CN107031166B - sheet material bonding and automatic output equipment - Google Patents

Abstract

The invention relates to a sheet material bonding and automatic output device, which comprises a lower plate conveying part, wherein the lower plate conveying part is used for outputting a lower plate backwards; an upper plate conveying section for outputting the upper plate backward; the lifting bonding part is used for receiving the lower plate conveyed by the lower plate conveying part and driving the lower plate to move upwards to bond with the upper plate of the upper plate conveying part and then drive the composite plate to move downwards; the output part is used for driving the composite board on the lifting bonding part to output backwards; the lower plate conveying part comprises a conveying mechanism a; the upper plate conveying part comprises a conveying mechanism b and an adsorption mechanism; the lifting bonding part comprises a lifting mechanism and a positioning mechanism; the output part comprises a compression roller mechanism and a transmission mechanism c which are arranged at the front side and the rear side of the lifting mechanism; the invention overcomes the problems that the equipment does not have continuous automatic feeding, does not have automatic discharging after the lamination is finished and the plate is not firmly laminated.

Description

Sheet material bonding and automatic output equipment

Technical Field

The invention relates to the technical field of composite board production, in particular to a device for bonding and automatically outputting boards.

Background

After the panels are processed, in order to prevent the panels from being scratched or damaged in the subsequent transportation process, a layer of protective paper is often attached to the surfaces of the panels.

The utility model discloses a chinese utility model patent that grant bulletin number is CN202037959U, it discloses that the sheet material is opened a book, is leveled, is cuted pad pasting, the sticker device on the production line, and it sends sheet material, membrane area or paper accuracy into the regulation position through numerical control equipment and then utilizes the pad pasting roller to come the pad pasting, but this equipment has following problem:

1. The equipment does not have the functions of respectively carrying out continuous automatic feeding on two materials which need to be attached together and synchronously outputting the materials after the attachment is finished.

2. the equipment does not have the function of further compacting the materials after being attached, and is not firmly attached.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to realize the joint of the lower plate and the office work by adsorbing and suspending one plate, further compact the plate while outputting materials by utilizing the friction force of a roller pressing on the plate by utilizing the lifting mode, and further solve the problems that the equipment does not have continuous automatic feeding, does not have automatic discharging after the joint is finished and the plate is not firmly jointed.

A sheet material bonding and automatic output device comprises a lower plate conveying part, a sheet material feeding part and a sheet material discharging part, wherein the lower plate conveying part is used for outputting a lower plate backwards; an upper plate conveying section for outputting an upper plate backward; the lifting bonding part is arranged at the rear end of the lower plate conveying part and the lower end of the upper plate conveying part, and is used for bearing the lower plate conveyed by the lower plate conveying part and driving the lower plate to move upwards to bond with the upper plate of the upper plate conveying part and then drive the composite plate to move downwards; the output part is arranged at the rear end of the lifting bonding part and is used for driving the composite board on the lifting bonding part to output backwards;

The lower plate conveying part comprises a conveying mechanism a; the upper plate conveying part comprises a conveying mechanism b and an adsorption mechanism arranged at the rear end of the conveying mechanism b;

The lifting bonding part comprises a lifting mechanism and a positioning mechanism for positioning the lower plate conveyed by the conveying mechanism a;

The output part comprises compression roller mechanisms arranged on the front side and the rear side of the lifting mechanism and a transmission mechanism c arranged at the rear end of the lifting mechanism.

Preferably, the adsorption mechanism comprises an air blowing device, a negative pressure generating device communicated with an air outlet of the air blowing device, and a negative pressure adsorption device arranged at the lower end of the negative pressure generating device.

preferably, the lifting mechanism comprises a lifting device and a supporting device arranged at the end part of the lifting device; the positioning mechanism comprises a positioning device.

Preferably, the roller mechanism comprises a driven roller device arranged at the front end of the lifting mechanism and a driving roller device arranged at the rear end of the lifting mechanism.

Preferably, the negative pressure generating device comprises a pipeline and a plurality of accelerating pieces arranged in the pipeline, wherein the accelerating pieces are arranged in a conical shape, and one end with a large opening faces the air blowing device;

The negative pressure adsorption device comprises a negative pressure pipe close to the small opening end of the acceleration part, and an adsorption plate arranged at the end part of the negative pressure pipe and communicated with the negative pressure pipe, wherein a plurality of adsorption holes are formed in the lower surface of the adsorption plate, and the negative pressure pipe is communicated with the inside of the pipeline.

Preferably, the lifting device comprises a lifting cylinder; the supporting device comprises a supporting plate arranged at the end part of a telescopic rod of the lifting cylinder; the positioning device comprises a support frame and a limiting frame fixed on the support frame.

Preferably, a driving piece a and a driving piece b are arranged on two sides of the telescopic rod of the lifting cylinder; the driven compression roller device comprises a rotating seat a and a rotating frame a which is rotatably arranged on the rotating seat a, one end of the rotating frame a is rotatably provided with a roller a, and the other end of the rotating frame a is provided with a sliding rod a which is matched with a waist hole a formed in the driving piece a to slide;

the driving compression roller device comprises a rotating seat b and a rotating frame b which is rotatably arranged on the rotating seat b, one end of the rotating frame b is provided with a roller b and a motor for driving the roller b to rotate, and the other end of the rotating frame b is provided with a sliding rod b which is matched with a waist hole b formed in the driving piece b to slide.

Preferably, a gluing device is further arranged between the conveying mechanism b and the adsorption mechanism and comprises a glue box and a glue roller which is rotatably arranged in the glue box and used for gluing the lower surface of the upper plate.

preferably, the negative pressure generator further comprises a baffle, the baffle is fixed on a telescopic rod of the lifting cylinder through a fixing rod and driven by the lifting cylinder to move up and down, and the baffle is used for blocking an outlet of the negative pressure generator when the upper plate and the lower plate are bonded.

Preferably, a stopper is disposed at a distal end of the adsorption plate.

As a further preference, the pipeline is fixed on the limiting frame through a bracket.

The invention has the beneficial effects that:

(1) According to the invention, one plate to be bonded is in a suspended state before bonding by arranging the adsorption mechanism, the lower surface of the plate is coated with glue in the process of being conveyed to the adsorption mechanism by the conveying belt, and the other plate conveyed to the supporting plate of the adsorption mechanism is pushed upwards by the lifting mechanism arranged below the adsorption mechanism to bond the upper plate and the lower plate.

(2) According to the invention, the active compression roller device is arranged and is linked with the lifting cylinder, so that the lifting cylinder can move away to one side automatically when lifting to push the plate material to be bonded with the plate material above, and the lifting cylinder drives the bonded plate to descend to the output position, the roller b of the active compression roller device can be attached to one end of the composite plate.

(3) The driven press roller device has the function of compacting the two side edges of the composite board by matching with the driving press roller device on one hand, and can play a role of guiding and sliding the plate material conveyed by the conveying mechanism a when the lifting cylinder drives the supporting plate to move to the feeding station on the other hand, so that the plate material can more smoothly reach the preset position on the supporting plate.

In conclusion, the equipment has the advantages of high automation degree, good plate bonding effect, high production efficiency and the like, and is particularly suitable for being used for fitting the material plates in the composite plate production technical field.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of the internal structure of the automatic output device after the plates are bonded.

Fig. 2 is a front view of the automatic output device after the plates are bonded.

Fig. 3 is a schematic view of the lower plate being transferred from the transfer mechanism a onto the support device.

Fig. 4 is a schematic view of the composite sheet as it exits the support means.

fig. 5 is a schematic view of the lower plate and the upper plate when they are attached.

Fig. 6 is a schematic structural view of the support device moving to the output position after the bonding is completed.

Fig. 7 is a schematic structural view of the upper plate conveying section.

Fig. 8 is a sectional view of the negative pressure generating device and the negative pressure adsorbing device.

Fig. 9 is a schematic view of the pressing roller mechanism driving the composite board to move backward.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

example one

Fig. 1 is a schematic view of an internal structure of an automatic output apparatus after plates are bonded, fig. 2 is a schematic view of an elevation view of the automatic output apparatus after plates are bonded, fig. 3 is a schematic view when a lower plate is transferred onto a support device from a transfer mechanism a, fig. 4 is a schematic view when a composite plate is output from the support device, fig. 5 is a schematic view when the lower plate and an upper plate are bonded, fig. 6 is a schematic view of a structure when the support device is moved to an output position after the bonding is completed, fig. 7 is a schematic view of a structure of an upper plate conveying part, fig. 8 is a schematic view of a cutaway view of a negative pressure generating device and a negative pressure absorbing device, and fig. 9 is a schematic view. As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, a sheet bonding and automatic discharging apparatus includes a lower sheet conveying part 1, the lower sheet conveying part 1 for discharging a lower sheet 10 backward; an upper board conveying section 2 for outputting an upper board 20 backward; the lifting bonding part 3 is arranged at the rear end of the lower plate conveying part 1 and the lower end of the upper plate conveying part 2, and the lifting bonding part 3 is used for receiving the lower plate 10 conveyed by the lower plate conveying part 1, driving the lower plate 10 to move upwards and driving the composite plate 30 to move downwards after being bonded with the upper plate 20 of the upper plate conveying part 2; an output part 4, wherein the output part 4 is arranged at the rear end of the lifting bonding part 3, and the output part 4 is used for driving the composite board 30 on the lifting bonding part 3 to output backwards; the lower plate conveying section 1 includes a transfer mechanism a 11; the upper board conveying section 2 includes a conveying mechanism b21 and a suction mechanism 22 provided at the rear end of the conveying mechanism b 21; the lifting bonding part 3 comprises a lifting mechanism 31 and a positioning mechanism 32 for positioning the lower plate 10 conveyed by the conveying mechanism a 11; the output section 4 includes the pressing roller mechanisms 41 disposed on the front and rear sides of the elevating mechanism 31 and the conveying mechanism c42 disposed at the rear end of the elevating mechanism 31.

One of the plates to be bonded is in a suspended state before bonding by arranging the adsorption mechanism 22, the lower surface of the plate is coated with glue in the process of being conveyed to the adsorption mechanism 22 by the conveying belt, and the other plate conveyed to the supporting plate 3121 is pushed upwards by the lifting mechanism 31 arranged below the adsorption mechanism 22 to bond the upper plate and the lower plate.

Further, the adsorption mechanism 22 includes a blower 221, a negative pressure generator 222 communicated with an air outlet of the blower 221, and a negative pressure adsorption device 223 disposed at a lower end of the negative pressure generator 222.

Further, the lifting mechanism 31 includes a lifting device 311 and a supporting device 312 disposed at an end of the lifting device 311; the positioning mechanism 32 includes a positioning device 321.

Further, the roller mechanism 41 includes a driven roller device 411 disposed at a front end of the elevating mechanism 31 and a driving roller device 412 disposed at a rear end of the elevating mechanism 31.

Further, the negative pressure generating device 222 comprises a duct 2221, and a plurality of accelerating members 2222 arranged in the duct 2221, wherein the accelerating members 2222 are arranged in a conical shape, and one end with a large opening faces the blower device 221;

The negative pressure adsorption device 223 comprises a negative pressure pipe 2231 arranged at a small opening end close to the accelerator 2222, and an adsorption plate 2232 arranged at the end of the negative pressure pipe 2231 and communicated with the negative pressure pipe 2231, a plurality of adsorption holes 2233 are formed in the lower surface of the adsorption plate 2232, and the negative pressure pipe 2231 is communicated with the inside of the pipeline 2221.

the adsorption positioning of the upper plate is realized by utilizing the Venturi effect principle, the upper plate is ensured to be firmly adsorbed, and the upper plate cannot deviate when being attached to the plate below.

Further, the lifting device 311 includes a lifting cylinder 3111; the supporting device 312 includes a supporting plate 3121 disposed at an end of a telescopic rod of the lifting cylinder 3111; the positioning device 321 includes a supporting frame 3211 and a limiting frame 3212 fixed on the supporting frame 3211.

Furthermore, a driving part a5 and a driving part b6 are arranged on two sides of the telescopic rod of the lifting cylinder 3111; the driven roller device 411 comprises a rotating seat a4111 and a rotating frame a4112 rotatably arranged on the rotating seat a4111, one end of the rotating frame a4112 is rotatably provided with a roller a4113, and the other end of the rotating frame a4112 is provided with a sliding rod a4114 matched with a kidney hole a51 arranged on the driving piece a5 to slide.

The driven press roll device 411 has a function of compacting both sides of the composite board 30 by matching with the driving press roll device 412 on one hand, and on the other hand, when the lifting cylinder 3111 drives the supporting plate 3121 to move to the feeding station, the driven press roll device 411 can perform a sliding guiding function on the sheet material conveyed by the conveying mechanism a11, so that the sheet material can more smoothly reach a preset position on the supporting plate 3121.

the driving pressure roller device 412 comprises a rotating seat b4121 and a rotating frame b4122 rotatably arranged on the rotating seat b4121, one end of the rotating frame b4122 is provided with a roller b4123 and a motor 4124 for driving the roller b4123 to rotate, and the other end of the rotating frame b4122 is provided with a sliding rod b4125 which is matched with a kidney hole b61 formed in the driving piece b6 to slide.

By arranging the driving press roller device 412 and forming linkage between the driving press roller device 412 and the lifting cylinder 3111, the lifting cylinder 3111 is enabled to ascend to push the plate material to be adhered to the upper plate material, so that the plate material can be automatically moved to one side, when the lifting cylinder 3111 drives the adhered plate to descend to an output position, the roller wheel b4123 of the driving press roller device 412 can be attached to one end of the composite plate 30, the roller wheel b4123 is provided with the motor 4124, so that the roller wheel b4123 can rotate to drive the composite plate 30 to be output backwards through friction force, and in the process, the two plate materials can be attached firmly through the downward pressure of the roller wheel b4123, automatic output is achieved, and meanwhile the attachment firmness between the plate materials is further enhanced in the automatic output process.

further, a gluing device 8 is arranged between the conveying mechanism b21 and the adsorption mechanism 22, and the gluing device 8 comprises a glue box 81 and a glue roller 82 which is rotatably arranged in the glue box 81 and is used for gluing the lower surface of the upper plate 20.

Further, a limiting member 2234 is disposed at a distal end of the adsorption plate 2232 to limit the upper plate 20 that is transferred.

further, the conduit 2221 is fixed to the stopper 3212 by a bracket 2223.

Example two

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, in which the same or corresponding components as in the first embodiment are denoted by the same reference numerals as in the first embodiment, only the differences from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that: preferably, the vacuum cleaner further comprises a baffle 7, wherein the baffle 7 is fixed on an expansion rod of the lifting cylinder 3111 through a fixing rod 71 and moves up and down under the driving of the lifting cylinder 3111, and the baffle 7 is used for blocking an outlet 2223 of the negative pressure generating device 222 when the upper plate 20 and the lower plate 10 are bonded.

The baffle 7 is arranged to make the lower plate 10 and the upper plate 20 attached to each other, so that the negative pressure on the adsorption plate 2232 disappears by blocking the outlet 2223 of the negative pressure generating device 222, and the air blowing device 221 continues to blow air, so that the air can be blown out from the adsorption holes 2233 on the adsorption plate 2232, and the air has a downward pressing effect on the upper plate, so that the two plates are attached to each other more tightly, and the composite plate is not affected by the suction force when moving downward.

The working process is as follows: the lifting cylinder 3111 drives the supporting plate 3121 to the position of the limiting frame 3212, that is, the lower plate feeding station, at this time, the roller a4113 of the driven roller device 411 is located between the transmission mechanism a11 and the supporting plate 3121, the lower plate 10 on the transmission mechanism a11 starts to be transmitted onto the supporting plate 3121 through the roller a4113, the limiting frame 3212 positions the lower plate 10 transmitted onto the supporting plate 3121, the transmission mechanism a11 stops feeding after feeding of one lower plate is completed, meanwhile, the upper plate 20 on the transmission mechanism b21 transmits toward the adsorbing mechanism 22, the gluing device 8 disposed between the transmission mechanism b21 and the adsorbing mechanism 22 completes gluing the lower surface of the upper plate 20 during transmission, the glued upper plate 20 is completed, the upper surface of the glued upper plate is adsorbed by the negative pressure of the adsorbing hole 2233 on the adsorbing plate 2232, and continues to be transmitted forward along the adsorbing plate 2232 until the position of the limiting piece 2234 under the push of the subsequent plate, at this time, the upper plate 20 is already positioned below the adsorption plate 2232 and is in a suspended state, then the lifting cylinder 3111 pushes the support plate 3121 and the lower plate 10 above the support plate to move upwards, until the upper plate 20 and the lower plate 10 are bonded, and at the same time of bonding the two plates, the baffle 7 is driven by the lifting cylinder 3111 to just block the outlet 2223 of the negative pressure generating device 222, the negative pressure effect of the adsorption hole 2233 on the adsorption plate 2232 disappears and no longer has an adsorption effect on the upper plate 20, then the lifting cylinder 3111 can drive the composite plate 30 formed by bonding the two plates to move downwards, and move to the position of the conveying mechanism c42, that is, to an output station, and at this time, the roller a4113 on the driven roller device 411 and the roller b4123 on the driving roller device 412 rotate to a position contacting with the upper surfaces on both sides of the composite plate 30 under the action of the driving elements a5 and b6, respectively, and have a compacting, the roller b4123 is driven by the motor 4124 to rotate, and the roller b4123 drives the composite board 30 to move and output in the direction of the transmission mechanism c42 by friction, in the process, the roller b4123 further improves the bonding strength of the two boards on the composite board 30.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a sheet material bonding and automatic output equipment which characterized in that: comprises that

A lower plate conveying section (1), the lower plate conveying section (1) being for outputting a lower plate (10) rearward;

An upper board conveying section (2), the upper board conveying section (2) for outputting an upper board (20) rearward;

The lifting bonding part (3) is arranged at the rear end of the lower plate conveying part (1) and the lower end of the upper plate conveying part (2), the lifting bonding part (3) is used for receiving the lower plate (10) conveyed by the lower plate conveying part (1) and driving the lower plate (10) to move upwards to be bonded with the upper plate (20) of the upper plate conveying part (2) and then driving the composite plate (30) to move downwards;

The output part (4), the output part (4) is arranged at the rear end of the lifting bonding part (3), and the output part (4) is used for driving the composite board (30) on the lifting bonding part (3) to output backwards;

The lower plate conveying section (1) comprises a transfer mechanism a (11); the upper plate conveying part (2) comprises a conveying mechanism b (21) and an adsorption mechanism (22) arranged at the rear end of the conveying mechanism b (21);

The lifting bonding part (3) comprises a lifting mechanism (31) and a positioning mechanism (32) for positioning the lower plate (10) conveyed by the conveying mechanism a (11);

the output part (4) comprises a press roller mechanism (41) arranged at the front side and the rear side of the lifting mechanism (31) and a transmission mechanism c (42) arranged at the rear end of the lifting mechanism (31);

the lifting mechanism (31) comprises a lifting device (311) and a supporting device (312) arranged at the end part of the lifting device (311); the positioning mechanism (32) comprises a positioning device (321);

the roller mechanism (41) comprises a driven roller device (411) arranged at the front end of the lifting mechanism (31) and a driving roller device (412) arranged at the rear end of the lifting mechanism (31);

The lifting device (311) comprises a lifting cylinder (3111); the supporting device (312) comprises a supporting plate (3121) arranged at the end part of a telescopic rod of the lifting cylinder (3111); the positioning device (321) comprises a support frame (3211) and a limiting frame (3212) fixed on the support frame (3211);

a driving piece a (5) and a driving piece b (6) are arranged on two sides of a telescopic rod of the lifting cylinder (3111); the driven press roller device (411) comprises a rotating seat a (4111) and a rotating frame a (4112) which is rotatably arranged on the rotating seat a (4111), one end of the rotating frame a (4112) is rotatably provided with a roller a (4113), and the other end of the rotating frame a (4112) is provided with a sliding rod a (4114) which is matched with a kidney hole a (51) formed in the driving piece a (5) to slide; the driving pressure roller device (412) comprises a rotating seat b (4121) and a rotating frame b (4122) which is rotatably arranged on the rotating seat b (4121), one end of the rotating frame b (4122) is provided with a roller b (4123) and a motor (4124) for driving the roller b (4123) to rotate, and the other end of the rotating frame b (4122) is provided with a sliding rod b (4125) which is matched with a waist hole b (61) formed in the driving piece b (6) to slide;

The adsorption mechanism (22) comprises a blowing device (221), a negative pressure generating device (222) communicated with an air outlet of the blowing device (221) and a negative pressure adsorption device (223) arranged at the lower end of the negative pressure generating device (222);

Still be provided with rubber coating device (8) between transport mechanism b (21) and adsorption device (22), rubber coating device (8) include glue box (81) and rotatable setting carry out rubber coating glue spreader (82) to the lower surface of upper plate (20) that is used for in glue box (81).

2. A sheet bonding and automatic discharging apparatus according to claim 1, wherein said negative pressure generating device (222) comprises a duct (2221), a plurality of accelerating members (2222) disposed in the duct (2221), said accelerating members (2222) are disposed in a tapered shape, and one end of the accelerating member with a larger opening faces the blowing device (221);

negative pressure adsorption equipment (223) including set up at negative pressure pipe (2231) near accelerator (2222) little open end, set up at negative pressure pipe (2231) tip and with adsorption plate (2232) of negative pressure pipe (2231) intercommunication, a plurality of absorption holes (2233) have been seted up on the lower surface of adsorption plate (2232), negative pressure pipe (2231) and pipeline (2221) inside intercommunication.

3. The apparatus for bonding and automatically discharging sheet materials according to claim 1, further comprising a baffle (7), wherein the baffle (7) is fixed on an expansion rod of the lifting cylinder (3111) through a fixing rod (71) and is driven by the lifting cylinder (3111) to perform lifting movement, and the baffle (7) is used for blocking an outlet (2223) of the negative pressure generating device (222) when the upper plate (20) and the lower plate (10) are bonded.

4. The apparatus for bonding and automatically discharging sheet materials according to claim 1, wherein a stopper (2234) is provided at a distal end of the adsorption plate (2232).