CN109015944A - Full-automatic wainscot hot press of environmental protection - Google Patents

Abstract

The invention provides an environment-friendly full-automatic veneering hot press, which breaks through the structural form of the traditional veneering hot press, and in the actual working process, under the control of a master controller, a veneering part carries out veneering operation on a template blank, then a cutting part cuts a continuous veneering template into veneering template blocks, and a conveying part conveys the veneering template blocks to a hot pressing part for hot pressing and forming. Compared with the prior art, the environment-friendly full-automatic veneering hot press can be used for continuously and smoothly performing multilayer veneering and hot press molding on a die plate blank, is high in efficiency and strong in practicability, and a finished veneered plywood is higher in strength.

Description

An environmentally friendly automatic veneer hot press machine

The patent application of the present invention is a divisional application of Chinese patent application number 201810775269.5. The original application number is 201810775269.5, and the application date is July 16, 2018. The title of the invention is a nitrogen energy storage multi-layer veneer hot press.

technical field

The invention relates to the field of plywood processing machinery, in particular to an environment-friendly automatic veneer hot press.

Background technique

Most plywood production processes need veneering, and the structure of the veneering hot press is known. For example, the Chinese utility model patent CN201720666563. The heat insulation board that is located between the main body of the veneer heat press and the oil cylinder; There are a plurality of main circulation through holes arranged parallel to each other along the main body of the heat insulation board and communicating through holes connecting adjacent main circulation through holes. The main body of the heat insulation board has successively adjacent first side, second side, second Three sides and the fourth side, each of the main circulation through holes is perpendicular to the first side and the third side, and the communication through holes include the first communication through hole on the first side and the third communication hole on the third side. The second communication through holes on the side, each of the first communication through holes and each of the second communication through holes are sequentially staggered; the first side is formed with a plurality of corresponding to each of the first communication through holes The first port is connected with the first port, and the first port is equipped with a detachable first sealing baffle; the third side is formed with a plurality of communication holes that communicate with each of the second communication holes one by one. The second port is equipped with a detachable second sealing baffle. The first port is directly corresponding to the two adjacent main circulation through holes, and the second port is directly corresponding to the two adjacent main circulation through holes.

The utility model can effectively insulate the oil cylinder, has a long service life, is easy to maintain, and is flexible and convenient to operate. But this utility model is similar to the general structure of other veneer heat presses on the market, all exists in the actual work process and can not carry out efficient multi-layer veneer, the defective of poor continuity, and practicability needs to be improved.

In view of this, the inventor of this case conducted in-depth research on the above-mentioned problem, and then this case was produced.

Contents of the invention

The purpose of the present invention is to provide an environment-friendly automatic veneer hot press capable of continuous and smooth multi-layer veneering and hot-press forming of template blanks, high efficiency, strong practicability, and higher strength of finished veneer plywood.

In order to achieve the above object, the present invention adopts such technical scheme:

An environment-friendly full-automatic veneer hot press machine, including a hot pressing part, which glues the surface layer on the formwork blank to form the veneer part of the continuous veneer formwork, and cuts the continuous veneer formwork to form the cutting part of the veneer formwork block, Conveying the veneer template blocks one by one to the conveying part of the hot pressing part, and the general controller for controlling the hot pressing part, veneer part, cutting part and conveying part;

The veneer part includes the first conveyor belt below, the conveyor wheel above the first conveyor belt and rotates synchronously with the first conveyor belt, the wheel drive motor that drives the conveyor wheel to rotate, and the mesh layer is covered The mesh covering device on the upper surface of the template blank on the first conveyor belt cooperates with the conveying wheel to supply the first supply wheel for the first surface layer, and cooperates with the conveying wheel to supply the second surface layer for the second surface layer. Supply wheel, first gluing device for gluing the first surface layer, second gluing device for gluing the second surface layer, and the mesh layer, first surface layer, second surface layer and template A pressing device for pressing blanks together; the first conveying belt includes a first upstream conveying wheel at the upstream, a first downstream conveying wheel at the downstream, and a belt that drives the first upstream conveying wheel or the first downstream conveying wheel to rotate first conveying motor; the axes of the conveying wheel, the first upstream conveying wheel and the first downstream conveying wheel are parallel; the conveying wheel has a downstream side facing the downstream direction of the first conveying belt, and an opposite direction The upstream side of the mesh covering device is located at the upstream side of the conveying wheel and above the first conveyor belt; the mesh covering device includes a mesh supply wheel for supplying the mesh layer above , and a flattening device that is below the mesh supply wheel and flattens the mesh layer on the upper surface of the template blank; the mesh layer is formed with mesh holes for glue penetration;

The flattening device includes a flattening wheel parallel to the mesh supply wheel, and a first pressure driving device that drives the flattening wheel to press the mesh layer downward; the first pressure driving device includes a bearing The first bearing frame of the flattening wheel, the first bearing fixing plate horizontally above the first bearing frame, two first guide rods connected above the first bearing frame and sliding upwards through the first bearing fixing plate, and A first compression spring that is sleeved outside the first guide rod and stretched between the first bearing fixing plate and the first bearing frame; the first bearing fixing plate is formed with a first spring through which the first guide rod slides. Sliding holes; the two first guide rods correspond to the two ends of the flattening wheel; the flattening wheel and the mesh supply wheel are all parallel to the axis of the delivery runner;

The first surface layer has a first glue brushing surface and a first back surface, and the second surface layer has a second glue brushing surface and a second back surface; the first supply wheel is on the upstream side of the conveying wheel, And the first surface layer released by the first supply wheel bypasses the upstream side of the conveying wheel and adheres to the upper surface of the template blank and the mesh cloth layer on the first conveying belt. A glue brushing surface faces outward for the first glue brushing device to brush glue; the second supply wheel is on the downstream side of the delivery runner, and the second surface layer released by the second supply wheel bypasses the The upstream side of the conveying wheel is glued together with the first back side facing upwards of the first surface layer, and the second glue brushing surface is outwardly supplied for the second glue brushing device to brush glue, and the second surface The layer is between the first surface layer and the conveying wheel; the first glue brushing device is on the upstream side of the conveying wheel, and the second glue brushing device is on the downstream side of the conveying wheel; Both the first supply wheel and the second supply wheel are parallel to the axis of the delivery runner; the mesh covering device is below the first glue brushing device;

The first glue brushing device includes a first glue roller for brushing glue on the first glue brush surface, a first glue supply tank for supplying glue to the first glue roller, and a first glue roller in contact with the first glue roller. And dip into the first glue roller in the glue of the first glue supply tank; the first glue roller and the first brush roller are all parallel to the axis of the conveying runner; the second glue brush The device includes a second glue roller for brushing the second glue surface, a second glue supply tank for supplying glue to the second glue roller, and a second glue supply tank that is in contact with the second glue roller and immersed in the second glue supply. The second rubber dipping roller in the glue of the groove; the second dipping rubber roller and the second brushing rubber roller are all parallel to the axis of the conveying runner;

The pressing device includes a pressing roller directly above the first downstream conveying wheel, and a second pressure driving device that drives the pressing roller to press the second surface layer downward; the second pressure driving device It includes a second carrier carrying the pressing rollers, a second carrier fixing plate horizontally above the second carrier, and two second guide rods connected above the second carrier and sliding upwards through the second carrier fixing plate , and a second compression spring set outside the second guide rod and stretched between the second load fixing plate and the second bearing frame; the second load fixing plate is formed with a sliding hole for the second guide rod The second sliding hole; the two second guide rods correspond to the two ends of the pressing roller;

The cutting part includes a cutting platform downstream of the first conveyor belt, a cutting knife above the cutting platform, and a cutting lifting device for driving the cutting knife up and down;

The conveying part includes a second conveyor belt downstream of the cutting platform, an array conveyor belt downstream of the second conveyor belt, an array running motor that drives the array conveyor belt, an array carrier that carries the array conveyor belt, A row supporting frame for supporting the row conveyor belts, and a swing driving device for swinging and driving the row carrier; the row conveyor belt has an input end corresponding to the second conveyor belt, and is connected to the first shaping The output end corresponding to the board; the arrangement support frame is supported on the input end, and the input end and the upper end of the arrangement support frame are connected together through a first rotating shaft so that the arrangement conveyor belt can be turned up and down; The oscillating driving device is a first fluid pressure cylinder supported under the arrangement carrier, and the arrangement carrier and the upper end of the oscillating driving device are connected together through a second rotating shaft parallel to the first rotating shaft.

The hot-pressing part includes a lower hot-pressing plate below, an upper hot-pressing plate directly above the lower hot-pressing plate, a shaping device for shaping the veneer template block, and a hot-press lifting drive for driving the upper hot-pressing plate up and down device; the lower heat press plate has successively adjacent first vertical side, second vertical side, third vertical side and fourth vertical side; The first shaping unit correspondingly connected, the second shaping unit correspondingly connected with the second vertical side, the third shaping unit correspondingly connected with the third vertical side, and the fourth vertical side The fourth shaping unit correspondingly connected to the side; the first shaping unit includes a first shaping plate pivotally connected with the first vertical side to turn up and down, located below the first shaping plate and connected to the first vertical The first horizontal support plate connected to the side, and the first telescopic support rod connected between the first shaping plate and the first horizontal support plate; the lower end of the first shaping plate is connected to the first vertical shaft through the first turning shaft The upper end of the first telescopic support rod is pivotally connected with the lower surface of the first shaping plate through the first upper end shaft, and the lower end of the first telescopic support rod is connected through the first lower end The rotating shaft is pivotally connected to the upper surface of the first horizontal support plate, the first turning shaft, the first upper end rotating shaft and the first lower end rotating shaft are parallel; the second shaping unit includes the second The vertical side is pivotally connected to the second shaping plate that is turned upside down, the second horizontal support plate is located below the second shaping plate and connected to the second vertical side, and is connected between the second shaping plate and the second horizontal support plate The second telescopic support rod; the lower end of the second shaping plate is pivotally connected to the second vertical side through the second turning shaft, and the upper end of the second telescopic support rod is connected to the second vertical shaft through the second upper end shaft. The lower surface of the second shaping plate is pivotally connected together, the lower end of the second telescopic support rod is pivotally connected with the upper surface of the second horizontal support plate through the second lower end rotating shaft, the second turning shaft, the first The second upper end shaft is parallel to the second lower end shaft; the third shaping unit includes a third shaping plate pivotally connected with the third vertical side to turn up and down, located below the third shaping plate and connected to the third vertical The third horizontal support plate connected to the side, and the third telescopic support rod connected between the third shaping plate and the third horizontal support plate; the lower end of the third shaping plate is connected to the third vertical support plate through the third turning shaft The upper end of the third telescopic support rod is pivotally connected with the lower surface of the third shaping plate through the third upper end shaft, and the lower end of the third telescopic support rod is connected through the third lower end shaft. It is pivotally connected with the upper surface of the third horizontal support plate, and the third turning shaft, the third upper end shaft and the third lower end shaft are parallel to each other; the fourth shaping unit includes a The fourth shaping plate whose side is pivoted to turn up and down, the fourth horizontal support plate that is below the fourth shaping plate and connected with the fourth vertical side, and the fourth shaping plate that is connected between the fourth shaping plate and the fourth horizontal support plate Four telescopic support rods; the lower end of the fourth shaping plate connects with the fourth turning shaft through the fourth The vertical sides are pivotally connected together, the upper end of the fourth telescopic support rod is pivotally connected with the lower surface of the fourth shaping plate through the fourth upper end shaft, and the lower end of the fourth telescopic support rod is connected through the fourth lower end The rotating shaft is pivotally connected with the upper surface of the fourth horizontal support plate, and the fourth turning shaft, the fourth upper end rotating shaft and the fourth lower end rotating shaft are parallel; compressed nitrogen tanks.

The first bearing frame includes two first end bearing rods pivotally connected to two ends of the flattening wheel, and a first intermediate connecting rod connected between the upper ends of the two first end bearing rods; the first The lower end of the guide rod is connected with the first intermediate connecting rod; the second bearing frame includes two second end bearing rods pivotally connected to the two ends of the pressing roller, and is connected to the two second ends A second intermediate connecting rod between the upper ends of the bearing rods; the lower end of the second guiding rod is connected with the second intermediate connecting rod.

The upper surface of the cutting platform is provided with an upstream guide plate extending upstream and a downstream guide plate extending downstream; the upstream guide plate is gradually inclined downward toward the upstream direction, and the lower end is lower than the first conveyor belt The height of the upper surface; the downstream guide plate is gradually inclined downward toward the downstream direction, and the lower end is higher than the height of the upper surface of the second conveyor belt.

The first glue dipping roller is pivotally connected to the side wall of the first glue supply tank through the first glue dipping shaft, and the second glue dipping roller is connected to the second glue supply tank through the second glue dipping shaft The side walls are hinged together.

The first glue supply tank is connected with the two upstream main support columns, and the second glue supply tank is connected with the two downstream main support columns.

After adopting the above technical scheme, the environmental-friendly automatic veneer hot press of the present invention breaks through the structural form of the traditional veneer hot press, and in the actual working process, under the control of the general controller, the veneer part performs For the veneer operation, the continuous veneer formwork is cut into veneer formwork blocks by the cutting part, and then the veneer formwork blocks are transported to the hot pressing part by the conveying part for hot press forming. Specifically, the first conveyor belt conveys the template blanks downstream one by one, corresponding the mesh cloth layer to the upper surface of the template blank, and corresponding the first surface layer and the second surface layer to the upper surface of the mesh cloth layer, along with the first With the operation of the conveyor belt, the flattening wheel of the flattening device presses down under the elastic force of the first compression spring to flatten the mesh layer on the upper surface of the template blank (the elastic force of the first compression spring can be used to adapt to the shape of the template). The thickness of the blank and the mesh layer changes and the flattening force is always maintained, the first guide rod plays a guiding role in the lifting of the flattening wheel), the wheel drive motor drives the conveying wheel to rotate synchronously, and the conveying wheel drives the first surface layer The second surface layer and the template blank are conveyed forward synchronously, while pulling the first supply wheel to release the first surface layer, pulling the second supply wheel to release the second surface layer, and at the same time, the first brush rubber roller in contact with the first surface layer is The friction of the first surface layer automatically rotates, and the first rubber brushing roller drives the first dipping rubber roller in parallel contact with the first brushing rubber roller to rotate while dipping glue in the first glue supply tank to realize the first brushing rubber roller Continuously apply glue to the first brushing surface of the first surface layer facing outward, and the second brushing roller in contact with the second surface layer is automatically rotated by the friction of the second surface layer, and the second brushing roller drives the second surface layer. The second dipping roller in parallel contact with the second brushing roller is dipped in glue in the second glue supply tank while rotating, so that the second brushing roller can continuously brush glue on the second brushing surface facing outward from the second surface layer; when When the first surface layer, the second surface layer and the mesh cloth layer are all under the conveying wheel, the second glue brushing surface of the second surface layer faces down and is in corresponding contact with the first back side of the first surface layer. The first glue brushing surface of the first layer faces down and is in contact with the upper surface of the mesh cloth layer, and the glue on the first glue brushing surface will penetrate the mesh of the mesh cloth layer and contact the template blank; when the mesh cloth layer, the first surface After the layer, the second surface layer and the template blank arrive at the pressing device, the pressing roller of the pressing device presses down against the mesh layer, the first surface layer, the second surface layer and the second surface layer under the elastic force of the second compression spring. The template blank produces continuous pressure (using the elastic force of the second compression spring to adapt to the thickness changes of the mesh layer, the first surface layer, the second surface layer and the template blank to maintain the pressing force all the time, the second guide rod is for the pressing force. The lifting of the roller plays a guiding role), and the pressing roller cooperates with the first downstream conveying wheel directly below to press the mesh layer, the first surface layer, the second surface layer and the template blank together by glue to form a continuous Veneer formwork; when the continuous veneer formwork is continuously conveyed to the cutting part, the cutting lifting device drives the cutting knife to descend, and the continuous veneer formwork is cut between corresponding adjacent formwork blanks, so that each formwork blank is A fixed-length veneer template block with a mesh layer, the first surface layer and the second surface layer; then the veneer template block is continuously conveyed downstream one by one by the second conveyor belt, when the veneer template block reaches the list conveyor belt , the list conveyor belt is driven by the list operation motor to drive the veneer formwork block to produce a certain speed, and at the same time, under the swing drive of the swing drive device, the list carrier drives the list conveyor belt to swing up and down by the first rotating shaft, and the veneer formwork block relies on inertia Fall into the lower heat press plate for listing, and interlayers are laid between adjacent groups of veneer formwork blocks. Each group of veneer formwork blocks includes several layers of veneer formwork blocks. The panel modules are separated and can be used with Multiple sets of veneer formwork blocks are hot-pressed at the same time, and each veneer formwork block formed by simultaneous hot-pressing is independent and will not affect each other; after a sufficient number of veneer formwork blocks are listed on the current hot-pressing plate, the first A telescopic support rod drives the first shaping board to turn over on the first turning axis, a second telescopic supporting rod drives the second shaping board to turning on the second turning axis, and a third telescopic supporting rod drives the third shaping Flip on the rotation axis, and the fourth telescopic support rod drives the fourth shaping plate to flip on the fourth rotation axis, and squeeze and shape each side of each veneer formwork block listed, so that each veneer formwork block listed Arrange neatly, and then the nitrogen compression tank of the hot-press lifting drive device provides air pressure to the cylinder, so that the cylinder drives the upper hot-pressing plate to move downward, and cooperates with the lower hot-pressing plate to heat-press each veneer template block into a veneer plywood . The mesh layer can guide the first surface layer and the second surface layer, so that the first surface layer and the second surface layer can be attached to the formwork blank, and the first surface layer, the second surface layer, the While the mesh layer and the template blank are bonded together, it can also be used as a reinforcing rib for the finished veneer plywood, so that the veneer plywood is not easy to break and damage. Moreover, the cylinder is stamped with a nitrogen compression tank, and the gas is stable and environmentally friendly. Compared with the prior art, the environmental-friendly automatic veneer hot press machine of the present invention can perform continuous and smooth multi-layer veneer and hot-press forming on the template blank, with high efficiency and strong practicability, and the strength of the finished veneer plywood is Higher environmental protection automatic veneer heat press machine.

Description of drawings

Fig. 1 is the first partial structure schematic diagram of the present invention;

Fig. 2 is a schematic diagram of the second partial structure of the present invention.

In the picture:

11-lower hot pressing plate 12-upper hot pressing plate 1311-first shaping plate 1312-first horizontal support plate 1313-first telescopic support rod 1314-first turning shaft 1315-first upper end rotating shaft 1316-first lower end Rotating shaft 1317-first heating plate 1321-third shaping plate 1322-third horizontal support plate 1323-third telescopic support rod 1324-third flipping rotating shaft 1325-third upper rotating shaft 1326-third lower rotating shaft 1327-third heating Plate 14 - Hot press lift drive

21-first conveyor belt 211-first upstream conveyor wheel 212-first downstream conveyor wheel 22-conveyor runner 231-mesh supply wheel 2321-flattening wheel 23221-first load frame 23222-first load fixing plate 23223 - the first guide rod 23224 - the first compression spring 24 - the first supply wheel 25 - the second supply wheel 261 - the first brush rubber roller 262 - the first glue supply tank 263 - the first dipping rubber roller 271 - the second brush glue Roller 272-the second glue supply tank 273-the second rubber dipping roller 281-pressing roller 2821-the second bearing frame 2822-the second bearing fixing plate 2823-the second guide rod 2824-the second pressure spring

31-cutting platform 311-upstream guide plate 312-downstream guide plate 32-cutting knife 33-cutting lifting device

41-Second Conveyor Belt 411-Second Upstream Conveyor Wheel 412-Second Downstream Conveyor Wheel 42-Column Conveyor Belt 43-Collate Bearing Frame 44-Collate Support Frame 45-Swing Drive 46-First Shaft 47-Second Shaft

51-upstream main support column 52-downstream main support column 53-longitudinal beam 54-first support frame 55-second support frame 56-third support frame 57-fourth support frame 58-fifth support frame 581-first Flattening support rod 582-second flattening support rod 583-flattening connecting rod 584-flattening vertical rod 591-first brushing bracket 5911-first horizontal support rod 59111-first strip hole 59112-first Sliding block 59113-third compression spring 5912-first oblique support rod 501-second brushing bracket 5011-second horizontal support rod 50111-second strip hole 50112-second sliding block 50113-fourth compression spring 5012- The second oblique support rod 500-the eighth support frame 5001-the third horizontal support rod 5002-the third oblique support rod

6-Template blank 7-Mesh layer 8-First surface layer 9-Second surface layer.

Detailed ways

In order to further explain the technical solutions of the present invention, specific examples are given below to illustrate in detail.

A kind of environmental protection full-automatic veneer hot press machine of the present invention, as shown in Figure 1 and 2, comprises hot pressing part, and surface layer is bonded on template blank 6 to form the veneer part of continuous veneer formwork, and continuous veneer The face template is cut to form the cutting part of the veneer template block, and the delivery part of the veneer template block is delivered to the hot pressing part one by one; preferably, the present invention also includes a frame for supporting the veneer part and the cut part; preferably , the present invention also includes a general controller for controlling the hot pressing part, the veneer part, the cutting part and the conveying part;

Preferably, the hot pressing part includes a lower hot pressing plate 11 below, an upper hot pressing plate 12 directly above the lower hot pressing plate 11, a shaping device for shaping the veneer template, and driving the upper hot pressing plate 12 up and down The hot pressing lifting driving device 14; The lower hot pressing plate 11 has successively adjacent first vertical side, second vertical side, third vertical side and fourth vertical side; The first plastic unit correspondingly connected to the side, the second plastic unit connected correspondingly to the second vertical side, the third plastic unit connected correspondingly to the third vertical side, and the correspondingly connected to the fourth vertical side The fourth shaping unit; the first shaping unit includes a first shaping plate 1311 that is pivotally connected to the first vertical side to turn up and down, and a first horizontal support that is below the first shaping plate 1311 and connected to the first vertical side plate 1312, and the first telescopic support rod 1313 connected between the first shaping plate 1311 and the first horizontal support plate 1312; the lower end of the first shaping plate 1311 is pivotally connected to the first vertical side through the first turning shaft 1314 Together, the upper end of the first telescopic support rod 1313 is pivotally connected to the lower surface of the first shaping plate 1311 through the first upper end rotating shaft 1315, and the lower end of the first telescopic supporting rod 1313 is connected to the first horizontal support through the first lower end rotating shaft 1316. The upper surfaces of the plates 1312 are pivotally connected together, and the first turning shaft 1314, the first upper turning shaft 1315 and the first lower turning shaft 1316 are parallel; Two shaping boards, a second horizontal support plate connected to the second vertical side below the second shaping board, and a second telescopic support rod connected between the second shaping board and the second horizontal support board; the second shaping The lower end of the plate is pivotally connected to the second vertical side through the second turning shaft, the upper end of the second telescopic support rod is pivotally connected to the lower surface of the second shaping plate through the second upper end rotating shaft, and the second telescopic support rod The lower end is pivotally connected to the upper surface of the second horizontal support plate through the second lower end shaft, the second turning shaft, the second upper end shaft and the second lower end shaft are parallel; the third shaping unit includes a third vertical side pivot Then the third shaping plate 1321 which is turned upside down, the third horizontal supporting plate 1322 which is below the third shaping plate 1321 and connected with the third vertical side, and the third shaping plate 1321 and the third horizontal supporting plate 1322 The third telescopic support rod 1323 in between; the lower end of the third shaping plate 1321 is pivotally connected with the third vertical side through the third turning shaft 1324, and the upper end of the third telescopic support rod 1323 is connected with the third vertical side through the third upper end rotating shaft 1325. The lower surface of the shaping plate 1321 is pivotally connected together, the lower end of the third telescopic support rod 1323 is pivotally connected with the upper surface of the third horizontal support plate 1322 through the third lower end rotating shaft 1326, the third turning shaft 1324, the third upper end rotating shaft 1325 is parallel to the third lower end shaft 1326; the fourth shaping unit includes a fourth shaping plate that is pivotally connected with the fourth vertical side to turn up and down, The fourth horizontal support plate below the fourth shaping plate and connected to the fourth vertical side, and the fourth telescopic support rod connected between the fourth shaping plate and the fourth horizontal support plate; the lower end of the fourth shaping plate passes through The fourth overturning shaft is pivotally connected with the fourth vertical side, the upper end of the fourth telescopic support rod is pivotally connected with the lower surface of the fourth shaping plate through the fourth upper end shaft, and the lower end of the fourth telescopic support rod is connected through the fourth The lower rotating shaft is pivotally connected to the upper surface of the fourth horizontal support plate, and the fourth turning shaft, the fourth upper rotating shaft and the fourth lower rotating shaft are parallel; the hot pressing lifting drive device 14 includes a cylinder and a nitrogen compression tank for stamping the cylinder ;

Preferably, the veneer part includes a first conveyor belt 21 below, a conveyor wheel 22 that is above the first conveyor belt 21 and rotates synchronously with the first conveyor belt 21, and covers the mesh layer 7 on the first conveyor belt The mesh covering device on the upper surface of the template blank 6 on the 21, cooperates with the delivery runner 22 to supply the first supply wheel 24 of the first surface layer 8, and cooperates with the delivery runner 22 to supply the second surface layer 9 The second supply wheel 25, the first glue brushing device for brushing the first surface layer 8, the second glue brushing device for brushing the second surface layer 9, and the mesh cloth layer 7, the first surface layer 8 , the pressing device that the second surface layer 9 and the template blank 6 are pressed together; preferably, the facing part also includes a wheel drive motor that drives the delivery wheel 22 to rotate; the first conveyor belt 21 includes a first Upstream conveying wheel 211, the first downstream conveying wheel 212 in downstream, and the first conveying motor that drives the first upstream conveying wheel 211 or the first downstream conveying wheel 212 to rotate; Conveying runner 22, the first upstream conveying wheel 211 and the first The axes of a downstream delivery wheel 212 are parallel; the delivery runner 22 has a downstream side towards the downstream direction of the first conveyor belt 21, and an upstream side towards the opposite direction; the mesh covering device is on the upstream side of the delivery runner 22 and is in Above the first conveyor belt 21; the mesh covering device includes a mesh supply wheel 231 that is above the supply mesh layer 7, and is located below the mesh supply wheel 231 and flattens the mesh layer 7 on the template blank 6 upper surface The flattening device on the top; the mesh layer 7 is formed with mesh holes for the glue to penetrate;

Preferably, the flattening device includes a flattening wheel 2321 parallel to the mesh supply wheel 231, and a first pressure driving device that drives the flattening wheel 2321 to press the mesh layer 7 downward; the first pressure driving device includes a bearing pressure The first bearing frame 23221 of the flat wheel 2321, the first load fixing plate 23222 horizontally above the first bearing frame 23221, two first guides connected above the first bearing frame 23221 and sliding upwards through the first load fixing plate 23222 Rod 23223, and the first compression spring 23224 that is sleeved outside the first guide rod 23223 and stretched between the first bearing fixing plate 23222 and the first bearing frame 23221; the first bearing fixing plate 23222 is formed with a first guide rod 23223 slides through the first sliding hole; the two first guide rods 23223 correspond to the two ends of the flattening wheel 2321; the flattening wheel 2321 and the mesh supply wheel 231 are all parallel to the axis of the delivery runner 22;

Preferably, the first surface layer 8 has a first glue brushing surface and a first back surface, and the second surface layer 9 has a second glue brushing surface and a second back surface; the first supply wheel 24 is on the upstream side of the conveying wheel 22, and The first surface layer 8 released by the first supply wheel 24 bypasses the upstream side of the delivery runner 22 and is bonded together with the template blank 6 and the upper surface of the mesh cloth layer 7 on the first conveyor belt 21, the first glue application Facing outwards for the first glue brushing device to brush glue; The first back side of the first surface layer 8 facing upwards is bonded together, the second glue brushing surface faces outwards for the second glue brushing device to apply glue, and the second surface layer 9 is between the first surface layer 8 and the conveying wheel 22 The first glue brushing device is on the upstream side of the delivery runner 22, and the second glue brushing device is on the downstream side of the delivery runner 22; the first supply wheel 24 and the second supply wheel 25 are all parallel to the axis of the delivery runner 22 ; Preferably, the mesh covering device is below the first glue brushing device;

Preferably, the first gluing device includes a first gluing roller 261 for gluing the first gluing surface, a first gluing tank 262 for supplying gluing to the first gluing roller 261, and a first gluing groove 262 for gluing the first gluing surface. Roller 261 contacts and dips in the first glue roller 263 in the glue of first glue supply groove 262; The device includes a second glue roller 271 for brushing the second glue surface, a second glue supply tank 272 for supplying glue to the second glue roller 271, and contacts with the second glue roller 271 and dips into the second glue roller. The second rubber roller 273 dipped in the glue of the glue tank 272; the second rubber roller 273 and the second brush rubber roller 271 are all parallel to the axis of the delivery runner 22;

Preferably, the pressing device includes a pressing roller 281 directly above the first downstream conveying wheel 212, and a second pressure driving device that drives the pressing roller 281 to press the second surface layer 9 downward; the second pressure driving device includes The second bearing frame 2821 carrying the pressing roller 281, the second bearing fixing plate 2822 horizontally above the second bearing frame 2821, and the two second bearing fixing plates 2822 connected above the second bearing frame 2821 and sliding upwards through the second bearing fixing plate 2822 Two guide rods 2823, and the second compression spring 2824 that is sleeved outside the second guide rod 2823 and stretched between the second bearing fixing plate 2822 and the second bearing frame 2821; the second bearing fixing plate 2822 is formed for the second The guide rods 2823 slide through the second sliding hole; the two second guide rods 2823 correspond to the two ends of the pressing roller 281;

Preferably, the cutting part includes a cutting platform 31 downstream of the first conveyor belt 21, a cutting knife 32 above the cutting platform 31, and a cutting lifting device 33 for driving the cutting knife 32 to lift;

Preferably, the conveying part includes a second conveyor belt 41 downstream of the cutting platform 31, an array conveyor belt 42 downstream of the second conveyor belt 41, an array running motor that drives the array conveyor belt 42, and carries the array conveyor belt 42. The arrangement carrier 43 of the arrangement, the arrangement supporting frame 44 that supports the arrangement conveyor belt 42, and the swing driving device 45 that arranges the carrier frame 43 is carried out the swing drive; , and the output end corresponding to the first shaping plate 1311; the arrangement support frame 44 is supported on the input end, and the input end and the upper end of the arrangement support frame 44 are connected together by the first rotating shaft 46 so that the arrangement conveyor belt 42 can be turned up and down; The swing driving device 45 is a first fluid pressure cylinder supported below the column carrier 43, and the upper end of the column carrier 43 and the swing drive device 45 is connected together through a second rotating shaft 47 parallel to the first rotating shaft 46;

Preferably, the second conveyor belt 41 includes a second upstream conveyor wheel 411 upstream, a second downstream conveyor wheel 412 downstream, and a second conveyor motor that drives the second upstream conveyor wheel 411 or the second downstream conveyor wheel 412 to rotate ;

Preferably, the frame includes two vertically arranged and upstream upstream main support columns 51, two vertically arranged and downstream downstream main support columns 52, an upstream beam connected between the two upstream main support columns 51, The downstream crossbeam connected between the two downstream main support columns 52, two longitudinal beams 53 parallel to each other and connected between the corresponding upstream main support columns 51 and the downstream main support columns 52, the first support frame carrying the conveying runner 22 54, the second support frame 55 carrying the first supply wheel 24, the third support frame 56 carrying the second supply wheel 25, the fourth support frame 57 carrying the mesh supply wheel 231, and the first support frame 57 carrying the first fixed plate 23222 Five supporting frames 58, the sixth supporting frame carrying the first rubber brushing roller 261, the seventh supporting frame carrying the second rubber brushing roller 271, and the eighth supporting frame 500 carrying the second bearing fixed plate 2822;

Preferably, two upstream main support columns 51 are set on both sides of the first conveyor belt 21, and two downstream main support columns 52 are respectively set on both sides of the first conveyor belt 21; The runner triangular brackets at both ends, the runner triangular bracket includes two runner struts approaching gradually from top to bottom, the upper ends of the two runner struts are connected with the corresponding longitudinal beams 53, the lower ends of the two runner brackets Connect with the corresponding end of the conveying runner 22 through a bearing;

Preferably, the second support frame 55 includes two first supply triangular supports pivotally connected to both ends of the first supply wheel 24, the first supply triangular support includes two first supply struts that gradually approach from top to bottom, and the two second supply triangular supports gradually approach each other from top to bottom. The upper end of a supply strut is connected to the corresponding longitudinal beam 53, and the lower ends of the two first supply struts are connected to the corresponding ends of the first supply wheel 24 through bearings;

Preferably, the third support frame 56 includes two second supply triangular brackets pivotally connected to both ends of the second supply wheel 25, the second supply triangular bracket includes two second supply support rods that gradually approach from top to bottom, and the two second supply triangular brackets The upper ends of the two supply struts are connected to the corresponding longitudinal beams 53, and the lower ends of the two second supply struts are connected to the corresponding ends of the second supply wheels 25 through bearings;

Preferably, the fourth support frame 57 includes two mesh cloth triangular supports pivotally connected to the two ends of the mesh cloth supply wheel 231, the mesh cloth triangular support includes two mesh cloth struts gradually approaching from upstream to downstream, and the two mesh cloth struts The upstream end of the upper end is connected together with the corresponding upstream main support column 51, and the downstream end of the two mesh cloth poles is connected together with the corresponding end of the mesh cloth supply wheel 231 through bearings;

Preferably, the fifth supporting frame 58 includes two flattening brackets connected to both ends of the first bearing and fixing plate 23222; the flattening brackets include first flattening rods 581 connected to the lower end of the first glue supply groove 262 and parallel to each other; The second flattening rod 582, the flattening connecting rod 583 connected between the first flattening rod 581 and the second flattening rod 582, and the vertically extending Flatten the vertical rod 584; the second flattened rod 582 is closer to the delivery runner 22 than the first flattened rod 581, and the lower ends of the first flattened rod 581 and the flattened vertical rod 584 are connected to the first bearing Both sides of the fixing plate 23222; the length of the flattened vertical rod 584 is greater than the maximum distance that the first guide rod 23223 moves upward;

Preferably, the sixth support frame includes two first glue brushing brackets 591 connected to both ends of the first glue brushing roller 261 and above the first glue supply tank 262; the first glue brushing bracket 591 includes a corresponding upstream main The first horizontal support rod 5911 connected to the support column 51, and the first oblique support rod 5912 above the first horizontal support rod 5911; the upstream end of the first oblique support rod 5912 is connected with the corresponding upstream main support column 51, and the downstream The end is connected with the corresponding first horizontal support rod 5911; the first inclined support rod 5912 is gradually inclined toward the first rubber brush roller 261 from top to bottom; the upstream end of the first horizontal support rod 5911 is connected with the corresponding upstream main The supporting column 51 is connected, and the downstream end is connected with the corresponding end of the first rubber brushing roller 261 through the first rubber brushing bearing; the first horizontal support rod 5911 is formed with a first strip-shaped hole 59111 extending along the first horizontal support rod 5911 , the first strip-shaped hole 59111 houses a first sliding block 59112 that slides along the first strip-shaped hole 59111; the first strip-shaped hole 59111 has a first end facing the conveying wheel 22, and a first end facing the opposite direction. The reverse end; the third compression spring 59113 is stretched between the first reverse end and the first sliding block 59112; the first sliding block 59112 is formed with a first installation hole for installing the first rubber bearing;

Preferably, the seventh support frame includes two second glue brushing brackets 501 connected to the two ends of the second glue brushing roller 271 and above the second glue supply tank 272; the second glue brushing bracket 501 includes a corresponding downstream main The second horizontal support rod 5011 connected to the support column 52, and the second oblique support rod 5012 above the second horizontal support rod 5011; the downstream end of the second oblique support rod 5012 is connected with the corresponding downstream main support column 52, and the upstream The end is connected with the corresponding second horizontal support rod 5011; the second inclined support rod 5012 is gradually inclined toward the second rubber brush roller 271 from top to bottom; the downstream end of the second horizontal support rod 5011 is connected with the corresponding downstream main The supporting column 52 is connected, and the upstream end is connected with the corresponding end of the second rubber brushing roller 271 through the second rubber brushing bearing; the second horizontal support rod 5011 is formed with a second strip-shaped hole 50111 extending along the second horizontal support rod 5011 , the second strip-shaped hole 50111 houses a second sliding block 50112 that slides along the second strip-shaped hole 50111; the second strip-shaped hole 50111 has a second end facing the conveying wheel 22, and a second end facing the opposite direction. The opposite end; the fourth compression spring 50113 is stretched between the second opposite end and the second sliding block 50112; the second sliding block 50112 is formed with a second installation hole for installing the second rubber bearing;

Preferably, the eighth support frame 500 includes two press-fit brackets connected to both ends of the second bearing and fixing plate 2822; the press-fit bracket includes a third horizontal support rod 5001 connected to the corresponding downstream main support column 52, and is located at the second The third oblique support rod 5002 above the three horizontal support rods 5001; the downstream end of the third oblique support rod 5002 is connected with the corresponding second supply rod, and the upstream end is connected with the corresponding first horizontal support rod 5911; the third The inclined support rod 5002 is gradually inclined toward the second bearing fixing plate 2822 from top to bottom. In the actual working process of the present invention, under the control of the general controller, the veneering part performs veneering operation on the formwork blank 6, and then the continuous veneering formwork is cut into veneering formwork blocks by the cutting part, and then the veneering part is pasted The panel module is conveyed to the hot pressing part for hot pressing and forming. Specifically, the first conveyor belt 21 transports the template blanks 6 downstream one by one, the mesh layer 7 is corresponding to the upper surface of the template blank 6, and the first surface layer 8 and the second surface layer 9 are connected to the upper surface of the mesh layer 7. Corresponding to the surface, with the operation of the first conveyor belt 21, the flattening wheel 2321 of the flattening device presses down under the elastic force of the first compression spring 23224 to flatten the mesh layer 7 on the upper surface of the template blank 6 (Using the elastic force of the first compression spring 23224 can adapt to the thickness change of the template blank 6 and the mesh cloth layer and maintain the flattening force all the time, the first guide rod 23223 plays a guiding role in the lifting of the flattened wheel 2321), the runner drives The motor drives the conveying runner 22 to rotate synchronously, and the conveying runner 22 drives the first surface layer 8 and the second surface layer 9 to be transported forward synchronously with the template blank 6, and simultaneously pulls the first supply wheel 24 to release the first surface layer 8, and pulls the second surface layer 8 The second supply wheel 25 releases the second surface layer 9, and the first brush rubber roller 261 in contact with the first surface layer 8 is automatically rotated by the friction force of the first surface layer 8, and the first brush rubber roller 261 drives the brush with the first brush. The first dipping roller 263 that is in parallel contact with the rubber roller 261 is dipped in glue in the first glue supply tank 262 while rotating, so that the first brushing roller 261 can continuously brush the first glue brushing surface facing outwards of the first surface layer 8 Glue, the second brush rubber roller 271 that is in contact with the second surface layer 9 is automatically rotated by the friction force of the second surface layer 9, and the second brush rubber roller 271 drives the second rubber dipping roller 271 that is in parallel contact with the second brush rubber roller 271. Roller 273 is dipped in glue in the second glue supply groove 272 while rotating, realizes that the second brushing roller 271 carries out continuous brushing to the second brushing surface of the second surface layer 9 facing outwards; when the first surface layer 8, the second When the second surface layer 9 and the mesh cloth layer 7 were all under the conveying runner 22, the second glue brushing surface of the second surface layer 9 was facing down and correspondingly contacted with the first back side of the first surface layer 8, and the first surface layer The first brushing surface of 8 faces down and contacts the upper surface of the mesh layer 7, and the glue on the first brushing surface will penetrate the mesh of the mesh layer 7 and contact the template blank 6; when the mesh layer 7 After the first surface layer 8, the second surface layer 9 and the template blank 6 arrive at the pressing device, the pressing roller 281 of the pressing device presses against the mesh cloth layer 7, The first surface layer 8, the second surface layer 9 and the template blank 6 produce continuous pressure (the elastic force effect of the second compression spring 2824 can adapt to the mesh cloth layer 7, the first surface layer 8, the second surface layer 9 and the template The thickness of the billet 6 changes to maintain the pressing force all the time, the second guide rod 2823 plays a guiding role in the lifting of the pressing roller 281), and the pressing roller 281 cooperates with the first downstream conveying wheel 212 directly below to move the mesh layer 7 , the first surface layer 8, the second surface layer 9 and the template blank 6 are pressed and bonded together by glue to form a continuous veneer template; Cutting knife 32 descends, carries out the cutting between corresponding adjacent template blanks 6 to the continuous veneer formwork, makes each template blank 6 be to have the fixed length of mesh cloth layer 7, first surface layer 8 and second surface layer 9 The veneer formwork block; then the veneer formwork block is continued to be transported downstream one by one by the second conveyor belt 41, when the veneer formwork block arrives When arranging the conveyor belt 42, the arranging conveyor belt 42 is driven by the arranging operation motor to drive the veneer template block to generate a certain speed. Swing up and down, the veneer formwork blocks fall into the lower heat press plate 11 by inertia to arrange, and interlayers are laid between adjacent veneer formwork blocks, and the interlayers can separate the adjacent veneer formwork blocks. open, the multi-layer veneer template blocks can be hot-pressed and formed at the same time, and each veneer template block that is hot-pressed and formed at the same time is independent and will not affect each other; a sufficient number of veneer templates are listed on the current hot-pressing plate 11 After block, the first telescopic support rod 1313 drives the first shaping board 1311 to turn over on the first turning axis, the second telescopic supporting rod drives the second shaping board to turning on the second turning axis, and the third telescopic supporting rod 1323 drives The third shaping board 1321 is flipped on-line by the third turning shaft 1324, and the fourth telescopic support rod drives the fourth shaping board to flip on the fourth turning shaft to squeeze and shape each side of each veneer formwork block listed. , so that the veneer template blocks listed are neatly arranged, and then the nitrogen compression tank of the hot-press lift drive device 14 provides air pressure to the cylinder, so that the cylinder drives the upper hot-press plate 12 to move downward, and cooperates with the lower hot-press plate 11 for each The veneer formwork blocks are thermoformed into veneer plywood. The first support frame 54 can firmly carry the two ends of the delivery runner 22 through the triangular support structure; the second support frame 55 can firmly carry the two ends of the first supply wheel 24 through the triangular support structure; The triangular support structure can firmly carry the two ends of the second supply wheel 25; the fourth support frame 57 can firmly carry the two ends of the mesh supply wheel 231 through the triangular support structure; The triangular support structure of the flat strut 581, the second flattened strut 582 and the flattened connecting rod firmly bears the first bearing fixing plate 23222 and the entire flattening device, and flattens the vertical rod 584 to the first guide rod 23223 There is enough lifting space; the sixth support frame firmly carries the two ends of the first rubber brush roller 261 through the triangular support structure, and the third compression spring 59113 uses the elastic support force to maintain the elastic support force for the first sliding block 59112 , the first rubber brushing bearing moves with the first sliding block 59112, and the elastic force of the third compression spring 59113 can adapt to the thickness change of the first surface layer 8 and the second surface layer 9 and always maintain the rubber brushing contact force; the seventh The supporting frame carries the two ends of the second rubber brushing roller 271 firmly through the triangular support structure, and the fourth pressure spring 50113 uses the elastic supporting force to maintain the elastic supporting force on the second sliding block 50112, and the second rubber brushing bearing follows the The second sliding block 50112 moves, and the elastic force of the fourth compression spring 50113 can adapt to the thickness change of the second surface layer 9 and always maintain the contact force of brushing glue; That is, the entire pressing device is firmly loaded, and the elastic force of the second compression spring 2824 can adapt to the thickness changes of the mesh layer 7, the first surface layer 8, the second surface layer 9 and the template blank 6 to maintain the pressing force all the time. The mesh layer 7 can guide the first surface layer 8 and the second surface layer 9, so that the first surface layer 8 and the second surface layer 9 can be attached to the formwork blank 6, and the first surface layer can be glued to ensure that the glue penetrates. 8. When the second surface layer 9, the mesh cloth layer 7 and the template blank 6 are bonded together, they can also be used as reinforcing ribs for the finished veneer plywood, so that the veneer plywood is not easy to break and damage. Moreover, the cylinder is stamped with a nitrogen compression tank, and the gas is stable and environmentally friendly. The mesh layer 7 can specifically be a mesh woven with nylon or other cloth.

In order to realize the heating effect of the hot pressing part on the veneer template block, preferably, the inner surface of the first shaping plate 1311 is covered with a first heating plate 1317; the first heating plate 1317 is formed with a first hot air capacity A cavity, a first hot gas inlet communicating with the hot gas source, and a plurality of first hot gas nozzles communicating with the first hot gas chamber and facing the veneer template block; the inner surface of the second shaping plate is covered with a second heating plate; The second heating plate is formed with a second hot gas chamber, a second hot gas inlet communicated with the hot gas source, and a plurality of second hot gas nozzles communicating with the second hot gas chamber and facing the veneer template block; the third shaping plate 1321 The inner surface of the inner surface is covered with a third heating plate 1327; the third heating plate 1327 is formed with a third hot air chamber, a third hot air inlet communicating with the hot air source, and a plurality of hot air chambers communicating with the third hot air chamber and facing the veneer template The third hot gas injection hole of the block; the inner surface of the fourth shaping plate is covered with a fourth heating plate; the fourth heating plate is formed with a fourth hot gas chamber, a fourth hot gas inlet connected with the hot gas source, and a plurality of hot gas inlets connected with the first The four hot air chambers communicate with each other and face the fourth hot air injection hole of the veneer template block.

Preferably, the lower end of the swing driving device 45 is connected to the bearing part carrying the swing driving device 45 through a third rotating shaft parallel to the first rotating shaft 46 .

Optionally, the upper end of the first guide rod 23223 is formed with a first limiting block that is clamped above the first sliding hole, and the upper end of the second guiding rod 2823 is formed with a second limiting block that is clamped above the second sliding hole. In the actual working process of the present invention, the first limit block can limit the downward movement of the first guide rod 23223, avoid excessive downward movement of the first guide rod 23223, and maintain the first guide rod 23223 in a working state; The second limit buckle can limit the downward movement of the second guide rod 2823, avoiding excessive downward movement of the second guide rod 2823, and maintaining the second guide rod in a working state.

Preferably, the first bearing frame 23221 includes two first end bearing rods pivotally connected to both ends of the flattening wheel 2321, and a first intermediate connecting rod connected between the upper ends of the two first end bearing rods; the first guide The lower end of the rod 23223 is connected with the first intermediate connecting rod; the second bearing frame 2821 includes two second-end bearing rods pivotally connected to the two ends of the pressing roller 281, and is connected between the upper ends of the two second-end bearing rods. The second intermediate connecting rod between; the lower end of the second guiding rod 2823 is connected with the second intermediate connecting rod. In the actual working process of the present invention, the two first guide rods 23223 can lift and guide the flattening wheel 2321 synchronously through the first intermediate connecting rod and the two first end bearing rods, so as to ensure the smooth lifting of the flattening wheel 2321 The mesh cloth layer 7 performs a more effective flattening operation; the two second guide rods 2823 can carry out synchronous lifting and guiding of the pressing roller 281 through the second middle connecting rod and the two second end bearing rods, so as to ensure that the pressing roller 281 is lifted and lowered Stable and more effective pressing operation on the mesh layer 7, the first surface layer 8, the second surface layer 9 and the template blank 6.

Preferably, the cutting and lifting device 33 includes a clamp for fixing the cutting knife 32, and a second fluid pressure cylinder whose lower end is connected with the clamp.

Preferably, the upper surface of the cutting platform 31 is provided with an upstream guide plate 311 extending upstream, and a downstream guide plate 312 extending downstream; the upstream guide plate 311 is gradually inclined downwards toward the upstream direction, and the lower end is lower than the first conveyor belt. The height of the upper surface of the belt 21 ; the downstream guide plate 312 is gradually inclined downward toward the downstream direction, and the lower end is higher than the height of the upper surface of the second conveyor belt 41 . In the actual working process of the present invention, the inclined upstream guide plate 311 can guide the continuous veneer template to the cutting platform 31. The formwork slides along the trend and is guided; the inclined downstream guide plate 312 can guide the veneer formwork block to the second conveyor belt 41 smoothly and smoothly, and there will be no positional deviation caused by violent shaking, which will affect the conveying accuracy. The upstream guide plate 311 and the downstream guide plate 312 can specifically be metal plates, and gradually become thicker from the tip to the root to ensure deformation performance and strength.

In order to ensure that the first rubber dipping roller 263 can extend into the first glue supply tank 262 to a certain depth and be in contact with the glue, ensure that the second dipping rubber roller 273 can penetrate into the second glue supply tank 272 to a certain depth and contact the glue , preferably, the first glue dipping roller 263 is pivotally connected to the side wall of the first glue supply tank 262 through the first glue dipping shaft, and the second glue dipping roller 273 is connected to the second glue supply groove 272 through the second glue dipping shaft. The side walls are hinged together.

In order to realize the fixing of the first glue supply groove 262 and the second glue supply groove 272, preferably, the first glue supply groove 262 is connected with the two upstream main support pillars 51, and the second glue supply groove 272 is connected with the two downstream main support pillars. 52 connected together.

The product form of the present invention is not limited to the illustrations and examples of this case, and anyone who makes appropriate changes or modifications of similar ideas to it shall be deemed not to depart from the scope of the patent of the present invention.

Claims (6)

1. a kind of environment protection full-automatic speed veneering hot press, it is characterised in that: including heated pressure section, surface layer is bonded in shape on template base At the veener part of continuous veneer template, continuous veneer template is cut to the cut portion to form veneer formwork, by veneer mould Plate is delivered to the transport portion of heated pressure section one by one, and to heated pressure section, veener part, cut portion and transport portion into The master controller of row control；

The veener part includes the first conveyer belt being below, above first conveyer belt and synchronous with first conveyer belt The conveying runner of rotation, the runner driving motor of driving conveying runner rotation, scrim layer is covered in the mould in first conveyer belt Screen cloth on slab upper surface covers device, and the first supply wheel of the first surface layer of supply is matched with conveying runner, is turned with conveying Wheel matches the second supply wheel of the second surface layer of supply, the first brush coating device of brush coating is carried out to the first surface layer, to the second surface layer Carry out the second brush coating device of brush coating, and the pressing that scrim layer, the first surface layer, the second surface layer and template base are pressed together Device；The first conveyer belt includes the first upstream delivery wheel in upstream, the first downstream delivery wheel in downstream, and The first feeder motor for driving the first upstream delivery wheel or the first downstream delivery wheel to rotate；The conveying runner, the first upstream are defeated Send wheel parallel with the axis of the first downstream delivery wheel；The conveying runner has towards the first conveyer belt downstream direction Downstream side, and the upstream side towards opposite direction；The screen cloth covers device and is in the upstream side of the conveying runner and is in The top of the first conveyer belt；It includes the screen cloth supply wheel in top supply scrim layer, and place that the screen cloth, which covers device, It flattens below screen cloth supply wheel and by scrim layer in the pressuring flat device on template base upper surface；The scrim layer is formed with for glue The mesh of water penetration；

The pressuring flat device includes the pressing wheel parallel with the screen cloth supply wheel, and driving flattens wheel and compresses the net downwards The first pressure driving device of layer of cloth；The first pressure driving device includes carrying first carrier for flattening wheel, water Flat the first carrying fixed plate above the first carrier, two are connected to above the first carrier and upward sliding is through the First guide rod of one carrying fixed plate, and be placed on outside the first guide rod and be located at the first carrying fixed plate and the first carrier Between the first pressure spring；The first carrying fixed plate, which is formed with, slides perforative first sliding eye for first guide rod； Two first guide rods are corresponding with the both ends for flattening wheel；Pressing wheel and screen cloth supply wheel with the conveying runner Axis it is parallel；

First surface layer has the first brush coating face and first back side, and second surface layer has the second brush coating face and the second back Face；First supply wheel is in the upstream side of the conveying runner, and the first surface layer of first supply wheel release bypasses It is described conveying runner upstream side and be bonded together with the upper surface of template base and scrim layer in the first conveyer belt, institute The first brush coating is stated to face outwardly for the first brush coating device brush coating；Second supply wheel is in the downstream of the conveying runner Side, and second supply wheel release the second surface layer around it is described conveying runner upstream side and upward with first surface layer The first back adhesive together, second brush coating is faced outwardly for the second brush coating device brush coating, at second surface layer Between first surface layer and conveying runner；The first brush coating device is in the upstream side of the conveying runner, and described the Two brush coating devices are in the downstream side of the conveying runner；First supply wheel and the second supply wheel with the conveying runner Axis it is parallel；The screen cloth covers the lower section that device is in the first brush coating device；

The first brush coating device includes the first brush coating roller that brush coating is carried out to first brush coating face, is carried out to the first brush coating roller For glue first for glue groove, and is contacted with the first brush coating roller and immerse first and dip in rubber roller for first in the glue of glue groove；Institute Stating first, to dip in rubber roller and the first brush coating roller parallel with the conveying axis of runner；The second brush coating device includes The second brush coating roller that brush coating is carried out to second brush coating face carries out for glue second for glue groove, Yi Jiyu the second brush coating roller Second brush coating roller, which contacts and immerses second, dips in rubber roller for second in the glue of glue groove；Described second dips in rubber roller and second brush Rubber roller is parallel with the conveying axis of runner；

The pressing device includes the press bonding roller right above the delivery wheel of first downstream, and driving press bonding roller compresses downwards The second pressure driving device of second surface layer；The second pressure driving device includes carrying the second of the press bonding roller to hold Carrier, second carrying fixed plate of the level above the second carrier, two are connected to above the second carrier and slide up Dynamic the second guide rod through the second carrying fixed plate, and to be placed on the second guide rod outer and be located at the second carrying fixed plate and the The second pressure spring between two carriers；The second carrying fixed plate is formed with for second guide rod sliding perforative second Sliding eye；Two second guide rods are corresponding with the both ends of the press bonding roller；

The cut portion includes the Cutting platform in the first conveyer belt downstream, the cutting above Cutting platform Knife, and the cutting lifting device of driving cutter lifting；

The transport portion includes the second conveyer belt in the Cutting platform downstream, in enumerating for the second conveyer belt downstream Conveyer belt enumerates operated motor to enumerate that conveyer belt driven, right to enumerating the carrier of enumerating that conveyer belt carried Enumerate the support frame of enumerating that conveyer belt is supported, and to the oscillatory gearing mechanism for enumerating carrier and carrying out wobble drive；It is described Conveyer belt is enumerated with input terminal corresponding with second conveyer belt, and output corresponding with first trim panel End；The support frame of enumerating is supported in the input terminal, and the input terminal and the upper end for enumerating support frame pass through first turn Axis connection makes described to enumerate conveyer belt and can be spun upside down together；The oscillatory gearing mechanism is to be supported in described enumerate to hold First fluid cylinder pressure below carrier, the upper end for enumerating carrier and the oscillatory gearing mechanism by with described first turn The second parallel shaft of axis links together.

2. a kind of environment protection full-automatic speed veneering hot press according to claim 1, it is characterised in that: the heated pressure section includes The lower hot pressing board being below, the upper hot pressboard right above lower hot pressing board, the shaping for carrying out shaping to veneer formwork fill It sets, and the hot pressing lifting drive of driving upper hot pressboard lifting；The lower hot pressing board has the first successively adjacent vertical side Face, the second vertical side, the vertical side of third and the 4th vertical side；The apparatus for shaping includes and the described first vertical side The first shaping monomer being correspondingly connected with, the second shaping monomer being correspondingly connected with the described second vertical side are perpendicular with the third The third shaping monomer being correspondingly connected with to side, and the 4th shaping monomer being correspondingly connected with the 4th vertical side；It is described First shaping monomer includes being pivotally connected the first trim panel spun upside down with the described first vertical side, is in the first trim panel Lower section and the first level support plate being connect with the first vertical side, and it is connected to the first trim panel and first level support plate Between the first telescopic supporting rod；The lower end of first trim panel passes through the first overturning shaft and the described first vertical side pivot It is connected together, the upper end of first telescopic supporting rod is pivotally connected by the lower surface of the first upper end shaft and first trim panel Together, the lower end of first telescopic supporting rod passes through the upper surface pivot of the first lower end shaft and the first level support plate It is connected together, the first overturning shaft, the first upper end shaft and the first lower end shaft are parallel；The second shaping monomer packet It includes and is pivotally connected the second trim panel spun upside down with the described second vertical side, erected below the second trim panel and with second The second horizontal supporting plate connected to side, and second be connected between the second trim panel and the second horizontal supporting plate are flexible Support rod；The lower end of second trim panel is articulated by the second overturning shaft with the described second vertical side, described The upper end of second telescopic supporting rod is articulated by the second upper end shaft and the lower surface of second trim panel, and described The lower end of two telescopic supporting rods is articulated by the second lower end shaft and the upper surface of second horizontal supporting plate, described Second overturning shaft, the second upper end shaft and the second lower end shaft are parallel；The third shaping monomer includes and the third Vertical side is pivotally connected the third trim panel spun upside down, connect below third trim panel and with the vertical side of third Third horizontal supporting plate, and the third telescopic supporting rod being connected between third trim panel and third horizontal supporting plate；It is described The lower end of third trim panel overturns shaft by third and is articulated with the vertical side of the third, the third retractable support The upper end of bar is articulated by third upper end shaft and the lower surface of the third trim panel, the third telescopic supporting rod Lower end be articulated by third lower end shaft and the upper surface of the third horizontal supporting plate, third overturning turns Axis, third upper end shaft and third lower end shaft are parallel；The 4th shaping monomer includes and the described 4th vertical side pivot The 4th trim panel that row is spun upside down is tapped into, the horizontal branch of the 4th connect below the 4th trim panel and with the 4th vertical side Fagging, and the 4th telescopic supporting rod being connected between the 4th trim panel and the 4th horizontal supporting plate；4th trim panel Lower end be articulated by the 4th overturning shaft with the 4th vertical side, the upper end of the 4th telescopic supporting rod leads to It crosses the 4th upper end shaft and the lower surface of the 4th trim panel is articulated, the lower end of the 4th telescopic supporting rod passes through 4th lower end shaft and the upper surface of the 4th horizontal supporting plate are articulated, the 4th the overturning shaft, the 4th upper end Shaft and the 4th lower end shaft are parallel；The hot pressing lifting drive includes cylinder and carries out the nitrogen pressure of punching press to cylinder Contracting tank.

3. a kind of environment protection full-automatic speed veneering hot press according to claim 2, it is characterised in that: the first carrier packet Two and the first end carrier bar for flattening the pivot joint of wheel both ends are included, and the be connected between two first end carrier bar upper ends One middle brace rod；The lower end of first guide rod links together with first middle brace rod；Second carrying Frame includes the second end carrier bar of two with press bonding roller both ends pivot joint, and is connected between two second end carrier bar upper ends The second middle brace rod；The lower end of second guide rod links together with second middle brace rod.

4. a kind of environment protection full-automatic speed veneering hot press according to claim 3, it is characterised in that: the Cutting platform it is upper Surface is equipped with the upstream guide plate extended towards upstream, and the downstream guide plate extended towards downstream；Upstream guide plate court Upstream direction is obliquely installed gradually downward, and lower end is lower than the height of the upper surface of the first conveyer belt；It leads in the downstream It is obliquely installed gradually downward to plate towards downstream direction, and lower end is higher than the height of the upper surface of second conveyer belt.

5. a kind of environment protection full-automatic speed veneering hot press according to claim 4, it is characterised in that: described first, which dips in rubber roller, leads to It crosses first and dips in glue shaft and be articulated with described first for the side wall of glue groove, described second, which dips in rubber roller, dips in glue shaft by second It is articulated with described second for the side wall of glue groove.

6. a kind of environment protection full-automatic speed veneering hot press according to claim 5, it is characterised in that: described first for glue groove with The two main support columns in upstream link together, and described second links together for glue groove and the two main support columns in downstream.