the second dividing rotating shaft (1603) and the third dividing rotating shaft (1604) are connected through a driving pulley and a driven pulley, one end of the second dividing rotating shaft (1603) is fixedly connected with an output shaft of the second motor (1605), the first dividing rotating shaft (1602), the second dividing rotating shaft (1603) and the third dividing rotating shaft (1604) are respectively connected with a first cam (1606), a second cam (1607) and a third cam (1608) in a rotating manner, one protruding side of the first cam (1606), the second cam (1607) and the third cam (1608) takes the first dividing rotating shaft (1603) and the third dividing rotating shaft (1604) as circle centers, the angles corresponding to the edges of the protrusions on the first cam (1606), the second cam (1607) and the third cam (1605) are respectively reduced, the first cam (1607) and the third cam (1609) are respectively connected with a driving groove (1609) in a perpendicular manner, the middle connecting plate (1611) both ends rotate and are connected with rotating block (1612), sliding connection has connecting rod (1613) in rotating block (1612), two connecting rod (1613) other end difference sliding connection is in rotating block (1612) in connecting plate (1611) both ends that the both sides kept away from mutually, every connecting plate (1611) up end is fixed with branch (1614), every bar (1614) run through bar groove (1615) on the diaphragm of door template (1601), articulated on branch (1614) have cut apart blade (1616), cut apart blade (1616) are fan-shaped and one end activity joint in the draw-in groove on actuating lever (1610) top.

3. The production equipment of the press beam belt for the edge banding machine according to claim 2, wherein: the utility model discloses a motor, including motor (1605), partition pivot (1602), partition pivot (1603) and partition pivot (1604) are last to have set gradually 3, 2 and 1 parallel key (18), same partition pivot is epaxial parallel the same vertical plane of curb plate parallel position of parallel key (18) and door template (1601) of 3 partition pivots, partition pivot (1602) top rotation is connected with lead screw (19), the connecting block of connecting plate (1611) side is run through to lead screw (19).

4. A production facility for a press beam belt of an edge banding machine according to claim 3, wherein: be provided with a plurality of supporting layer on supporting layer commentaries on classics roller (13) and roll up (11), supporting layer commentaries on classics roller (13) end limit is fixed with gear one (21), the external engagement has gear two (22) on support frame (10) of gear one (21) side, gear two (22) side external engagement has gear three (23), gear three (23) are fixed with the belt pulley coaxial in the belt pulley assembly of being connected on driven shaft one (153), gear three (23) still with drive gear (24) coaxial, drive gear (24) quantity is 2 and respectively with arc rack (25) external engagement, the centre of a circle that arc rack (25) corresponds is towards drive gear (24), two arc rack (25) end limit is connected with bracing piece (26), equidistant on bracing piece (26) are provided with a plurality of stopper (27), stopper (27) are isosceles trapezoid and two waists are close gradually towards supporting layer commentaries on classics roller (13), two in arc rack (25) sliding connection in arc rack (28) on support frame (10).

5. The production equipment for the press beam belt of the edge banding machine according to claim 4, wherein: the support layer rotating roller (13) and the support frame (10) holding the side edge of the layer rotating roller (14) are fixedly provided with U-shaped frames (29), two pre-pressing rollers (30) are respectively arranged on the bottom surfaces of the U-shaped frames (29) in a sliding and lifting mode, the end edges of the pre-pressing rollers (30) are respectively clamped on the inclined surfaces of two wedge-shaped blocks (31), the two wedge-shaped blocks (31) are in right-angled triangle shapes and are oppositely arranged on the inclined surfaces, the two wedge-shaped blocks (31) are fixed on a sliding plate (32), the sliding plate (32) is connected in a supporting plate (33) in a sliding mode, a driving air cylinder (34) is fixed on the supporting plate (33), and a piston rod of the driving air cylinder (34) is fixedly connected with the wedge-shaped blocks (31) on one side.

6. The production equipment for the press beam belt of the edge banding machine according to claim 5, wherein: the U-shaped frame (29) on the side edge of the support layer rotating roller (13) is connected with guide rods (35), a plurality of guide plates (36) are fixed on the guide rods (35) at equal intervals, and each support layer roll (11) is located right above the adjacent guide plates (36).

7. The production equipment for the press beam belt of the edge banding machine according to claim 6, wherein: the pressing assembly comprises a pressing roller (37) located right above the driving roller (7), the pressing roller (37) is rotationally connected in the supporting plate, a pressing cylinder (38) is fixed on the frame (6) above the supporting plate, and the pressing cylinder (38) drives the pressing roller (37) to be close to the driving roller (7).

8. The production equipment for the press beam belt of the edge banding machine according to claim 7, wherein: a sliding rod (39) is fixed on the support frame (10) above the key shaft (151), the sliding rod (39) penetrates through the driving plate (156), and an operating ball (40) is fixed at the top end of the driving plate (156).

9. The production equipment for the press beam belt of the edge banding machine according to claim 8, wherein: the automatic air discharging device is characterized by further comprising an air discharging assembly, wherein the air discharging assembly is arranged on the frame (6) close to the driven roller (8), the air discharging assembly comprises an air discharging needle (41), the air discharging needle (41) is fixed on the bottom surface of the flat plate, the upper end of the flat plate is fixed on a piston rod of an air discharging cylinder (42), and the air discharging cylinder (42) is fixed on the door-shaped frame (20).