CN210732725U - Wood board splicing equipment - Google Patents

Abstract

The utility model discloses a wood board splicing device, which comprises a gear cutting device and can cut wood boards and form a tooth-shaped structure at the edges of the wood boards along the feeding direction to the discharging direction; the gluing device can glue on the tooth-shaped structure; the pressing device is positioned in front of the gear cutting device and can smoothly press the tooth-shaped structure of the spliced wood boards; the shearing device is positioned in front of the pressing device and can shear the spliced wood boards; the first conveying device is positioned between the gear cutting device and the pressing device and can convey the wood board forwards; the second conveying device is positioned between the pressing device and the shearing device and can convey the wood boards backwards so as to enable the wood boards conveyed forwards to be in butt joint with the wood boards conveyed backwards; the boards can be conveyed forward to bring the spliced boards into the shearing device. The spliced wood board is flat, stable in quality and high in splicing efficiency.

Description

Wood board splicing equipment

Technical Field

The utility model is used for plywood processing equipment field especially relates to a plank concatenation equipment.

Background

When producing panels such as three-ply board, multiply wood, floor substrate, technology furniture board, building tectorial membrane board, container board, laminated wood board, the panel area is less, needs to carry out vertical concatenation to many panels.

The traditional wood board splicing process is to laminate two wood boards end to end through manual board laying and gluing, and glue is coated for bonding. The technique for gluing the planks has obvious defects of uneven spliced planks, unstable plank quality and low splicing efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an solve one of the technical problem that exists among the prior art at least, provide a plank concatenation equipment, the plank of its concatenation levels, and plank stable in quality, and the concatenation is efficient.

The utility model provides a technical scheme that its technical problem adopted is: the wood board splicing equipment comprises a feeding device and a discharging device

The gear cutting device can cut the wood board and form a tooth-shaped structure on the edge of the wood board;

the gluing device can glue on the tooth-shaped structure;

the pressing device is positioned in front of the gear cutting device and can smoothly press the tooth-shaped structure of the spliced wood boards;

the shearing device is positioned in front of the pressing device and can shear the spliced wood boards;

the first conveying device is positioned between the gear cutting device and the pressing device and can convey the wood board forwards;

the second conveying device is positioned between the pressing device and the shearing device and can convey the wood boards backwards so as to enable the wood boards conveyed forwards to be in butt joint with the wood boards conveyed backwards; the boards can be conveyed forward to bring the spliced boards into the shearing device.

Preferably, the glue spreading device comprises

The first gluing device is arranged behind the pressing device and can glue the front edge of the forward conveying wood board;

and the second gluing device is arranged in front of the pressing device and can glue the rear edge of the backward conveying wood board.

Preferably, the first gluing device comprises a first glue groove, a first gluing piece and a first gluing driving part, the first gluing driving part can drive the first gluing piece to be located at a first gluing position or a first glue supplementing position, the first gluing piece located at the first gluing position can glue on the tooth-shaped structure of the forward conveying wood board, and the first gluing piece located at the first glue supplementing position can supplement glue in the first glue groove; the second gluing device comprises a second gluing groove, a second gluing piece and a second gluing driving part, the second gluing driving part can drive the second gluing piece to be located at a second gluing position or a second glue supplementing position, the second gluing piece located at the second gluing position can glue on a tooth-shaped structure of the backward conveying wood board, the second gluing piece located at the second glue supplementing position can supplement glue in the second gluing groove, and the first gluing groove and the second gluing groove are both provided with a glue dissolving device.

Preferably, the first conveying device comprises a first conveying guide rail, a first conveying seat and a first conveying driving mechanism, the first conveying seat is arranged on the first conveying guide rail, a first conveying clamping device is arranged on the first conveying seat, and the first conveying driving mechanism can drive the first conveying seat to move along the first conveying guide rail; the second conveying device comprises a second conveying guide rail, a second conveying seat and a second conveying driving mechanism, the second conveying seat is arranged on the second conveying guide rail, a second conveying clamping device is arranged on the second conveying seat, and the second conveying driving mechanism can drive the second conveying seat to move along the second conveying guide rail.

Preferably, supporting components are arranged between the first conveying device and the gear cutting device and between the second conveying device and the shearing device, and each supporting component comprises

The side support is provided with a support rod sliding groove;

the support rods are transversely arranged between the side supports on the two sides, and the two ends of the support rods are matched with the support rod sliding grooves; and

and the telescopic assembly is connected between the adjacent support rods.

Preferably, the pressing device comprises an upper pressing seat, a lower pressing seat and a pressing driving part, the pressing driving part can drive the upper pressing seat and the lower pressing seat to approach or separate from each other, and a cooling water path is arranged on the upper pressing seat and/or the lower pressing seat.

Preferably, the gear cutting device and the shearing device are both provided with pressing devices, and the gear cutting device is provided with an air blowing device.

Preferably, still include centre gripping feed arrangement, centre gripping feed arrangement includes platform seat, clamping platform, centre gripping cylinder and feeding cylinder, and the platform seat is established gear cutting device rear, clamping platform passes through the guide rail and establishes on the platform seat, feeding cylinder can drive clamping platform along the guide rail motion, the centre gripping cylinder is established on clamping platform to be equipped with the centre gripping layering at the output.

Preferably, a wood board guiding device is arranged behind the clamping and feeding device and comprises

A support frame;

the feeding guide plate is connected with the top of the supporting frame through a lifting adjusting assembly;

the feeding backup plate is arranged at the edge of the feeding guide plate;

wherein the feeding guide plate inclines towards the clamping and feeding device, and the feeding guide plate inclines towards the feeding backup plate.

Preferably, also comprises

And the third conveying device is positioned in front of the shearing device and can convey the wood boards forwards.

One of the above technical solutions has at least one of the following advantages or beneficial effects: during splicing, the wood boards to be spliced are respectively cut into tooth-shaped structures through the tooth cutting devices, one wood board is conveyed forwards by the first conveying device, the other wood board is conveyed backwards by the second conveying device, gluing is completed on the tooth-shaped structures of the wood boards through the gluing device, then the two wood boards are butted through the tooth-shaped structures under the action of the first conveying device and/or the second conveying device, and further, the two wood boards are flatly pressed through the pressing device. And then, the second conveying device further conveys the spliced wood boards forwards, and the shearing device further shears the wood boards as required. The wood board spliced by the technical scheme is flat, stable in quality and high in splicing efficiency.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the support assembly of FIG. 1 according to one embodiment.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the present invention, if there is a description of directions (up, down, left, right, front and back), it is only for convenience of description of the technical solution of the present invention, and it is not intended to indicate or imply that the technical features indicated must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, "a plurality" means one or more, "a plurality" means two or more, "more than", "less than", "more than", and the like, which means that the number is not included; the terms "above", "below", "within" and the like are to be understood as including the number. In the description of the present invention, if there are descriptions of "first", "second" and "third", they are only used for distinguishing technical features, but they are not interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the present invention, unless otherwise explicitly defined, the terms "set," "mounted," "connected," and the like are to be understood in a broad sense, and may be directly connected or indirectly connected through an intermediate medium, for example; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be mechanically coupled, may be electrically coupled or may be capable of communicating with each other; either as communication within the two elements or as an interactive relationship of the two elements. The technical skill in the art can reasonably determine the specific meaning of the above words in the present invention by combining the specific contents of the technical solution.

Referring to fig. 1, an embodiment of the present invention provides a plank splicing apparatus, which feeds material to the discharging direction, including

The wood board cutting device comprises a gear cutting device 1, a gear cutting driving component 13 and a gear cutting driving component, wherein the gear cutting device 1 can cut a wood board and form a gear-shaped structure on the edge of the wood board, one or more gear cutters are arranged on the upper gear cutter 11 and the lower gear cutter 12 and used for forming the gear-shaped structure, the gear cutting driving component 13 can drive the upper gear cutter 11 and/or the lower gear cutter 12, and the upper gear cutter 11 and the lower gear cutter 12 are matched with each other to cut the gear-shaped structure on the wood board;

the gluing device can glue the tooth-shaped structure and is used for gluing during wood board splicing;

the pressing device 2 is positioned in front of the gear cutting device 1, the pressing device 2 comprises an upper pressing seat 21, a lower pressing seat 22 and a pressing driving part 23, the pressing driving part 23 can drive the upper pressing seat 21 and/or the lower pressing seat 22, and the upper pressing seat 21 and the lower pressing seat 22 are matched with each other to smoothly press and press the tooth-shaped structure of the spliced wood boards;

the shearing device 3 is positioned in front of the pressing device 2 and comprises an upper scissors 31, a lower scissors 32 and a shearing driving part 33, the shearing driving part 33 can drive the upper scissors 31 and the lower scissors 32, and the upper scissors 31 and the lower scissors 32 are matched with each other to shear the spliced wood boards;

the first conveying device 4 is positioned between the gear cutting device 1 and the pressing device 2 and can convey the wood boards forwards;

the second conveying device 5 is positioned between the pressing device 2 and the shearing device 3 and can convey the wood boards backwards so that the wood boards conveyed forwards are in butt joint with the wood boards conveyed backwards; the boards can be transported forward to bring the spliced boards into the shearing device 3.

Wherein the second conveyor 5 is capable of setting the size of the spliced boards.

The multiple devices of the wood board splicing equipment can be arranged on one or more racks, during splicing, wood boards enter from one side of the racks, the wood boards are output from the other side, the wood boards to be spliced are respectively cut into tooth-shaped structures through the tooth cutting devices 1, one wood board is conveyed forwards by the first conveying device 4, the other wood board is conveyed backwards by the second conveying device 5, the tooth-shaped structures of the wood boards are glued by the gluing device, then the two wood boards are butted by the tooth-shaped structures under the action of the first conveying device 4 and/or the second conveying device 5, and further are flatly and flatly pressed by the pressing device 2. Then, the second conveying device 5 further conveys the spliced wood boards forward, and the shearing device 3 further shears the wood boards as required. The wood board spliced by the technical scheme is flat, stable in quality and high in splicing efficiency.

In some embodiments, referring to FIG. 1, the glue application device comprises

The first gluing device 6 is arranged behind the pressing device 2 and can glue the front edge of the forward conveying wood board;

and the second gluing device 7 is arranged in front of the pressing device 2 and can glue the rear edge of the backward conveying wood board.

The gluing devices are arranged in front of and behind the pressing device 2, so that gluing can be finished when the wood boards are conveyed along with the first conveying device 4 and the second conveying device 5.

Preferably, the first gluing device 6 comprises a first glue tank 61, a first gluing member 62 and a first gluing driving member 63, the first gluing driving member 63 can drive the first gluing member 62 to be located at a first gluing position or a first glue supplementing position, the first gluing member 62 located at the first gluing position can glue on the tooth-shaped structure of the forward conveying wood board, and the first gluing member 62 located at the first glue supplementing position can supplement glue in the first glue tank 61; the second gluing device 7 comprises a second glue groove 71, a second gluing part 72 and a second gluing driving part 73, the second gluing driving part 73 can drive the second gluing part 72 to be located at a second gluing position or a second glue supplementing position, the second gluing part 72 located at the second gluing position can glue on the tooth-shaped structure of the backward conveying wood board, the second gluing part 72 located at the second glue supplementing position can supplement glue in the second glue groove 71, and the first glue groove 61 and the second glue groove 71 are both provided with a glue dissolving device. The first gluing driving part 63 and the second gluing driving part 73 can adopt power parts such as a motor and an air cylinder, preferably, a gluing air cylinder is adopted, the gluing air cylinder drives the gluing part to be located at a gluing position when the gluing part is lifted, the gluing air cylinder drives the gluing part to be located at a glue supplementing position when the gluing part is lowered, and the gluing air cylinder drives the gluing part to move up and down to supplement glue to and fro the glue groove and glue the tooth-shaped structure for gluing.

Referring to fig. 1, the first glue groove 61 and the second glue groove 71 are both provided with a glue dissolving device 64, 74, the glue dissolving device 64, 74 can adopt an electric heating rod and a temperature control switch, or flowing heat conducting oil or flowing steam, so as to ensure that the hot melt adhesive is in a liquid state at the optimal temperature, so that the glue coating is more uniform, the wood boards are convenient to splice, and the toughness and the quality of the wood boards are improved.

In some embodiments, the upper press seat 21 and/or the lower press seat 22 are provided with cooling water paths 24, and cooling water circulating and flowing is provided inside the cooling water paths for accelerating the solidification of glue between the wood boards.

In some embodiments, the first conveying device 4 and the second conveying device 5 may be, but are not limited to, a belt conveyor, a conveying roller conveyor, and the like, preferably, referring to fig. 1, the first conveying device 4 includes a first conveying rail 41, a first conveying seat 42, and a first conveying driving mechanism, the first conveying seat 42 is disposed on the first conveying rail 41, a first conveying clamping device 43 is disposed on the first conveying seat 42, the first conveying driving mechanism can drive the first conveying seat 42 to move along the first conveying rail 41, when a wood board is conveyed, the first conveying seat 42 is located at one end of the first conveying rail 41, the first conveying clamping device 43 can be driven by an air cylinder or the like and clamps the first wood board after the teeth are cut, and the first conveying driving mechanism drives the first conveying seat 42 to convey to the laminating device 2 along the first conveying rail 41; the second conveying device 5 comprises a second conveying guide rail, a second conveying seat and a second conveying driving mechanism, the second conveying seat is arranged on the second conveying guide rail, a second conveying clamping device is arranged on the second conveying seat, the second conveying driving mechanism can drive the second conveying seat to move along the second conveying guide rail, when boards are conveyed, the second conveying seat is located at one end of the second conveying guide rail, the second conveying clamping device can be driven by an air cylinder and the like and clamps the boards after the teeth are cut, and the second conveying driving mechanism drives the second conveying seat to convey the boards to the pressing device 2 along the second conveying guide rail. Wherein the first conveying guide 41 and the second conveying guide may be a single or a plurality of conveying guides.

Preferably, referring to fig. 1, the first conveying driving mechanism includes a first conveying rack 44 and a first motor 45, the first conveying rack 44 is disposed along the first conveying guide rail 41, the first motor 45 is disposed on the first conveying base 42, and an output end of the first motor 45 is provided with a first gear 46 in meshing transmission with the first conveying rack 44; similar to the first transmission driving mechanism, the second transmission driving mechanism comprises a second transmission rack and a second motor, the second transmission rack is arranged along the second transmission guide rail, the second motor is arranged on the second transmission seat, and a second gear in meshing transmission with the second transmission rack is arranged at the output end of the second motor. Wherein, first motor 45 and second motor can adopt ordinary motor or servo motor or step motor or linear electric motor, and first motor 45 and second motor can pass through numerical control program control, and the advantage lies in: the wood board splicing device is simple to operate, good in stability, high in precision and strong in controllability, the speed and the distance of transmission can be changed by changing the input of program codes, the wood board splicing efficiency and quality are improved, and the workload and transmission faults are reduced.

In consideration of the sagging and deformation of the wood boards during the conveying process, in some embodiments, referring to fig. 1 and 2, a support assembly is arranged between the first conveying device 4 and the gear cutting device 1 and between the second conveying device 5 and the shearing device 3 for supporting the wood boards during the conveying process, and the support assembly comprises

The side supports 51 are arranged on two sides along the conveying direction of the wood board, and the side supports 51 are provided with supporting rod sliding grooves 52;

a plurality of support rods 53 transversely arranged between the side supports 51 at both sides, both ends of which are matched with the support rod sliding grooves 52 and can move along the support rod sliding grooves 52; and

and the telescopic assemblies 54 are connected between the adjacent support rods 53, and springs, V-shaped connecting rods, X-shaped connecting rods and the like can be adopted as the telescopic assemblies 54. The supporting component can be unfolded or folded along with the first conveying device 4 and the second conveying device 5, can support the wood boards above the supporting component during unfolding, and can avoid occupying space after being folded.

Referring to fig. 1, the output end of the tooth cutting driving component 13 is provided with a first tool apron, the upper tooth cutter 11 is arranged on the first tool apron, that is, the tooth cutting driving component 13 drives the upper tooth cutter 11 to move so as to complete tooth cutting, in order to ensure the lifting stability of the upper tooth cutter 11, the rack is provided with a guide post for guiding the first tool apron to lift, in addition, the first tool apron is provided with a first stripper plate, the first stripper plate is connected with the first tool apron through a first stripper spring adjustable lead screw nut, the lower tooth cutter 12 is arranged on a second tool apron, the second tool apron is provided with a second stripper plate, and the second stripper plate is connected with the second tool apron through a second stripper spring adjustable lead screw nut; preferably, the gear cutting device 1 and the shearing device 3 are both provided with pressing devices 14 and 34, the gear cutting device is provided with an air blowing device, the pressing devices 14 and 34 are used for auxiliary positioning during wood board processing, and the air blowing device is used for blowing away scraps generated by gear cutting, so that the gear connection quality and the gear connection stability are ensured.

In order to lead out the waste generated by the gear cutting device smoothly and avoid the influence on other mechanisms, a waste leading-out plate 15 is arranged below the gear cutting device 1, and the waste leading-out plate 15 is obliquely arranged.

In some embodiments, referring to fig. 1, the rack driving unit 13 includes one or more cylinders or motor drives, preferably, in order to ensure uniformity of the force application, the rack driving unit 13 includes a plurality of cylinders, and in order to ensure synchronism of the cylinders, the rack is provided with a plurality of synchronous racks 16, and the first tool rest is provided with a synchronous gear 17 engaged with the synchronous racks 16.

In some embodiments, see fig. 1, still include centre gripping feed arrangement, centre gripping feed arrangement includes platform seat 81, centre gripping platform 82, centre gripping cylinder 83 and feed cylinder 84, and platform seat 81 can be around round pin axle 85 angle of adjustment, and platform seat 81 establishes 1 rear of gear cutting device, centre gripping platform 82 passes through the guide rail and establishes on platform seat 81, feed cylinder 84 can drive centre gripping platform 82 along the guide rail motion for carry the plank to gear cutting device 1, centre gripping cylinder 83 establishes on centre gripping platform 82 to be equipped with centre gripping layering 86 at the output, centre gripping cylinder 83 can drive the centre gripping layering and press from both sides the plank tightly.

In some embodiments, a board guiding device is arranged behind the clamping and feeding device and used for rapidly guiding boards into the clamping and feeding device, and the board guiding device comprises a board guiding device shown in fig. 1

A support frame 87;

the feeding guide plate 88 is connected with the top of the support frame 87 through a lifting adjusting assembly 89, the lifting adjusting assembly 89 is used for adjusting the inclination angle of the feeding guide plate 88, and the lifting adjusting assembly 89 can adopt a screw rod, a loop bar assembly and other structures;

a feeding backup plate 80 provided at the edge of the feeding guide plate 88;

wherein the feeding guide plate 88 is inclined toward the clamping and feeding device, and the feeding guide plate 88 is inclined toward the feeding backup plate 80. The feed introduction plate 88 has slopes in two directions so that the wooden boards entering the feed introduction plate 88 can be automatically and rapidly conveyed forward along the feed introduction plate 88 by gravity.

In certain embodiments, the plank introduction device may be fed into position using other devices, or manually.

In some embodiments, see FIG. 1, further comprising

And the third conveying device 9 is positioned in front of the shearing device 3 and can convey the wood boards forwards. The third conveying device 9 may adopt a conveyor belt, a conveying roller and the like, and can convey the cut wood boards forwards in time to enter the next process.

The working flow of the splicer is explained by taking a certain embodiment as an example:

when the wood board is used for the first time, a wood board with a tooth-shaped structure at the tail part is needed to be prepared and used as a guide plate, the wood board is placed on the second conveying device, and after the guide plate is clamped by the second conveying device, the equipment is started to operate.

1. When the wood board enters the feeding guide plate 88, one edge of the wood board abuts against the feeding backup plate 80, and the front end of the wood board stops when contacting with the pressing device 14 of the front gear cutting device 1, so that the positioning feeding is completed;

2. the clamping cylinder 83 drives the clamping pressing strip to clamp the wood board, the upper serrated knife 11 and the lower serrated knife 12 are matched with each other under the action of the serrated cutting driving part 13, a serrated structure is formed on the wood board, the pressing device 14 of the serrated cutting device 1 is opened, the serrated cutting driving part 13 is reset, the air blowing device blows air, and the waste is blown to the waste guide plate 15 below to be guided out;

3. the clamping platform 82 moves forward under the action of the feeding air cylinder 84;

4. the first conveying device 4 clamps the wood board, the clamping cylinder 83 drives the clamping pressing bar to loosen, and the feeding cylinder 84 resets;

5. the first conveying device 4 drives the wood board to be conveyed forwards, when the wood board reaches the first gluing device 6, the pressing device 14 of the gear cutting device 1 clamps the wood board, the gear cutting device 1 cuts a tooth-shaped structure at the tail end of the wood board, the gear cutting device 1 resets, the pressing device 14 of the gear cutting device 1 releases the wood board, the air blowing device blows air, and the waste material is blown to the waste material guide plate 15 below to be guided out;

6. the first gluing device 6 is used for gluing on the tooth-shaped structure of the front edge of the wood board, and the second gluing device 7 is used for gluing on the tooth-shaped structure of the rear edge of the guide plate;

7. the first gluing piece 62 of the first gluing device 6 and the second gluing piece 72 of the second gluing device 7 descend to the corresponding glue grooves for glue supplement;

8. the first conveying device 4 drives the wood boards to convey forwards, the second conveying device 5 drives the guide plates to convey backwards, the two wood boards are spliced, and the stitching device 2 flattens and stitches the tooth-shaped structure positions of the spliced wood boards;

9. the first conveying device 4 loosens the wood board, the glue at the joint position is cooled, the pressing device 2 loosens, the second conveying device 5 clamps the wood board and conveys the wood board forwards, when the wood board is at the set position, the pressing device 34 of the shearing device 3 clamps the wood board, the second conveying device 5 loosens the wood board and returns to the position of the guide plate where glue is to be coated, the wood board at the front side of the second glue coating device 7 is clamped, and the pressing device 34 of the shearing device 3 loosens;

10. when two boards are butted and cooled to the time when the second conveying device 5 returns to the position of the second gluing device 7, the subsequent board completes the corresponding process, the tooth-shaped structure of the front edge of the subsequent board reaches the first gluing device 6, when the boards are butted, the pressing device 2 loosens the jointed board, the second conveying device 5 clamps the board and conveys the board to the shearing device 3, the board is paused when the boards reach the set size, the shearing device 3 shears the board, the sheared board is output by the third conveying device, the sheared board is connected with subsequent equipment or stacked, and the shearing device 3 resets;

the procedure of 1-10 steps is repeated, so that the continuous splicing of the wood boards can be realized.

The invention is not limited to the above embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the invention, and such equivalent modifications or substitutions are included in the scope defined by the claims of the present application.

Claims (10)

1. Plank concatenation equipment, its characterized in that: in the direction from feed to discharge, comprising

The gear cutting device can cut the wood board and form a tooth-shaped structure on the edge of the wood board;

the gluing device can glue on the tooth-shaped structure;

the pressing device is positioned in front of the gear cutting device and can smoothly press the tooth-shaped structure of the spliced wood boards;

the shearing device is positioned in front of the pressing device and can shear the spliced wood boards;

the first conveying device is positioned between the gear cutting device and the pressing device and can convey the wood board forwards;

the second conveying device is positioned between the pressing device and the shearing device and can convey the wood boards backwards so as to enable the wood boards conveyed forwards to be in butt joint with the wood boards conveyed backwards; the boards can be conveyed forward to bring the spliced boards into the shearing device.

2. The plank splicing apparatus of claim 1, wherein: the gluing device comprises

The first gluing device is arranged behind the pressing device and can glue the front edge of the forward conveying wood board;

and the second gluing device is arranged in front of the pressing device and can glue the rear edge of the backward conveying wood board.

3. The plank splicing apparatus of claim 2, wherein: the first gluing device comprises a first gluing groove, a first gluing piece and a first gluing driving part, the first gluing driving part can drive the first gluing piece to be located at a first gluing position or a first glue supplementing position, the first gluing piece located at the first gluing position can glue on a tooth-shaped structure of the forward conveying wood board, and the first gluing piece located at the first glue supplementing position can supplement glue in the first gluing groove; the second gluing device comprises a second gluing groove, a second gluing piece and a second gluing driving part, the second gluing driving part can drive the second gluing piece to be located at a second gluing position or a second glue supplementing position, the second gluing piece located at the second gluing position can glue on a tooth-shaped structure of the backward conveying wood board, the second gluing piece located at the second glue supplementing position can supplement glue in the second gluing groove, and the first gluing groove and the second gluing groove are both provided with a glue dissolving device.

4. The plank splicing apparatus of claim 1, wherein: the first conveying device comprises a first conveying guide rail, a first conveying seat and a first conveying driving mechanism, the first conveying seat is arranged on the first conveying guide rail, a first conveying clamping device is arranged on the first conveying seat, and the first conveying driving mechanism can drive the first conveying seat to move along the first conveying guide rail; the second conveying device comprises a second conveying guide rail, a second conveying seat and a second conveying driving mechanism, the second conveying seat is arranged on the second conveying guide rail, a second conveying clamping device is arranged on the second conveying seat, and the second conveying driving mechanism can drive the second conveying seat to move along the second conveying guide rail.

5. The plank splicing apparatus of claim 4, wherein: supporting components are arranged between the first conveying device and the gear cutting device and between the second conveying device and the shearing device, and each supporting component comprises

The side support is provided with a support rod sliding groove;

the support rods are transversely arranged between the side supports on the two sides, and the two ends of the support rods are matched with the support rod sliding grooves; and

and the telescopic assembly is connected between the adjacent support rods.

6. The plank splicing apparatus of claim 1, wherein: the pressing device comprises an upper pressing seat, a lower pressing seat and a pressing driving part, the pressing driving part can drive the upper pressing seat and the lower pressing seat to approach or separate from each other, and a cooling water path is arranged on the upper pressing seat and/or the lower pressing seat.

7. The plank splicing apparatus of claim 1, wherein: the gear cutting device and the shearing device are both provided with pressing devices, and the gear cutting device is provided with an air blowing device.

8. The plank splicing apparatus of claim 1, wherein: still include centre gripping feed arrangement, centre gripping feed arrangement includes platform seat, clamping platform, centre gripping cylinder and feeding cylinder, and the platform seat is established gear cutting device rear, clamping platform passes through the guide rail and establishes on the platform seat, feeding cylinder can drive clamping platform along the guide rail motion, the centre gripping cylinder is established on clamping platform to be equipped with the centre gripping layering at the output.

9. The plank splicing apparatus of claim 8, wherein: the rear of centre gripping feed arrangement is equipped with plank gatherer, plank gatherer includes

A support frame;

the feeding guide plate is connected with the top of the supporting frame through a lifting adjusting assembly;

the feeding backup plate is arranged at the edge of the feeding guide plate;

wherein the feeding guide plate inclines towards the clamping and feeding device, and the feeding guide plate inclines towards the feeding backup plate.

10. The plank splicing apparatus of claim 1, wherein: also comprises

And the third conveying device is positioned in front of the shearing device and can convey the wood boards forwards.

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