CN113547595A

CN113547595A - Panel concatenation system

Info

Publication number: CN113547595A
Application number: CN202110828589.4A
Authority: CN
Inventors: 王慧聪; 张纪华
Original assignee: Shandong Zhongyi Wood Industry Co ltd
Current assignee: Shandong Zhongyi Wood Industry Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2021-10-26

Abstract

The invention discloses a plate splicing system which comprises a transmission device, a comb-shaped milling cutter cutting device, a splicing device driving motor and a motor shaft, wherein the right side of the transmission device is provided with the comb-shaped milling cutter cutting device for finger joint tenon cutting of two ends of a spliced plate, the right side of the comb-shaped milling cutter cutting device is provided with the splicing device for splicing the cut plate, and the splicing device comprises a conveying main body for conveying the plate, a supporting main body for supporting the conveying main body and a splicing main body fixed at the rear side of the conveying main body for splicing the plate. The invention has the beneficial effects that: the device passes through transmission extrusion mode, fixes at once when making splice plate material both ends pass through to extrude in opposite directions after panel butt joint is accomplished, make panel concatenation department connect closely, and carry out glue on its surface and cover, promoted the efficiency of panel concatenation.

Description

Panel concatenation system

Technical Field

The invention relates to the technical field of plate processing, in particular to a plate splicing system.

Background

In the splicing and processing process of the plates, the finger joint tenon joint between the plates needs to be coated with glue again because the cutting and splicing cause the damage of the glue coating layer on the surface layer, so that the efficiency of plate splicing production is reduced, the connection firmness of the conventional plate finger joint is lower under the condition that a screw is not used, and the breakage of the finger joint tenon joint of the plates is easily caused to influence the use of the plates.

Disclosure of Invention

The invention aims to provide a plate splicing system to overcome the defects in the prior art, and the device is used for fixing two ends of a spliced plate immediately when the two ends pass through in a transmission extrusion mode, extruding the two ends oppositely after the butt joint of the plates is completed, connecting the spliced positions of the plates tightly, covering the surfaces of the plates with glue, and improving the efficiency of plate splicing.

The invention discloses a plate splicing system which comprises a transmission device, a comb-shaped milling cutter cutting device, a splicing device, a driving motor and a motor shaft, wherein the right side of the transmission device is provided with the comb-shaped milling cutter cutting device for finger joint tenon cutting of two ends of a spliced plate, and the right side of the comb-shaped milling cutter cutting device is provided with the splicing device for splicing the cut plate;

the splicing device comprises a conveying main body for conveying the plates, a supporting main body for supporting the conveying main body and a splicing main body which is fixed at the rear side of the conveying main body and used for splicing the plates;

the splicing main body comprises a shell, a driving motor, a motor shaft, a traction device, a clamping device and a threaded shaft, wherein a motor support is arranged on the rear side of the shell, the driving motor is arranged on the inner side of the motor support, a tension spring connected with the motor support is arranged on the right side of the driving motor, the motor shaft is arranged in the driving motor, a motor sliding card is arranged on the outer side of the driving motor, the motor sliding card is slidably clamped on the motor support, and a gear I for driving is arranged on the front side of the motor shaft;

a traction device is arranged in the shell and comprises a traction rod and a traction support, a spring is sleeved on the outer side of the traction rod, the traction support is arranged on the rear side of the traction rod, a triangular plate is arranged on the rear side of the traction support, and the front end of the triangular plate is in contact with the right side wall of the motor sliding card;

the drawing device is characterized in that a clamping device is arranged on the right side of the drawing device and comprises a driving shaft and a disc, the disc is arranged on the front side of the driving shaft, two connecting shafts are arranged on the disc, and racks used for fixing plates are movably arranged on the front sides of the connecting shafts.

Preferably, the conveying main part includes conveyer belt and baffle, both sides are provided with the baffle around the conveyer belt, the baffle is close to conveyer belt one side is provided with the draw-in groove that is used for block panel lateral wall, both ends are provided with the pivot about the conveyer belt, the pivot both ends are provided with solid fixed ring, gu fixed ring is fixed in under the baffle on the lateral wall.

Preferably, the rear end of the rotating shaft at the left end of the conveying belt is provided with a gear II meshed with the gear I.

Preferably, a plurality of conical blocks penetrating through the baffle are arranged on the baffle at the rear side, a fixing shaft is arranged at the left end of each conical block, the fixing shaft is rotationally fixed in the baffle, and fixing supports are arranged at the rear sides of the conical blocks.

Preferably, a sliding groove which is convenient for the connecting shaft to slide is arranged on the baffle plate on the rear side.

Preferably, the right side of the clamping device is provided with a plurality of threaded shafts, and the threaded shafts are all meshed with the middle parts of the fixing supports at the corresponding positions.

Preferably, the front end of the traction rod and the front ends of the threaded shafts are in contact with the tapered block.

Preferably, the driving shaft and the rear ends of the plurality of threaded shafts are respectively provided with a clamping buckle in a sleeved mode, a transmission belt is arranged on the outer side of the clamping buckle, and the left end of the transmission belt is sleeved on the motor shaft.

Preferably, the baffle upside of rear side is provided with the support frame, the support frame with the disc corresponds in vertical direction, the support frame middle part is fixed with the rubber coating device that is used for the rubber coating, the lower part of rubber coating device is provided with the opening, be provided with the center pin in the rubber coating device, the center pin downside is provided with the support, the support downside is provided with convex rotatory gasket, rotatory gasket outer wall with the contact of rubber coating device inner wall, just rotatory gasket passes the opening with the disc contact, it is right to be provided with on the rubber coating device inner wall rotatory gasket rotates spacing stopper.

The invention has the beneficial effects that:

1. when the traction rod moves towards the front side, the driving motor moves towards the left side along the motor support through the traction support and the triangular plate through the motor sliding clamp, and the transmission belt is tensioned.

2. The laminating of rotating seal piece outer wall and rubber coating device inner wall avoids the great glue outflow in the messenger rubber coating device in space between rotating seal piece and the rubber coating device.

3. The limiting block blocks the central shaft to drive the rotary sealing sheet to rotate anticlockwise in the process of conveying the sheet to the right side.

Drawings

FIG. 1 is a schematic view of the overall process of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of the splicing main body of the invention.

Fig. 4 is a schematic view of the internal structure of the splicing main body of the present invention.

Fig. 5 is a schematic structural view of the clamping device of the present invention.

FIG. 6 is a schematic view of the internal structure of the glue spreading device of the present invention.

Illustration of the drawings: 1. splicing device, 2, conveying body, 3, supporting body, 4, splicing body, 5, shell, 6, driving motor, 7, motor shaft, 8, drawing device, 9, clamping device, 10, threaded shaft, 11, motor support, 12, motor sliding card, 13, gear I, 14, drawing rod, 15, drawing support, 16, spring, 17, triangular plate, 18, driving shaft, 19, disk, 20, connecting shaft, 21, rack, 22, conveying belt, 23, baffle, 24, clamping groove, 25, rotating shaft, 26, fixing ring, 27, gear II, 28, conical block, 29, fixing shaft, 30, fixing support, 31, sliding groove, 32, clamping buckle, 33, supporting frame, 34, gluing device, 35, opening, 36, central shaft, 37, support, 38, rotating plate, 39 and limiting block.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

A plate splicing system comprises a transmission device, a comb-shaped milling cutter cutting device, a splicing device 1, a driving motor 6 and a motor shaft 7, wherein the right side of the transmission device is provided with the comb-shaped milling cutter cutting device for finger joint tenon cutting of two ends of a spliced plate, and the right side of the comb-shaped milling cutter cutting device is provided with the splicing device 1 for splicing the cut plate;

the splicing device 1 comprises a conveying main body 2 for conveying plates, a supporting main body 3 for supporting the conveying main body 2 and a splicing main body 4 fixed at the rear side of the conveying main body 2 for splicing the plates, wherein the conveying main body 2 comprises a conveying belt 22 and a baffle 23, the front side and the rear side of the conveying belt 22 are provided with the baffle 23, one side, close to the conveying belt 22, of the baffle 23 is provided with a clamping groove 24 for clamping the side wall of the plate, the plate is clamped and stably conveyed through the conveying belt 22 in the clamping groove 24, the baffle 23 at the rear side is provided with a sliding groove 31 convenient for the connecting shaft 20 to obliquely slide, the baffle 23 at the rear side is provided with a plurality of conical blocks 28 penetrating through the baffle 23, one side, close to the conveying belt 22, of each conical block 28 can be contacted with the conveyed plate, the left end of each conical block 28 is provided with a fixing shaft 29, the fixing shaft 29 is rotatably fixed in the baffle 23, and each conical block 28 rotates by taking the fixing shaft 29 as the center, the rear sides of the conical blocks 28 are provided with fixing supports 30, the left end and the right end of the conveyor belt 22 are provided with rotating shafts 25, two ends of each rotating shaft 25 are provided with fixing rings 26, the fixing rings 26 are fixed on the lower side wall of the baffle 23, and the rear end of the rotating shaft 25 at the left end of the conveyor belt 22 is provided with a gear II 27 meshed with the gear I13;

a supporting frame 33 is arranged on the upper side of the baffle 23 on the rear side, the supporting frame 33 corresponds to the disc 19 in the vertical direction, so that the splicing position of the plates can be coated with glue conveniently, a gluing device 34 for coating the glue is fixed in the middle of the supporting frame 33, an opening 35 is arranged at the lower part of the gluing device 34, a central shaft 36 is arranged in the gluing device 34, a support 37 is arranged on the lower side of the central shaft 36, an arc-shaped rotary sealing sheet 38 is arranged on the lower side of the support 37, the outer wall of the rotary sealing sheet 38 is in contact with the inner wall of the gluing device 34, the rotary sealing sheet 38 passes through the opening 35 to be in contact with the disc 19, a limiting block 39 for limiting the rotary sealing sheet 38 in rotation is arranged on the inner wall of the gluing device 34, and the limiting block 39 can block the central shaft 36 from driving the rotary sealing sheet 38 to rotate anticlockwise in the process of conveying the plates to the right side;

the splicing main body 4 comprises a shell 5, a driving motor 6, a motor shaft 7, a traction device 8, a clamping device 9 and a threaded shaft 10, a motor support 11 is arranged on the rear side of the shell 5, the driving motor 6 is arranged on the inner side of the motor support 11, a tension spring connected with the motor support 11 is arranged on the right side of the driving motor 6, the driving motor 6 can conveniently reset after sliding, the motor shaft 7 is arranged in the driving motor 6, a motor sliding card 12 is arranged on the outer side of the driving motor 6, the motor sliding card 12 can be slidably clamped on the motor support 11, and a gear I13 for driving is arranged on the front side of the motor shaft 7;

a traction device 8 is arranged in the shell 5, the traction device 8 comprises a traction rod 14 and a traction support 15, a spring 16 is sleeved on the outer side of the traction rod 14, the rear end of the spring 16 abuts against the front side wall of a fixed support 30 at a corresponding position, the front end of the traction rod 14 and the front ends of the plurality of threaded shafts 10 are both in contact with a conical block 28, the traction support 15 is arranged on the rear side of the traction rod 14, a triangular plate 17 is arranged on the rear side of the traction support 15, and the front end of the triangular plate 17 is in contact with the right side wall of the motor sliding card 12;

8 right sides of tractive device are provided with clamping device 9, clamping device 9 right sides is provided with a plurality of screw shaft 10, and screw shaft 10 all meshes and runs through the fixed bolster 30 middle part that corresponds position department, clamping device 9 is including drive shaft 18 and disc 19, drive shaft 18 all overlaps with a plurality of screw shaft 10 rear end and is equipped with the block and detains 32, the block and detain 32 outside and be provided with driving belt, and driving belt left end cover locates on motor shaft 7, when driving motor 6 slides to the left side, motor shaft 7 carries out the tensioning with driving belt, it carries out synchronous rotation to drive each block and detain 32, it is provided with disc 19 to drive shaft 18 front side, be provided with two connecting axles 20 on the disc 19, the mobilizable rack 21 that is used for fixed panel that is provided with in connecting axle 20 front side.

The invention provides a plate splicing system, which comprises the following steps:

the method comprises the following steps: the method comprises the steps that plates needing to be spliced are placed on a transmission device in an initial state, the plates are conveyed into a comb-shaped milling cutter cutting device through the transmission device, two ends of the plates are cut into mutually meshed finger joint tenon shapes, the cut plates are continuously conveyed onto a splicing device 1 and are continuously conveyed for a distance along a conveying main body 2, a driving motor 6 is driven, and a motor shaft 7 drives a gear I13 and a meshing gear II 27 to rotate, so that the conveying main body 2 operates.

Step two: the front side and the rear side of the plate are clamped in the clamping grooves 24 and are conveyed to the right side by the conveying main body 2, the plate extrudes one conical block 28 at the leftmost end in the process, the conical block 28 rotates outwards by taking the fixed shaft 29 as a middle point until the front side wall of the conical block 28 is in parallel contact with the front side wall and the rear side wall of the plate, the plate is continuously conveyed to the right side until the left end of the plate is separated from the contact with the conical block 28 at the leftmost end, the conical block 28 at the leftmost end cannot continuously support the front end of the traction rod 14, the traction rod 14 is elastically supported by the spring 16 to displace towards the front side, the traction support 15 and the triangular plate 17 move forwards when the traction rod 14 displaces, the triangular plate 17 moves forwards to gradually push the motor sliding clamp 12 towards the left side, so that the gear II 27 is separated from being meshed with the gear I13, the motor shaft 7 tensions the driving belt to drive each clamping buckle 32 to rotate, and the clamping buckles 32 drive the shaft 18 and each threaded shaft 10 to rotate, when the disc 19 rotates, the two racks 21 are pulled to rotate along the sliding grooves 31, the racks 21 extrude the plates to be fixed to the left ends of the plates, the threaded shafts 10 are meshed with the fixing supports 30 to move towards the front side, the whole plates on the conveyor belt 22 are clamped, and the driving motor 6 is turned off.

Step three: the next butt-jointed cut plate is conveyed rightwards continuously along the conveying main body 2 through the conveying device until the butt joint of the two plates at the finger joint tenon is completed, the plate transported later extrudes one conical block 28 at the leftmost end, the conical block 28 overturns towards the rear side to push the traction rod 14 to move towards the rear side, and the tension spring traction driving motor 6 at the right side of the driving motor 6 resets.

Step four: single back drive driving motor 6, two racks 21 carry out the tractive with two concatenation panels to the middle part, the panel that makes the butt joint accomplish indicates the tenon department to combine closely, motor slide card 12 drives each support frame 33 antiport through driving belt, disc 19 drives rotatory gasket 38 after the antiport, make rotatory gasket 38 carry out clockwise rotation through center pin 36, until rotatory gasket 38 left end and stopper 39 contact, glue in the rubber coating device 34 passes through opening 35 from stopper 39 right-hand member and drips to panel concatenation department downwards, glue the panel butt joint, each screw shaft 10 carries out the antiport and shifts to the rear side, it is fixed to the extrusion of panel to relieve.

Step five: the driving motor 6 is driven forwards, the gear I13 is meshed with the gear II 27 to drive the conveying belt 22 to convey the plates to the right.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions are considered to be within the protective scope of the present invention.

Claims

1. A plate splicing system comprises a transmission device, a comb-shaped milling cutter cutting device, a splicing device (1), a driving motor (6) and a motor shaft (7), and is characterized in that the comb-shaped milling cutter cutting device used for performing finger joint tenon cutting on two ends of a spliced plate is arranged on the right side of the transmission device, and the splicing device (1) used for splicing the cut plate is arranged on the right side of the comb-shaped milling cutter cutting device;

the splicing device (1) comprises a conveying main body (2) for conveying plates, a supporting main body (3) for supporting the conveying main body (2) and a splicing main body (4) which is fixed at the rear side of the conveying main body (2) and used for splicing the plates;

the splicing main body (4) comprises a shell (5), a driving motor (6), a motor shaft (7), a traction device (8), a clamping device (9) and a threaded shaft (10), a motor support (11) is arranged on the rear side of the shell (5), the driving motor (6) is arranged on the inner side of the motor support (11), a tension spring connected with the motor support (11) is arranged on the right side of the driving motor (6), the motor shaft (7) is arranged in the driving motor (6), a motor sliding card (12) is arranged on the outer side of the driving motor (6), the motor sliding card (12) can be slidably clamped on the motor support (11), and a gear I (13) for driving is arranged on the front side of the motor shaft (7);

a traction device (8) is arranged in the shell (5), the traction device (8) comprises a traction rod (14) and a traction support (15), a spring (16) is sleeved on the outer side of the traction rod (14), the traction support (15) is arranged on the rear side of the traction rod (14), a triangular plate (17) is arranged on the rear side of the traction support (15), and the front end of the triangular plate (17) is in contact with the right side wall of the motor sliding card (12);

the drawing device (8) right side is provided with clamping device (9), clamping device (9) are including driving axle (18) and disc (19), driving axle (18) front side is provided with disc (19), be provided with two connecting axles (20) on disc (19), the mobilizable rack (21) that are used for fixed panel that are provided with in connecting axle (20) front side.

2. The plate splicing system according to claim 1, wherein the conveying body (2) comprises a conveying belt (22) and a baffle (23), the baffle (23) is arranged on the front side and the rear side of the conveying belt (22), a clamping groove (24) for clamping the side wall of the plate is formed in one side of the baffle (23) close to the conveying belt (22), rotating shafts (25) are arranged at the left end and the right end of the conveying belt (22), fixing rings (26) are arranged at the two ends of each rotating shaft (25), and the fixing rings (26) are fixed on the lower side wall of the baffle (23).

3. A panel splicing system according to claim 2, wherein a gear ii (27) engaged with the gear i (13) is provided at the rear end of the rotary shaft (25) at the left end of the conveyor belt (22).

4. A panel splicing system according to claim 2, wherein a plurality of conical blocks (28) penetrating through the baffle plate (23) are arranged on the baffle plate (23) at the rear side, a fixing shaft (29) is arranged at the left end of the conical blocks (28), the fixing shaft (29) is rotatably fixed in the baffle plate (23), and a fixing bracket (30) is arranged at the rear side of each conical block (28).

5. A panel splicing system according to claim 2, wherein the rear baffle plate (23) is provided with a sliding groove (31) for facilitating the sliding of the connecting shaft (20).

6. A panel splicing system according to claim 1, wherein a plurality of threaded shafts (10) are arranged on the right side of the clamping device (9), and the threaded shafts (10) are all engaged through the middle of the fixing bracket (30) at the corresponding positions.

7. A panel splicing system according to claim 1, wherein the leading end of the draw bar (14) and the leading ends of the threaded shafts (10) are in contact with the tapered block (28).

8. A plate splicing system according to claim 1, wherein the driving shaft (18) and the rear ends of the plurality of threaded shafts (10) are respectively sleeved with a snap fastener (32), a driving belt is arranged outside the snap fasteners (32), and the left end of the driving belt is sleeved on the motor shaft (7).

9. Panel splicing system according to claim 2, wherein a support frame (33) is arranged on the upper side of the rear baffle plate (23), the supporting frame (33) corresponds to the disc (19) in the vertical direction, a gluing device (34) for gluing is fixed in the middle of the supporting frame (33), an opening (35) is arranged at the lower part of the gluing device (34), a central shaft (36) is arranged in the gluing device (34), a bracket (37) is arranged on the lower side of the central shaft (36), a circular arc-shaped rotary sealing sheet (38) is arranged on the lower side of the bracket (37), the outer wall of the rotary sealing sheet (38) is contacted with the inner wall of the gluing device (34), and the rotary sealing sheet (38) passes through the opening (35) to contact with the disc (19), and a limiting block (39) used for limiting the rotation of the rotary sealing sheet (38) is arranged on the inner wall of the gluing device (34).