CN116552093A - Automatic processing equipment and processing technology for multi-layer plate - Google Patents

Abstract

The invention relates to the technical field of plate processing equipment, in particular to multi-layer plate automatic processing equipment and processing technology. According to the invention, the supporting device is arranged, when the multi-layer plate is automatically pressed, the servo motor can synchronously drive the driven synchronous belt wheel to rotate through the driving synchronous belt wheel and the transmission synchronous belt, so that the bottom of the driven synchronous belt wheel can provide intermittent pressing power for the two groups of pressing devices, and meanwhile, the top of the driven synchronous belt wheel can provide intermittent feeding power for the pushing guide plate, so that the pressing devices can cooperate with the feeding of the pushing guide plate to circularly press the multi-layer plate, and the processing efficiency of equipment on the plate is improved to the greatest extent.

Description

Automatic processing equipment and processing technology for multi-layer plate

Technical Field

The invention relates to the technical field of plate processing equipment, in particular to multi-layer plate automatic processing equipment and a processing technology.

Background

The multilayer board is a laminated structure board made by gluing two pieces Bao Biaoban onto a thicker core layer, and the surface boards are spaced apart, so that the higher rigidity is ensured, the consumption of materials is not required to be increased, and the core layer of the multilayer board can be made of small wood blocks, particle boards, single-board honeycomb structures or other light woods.

The publication number is: the invention patent disclosed in CN115256556AU relates to automatic processing equipment for a multilayer solid wood composite board; including support, two-way lead screw, T shape section of thick bamboo, stock, rectangular saw sword, widening board and pressing mechanism, the upper end between two supports is provided with the composite sheet body, and the spiro union has two round bars on two-way lead screws, and a plurality of spacing grooves have been seted up to the upper surface of round bar, and the joint has a plurality of stoppers of stock lower surface in the spacing groove, and the pole body of round bar is equipped with a plurality of T shape section of thick bamboo, and the lower extreme spiro union of T shape section of thick bamboo has the pressing block, and composite sheet body upper end is provided with the removal cover.

Although the above-mentioned equipment can carry out the pressfitting operation to the composite sheet, it is inconvenient to carry out material loading, pressfitting and the integrative operation of guide to the composite sheet, and then has reduced the efficiency that the equipment was processed to the composite sheet, therefore need an equipment to improve it to above-mentioned problem.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides automatic processing equipment and processing technology for a multi-layer plate.

The technical scheme adopted for solving the technical problems is as follows: an automatic processing device and processing technology of a multilayer plate comprise a servo motor, a driving synchronous pulley, a supporting device, a material guiding device, a pressing device, a transmission device and a transmission synchronous belt;

a servo motor is arranged at the position, close to the front end, of the lower end face of the supporting device, and a driving synchronous pulley is fixedly arranged on the upper end face of the servo motor;

the driving synchronous belt wheel is in meshed connection with the supporting device through a transmission synchronous belt, and two groups of transmission devices for transmission are arranged at the position, close to the middle part, of the upper end face of the supporting device;

the upper end face of the supporting device is slidably clamped with two groups of pressing devices for processing through the transmission device, and the top end face of the supporting device is elastically slidably clamped with a material guiding device for guiding materials;

a supporting clamping frame is arranged at the position, close to the rear part, of the side end face of the supporting device, a material guiding cylinder for guiding materials is fixedly arranged at the center of the side end face of the supporting clamping frame, and a fixed push plate for guiding materials is arranged at the inner end face of the material guiding cylinder in a sealing sliding clamping manner;

the supporting device comprises a driven synchronous belt pulley, a transmission guide shaft, a first conical gear, a second conical gear, a pushing guide plate, a fixed sliding shaft, a transmission screw rod, a limiting clamping seat, a fixed sliding plate, a connecting sliding seat, a material guide sliding plate, a supporting sliding plate, a connecting bottom plate, a transmission gear and a fixed guide plate;

the upper end face of the connecting bottom plate is fixedly provided with a supporting slide plate for supporting, and the upper end face of the supporting slide plate is fixedly provided with a fixed slide plate for guiding materials;

the upper end face of the connecting bottom plate is in rotary clamping connection with a transmission gear near the front end, and a driven synchronous pulley is fixedly arranged at the center of the upper end face of the transmission gear;

a transmission guide shaft is fixedly arranged in the center of the upper end face of the driven synchronous pulley, and a first conical gear is arranged at the position, close to the top, of the upper end face of the transmission guide shaft;

two groups of limiting clamping seats for limiting are fixedly arranged on the upper end face of the fixed sliding plate, and the two groups of limiting clamping seats are fixedly connected through two groups of fixed sliding shafts;

a transmission screw rod for transmission is rotationally clamped between the two groups of limiting clamping seats, and a second bevel gear for transmission is arranged at the center of the side end face of the transmission screw rod;

the inner end surface of the limiting clamping seat is in threaded sliding connection with a pushing guide plate for guiding materials through the transmission screw rod, and two groups of connecting sliding seats for limiting are arranged at the position, close to the rear part, of the upper end surface of the supporting sliding plate;

a material guide slide plate is arranged at the lower end face of the fixed slide plate, which is close to the middle part, and a fixed guide plate is arranged at the side end face of the support slide plate, which is close to the middle part;

the material guiding device comprises a spring clamping ring, a limiting clamping plate, a positioning sliding shaft, a material pushing guide plate and a clamping sliding shaft;

a clamping sliding shaft is fixedly arranged at the center of the side end face of the pushing guide plate, and positioning sliding shafts are symmetrically arranged on the side end face of the pushing guide plate by taking the clamping sliding shaft as a center;

the locating slide shaft and the side end face center of the clamping slide shaft are fixedly provided with limiting clamping plates, and a spring clamping ring is arranged at the coaxial position of the inner end face of each limiting clamping plate and the clamping slide shaft.

Specifically, compression fittings is including connecting draw-in groove, pressure sensor, direction branch, spacing guide slot, direction branch and connection slide, the preceding terminal surface center department of connection slide has offered the connection draw-in groove that is used for the location, and is located the preceding terminal surface of connection slide passes through connection draw-in groove fixed mounting has pressure sensor, the preceding terminal surface symmetry of connection slide is provided with the connection baffle, and is located two sets of spacing guide slot has been seted up between the connection baffle, the rear end face of connection slide is provided with two sets of direction branches that are used for the direction.

Specifically, transmission includes gear motor, ball screw, spacing pivot, ball slide, guide gear, first spout and second spout, guide gear's up end is close to middle part department and has seted up the second spout, and is located guide gear's up end is close to second spout department has seted up first spout, is located gear motor is installed to the interior terminal surface fixed mounting of second spout, and is located gear motor's preceding terminal surface fixed mounting has ball screw, the interior terminal surface of first spout passes through ball screw threaded connection has ball slide, and is located ball slide's up end fixed mounting has spacing pivot.

Specifically, the fixed push plate is in sliding clamping connection with the limiting guide groove, and the driven synchronous belt wheel is in meshed connection with the driving synchronous belt wheel through the transmission synchronous belt.

Specifically, the side end face of the transmission gear is in meshed connection with the guide gear, and the two groups of transmission devices are in meshed connection through the guide gear.

Specifically, the spacing pivot with connect slide looks adaptation, just transmission passes through spacing pivot with connect slide looks adaptation and then with compression fittings carries out slip joint.

Specifically, the guide support rod is matched with the connecting sliding seat, and the pressing device is matched with the connecting sliding seat through the guide support rod so as to be in sliding clamping connection with the upper end face of the supporting sliding plate.

Specifically, the first bevel gear is meshed with the second bevel gear, and the spring snap ring is fixedly connected with the limiting clamping seat inside.

Specifically, the rear end face of the connecting sliding seat and the coaxial position of the guide supporting rod are provided with limiting springs used for buffering, and the outer end faces of the limiting springs are fixedly provided with connecting clamping rings.

An automatic processing technology of a multi-layer plate comprises the following steps:

s1, firstly, positioning a plate to be pressed into a fixed sliding plate, wherein a pushing guide plate and a pushing guide plate can carry out limit operation on the introduced plate, and raw materials are provided for the subsequent cyclic pressing of the plate;

s2, the servo can drive the driven synchronous pulley to rotate through the driving synchronous pulley and the transmission synchronous belt, the lower part of the driven synchronous pulley can drive the guide gear to rotate in a meshed manner through the transmission gear, so that the two groups of guide gears can synchronously drive the limiting rotating shaft to rotate circumferentially, and the limiting rotating shaft can synchronously drive the two groups of connecting sliding seats to perform centripetal and centrifugal displacement, so that the imported plates are circularly pressed;

s3, the upper part of the driven synchronous pulley can drive the first conical gear to rotate, the first conical gear can drive the transmission screw rod to rotate through the second conical gear, so that the transmission screw rod drives the pushing guide plate to carry out screw thread displacement in the fixed slide plate, and the pushing guide plate can synchronously drive the plate to be pressed to move to the upper part of the material guiding slide plate to carry out feeding operation;

and S4, finally, when the pressure sensor senses that the pressure reaches a certain degree, starting the material guiding cylinder, and when the two groups of pressing devices are separated, guiding the pressed conforming plates out by the material guiding cylinder through the fixed push plate.

The invention has the beneficial effects that:

according to the invention, the supporting device is arranged, when the multi-layer plate is automatically pressed, the servo motor can synchronously drive the driven synchronous belt pulley to rotate through the driving synchronous belt pulley and the transmission synchronous belt, so that the bottom of the driven synchronous belt pulley can provide intermittent pressing power for the two groups of pressing devices, and meanwhile, the top of the driven synchronous belt pulley can provide intermittent feeding power for the pushing guide plate, so that the pressing devices can cooperate with the feeding of the pushing guide plate to circularly press the multi-layer plate, and the processing efficiency of equipment on the plate is improved to the greatest extent.

Secondly, when the plate is processed by the transmission device, if the plate with different thickness is required to be processed, a user can start the gear motor, and the gear motor can drive the ball sliding seat to conduct thread sliding through the ball screw, so that the circumferential rotation radius of the limiting rotating shaft is adjusted, the press-fit interval of the two sets of press-fit devices is adjusted, and the adaptability of the equipment is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of a main body of the present invention;

FIG. 2 is a side view of the body of the present invention;

FIG. 3 is a schematic view of a supporting device according to the present invention;

FIG. 4 is a side view of a support device according to the present invention;

FIG. 5 is a schematic structural view of a material guiding device in the present invention;

FIG. 6 is a split view of the pressing device of the present invention;

FIG. 7 is a schematic perspective view of a pressing device according to the present invention;

FIG. 8 is a split view of the transmission of the present invention;

FIG. 9 is a schematic diagram of a transmission mechanism of the present invention;

fig. 10 is a schematic structural diagram of a second embodiment of the pressing device of the present invention.

In the figure: the servo motor, the driving synchronous pulley, the 3-supporting device, the 4-guiding device, the 5-pressing device, the 6-driving device, the 7-driving synchronous belt, the 8-fixed push plate, the 9-supporting clamping frame, the 10-guiding cylinder, the 31-driven synchronous pulley, the 32-driving guide shaft, the 33-first conical gear, the 34-second conical gear, the 35-pushing guide plate, the 36-fixed slide shaft, the 37-driving screw rod, the 38-limiting clamping seat, the 39-fixed slide plate, the 310-connecting slide seat, the 311-guiding slide plate, the 312-supporting slide plate, the 313-connecting bottom plate, the 314-driving gear, the 315-fixed guide plate, the 41-spring clamp ring, the 42-limiting clamp plate, the 43-positioning slide shaft, the 44-pushing guide plate, the 45-clamping slide shaft, the 51-connecting clamping groove, the 52-pressure sensor, the 53-connecting baffle plate, the 54-limiting guide groove, the 55-guiding support rod, the 56-connecting slide seat, the 57-limiting spring, the 58-connecting clamp ring, the 61-decelerating motor, the 62-ball screw rod, the 63-limiting rotating shaft, the 64-guiding gear, the 66-first slide seat, the 67-second slide seat and the first slide groove.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, 2, 3, 4, 5 and 6, the automatic processing equipment and the processing technology of the multi-layer plate disclosed by the invention comprise a servo motor 1, a driving synchronous pulley 2, a supporting device 3, a material guiding device 4, a pressing device 5, a transmission device 6 and a transmission synchronous belt 7;

a servo motor 1 is arranged at the position, close to the front end, of the lower end surface of the supporting device 3, and a driving synchronous pulley 2 is fixedly arranged on the upper end surface of the servo motor 1;

the driving synchronous belt wheel 2 is in meshed connection with the supporting device 3 through a transmission synchronous belt 7, and two groups of transmission devices 6 for transmission are arranged at the position, close to the middle, of the upper end surface of the supporting device 3;

the upper end surface of the supporting device 3 is slidably clamped with two groups of pressing devices 5 for processing through a transmission device 6, and the top end surface of the supporting device 3 is elastically slidably clamped with a material guiding device 4 for guiding materials;

a supporting clamping frame 9 is arranged at the position, close to the rear part, of the side end surface of the supporting device 3, a material guiding cylinder 10 for guiding materials is fixedly arranged at the center of the side end surface of the supporting clamping frame 9, and a fixed push plate 8 for guiding materials is clamped at the inner end surface of the material guiding cylinder 10 in a sealing sliding manner;

as shown in fig. 3 and 4, the supporting device 3 comprises a driven synchronous pulley 31, a transmission guide shaft 32, a first conical gear 33, a second conical gear 34, a pushing guide plate 35, a fixed slide shaft 36, a transmission screw 37, a limit clamping seat 38, a fixed slide plate 39, a connecting slide seat 310, a material guide slide plate 311, a supporting slide plate 312, a connecting bottom plate 313, a transmission gear 314 and a fixed guide plate 315;

the upper end surface of the connecting bottom plate 313 is fixedly provided with a supporting slide plate 312 for supporting, and the upper end surface of the supporting slide plate 312 is fixedly provided with a fixed slide plate 39 for guiding materials;

the upper end face of the connecting bottom plate 313 is in rotary clamping connection with a transmission gear 314 near the front end, and a driven synchronous pulley 31 is fixedly arranged at the center of the upper end face of the transmission gear 314;

a transmission guide shaft 32 is fixedly arranged in the center of the upper end face of the driven synchronous pulley 31, and a first conical gear 33 is arranged at the position, close to the top, of the upper end face of the transmission guide shaft 32;

two groups of limiting clamping seats 38 for limiting are fixedly arranged on the upper end face of the fixed sliding plate 39, and the two groups of limiting clamping seats 38 are fixedly connected through two groups of fixed sliding shafts 36;

a transmission screw rod 37 for transmission is rotatably clamped between the two groups of limiting clamping seats 38, and a second bevel gear 34 for transmission is arranged at the center of the side end face of the transmission screw rod 37;

the inner end surface of the limiting clamping seat 38 is in threaded sliding connection with a pushing guide plate 35 for guiding materials through a transmission screw rod 37, and two groups of connecting sliding seats 310 for limiting are arranged at the position, close to the rear, of the upper end surface of the supporting sliding plate 312;

a material guide slide plate 311 is arranged at the lower end surface of the fixed slide plate 39 near the middle part, and a fixed guide plate 315 is arranged at the side end surface of the support slide plate 312 near the middle part;

the material guiding device 4 comprises a spring clamping ring 41, a limiting clamping plate 42, a positioning sliding shaft 43, a material pushing guide plate 44 and a clamping sliding shaft 45;

a clamping sliding shaft 45 is fixedly arranged at the center of the side end face of the pushing guide plate 44, and positioning sliding shafts 43 are symmetrically arranged on the side end face of the pushing guide plate 44 by taking the clamping sliding shaft 45 as a center;

the center of the side end faces of the positioning sliding shaft 43 and the clamping sliding shaft 45 is fixedly provided with a limiting clamping plate 42, and a spring clamping ring 41 is arranged at the coaxial position of the inner end face of the limiting clamping plate 42 and the clamping sliding shaft 45.

As shown in fig. 6 and 7, the pressing device 5 includes a connection slot 51, a pressure sensor 52, a guiding support rod 55, a limiting guide groove 54, a guiding support rod 55 and a connection sliding seat 56, the center of the front end surface of the connection sliding seat 56 is provided with the connection slot 51 for positioning, the front end surface of the connection sliding seat 56 is fixedly provided with the pressure sensor 52 through the connection slot 51, the front end surface of the connection sliding seat 56 is symmetrically provided with a connection baffle 53, the limiting guide groove 54 is arranged between the two groups of connection baffles 53, and the rear end surface of the connection sliding seat 56 is provided with two groups of guiding support rods 55 for guiding.

As shown in fig. 8 and 9, the transmission device 6 includes a gear motor 61, a ball screw 62, a limit rotating shaft 63, a ball sliding seat 64, a guide gear 65, a first sliding groove 66 and a second sliding groove 67, the second sliding groove 67 is provided at the position, close to the middle, of the upper end face of the guide gear 65, the first sliding groove 66 is provided at the position, close to the second sliding groove 67, of the upper end face of the guide gear 65, the gear motor 61 is fixedly mounted at the inner end face of the second sliding groove 67, the ball screw 62 is fixedly mounted at the front end face of the gear motor 61, the ball sliding seat 64 is connected at the inner end face of the first sliding groove 66 through the thread of the ball screw 62, and the limit rotating shaft 63 is fixedly mounted at the upper end face of the ball sliding seat 64.

The fixed push plate 8 is in sliding clamping connection with the limiting guide groove 54, and the driven synchronous pulley 31 is in meshed connection with the driving synchronous pulley 2 through the driving synchronous belt 7.

As shown in fig. 4, the side end surfaces of the transmission gears 314 are engaged with the guide gears 65, and the two sets of transmission devices 6 are engaged with each other through the guide gears 65, so that the stability of the device on the lamination of the plates can be effectively improved.

The limit rotating shaft 63 is matched with the connecting sliding seat 56, the transmission device 6 is matched with the connecting sliding seat 56 through the limit rotating shaft 63 so as to be in sliding clamping connection with the pressing device 5, the connecting sliding seat 56 can provide enough guiding space for circumferential rotation of the limit rotating shaft 63, and the stability of the equipment on pressing the multilayer plates is improved.

As shown in fig. 4 and 6, the guiding strut 55 is adapted to the connecting slide 310, and the pressing device 5 is adapted to the connecting slide 310 through the guiding strut 55 and is further slidably clamped to the upper end surface of the supporting slide 312, so that the stability of the displacement of the pressing device 5 in the supporting device 3 can be effectively improved.

As shown in fig. 3 and 4, the first bevel gear 33 is engaged with the second bevel gear 34, the spring clip 41 is fixedly connected with the limiting clamping seat 38 located inside, and the spring clip 41 can provide enough elasticity for supporting the multi-layer board material guiding subsequently.

The working principle of example 1 is: before the multi-layer plate is pressed, a user can position the plate to be pressed into the fixed sliding plate 39, at the moment, the pushing guide plate 35 and the pushing guide plate 44 can perform limit operation on the introduced plate, when the plate is pressed, the user can start the servo motor 1, at the moment, the servo motor 1 can drive the driving synchronous pulley 2 to rotate, so that the driving synchronous pulley 2 can drive the driven synchronous pulley 31 to rotate through the driving synchronous belt 7, the lower part of the driven synchronous pulley 31 can drive the guide gear 65 to perform meshing rotation through the driving gear 314, meanwhile, two groups of driving devices 6 are meshed through the guide gear 65, so that the two groups of guide gears 65 can synchronously drive the limit rotating shaft 63 to perform circumferential rotation, the limit rotating shaft 63 can synchronously drive the two groups of connecting sliding seats 56 to perform centripetal and centrifugal displacement when rotating, so as to circularly press the guided plates, the upper part of the driven synchronous pulley 31 can drive the first conical gear 33 to rotate, so that the first conical gear 33 can drive the second conical gear 34 to rotate, the second conical gear 34 can drive the pushing guide plate 35 to carry out screw thread displacement in the fixed sliding plate 39 through the transmission screw 37, so that the pushing guide plate 35 can synchronously drive the plates to be pressed to the upper part of the guiding sliding plate 311 when two groups of transmission devices 6 are pressed, when the bottom connecting sliding seat 56 completes the rapid pressing of the plates, a plurality of groups of plates are positioned on the upper part of the guiding sliding plate 311 at the moment, when the pressure sensor 52 senses the pressure to a certain degree, the guiding cylinder 10 is started, when two groups of pressing devices 5 are separated, the guiding cylinder 10 guides the pressed coincident plates through the fixed pushing plate 8 at the moment, meanwhile, the pushing guide plate 35 positioned at the upper part guides the plate into the space between the two groups of pressing devices 5, so that the plate is convenient to circularly press.

Example 2

On the basis of embodiment 1, as shown in fig. 10, a limit spring 57 for buffering is provided at the coaxial position of the rear end surface of the connecting slide 56 and the guide strut 55, and a connecting snap ring 58 is fixedly mounted on the outer end surface of the limit spring 57.

In the implementation of the present embodiment, the limiting spring 57 and the connecting snap ring 58 can cooperate with the connecting slide 310, so as to improve the stability of the sliding displacement of the pressing device 5 inside the supporting device 3.

An automatic processing technology of a multi-layer plate comprises the following steps:

s1, firstly, positioning a plate to be pressed into a fixed sliding plate 39, wherein a pushing guide plate 35 and a pushing guide plate 44 can perform limit operation on the introduced plate, and raw materials are provided for the plate to be pressed in a subsequent cycle;

s2, the servo motor 1 can drive the driven synchronous pulley 31 to rotate through the driving synchronous pulley 2 and the transmission synchronous belt 7, the lower part of the driven synchronous pulley 31 can drive the guide gears 65 to rotate in a meshed manner through the transmission gears 314, so that the two groups of guide gears 65 can synchronously drive the limit rotating shafts 63 to rotate circumferentially, and the limit rotating shafts 63 can synchronously drive the two groups of connecting sliding seats 56 to perform centripetal and centrifugal displacement, so that the imported plates are circularly pressed;

s3, then, the upper part of the driven synchronous pulley 31 can drive the first conical gear 33 to rotate, the first conical gear 33 can drive the transmission screw rod 37 to rotate through the second conical gear 34, so that the transmission screw rod 37 drives the pushing guide plate 35 to perform threaded displacement in the fixed sliding plate 39, and the pushing guide plate 35 can synchronously drive the plates to be pressed to move to the upper part of the material guiding sliding plate 311 to perform feeding operation;

and S4, finally, when the pressure sensor 52 senses that the pressure reaches a certain degree, the material guiding cylinder 10 is started, and when the two groups of pressing devices 5 are separated, the material guiding cylinder 10 guides out the pressed conforming plates through the fixed push plate 8.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An automatic processing equipment of multilayer panel, its characterized in that: comprises a servo motor (1), a driving synchronous pulley (2), a supporting device (3), a material guiding device (4), a pressing device (5), a transmission device (6) and a transmission synchronous belt (7);

a servo motor (1) is arranged at the position, close to the front end, of the lower end face of the supporting device (3), and a driving synchronous pulley (2) is fixedly arranged on the upper end face of the servo motor (1);

the driving synchronous pulley (2) is in meshed connection with the supporting device (3) through a transmission synchronous belt (7), and two groups of transmission devices (6) for transmission are arranged at the position, close to the middle, of the upper end surface of the supporting device (3);

two groups of pressing devices (5) for processing are slidably clamped on the upper end face of the supporting device (3) through the transmission device (6), and a material guiding device (4) for guiding materials is elastically slidably clamped on the top end face of the supporting device (3);

the side end face of the supporting device (3) is provided with a supporting clamping frame (9) close to the rear portion, a material guiding cylinder (10) for guiding materials is fixedly arranged in the center of the side end face of the supporting clamping frame (9), and a fixed pushing plate (8) for guiding materials is arranged on the inner end face of the material guiding cylinder (10) in a sealing sliding clamping manner.

2. An automatic processing apparatus for a multi-layered sheet according to claim 1, wherein:

the supporting device (3) comprises a driven synchronous pulley (31), a transmission guide shaft (32), a first conical gear (33), a second conical gear (34), a pushing guide plate (35), a fixed slide shaft (36), a transmission screw rod (37), a limiting clamping seat (38), a fixed slide plate (39), a connecting slide seat (310), a material guide slide plate (311), a supporting slide plate (312), a connecting bottom plate (313), a transmission gear (314) and a fixed guide plate (315);

a supporting slide plate (312) for supporting is fixedly arranged on the upper end surface of the connecting bottom plate (313), and a fixed slide plate (39) for guiding materials is fixedly arranged on the upper end surface of the supporting slide plate (312);

a transmission gear (314) is rotationally clamped at the position, close to the front end, of the upper end face of the connecting bottom plate (313), and a driven synchronous pulley (31) is fixedly arranged at the center of the upper end face of the transmission gear (314);

a transmission guide shaft (32) is fixedly arranged in the center of the upper end face of the driven synchronous pulley (31), and a first conical gear (33) is arranged at the position, close to the top, of the upper end face of the transmission guide shaft (32);

two groups of limiting clamping seats (38) for limiting are fixedly arranged on the upper end face of the fixed sliding plate (39), and the two groups of limiting clamping seats (38) are fixedly connected through two groups of fixed sliding shafts (36);

a transmission screw rod (37) for transmission is rotationally clamped between the two groups of limiting clamping seats (38), and a second bevel gear (34) for transmission is arranged at the center of the side end face of the transmission screw rod (37);

the inner end surface of the limiting clamping seat (38) is in threaded sliding connection with a pushing guide plate (35) for guiding materials through the transmission screw rod (37), and two groups of connecting sliding seats (310) for limiting are arranged at the position, close to the rear, of the upper end surface of the supporting sliding plate (312);

a material guide slide plate (311) is arranged at the lower end surface of the fixed slide plate (39) close to the middle, and a fixed guide plate (315) is arranged at the side end surface of the support slide plate (312) close to the middle;

the material guide device (4) comprises a spring clamping ring (41), a limiting clamping plate (42), a positioning sliding shaft (43), a material pushing guide plate (44) and a clamping sliding shaft (45);

a clamping sliding shaft (45) is fixedly arranged at the center of the side end surface of the pushing guide plate (44), and positioning sliding shafts (43) are symmetrically arranged on the side end surface of the pushing guide plate (44) by taking the clamping sliding shaft (45) as a center;

the locating slide shaft (43) and the clamping slide shaft (45) are fixedly provided with a limiting clamping plate (42) at the center of the side end face, and a spring clamping ring (41) is arranged at the coaxial center of the inner end face of the limiting clamping plate (42) and the clamping slide shaft (45).

3. An automatic processing apparatus for a multi-layered sheet according to claim 1, wherein: the pressing device (5) comprises a connecting clamping groove (51), a pressure sensor (52), a guide supporting rod (55), a limiting guide groove (54), a guide supporting rod (55) and a connecting sliding seat (56), wherein the connecting clamping groove (51) used for positioning is formed in the center of the front end face of the connecting sliding seat (56), the pressure sensor (52) is fixedly arranged on the front end face of the connecting sliding seat (56) through the connecting clamping groove (51), connecting baffle plates (53) are symmetrically arranged on the front end face of the connecting sliding seat (56), the limiting guide groove (54) is formed between the two groups of the connecting baffle plates (53), and two groups of guide supporting rods (55) used for guiding are arranged on the rear end face of the connecting sliding seat (56);

the transmission device (6) comprises a gear motor (61), a ball screw (62), a limit rotating shaft (63), a ball sliding seat (64), a guide gear (65), a first sliding groove (66) and a second sliding groove (67), wherein the second sliding groove (67) is formed in the position, close to the middle, of the upper end face of the guide gear (65), the first sliding groove (66) is formed in the position, close to the second sliding groove (67), of the upper end face of the guide gear (65), the gear motor (61) is fixedly installed on the inner end face of the second sliding groove (67), the ball screw (62) is fixedly installed on the front end face of the gear motor (61), the ball sliding seat (64) is connected to the inner end face of the first sliding groove (66) through the ball screw (62), and the limit rotating shaft (63) is fixedly installed on the upper end face of the ball sliding seat (64).

4. A multi-layered sheet automatic processing apparatus according to claim 3, wherein: the fixed push plate (8) is in sliding clamping connection with the limiting guide groove (54), and the driven synchronous pulley (31) is in meshed connection with the driving synchronous pulley (2) through the transmission synchronous belt (7).

5. A multi-layered sheet automatic processing apparatus according to claim 3, wherein: the side end faces of the transmission gears (314) are in meshed connection with the guide gears (65), and the two groups of transmission devices (6) are in meshed connection through the guide gears (65).

6. A multi-layered sheet automatic processing apparatus according to claim 3, wherein: the limiting rotating shaft (63) is matched with the connecting sliding seat (56), and the transmission device (6) is matched with the connecting sliding seat (56) through the limiting rotating shaft (63) so as to be in sliding clamping connection with the pressing device (5).

7. An automatic processing apparatus for a multi-layered sheet according to claim 6, wherein: the guide support rod (55) is matched with the connecting sliding seat (310), and the pressing device (5) is matched with the connecting sliding seat (310) through the guide support rod (55) so as to be in sliding clamping connection with the upper end face of the supporting sliding plate (312).

8. An automatic processing apparatus for a multi-layered sheet according to claim 7, wherein: the first bevel gear (33) is meshed with the second bevel gear (34), and the spring clamping ring (41) is fixedly connected with the limiting clamping seat (38) inside.

9. An automated multi-layered sheet processing apparatus as defined in claim 8, wherein: a limiting spring (57) for buffering is arranged at the coaxial position of the rear end face of the connecting sliding seat (56) and the guide supporting rod (55), and a connecting clamping ring (58) is fixedly arranged on the outer end face of the limiting spring (57).

10. An automatic processing technology for a multi-layer board, which adopts the automatic processing equipment for the multi-layer board as claimed in claim 9, and is characterized by comprising the following steps:

s1, firstly, positioning a plate to be pressed into a fixed sliding plate (39), wherein a pushing guide plate (35) and a pushing guide plate (44) can perform limit operation on the introduced plate, and raw materials are provided for the subsequent cyclic pressing of the plate;

s2, afterwards, the servo motor (1) can drive the driven synchronous pulley (31) to rotate through the driving synchronous pulley (2) and the transmission synchronous belt (7), the lower part of the driven synchronous pulley (31) can drive the guide gear (65) to rotate in a meshed manner through the transmission gear (314), so that the two groups of guide gears (65) can synchronously drive the limit rotating shaft (63) to rotate circumferentially, the limit rotating shaft (63) can synchronously drive the two groups of connecting sliding seats (56) to perform centripetal and centrifugal displacement, and the imported plates are circularly pressed;

s3, the upper part of the driven synchronous pulley (31) can drive the first conical gear (33) to rotate, the first conical gear (33) can drive the transmission screw rod (37) to rotate through the second conical gear (34), so that the transmission screw rod (37) drives the pushing guide plate (35) to perform threaded displacement in the fixed sliding plate (39), and the pushing guide plate (35) can synchronously drive the plates to be pressed to move to the upper part of the material guiding sliding plate (311) to perform feeding operation;

and S4, finally, when the pressure sensor (52) senses that the pressure reaches a certain degree, the material guiding cylinder (10) is started, and when the two groups of pressing devices (5) are separated, the material guiding cylinder (10) guides out the pressed conforming plates through the fixed push plate (8).