CN113319951A - Full-automatic wedging seamless finger joint equipment for bamboo joints - Google Patents

Abstract

The invention relates to the field of plate processing, in particular to a full-automatic wedge-closing seamless finger joint device for bamboo joints, which comprises two feeding devices; the number of the gluing devices is two, and the gluing ends face the corresponding feeding devices respectively; the clamping devices are arranged in two numbers, and the clamping ends respectively face to the direction close to the feeding device; the moving device is arranged on one side of the output end of the feeding device, and two ends of the moving device are respectively and fixedly provided with a clamping device; the heating end faces to the direction close to the feeding device; and the input end of the discharging device is arranged below the heating end of the heating device. The invention can rapidly complete the full-automatic seamless finger joint work of bamboo joints, liberates unnecessary manpower consumption, improves the working efficiency of the whole equipment, reduces the occurrence frequency of defective products because most of the work is completed by machines, and improves the production efficiency of the whole equipment.

Description

Full-automatic wedging seamless finger joint equipment for bamboo joints

Technical Field

The invention relates to the field of plate processing, in particular to full-automatic wedge-joint seamless finger joint equipment for bamboo joints.

Background

As a common board in the decoration industry, the finger-jointed timber has many advantages, and the main advantage is that low-grade and short-size timber can be utilized, so that the forest resource value can be more effectively utilized. And the length of the board obtained by finger joint is no longer limited to the size of the tree, and the product obtained by this method has higher straightness and dimensional stability compared with the ordinary board. At present, the common plate finger joint mode in the market is that two plates are fixed in position respectively by manpower, and then one of the plates is controlled to move towards the other plate, so that the working efficiency is very low. Secondly, there is the condition of manual operation in the process of finger joint, easily produces the mistake and produces the defective goods under the condition of mass production, has reduced holistic production efficiency.

Disclosure of Invention

In order to solve the technical problem, the full-automatic wedging seamless finger joint equipment for bamboo joints is provided.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a full-automatic wedging seamless finger joint device for bamboo joints, which comprises,

the feeding devices are arranged in two numbers, and the two feeding devices are arranged in parallel and are separated from each other by a certain distance;

the glue spreading devices are arranged in two numbers, the two glue spreading devices are arranged between the two feeding devices, and the glue spreading end of each glue spreading device faces to the corresponding feeding device;

the clamping devices are arranged in two numbers, each clamping device is arranged at the output end of one feeding device, and the clamping ends of the two clamping devices face the direction close to the feeding devices;

the moving device is arranged on one side of the output end of the feeding device, and two ends of the moving device are respectively and fixedly provided with a clamping device;

the heating device is arranged at the middle part of the moving device, and the heating end faces to the direction close to the feeding device;

and the discharging device is arranged at the middle position of the interval between the two feeding devices, the input end of the discharging device is arranged below the heating end of the heating device, and the output end of the discharging device extends towards the direction far away from the heating device.

Preferably, the feeding device comprises:

a feed conveyor belt frame;

the feeding conveyor belt is fixed on the feeding conveyor belt rack, and the belt surface of the feeding conveyor belt is provided with uniformly distributed limiting columns;

the number of the L-shaped supports is eight, the short edges of five L-shaped supports are fixed on one side surface of the feeding conveyor belt rack, the short edges of three L-shaped supports are fixed on the other side surface of the feeding conveyor belt rack, and the long edges of the eight L-shaped supports point to the direction far away from the feeding conveyor belt rack;

the feeding baffle is integrally rectangular plate-shaped, is arranged on one side of the five L-shaped supports and is fixedly connected with the L-shaped supports, and the height of the fixed position of the feeding baffle is higher than that of the feeding conveyor belt;

the feeding baffle plate II is integrally rectangular plate-shaped, is arranged on one side of the three L-shaped supports and is fixedly connected with the L-shaped supports, the height of the fixed position of the feeding baffle plate II is higher than that of the feeding conveyor belt, and the length of the feeding baffle plate II is smaller than that of the feeding baffle plate I;

the output shaft of the first motor is connected with one end of the feeding conveyor belt.

Preferably, the glue spreading device comprises:

a gluing device frame;

the gluing device comprises a gluing device shell, a main body of the gluing device shell is a stepped box body, the top surface of the gluing device shell is a rectangular plate with the same size as the bottom surface of the gluing device shell, a circular through hole and two cylindrical bulges are arranged on the top surface of the gluing device, two circular through holes with the positions corresponding to the two cylindrical bulges are arranged on the middle surface of the gluing device shell, and two cylindrical bulges with the positions corresponding to the two circular through holes are arranged on the bottom surface of the gluing device shell;

the gluing device comprises a gluing device central gear, a gluing device shell and a gluing device driving device, wherein one surface of the gluing device central gear is provided with a circular groove, the other surface of the gluing device central gear is provided with a limiting groove, and the gluing device central gear is rotatably fixed on the bottom surface of the gluing device shell;

one side of the gluing device control gear is provided with a circular groove, the other side of the gluing device control gear is provided with a limiting groove, and the gluing device control gear is rotatably fixed on the bottom surface of the gluing device shell;

one end of the gluing device transmission belt is meshed with the central gear of the gluing device, and the other end of the gluing device transmission belt is meshed with the control gear of the gluing device;

the gluing roller is integrally cylindrical, a cylindrical bulge is arranged at one end of the gluing roller, a limiting groove is formed in the cylindrical bulge, a circular groove is formed in the other end of the gluing roller, and the gluing roller is fixedly connected with a central gear of the gluing device;

the auxiliary roller is integrally cylindrical, a cylindrical protrusion is arranged at one end of the auxiliary roller, a circular groove is formed in the cylindrical protrusion, a circular groove is formed in the other end of the auxiliary roller, and the auxiliary roller is rotatably fixed on the bottom surface of the shell of the gluing device;

the glue spreading belt is arranged between the middle surface of the shell of the gluing device and the top surface of the shell of the gluing device, and the gluing roller and the auxiliary roller respectively penetrate through two ends of the glue spreading belt and are fixedly connected with the glue spreading belt;

the gluing mechanism is fixed on the frame of the gluing device, and the output end of the gluing mechanism is connected with a gluing belt;

and an output shaft of the second motor is connected with a control gear of the gluing device.

Preferably, the whole cuboid box-shaped that is of rubberizing mechanism, a through-hole that can coincide with the spreading tape width is seted up to a side of rubberizing mechanism, and the top surface of rubberizing mechanism is provided with the connector that is used for being connected with the air pump, still is provided with the buckle mechanism with top surface cooperation work simultaneously on the side that the through-hole was seted up to rubberizing mechanism.

Preferably, the grasping apparatus includes:

the short edge of the L-shaped support frame is fixed at one end of the mobile device, the long edge of the L-shaped support frame extends towards the direction far away from the mobile device, and threaded holes which are uniformly distributed are formed in the long edge of the L-shaped support frame;

the fixing transverse plate is integrally rectangular and plate-shaped, two circular through holes are formed in the two ends and the middle position of the fixing transverse plate, and the middle position of the fixing transverse plate is fixedly connected with the long edge of the L-shaped support frame through a bolt;

the clamping mechanisms are arranged in two numbers, the two clamping mechanisms are respectively fixed at two ends of the fixed transverse plate, and the clamping ends of the two clamping mechanisms face the feeding device;

preferably, the gripping mechanism includes:

the whole fixed plate is in a square plate shape, a circular through hole is formed in the center of the fixed plate, and the top surface of the fixed plate is fixedly connected with the fixed transverse plate;

the support frame is integrally in a cuboid strip shape, two square bulges are arranged at one end of the support frame, a 90-degree included angle is formed between the two square bulges, the two square bulges on the support frame are respectively and fixedly connected with one side surface and the top surface of the fixed plate, and the number of the support frame is two;

the rectangular sleeves are fixedly connected with the other end of the supporting frame, the opening direction of each rectangular sleeve is parallel to the direction of the through hole in the fixing plate, and the number of the rectangular sleeves is two;

the sliding strips are integrally formed by combining a horizontal cuboid strip and an inclined cuboid strip, the intersection angle is an obtuse angle, cylindrical protrusions extending towards two sides are arranged at the intersection position, the inclined parts of the sliding strips are inserted into the rectangular sleeve and are in sliding connection with the rectangular sleeve, and the number of the sliding strips is two;

the whole connecting rod is in a cuboid strip shape, a circular through hole is formed in one end of the connecting rod, a cylindrical bulge is arranged at the other end of the connecting rod, the end, provided with the circular through hole, of the connecting rod is rotatably connected with the cylindrical bulge on the sliding strip, and the number of the connecting rods is two;

the clamping plates are L-shaped plate-shaped, the short edges of the clamping plates are fixed at one end, away from the fixed plate, of the horizontal part in the sliding strip, the long edges of the clamping plates are arranged on one surface, close to the fixed plate, of the sliding strip, and the number of the clamping plates is two;

the first cylinder is fixed on the bottom surface of the fixing plate, the piston rod faces the direction of the clamping plate, and one end, away from the first cylinder, of the piston rod is connected with one end, provided with a cylindrical protrusion, of the connecting rod.

Preferably, the moving means comprises:

the mobile device base is integrally in a cuboid shell shape, a sliding groove is formed in the middle of the interior of the mobile device base, a rectangular through hole is formed in the middle of one side face of the mobile device base, and a cylindrical protrusion is arranged in the center of the bottom face of the interior of the mobile device base;

the thickness of the mobile device central gear is smaller than the internal height of the mobile device base, one surface of the mobile device central gear is provided with a circular groove, and the mobile device central gear is rotatably arranged in the mobile device base;

the tail end of the rack is provided with a rectangular plate, the whole thickness of the rack is the same as that of a sliding chute in a base of the mobile device, the rack is connected in the sliding chute in a sliding manner, gear parts of the rack are meshed with a central gear of the mobile device, and the number of the racks is two;

the rack sliding blocks are integrally rectangular blocks in a convex shape, the convex ends of the rack sliding blocks are fixedly connected with the rectangular plates on the racks, the number of the rack sliding blocks is two, and each rack sliding block is fixedly connected with one clamping device;

one surface of the mobile device control gear is provided with a limit groove;

one end of the mobile device transmission belt is meshed with the mobile device central gear, and the other end of the mobile device transmission belt is meshed with the mobile device control gear;

and an output shaft of the third motor is connected with the control gear of the mobile device.

Preferably, the heating means comprises:

the number of the heating wires is two;

the heating device bottom plate is integrally in a cuboid box shape, the heating wire is arranged in the heating device bottom plate, and two fixed short plates and a first connecting port for connecting a circuit are arranged on the side surface of the heating device bottom plate;

the heating device top plate is integrally in a cuboid box shape, the heating wire is arranged in the heating device top plate, and a second connecting port for connecting a circuit is formed in the side surface of the heating device top plate;

one end of each sliding rail is fixed on one surface of the heating device bottom plate, which is provided with the first connecting port, the extending direction of each sliding rail faces upwards, and the number of the sliding rails is two;

one end of each sliding strip is fixed on one surface of the heating device top plate, which is provided with the second connecting port, the sliding strips are connected with the sliding rails in a sliding mode, one ends, fixed with the heating device top plate, of the sliding strips are arranged downwards, and the number of the sliding strips is two;

the shaft seats are fixed on one surface of the top plate of the heating device, which is provided with a second connecting port, and the number of the shaft seats is two;

and the two cylinders are fixed on the fixed short plate of the heating device bottom plate, the piston rods face the upper part and are connected with the shaft seat, and the number of the two cylinders is two.

Preferably, the discharging device comprises:

the discharging device frame is arranged in the middle of the moving device;

the number of the turnover cylinders is two, the turnover cylinders are fixed on the discharging device rack, two fixed short plates on the heating device bottom plate are respectively and fixedly connected with turnover plates of the two turnover cylinders, and the turnover direction of the turnover cylinders faces to the feeding device;

the adjusting bolts are fixed on the side wall of the turnover cylinder, the telescopic ends face the direction of the feeding device, and the number of the adjusting bolts is two;

the discharging conveyor belt frame is arranged on one side, close to the feeding device, of the discharging device frame and extends towards the direction far away from the discharging device frame;

the discharging conveyor belt is fixed on the discharging conveyor belt rack, and a limiting column is arranged on the belt surface of the discharging conveyor belt;

the whole discharge baffle is in a rectangular plate shape, the discharge baffles are fixed on the side edge of the discharge conveyor belt rack, and the number of the discharge baffles is two;

the discharging guide inclined platform is integrally an integral part consisting of two side plates and an inclined plate, the distance between the two side plates is equal to the width of the discharging conveyor belt rack, the bottom surface of the inclined plate is higher than the discharging conveyor belt, and the top surface of the inclined plate is lower than the bottom plate of the heating device;

and an output shaft of the third motor is connected with the discharging conveyor belt.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the error rate of the plate finger joint is controlled by using the mobile device to control the finger joint process, so that the occurrence frequency of defective products is reduced.

2. The invention can ensure that the plates can be more fully connected together by clamping the finger joint ends of the plates by the top plate of the heating device and the bottom plate of the heating device for heating, thereby improving the bonding stability of the plates after finger joint.

3. According to the invention, the function that the finger-jointed plates can leave the equipment quickly is realized in a mode that the turnover cylinder and the discharge guide inclined table work in a matched manner, and the overall working efficiency of the equipment is improved.

The full-automatic seamless finger joint machine can quickly complete full-automatic seamless finger joint work of plates, liberates unnecessary manpower consumption, improves the work efficiency of the whole equipment, reduces the occurrence frequency of defective products due to the fact that most of work is completed by the machine, and improves the production efficiency of the whole equipment.

Drawings

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is a perspective view of the feeding device of the present invention;

FIG. 3 is a perspective view of the glue applicator of the present invention;

FIG. 4 is an exploded view of the gluing device of the present invention;

fig. 5 is a perspective view of the grasping apparatus of the present invention;

fig. 6 is a perspective view of the grasping mechanism of the present invention;

FIG. 7 is an exploded view of the gripping mechanism of the present invention;

FIG. 8 is a perspective view of the mobile device of the present invention; (ii) a

FIG. 9 is a cross-sectional view of a mobile device of the present invention;

FIG. 10 is a perspective view of a heating device of the present invention;

FIG. 11 is a cross-sectional view of a heating device of the present invention;

fig. 12 is a perspective view of the discharge device of the present invention.

The reference numbers in the figures are:

1-a feeding device; 1 a-a feed conveyor belt housing; 1 b-a feed conveyor; 1 c-L-shaped scaffold; 1 d-a feeding baffle; 1 e-feed baffle No. two; 1 f-motor number one; 1b 1-stop post;

2-a gluing device; 2 a-a gluing device frame; 2 b-gluing device shell; 2 c-central gear of gluing device; 2 d-controlling the gear by the gluing device; 2 e-a transmission belt of a gluing device; 2 f-a glue-spreading roller; 2 g-auxiliary roller; 2 h-gluing a rubber belt; 2 i-a gluing mechanism; 2 j-motor number two; 2b 1-top surface of gluing device; 2b 2-middle surface of gluing device; 2i1 — vias; 2i 2-connection port; 2i 3-snap mechanism;

3-a gripping device; 3a-L shaped support; 3 b-fixing the transverse plate; 3 c-a gripping mechanism; 3c 1-dead plate; 3c 2-scaffold; 3c 3-oblong sleeve; 3c 4-slide bar; 3c 5-connecting rod; 3c6 splint; 3c 7-cylinder number one;

4-a mobile device; 4 a-a mobile device base; 4 b-a mobile device central gear; 4 c-rack; 4 d-rack slide block; 4 e-moving means control gear; 4 f-moving device belt; 4 g-motor III;

5-a heating device; 5 a-a heating wire; 5 b-heating device base plate; 5 c-heating the device top plate; 5 d-a slide rail; 5 e-a slide bar; 5 f-axle seat; 5 g-cylinder number two; 5b 1-stationary short plate; 5b 2-connection port I; 5c 1-connection port II;

6-a discharging device; 6 a-a discharging device frame; 6 b-a turnover cylinder; 6 c-adjusting bolts; 6 d-a discharge conveyor belt frame; 6 e-discharge conveyor belt; 6 f-a discharge baffle; 6 g-a discharge guide inclined table; 6 h-motor III; 6e 1-stop post; 6g 1-side panel; 6g 2-bevel board.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 12, a fully automatic wedging seamless finger joint device for bamboo joints comprises,

the feeding devices 1 are arranged in two, and the two feeding devices 1 are arranged in parallel and are separated from each other by a certain distance;

the number of the gluing devices 2 is two, the two gluing devices 2 are arranged between the two feeding devices 1, and the gluing end of each gluing device 2 faces the corresponding feeding device 1;

the number of the clamping devices 3 is two, each clamping device 3 is arranged at the output end of one feeding device 1, and the clamping ends of the two clamping devices 3 face the direction close to the feeding devices 1;

the moving device 4 is arranged on one side of the output end of the feeding device 1, and two ends of the moving device 4 are respectively and fixedly provided with the clamping device 3;

the heating device 5 is arranged at the middle part of the moving device 4, and the heating end faces to the direction close to the feeding device 1;

discharging device 6 sets up the interval intermediate position at two feed arrangement 1, and discharging device 6's input sets up in heating device 5's heating end below, and discharging device 6's output extends to the direction of keeping away from heating device 5.

The two parts A are respectively fed from the input ends of the two feeding devices 1, gluing is carried out by the corresponding gluing devices 2 before reaching the output ends, and the two parts A which finish the gluing work are respectively grabbed and clamped by the corresponding clamping devices 3 after reaching the output ends. The two grippers 3 respectively fixed at both ends of the moving means 4 are displaced by the moving means 4 to approach each other, and when the parts a respectively fixed by the two grippers 3 reach the heating means 5 and contact each other, the heating means 5 heats them to sufficiently combine the two parts a into one assembly B. After the heating, the two gripping devices 3 are simultaneously released and return to the initial position under the action of the moving device 4, the component B leaves the heating device 5 under the action of the discharging device 6, enters the discharging device 6 and then leaves the apparatus under the conveying action of the discharging device 6.

Referring to fig. 2, the following technical solutions are provided: the feed device 1 comprises a feed device which comprises,

a feed conveyor frame 1 a;

the feeding conveyor belt 1b is fixed on the feeding conveyor belt rack 1a, and the belt surface of the feeding conveyor belt 1b is provided with uniformly distributed limiting columns 1b 1;

the number of the L-shaped supports 1c is eight, the short sides of five L-shaped supports 1c are fixed on one side face of the feeding conveyor belt rack 1a, the short sides of three L-shaped supports 1c are fixed on the other side face of the feeding conveyor belt rack 1a, and the long sides of the eight L-shaped supports 1c point to the direction far away from the feeding conveyor belt rack 1 a;

the first feeding baffle 1d is integrally rectangular plate-shaped, is arranged on one side of the five L-shaped supports 1c and is fixedly connected with the L-shaped supports 1c, and the fixed position of the first feeding baffle 1d is higher than the feeding conveyor belt 1 b;

the second feeding baffle 1e is integrally rectangular plate-shaped, is arranged on one side of the three L-shaped supports 1c and is fixedly connected with the L-shaped supports 1c, the height of the fixed position of the second feeding baffle 1e is higher than that of the feeding conveyor belt 1b, and the length of the second feeding baffle 1e is smaller than that of the first feeding baffle 1 d;

and a first motor 1f, the output shaft of which is connected with one end of the feeding conveyor belt 1 b.

A motor 1f drive feeding conveyer belt 1b carries out work, and part A moves to the output under feeding conveyer belt 1 b's transportation, because set up spacing post 1b1 on feeding conveyer belt 1b, phenomenon such as the part A can not take place to skid in the midway of transportation, because the both sides of feeding conveyer belt 1b are provided with the reason of a feeding baffle 1d and No. two feeding baffles 1e respectively again, the phenomenon that the part A moved about or even dropped can not take place to take place in the midway of transportation.

Referring to fig. 3 to 4, the following technical solutions are provided: the gluing device 2 comprises a device for applying glue,

a gumming device frame 2 a;

the gluing device comprises a gluing device shell 2b, a main body of which is a stepped box body, wherein the top surface 2b1 of the gluing device shell is a rectangular plate with the same size as the bottom surface of the gluing device shell 2b, a circular through hole and two cylindrical protrusions are arranged on the top surface 2b1 of the gluing device shell, two circular through holes with positions corresponding to the two cylindrical protrusions are arranged on the middle surface 2b2 of the gluing device shell, and two cylindrical protrusions with positions corresponding to the two circular through holes are arranged on the bottom surface of the gluing device shell 2 b;

a central gear 2c of the gluing device is provided with a circular groove on one surface and a limit groove on the other surface, and the central gear 2c of the gluing device is rotatably fixed on the bottom surface of a shell 2b of the gluing device;

the gluing device control gear 2d is provided with a circular groove on one surface and a limiting groove on the other surface, and the gluing device control gear 2d is rotatably fixed on the bottom surface of the gluing device shell 2 b;

one end of a gluing device transmission belt 2e is meshed with a central gear 2c of the gluing device, and the other end of the gluing device transmission belt is meshed with a control gear 2d of the gluing device;

the gluing roller 2f is integrally cylindrical, a cylindrical bulge is arranged at one end of the gluing roller 2f, a limiting groove is formed in the cylindrical bulge, a circular groove is formed in the other end of the gluing roller 2f, and the gluing roller 2f is fixedly connected with a central gear 2c of the gluing device;

the auxiliary roller 2g is integrally cylindrical, a cylindrical protrusion is arranged at one end of the auxiliary roller, a circular groove is formed in the cylindrical protrusion, a circular groove is formed in the other end of the auxiliary roller 2g, and the auxiliary roller 2g is rotatably fixed on the bottom surface of the gluing device shell 2 b;

the gluing device comprises a gluing belt 2h, a gluing roller 2f and an auxiliary roller 2g, wherein the gluing belt 2h is arranged between the middle surface 2b2 of the shell of the gluing device and the top surface 2b1 of the shell of the gluing device, and the gluing roller 2f and the auxiliary roller 2g respectively penetrate through two ends of the gluing belt 2h and are fixedly connected with the same;

the gluing mechanism 2i is fixed on the gluing device frame 2a, and the output end of the gluing mechanism 2i is connected with a gluing belt 2 h;

and a second motor 2j, an output shaft of which is connected with a control gear 2d of the gluing device.

No. two motor 2j work drives rubber coating device control gear 2d and rotates, rubber coating device maincenter gear 2c who is connected with rubber coating device control gear 2d through rubber coating device drive belt 2e drives rubber coating cylinder 2f and rotates, because rubber coating cylinder 2f and auxiliary roller 2g pass the both ends of rubber coating belt 2h respectively and rather than fixed, rubber coating belt 2h follows the rotation of rubber coating cylinder 2f and rotates, the output of rubberizing mechanism 2i constantly outputs glue to the face of area of rubber coating belt 2h, rubber coating belt 2h just paints glue in part A's finger joint department.

Referring to fig. 4, the following technical solutions are provided:

the gluing mechanism 2i is integrally in the shape of a cuboid box, a through hole 2i1 which can be matched with the width of the gluing belt 2h is formed in one side face of the gluing mechanism 2i, a connecting port 2i2 used for being connected with an air pump is arranged on the top face of the gluing mechanism 2i, and a buckling mechanism 2i3 which is matched with the top face and works is further arranged on the side face, provided with the through hole, of the gluing mechanism 2 i.

Glue is added into the gluing mechanism 2i, when the glue in the gluing mechanism 2i is full, the gluing mechanism 2i is tightly closed by the buckle mechanism 2i3, then the air pump is used for pressurizing the gluing mechanism 2i through the connecting port 2i2, and the glue is coated on the surface of the gluing belt 2h through the through hole 2i1 on the side wall of the gluing mechanism 2i along with the rotation of the gluing belt 2 h.

Referring to fig. 5 to 7, the following technical solutions are provided: the gripping means 3 comprise a gripping device comprising,

the short edge of the L-shaped support frame 3a is fixed at one end of the moving device, the long edge of the L-shaped support frame 3a extends towards the direction far away from the moving device 4, and threaded holes which are uniformly distributed are formed in the long edge of the L-shaped support frame 3 a;

the fixing transverse plate 3b is integrally rectangular plate-shaped, two circular through holes are formed in the two ends and the middle position of the fixing transverse plate 3b, and the middle position of the fixing transverse plate 3b is fixedly connected with the long edge of the L-shaped support frame 3c2 through a bolt;

the clamping mechanisms 3c are arranged in two, the two clamping mechanisms 3c are fixed at two ends of the fixed transverse plate 3b respectively, and clamping ends of the two clamping mechanisms 3c face the feeding device 1.

The height that the clamping mechanism 3c can clamp is changed by changing the screw hole selected when the fixing cross plate 3b is fixedly connected with the L-shaped support frame 3c 2.

Referring to fig. 6 to 7, the following technical solutions are provided: the gripping mechanism 3c is comprised of,

the fixing plate 3c1 is integrally square plate-shaped, a circular through hole is formed in the center of the fixing plate 3c1, and the top surface of the fixing plate 3c1 is fixedly connected with the fixing transverse plate 3 b;

the support frame 3c2 is integrally in a cuboid strip shape, one end of the support frame 3c2 is provided with two square protrusions, an included angle of 90 degrees is formed between the two square protrusions, the two square protrusions on the support frame 3c2 are fixedly connected with one side face and the top face of the fixing plate 3c1 respectively, and the number of the support frames 3c2 is two;

the rectangular sleeves 3c3 are fixedly connected with the other end of the support frame 3c2, the opening direction of the rectangular sleeves 3c3 is parallel to the direction of the through hole on the fixing plate 3c1, and the number of the rectangular sleeves 3c3 is two;

the slide bars 3c4 are integrally formed by combining a horizontal cuboid strip and an inclined cuboid strip, the intersection angle is an obtuse angle, cylindrical protrusions extending towards two sides are arranged at the intersection position, the inclined parts of the slide bars 3c4 are inserted into the rectangular sleeve 3c3 and are connected with the rectangular sleeve in a sliding mode, and the number of the slide bars 3c4 is two;

the connecting rods 3c5 are integrally in a cuboid strip shape, one end of each connecting rod 3c5 is provided with a circular through hole, the other end of each connecting rod 3c5 is provided with a cylindrical bulge, one end of each connecting rod 3c5, which is provided with the circular through hole, is rotatably connected with the cylindrical bulge on the corresponding slide bar 3c4, and the number of the connecting rods 3c5 is two;

the clamping plate 3c6 is in an L-shaped plate shape, the short side of the clamping plate 3c6 is fixed at one end of the horizontal part of the sliding strip 3c4, which is far away from the fixed plate 3c1, the long side of the clamping plate 3c6 is arranged on one side, which is close to the fixed plate 3c1, of the sliding strip 3c4, and the number of the clamping plates 3c6 is two;

the first cylinder 3c7 is fixed on the bottom surface of the fixing plate 3c1, the piston rod faces the direction of the clamping plate 3c6, and one end of the piston rod, which is far away from the first cylinder 3c7, is connected with one end of the connecting rod 3c5, which is provided with a cylindrical protrusion.

When the first air cylinder 3c7 does work, the piston rod is far away from the fixed plate 3c1 and simultaneously drives the two connecting rods 3c5 connected with the piston rod to be far away from the fixed plate 3c1, at the moment, the two sliding strips 3c4 respectively connected with the two connecting rods 3c5 generate mutual approaching displacement under the constraint of the corresponding rectangular sleeves 3c3, and therefore the whole clamping mechanism 3c performs clamping action. Similarly, when the first cylinder 3c7 contracts, the piston rod approaches the fixed plate 3c1 and drives the two connecting rods 3c5 connected with the fixed plate to approach the fixed plate 3c1, the two sliding bars 3c4 generate displacement away from each other, and the whole clamping mechanism 3c performs releasing action.

Referring to fig. 8 to 9, the following technical solutions are provided: the mobile means 4 comprise a mobile device comprising,

the mobile device base 4a is integrally in a cuboid shell shape, a sliding groove is formed in the middle of the inside of the mobile device base 4a, a rectangular through hole is formed in the middle of one side face of the mobile device base 4a, and a cylindrical protrusion is arranged in the center of the bottom face of the inside of the mobile device base 4 a;

the thickness of the mobile device central gear 4b is smaller than the internal height of the mobile device base 4a, one surface of the mobile device central gear 4b is provided with a circular groove, and the mobile device central gear 4b is rotatably arranged in the mobile device base 4 a;

the tail end of the rack 4c is provided with a rectangular plate, the whole thickness of the rack 4c is the same as that of a sliding chute in the base 4a of the mobile device, the rack 4c is connected in the sliding chute in a sliding manner, the gear part of the rack 4c is meshed with the central gear 4b of the mobile device, and the number of the racks 4c is two;

the rack sliding blocks 4d are integrally rectangular blocks in a convex shape, the convex ends of the rack sliding blocks are fixedly connected with the rectangular plates on the racks 4c, the number of the rack sliding blocks 4d is two, and each rack sliding block 4d is fixedly connected with one clamping device 3;

one side of the mobile device control gear 4e is provided with a limit groove;

a moving device belt 4f having one end engaged with the moving device central gear 4b and the other end engaged with the moving device control gear 4 e;

and a third motor 4g, the output shaft of which is connected with a mobile device control gear 4 e.

When the moving device 4 works, the third motor 4g controls the rotating of the moving device control gear 4e, when the moving device control gear 4e rotates clockwise, the moving device central gear 4b connected through the moving device transmission belt 4f also rotates clockwise, and the two racks 4c meshed with the moving device central gear 4b drive the two rack 4c sliding blocks to approach each other. The two gripping devices 3, which are fixedly connected to the two toothed racks 4c, are also moved simultaneously in a direction towards the center of the moving device 4. Similarly, when the moving device control gear 4e drives the moving device central gear 4b to rotate counterclockwise, the two racks 4c drive the two clamping devices 3 fixedly connected therewith to move away from the center of the moving device 4.

Referring to fig. 10 to 11, the following technical solutions are provided: the heating means 5 comprise a heating device comprising,

two heating wires 5a are provided;

the heating device bottom plate 5b is integrally in a cuboid box shape, the heating wire 5a is arranged in the heating device bottom plate 5b, and the side surface of the heating device bottom plate 5b is provided with two fixed short plates 5b1 and a first connecting port 5b2 for connecting a circuit;

the heating device top plate 5c is integrally in a cuboid box shape, the heating wire 5a is arranged in the heating device top plate 5c, and a second connecting port 5c1 for connecting a circuit is arranged on the side surface of the heating device top plate 5 c;

one end of each slide rail 5d is fixed on one surface of the heating device bottom plate 5b, which is provided with the first connecting port 5b2, the extending direction of each slide rail 5d faces upwards, and the number of the slide rails 5d is two;

one end of each sliding strip 5e is fixed on one surface, provided with the second connecting port 5c1, of the heating device top plate 5c, the sliding strip 5e is connected with the sliding rail 5d in a sliding mode, one end, fixed with the heating device top plate 5c, of each sliding strip 5e faces downwards, and the number of the sliding strips 5e is two;

the shaft seats 5f are fixed on one surface of the heating device top plate 5c, which is provided with a second connecting port 5c1, and the number of the shaft seats 5f is two;

the second air cylinder 5g is fixed on a fixed short plate 5b1 of the bottom plate 5b of the heating device, the piston rod faces upwards and is connected with the shaft seat 5f, and the number of the second air cylinders 5g is two.

The two parts a are transported to the heating means 5 by the cooperation of the moving means 4 and the gripping means 3, and when the finger joints of the two parts a come into contact with each other, the moving means 4 stops operating and the heating means 5 starts operating. The two second cylinders 5g contract, and the piston rod moves downwards and simultaneously drives the heating device top plate 5c to move, because the heating device top plate 5c can only move in the up-and-down direction at the moment due to the existence of the sliding rails 5d and the sliding strips 5 e. When the heating device top plate 5c contacts the component A, the clamping device 3 performs the releasing action, at the moment, the two components A are fixed by the heating device bottom plate 5b and the heating device top plate 5c, and the heating wire 5a performs heat release to fully connect the two components A together.

Referring to fig. 12, the following technical solutions are provided: the discharging device 6 comprises a discharging device which comprises,

the discharging device frame 6a is arranged in the middle of the moving device 5;

the number of the turnover cylinders 6b is two, the turnover cylinders 6b are fixed on the discharging device rack 6a, two fixed short plates 5b1 on the heating device bottom plate 5b are respectively and fixedly connected with the turnover plates of the two turnover cylinders 6b, and the turnover direction of the turnover cylinders 6b faces to the feeding device 1;

the adjusting bolts 6c are fixed on the side wall of the turnover cylinder 6b, the telescopic ends face the direction of the feeding device 1, and the number of the adjusting bolts 6c is two;

the discharging conveyor belt frame 6d is arranged on one side, close to the feeding device 1, of the discharging device frame 6a, and the discharging conveyor belt frame 6d extends towards the direction far away from the discharging device frame 6 a;

the discharging conveyor belt 6e is fixed on the discharging conveyor belt frame 6d, and a limiting column 6e1 is arranged on the belt surface of the discharging conveyor belt 6 e;

the discharging baffle plates 6f are integrally rectangular plate-shaped, the discharging baffle plates 6f are fixed on the side edges of the discharging conveyor belt frame 6d, and the number of the discharging baffle plates 6f is two;

the discharging guide inclined platform 6g is integrally a whole body consisting of two side plates 6g1 and an inclined plane plate 6g2, the distance between the two side plates 6g1 is equal to the width of the discharging conveyor belt frame 6d, the bottom surface of the inclined plane plate 6g2 is higher than the discharging conveyor belt 6e, and the top surface of the inclined plane plate 6g2 is lower than the bottom plate 5b of the heating device;

no. three motor 6h, the output shaft is connected with exit conveyor 6 e.

Control upset cylinder 6B's rotation angle through manipulating adjusting bolt 6c, when upset cylinder 6B drove the heating device 5 rather than fixed connection and overturns to the fixed rotation angle of adjusting bolt 6c simultaneously, heating device 5 just keeps same gradient with ejection of compact guide sloping plate 6g2 in the sloping board 6g this moment, thereby No. two cylinder 5g work drives heating device roof 5c rebound release subassembly B, subassembly B slips off from heating device 5 and arrives on ejection of compact guide sloping board 6g arrives ejection of compact conveyer belt 6e, export in the whole equipment of follow-up transportation of ejection of compact conveyer belt 6e afterwards.

The working principle of the invention is as follows:

the method comprises the following steps: the two parts A are respectively input from the input ends of the two feeding devices, and the parts A can be stably output from the feeding devices in the same state due to the existence of the limiting columns and the feeding baffle plates.

Step two: the part A passes through the gluing device to be glued before being output from the feeding device, so that the finger joint end of the part A is full of glue when the part A is output from the feeding device to the clamping device.

Step three: the gripping device receives the part A leaving the output end of the feeding device and grips it, and the moving device then controls the gripping devices fixed respectively at the two ends of the moving device to move closer to each other, and stops when the two parts A reach the heating device and engage with each other.

Step four: the heating device starts to work, the second cylinder works to drive the top plate of the heating device to move downwards to enable the top plate of the heating device to be in contact with and pressed against the component A, and then the top plate of the heating device and the heating wire in the bottom plate of the heating device release heat to heat the finger joint of the two components A.

Step five: after heating is finished, the two clamping devices release and return to the initial position under the left and right of the moving device, the heating device overturns under the action of the overturning cylinder, and the overturning cylinder stops working after the overturning angle fixed by the adjusting bolt is reached.

Step six: at the moment, the heating device and the discharging guide inclined table in the discharging device are at the same inclination angle, the second air cylinder works to drive the top plate of the heating device to move upwards and leave, and the component B formed by the two parts A in a finger joint mode slides into the discharging guide inclined table and then reaches the discharging conveyor belt, and leaves the equipment under the transportation of the discharging conveyor belt.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A full-automatic wedging seamless finger joint device for bamboo joints is characterized by comprising,

the feeding devices (1) are arranged in two numbers, and the two feeding devices (1) are arranged in parallel and are separated from each other by a certain distance;

the number of the gluing devices (2) is two, the two gluing devices (2) are arranged between the two feeding devices (1), and the gluing end of each gluing device (2) faces the corresponding feeding device (1) respectively;

the clamping devices (3) are arranged in two numbers, each clamping device (3) is arranged at the output end of one feeding device (1), and the clamping ends of the two clamping devices (3) face to the direction close to the feeding devices (1);

the moving device (4) is arranged on one side of the output end of the feeding device (1), and two ends of the moving device (4) are respectively and fixedly provided with the clamping device (3);

the heating device (5) is arranged at the middle part of the moving device (4), and the heating end faces to the direction close to the feeding device (1);

discharging device (6) sets up the interval intermediate position at two feed arrangement (1), and discharging device's (6) input sets up in heating device's (5) heating end below, and discharging device's (6) output extends to the direction of keeping away from heating device (5).

2. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 1, wherein the feeding device (1) comprises,

a feed conveyor belt housing (1 a);

the feeding conveyor belt (1 b) is fixed on the feeding conveyor belt rack (1 a), and the belt surface of the feeding conveyor belt (1 b) is provided with uniformly distributed limiting columns (1 b 1);

the number of the L-shaped supports (1 c) is eight, the short sides of five L-shaped supports (1 c) are fixed on one side face of the feeding conveyor belt rack (1 a), the short sides of three L-shaped supports (1 c) are fixed on the other side face of the feeding conveyor belt rack (1 a), and the long sides of the eight L-shaped supports (1 c) point to the direction far away from the feeding conveyor belt rack (1 a);

the feeding baffle (1 d) is integrally rectangular plate-shaped, is arranged on one side of the five L-shaped supports (1 c) and is fixedly connected with the L-shaped supports (1 c), and the height of the fixed position of the feeding baffle (1 d) is higher than that of the feeding conveyor belt (1 b);

the second feeding baffle (1 e) is integrally rectangular plate-shaped, is arranged on one side of the three L-shaped supports (1 c) and is fixedly connected with the L-shaped supports (1 c), the height of the fixed position of the second feeding baffle (1 e) is higher than that of the feeding conveyor belt (1 b), and the length of the second feeding baffle (1 e) is smaller than that of the first feeding baffle (1 d);

a first motor (1 f), the output shaft of which is connected with one end of the feeding conveyor belt (1 b).

3. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 1, wherein the gluing device (2) comprises,

a gluing device frame (2 a);

the gluing device comprises a gluing device shell (2 b), a main body of the gluing device shell is a stepped box body, the top surface (2 b 1) of the gluing device shell is a rectangular plate with the same size as the bottom surface of the gluing device shell (2 b), the top surface (2 b 1) of the gluing device shell is provided with a circular through hole and two cylindrical bulges, the middle surface (2 b 2) of the gluing device shell is provided with two circular through holes corresponding to the two cylindrical bulges, and the bottom surface of the gluing device shell (2 b) is provided with two cylindrical bulges corresponding to the two circular through holes;

a central gear (2 c) of the gluing device is provided with a circular groove on one surface and a limiting groove on the other surface, and the central gear (2 c) of the gluing device is rotatably fixed on the bottom surface of a shell (2 b) of the gluing device;

a gluing device control gear (2 d), one surface of which is provided with a circular groove and the other surface of which is provided with a limit groove, and the gluing device control gear (2 d) is rotatably fixed on the bottom surface of a gluing device shell (2 b);

one end of a transmission belt (2 e) of the gluing device is meshed with a central gear (2 c) of the gluing device, and the other end of the transmission belt is meshed with a control gear (2 d) of the gluing device;

the gluing roller (2 f) is integrally cylindrical, a cylindrical bulge is arranged at one end of the gluing roller, a limiting groove is formed in the cylindrical bulge, a circular groove is formed in the other end of the gluing roller (2 f), and the gluing roller (2 f) is fixedly connected with a central gear (2 c) of the gluing device;

the auxiliary roller (2 g) is integrally cylindrical, one end of the auxiliary roller is provided with a cylindrical protrusion, a circular groove is formed in the cylindrical protrusion, the other end of the auxiliary roller (2 g) is provided with a circular groove, and the auxiliary roller (2 g) is rotatably fixed on the bottom surface of the gluing device shell (2 b);

the gluing device comprises a gluing belt (2 h), the gluing belt (2 h) is arranged between the middle surface (2 b 2) of the shell of the gluing device and the top surface (2 b 1) of the shell of the gluing device, and a gluing roller (2 f) and an auxiliary roller (2 g) respectively penetrate through two ends of the gluing belt (2 h) and are fixedly connected with the gluing belt (2 h);

the gluing mechanism (2 i) is fixed on the gluing device rack (2 a), and the output end of the gluing mechanism (2 i) is connected with the gluing belt (2 h);

and a second motor (2 j), and an output shaft of the second motor is connected with a control gear (2 d) of the gluing device.

4. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 3,

rubberizing mechanism (2 i) wholly is a cuboid box-like, and one through-hole (2 i 1) that can coincide with spreading tape (2 h) width have been seted up to a side of rubberizing mechanism (2 i), and the top surface of rubberizing mechanism (2 i) is provided with connector (2 i 2) that are used for being connected with the air pump, still is provided with buckle mechanism (2 i 3) with top surface cooperation work on the side that the through-hole was seted up in rubberizing mechanism (2 i) simultaneously.

5. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 1, characterized in that the clamping device (3) comprises,

the short edge of the L-shaped support frame (3 a) is fixed at one end of the moving device, the long edge of the L-shaped support frame extends towards the direction far away from the moving device (4), and threaded holes which are uniformly distributed are formed in the long edge of the L-shaped support frame (3 a);

the fixing transverse plate (3 b) is integrally rectangular plate-shaped, two circular through holes are formed in the two ends and the middle position of the fixing transverse plate (3 b), and the middle position of the fixing transverse plate (3 b) is fixedly connected with the long edge of the L-shaped support frame (3 c 2) through a bolt;

the clamping mechanisms (3 c) are arranged in two numbers, the two clamping mechanisms (3 c) are respectively fixed at two ends of the fixed transverse plate (3 b), and clamping ends of the two clamping mechanisms (3 c) face towards the feeding device (1).

6. The full-automatic wedging and seamless finger joint equipment for bamboo joints according to claim 5, wherein the clamping mechanism (3 c) comprises,

the fixing plate (3 c 1) is integrally square plate-shaped, a circular through hole is formed in the center of the fixing plate (3 c 1), and the top surface of the fixing plate (3 c 1) is fixedly connected with the fixing transverse plate (3 b);

the support frame (3 c 2) is integrally in a cuboid strip shape, one end of the support frame (3 c 2) is provided with two square bulges, an included angle of 90 degrees is formed between the two square bulges, the two square bulges on the support frame (3 c 2) are respectively and fixedly connected with one side surface and the top surface of the fixing plate (3 c 1), and the number of the support frames (3 c 2) is two;

the rectangular sleeves (3 c 3) are fixedly connected with the other end of the supporting frame (3 c 2), the opening direction of the rectangular sleeves (3 c 3) is parallel to the direction of the through hole on the fixing plate (3 c 1), and the number of the rectangular sleeves (3 c 3) is two;

the sliding strips (3 c 4) are integrally formed by combining a horizontal cuboid strip and an inclined cuboid strip, the intersection angle is an obtuse angle, cylindrical protrusions extending towards two sides are arranged at the intersection position, the inclined parts of the sliding strips (3 c 4) are inserted into the rectangular sleeve (3 c 3) and are in sliding connection with the rectangular sleeve, and the number of the sliding strips (3 c 4) is two;

the connecting rods (3 c 5) are integrally in the shape of a cuboid strip, a circular through hole is formed in one end of each connecting rod (3 c 5), a cylindrical bulge is arranged at the other end of each connecting rod (3 c 5), one end, provided with the circular through hole, of each connecting rod (3 c 5) is rotatably connected with the cylindrical bulge on the corresponding sliding strip (3 c 4), and the number of the connecting rods (3 c 5) is two;

the clamping plates (3 c 6) are L-shaped, the short sides of the clamping plates (3 c 6) are fixed at one end, away from the fixing plate (3 c 1), of the horizontal part in the sliding strip (3 c 4), the long sides of the clamping plates (3 c 6) are arranged on one surface, close to the fixing plate (3 c 1), of the sliding strip (3 c 4), and the number of the clamping plates (3 c 6) is two;

the first cylinder (3 c 7) is fixed on the bottom surface of the fixing plate (3 c 1), the piston rod faces the direction of the clamping plate (3 c 6), and one end, away from the first cylinder (3 c 7), of the piston rod is connected with one end, provided with a cylindrical protrusion, of the connecting rod (3 c 5).

7. The full-automatic wedging and seamless finger-joint equipment for bamboo joints according to claim 1, characterized in that: the mobile device (4) comprises a mobile device,

the mobile device base (4 a) is integrally in a cuboid shell shape, a sliding groove is formed in the middle of the inner portion of the mobile device base (4 a), a rectangular through hole is formed in the middle of one side face of the mobile device base (4 a), and a cylindrical protrusion is arranged in the center of the bottom face of the inner portion of the mobile device base (4 a);

the thickness of the mobile device central gear (4 b) is smaller than the internal height of the mobile device base (4 a), one surface of the mobile device central gear (4 b) is provided with a circular groove, and the mobile device central gear (4 b) is rotatably arranged in the mobile device base (4 a);

the tail end of the rack (4 c) is provided with a rectangular plate, the whole thickness of the rack (4 c) is the same as that of a sliding groove in a base (4 a) of the mobile device, the rack (4 c) is connected in the sliding groove in a sliding manner, a gear part of the rack (4 c) is meshed with a central gear (4 b) of the mobile device, and the number of the racks (4 c) is two;

the rack sliding blocks (4 d) are integrally in a convex rectangular block shape, the convex ends are fixedly connected with the rectangular plate on the rack (4 c), the number of the rack sliding blocks (4 d) is two, and each rack sliding block (4 d) is fixedly connected with one clamping device (3);

the mobile device controls the gear (4 e), and one surface of the mobile device is provided with a limit groove;

a moving device transmission belt (4 f) having one end engaged with the moving device central gear (4 b) and the other end engaged with the moving device control gear (4 e);

and a third motor (4 g), and an output shaft of the third motor is connected with a control gear (4 e) of the mobile device.

8. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 1, wherein the heating device (5) comprises,

two heating wires (5 a) are arranged;

the heating device bottom plate (5 b) is integrally in a cuboid box shape, the heating wire (5 a) is arranged in the heating device bottom plate (5 b), and the side surface of the heating device bottom plate (5 b) is provided with two fixed short plates (5 b 1) and a first connecting port (5 b 2) for connecting a circuit;

the heating device top plate (5 c) is integrally in a cuboid box shape, the heating wire (5 a) is arranged in the heating device top plate (5 c), and a second connecting port (5 c 1) for connecting a circuit is arranged on the side surface of the heating device top plate (5 c);

one end of each sliding rail (5 d) is fixed on one surface of the heating device bottom plate (5 b) provided with the first connecting port (5 b 2), the extending direction of each sliding rail (5 d) faces upwards, and the number of the sliding rails (5 d) is two;

one end of each sliding strip (5 e) is fixed on one surface, provided with the second connecting port (5 c 1), of the heating device top plate (5 c), the sliding strips (5 e) are connected with the sliding rails (5 d) in a sliding mode, one ends, fixed to the heating device top plate (5 c), of the sliding strips (5 e) face downwards, and the number of the sliding strips (5 e) is two;

the shaft seats (5 f) are fixed on one surface of the heating device top plate (5 c) provided with a second connecting port (5 c 1), and the number of the shaft seats (5 f) is two;

and the second air cylinders (5 g) are fixed on a fixed short plate (5 b 1) of the bottom plate (5 b) of the heating device, the piston rods face upwards and are connected with the shaft seats (5 f), and the number of the second air cylinders (5 g) is two.

9. The full-automatic wedging seamless finger joint equipment for bamboo joints according to claim 1, wherein the discharging device (6) comprises,

the discharging device rack (6 a) is arranged in the middle of the moving device (5);

the number of the turnover cylinders (6 b) is two, the turnover cylinders (6 b) are fixed on the discharging device rack (6 a), two fixed short plates (5 b 1) on the heating device bottom plate (5 b) are respectively and fixedly connected with turnover plates of the two turnover cylinders (6 b), and the turnover direction of the turnover cylinders (6 b) faces to the feeding device (1);

the adjusting bolts (6 c) are fixed on the side wall of the turnover cylinder (6 b), the telescopic ends face the direction of the feeding device (1), and the number of the adjusting bolts (6 c) is two;

the discharging conveyor belt frame (6 d) is arranged on one side, close to the feeding device (1), of the discharging device frame (6 a), and the discharging conveyor belt frame (6 d) extends towards the direction far away from the discharging device frame (6 a);

the discharging conveyor belt (6 e) is fixed on the discharging conveyor belt rack (6 d), and a limiting column (6 e 1) is arranged on the belt surface of the discharging conveyor belt (6 e);

the discharging baffle plates (6 f) are integrally rectangular plate-shaped, the discharging baffle plates (6 f) are fixed on the side edge of the discharging conveyor belt rack (6 d), and the number of the discharging baffle plates (6 f) is two;

the discharging guide inclined platform (6 g) is integrally an integral piece consisting of two side plates (6 g 1) and an inclined plane plate (6 g 2), the distance between the two side plates (6 g 1) is equal to the width of the discharging conveyor belt rack (6 d), the bottom surface of the inclined plane plate (6 g 2) is higher than the discharging conveyor belt (6 e), and the top surface of the inclined plane plate (6 g 2) is lower than the heating device bottom plate (5 b);

and a third motor (6 h), and an output shaft of the third motor is connected with the discharging conveyor belt (6 e).

Images