CN113306263A - Novel intelligent single-piece flow hot-pressing gluing machine - Google Patents

Abstract

The invention relates to a novel intelligent single-piece flow hot-pressing gluing machine, which comprises a gluing device, wherein an object to be glued input device and an object to be glued output device are arranged on two sides of a machine body, the object to be glued input device comprises a rack and an input platform erected on the rack, a blank pressing mechanism is arranged between the gluing device and the object to be glued output device, a conveying belt is arranged at one end, close to the gluing device, of the input platform, a bracket transferring mechanism is erected on the input platform, and a door sucking device for sucking a to-be-glued anti-theft door when a bracket driving mechanism drives the bracket to move is arranged on one side, opposite to the two brackets, of the input platform, and the door sucking device has the advantages that: the conveying of the stress surface of the to-be-glued anti-theft door without speed difference when the to-be-glued anti-theft door is conveyed into the gluing device through the conveying belt is realized, the phenomenon of returning back when the to-be-glued anti-theft door is conveyed is prevented through the door suction device, the integrity of a paint body or a film body on the surface of the glued anti-theft door is improved, and the yield of the glued anti-theft door is improved.

Description

Novel intelligent single-piece flow hot-pressing gluing machine

Technical Field

The invention relates to the field of anti-theft door production equipment, in particular to a novel intelligent single-piece flow hot-pressing gluing machine.

Background

The traditional hot-pressing gluing machine mainly comprises a machine body, a plurality of laminated plates which are erected on the machine body and are arranged in a laminated manner, and a driving mechanism for driving the laminated plates to be pressed or separated, wherein a pressing space is formed among the laminated plates, and a heat energy generator capable of adding heat energy into the laminated plates is arranged on the machine body; in the use process, an object to be glued needs to be placed in the pressing space, and then the pressing plate is driven by the driving mechanism, so that the object is thermally glued. However, at present, the placement of the object to be glued and the output from the machine body are respectively carried out manually, so that the operation process is complex, more manpower is consumed, greater potential safety hazards exist, the processing time is prolonged, and the gluing efficiency is lower

Be a plurality of compressed particleboards that set up and drive compressed particleboards and compress tightly or the actuating mechanism of separation, have the pressfitting space between each compressed particleboards, be equipped with on the organism can be to the inside heat energy generator who adds heat energy of compressed particleboards, its characterized in that: the two sides of the machine body are respectively and symmetrically provided with an input device for an object to be glued and an output device for the object to be glued, and the input device for the object to be glued is

The device comprises a frame, a conveying platform erected on the frame, a feeding mechanism erected on the conveying platform and capable of moving back and forth along the conveying platform, and a lifting mechanism a arranged on the frame and capable of lifting the conveying platform; the gluing object output device comprises a frame body, an output platform erected on the frame body, a discharging mechanism erected on the output platform and capable of moving back and forth along the output platform, and a lifting mechanism b arranged on the frame body and capable of lifting the output platform, wherein an object to be glued input device capable of automatically conveying objects to be glued to a pressing space on the frame body and a gluing object output device capable of outputting glued objects are respectively arranged on two sides of the frame body, so that the conveying and moving-out of the objects to be glued can be operated through full-automatic machinery without manual operation, the gluing efficiency is improved, the production cost caused by manual operation is reduced, the potential safety hazard existing in manual operation is eliminated, the conveying platform in the object to be glued input device is arranged for conveying the objects to be glued, the lifting mechanism a is arranged in such a way that the pressing plate is provided with a plurality of blocks, so that the pressing spaces are also provided with a plurality of blocks, the lifting mechanism a can promote an object to be glued on the conveying platform to select a certain pressing space through lifting, and then the object to be glued on the conveying platform is conveyed into the pressing spaces through the feeding mechanism to be glued; the lifting mechanism b in the glued object output device is arranged for lifting the output platform to the gluing space to complete gluing, and jointing the glued objects, so that the glued objects can be automatically output by the output platform;

however, in practical use, the gluing machine has the defects that the surface of the door panel is painted before the anti-theft door enters the gluing machine for hot-press gluing, even the anti-theft door of some manufacturers is coated with a film on the surface, when the gluing machine conveys the to-be-glued object, namely the anti-theft door, into the gluing device, the door plate is conveyed into the gluing device through the conveying device, and in the process of conveying the door plate into the gluing device, one part is subjected to the conveying force of the conveying device, the other part is positioned in the gluing device, the surface has a speed difference, so that the door panel can rub forwards in the gluing device, thereby leading the paint on the surface of the door panel to be scraped and the film on the surface of the coated door panel to be rubbed and gathered and extruded into a strip, when gluing, the plastic film can extrude strip-shaped imprints on the panel of the door plate, so that the whole anti-theft door becomes waste, the material is wasted, the production efficiency is influenced, and the production cost of an enterprise is increased.

In addition, after the gluing output is finished, the extending edge of one side of the security door needs to be bent and formed at 90 degrees with the door body, and the security door needs to be manually transferred to a beading machine for processing in a traditional mode, so that the speed is slow, the repeated labor of workers is caused, and the security door needs to be improved.

Disclosure of Invention

The technical problem to be solved by the present invention is to solve the above-mentioned deficiencies of the prior art,

a novel intelligent single-piece hot-press gluing machine is provided.

In order to achieve the purpose, the invention provides the following technical scheme: novel intelligence single-piece flows hot pressing gluing machine, including the veneer device, the veneer device includes the organism, erects on the organism and be a plurality of pressboard and the drive pressboard that fold the setting compress tightly or the actuating mechanism of separation, has the pressfitting space between each pressboard, is equipped with the heat energy generator that can add heat energy to the pressboard inside on the organism, the organism both sides are equipped with and remain veneer object input device and accomplish veneer object output device, treat that veneer object input device is including the frame and erect the input platform in the frame, accomplish veneer object output device and include the frame body and erect the output platform on the frame body, its characterized in that: the gluing device is characterized in that a blank pressing mechanism is arranged between the gluing device and the gluing object output device, the blank pressing mechanism comprises a blank pressing conveying frame body, a plurality of groups of rubber coating rollers arranged at intervals are erected on the blank pressing conveying frame body, a blank pressing driving motor for driving the rubber coating rollers to rotate synchronously is arranged on one side of the blank pressing conveying frame body, a blank pressing assembly is arranged on one side of the blank pressing conveying frame body, a material pushing assembly for pushing the gluing object to the blank pressing assembly and promoting one side of the gluing object to be located outside the blank pressing conveying frame body is arranged between every two rubber coating rollers, a conveying belt is arranged at one end, close to the gluing device, of the input platform, a conveying bracket mechanism is erected on the input platform, the conveying bracket mechanism comprises a bracket which is relatively erected, a bracket claw which is arranged at one end of the bracket in an opening and closing mode, a bracket driving mechanism for driving the bracket claw to slide and move in a reciprocating mode along the horizontal position of the bracket, and a bracket claw opening mode or a bracket claw closing mode and a bracket is vertical mode The bracket claw opening and closing structure at the position, and one side opposite to the two brackets is provided with a door suction device which can adsorb the anti-theft door to be glued while the bracket driving mechanism drives the brackets to move.

By adopting the technical scheme, the existing full-automatic hot-pressing gluing machine is used for placing the anti-theft door to be glued on the input platform, lifting the anti-theft door to be glued through the lifting mechanism to be matched with the pressing spaces with different heights and then conveying the anti-theft door to the pressing spaces, namely lifting the whole conveying platform, but the method has the problems of low speed and complex structure, and the biggest problem is that as part of the anti-theft door to be glued is positioned on the conveying platform and part of the anti-theft door to be glued is positioned in the pressing spaces, the conveying speeds of the two ends of the anti-theft door to be glued are not consistent in the process of entering the pressing spaces, paint or a packaging film on the surface of the anti-theft door is damaged, and a long mark is seriously generated on the glued anti-theft door (as the pressure of a plate is left on the surface of the anti-theft door when a rolled edge of the packaging film is pressed during gluing), the invention can select the pressing space by directly selecting the driving mechanism for driving the pressing plate to lift as disclosed in the prior art with the patent number CN106113169B and driving the pressing plate to position through the driving mechanism by arranging the driving mechanism on the machine body of the gluing device, because the invention carries out the conveying through arranging the conveying belt and the transferring bracket mechanism, when the burglary-resisting door to be glued is completely positioned on the conveying belt and one end of the door is positioned on the bracket claw, the conveying belt starts to convey, the bracket driving mechanism of the transferring bracket mechanism keeps synchronous with the speed of the conveying belt during the conveying, so that the speed of the driven surface of the burglary-resisting door to be glued is kept in a synchronous state in the process of entering the pressing space, thereby completely avoiding the problem that paint or packaging films on the surface of the burglary-resisting door to be glued are damaged during the conveying, the surface of the glued anti-theft door is intact, the yield is greatly improved, and the transfer bracket mechanism of the invention has a function, when the anti-theft door to be glued in a certain pressing space in the gluing device is glued, the glued anti-theft door is ejected out of the pressing space by the transfer bracket mechanism and then enters the output platform, the two functions are realized by the mechanism, the equipment complexity of the existing hot-pressing gluing machine is greatly simplified, the mechanism is found to have flaws in actual production, namely, the phenomenon that the anti-theft door to be glued is likely to retreat when being conveyed on the bracket claw and the conveying belt, the paint and the film on the surface of the anti-theft door to be glued are damaged by the phenomenon, in order to solve the problem, the other surface of the anti-theft door to be glued is adsorbed by the adsorption door device while the transfer bracket mechanism is conveying, because the adsorption door device and the transfer bracket mechanism synchronously move, the invention has the advantages that the phenomenon that the anti-theft door to be glued retreats is well solved, the yield is greatly improved, after the anti-theft door to be glued is completely pressed in a space, the bracket claw opens the suction door device under the action of the bracket claw opening and closing structure to release the adsorption of the anti-theft door to be glued, and simultaneously returns along with the bracket, the invention arranges a blank pressing mechanism between the gluing device and the gluing object output device, the blank pressing mechanism comprises a blank pressing conveying frame body, a plurality of groups of rubber-covered rollers arranged at intervals are erected on the blank pressing conveying frame body, a blank pressing driving motor for driving the rubber-covered rollers to synchronously rotate is arranged on one side of the blank pressing conveying frame body, a blank pressing component is arranged on one side of the blank pressing conveying frame body, a material pushing component for pushing the gluing objects to the blank pressing component and driving one side of the gluing objects to be glued to be positioned outside the blank pressing conveying frame body is arranged between each rubber-covered roller, the blank pressing component comprises a blank pressing frame, the middle part of the edge pressing frame is provided with an edge pressing working area, an edge pressing block is arranged in the edge pressing working area, the edge pressing frame is provided with a block driving structure for driving the edge pressing block to be lifted integrally under the edge pressing block so as to press the edge of the part of the object which finishes the gluing and extends out of the edge pressing conveying frame body, the block driving structure comprises at least four groups of edge pressing block connecting seats which are arranged at intervals, one end of each edge pressing block connecting seat is fixedly connected with the edge pressing block, the other end of each edge pressing block connecting seat is provided with a synchronizing shaft, one end of each synchronizing shaft far away from the edge pressing block is provided with a synchronizing assembly for driving the synchronizing shafts to synchronously ascend or descend, the synchronizing assembly comprises synchronizing plates which are arranged oppositely, one end of each synchronizing plate close to the edge pressing block is provided with synchronizing connecting seats with the same number as the synchronizing shafts, wherein the two synchronizing shafts penetrate through the synchronizing connecting seats to be connected with hydraulic cylinders, and the material pushing assembly comprises rodless cylinders, the working principle of the edge pressing mechanism is that the edge pressing driving motor drives each rubber roller to synchronously rotate to convey the glued security door to the place where the gluing security door is finished, then the pushing assembly pushes the glued security door to the edge pressing assembly (the side edge of the glued security door extends out of the edge pressing conveying frame body) to push the pushing assembly to push the glued security door to the edge pressing assembly, so that the area of the glued security door needing edge pressing is located in the edge pressing working area, the edge pressing assembly drives the edge pressing block to integrally press the edge of the edge pressing block to perform edge pressing through the block lifting driving structure, after the edge pressing is finished, the pressing block driving structure is linked with the edge pressing block to return, the edge pressing driving motor drives the rubber coating roller to rotate, the glued object with the edge pressing is conveyed to the glued object conveying device to be output, the rising or falling process of the edge pressing block is kept horizontal as much as possible, therefore, the synchronizing shafts on the edge pressing block connecting seats need to rise or fall synchronously, the synchronizing shafts are controlled by the synchronizing assemblies to be synchronous, the edge pressing effect is improved, because the synchronizing shafts are all arranged on the synchronizing plates through the synchronizing connecting seats, the edge pressing blocks can be synchronously driven to rise or fall synchronously only by arranging hydraulic oil cylinders on the synchronizing shafts at the end positions of the two ends of the edge pressing block, the positioning wheels are driven by rodless cylinders to reciprocate along rodless cylinders, the glued object is pushed to the edge pressing assembly to perform the edge pressing, the structure is correspondingly quick and simple, certainly, in the whole process that the antitheft door enters the gluing device and is output from the gluing device, one side edge of the antitheft door to be subjected to edge pressing is arranged towards the edge pressing assembly, the pushing assembly pushes the antitheft door to the edge pressing assembly, the side edge of the antitheft door subjected to gluing extends out of the edge pressing conveying frame body, the edge pressing is completed through the edge pressing assembly, then the antitheft door is conveyed to the gluing object output device through the glue coating roller, and the gluing object output device outputs the hot-pressing gluing machine.

Foretell novel intelligence monolithic flows hot pressing laminator can further set up to: the pressfitting space between each pressfitting board is provided with all around and treats the unanimous cushion of veneer burglary-resisting door thickness, actuating mechanism is including locating the driving motor on organism upper portion, set up in the organism and lie in the veneer base that the organism can vertically go up and down along the below pressfitting board lower part and set up the transmission structure that can make the veneer base vertically go up and down between driving motor and veneer base, be equipped with first direction subassembly between veneer base and the organism, be equipped with the second direction subassembly between pressfitting board and the organism, thereby pressfitting board stacks and sets up and rises through the linkage pressfitting board that rises of veneer base on the veneer base, organism circumference is equipped with the location structure who goes on selecting the pressfitting space at the pressfitting board in rising or the decline in-process with outside input device height adaptation position.

By adopting the technical scheme, the traditional or the existing hot-pressing gluing machine realizes the lifting of the gluing plate by adopting a hydraulic mechanism as a driving source to be matched with a lifter, the mode has poor precision, slow real-time response speed and heavier weight, and is not beneficial to the transportation of the gluing machine after the assembly is finished, the invention adopts a motor as the driving source to drive a gluing base to lift through a transmission structure, the gluing base is arranged below the bottommost gluing plate, the gluing base is linked to lift synchronously along a second guide component when lifting along a first guide component under the action of the transmission structure, the transmission structure enables the gluing base to descend along the first guide component and the gluing plate descends along the second guide component when the driving motor rotates reversely, the precision is higher by adopting the mode of driving the motor, and the motor can select a servo motor to further improve the control precision, the working principle of the invention is to control the lifting of the gluing base through the driving of the motor and the transmission structure, the gluing base pushes up the pressing plates when rising to enable the pressing plates to rise synchronously along the second guide structure, when the gluing base descends, the pressing plates descend synchronously along the second guide structure under the self gravity, because cushion blocks are arranged around the pressing space among the pressing plates, the adjacent pressing plates can not enable the burglary-resisting door to be glued in the pressing space to be excessively extruded when descending or ascending, a positioning structure for selecting the pressing space in the ascending or descending process of the pressing plates is arranged in the circumferential direction of the machine body, the positioning structure is at least four positioning cylinders arranged in the circumferential direction of the machine body, piston rods of the positioning cylinders are arranged towards the pressing space, the transmission structure comprises a first chain wheel shaft and a second chain wheel shaft which are erected on the upper part of the machine body and are positioned at the same horizontal plane and opposite to the driving motor, and chain wheels are arranged on the first chain wheel shaft and the second chain wheel shaft, a drive sprocket is arranged on a motor shaft of the drive motor and is synchronously connected with sprockets on a first sprocket shaft and a second sprocket shaft through synchronous belts respectively, driving sprockets are arranged at two ends of the first sprocket shaft and the second sprocket shaft respectively, a driven sprocket is erected at the lower part of the machine body at the position corresponding to the driving sprockets, the driving sprocket and the driven sprocket rotate synchronously through chains, a chain pull plate is arranged on each chain, one end of the chain pull plate is fixedly connected with a gluing base, a first guide structure comprises at least four guide racks arranged in the machine body and positioned at the periphery of a pressing plate, synchronous shafts are arranged on two sides of the gluing base in a penetrating way, guide gears meshed with the guide racks are arranged at two ends of each synchronous shaft at the positions corresponding to the guide racks, a second guide structure comprises guide blocks arranged at the positions corresponding to the guide racks of the pressing plates, and insert blocks meshed with the guide racks are arranged on the guide blocks, a weight box is arranged above the uppermost laminated board, second synchronizing shafts are erected on two side frames of the weight box, second synchronizing gears meshed with the guide racks are arranged on the second synchronizing shafts, the corresponding speed is high, the positioning is rapid, when the antitheft door to be glued is sent into the previous laminating space, the laminating base enables all the laminated boards to rise, and when the next laminating space is aligned with an external antitheft door input mechanism to be glued, a piston rod of a positioning cylinder extends into all the laminated boards above the laminating space to stop, then the laminating base descends, so that the laminating space in the laminated boards is opened to receive the antitheft door to be glued, the first and second sprocket shafts are driven to rotate by a driving motor, driving sprockets are arranged at two ends of the first and second sprocket shafts respectively, driven sprockets are arranged at positions corresponding to the driving sprockets below the machine body, and the driving sprockets realize driving through chains, The transmission between the driven sprockets, in order to ensure that the gluing base and the pressing plate are in the horizontal position as much as possible for lifting, therefore, the driving sprockets on the first sprocket shaft and the second sprocket shaft and the driven sprockets at the lower part of the machine body are arranged at the periphery of the pressing plate, the chain pull plate arranged on each chain drives the gluing base to ascend or descend so as to link the pressing plate to ascend along the second guide structure or enable the pressing plate to descend along the second guide structure under the action of gravity of the pressing plate and the upper pressing plate, the gluing base is guided by the matching of at least four guide racks arranged at the periphery of the pressing plate in the machine body and the guide gears arranged on the synchronizing shaft of the gluing base, the guide blocks are arranged at the positions of the pressing plates close to the guide racks, the insert blocks are arranged on the guide blocks, the tooth shapes meshed with the guide racks are arranged on the insert blocks, and the lifting of the pressing plate is guided by the matching of the guide blocks and the guide racks, because the gluing device needs to treat when gluing and glue the burglary-resisting door and apply certain pressure, consequently set up the weight box above the plywood, the weight box is solid, and when the veneer base descends, all plywood descended along second guide structure under the effect of weight box.

Foretell novel intelligence monolithic flows hot pressing laminator can further set up to: the bracket comprises a supporting seat and a supporting wheel, the supporting wheel is arranged on the supporting seat in a rotatable mode, the supporting wheel is erected with a supporting aluminum product, a plurality of fixing plates are arranged between the supporting seats in a spaced mode, sliders are mounted on the fixing plates, one end, far away from the supporting wheel, of the supporting aluminum product is fixedly provided with a linear guide rail matched with the sliders, the other end, opposite to the slider, of the fixing plate is erected with a driving platen, a bracket driving mechanism is mounted on the driving platen and slides through a belt driving linear guide rail, a bracket claw is mounted at one end of the supporting aluminum product, and a door suction device is mounted on one side, opposite to the supporting aluminum product.

By adopting the technical scheme, the bracket driving mechanism comprises a bracket driving motor and a bracket driving shaft which are arranged on a driving bedplate, the bracket driving motor and the bracket driving shaft are synchronously rotated and arranged through a chain, bracket synchronous belt pulleys are respectively arranged at two ends of the bracket driving shaft, a belt is arranged on the outer surface of a supporting aluminum material along the length direction of the supporting aluminum material, two ends of the belt are respectively pressed through belt glands, one end of the belt is driven through the bracket synchronous belt pulleys, the bracket claw comprises a bracket claw rotating shaft arranged between the two supporting aluminum materials, the bracket claw rotating shaft is connected with a transverse plate through a plurality of vertical plates arranged at intervals, a plurality of hook plates are arranged on the transverse plate at intervals, a plurality of aluminum material supporting beams are arranged between the two supporting aluminum materials, a bracket claw opening and closing mechanism is arranged on the aluminum material supporting beams close to the bracket claw, one end of the bracket claw opening and closing driving cylinder is arranged on the aluminum material supporting beams, the fisheye joint is arranged at one end of the bracket claw opening and closing driving cylinder, a fisheye joint mounting seat is arranged at one end, facing the fisheye joint, of the vertical plate, one end of the fisheye joint is mounted in the fisheye joint mounting seat, the door sucking device comprises a door sucking bottom plate, one end of the door sucking bottom plate is connected with a door sucking plane magnet through a plane four-bar mechanism, the plane four-bar mechanism comprises a first connecting bar, the other end of the first connecting bar is connected with a second connecting bar, the other end of the second connecting bar is connected with a third connecting bar, the door sucking plane magnet is mounted on the third connecting bar, the other end, opposite to the second connecting bar, of the third connecting bar is movably connected with the first connecting bar, a door sucking cylinder with one end connected with the first connecting bar and the other end connected with the second connecting bar and the junction of the third connecting bar is mounted on the first connecting bar, a buffering structure with the horizontal plane lower than the door sucking plane magnet is arranged at one end, facing the conveying platform, of the first connecting bar, after the door sucking device is mounted on the transfer bracket mechanism, the buffer structure comprises a first inclined plane arranged on a first connecting rod and a first reinforcing surface arranged opposite to the first inclined plane, a buffer arc included angle is formed between the first inclined plane and the first reinforcing surface, the horizontal plane of the buffer arc included angle is lower than the horizontal plane of a magnet on a door sucking plane, the door sucking devices are oppositely arranged on a bracket, at least two door sucking devices are arranged on the bracket at intervals on the same side of the bracket, a door sucking cylinder is connected with an air source through an air pipe, the air source is controlled to be switched on and off through an electromagnetic valve, a supporting seat and a fixing plate are both arranged on two sides of a conveying belt, a linear guide rail on a supporting aluminum material is driven to slide along a sliding block through the matching of a bracket driving mechanism arranged on a driving bedplate, so that a bracket claw is driven to reciprocate, when the bracket claw is conveyed, the bracket driving mechanism controls the advancing speed of the bracket claw to be consistent with the conveying belt, so that the anti-theft door to be glued is supported in the gluing device, the device has the advantages that the positions of the glued antitheft door, which are subjected to the driving force, are consistent in speed and free of speed difference, so that the effect of protecting paint or a film on the surface of the glued antitheft door is achieved, the door suction device moves along with the supporting aluminum material after adsorbing the glued antitheft door, the door suction device loosens adsorption after the glued antitheft door is transferred in place, the bracket driving motor drives the bracket driving shaft to rotate through the chain, the bracket synchronous belt pulley is arranged on the bracket driving shaft, the belt coated on the outer surface of the supporting aluminum material is driven to rotate through the bracket synchronous belt pulley, the sliding of the aluminum material along the sliding block is driven to be supported by the bracket driving motor through the belt, the hook plate is arranged on the transverse plate, the transverse plate is connected with the bracket claw rotating shaft through the vertical plate, when the bracket claw opening and closing mechanism drives the vertical plate to open or close, the vertical plate and the hook plate are opened or closed along with the bracket claw opening and closing mechanism, particularly, when the glued antitheft door is completely sent into the glued antitheft door, the bracket claw opening and closing mechanism drives the vertical plate to open and treat The gluing anti-theft door is in a state of being separated from contact until the support aluminum material is completely withdrawn, the bracket claw opening and closing mechanism drives the vertical plate to be withdrawn to prepare for receiving the next anti-theft door to be glued, the bracket claw is opened and closed to drive the air cylinder to drive the vertical plate to be opened and closed, the vertical plate rotates along the bracket claw rotating shaft, so that the opening and closing of the bracket claw are realized, the door sucking device is opened under the action of the bracket claw opening and closing structure to release the adsorption of the anti-theft door to be glued after the anti-theft door to be glued completely performs a laminating space, the door sucking device returns along with the bracket, the door sucking device is realized through the four-bar mechanism and the magnet arranged on the third connecting rod, when the door sucking air cylinder is driven out, the magnet extends downwards under the action of the four-bar mechanism to adsorb the anti-theft door to be glued, when the air cylinder is withdrawn, the magnet returns under the action of the four-bar mechanism, the installation space of the magnet can be smaller, and the stroke is longer, according to the invention, one end of the first connecting rod is set to be lower than the door-sucking plane magnet, after the door-sucking device is installed, the conveyed door-sucking plane magnet is firstly contacted with the buffer structure arranged on the first connecting rod and is not contacted with the door-sucking plane magnet, and only when the door-sucking cylinder drives the four-connecting-rod mechanism to move, the door-sucking plane magnet is contacted with the door-sucking plane magnet, so that the condition of scraping the surface of the door-sucking antitheft door is avoided, and the integrity of the surface of the door-sucking antitheft door is improved.

Foretell novel intelligence monolithic flows hot pressing laminator can further set up to: the blank pressing mechanism comprises a blank pressing conveying frame body, a plurality of groups of rubber coating rollers arranged at intervals are erected on the blank pressing conveying frame body, a blank pressing driving motor for driving the rubber coating rollers to rotate synchronously is arranged on one side of the blank pressing conveying frame body, a blank pressing assembly is arranged on one side of the blank pressing conveying frame body, and a material pushing assembly which pushes the glued object to the blank pressing assembly and enables one side of the glued object to be located outside the blank pressing conveying frame body is arranged between each two rubber coating rollers.

The invention has the beneficial effects that: realize treating the veneer burglary-resisting door and do not have the transport of speed difference in the stress surface when advancing the cementing device through the conveyer belt conveying, prevent through the suction door device and treat that the veneer burglary-resisting door rolls back the phenomenon when carrying, improve the integrality of veneer back burglary-resisting door surface lacquer body or membrane body, thereby improve the yield of veneer back burglary-resisting door, it has promoted the integrality of treating the veneer burglary-resisting door surface to set up buffer structure, the cementing device adopts motor drive's mode drive compressed particleboard to rise, it is accurate and be equipped with location structure pressfitting space location fast to rise distance control, it carries out output hot-pressing gluing machine after the blank pressing to set up blank pressing mechanism and will accomplish the object of veneer, the production efficiency has been improved when simplifying the process.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of an input platform according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view of a transfer carriage mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of the transfer carriage mechanism of the embodiment of the present invention with a cover removed, showing the structure of fig. 1.

Fig. 5 is a schematic perspective view of the transfer carriage mechanism of the embodiment of the present invention with the cover removed, showing the structure 2.

Fig. 6 is a schematic perspective view of a suction gate device according to an embodiment of the present invention.

Fig. 7 is an enlarged structural diagram of the first link according to the embodiment of the present invention.

Fig. 8 is a perspective view of a gluing device 1 according to an embodiment of the present invention.

Fig. 9 is a perspective view of a gluing device according to an embodiment of the present invention, schematically illustrated in fig. 2.

Fig. 10 is a schematic perspective view 1 of the gluing device according to the embodiment of the invention, after metal plates on the periphery of the gluing device body are removed.

Fig. 11 is a schematic perspective view 2 of the gluing device according to the embodiment of the invention, after metal plates on the periphery of the gluing device body are removed.

Fig. 12 is a schematic perspective view 3 of the gluing device according to the embodiment of the invention, after metal plates on the periphery of the gluing device body are removed.

Fig. 13 is a schematic perspective view 4 of the gluing device according to the embodiment of the invention, after metal plates on the periphery of the gluing device body are removed.

Fig. 14 is a schematic perspective view of a second guiding structure according to an embodiment of the present invention.

Fig. 15 is a schematic perspective view of a blank pressing mechanism according to an embodiment of the present invention.

FIG. 16 is a schematic perspective view of a binder assembly according to an embodiment of the present invention, shown in FIG. 1.

FIG. 17 is a schematic perspective view of a binder assembly according to an embodiment of the present invention, shown in FIG. 2.

Fig. 18 is a schematic perspective view of an edge pressing carrier body according to an embodiment of the present invention.

Detailed Description

Referring to fig. 1-18: the novel intelligent single-piece flow hot-pressing gluing machine comprises a gluing device 3, wherein the gluing device 3 comprises a machine body 31, a plurality of pressing plates 32 which are erected on the machine body 31 and are arranged in a stacked manner, and a driving mechanism for driving the pressing plates 32 to press or separate, a pressing space is formed between the pressing plates 32, and a heat energy generator 33 capable of adding heat energy into the pressing plates 32 is arranged on the machine body 31; the driving mechanism comprises a driving motor 311 arranged at the upper part of the machine body 31, a gluing base 312 which is arranged in the machine body 31 and is positioned at the lower part of the lowest pressing plate 32 and can be vertically lifted along the machine body 31, and a transmission structure which is arranged between the driving motor 311 and the gluing base 312 and can promote the gluing base 312 to be vertically lifted along the machine body, a first guide component is arranged between the gluing base 312 and the machine body 31, a second guide component is arranged between the pressing plate 32 and the machine body 31, the pressing plate 32 is arranged on the gluing base 312 in a stacking way and is linked with the lifting of the pressing plate 32 through the lifting of the gluing base 312, a positioning structure which is used for selecting a pressing space in the lifting or descending process of the pressing plate 32 is arranged at the position of the machine body 31 in the circumferential direction which is matched with the height of an external input device,

the positioning structure is at least four positioning cylinders 313 arranged on the circumference of the machine body 31, and a piston rod 3131 of each positioning cylinder 313 is arranged towards the pressing space;

the transmission structure comprises a first chain wheel shaft 314 and a second chain wheel shaft 315 which are erected on the upper portion of the machine body 31 and located on the same horizontal plane with the driving motor 311 and arranged oppositely, chain wheels 316 are arranged on the first chain wheel shaft 314 and the second chain wheel shaft 315, a transmission chain wheel 3111 is arranged on a motor shaft of the driving motor 311 and synchronously connected with the chain wheels 316 of the first chain wheel shaft 314 and the second chain wheel shaft 315 through a synchronous belt 3112, driving chain wheels 3141 are respectively arranged at two ends of the first chain wheel shaft 314 and the second chain wheel shaft 315, a driven chain wheel 3142 is erected on the lower portion of the machine body 31 at the position corresponding to the driving chain wheel 3141, the driving chain wheel 3141 and the driven chain wheel 3142 synchronously rotate through a chain 3143, a chain pulling plate 3144 is installed on the chain 3143, and one end of the chain pulling plate 3144 is fixedly connected with the gluing base 312;

the first guide structure comprises four guide racks 35 arranged in the machine body 31 and located on the periphery of the press plates 32, synchronizing shafts 3121 penetrate through two sides of the gluing base 312, guide gears 3122 arranged at two ends of each synchronizing shaft 3121 and meshed with the guide racks 35 are arranged at positions corresponding to the guide racks 35, the second guide structure comprises guide blocks 321 arranged at positions corresponding to the guide racks 35 of the press plates 32, inserts 322 arranged to be meshed with the guide racks 35 are arranged on the guide blocks 321, (teeth on the inserts 322 are not shown), a weight box 36 is arranged above the uppermost press plate 32, second synchronizing shafts 361 are arranged on two side frames of the weight box 36, and second synchronizing gears 362 arranged to be meshed with the guide racks 35 are arranged on the second synchronizing shafts 361.

An input device 2 for objects to be glued and an output device 1 for finished glued objects are arranged on two sides of a machine body 31, the input device 2 for objects to be glued comprises a machine frame 21 and an input platform 22 erected on the machine frame 21, the output device 1 for finished glued objects comprises an organic frame body 11 and an output platform 12 erected on the machine frame body 11, a blank pressing mechanism 4 is arranged between the gluing device 3 and the output device 1 for finished glued objects, the blank pressing mechanism 4 comprises a blank pressing conveying frame body 41, a plurality of groups of rubber coating rollers 401 arranged at intervals are erected on the blank pressing conveying frame body 41, a blank pressing driving motor 402 for driving the rubber coating rollers 401 to rotate synchronously is arranged on one side of the blank pressing conveying frame body 41, a blank pressing assembly 42 is arranged on one side of the blank pressing conveying frame body 41, and a material pushing assembly for pushing the finished glued objects to the blank pressing assembly 42 and promoting one side of the finished glued objects to be positioned outside the blank pressing conveying frame body 41 is arranged between each rubber coating roller 401;

the blank pressing assembly 42 comprises a blank pressing frame 421, the middle part of the blank pressing frame 421 is provided with a blank pressing working area 422, a blank pressing block 423 is arranged in the blank pressing working area 422, and a block pressing driving structure for driving the blank pressing block 423 to be lifted integrally is arranged under the blank pressing block 423 of the blank pressing frame 421 so as to press the blank of the part of the glued object extending out of the blank pressing conveying frame body 41;

the pressing block driving structure comprises four groups of edge pressing and pressing block connecting seats 424 which are arranged at intervals, one end of each edge pressing and pressing block connecting seat 424 is fixedly connected with an edge pressing block 423, the other end of each edge pressing and pressing block connecting seat 424 is provided with a synchronizing shaft 425, and one end of each synchronizing shaft 425, which is far away from the edge pressing block 423, is provided with a synchronizing component for driving the synchronizing shaft 423 to synchronously ascend or descend;

the synchronous component comprises synchronous plates 426 which are oppositely arranged, one end of each synchronous plate 426, which is close to the edge pressing press block 423, is provided with synchronous connecting seats 428 the number of which is the same as that of the synchronous shafts 425, wherein the two synchronous shafts 425 penetrate through the synchronous connecting seats 428 to be connected with hydraulic cylinders 427;

the pushing assembly comprises a rodless cylinder 43, a pushing block 431 is arranged on a piston of the rodless cylinder 43, a positioning wheel 432 is vertically arranged on the pushing block 431, and the positioning wheel 432 is fixedly connected with the pushing block 431 through a connecting shaft 433;

in order to ensure the stability of the security door body during edge pressing, the edge pressing frame 421 is provided with opposite door pressing seats 4211, and the door pressing seats 4211 extend towards the edge pressing conveyor frame body 41 and form a gap with the same thickness as the security door between the door pressing conveyor frame body 41 and the door pressing conveyor frame body.

A conveying belt 23 is arranged at one end of the input platform 22 close to the gluing device 3, a transfer bracket mechanism 20 is erected on the input platform 22 and comprises brackets 201 which are oppositely arranged, bracket claws 202 which are arranged at one end of the brackets 201 and can be opened and closed, a bracket driving mechanism which drives the bracket claws 202 to slide and move back and forth along the horizontal position of the brackets, and a bracket claw opening and closing structure which enables the bracket claws 202 to be opened and parallel to the brackets 201 or enables the bracket claws 202 to be closed and vertical to the brackets 201, and a door sucking device 20135 which sucks the to-be-glued anti-theft door when the bracket driving mechanism drives the brackets 201 to move is arranged at one side, which is opposite to the two brackets 201;

the bracket 201 comprises supporting seats 2011 arranged at intervals and supporting wheels 2012 arranged on the supporting seats 2011 in a rotatable mode, supporting aluminum materials 2013 are erected on the supporting wheels 2012, a plurality of fixing plates 203 arranged at intervals are arranged between the supporting seats 2011, sliders 204 are arranged on the fixing plates 203, a linear guide rail 205 matched with the sliders 204 is fixedly arranged at one end, far away from the supporting wheels 2011, of the supporting aluminum materials 2013, and a driving platen 206 is erected at the other end, opposite to the fixing plates 203, of the mounting sliders 204;

the door absorbing device 20135 is oppositely arranged on the bracket 201, two door absorbing devices 20135 are arranged on the bracket 201 at the same side at intervals, each door absorbing device 20135 comprises a door absorbing bottom plate 201351 fixedly connected with the supporting aluminum material 2013, the other end of the door absorbing bottom plate 201351, which is relatively connected with the supporting aluminum material 2013, is hinged with a first connecting rod 201352, the other end of the first connecting rod 201352 is connected with a second connecting rod 201353, the other end of the second connecting rod 201353 is connected with a third connecting rod 201354, an absorbing magnet 201355 is arranged on the third connecting rod 201354, the other end of the third connecting rod 201354, which is relatively connected with the second connecting rod 201353, is movably connected with the first connecting rod 201352, a door absorbing cylinder 201356, one end of which is connected with the first connecting rod 201352, and the other end of which is connected with the second connecting rod 201353 and the third connecting rod 201354, is arranged on the first connecting rod 201352, a four-bar mechanism is formed among the first connecting rod 201352, the second connecting rod 201353, the third connecting rod 201354 and the door absorbing cylinder 201356, the door absorbing cylinder 201356 is connected with an air source (not shown in the figure), an air source (not shown in the figure) is controlled to be switched on and off through a solenoid valve (not shown in the figure);

in order to further improve the integrity of the door surface, a buffer structure can be arranged on the door sucking device, the buffer structure comprises a first inclined surface 2013521 arranged on the first connecting rod 201352 and a first reinforcing surface 2013522 arranged opposite to the first inclined surface 2013521, a buffer arc included angle 2013523 is formed between the first inclined surface 2013521 and the first reinforcing surface 2013522, and the horizontal plane where the buffer arc included angle 2013523 is located is lower than the horizontal plane where the door sucking plane magnet 201355 is located;

the bracket driving mechanism is arranged on the driving bedplate 206 and drives the linear guide rail 205 to slide through a belt (not shown in the figure), the bracket claw 202 is arranged at one end of the supporting aluminum material 2013, the bracket driving mechanism comprises a bracket driving motor 2061 and a bracket driving shaft 2062 which are arranged on the driving bedplate 206, the bracket driving motor 2061 and the bracket driving shaft 2062 are synchronously rotated through a chain (not shown in the figure), the two ends of the bracket driving shaft 2062 are respectively provided with a bracket synchronous belt pulley 2063, the belt is arranged on the outer surface of the supporting aluminum material 2013 along the length direction of the supporting aluminum material 2013, the two ends of the belt are respectively pressed by a front belt gland 2064 and a rear belt gland 2065, and one end of the belt is driven through the bracket synchronous belt pulley 2063;

the bracket claw 202 comprises a bracket claw rotating shaft (square shaft) 2021 arranged between two supporting aluminum materials 2013, the bracket claw rotating shaft 2021 is connected with a transverse plate 20212 through a plurality of vertical plates 20211 arranged at intervals, a plurality of hook plates 20213 are arranged on the transverse plate 20212 at intervals, a plurality of aluminum material supporting beams 20131 are arranged between the two supporting aluminum materials 2013, a bracket claw opening and closing mechanism is arranged on the aluminum material supporting beams 20131 close to the bracket claw 202, and one end of the bracket claw opening and closing mechanism is connected with the vertical plates 20211;

the bracket claw opening and closing mechanism comprises a plurality of bracket claw opening and closing driving cylinders 20132 which are arranged at intervals and arranged on an aluminum supporting beam 20131, fisheye joints 20133 are arranged at one ends of the bracket claw opening and closing driving cylinders 20132, fisheye joint mounting seats 20134 are arranged at one ends, facing the fisheye joints 20133, of vertical plates 20211, and one ends of the fisheye joints 20133 are arranged in the fisheye joint mounting seats 20134.

Claims (3)

1. A new type of intelligent single-piece flow hot-pressing gluing machine, including a gluing device, the gluing device includes an organism, a number of plywood boards erected on the machine body and arranged in stacks, and a driving mechanism for driving the plywood boards to compress or separate. There is a pressing space between the plywood, and the body is provided with a heat energy generator that can add heat energy to the inside of the plywood. Both sides of the body are provided with an input device for the object to be glued and an output device for the finished glued object. The input device for the object to be glued includes organic A rack and an input platform erected on the rack, the output device for completing the gluing object includes a rack body and an output platform erected on the rack body, and it is characterized in that: between the gluing device and the output device for completing the gluing object is provided with Crimping mechanism, which includes a crimping conveying frame body, on which a plurality of groups of rubber-coated rollers are arranged at intervals, and one side of the edge-pressing conveying frame is provided with a driving rubber-coated roller to synchronize A rotating edge blanking drive motor, a blank blanking assembly is arranged on one side of the edge blanking conveyor body, and a blank blanking assembly is arranged between each rubber wrapping roller to push the finished gluing object to the edge blanking assembly and urge the completed gluing object to be located on the edge blanking conveyor. External pusher assembly, one end of the input platform close to the gluing device is provided with a conveyor belt, and a transfer bracket mechanism is set up on the input platform, and the transfer bracket mechanism includes a relatively established bracket, which is arranged on the bracket A bracket claw that can be opened and closed at one end, a bracket drive mechanism that drives the bracket claw to reciprocate and slide along the horizontal position of the bracket, and a bracket drive mechanism that urges the bracket claw to open and the bracket to be in a parallel position or to make the bracket claw close and the bracket. The bracket claw opening and closing structure in the vertical position, the opposite side of the two brackets is provided with a suction door device that adsorbs the anti-theft door to be glued when the bracket driving mechanism drives the bracket to move. 2. The novel intelligent single-piece flow hot-pressing gluing machine according to claim 1, characterized in that: the pressing space between each pressing plate is provided with pads of the same thickness as the anti-theft door to be glued around, and the driving mechanism It includes a drive motor arranged on the upper part of the body, a glue base arranged in the body and located at the lower part of the lowermost plywood and can be raised and lowered along the longitudinal direction of the body, and a transmission structure arranged between the drive motor and the glue base to promote the glue base to rise and fall along the longitudinal direction of the body, A first guide component is arranged between the glue base and the body, and a second guide component is arranged between the pressure plate and the body. The pressure plates are arranged in a stack on the glue base. The glue base rises to link the pressure plates to rise, and the body circumferentially moves upward. A positioning structure for selecting the pressing space during the ascending or descending process of the pressing plate is provided at a position highly adapted to the external input device. 3. The novel intelligent single-piece flow hot-pressing gluing machine according to claim 1 or 2, characterized in that: the bracket comprises a support seat arranged at intervals and a support wheel that is rotatably arranged on the support seat, and the support wheel is erected on the support wheel. The supporting aluminum material is provided with a plurality of fixed plates arranged at intervals between the supporting bases, the sliding blocks are installed on the fixed plates, and the end of the supporting aluminum material away from the supporting wheel is fixedly installed with a sliding block adapted to the sliding block. Linear guide rail, the fixed plate is set with a drive platen at the other end of the mounting block, the bracket drive mechanism is installed on the drive platen and is slidably arranged by the belt-driven linear guide rail, and the bracket claw is installed on the support At one end of the aluminum material, the suction door device is installed on the opposite side of the supporting aluminum material.

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