CN209794002U - full-automatic middle plate transverse-vertical continuous tooth joint vertical splicing machine - Google Patents

Abstract

the utility model discloses a full-automatic medium plate is anyhow continuous toothing and is erected machine of piecing together, including horizontal veneer splicing mechanism, belt transport mechanism, press from both sides tight dolly and hold in the palm and send the mechanism, U type press from both sides tight transport mechanism, a machine support, the continuous docking mechanism of broach, the mechanism is sheared to the scale, pile up neatly mechanism, horizontal veneer splicing mechanism afterbody is equipped with the scale mechanism, horizontal veneer mechanism connects through belt transport mechanism and presss from both sides tight dolly and hold in the palm and send the mechanism, it is equipped with layer board mechanism and the tight transport mechanism of U type clamp to press from both sides tight dolly to hold in the palm and send the mechanism lower part, U type presss from both sides tight transport mechanism one side and is equipped with the continuous docking mechanism of broach. The utility model discloses a servo drive, the hot melt adhesive veneer is violently pieced together, is erected and is pieced together once only and accomplish, has reduced the intermediate link, has saved the manpower, has improved production efficiency and production quality greatly, has impeld the automation process of plywood trade.

Description

full-automatic middle plate transverse-vertical continuous tooth joint vertical splicing machine

Technical Field

the utility model belongs to the technical field of the concatenation of wood industry production medium plate, in particular to machine is pieced together to horizontal perpendicular continuous joggle of full-automatic medium plate.

Background

It is known that, receive fast-growing forest timber footpath level and material rate of utilization influence, can't produce the whole vertical veneer of piece that accords with plywood size demand, consequently, the horizontal and vertical concatenation of veneer has appeared, in multilayer plywood production technology, vertical veneer is as the necessary raw and other materials of plywood mechanics structure demand, the vertical butt joint equipment of traditional veneer, ubiquitous production efficiency is low, can not realize full-automatic concatenation, the concatenation effect is poor (if the concatenation gap is inhomogeneous, the fissure of displacement overlaps), the concatenation mode plywood is not conform to mechanical structure scheduling problem, the process of composite sheet production automation is seriously influenced, the development and the promotion of product quality of plywood enterprise have been restricted. According to market needs, a new generation of full-automatic middle plate transverse and vertical continuous tooth joint and vertical splicing machine is provided, servo driving is adopted, hot melt adhesive gluing, transverse splicing and vertical splicing are completed at one time, intermediate links are reduced, manpower is saved, production efficiency and production quality are greatly improved, and an automation process of the plywood industry is promoted.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a full-automatic medium plate is anyhow the continuous joggle of erectting erects and pieces together the machine, adopts servo drive, and the hot melt adhesive veneer is violently pieced together, is erected and is pieced together disposable completion, has reduced the intermediate link, has saved the manpower, has improved production efficiency and production quality greatly, has impeld the automation process of plywood trade.

In order to realize the purpose, the utility model discloses a technical scheme is:

A full-automatic medium plate transverse and vertical continuous tooth joint vertical splicing machine comprises a transverse single plate splicing mechanism, a belt conveying mechanism, a clamping trolley supporting and conveying mechanism, a U-shaped clamping and conveying mechanism, a rack, a comb tooth continuous butt joint mechanism, a fixed-length shearing mechanism and a stacking mechanism, wherein the fixed-length mechanism is arranged at the tail part of the transverse single plate splicing mechanism; the frame bears belt transport mechanism, press from both sides tight dolly and hold in the palm send the mechanism, U type presss from both sides tight transport mechanism, horizontal veneer makeup mechanism accomplishes the horizontal concatenation to the veneer, the veneer passes through scale mechanism and accomplishes the scale after the horizontal concatenation, the veneer after the scale passes through belt transport mechanism and gets into the tight dolly of clamp and hold in the palm and send the mechanism, horizontal veneer passes through the tight transport mechanism of U type clamp that presss from both sides tight dolly and accomplish 90 turns to and get into the continuous docking mechanism of broach, the continuous docking mechanism of broach carries out vertical butt joint to the veneer behind the broach, cut the mechanism through the scale and accomplish the scale at last, accomplish the pile up neatly through pile up neat.

The belt conveying mechanism comprises a motor I, a chain wheel I, a support frame I, a bearing seat I, a transmission shaft I, a chain wheel II, a chain, a synchronous belt I and a synchronous wheel I, wherein the motor I is arranged on one side of the rack, the motor I is fixed on the rack through a fixing seat, the chain wheel I is arranged at the shaft end of the motor I, the support frame I is arranged on the other side of the rack opposite to the motor I, the bearing seat I is arranged on the support frame I, the transmission shaft I is arranged between the bearing seats I, the chain wheel II is arranged at one end, close to the motor I, of the transmission shaft I, the chain wheel I is connected; power is provided through motor I, and sprocket I drives sprocket II through the chain and rotates to make I simultaneous rotation of transmission shaft and synchronizing wheel drive I completion veneer conveying of hold-in range.

The clamping trolley supporting and conveying mechanism comprises a fixing frame I, a fixing frame II, a fixing base, a motor II, a bearing seat II, a transmission shaft II, a synchronous wheel III, a synchronous belt II, a guide rail I, a mounting frame I, a fixing frame III, a fixing plate I, a connecting and fixing plate, a sliding block I, a mounting plate, a cylinder I, a pressing block and a fixing block II, wherein the fixing frame I is arranged at one end, close to the motor II, of the rack, the fixing frame II is arranged at the other end of the rack, the bearing seat II is arranged on the fixing frame I, the fixing base is arranged on one side of the rack, the motor II is fixed on the fixing base through bolts, the shaft end of the motor II is connected with the transmission shaft II, the transmission shaft; the machine frame is provided with a guide rail I, a slide block I is arranged on the guide rail I, a connecting and fixing plate is connected with a fixed slide block I through a bolt, a fixing plate I is arranged on the connecting and fixing plate, a synchronous belt II is fixed on the connecting and fixing plate through the bolt by the fixing plate I, a mounting plate is arranged on the connecting and fixing plate, an air cylinder I is arranged on the mounting plate, a pressing block is arranged on a push rod of the air cylinder I, a fixing block II is arranged on the mounting plate, and after a plate is conveyed to a supporting and conveying mechanism of; the synchronous wheel II is driven to rotate by the power provided by the motor II, and the synchronous wheel II is matched with the synchronous wheel III to drive the synchronous belt II to drive the connecting and fixing plate to move, so that the process of supporting and conveying the plate materials is completed; be equipped with mounting bracket I in the frame, I both ends of mounting bracket respectively are equipped with a mount III, and mount III is used for setting up the stopper for the movement distance of restriction connection fixed plate.

The U-shaped clamping conveying mechanism comprises a mounting frame II, a bearing seat III, a synchronizing wheel IV, a synchronizing wheel V, a transmission shaft III, a fixing plate II, a U-shaped mounting frame II, a fixing plate III, a supporting shaft, a synchronizing belt III, a cylinder II, a compression roller, a motor III, a guide rail II, a sliding block II and a fixing plate IV, wherein the mounting frame II is provided with a plurality of mounting frames II; a guide rail II is arranged on the rack, a sliding block II is arranged on the guide rail II, the bottom of a U-shaped fixing frame II is fixed on the sliding block II, a fixing plate IV is arranged on the bottom side of the U-shaped fixing frame II, a synchronous belt III is fixed at the bottom of the U-shaped fixing frame II through the fixing plate IV, a compression roller and an air cylinder II are arranged at the top of the U-shaped fixing frame II, the air cylinder II is fixedly connected with the compression roller, when a plate is dragged to the U-shaped clamping conveying mechanism through a clamping trolley supporting mechanism, the plate is compressed through the air cylinder II in cooperation with the U-shaped fixing frame II, a motor III provides power to drive a synchronous wheel V to rotate, and the synchronous wheel IV is matched with the synchronous wheel V to drive the; be equipped with fixed plate III on the mounting bracket II, be equipped with a plurality of back shafts between two fixed plates III and play the effect of supporting the sheet material, back shaft swing joint fixed plate III does not influence the motion of U type mount II.

Preferably, be equipped with layer board mechanism in the frame, including guide rail III, slider III, the layer board, collude the board, the connecting plate, guide rail III is located in the frame, be equipped with slider III on the guide rail III, be equipped with the connecting plate on the slider III, be equipped with the layer board on the connecting plate, connecting plate fixed connection colludes the board, collude the board and collude the lock in II bottoms of U type mount, when the sheet material passes through II fixed completions of cylinder, the layer board realizes the top support effect to the sheet material, when the tight transport mechanism of U type clamp is accomplished to returning after turning to the conveying of 90 of sheet material, collude II bottoms of U type mount through colluding the board and drag the.

Preferably, be equipped with backup pad I in the frame, be equipped with a plurality of hold-in range regulators in the backup pad I, the hold-in range regulator includes fixed block I, connecting plate, compression roller, fixed block I passes through the bolt fastening in backup pad I, connecting plate one end fixed connection fixed block I, the other end passes through center pin swing joint compression roller, I inboards in the hold-in range are arranged in to the compression roller, through the upper and lower position of bolt adjustment hold-in range regulator in backup pad I, utilize the compression roller to adjust the elasticity degree of hold-in range.

Preferably, be equipped with support frame III in the frame, support frame III is equipped with backup pad II, is equipped with a plurality of brackets in the backup pad II, and the bracket passes through the bolt fastening on backup pad II, and the bracket is located I inboard of hold-in range and plays the effect of supporting hold-in range I, avoids I sunken influence conveying of hold-in range.

Compared with the prior art, the utility model beneficial effect shows:

1) Transverse splicing of single plates is completed through a transverse single plate splicing mechanism, the single plates after transverse splicing are sized through a sizing mechanism, the sized single plates enter a clamping trolley conveying mechanism through a belt conveying mechanism, the transverse single plates are turned for 90 degrees through a U-shaped clamping conveying mechanism at the lower part of the clamping trolley conveying mechanism and enter a comb tooth continuous butt joint mechanism, the comb tooth continuous butt joint mechanism vertically butt joints the single plates after comb teeth, finally, sizing is completed through a sizing shearing mechanism, and stacking is completed through a stacking mechanism; the servo drive is adopted, the gluing by hot melt adhesive, the transverse splicing and the vertical splicing are completed at one time, so that intermediate links are reduced, the labor is saved, the production efficiency and the production quality are greatly improved, and the automation process of the plywood industry is promoted;

2) The supporting plate I is provided with a plurality of synchronous belt adjusters, the synchronous belt adjusters are provided with compression rollers, the compression rollers are arranged on the inner sides of the synchronous belts I, when the synchronous belts I are too loose to influence transmission, the upper and lower positions of the synchronous belt adjusters on the supporting plate I are adjusted through bolts, and the tightness degree of the synchronous belts I is adjusted by utilizing the up-and-down movement of the compression rollers;

3) The lower part of the U-shaped clamping and conveying mechanism is provided with a supporting plate mechanism, the supporting plate mechanism is provided with a supporting plate, when the U-shaped clamping and conveying mechanism thinks that the next mechanism conveys the plate, the supporting plate supports the plate, and the situation that the supporting shaft cannot support the plate due to the shape change of the plate in the conveying process to influence the conveying is avoided.

Drawings

FIG. 1 is a schematic structural view of a full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

FIG. 2 is a schematic view of a belt conveying mechanism of a full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model I;

FIG. 3 is a schematic diagram of a belt conveying mechanism of a full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the present invention;

FIG. 4 is a schematic structural view of a synchronous belt adjuster in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

FIG. 5 is a first structural schematic diagram of a clamping trolley supporting and feeding mechanism in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

FIG. 6 is a schematic structural view of a second clamping trolley supporting and feeding mechanism in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

FIG. 7 is a third schematic diagram of a supporting and feeding mechanism of a clamping trolley in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

FIG. 8 is a schematic structural view of a U-shaped clamping and conveying mechanism in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the present invention;

FIG. 9 is a schematic view showing an exploded structure of a U-shaped clamping and conveying mechanism in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the present invention;

FIG. 10 is a schematic diagram of a U-shaped clamping and conveying mechanism in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine according to the present invention;

FIG. 11 is a schematic structural view of a middle supporting plate mechanism of the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the present invention;

FIG. 12 is a schematic view of the connection structure of a fixed plate IV, a synchronous belt III and a U-shaped fixed frame II in the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine of the utility model;

In the figure: 1. a belt transport mechanism; 2. a clamping trolley supporting and conveying mechanism; 3. a U-shaped clamping and conveying mechanism; 4. a frame; 5. a plate material; 6. a pallet mechanism; 7. a transverse veneer splicing mechanism; 8. a continuous comb tooth butt joint mechanism; 9. a fixed-length shearing mechanism; 10. a stacking mechanism; 101. a motor I; 1011. a chain wheel I; 102. a support frame I; 103. a bearing seat I; 104. a transmission shaft I; 105. a support plate I; 106. a support frame II; 107. a bearing seat II; 108. a chain wheel II; 109. a chain; 110. a synchronous belt I; 111. a synchronous wheel I; 112. a support plate II; 113. a bracket; 114. a synchronous belt adjuster; 1141. a fixed block I; 1142. a connecting plate; 1143. a compression roller; 115. a support frame III; 201. a fixing frame I; 202. a fixing frame II; 203. a fixed seat; 204. a motor II; 205. a bearing seat II; 206. a transmission shaft II; 207. a synchronous wheel II; 208. a synchronous wheel III; 209. a synchronous belt II; 210. a guide rail I; 211. a mounting frame I; 212. a fixing frame III; 213. a fixing plate I; 214. connecting the fixed plate; 215. a sliding block I; 216. mounting a plate; 217. a cylinder I; 218. briquetting; 219. a fixed block II; 301. mounting frame II; 302. a bearing seat III; 303. a synchronizing wheel IV; 3031. a synchronizing wheel V; 304. a transmission shaft III; 305. fixing a plate II; 306. a U-shaped fixing frame II; 307. a fixing plate III; 308. a support shaft; 309. a synchronous belt III; 310. a cylinder II; 311. a compression roller; 312. a motor III; 313. a guide rail II; 314. a guide rail III; 315. a sliding block II; 316. a slide block III; 317. a support plate; 318. hooking the plate; 319. a connecting plate; 320. a fixing plate IV; 71. a sizing mechanism.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 12.

a full-automatic medium plate transverse and vertical continuous tooth joint vertical splicing machine comprises a transverse single plate splicing mechanism 7, a belt conveying mechanism 1, a clamping trolley supporting and conveying mechanism 2, a U-shaped clamping and conveying mechanism 3, a rack 4, a comb tooth continuous butt joint mechanism 8, a fixed-length shearing mechanism 9 and a stacking mechanism 10, wherein the tail part of the transverse single plate splicing mechanism 7 is provided with a fixed-length mechanism 71, the transverse single plate splicing mechanism 7 is connected with the clamping trolley supporting and conveying mechanism 2 through the belt conveying mechanism 1, the lower part of the clamping trolley supporting and conveying mechanism 2 is provided with a supporting plate mechanism 6 and the U-shaped clamping and conveying mechanism 3, one side of the U-shaped clamping and conveying mechanism 3 is provided with the comb tooth continuous butt joint mechanism 8, one side of the comb tooth continuous butt joint mechanism 8 is provided with the fixed-length shearing mechanism; the frame 4 bears the weight of belt transport mechanism 1, presss from both sides tight dolly and holds and send mechanism 2, U type to press from both sides tight transport mechanism 3.

The transverse single plate splicing mechanism is structurally a middle plate splicing machine in the prior art, the transverse single plate splicing mechanism 7 completes transverse splicing of single plates, the transversely spliced single plates are sized through a sizing mechanism 71, the sized single plates enter a clamping trolley conveying mechanism 2 through a belt conveying mechanism 1, the transverse single plates are turned for 90 degrees through a U-shaped clamping conveying mechanism 3 at the lower part of the clamping trolley conveying mechanism 2 and enter a comb teeth continuous butt joint mechanism 8, the comb teeth continuous butt joint mechanism adopts a specific structure of a full-automatic middle plate transverse and vertical continuous tooth joint vertical splicing machine disclosed in CN109940720A and a middle plate continuous tooth joint vertical splicing machine disclosed in CN109227809A, one of the full-automatic middle plate continuous toothing vertical splicing machine disclosed in CN109940719A, a comb tooth continuous butt joint mechanism 8 vertically butts single plates after comb teeth, and finally, the sizing is completed through a sizing shearing mechanism 9, and the stacking is completed through a stacking mechanism 10.

The belt conveying mechanism comprises a motor I101, a chain wheel I1011, a support frame I102, a bearing seat I103, a transmission shaft I104, a chain wheel II 108, a chain 109, a synchronous belt I110 and a synchronous wheel I111, wherein the motor I101 is arranged on one side of a rack 4, the motor I101 is fixed on the rack 4 through a fixing seat, the chain wheel I1011 is arranged at the shaft end of the motor I101, the support frame I102 is arranged on the other side, opposite to the motor I101, of the rack 4, the bearing seat I103 is arranged on the support frame I102, the transmission shaft I104 is arranged between the bearing seats I103, the chain wheel II 108 is arranged at one end, close to the motor I101, of the transmission shaft I104, the chain wheel I1011 is connected with the chain wheel; the power is provided by the motor I101, the chain wheel I1011 drives the chain wheel II 108 to rotate through the chain 109, so that the transmission shaft I104 and the synchronous wheel I111 rotate simultaneously to drive the synchronous belt I110 to complete single-plate conveying.

The supporting and conveying mechanism of the clamping trolley comprises a fixing frame I201, a fixing frame II 202, a fixing seat 203, a motor II 204, a bearing seat II 205, a transmission shaft II 206, a synchronizing wheel II 207, a synchronizing wheel III 208, a synchronizing belt II 209, a guide rail I210, a mounting frame I211, a fixing frame III 212, a fixing plate I213, a connecting and fixing plate 214, a sliding block I215, a mounting plate 216, an air cylinder I217, a pressing block 218 and a fixing block II 219, wherein the fixing frame I201 is arranged at one end, close to the motor II 204, of the rack 4, the fixing frame II 202 is arranged at the other end of the rack 4, the bearing seat II 205 is arranged on the fixing frame I201, the fixing seat 203 is arranged at one side of the rack 4, the motor II 204 is, meanwhile, a synchronous wheel II 207 is arranged on the transmission shaft II 206, a synchronous wheel III 208 is arranged on the fixed frame II 202, and the synchronous wheel III 208 is connected with the synchronous wheel II 207 through a synchronous belt II 209; the machine frame 4 is provided with a guide rail I210, a sliding block I215 is arranged on the guide rail I210, a connecting and fixing plate 214 is connected with the fixing sliding block I215 through a bolt, a fixing plate I213 is arranged on the connecting and fixing plate 214, a synchronous belt II 209 is fixed on the connecting and fixing plate 214 through a bolt by the fixing plate I213, a mounting plate 216 is arranged on the connecting and fixing plate 214, an air cylinder I217 is arranged on the mounting plate 216, a pressing block 218 is arranged on a push rod of the air cylinder I217, a fixing block II 219 is arranged on the mounting plate 216, and after a plate 5 is conveyed to the supporting and conveying mechanism 2 of the clamping trolley through a; the synchronous wheel II 207 is driven to rotate by the power provided by the motor II 204, the synchronous wheel II 207 is matched with the synchronous wheel III 208 to drive the synchronous belt II 209 to transmit, so that the connecting and fixing plate 214 is driven to move, and the supporting and conveying process of the plate 5 is completed; be equipped with I211 of mounting bracket on the frame 4, I211 both ends of mounting bracket respectively are equipped with III 212 of a mount, and III 212 of mount are used for setting up the stopper for the movement distance of restriction connection fixed plate 214.

The U-shaped clamping and conveying mechanism 3 comprises a mounting frame II 301, a bearing seat III 302, a synchronizing wheel IV 303, a synchronizing wheel V3031, a transmission shaft III 304, a fixing plate II 305, a U-shaped fixing frame II 306, a fixing plate III 307, a supporting shaft 308, a synchronizing belt III 309, an air cylinder II 310, a pressing roller 311, a motor III 312, a guide rail II 313, a sliding block II 315 and a fixing plate IV 320, wherein the mounting frame II 301 is arranged on the rack 4, the synchronizing wheel IV 303 is respectively arranged at the mounting frame II 301 at one end of the rack 4, the motor III 312 is arranged at the other end of the rack, the shaft end of the motor III 312 is connected with the transmission shaft III 304, the transmission shaft III 304 is fixed on the mounting frame II 301 through the bearing seat III 302, the synchronizing wheel V3031 is arranged on the transmission shaft; a guide rail II 313 is arranged on the rack 4, a sliding block II 315 is arranged on the guide rail II 313, the bottom of a U-shaped fixing frame II 306 is fixed on the sliding block II 315, a fixing plate IV 320 is arranged at the bottom side of the U-shaped fixing frame II 306, a synchronous belt III 309 is fixed at the bottom of the U-shaped fixing frame II 306 through the fixing plate IV 320, a press roller 311 and an air cylinder II 310 are arranged at the top of the U-shaped fixing frame II 306, the air cylinder II 310 is fixedly connected with the press roller 311, when a plate 5 is dragged to the U-shaped clamping and conveying mechanism 3 through a clamping trolley supporting and conveying mechanism 2, the plate 5 is tightly pressed through the air cylinder II 310 and the U-shaped fixing frame II 306, power is provided by a motor III 312 to drive a synchronous wheel V3031 to rotate, the synchronous wheel IV 303 is matched with the synchronous wheel V3031 to drive the synchronous; the mounting rack II 301 is provided with fixing plates III 307, a plurality of supporting shafts 308 are arranged between the two fixing plates III 307 and play a role in supporting the plate 5, and the supporting shafts 308 are movably connected with the fixing plates III 307, so that the movement of the U-shaped fixing rack II 306 is not influenced.

the support plate mechanism 6 is arranged on the rack 4 and comprises a guide rail III 314, a sliding block III 316, a support plate 317, a hook plate 318 and a connecting plate 319, the guide rail III 314 is arranged on the rack 4, the sliding block III 316 is arranged on the guide rail III 314, the connecting plate 319 is arranged on the sliding block III 316, the connecting plate 319 is fixedly connected with the hook plate 318, the hook plate 318 is hooked at the bottom of the U-shaped fixing frame II 306, when the plate 5 is fixed through the air cylinder II 310, the support plate 317 achieves a supporting effect on the plate 5, and when the U-shaped clamping conveying mechanism 3 finishes 90-degree turning conveying and returning of the plate 5, the hook plate 318 is hooked at the bottom of the U-shaped fixing frame II 306 to drag the support plate to extend the guide rail III 314.

Be equipped with I105 of backup pad in the frame 4, be equipped with a plurality of hold-in range regulators 114 on I105 of backup pad, hold-in range regulator 114 includes fixed block I1141, connecting plate 1142, compression roller 1143, fixed block I1141 passes through the bolt fastening on I105 of backup pad, connecting plate 1142 one end fixed connection fixed block I1141, the other end passes through center pin swing joint compression roller 1143, it is inboard that I110 of hold-in range is arranged in to compression roller 1143, through the upper and lower position of bolt adjustment hold-in range regulator 114 on I105 of backup pad, utilize compression roller 1143 to adjust the elasticity degree of I110 of hold-.

be equipped with III 115 of support frame on the frame 4, III 115 of support frame are equipped with backup pad II 112, are equipped with a plurality of brackets 113 on II 112 of backup pad, and bracket 113 passes through the bolt fastening on II 112 of backup pad, and bracket 113 is located I110 inboard of hold-in range and plays the effect of supporting I110 of hold-in range, avoids I110 sunken influence conveying of hold-in range.

A full-automatic middle plate transverse and vertical continuous tooth joint vertical splicing machine comprises the following working processes:

Horizontal concatenation to the veneer is accomplished through horizontal veneer makeup mechanism, the scale is accomplished through scale mechanism to the veneer after horizontal concatenation, the veneer after the scale gets into through belt transport mechanism and presss from both sides tight dolly and hold in the palm and send the mechanism, horizontal veneer passes through the tight dolly of the U type clamp that presss from both sides tight transport mechanism of tight dolly support and send mechanism lower part and accomplish 90 turns to and get into the continuous docking mechanism of broach, the continuous docking mechanism of broach carries out vertical butt joint to the veneer behind the broach, at last, cut to length through scale shearing mechanism completion scale, accomplish the pile up neatly through pile up neatly mechanism.

the foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (7)

1. A full-automatic medium plate transverse and vertical continuous tooth joint vertical splicing machine comprises a transverse single plate splicing mechanism, a belt conveying mechanism, a clamping trolley supporting and conveying mechanism, a U-shaped clamping and conveying mechanism, a rack, a comb tooth continuous butt joint mechanism, a fixed-length shearing mechanism and a stacking mechanism, and is characterized in that the tail of the transverse single plate splicing mechanism is provided with the fixed-length mechanism, the transverse single plate splicing mechanism is connected with the clamping trolley supporting and conveying mechanism through the belt conveying mechanism, the lower part of the clamping trolley supporting and conveying mechanism is provided with a supporting plate mechanism and the U-shaped clamping and conveying mechanism, one side of the U-shaped clamping and conveying mechanism is provided with the comb tooth continuous butt joint mechanism, one side of the comb tooth continuous butt joint mechanism is provided with the fixed-; the machine frame is provided with a bearing belt conveying mechanism, a clamping trolley supporting and conveying mechanism and a U-shaped clamping conveying mechanism.

2. the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine is characterized in that the belt conveying mechanism comprises a motor I, a chain wheel I, a support frame I, a bearing seat I, a transmission shaft I, a chain wheel II, a chain, a synchronous belt I and a synchronous wheel I, the motor I is arranged on one side of the machine frame, the chain wheel I is arranged at the shaft end of the motor I, the support frame I is arranged on the other side of the machine frame opposite to the motor I, the bearing seat I is arranged on the support frame I, the transmission shaft I is arranged between the bearing seats I, the chain wheel II is arranged at one end, close to the motor I, of the transmission shaft I, a plurality of synchronous wheels I are.

3. The full-automatic middle plate transverse and vertical continuous tooth joint vertical splicing machine is characterized in that the clamping trolley supporting and conveying mechanism comprises a fixing frame I, a fixing frame II, a fixing seat, a motor II, a bearing seat II, a transmission shaft II, a synchronizing wheel III, a synchronizing belt II, a guide rail I, a mounting frame I, a fixing frame III, a fixing plate I, a connecting and fixing plate, a sliding block I, a mounting plate, a cylinder I, a pressing block and a fixing block II, wherein the fixing frame I is arranged at one end, close to the motor II, of the machine frame, the fixing frame II is arranged at the other end, the bearing seat II is arranged on the fixing frame I, the fixing seat is arranged on one side of the machine frame, the synchronizing wheel II is arranged on the transmission shaft II, the synchronizing wheel III is arranged on the fixing frame II, the guide rail I is arranged on, be equipped with fixed block II on the mounting panel, be equipped with mounting bracket I in the frame, I both ends of mounting bracket respectively are equipped with a mount III.

4. the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine is characterized in that the U-shaped clamping and conveying mechanism comprises a mounting frame II, a bearing seat III, a synchronizing wheel IV, a synchronizing wheel V, a transmission shaft III, a fixing plate II, a U-shaped mounting frame II, a fixing plate III, a supporting shaft, a synchronizing belt III, a cylinder II, a compression roller, a motor III, a guide rail II, a sliding block II and a fixing plate IV, a plurality of mounting frames II are arranged on a rack, one synchronizing wheel IV is arranged at each mounting frame II at one end of the rack, the motor III is arranged at the other end of the rack, and the synchronizing wheel V is arranged on the transmission shaft III; be equipped with guide rail II in the frame, be equipped with slider II on the guide rail II, II bottom sides of U type mount are equipped with fixed plate IV, and II tops of U type mount are equipped with compression roller and cylinder II, are equipped with fixed plate III on the mounting bracket II, are equipped with a plurality of back shafts between two fixed plates III.

5. The full-automatic middle plate transverse and vertical continuous tooth joint vertical splicing machine is characterized in that a supporting plate mechanism is arranged on the machine frame and comprises a guide rail III, a sliding block III, a supporting plate, a hook plate and a connecting plate, the guide rail III is arranged on the machine frame, the sliding block III is arranged on the guide rail III, the connecting plate is arranged on the sliding block III, and the supporting plate is arranged on the connecting plate.

6. the full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine according to claim 2, characterized in that a support plate I is arranged on the machine frame, a plurality of synchronous belt adjusters are arranged on the support plate I, and the synchronous belt adjusters comprise a fixing block I, a connecting plate and a press roller.

7. The full-automatic middle plate transverse and vertical continuous toothing vertical splicing machine as claimed in claim 2, wherein a support frame III is provided on the machine frame, the support frame III is provided with a support plate II, and a plurality of brackets are provided on the support plate II.