CN114618743A - Full-automatic frameless honeycomb panel production facility - Google Patents

Abstract

The invention provides full-automatic frameless honeycomb panel production equipment, which comprises an equipment main body, wherein a ball screw is rotated at the upper end of the equipment main body, an oil pressure automatic notching die is arranged at the upper end of the ball screw, linear guide rails are embedded at two sides of the oil pressure automatic notching die, a material guide system and a cutting and folding die are installed at two sides of the equipment main body, a roller is rotated at one side of the material guide system, which is close to the cutting and folding die, a feeding roller is rotated at the upper end of the roller, the roller rotates at the upper end of a honeycomb panel, the feeding roller coats glue on the outer side of the roller, part of the glue enters the inner part of the roller through a feeding pipe, the glue inside of a support enters the inner part of a coating ring through a pipeline in the moving process of the roller, a support at the upper end of the roller rotates along with the continuous rotation of the roller, the support moves to the lower end of the roller at the moment, and due to gravity, the stent and the coating ring are slid down.

Description

Full-automatic frameless honeycomb panel production facility

Technical Field

The invention relates to the technical field of honeycomb panel production, in particular to full-automatic frameless honeycomb panel production equipment.

Background

The honeycomb plate is a plate made by firmly bonding two relatively thin panels on two sides of a relatively thick honeycomb core material, when the honeycomb plate is produced, the honeycomb plate needs to be processed step by step through production equipment, and the honeycomb plates are bonded through glue, so that the technical inspiration aiming at the production equipment is realized;

the research on the production equipment found the following problems:

along with the continuous increase of the use of the honeycomb plates, the honeycomb plate types and the sizes are different, so that the heights of the honeycomb plates are different, and when glue is coated by the roller of the production equipment, the roller is fixed in position, so that the condition of incomplete coating is easy to occur at the upper end part of the honeycomb plate, and the glue cannot be coated by the production equipment according to the heights of the honeycomb plates;

at present, CN202010979637.5 a combination glue compound aluminum honeycomb panel production facility and technology in the prior art disclose production facilities, the aluminum honeycomb panel produced by the invention adopts a high-strength alloy aluminum plate as a panel and a bottom plate, an aviation adhesive is used in the middle to bond a hexagonal aluminum foil honeycomb core, and the structural form of decorative and anti-corrosion coating is applied on the surface of the aluminum plate after hot-pressing compounding, thus overcoming the defects of brittleness, low tearing resistance and low impact resistance of the bonding layer of the honeycomb panel produced by the traditional technology;

the invention mainly solves the problem that the honeycomb plate is inconvenient to evenly coat due to different heights.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a fully automatic frameless cellular board production apparatus, so as to solve the above problems described in the background art.

The invention relates to a full-automatic frameless cellular board production device, which has the purpose and the effect achieved by the following specific technical means: the utility model provides a full-automatic frameless honeycomb panel production facility, includes the equipment main part, the upper end of equipment main part is rotatory to have ball screw, ball screw's upper end is equipped with the automatic breach mould of beating of oil pressure, the automatic both sides gomphosis of beating the breach mould of oil pressure has linear guide, guide system and cutting off the hem mould are installed to the both sides of equipment main part, guide system is close to the rotatory gyro wheel that has one side of cutting off the hem mould, the upper end of gyro wheel is rotatory to have the material loading roller, the inside of gyro wheel is equipped with the automatic drive mechanism according to honeycomb panel height coating glue of usable gravity.

Further, the gyro wheel is rotatory in the middle of guide system and cutting off hem mould, and the gyro wheel is a plurality ofly arranged horizontally, and the gyro wheel sets up with the material loading roller is supporting, and supporting motor is installed to one side of gyro wheel, and motor and power cord electric connection, supporting speed governing switch are installed to the motor.

Further, the guide system includes agitator, auger and hopper, and the guide system transmits glue to the upper end of material loading roller, and the hopper is installed in the upper end of material loading roller, and supporting motor is installed to one side of material loading roller, and the motor drives the material loading roller rotatory, and the material loading roller coats glue in the upper end of gyro wheel at rotatory in-process.

Further, drive mechanism includes support, pipeline, coating ring, inlet pipe, swash plate, mount, ball, water bag and carriage, and the support slides in the inside of gyro wheel, and the pipeline runs through in one side of support, and the coating ring slides in the one end of pipeline, and the inlet pipe runs through in the inside of gyro wheel, and the swash plate is inlayed in the inner wall of inlet pipe, and the mount is installed in the inside of pipeline, and the ball slides in the inside of mount, and the water bag slides and stretches out and draw back in the both sides of mount one end, and the carriage slides and runs through in one side of water bag.

Further, the inside of support is the cavity form setting, and the one end of support is link up there is the hole, and the support evenly surrounds the inside that distributes in the gyro wheel, and the support is provided with three groups, and support, pipeline and the supporting setting of coating ring, and the support is the semicircle arcuation setting, and the semicircle angle is 15-45, and the pipeline runs through between support and coating ring, and the pipeline inner wall diameter is 2-4cm, and the pipeline runs through in the inside of gyro wheel.

Further, a sponge layer is embedded on the surface of the coating ring, the thickness of the sponge layer is 0.5-1cm, one end of the sponge layer is communicated with the pipeline, the coating ring is matched with the support, and the length of the coating ring is 2-4cm smaller than that of the support.

Furthermore, the inlet pipe sets up in the one end of coating the ring, and the inlet pipe is perpendicular corresponding setting with the hole of support one end, and the outside of gyro wheel is seted up flutedly, and the inlet pipe link up with the recess, and the support is in the inside of gyro wheel recess, and the swash plate is the rubber material, and the swash plate is slope 25-45 and sets up, and the swash plate is whole to be to leak hopper-shaped setting, and the swash plate surrounds in the inner wall of inlet pipe.

Furthermore, the fixing frame is arranged in the middle of the inside of the pipeline, the inside of the fixing frame is arranged in a hollow shape, one end of the fixing frame is arranged in an inclined shape of 15-35 degrees, the whole fixing frame is arranged in a T shape, and when the fixing frame is arranged at the upper end of the roller, the ball is arranged at the lower end of the inside of the fixing frame due to gravity.

Further, the carriage is horizontal "worker" form setting, and the carriage runs through and extends to the outside of water bag, and the shape setting of carriage can avoid the inside clear water of water bag to reveal, can form sealedly to the pipeline inner wall simultaneously.

Further, drive mechanism includes pivot, telescopic link, extrusion frame and sand grip, and the pivot is rotatory in the inside of gyro wheel, and the telescopic link encircles in the outside of pivot, and the extrusion frame is inlayed in the one end of telescopic link, and the sand grip distributes in the outside of extrusion ring.

Has the advantages that:

1. the roller rotates at the upper end of the honeycomb plate, the feeding roller coats glue on the outer side of the roller, part of the glue enters the roller through the feeding pipe and enters the support through the feeding pipe, the glue in the support enters the coating ring through the pipeline in the moving process of the roller, the support at the upper end of the roller continuously rotates along with the roller, the support moves to the lower end of the roller at the moment, the support and the coating ring slide downwards due to gravity, and the coating ring can form uniform coating glue on the honeycomb plate according to the height of the honeycomb plate by utilizing the gravity;

2. at the moment, the fixing frame is also positioned at the lower end of the roller, the ball inside the fixing frame moves to the lower end inside the fixing frame, meanwhile, the ball is extruded to one side of the water bag, the water bag is integrally deformed, and then clear water inside the water bag flows to enable the sliding frame to integrally slide, the sliding frame is attached to the inner wall of the pipeline after sliding, and sealing is formed inside the pipeline, so that when the support moves to the lower end of the roller, the transmission mechanism can automatically prevent glue from flowing to the inside of the coating ring, and the condition that the glue inside the coating ring is too much is avoided;

3. the raised strips are attached to one side of the bracket along with the continuous rotation of the bracket, and the bracket can assist the telescopic rod to rotate through the rotating shaft;

4. and the telescopic link is when removing the lower extreme to the pivot, because gravity, the telescopic link slides down fast, and the telescopic link drives extrusion frame and sand grip and forms the striking to the one end of support, and then can avoid glue to block up in the inside of support.

Drawings

FIG. 1 is a schematic top view of the present invention.

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

FIG. 3 is a schematic top view of the roller of the present invention.

FIG. 4 is a schematic cross-sectional view of the roller of the present invention.

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention.

Fig. 6 is a schematic cross-sectional view of the fixing frame of the present invention.

Fig. 7 is a schematic structural view of the rotating shaft assembly of the present invention.

In fig. 1 to 7, the correspondence between the component names and the reference numbers is:

1-equipment body, 101-ball screw, 102-oil pressure automatic notching mould, 103-linear guide rail, 104-guide system, 105-cutting flanging mould, 106-roller, 107-feeding roller, 2-bracket, 201-pipeline, 202-coating ring, 203-feeding pipe, 204-inclined plate, 3-fixed bracket, 301-ball, 302-water bag, 303-sliding bracket, 4-rotating shaft, 401-telescopic rod, 402-extruding bracket and 403-convex strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in figures 1 to 7:

example 1: a full-automatic frameless cellular board production device comprises a device main body 1, wherein a ball screw 101 is rotatably arranged at the upper end of the device main body 1, an oil pressure automatic notching die 102 is arranged at the upper end of the ball screw 101, linear guide rails 103 are embedded at two sides of the oil pressure automatic notching die 102, a material guide system 104 and a cutting and flanging die 105 are arranged at two sides of the device main body 1, a roller 106 is rotatably arranged at one side, close to the cutting and flanging die 105, of the material guide system 104, a feeding roller 107 is rotatably arranged at the upper end of the roller 106, and a transmission mechanism capable of automatically coating glue according to the height of a cellular board by utilizing gravity is arranged inside the roller 106;

wherein: the rollers 106 rotate between the material guide system 104 and the cutting and flanging die 105, a plurality of rollers 106 are horizontally arranged, the rollers 106 are matched with the feeding roller 107, one side of each roller 106 is provided with a matched motor, the motor is electrically connected with a power line, and the motor is provided with a matched speed regulating switch;

when the roller 106 rotates, the feeding roller 107 coats glue on the outer side of the roller 106, and then a transmission mechanism in the roller 106 can automatically coat the glue on the honeycomb plate according to the height of the honeycomb plate by utilizing gravity, so that the subsequent bonding of the honeycomb plate is facilitated;

the material guiding system 104 comprises a stirrer, an auger and a hopper, the material guiding system 104 transmits glue to the upper end of the feeding roller 107, the hopper is arranged at the upper end of the feeding roller 107, a matched motor is arranged at one side of the feeding roller 107, the motor drives the feeding roller 107 to rotate, and the feeding roller 107 coats the glue on the upper end of the roller 106 in the rotating process;

example 2: referring to fig. 4-6 of the specification, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes a support 2, a pipe 201, a coating ring 202, a feeding pipe 203, an inclined plate 204, a fixing frame 3, a ball 301, a water bag 302 and a sliding frame 303, the support 2 slides inside the roller 106, the pipe 201 penetrates through one side of the support 2, the coating ring 202 slides at one end of the pipe 201, the feeding pipe 303 penetrates inside the roller 106, the inclined plate 204 is embedded in an inner wall of the feeding pipe 303, the fixing frame 3 is installed inside the pipe 201, the ball 301 slides inside the fixing frame 3, the water bag 302 slides and extends to and retracts from two sides of one end of the fixing frame 3, and the sliding frame 303 slides and penetrates through one side of the water bag 302;

wherein: the inner part of the bracket 2 is arranged in a hollow shape, one end of the bracket 2 is provided with a through hole, the brackets 2 are uniformly distributed in the roller 106 in a surrounding way, the brackets 2 are provided with three groups, the brackets 2, the pipeline 201 and the coating ring 302 are arranged in a matching way, the brackets 2 are arranged in a semi-arc shape, and the semi-arc angle is 15-45 degrees;

the pipeline 201 penetrates between the support 2 and the coating ring 202, the diameter of the inner wall of the pipeline 201 is 2-4cm, the pipeline 201 penetrates inside the roller 106, and the pipeline 201 facilitates the glue to flow into the coating ring 202;

a sponge layer is embedded on the surface of the coating ring 202, the thickness of the sponge layer is 0.5-1cm, one end of the sponge layer is communicated with the pipeline 201, the shape of the coating ring 202 is matched with that of the support 2, and the length of the coating ring 202 is 2-4cm less than that of the support 2;

when the coating ring 202 is static, the coating ring 202 is nested and attached to the outer side of the roller 106, and when the coating ring 202 slides, the coating ring 202 moves to the outer side of the roller 106;

the feeding pipe 203 is arranged at one end of the coating ring 202, the feeding pipe 203 is vertically and correspondingly arranged with a hole at one end of the support 2, a groove is formed at the outer side of the roller 106, the feeding pipe 203 is communicated with the groove, and the support 2 is positioned inside the groove of the roller 106;

the inclined plate 204 is made of rubber, the inclined plate 204 is inclined at an angle of 25-45 degrees, the whole inclined plate 204 is arranged in a funnel shape, and the inclined plate 204 surrounds the inner wall of the feeding pipe 203;

when the bracket 2 is positioned at the upper end of the roller 106, the inclined plate 204 can prevent glue inside the bracket 2 from flowing back to the outer side of the roller 106, and when the bracket 2 is positioned at the lower end of the roller 106, the inclined plate 204 can facilitate the glue inside the bracket 2 to flow to the outer side of the roller 106;

the fixing frame 3 is positioned in the middle of the inside of the pipeline 201, the inside of the fixing frame 3 is arranged in a hollow shape, one end of the fixing frame 3 is inclined by 15-35 degrees, and the whole fixing frame 3 is arranged in a T shape;

when the fixed frame 3 is positioned at the upper end of the roller 106, the ball 301 is positioned at the lower end inside the fixed frame 3 due to gravity;

a water bag 302, one side of the water bag 302 close to the ball 301 is arranged in a semicircular arc shape, the inner wall of the water bag 302 is attached to the inner wall of the fixing frame 3, and the water bag 302 is filled with clear water;

when the fixing frame 3 is located at the lower end of the roller 106, the ball 301 is pressed to one side of the water bag 302 due to gravity, the water bag 302 is deformed integrally, and the clean water in the water bag 302 flows;

the sliding frame 303 is arranged in a transverse H shape, the sliding frame 303 penetrates through the water bag 302 and extends to the outer side of the water bag 302, and clear water in the water bag 302 can be prevented from leaking due to the shape of the sliding frame 303, and meanwhile, the inner wall of the pipeline 201 can be sealed;

wherein: the roller 106 rotates at the upper end of the honeycomb panel, glue is coated on the outer side of the roller 106 by the feeding roller 107, part of the glue enters the roller 106 through the feeding pipe 203, the glue enters the inside of the bracket 2 through the feeding pipe 203, the glue inside the bracket 2 enters the inside of the coating ring 202 through the pipeline 201 in the moving process of the roller 106, the bracket 2 at the upper end of the roller 106 continuously rotates along with the roller 106, the bracket 2 moves to the lower end of the roller 106 at the moment, due to gravity, the bracket 2 and the coating ring 202 slide downwards, and the coating ring 202 can uniformly coat the glue on the honeycomb panel by utilizing gravity according to the height of the honeycomb panel;

at the moment, the fixed frame 3 is also positioned at the lower end of the roller 106, the ball 301 in the fixed frame 3 moves to the lower end in the fixed frame 3, meanwhile, the ball 301 is extruded to one side of the water bag 302, the water bag 302 is integrally deformed, and then clear water in the water bag 302 flows, so that the sliding frame 303 integrally slides, the sliding frame 303 is attached to the inner wall of the pipeline 201 after sliding, and the interior of the pipeline 201 is sealed, so that when the support 2 moves to the lower end of the roller 106, the transmission mechanism can automatically prevent glue from flowing to the interior of the coating ring 202, and the condition that the glue in the coating ring 202 is too much is avoided;

example 3: as can be seen from fig. 7 in the specification, the difference between the embodiment 3 and the embodiments 1 and 2 is that the transmission mechanism includes a rotating shaft 4, a telescopic rod 401, an extrusion frame 402 and a protruding strip 403, the rotating shaft 4 rotates inside the roller 106, the telescopic rod 401 surrounds the outer side of the rotating shaft 4, the extrusion frame 402 is embedded in one end of the telescopic rod 401, and the protruding strip 403 is distributed on the outer side of the extrusion ring 402;

wherein: the telescopic rod 401 is sleeved in two sections, and when the telescopic rod 401 is positioned at the upper end of the rotating shaft 4, the extrusion frame 402 is attached and extruded to one end of the support 2;

the extrusion frame 402 is arranged in a semicircular arc shape, the extrusion frame 402 is integrally arranged in a triangular shape, the semicircular arc angle is matched with the bracket 2, and the convex strip 403 can reduce the contact area between the extrusion frame 402 and the bracket 2, so that the extrusion force of the extrusion frame 402 on the bracket 2 is increased;

wherein: along with support 2's continuous rotation, sand grip 403 and support 2's one side laminating utilize support 2 can assist telescopic link 401 rotatory through pivot 4, and telescopic link 401 when removing to pivot 4's lower extreme, because gravity, telescopic link 401 slides down fast, and telescopic link 401 drives extrusion frame 402 and sand grip 403 and forms the striking to support 2's one end, and then can avoid glue to block up in support 2's inside.

Claims (10)

1. The utility model provides a full-automatic frameless honeycomb panel production facility which characterized in that: comprises that

The automatic glue coating device comprises a device main body (1), a ball screw (101) is rotatably arranged at the upper end of the device main body (1), an oil pressure automatic notching die (102) is arranged at the upper end of the ball screw (101), linear guide rails (103) are embedded at two sides of the oil pressure automatic notching die (102), a material guide system (104) and a cutting and flanging die (105) are arranged at two sides of the device main body (1), a roller (106) is rotatably arranged at one side, close to the cutting and flanging die (105), of the material guide system (104), a feeding roller (107) is rotatably arranged at the upper end of the roller (106), and a transmission mechanism capable of automatically coating glue according to the height of a honeycomb panel by utilizing gravity is arranged inside the roller (106);

the roller (106) rotates between the material guide system (104) and the cutting and flanging die (105), a plurality of rollers (106) are horizontally arranged, the rollers (106) are matched with the feeding roller (107), a matched motor is installed on one side of each roller (106), the motor is electrically connected with a power line, and a matched speed regulating switch is installed on the motor;

guide system (104), guide system (104) include agitator, auger and hopper, and guide system (104) transmit glue to the upper end of material loading roller (107), and the hopper is installed in the upper end of material loading roller (107), and supporting motor is installed to one side of material loading roller (107), and the motor drives material loading roller (107) rotatory, and material loading roller (107) coat glue in the upper end of gyro wheel (106) at rotatory in-process.

2. The fully automated frameless cellular board production facility of claim 1, wherein: the transmission mechanism comprises a support (2), a pipeline (201), a coating ring (202), a feeding pipe (203), an inclined plate (204), a fixing frame (3), balls (301), a water bag (302) and a sliding frame (303), wherein the support (2) slides in the roller (106), the pipeline (201) penetrates through one side of the support (2), the coating ring (202) slides in one end of the pipeline (201), the feeding pipe (303) penetrates through the inside of the roller (106), the inclined plate (204) is embedded in the inner wall of the feeding pipe (303), the fixing frame (3) is installed in the pipeline (201), the balls (301) slide in the fixing frame (3), the water bag (302) slides and stretches out and draws back in two sides of one end of the fixing frame (3), and the sliding frame (303) slides and penetrates through one side of the water bag (302).

3. The fully automated frameless cellular board production apparatus of claim 2, wherein: the inside of support (2) is the cavity form setting, and the hole has been run through to the one end of support (2), and support (2) evenly encircles the inside of distributing in gyro wheel (106), and support (2) are provided with three groups, and support (2), pipeline (201) and coating ring (302) set up in a supporting way, and support (2) are the semicircle arcuation setting, and the semicircle angle is 15-45.

4. The fully automated frameless cellular board production apparatus of claim 2, wherein: the pipeline (201) penetrates between the support (2) and the coating ring (202), the diameter of the inner wall of the pipeline (201) is 2-4cm, and the pipeline (201) penetrates inside the roller (106).

5. The fully automated frameless cellular board production apparatus of claim 2, wherein: the surface of the coating ring (202) is embedded with a sponge layer, the thickness of the sponge layer is 0.5-1cm, one end of the sponge layer is communicated with the pipeline (201), the shape of the coating ring (202) is matched with that of the support (2), and the length of the coating ring (202) is 2-4cm smaller than that of the support (2).

6. The fully automated frameless cellular board production apparatus of claim 2, wherein: the fixing frame (3) is positioned in the middle of the inside of the pipeline (201), the inside of the fixing frame (3) is arranged in a hollow shape, one end of the fixing frame (3) is inclined by 15-35 degrees, and the whole fixing frame (3) is arranged in a T shape;

when the fixed frame (3) is arranged at the upper end of the roller (106), the ball (301) is arranged at the lower end in the fixed frame (3) due to gravity.

7. The fully automated frameless cellular board production apparatus of claim 2, wherein: one side of the water bag (302) close to the ball (301) is arranged in a semicircular arc shape, the inner wall of the water bag (302) is attached to the inner wall of the fixing frame (3), and clear water is filled in the water bag (302);

the sliding frame (303), the sliding frame (303) is set up in horizontal "I" form, sliding frame (303) run through and extend to the outside of water bag (302).

8. The fully automated frameless cellular board production facility of claim 1, wherein: the transmission mechanism comprises a rotating shaft (4), an expansion rod (401), an extrusion frame (402) and convex strips (403), the rotating shaft (4) rotates inside the idler wheels (106), the expansion rod (401) surrounds the outer side of the rotating shaft (4), the extrusion frame (402) is embedded in one end of the expansion rod (401), and the convex strips (403) are distributed on the outer side of the extrusion frame (402).

9. The fully automated frameless cellular board production apparatus of claim 8, wherein: the telescopic rod (401) is provided with two sections in a sleeved mode, and when the telescopic rod (401) is located at the upper end of the rotating shaft (4), the extrusion frame (402) is attached to and extruded to one end of the support (2).

10. The fully automated frameless cellular board production apparatus of claim 8, wherein: the extrusion frame (402) is arranged in a semicircular arc shape, the semicircular arc angle is matched with the support (2), and the convex strips (403) can reduce the contact area between the extrusion frame (402) and the support (2).

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