CN219238410U - High-efficiency plate arranging machine for plates - Google Patents

Abstract

The utility model discloses a high-efficiency board arranging machine for boards, which relates to the technical field of plywood and comprises a device main body, wherein a K-shaped bracket is fixedly arranged at the bottom end of the device main body, a conveying belt is arranged in the device main body, an adjusting component is arranged on one side of the conveying belt, a feeding component is arranged on the ground on the inner side of a vertical board, a driving component is arranged on the end face of the vertical board, and a board arranging component is arranged on the other side of the device main body. According to the utility model, the feeding assembly, the adjusting assembly, the driving assembly, the gluing assembly and the plate arranging assembly are arranged, so that the gluing assembly and the plate arranging machine are combined into a whole, the time for transporting the plates between the devices can be reduced, unnecessary troubles generated during transportation can be avoided to influence the production of the plywood, the production efficiency is greatly improved, meanwhile, the feeding and discharging of the whole plate arranging machine are carried out in an automatic mode, the part needing manual intervention is very few, and the degree of automation is high.

Description

High-efficiency plate arranging machine for plates

Technical Field

The utility model relates to the technical field of plywood arranging machines, in particular to a high-efficiency board arranging machine for boards.

Background

The plywood is made by cutting wood sections into single boards or cutting wood Fang Bao into Cheng Baomu, and then gluing the single boards with adhesive to form three or more layers of plate-like materials, wherein the single boards with odd layers are generally glued with the fiber directions of the single boards with adjacent layers being perpendicular to each other; the plywood is one of common materials for furniture and is one of three artificial boards. A group of veneers are typically assembled and glued perpendicular to each other in the grain direction of adjacent layers, typically with the skins and inner layers symmetrically disposed on either side of the center layer or core. The plate blank formed by longitudinally and transversely matching the glued single plates according to the wood grain direction is pressed under the condition of heating or non-heating; the number of layers is generally odd, the number of layers is even, and the difference of physical and mechanical properties in the longitudinal and transverse directions is small; therefore, in the production process of the plywood, a hot press is required to process the plywood.

At present, before hot press forming of plywood, operations such as gluing and board arrangement are needed to be carried out on cut plywood, because gluing and board arrangement are operated separately, the problem that adhesive surface adhesion impurities exist in the transportation process of glued plywood, in addition, transportation of glued boards is time-consuming, so that overall production efficiency of the plywood is considered to be influenced, further, after the glue contacts air, moisture in the glue gradually evaporates, so that the adhesive quality of the glue transported to the board arrangement machine is inferior to that of the plywood just coated with the glue, and therefore the board arrangement quality of the plywood is affected.

Disclosure of Invention

Based on this, the present utility model aims to provide a high-efficiency board arranging machine for boards, so as to solve the technical problems mentioned in the background.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a trigger is arranged to panel high efficiency, includes the device main part, the bottom mounting of device main part is provided with K type support, and the internally mounted of device main part has the multiunit conveyer belt, every group the interval of conveyer belt is the same, and every group the conveyer belt all is connected with external driving source, one side of conveyer belt is provided with adjusting part, and adjusting part is including fixing subaerial riser, the inboard of riser is located subaerial material loading subassembly, and the terminal surface of riser is provided with drive assembly, the opposite side of device main part still is provided with the riser subassembly.

Through adopting above-mentioned technical scheme for glue spreading assembly and row board machine unite two into one, both can reduce the time of panel transportation between the device, also can avoid the unnecessary trouble that produces during transportation and influence the production of plywood, very big improvement production efficiency to the whole production of plywood, simultaneously, the feeding of whole row board machine has all adopted automatic mode to go on with the ejection of compact, and the part that the manual work needs to intervene is very few, and the degree of automation of whole device is high.

The utility model is further characterized in that a chute is formed in the end face of the vertical plate, adjusting rods extending towards the direction close to the conveying belt are connected to the inner wall of the chute in a sliding mode, the number of the adjusting rods is matched with that of the conveying belt, each group of adjusting rods is arranged above one side of the corresponding conveying belt, driving wheels with driving motors are arranged on the inner side end face of the adjusting rods, the driving wheels are symmetrically arranged on the inner side end face of the adjusting rods, and grinding wheels with the rotation directions opposite to the feeding direction of the plywood are arranged among the groups of driving wheels.

Through adopting above-mentioned technical scheme, realize the spacing effect of centre gripping to panel and release spacing to can accomplish the feed process to the panel, and can also realize the removal to panel outer wall burr in the feed process of panel

The feeding assembly comprises a groove formed in the ground, a hydraulic cylinder is arranged in the groove, the output end of the hydraulic cylinder is fixedly connected with a bearing plate, the horizontal height of the end face of the bearing plate is higher than the ground in a reset state, a transverse plate extending towards the direction close to the vertical plate is fixedly connected to the outer wall of one side of the bearing plate, and tooth wall plates extending downwards are fixedly arranged on the outer walls of two sides of the transverse plate.

Through adopting above-mentioned technical scheme, the batch layering material loading of panel has been realized to the material loading subassembly to make every panel of group all can remove to on its conveyer belt that corresponds.

The utility model further provides that the driving assembly comprises a guide groove arranged on the end face of the vertical plate, a stress plate which extends to the upper side of the transverse plate outwards is arranged in the guide groove, a limiting block which is connected with the inner wall of the guide groove in a sliding way is fixedly connected to the outer wall of the stress plate, the limiting block extends to the inner side of the vertical plate and is fixedly connected with driving tooth wall plates on the outer wall of the limiting block, one side of each driving tooth wall plate is connected with a driven gear in a meshed way, the driven gears are connected with the inner wall of the vertical plate through unidirectional bearings, the end face of each driven gear is fixedly connected with a winding drum, the other end of each winding drum is connected with the inner wall of the vertical plate through a torsion spring shaft, a pull rope which is connected with the outer wall of a sliding groove is also fixedly connected with a reset spring which is arranged on the inner wall of the vertical plate, the driven gears, the winding drum, the pull rope and the reset spring jointly form driving units which are used for driving the sliding groove to reciprocate, the number of the driving units are matched with the adjusting rods, each driving unit is arranged on one side of the corresponding sliding groove in an adaptive manner, the driving unit adopts the same tooth wall plate as the driving tooth wall plates, the driving units are arranged on the top of the corresponding driving units, and the driving units are arranged in the driving units except for the driving pulley blocks, and the driving units are arranged on the driving units.

Through adopting above-mentioned technical scheme, drive assembly is the control of adjusting the subassembly for adjusting the subassembly and can possess the function of centre gripping panel feeding.

The utility model further provides that the gluing component comprises a conveyor belt which is arranged in the device main body and is positioned above the conveyor belt, the outer wall of the conveyor belt is connected with a first cross rod which extends to the inner wall of the device main body, the first cross rod is in sliding connection with the inner wall of the device main body, the first cross rod is also connected with an external driving source, a scraping plate is fixed on the end face of the bottom end of the conveyor belt, an auxiliary box is arranged on one side of the scraping plate, one end of the auxiliary box is provided with a material injection pipe, one end of the material injection pipe extends to the other end of the auxiliary box and extends outwards, the bottom end of the auxiliary box is provided with a plurality of groups of discharging pipes which are distributed at equal intervals, the inside of the auxiliary box is provided with a glue cavity fixedly connected with the inner wall of the auxiliary box, the outer wall of the glue cavity is provided with a material outlet which extends to the solution cavity in the glue cavity, the outer wall of the glue cavity is also sleeved with a sealing ring which is in sliding connection with the outer wall of the glue cavity, the outer wall of the sealing ring is fixedly connected with the end of the discharging pipe, and the impeller is arranged below the discharging pipe.

Through adopting above-mentioned technical scheme for the rubber coating subassembly has possessed the function of self-adaptation adjustment glue discharge volume, thereby carry out the rubberizing to the unsmooth face of panel terminal surface, the control glue water yield that can be fine, thereby the panel terminal surface after making the rubber coating accomplish can avoid unsmooth problem.

The utility model further provides that the row plate assembly comprises a second cross rod, the number of the second cross rod is matched with that of the conveying belts, the distance between the second cross rod and the distance between the conveying belts are the same, a discharging wheel with a driving motor is installed on the inner side end face of the second cross rod, a mounting plate for installing the discharging wheel is arranged at one end of the discharging wheel in the cross rod, an adjusting gear is arranged at the inner side end part of the uppermost cross rod, a clamping plate is fixedly sleeved in the adjusting gear, driving cylinders are installed at the end parts of the mounting plate and the clamping plate, an adjusting gear wallboard fixed on the outer wall of the device body is arranged in the vertical moving direction of the adjusting gear, a limiting plate is arranged at one end of the second cross rod, a moving groove is formed in the end face of the limiting plate, a screw rod is installed in the moving groove, a sliding block in threaded fit with the outer wall of the screw rod is sleeved on the outer wall of the screw rod, the sliding block is in limited sliding connection with the inner wall of the moving groove, and the driving motor is installed at the top end of the screw rod.

By adopting the technical scheme, the plate arranging assembly achieves the effect of immediately integrating the plates after the gluing is finished, so that the adhesion of the glue is protected to the greatest extent, and the plates of a plurality of groups are arranged to have higher stability.

In summary, the utility model has the following advantages:

1. according to the utility model, the feeding assembly, the adjusting assembly and the driving assembly are arranged, firstly, three groups of plates are placed on the bearing plate through external equipment, then the hydraulic cylinder is started, the bearing plate is pushed to move upwards by the hydraulic cylinder, so that the bearing plate drives the plates to move upwards, in the upward moving process, the transverse plate positioned on one side of the bearing plate can move in the guide groove after being moved to be in contact with the stressed plate, the stressed plate is extruded to move in the guide groove, the limiting block can assist the movement of the stressed plate, the limiting block can drive the driving tooth wall plate to move, so that the driven gear rotates under the action of the driving tooth wall plate, the driven gear rotates to drive the winding drum to rotate, the winding drum drives the pull rope to move, the movement of the pull rope drives the adjusting rod to move in the direction close to the plates in the chute, when the hydraulic cylinder moves to the maximum stroke, then the driving wheel is driven to clamp and limit the plates, the plates move towards the end face of the conveying belt, in the process, the reversely rotating grinding wheel is started, the burr removing effect of the outer wall of the plates can be achieved, the automatic feeding quality is improved, the subsequent plate discharging quality is improved, the subsequent hydraulic material can be further moved down on the conveying belt, and the remaining material conveying efficiency is improved;

2. the utility model sets up the glue spreading component and the board arranging component, after the board enters the device main body through the conveyer belt, the board can move to the lower part of the conveyer belt, at the moment, the operation of the conveyer belt is stopped, the driving motor is started, the driving motor drives the conveyer belt to move downwards through the cross rod until the scraping board moves to the end face of the board to be attached, at the moment, the bottom end of the discharging pipe is just attached to the end face of the board, further, the conveyer belt and the external glue supplying device are started, the scraping board on the outer wall can be driven to move after the conveyer belt is started, the dust on the end face of the board can be removed by the scraping board on the front, at the same time, the discharging pipe can scatter glue on the end face of the board, glue spreading on the board is realized by the discharging pipe along with the movement of the conveyer belt, and in the process of the movement of the discharging pipe, when the discharging pipe encounters the concave-convex surface of the end face of the board, the discharging pipe can generate corresponding rotation, the rotation of the discharging pipe can directly influence the size of the discharging hole and then influence the discharging amount, so the discharging pipe can realize the self-adaptive discharging amount control effect on the concave-convex surface, the effect of the concave-convex surface on the end surface of the plate after gluing is realized, namely the leveling effect on the end surface of the plate is realized, the scraping plate behind the discharging pipe can play the uniform coating effect on glue, after the gluing operation is finished, the plate can move to the inner side of the cross rod through the conveying belt, the driving cylinder is started, the driving cylinder can push the discharging wheel to move so as to realize the clamping limit on the plate, the plate is separated from the conveying belt and is completely positioned between the cross rods under the action of the discharging wheel, the second driving cylinder is started later, the clamping plate is moved to the outer wall of the plate, the discharging wheel is controlled to move in the direction away from the plate, the plate can be stably suspended under the action of the clamping plate at the moment, and the discharging wheel is further, starting driving motor, driving motor can drive the lead screw and rotate, can impel the slider of its outer wall to remove after the lead screw rotates, the removal of slider can drive the horizontal pole and remove, make the horizontal pole drive panel downwardly moving, be located the diaphragm of top at the in-process of removing, the adjusting gear of splint outer wall can remove to with adjusting tooth wallboard contact, consequently, under adjusting tooth wallboard's effect, adjusting gear can take place to rotate, and then drive panel rotation, make panel rubberized one side down, after two sets of panels contact, can adhere under the effect of glue, the panel after the adhesion can continue to move downwards, until with the panel bonding of bottom, thereby accomplish the integration of multiunit panel promptly, the board is arranged in the board, above-mentioned structure is with the rubber coating with arrange the board integration, and then optimized production step, reduce the transportation time of panel, can effectually promote production efficiency and avoid the unnecessary trouble that produces during transportation, further, this rubber coating subassembly possesses the control of self-adaptation ejection of compact volume, can effectively play the effect to the restoration to panel terminal surface.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a top view of the feed assembly and the loading assembly of the present utility model;

FIG. 3 is a schematic view of the structure of the adjusting assembly of the present utility model;

fig. 4 is a schematic view of the internal structure of the present utility model.

FIG. 5 is a schematic view of the brush structure of the present utility model;

FIG. 6 is a schematic view of the internal structure of the brush assembly according to the present utility model;

FIG. 7 is a top view of the gang board assembly of the present utility model.

In the figure: 1. a device body; 2. a K-shaped bracket; 3. a conveyor belt; 4. an adjustment assembly; 401. a riser; 402. a chute; 403. an adjusting rod; 404. a driving wheel; 405. grinding wheel; 5. a feeding assembly; 501. a groove; 502. a carrying plate; 503. a cross plate; 6. a drive assembly; 601. a guide groove; 602. a force-bearing plate; 603. a limiting block; 604. driving the tooth wall plate; 605. a driven gear; 606. winding up a winding drum; 607. a pull rope; 608. a return spring; 7. a gluing component; 701. a conveyor belt; 702. a first cross bar; 703. a scraper; 704. an auxiliary box; 705. a discharge pipe; 706. a discharge pipe; 707. a glue cavity; 708. a discharge port; 709. a seal ring; 710. an impeller; 8. a gang board assembly; 801. a second cross bar; 802. a discharging wheel; 8021. a mounting plate; 803. an adjusting gear; 8031. a clamping plate; 804. adjusting the tooth wall plate; 805. a limiting plate; 806. a moving groove; 807. a screw rod; 808. a slide block; 809. a driving motor; 9. the cylinder is driven.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

A high efficiency board arranging machine for boards, as shown in fig. 1-7, comprising:

a device main body 1 for preventing the components and equipment for gluing from being placed, and used as a carrier;

the K-shaped bracket 2 provides bottom support for the device main body 1 and correspondingly lifts the height of the device main body 1, so that the device main body 1 is better adapted to be processed;

and the conveying belt 3 is used for horizontally conveying the plates, so that the plates can automatically move into the device main body 1 after feeding is completed, and the production efficiency and the automation level are improved.

Referring to fig. 1-2, an adjusting assembly 4 is disposed on one side of a conveyor belt 3, the adjusting assembly 4 can clamp a plate to be fed, feeding of the plate is achieved through the action of a driving wheel 404, the plate can be moved onto the conveyor belt 3, and in the process of moving and feeding of the plate, a polishing wheel 405 can achieve removal of burrs on the outer wall of the plate through the effect of reverse rotation of the polishing wheel;

specifically, the adjusting component 4 comprises a vertical plate 401 fixed on the ground, a chute 402 is formed in the end face of the vertical plate 401, adjusting rods 403 extending towards the direction close to the conveying belt 3 are slidably connected to the inner wall of the chute 402, the number of the adjusting rods 403 is matched with that of the conveying belt 3, each group of adjusting rods 403 are arranged above one side of the corresponding conveying belt 3, driving wheels 404 with driving motors are arranged on the inner side end faces of the adjusting rods 403, the driving wheels 404 are symmetrically arranged on the inner side end faces of the adjusting rods 403, and grinding wheels 405 with the rotation directions opposite to the feeding direction of the plywood are arranged between the groups of driving wheels 404.

Referring to fig. 2, a feeding assembly 5 is installed on the ground on the inner side of a vertical plate 401, and the feeding assembly 5 can convey plate materials placed by external equipment upwards, so that each group of plates can be moved to an adjusting assembly 4 at a corresponding position to finish feeding, and meanwhile, the movement of the feeding assembly 5 can trigger the driving assembly 6 to run;

specifically, the feeding assembly 5 includes a groove 501 formed on the ground, a hydraulic cylinder is mounted in the groove 501, an output end of the hydraulic cylinder is fixedly connected with a bearing plate 502, the bearing plate 502 is higher than the ground in the horizontal height of the end face of the bearing plate 502 in a reset state, a transverse plate 503 extending towards the direction close to the vertical plate 401 is fixedly connected to one side outer wall of the bearing plate 502, and tooth wall plates extending downwards are fixed on two side outer walls of the transverse plate 503.

Referring to fig. 3, a driving assembly 6 is disposed on an end surface of a vertical plate 401, and the driving assembly 6 can make an adjusting rod 403 reciprocate under the transmission action of a gear, a tooth wall plate and a pull rope, so as to achieve the effects of clamping and releasing limit on the plate, and assist in feeding the plate;

specifically, the drive assembly 6 is including seting up the guide way 601 in riser 401 terminal surface, and the inside of guide way 601 is provided with the atress board 602 that extends to diaphragm 503 top to the outside, the outer wall fixedly connected with of atress board 602 and guide way 601 inner wall sliding connection's stopper 603, and stopper 603 extends to the inside of riser 401 and fixedly connected with drive tooth wallboard 604 at its outer wall, the one side meshing of drive tooth wallboard 604 is connected with driven gear 605, and driven gear 605 passes through one-way bearing with riser 401 inner wall and is connected, the terminal surface fixedly connected with rolling tube 606 of driven gear 605, and the other end and the riser 401 inner wall of rolling tube 606 pass through torsional spring hub connection, the outer wall winding of rolling tube 606 is connected with the stay cord 607 that is connected with the spout 402 outer wall, and the outer wall of spout 402 is still fixedly connected with the reset spring 608 of installing at riser 401 inner wall, driven gear 605, rolling tube 606, the stay cord 607, reset spring 608 jointly constitute the drive unit that is used for driving spout 402 reciprocating movement, the quantity and the regulation pole 403 adaptation of drive unit, and the one side of each group drive unit adaptation are installed in corresponding spout 402, and the wallboard 604 adopts the drive tooth wallboard 604 to install in order to drive the drive tooth wallboard unit with the same drive tooth profile of drive unit, the drive unit with the drive unit of the drive unit, can be installed in order to reach the drive unit with the drive unit of the top, the drive unit, except for the drive unit is mounted with the drive unit in the drive unit, and can be installed with the drive unit.

Referring to fig. 4-6, a glue spreading component 7 is installed in the device main body 1, the glue spreading component 7 can perform glue spreading treatment on the end surface of the plate, so that glue can be uniformly coated on the end surface of the plate, further, in the glue spreading process, the glue spreading component 7 can adaptively control the glue amount at the concave-convex surface of the end surface of the plate, so that the end surface of the plate is smooth after glue spreading, and in addition, an impeller 710 arranged in a glue cavity 707 can effectively buffer the kinetic energy of the glue entering the glue cavity 707, thereby slowing down the flow velocity of the glue and assisting a discharge pipe 706 to slowly discharge the glue;

specifically, the glue coating assembly 7 includes a conveyor belt 701 installed inside the device main body 1 and located above the conveyor belt 3, and an outer wall of the conveyor belt 701 is connected with a first cross rod 702 extending to an inner wall of the device main body 1, the first cross rod 702 is slidably connected with the inner wall of the device main body 1, and the first cross rod 702 is further connected with an external driving source, a scraper 703 is fixed on an end face of a bottom end of the conveyor belt 701, an auxiliary tank 704 is installed on one side of the scraper 703, a plurality of groups of discharge pipes 706 with equal spacing are installed at the end of the auxiliary tank 704, a discharge port 708 fixedly connected with the inner wall of the auxiliary tank 704 is formed in the auxiliary tank 704, a sealing ring 709 extending to an inner solution cavity of the glue cavity 707 is further sleeved on an outer wall of the glue cavity 707, the outer wall of the sealing ring 709 is fixedly connected with the end of the discharge pipe 706, and an impeller 710 is installed below the injection pipe 705 in the inner portion of the glue cavity 707.

Referring to fig. 4 and 7, a plate arranging assembly 8 is further disposed on the other side of the apparatus main body 1, and the plate arranging assembly 8 integrates the glued plates to form a blank, so that the subsequent hot pressing process is convenient;

specifically, the row plate assembly 8 includes a second cross bar 801 that is adapted to the conveyor belt 3, and the interval between the second cross bar 801 is the same as the interval between the conveyor belt 3, the inner side end face of the second cross bar 801 is provided with a discharging wheel 802 with a driving motor, one end of the discharging wheel 802 is located inside the second cross bar 801 and provided with a mounting plate 8021 for mounting the discharging wheel 802, the inner side end of the second cross bar 801 located at the uppermost is provided with an adjusting gear 803, the inside of the adjusting gear 803 is fixedly sleeved with a clamping plate 8031, the mounting plate 8021 and the end of the clamping plate 8031 are both provided with a driving cylinder 9, the adjusting gear 803 is provided with an adjusting gear wall plate 804 fixed on the outer wall of the device main body 1 in the vertical moving direction, one end of the second cross bar 801 is provided with a limiting plate 805, the end face of the limiting plate 805 is provided with a moving groove 806, the inner side of the moving groove 806 is provided with a screw 807, the outer wall of the screw 807 is sleeved with a slider 808 that is in threaded fit with the screw 807, the inner wall of the moving groove 806 is in a limiting sliding connection, and the top of the screw 807 is provided with a driving motor 809.

The working principle of the utility model is as follows: firstly, three groups of plates are placed on a bearing plate 502 through external equipment, and then a hydraulic cylinder is started, and the hydraulic cylinder pushes the bearing plate 502 to move upwards, so that the bearing plate 502 drives the plates to move upwards;

in the process of upward movement, the transverse plate 503 positioned on one side of the bearing plate 502 can press the force-bearing plate 602 to move in the guide groove 601 after moving to be in contact with the force-bearing plate 602, the limiting block 603 can assist the movement of the force-bearing plate 602, the movement of the limiting block 603 can drive the driving tooth wall plate 604 to move, the driven gear 605 rotates under the action of the driving tooth wall plate 604, the driven gear 605 rotates and then drives the winding drum 606 to rotate, the winding drum 606 drives the pull rope 607 to move, and the movement of the pull rope 607 can drive the adjusting rod 403 to move in the direction approaching to the plate in the chute 402;

when the hydraulic cylinder moves to the maximum travel, the adjusting rod 403 also just drives the driving wheel 404 to clamp and limit the plate, then the driving wheel 404 is started, the plate moves to the end face of the conveying belt 3 under the action of the driving wheel 404, in the process, the grinding wheel 405 is started to reversely rotate, and the reversely rotating grinding wheel 405 can play a role in grinding and removing burrs on the outer wall of the plate, so that the quality of the fed plate is improved;

further, the hydraulic cylinder is started to move downwards, the transverse plate 503 is moved downwards, at this time, the force-bearing plate 602 also moves downwards under the action of the spring, the force-bearing plate 602 moves to drive the driving tooth wall plate 604 to move downwards, so that the driving tooth wall plate 604 drives the driven gear 605 to rotate reversely, and the reset of the adjusting rod 403 is realized, so that the next use is facilitated, in addition, the movement of the transverse plate 503 also drives the tooth wall plate on the outer wall of the transverse plate to move downwards, and drives the second group of driven gears 605 to rotate in the moving process, so that the second group of adjusting rods are driven to clamp and feed the plate, further, after the transverse plate 503 moves downwards, the second group of driven gears 605 reset under the action of the torsion spring shaft and drive the second group of adjusting rods 403 to reset, so that the next use is facilitated, and similarly, the third group of adjusting rods 403 also realize clamping and feeding of the plate 503 and realize automatic reset after the transverse plate 503 is moved away;

after three groups of plates enter the device main body 1 through the conveying belt 3, stopping the operation of the conveying belt 3, starting the driving motor, enabling the driving motor to drive the conveying belt 701 to move downwards through the cross rod 702 until the scraping plate 703 moves to be attached to the end face of the plate, and enabling the bottom end of the discharging pipe 706 to be attached to the end face of the plate;

further, when the conveyor belt 701 and an external glue supply device are started, the conveyor belt 701 drives the scraper 703 of the outer wall to move, dust on the end face of the plate is removed by the scraper 703 positioned in front, and the glue is scattered on the end face of the plate by the discharge pipe 706, in the process, when the glue enters the glue cavity 707 through the injection pipe 705, the glue impacts the impeller 710 to rotate, so that kinetic energy of the fed glue is buffered, the glue can flow out through the discharge pipe 706 at a slower flow rate, and the glue is glued to the plate by the discharge pipe 706 along with the movement of the conveyor belt 701;

in the moving process of the discharging pipe 706, when the discharging pipe 706 encounters a concave-convex surface of the end surface of the plate, the discharging pipe 706 can correspondingly rotate, the rotation of the discharging pipe 706 can directly influence the effective output caliber of the discharging hole 708, and further the discharging amount is influenced, so that the discharging pipe 706 can realize the self-adaptive discharging amount control effect on the concave-convex surface, the end surface of the plate after gluing can not have the concave-convex effect, and the flattening effect on the end surface of the plate is realized;

the scraping plate 703 positioned at the rear of the discharging pipe 706 has the effect of uniformly coating glue, after the glue coating operation is finished, the plate can move to the inner side of the cross rod II 801 through the conveying belt 3, the driving cylinder 9 is started, the driving cylinder 9 can push the discharging wheel 802 to move so as to clamp and limit the plate, the plate is separated from the conveying belt 3 and is completely positioned between the cross rods II 801 under the action of the discharging wheel 802, the second driving cylinder 9 is started, the clamping plate 8031 is enabled to move to the outer wall of the plate, and then the discharging wheel 802 is controlled to move in a direction far away from the plate, so that the plate can be stably suspended under the action of the clamping plate 8031;

further, the driving motor 809 is started, the driving motor 809 can drive the screw rod 807 to rotate, the sliding block 808 on the outer wall of the screw rod 807 can be driven to move after the screw rod 807 rotates, the sliding block 808 can drive the cross rod II 801 to move, the cross rod II 801 drives the plates to move downwards, the adjusting gear 803 on the outer wall of the clamping plate 8031 can move to be in contact with the adjusting gear wall plate 804 in the moving process, therefore, under the action of the adjusting gear wall plate 804, the adjusting gear 803 can rotate, the plates are driven to rotate, one surface of the plates is downwards coated, after two groups of plates are contacted, the plates can be bonded under the action of glue, then the bonded plates can continuously move downwards until the plates are bonded with the plates at the bottommost end, and therefore the integration of a plurality of groups of plates, namely the plates, are arranged.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (8)

1. The utility model provides a trigger is arranged to panel high efficiency, includes device main part (1), its characterized in that: the device is characterized in that a K-shaped support (2) is arranged at the bottom end of the device body (1) in a fixed manner, a plurality of groups of conveying belts (3) are arranged in the device body (1), the distance between the conveying belts (3) is the same, each group of conveying belts (3) is connected with an external driving source, one side of each conveying belt (3) is provided with an adjusting component (4), the adjusting component (4) comprises a riser (401) fixed on the ground, the inner side of each riser (401) is located on the ground and provided with a feeding component (5), the end face of each riser (401) is provided with a driving component (6), and the other side of the device body (1) is further provided with a discharging component (8).

2. The high efficiency board arranging machine as set forth in claim 1, wherein: the end face of riser (401) has seted up spout (402), and the inner wall sliding connection of spout (402) has regulation pole (403) to being close to conveyer belt (3) direction extension, the quantity of adjusting pole (403) matches with the quantity of conveyer belt (3), and each group adjust pole (403) all install in the one side top of conveyer belt (3) rather than corresponding, drive wheel (404) are installed to the inboard terminal surface of adjusting pole (403), and drive wheel (404) symmetry sets up at the inboard terminal surface of adjusting pole (403), multiunit install rotation direction and plywood feed direction opposite grinding wheel (405) between drive wheel (404).

3. The high efficiency board arranging machine as set forth in claim 2, wherein: the feeding assembly (5) comprises a groove (501) formed in the ground, a hydraulic cylinder is arranged in the groove (501), the output end of the hydraulic cylinder is fixedly connected with a bearing plate (502), the bearing plate (502) is higher than the ground in the horizontal height of the end face of the bearing plate (502) in a reset state, a transverse plate (503) extending towards the direction close to the vertical plate (401) is fixedly connected to one side outer wall of the bearing plate (502), and tooth wall plates extending downwards are respectively fixed on two side outer walls of the transverse plate (503).

4. A high efficiency board arranging machine as set forth in claim 3, wherein: the driving assembly (6) comprises a guide groove (601) formed in the end face of the vertical plate (401), a stress plate (602) extending outwards to the upper portion of the transverse plate (503) is arranged in the guide groove (601), a limiting block (603) connected with the inner wall of the guide groove (601) in a sliding mode is fixedly connected to the outer wall of the stress plate (602), and the limiting block (603) extends to the inner portion of the vertical plate (401) and is fixedly connected with a driving tooth wall plate (604) on the outer wall of the limiting block.

5. The high efficiency board arranging machine as set forth in claim 4, wherein: one side meshing of driving tooth wallboard (604) is connected with driven gear (605), and driven gear (605) are connected through one-way bearing with riser (401) inner wall, terminal surface fixedly connected with rolling section of thick bamboo (606) of driven gear (605), and the other end of rolling section of thick bamboo (606) is connected through torsional spring axle with riser (401) inner wall, the outer wall winding of rolling section of thick bamboo (606) is connected with stay cord (607) with spout (402) outer wall connection, and the outer wall of spout (402) is still fixedly connected with and installs reset spring (608) at riser (401) inner wall.

6. The high efficiency board arranging machine as set forth in claim 5, wherein: driven gear (605), rolling section of thick bamboo (606), stay cord (607), reset spring (608) constitute the drive unit that is used for driving spout (402) reciprocating motion jointly, the quantity and the regulation pole (403) adaptation of drive unit, and the one side at corresponding spout (402) is installed to the equal adaptation of every group drive unit, drive unit all adopts the same tooth wallboard with drive tooth wallboard (604) to drive, and except being located the drive unit at riser (401) top, other drive unit is by installing the tooth wallboard at diaphragm (503) outer wall drive, the assembly pulley that installation stay cord (607) that can be fit among the drive unit is used to reach drive unit's driving effect.

7. The high efficiency board arranging machine as set forth in claim 1, wherein: the device comprises a device body (1), wherein a gluing component (7) is arranged in the device body (1), the gluing component (7) comprises a conveying belt (701) which is arranged in the device body (1) and is positioned above a conveying belt (3), the outer wall of the conveying belt (701) is connected with a first cross rod (702) which extends to the inner wall of the device body (1), the first cross rod (702) is in sliding connection with the inner wall of the device body (1), the first cross rod (702) is also connected with an external driving source, a scraping plate (703) is fixed on the end face of the bottom end of the conveying belt (701), an auxiliary box (704) is arranged on one side of the scraping plate (703), one end of the auxiliary box (704) is provided with a feeding pipe (705) with one end extending to the outer side of the inner end of the auxiliary box (704), the bottom end of the auxiliary box (704) is provided with a plurality of groups of discharging pipes (706) which are distributed at equal intervals, the inner side of the auxiliary box (704) is fixedly connected with a glue water cavity (707), the outer wall of the glue cavity (707) is provided with a discharging hole (708) which extends to the inner cavity of the glue cavity (707), the sealing ring (709) is fixedly connected with the end part of the sealing ring (709), an impeller (710) is arranged below the injection pipe (705) in the glue cavity (707).

8. The high efficiency board arranging machine as set forth in claim 1, wherein: the row plate assembly (8) comprises a second cross rod (801) which is matched with the conveying belt (3) in number, the distance between the second cross rod (801) is the same as that between the conveying belt (3), a discharging wheel (802) is installed on the inner side end face of the second cross rod (801), one end of the discharging wheel (802) is located inside the second cross rod (801), a mounting plate (8021) for installing the discharging wheel (802) is arranged inside the second cross rod (801), an adjusting gear (803) is arranged at the inner side end part of the second cross rod (801) located at the uppermost, a clamping plate (8031) is fixedly sleeved in the adjusting gear (803), driving cylinders (9) are installed at the end parts of the mounting plate (8021) and the clamping plate (8031), adjusting gear (803) are arranged in the vertical moving direction, a limiting plate (805) is arranged at one end of the second cross rod (801), a moving groove (806) is formed in the end face of the limiting plate (805), a moving groove (807) is formed in the inner side end face of the second cross rod, a sliding block (808) is fixedly sleeved on the outer wall of the moving groove (807), the outer wall of the screw rod (807) is connected with the sliding block (808), and the sliding block (808) is sleeved on the outer wall of the sliding block (808), a driving motor (809) is arranged at the top end of the screw rod (807).

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