CN209831945U - Full-automatic small strip plate splicing machine - Google Patents

Abstract

The utility model discloses a full-automatic small strip plate splicing machine, which comprises a frame, a transmission caterpillar track mechanism, an adjusting mechanism, a hot melt adhesive line gluing mechanism, a butt-joint gluing mechanism, a fixed-length shearing mechanism, a guiding rule, a glue line support, a tray and a stand column, wherein the front end of the frame is provided with the adjusting mechanism, one side of the adjusting mechanism is provided with the guiding rule, the upper part of the frame is provided with the transmission caterpillar track mechanism, the transmission caterpillar track mechanism comprises an upper transmission caterpillar track and a lower transmission caterpillar track, the hot melt adhesive line gluing mechanism is arranged between the upper transmission caterpillar track and the lower transmission caterpillar track, the rear side of the hot melt adhesive line gluing mechanism is provided with the butt-joint gluing mechanism, one side of the frame is provided with the glue line support, the upper part of the glue line support is provided; the rear side of the transmission caterpillar track mechanism is provided with a fixed-length shearing mechanism. The utility model discloses adapt to 20 millimeters to 300 millimeters veneer small strip makeup, compensatied the unable sutural technological space of market narrow strip veneer, improved raw and other materials and leftover bits utilization by a wide margin.

Description

Full-automatic small strip plate splicing machine

Technical Field

The utility model belongs to the technical field of the veneer concatenation machinery of wood industry production, in particular to full-automatic small strip makeup machine.

Background

To present, in the multilayer plywood manufacturing process, timber veneer is as the necessary raw and other materials of plywood mechanics structure demand, receives fast-growing forest timber footpath level and material utilization and influences, can't produce the whole piece veneer that accords with plywood size demand, and the concatenation equipment of traditional veneer only can piece the veneer more than 200 millimeters, causes very big wasting of resources to the rate of utilization of veneer, has increased the manufacturing cost and the steady quality of composite sheet enterprise.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a full-automatic little makeup machine, adaptation 20 millimeters to 300 millimeters veneer little makeup, adopt servo drive, the hot melt adhesive line is stained with and closes, and the scale is tailor, has compensatied the unable sutural technological space of market narrow strip veneer, has improved raw and other materials and leftover bits utilization by a wide margin.

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

a full-automatic small strip plate splicing machine comprises a rack, a transmission caterpillar track mechanism, an adjusting mechanism, a hot melt adhesive line gluing mechanism, a butt-joint gluing mechanism, a sizing shearing mechanism, a guiding rule, an adhesive line support, a tray and an upright post, wherein the adjusting mechanism is arranged at the front end of the rack, the guiding rule is arranged on one side of the adjusting mechanism, and the guiding rule is used for aligning and feeding one end of a small strip single plate; the upper part of the rack is provided with a transmission caterpillar track mechanism, the transmission caterpillar track mechanism comprises an upper transmission caterpillar track and a lower transmission caterpillar track, a hot melt adhesive line gluing mechanism is arranged between the upper transmission caterpillar track and the lower transmission caterpillar track, the rear side of the hot melt adhesive line gluing mechanism is provided with a butt-joint gluing mechanism, one side of the rack is provided with a glue line support, the upper part of the glue line support is provided with a tray, the upper part of the tray is provided with a plurality of stand columns, and the stand columns are used for placing hot melt adhesive line coils; the rear side of the transmission caterpillar track mechanism is provided with a fixed-length shearing mechanism, a small veneer is aligned with feeding through one end of a guiding ruler, synchronous feeding of the small veneer is achieved through an adjusting mechanism, the small veneers are fed into a hot melt adhesive line gluing mechanism through an upper transmission caterpillar track and a lower transmission caterpillar track in the transmission caterpillar track mechanism, the hot melt adhesive is melted through a heating block, when the small veneers pass through the small veneers, the friction force is utilized to drive the adhesive lines in the adhesive grooves to move so as to evenly hang the hot melt adhesive on the veneers, finally, the small veneers are connected together in a splicing mechanism, the adhesive lines are firmly glued on the veneers while the hot melt adhesive on the adhesive lines is cooled through a supporting wheel and a pressing wheel, and after the spliced veneers reach the required length, the single veneers and the adhesive lines are sheared through the fixed-length shearing mechanism.

The transmission caterpillar track mechanism comprises side plates, a connecting plate, a rotating shaft, a cylinder I, an upper transmission caterpillar track and a lower transmission caterpillar track, wherein the lower transmission caterpillar track comprises a servo motor, a driving gear, a transmission shaft I, chain wheels I and chains I;

the upper part of the front end of the lower transmission caterpillar is provided with an adjusting mechanism, the adjusting mechanism comprises a cylinder II, a cam, a rotating shaft I and aligning claws, the rotating shaft I is connected to the rack through a bearing seat, the cams are arranged at two ends of the rotating shaft I, the cylinder II is arranged at the bottom of one end of the cam, the tail of the cylinder II is fixedly connected to the rack, the rotating shaft I is provided with a plurality of aligning claws, the aligning claws are arranged in a gap between the chain I and the chain I, the side wall of a connecting plate is provided with a plurality of photoelectric switches, when a small veneer enters, the photoelectric switches are shielded to give out signals, the cylinder II ejects out the cam to drive the aligning claws to lift up, the aligning claws align the small veneer in the transverse direction, after alignment, the aligning claws retract, and the small veneer enters between the;

go up the transmission caterpillar track including driven gear, transmission shaft I, sprocket I, chain I, wherein a set of transmission shaft I passes through the bearing frame and connects on the curb plate in last transmission caterpillar track, another group transmission shaft I passes through the bearing frame and connects on the rotor plate in last transmission caterpillar track, be equipped with a plurality of sprockets I on the transmission shaft I, be equipped with chain I on the sprocket I, the rotor plate other end passes through rotation axis swing joint on the curb plate, I axle head of transmission shaft that sets up on the rotor plate is equipped with driven gear, go up I axle head driven gear meshing of transmission shaft I axle head in the transmission caterpillar track down the transmission shaft I axle head driving gear, servo motor provides power, driving gear meshing driven gear, the transmission caterpillar track is gone up in the further drive, chain rotates the little veneer and sends into hot melt adhesive on-line rubberizing.

The hot melt adhesive line gluing mechanism comprises a branching perforator, a gluing claw, a line arranging groove, a glue pool and a heating block, wherein the side wall of the glue pool is provided with the branching perforator, the branching perforator is provided with a plurality of perforations, the branching perforator divides the hot melt adhesive lines on the tray into groups through the perforations, so that a plurality of groups of hot melt adhesive lines on the small veneer are spliced, the gluing claw is arranged in the glue pool, the line arranging groove is formed in the upper portion of the gluing claw, the heating block is arranged on one side of the upper portion of the glue pool corresponding to the line arranging groove, a glue groove is formed in the heating block, the hot melt adhesive lines enter the line arranging groove through the branching perforator, pass through the gluing claw and finally penetrate into the glue groove in the heating block, the hot melt adhesive is melted through the heating block, and when the small veneer passes through, the friction force is utilized to drive the glue lines in the glue groove.

The mechanism is stained with to butt includes cold water pond, supporting wheel, pivot II, pinch roller support, extension spring II, support II, be equipped with pivot II in the cold water pond, pivot II is connected in the cold water pond through the bearing frame, be equipped with a plurality of supporting wheels on the pivot II, supporting wheel upper portion is equipped with the pinch roller, the pinch roller sets up in the pinch roller support, pinch roller support one end is equipped with extension spring II, II other end linking bridge of extension spring II, support II set up on a supporting beam, the pinch roller passes through II effects of extension spring, hug closely the supporting wheel, pinch roller and supporting wheel are stained with the rubber line firmly on the stuff when with the hot melt adhesive cooling on the rubber line, splice the stuff together.

The mechanism is sheared to scale includes motor I, the speed reducer, transmission shaft II, the eccentric wheel, the connecting rod, the rack, cut the sword, the chopping block, the guide block, I one side of motor is equipped with the speed reducer, the two passes through the belt and connects, the speed reducer axle head is equipped with the sprocket, II axle heads of transmission shaft are equipped with the sprocket, speed reducer axle head sprocket passes through chain connection transmission shaft II axle head sprockets, II axle head sprocket one sides of transmission shaft are equipped with the eccentric wheel, be equipped with the connecting rod on the eccentric wheel, the rack is connected to the connecting rod, be equipped with on the rack and cut the sword, it is equipped with the chopping block to cut the sword bottom, the rack both sides are equipped with the guide block.

Preferably, I bottom of chain is equipped with the layer board in the lower transmission caterpillar track, and the layer board prevents that I data send in-process of chain from drooping in the lower transmission caterpillar track, influences the transmission action.

Preferably, I upper portion of chain is equipped with the clamp plate in going up the transmission caterpillar track, and clamp plate upper portion is equipped with the fixed plate, and the fixed plate sets up on a supporting beam, and a supporting beam sets up on the rotor plate, is equipped with a plurality of locating pins, bolt between fixed plate and the clamp plate, and the bolt outside is equipped with the spring, and the clamp plate pushes down the tensioning through the elasticity of spring with chain I in going up the transmission caterpillar track, and chain I conveys little veneer under the further cooperation in the transmission caterpillar track.

Preferably, go up and be equipped with tension sprocket in the transmission caterpillar, I overlap joint of chain is on tension sprocket, and tension sprocket sets up on sprocket support, sprocket support one end extension spring I, and I other end linking bridge I of extension spring, support I set up on a supporting beam for through the effect of extension spring I, tension sprocket, make chain I be in the tensioning state all the time in the data send process in the transmission caterpillar, help the stable operation of transmission strip veneer.

Preferably, the side wall of the rotating plate is provided with a guide plate, the other side of the guide plate is arranged in a guide groove, the guide groove is fixedly connected with the side wall of the side plate, and the rotating plate smoothly and freely moves in the ejection and falling process of the cylinder I under the guiding action of the guide plate, so that the deviation in the ejection and falling process is prevented from influencing the stable operation of the transmission caterpillar track mechanism.

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

1) the method is suitable for the small spliced boards of the single plates of 20 mm to 300 mm, adopts servo drive, adheres hot melt adhesive threads and cuts in a fixed length, makes up the technical space that narrow single plates in the market cannot be sewn, and greatly improves the utilization of raw materials and leftover materials;

2) a cylinder I in the transmission caterpillar track mechanism is ejected out to drive the rotating plate to lift up by taking the rotating shaft as a circle center, so that the upper transmission caterpillar track in the transmission caterpillar track mechanism is further separated from the lower transmission caterpillar track, the transmission of the spliced single plates is stopped, and the cut-to-length cutting mechanism cuts the spliced single plates at a fixed length through a cutting knife;

3) the lateral wall of the rotating plate is provided with a guide plate, the other side of the guide plate is arranged in the guide groove, the guide groove is fixedly connected with the lateral wall of the lateral plate, and the rotating plate smoothly and freely moves in the ejection and falling process of the cylinder I under the guiding action of the guide plate, so that the deviation in the ejection and falling process is prevented from occurring, and the stable operation of the transmission caterpillar track mechanism is prevented from being influenced.

Drawings

FIG. 1 is a schematic structural view of a full-automatic small strip plate splicing machine of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the full-automatic small strip plate splicing machine of the utility model;

FIG. 3 is a schematic view of the other side of the internal structure of the full-automatic small strip splicing machine of the utility model;

FIG. 4 is a schematic structural view of a transmission caterpillar track mechanism in the full-automatic small strip plate splicing machine of the utility model;

FIG. 5 is a schematic structural view of a hot melt adhesive line gluing mechanism and a butt gluing mechanism in the full-automatic small strip plate splicing machine of the utility model;

in the figure: 11-a machine frame, 12-a transmission chain track mechanism, 13-an adjusting mechanism, 14-a hot melt adhesive line gluing mechanism, 15-a butt-joint gluing mechanism, 16-a fixed-length shearing mechanism, 17-a guiding rule, 18-an adhesive line support, 19-a tray, 20-a stand column, 201-a side plate, 2011-a connecting plate, 202-a rotating plate, 203-a rotating shaft, 204-a guiding plate, 205-a guiding groove, 206-a cylinder I, 207-a servo motor, 208-a driving gear, 209-a driven gear, 210-a transmission shaft I, 211-a chain wheel I, 212-a chain I, 213-a supporting beam, 214-a tensioning chain wheel, 215-a chain wheel support, 216-a tension spring I, 217-a support I, 218-a supporting plate, 219-a pressing plate and 220-a fixing plate, 221-spring, 222-locating pin, 223-bolt, 301-cylinder II, 302-cam, 303-rotating shaft I, 304-aligning claw, 401-branching perforator, 402-gluing claw, 403-wire arranging groove, 404-glue pool, 405-heating block, 501-motor I, 502-speed reducer, 503-driving shaft II, 504-eccentric wheel, 505-connecting rod, 506-placing rack, 507-shearing knife, 508-cutting board, 509-guiding block, 601-cold water pool, 602-supporting wheel, 603-rotating shaft II, 604-pressing wheel, 605-pressing wheel support, 606-tension spring II, 607-support II.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 5.

A full-automatic small strip plate splicing machine comprises a rack 11, a transmission caterpillar track mechanism 12, an adjusting mechanism 13, a hot melt adhesive line gluing mechanism 14, a butt gluing mechanism 15, a fixed-length shearing mechanism 16, a guiding rule 17, an adhesive line support 18, a tray 19 and an upright post 20, wherein the adjusting mechanism 13 is arranged at the front end of the rack 11, the guiding rule 17 is arranged on one side of the adjusting mechanism 13, and the guiding rule 17 is used for aligning and feeding one end of a small strip single plate; a transmission caterpillar track mechanism 12 is arranged at the upper part of the rack 11, the transmission caterpillar track mechanism 12 comprises an upper transmission caterpillar track and a lower transmission caterpillar track, a hot melt adhesive line gluing mechanism 14 is arranged between the upper transmission caterpillar track and the lower transmission caterpillar track, a butt gluing mechanism 15 is arranged at the rear side of the hot melt adhesive line gluing mechanism 14, a glue line support 18 is arranged at one side of the rack 11, a tray 19 is arranged at the upper part of the glue line support 18, a plurality of upright posts 20 are arranged at the upper part of the tray 19, and the upright posts 20 are used for placing hot melt adhesive wire coils; the rear side of the transmission caterpillar track mechanism 12 is provided with a fixed-length shearing mechanism 16.

The transmission caterpillar track mechanism 12 comprises a side plate 201, a connecting plate 2011, a rotating plate 202, a rotating shaft 203, a cylinder I206, an upper transmission caterpillar track and a lower transmission caterpillar track, wherein the lower transmission caterpillar track comprises a servo motor 207, a driving gear 208, a transmission shaft I210, a chain wheel I211 and a chain I212, two groups of transmission shafts I210 in the lower transmission caterpillar track are movably connected to the rack 11 through bearing seats, the transmission shafts I210 are provided with the chain wheels I211, the chain wheels I211 are provided with the chains I212, the shaft ends of the transmission shafts I210 are provided with the driving gear 208, the transmission shafts I210 are connected with the servo motor 207 through couplings, and the servo motor 207 is fixedly connected to the;

the upper part of the front end of the lower transmission caterpillar is provided with an adjusting mechanism 13, the adjusting mechanism 13 comprises a cylinder II 301, a cam 302, a rotating shaft I303 and aligning claws 304, the rotating shaft I303 is connected to the rack 11 through a bearing seat, the two ends of the rotating shaft I303 are provided with the cams 302, the bottom of one end of each cam 302 is provided with the cylinder II 301, the tail of each cylinder II 301 is fixedly connected to the rack 11, the rotating shaft I303 is provided with the aligning claws 304, the aligning claws 304 are arranged in a gap between the chain I212 and the chain I212, the side wall of the connecting plate 2011 is provided with a plurality of photoelectric switches, when a small veneer enters, the photoelectric switches are shielded to give out signals, the cylinder II ejects out the cam to drive the aligning claws to lift up, the aligning claws to align the small veneers in the transverse direction, after alignment, the aligning claws are retracted, and the small veneers;

go up the transmission caterpillar track including driven gear 209, transmission shaft I210, sprocket I211, I212 of chain, one of them I210 of a set of transmission shaft passes through the bearing frame and connects on curb plate 201 in going up the transmission caterpillar track, go up I210 of another I210 of a set of transmission shaft and connect on rotor plate 202 through the bearing frame in the transmission shaft, be equipped with a plurality of sprockets I211 on the transmission shaft I210, be equipped with I212 of chain on the sprocket I211, the rotor plate 202 other end passes through rotation axis 203 swing joint on curb plate 201, I210 axle heads of transmission shaft that set up on the rotor plate 202 are equipped with driven gear 209, go up I axle head driving gear 209 meshing I axle head driving gear 208 of transmission shaft in the transmission caterpillar track of transmission shaft, servo motor provides power, driving gear meshing driven gear, further drive last transmission caterpillar track, chain rotates and sends into hot melt adhesive line rubberizing.

The hot melt adhesive line gluing mechanism 14 comprises a branching perforator 401, a gluing claw 402, a line arranging groove 403, a glue tank 404 and a heating block 405, wherein the branching perforator 401 is arranged on the side wall of the glue tank 404, a plurality of through holes are formed in the branching perforator 401, the branching perforator 401 groups the hot melt adhesive lines on the tray 19 through the through holes, so that a plurality of groups of hot melt adhesive lines are arranged on the small single plates for splicing, the gluing claw 402 is arranged in the glue tank 404, the line arranging groove 403 is arranged on the upper portion of the gluing claw 402, the heating block 405 is arranged on one side of the upper portion of the glue tank corresponding to the line arranging groove 403, the glue groove is formed in the heating block 405, the hot melt adhesive lines enter the line arranging groove through the branching perforator, then pass through the gluing claw and finally penetrate into the glue groove in the heating block, the hot melt adhesive is melted through the heating block, and when the small single plates pass through, the glue lines in the glue groove are driven by.

The butt-joint gluing mechanism 15 comprises a cold water tank 601, a supporting wheel 602, a rotating shaft II 603, a pressing wheel 604, a pressing wheel support 605, a tension spring II 606 and a support II 607, the cold water tank 601 is internally provided with the rotating shaft II 603, the rotating shaft II 603 is connected to the cold water tank 601 through a bearing seat, the rotating shaft II 603 is provided with a plurality of supporting wheels 602, the upper part of the supporting wheel 602 is provided with the pressing wheel 604, the pressing wheel 604 is arranged in the pressing wheel support 605, one end of the pressing wheel support 605 is provided with the tension spring II 606, the other end of the tension spring II 606 is connected with the support II 607, the support II 607 is arranged on a supporting beam 213, the pressing wheel tightly adheres to the supporting wheel under the action of the tension spring II, the pressing wheel and the supporting wheel can firmly.

The fixed-length shearing mechanism 16 comprises a motor I501, a speed reducer 502, a transmission shaft II 503, an eccentric wheel 504, a connecting rod 505, a placing rack 506, a shearing knife 507, a cutting board 508 and a guide block 509, the speed reducer 502 is arranged on one side of the motor I501 and connected with the motor I501 through a belt, a chain wheel is arranged at the shaft end of the speed reducer 502, a chain wheel is arranged at the shaft end of the transmission shaft II 503, the chain wheel at the shaft end of the speed reducer is connected with the chain wheel at the shaft end of the transmission shaft II 503 through a chain, the eccentric wheel 504 is provided with the connecting rod 505, the connecting rod 505 is connected with the placing rack 506, the placing rack 506 is provided with the shearing knife 507, the cutting board 508 is arranged at the bottom of the shearing knife 507, the guide block 509 is.

The bottom of the chain I212 in the lower transmission chain rail is provided with a supporting plate 218, and the supporting plate 218 prevents the chain I in the lower transmission chain rail from sagging in the transmission process to influence the transmission action.

The upper portion of the chain I212 in the upper transmission caterpillar track is provided with a pressing plate 219, the upper portion of the pressing plate 219 is provided with a fixing plate 220, the fixing plate 220 is arranged on a supporting beam 213, the supporting beam 213 is arranged on the rotating plate 202, a plurality of positioning pins 222 and bolts 223 are arranged between the fixing plate 220 and the pressing plate 219, springs 221 are arranged on the outer sides of the bolts 223, the pressing plate presses down and tensions the chain I in the upper transmission caterpillar track through the elasticity of the springs, and the chain I in the lower transmission caterpillar track is further matched to convey a small single plate.

The upper transmission caterpillar track is internally provided with a tensioning chain wheel 214, the chain I212 is lapped on the tensioning chain wheel 214, the tensioning chain wheel 214 is arranged on a chain wheel support 215, one end of the chain wheel support 215 is provided with a tension spring I216, the other end of the tension spring I216 is connected with a support I217, the support I217 is arranged on a support beam 213, and the chain I in the upper transmission caterpillar track is always in a tensioning state in the transmission process through the action of the tension spring I and the tensioning chain wheel, so that the stable operation of the small transmission veneers is facilitated.

The lateral wall of the rotating plate 202 is provided with a guide plate 204, the other side of the guide plate 204 is arranged in a guide groove 205, the guide groove 205 is fixedly connected with the lateral wall of the side plate 201, and the rotating plate can smoothly and freely move in the ejection and falling process of the cylinder I under the guiding action of the guide plate, so that the deviation in the ejection and falling process is prevented from influencing the stable operation of the transmission caterpillar track mechanism.

The utility model provides a full-automatic small strip makeup machine, the working process as follows: the small veneers are aligned to feed through one end of the guiding ruler, synchronous feeding of the small veneers is realized through the adjusting mechanism, the small veneers are conveyed into the hot melt adhesive line gluing mechanism through an upper transmission chain rail and a lower transmission chain rail in the transmission chain rail mechanism, the hot melt adhesive is melted through the heating block, the small veneers are driven by friction force to move through the adhesive line in the adhesive groove when passing through, the hot melt adhesive is uniformly hung on the veneers and finally enters the butt-joint gluing mechanism, the adhesive line is firmly glued on the veneers while the hot melt adhesive on the adhesive line is cooled through the supporting wheels and the pressing wheels, the small veneers are spliced together, and after the spliced veneers reach the required length, the veneers and the adhesive line are cut through the fixed-length shearing 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 (9)

1. A full-automatic small strip plate splicing machine comprises a rack, a transmission caterpillar track mechanism, an adjusting mechanism, a hot melt adhesive line gluing mechanism, a butt gluing mechanism, a fixed-length shearing mechanism, a guiding rule, a glue line support, a tray and stand columns, and is characterized in that the adjusting mechanism is arranged at the front end of the rack, the guiding rule is arranged on one side of the adjusting mechanism, the transmission caterpillar track mechanism is arranged on the upper portion of the rack and comprises an upper transmission caterpillar track and a lower transmission caterpillar track, the hot melt adhesive line gluing mechanism is arranged between the upper transmission caterpillar track and the lower transmission caterpillar track, the butt gluing mechanism is arranged on the rear side of the hot melt adhesive line gluing mechanism, the glue line support is arranged on one side of the rack, the tray is arranged on the upper portion of the glue line support, and the stand columns are arranged on the; the rear side of the transmission caterpillar track mechanism is provided with a fixed-length shearing mechanism.

2. The full-automatic small strip plate splicing machine according to claim 1, wherein the transmission caterpillar mechanism comprises a side plate, a connecting plate, a rotating shaft, a cylinder I, an upper transmission caterpillar and a lower transmission caterpillar, the lower transmission caterpillar comprises a servo motor, a driving gear, transmission shafts I, chain wheels I and chains I, two groups of transmission shafts I in the lower transmission caterpillar are movably connected to the machine frame through bearing seats, the transmission shafts I are provided with the chain wheels I, the chain wheels I are provided with the chains I, the ends of the transmission shafts I are provided with the driving gear, the transmission shafts I are connected with the servo motor through couplings, and the servo motor is fixedly connected to the side wall of the side plate;

the upper part of the front end of the lower transmission caterpillar track is provided with an adjusting mechanism, the adjusting mechanism comprises a cylinder II, a cam, a rotating shaft I and aligning claws, the rotating shaft I is connected to the rack through a bearing seat, the cams are arranged at two ends of the rotating shaft I, the cylinder II is arranged at the bottom of one end of the cam, the tail of the cylinder II is fixedly connected to the rack, the rotating shaft I is provided with a plurality of aligning claws, and the side wall of the connecting plate is provided with a plurality of photoelectric switches;

go up transmission caterpillar track including driven gear, transmission shaft I, sprocket I, chain I, go up transmission caterpillar track wherein a set of transmission shaft I passes through the bearing frame and connects on the curb plate, go up transmission caterpillar track in another group transmission shaft I passes through the bearing frame and connects on the rotor plate, be equipped with a plurality of sprockets I on the transmission shaft I, be equipped with chain I on the sprocket I, the rotor plate other end passes through rotation axis swing joint on the curb plate, I axle heads of transmission shaft that set up on the rotor plate are equipped with driven gear, go up transmission caterpillar track in I axle head driven gear meshing down I axle head driving gear of transmission shaft in the transmission caterpillar track.

3. The full-automatic small strip plate splicing machine according to claim 1, wherein the hot melt adhesive line gluing mechanism comprises a line dividing perforator, a glue dipping claw, a line arranging groove, a glue pool and a heating block, the side wall of the glue pool is provided with the line dividing perforator, the line dividing perforator is provided with a plurality of perforations, the glue pool is internally provided with the glue dipping claw, the upper part of the glue dipping claw is provided with the line arranging groove, one side of the upper part of the glue pool corresponding to the line arranging groove is provided with the heating block, and the heating block is provided with the glue groove.

4. The full-automatic small strip plate splicing machine according to claim 1, wherein the butt-bonding mechanism comprises a cold water tank, supporting wheels, a rotating shaft II, a pressing wheel support, a tension spring II and a support II, the rotating shaft II is arranged in the cold water tank, the rotating shaft II is connected in the cold water tank through a bearing seat, a plurality of supporting wheels are arranged on the rotating shaft II, the pressing wheel is arranged on the upper portion of the supporting wheel and is arranged in the pressing wheel support, the tension spring II is arranged at one end of the pressing wheel support, the other end of the tension spring II is connected with the support II, and the support II is arranged.

5. The full-automatic small plate splicing machine according to claim 1, wherein the sizing and shearing mechanism comprises a motor I, a speed reducer, a transmission shaft II, an eccentric wheel, a connecting rod, a placing frame, a shearing knife, a chopping block and a guide block, the speed reducer is arranged on one side of the motor I and connected with the motor I through a belt, a chain wheel is arranged at the shaft end of the speed reducer, a chain wheel is arranged on the shaft end of the transmission shaft II, the chain wheel at the shaft end of the speed reducer is connected with the chain wheel at the shaft end of the transmission shaft II through a chain, the eccentric wheel is arranged on one side of the chain wheel at the shaft end of the transmission shaft II, the connecting rod.

6. The full-automatic small strip plate splicing machine as claimed in claim 2, wherein a support plate is arranged at the bottom of the chain I in the lower transmission chain track.

7. The full-automatic small strip plate splicing machine as claimed in claim 2, wherein a pressing plate is arranged on the upper portion of the chain I in the upper transmission chain track, a fixing plate is arranged on the upper portion of the pressing plate, the fixing plate is arranged on the supporting beam, the supporting beam is arranged on the rotating plate, a plurality of positioning pins and bolts are arranged between the fixing plate and the pressing plate, and springs are arranged on the outer sides of the bolts.

8. The full-automatic small strip plate splicing machine as claimed in claim 2, wherein a tensioning sprocket is arranged in the upper transmission chain track, the chain I is lapped on the tensioning sprocket, the tensioning sprocket is arranged on a sprocket support, one end of the sprocket support is provided with a tension spring I, the other end of the tension spring I is connected with a support I, and the support I is arranged on the support beam.

9. The machine for automatically splicing small strips as claimed in claim 2, wherein the side wall of the rotating plate is provided with a guide plate, the other side of the guide plate is disposed in a guide groove, and the guide groove is fixedly connected to the side wall of the side plate.