CN216225166U - Guiding device and honeycomb plate gluing line with same - Google Patents

Abstract

The application discloses guider and have device's honeycomb panel rubberizing line relates to the technical field of honeycomb panel processing, has improved the inhomogeneous problem of aluminum plate rubberizing, and a guider, guider set up on first transport mechanism, first transport mechanism includes feed end and discharge end, aluminum plate has been placed on the first transport mechanism, the rubberizing is accomplished in the time of aluminum plate transportation on first transport mechanism, guider and aluminum plate's both sides contact, length direction is parallel with first transport mechanism's direction of transportation in the aluminum plate transportation. This application can make aluminum plate keep the stable transportation in position.

Description

Guiding device and honeycomb plate gluing line with same

Technical Field

The application relates to the technical field of honeycomb panel processing, in particular to a guide device and a honeycomb panel gluing line with the guide device.

Background

The cellular board is a novel green material which protects ecological environment and has low cost, and has the advantages of light weight, strong strength, stability, heat preservation, heat insulation, shock resistance and the like. Among them, the aluminum honeycomb panel is one of the honeycomb panels, and is widely used in life, such as furniture, doors, decoration hanging panels, etc., because it is non-toxic and harmless.

The aluminum honeycomb plate is formed by bonding a plurality of aluminum sheets with the thickness of only a few threads, any aluminum sheet is bonded with two adjacent aluminum sheets at different positions, and an aluminum plate is formed after the aluminum sheets are stacked and bonded. When the aluminum honeycomb plate is used, the aluminum honeycomb plate can be obtained only by stretching the aluminum strips along the stacking direction.

Because the aluminum honeycomb panel product often is the size great, can't satisfy the size of product after single aluminum plate is tensile, consequently need to pile up a plurality of aluminum plate and bond.

In the process of implementing the present application, the applicant finds that at least the following problem exists in the technology, and glue is generally applied to an aluminum plate in a manual gluing manner in the gluing process, which easily causes uneven gluing of the aluminum plate, thereby affecting the gluing quality and subsequent gluing effect of the aluminum plate.

SUMMERY OF THE UTILITY MODEL

In order to improve the inhomogeneous problem of aluminum plate rubberizing, this application provides a guider and have device's honeycomb panel rubberizing line.

In a first aspect, the present application provides a guiding device, which adopts the following technical solution:

the utility model provides a rubberizing device, guider set up on first transport mechanism, first transport mechanism includes feed end and discharge end, aluminum plate has been placed on the first transport mechanism, the rubberizing is accomplished in the time of aluminum plate transportation on first transport mechanism, guider and aluminum plate's both sides contact, length direction is parallel with first transport mechanism's direction of transportation in the aluminum plate transportation.

Through adopting above-mentioned technical scheme, aluminum plate can accomplish the rubberizing in the transportation, and guider can make aluminum plate keep its length direction and transport direction parallel and transport, makes aluminum plate can evenly rubberize, improves aluminum plate's rubberizing quality.

Optionally, guider includes front end direction subassembly, front end direction subassembly is located the one end that first transport mechanism is close to the feed end, front end direction subassembly is provided with a plurality of along the transportation direction equidistance, front end direction subassembly includes:

the supporting frame is provided with a plurality of supporting rods along the transportation direction;

the guide wheel is arranged on the support rod;

the utility model discloses a bracing piece, including aluminium plate, bracing piece, supporting rod, stand, and the bracing piece is located aluminium plate's top, just the length direction perpendicular to direction of transportation of bracing piece, every be equipped with two leading wheels on the bracing piece, the leading wheel rotates with the bracing piece to be connected, the leading wheel sets up in the bracing piece and is close to aluminium plate's one end, and two the leading wheel contacts with aluminium plate's both sides respectively.

Through adopting above-mentioned technical scheme, two leading wheels contact with aluminum plate's both sides respectively to lead aluminum plate, can reduce aluminum plate and take place offset in the transportation.

Optionally, a long hole is formed in the support rod along the length direction of the support rod, a sliding portion matched with the long hole is arranged at one end, close to the support rod, of the guide wheel, and the guide wheel is in threaded connection with the support rod.

Through adopting above-mentioned technical scheme, the distance between two leading wheels is adjustable, makes the front end direction subassembly applicable in the aluminum plate of different width dimensions.

Optionally, the guider still includes rear end direction subassembly, rear end direction subassembly is located the one end that first transport mechanism is close to the discharge end, rear end direction subassembly includes:

the supporting block is arranged on one side of the first conveying mechanism;

the guide plate is arranged on the supporting block;

the guide plate is horizontally arranged, one end, far away from the supporting block, of the guide plate is provided with a guide portion used for being in contact with an aluminum plate, and the guide plate is in contact with one side, close to the supporting block, of the aluminum plate.

Through adopting above-mentioned technical scheme, rear end direction subassembly plays the guide effect to one side of aluminum plate, can further improve the position stability in the aluminum plate transportation.

Optionally, a long hole is formed in the guide plate perpendicular to the conveying direction, and the guide plate is in threaded connection with the supporting block.

Through adopting above-mentioned technical scheme, the deflector can carry out position control according to aluminum plate's width dimension for rear end direction subassembly can be applicable to different width dimension's aluminum plate.

Optionally, the guiding device further includes a middle guiding assembly, the middle guiding assembly is located between the front end guiding assembly and the rear end guiding assembly, and the middle guiding assembly includes:

a fixed guide located at one side of the first transport mechanism;

the movable guide piece is positioned on the other side of the first transportation mechanism, and the movable guide piece is opposite to the fixed guide piece in position;

wherein, the relative one end of fixed guide and activity guide contacts with aluminum plate's both sides respectively, just the position of activity guide is adjustable.

Through adopting above-mentioned technical scheme, the position that middle direction subassembly accessible was adjusted movable guide plays the guide effect to the aluminum plate of different width sizes, and the suitability is strong, also makes aluminum plate's transportation more steady simultaneously.

Optionally, the one end that fixed guide was kept away from to the activity guide has vertical regulating part and horizontal adjustment spare, vertical regulating part sets up on first transport mechanism, horizontal adjustment spare sets up on vertical regulating part, the one end that vertical regulating part was kept away from to the horizontal adjustment spare is connected with the activity guide, vertical regulating part and horizontal adjustment spare are used for adjusting the vertical position and the horizontal position of activity guide respectively.

Through adopting above-mentioned technical scheme, vertical regulating part and horizontal regulating part can make things convenient for the staff to the regulation of activity guide position, make the use of middle direction subassembly convenient and fast more.

Optionally, still include hold-down mechanism, hold-down mechanism sets up in first transport mechanism top, hold-down mechanism is provided with a plurality of along the equidistance of direction of transportation, hold-down mechanism includes:

the pressing roller is arranged perpendicular to the conveying direction, and the lower end of the pressing roller abuts against the upper end face of the aluminum plate;

the two height adjusting pieces are arranged and are arranged at two ends of the first conveying mechanism;

the two ends of the compression roller are respectively connected with two height adjusting pieces, and the height adjusting pieces are used for adjusting the position of the compression roller in the vertical direction.

Through adopting above-mentioned technical scheme, hold-down mechanism can make aluminum plate's transportation more steady, prevents that aluminum plate from because self is soft, and take place turn-up, stick up limit etc. with other object contact at the removal in-process to influence aluminum plate's quality.

In a second aspect, the present application further provides a cellular board gluing line, which adopts the following technical scheme:

a cellular board gluing line comprises the guide device.

Through adopting above-mentioned technical scheme, can improve aluminum plate's rubberizing efficiency greatly, save time and manpower, aluminum plate's rubberizing effect also obtains improving simultaneously to make the efficiency improvement of honeycomb panel rubberizing line production honeycomb panel, the quality of honeycomb panel product also obtains improving.

In summary, the present application includes at least one of the following benefits:

1. the aluminum plate can be glued while being transported, and the gluing quality of the aluminum plate is good;

2. the guiding device enables the position of the aluminum plate to be stable in the transportation process, and the guiding device can adapt to aluminum plates with different width sizes;

drawings

FIG. 1 is a schematic view of a guide device;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a top view of a guide;

FIG. 4 is a schematic view of a glue line structure of a honeycomb panel;

FIG. 5 is a schematic view of the construction of the bonding apparatus;

FIG. 6 is an enlarged view at B in FIG. 5;

FIG. 7 is a cross-sectional view of the bonding device;

FIG. 8 is an enlarged view at C in FIG. 7;

fig. 9 is a cross-sectional view of the positioning mechanism.

Description of reference numerals: 1. a machine base; 11. a first base; 12. a second frame; 121. a guide strip; 122. positioning a space; 2. a transportation device; 21. a first transport mechanism; 211. a first transporter body; 212. a let position port; 213. a feeding end; 214. a discharge end; 22. a second transport mechanism; 221. a second transporter body; 222. a cover plate; 23. a fourth drive; 24. a transport roller; 241. a gear portion; 25. a hold-down mechanism; 251. a height adjustment member; 2511. a fifth driving member; 252. a pressure roller; 26. an auxiliary gluing mechanism; 261. a position adjustment member; 262. a third driving member; 263. an abutting member; 2631. positioning a groove; 2632. a guide groove; 27. a interception plate; 28. a light sensor; 3. gluing machine; 31. a support body; 32. a first driving member; 33. a first moving member; 34. a second driving member; 35. a second moving member; 36. a glue gun; 361. a doctor blade; 362. leading the film; 363. a locking block; 4. a guide device; 41. a front end guide assembly; 411. a support frame; 4111. a support bar; 412. a guide wheel; 42. a middle guide assembly; 421. a fixed guide; 422. a movable guide; 423. a vertical adjustment member; 424. a horizontal adjustment member; 43. a rear end guide assembly; 431. a support block; 432. a guide plate; 5. a pushing mechanism; 51. a power assembly; 511. a support pillar; 512. a sixth driving member; 513. a butt joint plate; 52. a pushing assembly; 521. a push plate; 522. a pushing block; 6. a positioning mechanism; 61. positioning a pressing plate; 611. a connecting portion; 6111. an arrow is indicated; 612. a guide block; 613. an opening; 62. a supporting seat; 621. a base body; 6211. indicating scales; 622. a support plate; 63. a seventh driving member; 64. an auxiliary positioning assembly; 641. an eighth driving member; 642. a cross beam; 643. positioning a plate; 65. adjusting a rod; 66. an elastic member; 7. a console; 8. a control box; 9. an aluminum plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

Example 1:

the embodiment of the application discloses guider.

Referring to fig. 1, a guide first transport mechanism 21 and a guide 4.

Aluminum plate 9 is disposed on first transport mechanism 21, and the length direction of aluminum plate 9 is parallel to the transport direction. Gluing machine 3 sets up in one side of first transport mechanism 21, and guider 4 sets up in the one end that first transport mechanism 21 is close to aluminum plate 9.

Aluminum plate 9 realizes the rubberizing when moving on first transport mechanism 21, and rubberizing machine 3 is in the rubberizing of aluminum plate 9 one side, and guider 4 makes aluminum plate 9's removal more steady, can make 3 rubberizing of rubberizing machine even simultaneously, has improved the efficiency of aluminum plate 9 rubberizing greatly.

The first transportation mechanism 21 includes a first transportation body 211, a transportation module and a fourth driving member 23 for providing power for the transportation module, the transportation module is disposed inside the first transportation body 211, and the fourth driving member 23 is disposed on one side of the first transportation body 211.

The transportation subassembly includes transportation roller 24 and drive chain, and transportation roller 24 is provided with a plurality of along the equidistance of direction of transportation, and transportation roller 24's both ends all rotate with first transportation organism 211 to be connected, and transportation roller 24 perpendicular to direction of transportation sets up. The transport roller 24 is tangent to the lower end surface of the aluminum plate 9, and one end of the transport roller 24 has a gear portion 241 fitted with a transmission chain. The fourth driving member 23 drives the plurality of transporting rollers 24 to rotate simultaneously through the transmission chain, so that the first transporting mechanism 21 can transport the aluminum plate 9 to move.

For the first transportation mechanism 21 to be more clearly shown, the drive chain is omitted in the drawings.

In other embodiments, the first transportation mechanism 21 may also be implemented by a belt drive, a track drive, or the like.

In order to reduce the phenomena of curling, edge warping and the like of the aluminum plate 9 in the transportation process, the first transportation mechanism 21 is further provided with a pressing mechanism 25. The pressing mechanisms 25 are arranged at equal intervals along the conveying direction, and in the embodiment, the number of the pressing mechanisms 25 is three.

The pressing mechanism 25 includes a pressing roller 252 and a height adjuster 251 for adjusting the position of the pressing roller 252. The pressure roller 252 is disposed parallel to the transport rollers 24, and the pressure roller 252 is located above the aluminum plate 9.

Each pressing mechanism 25 is provided with two height adjusting members 251, and the two height adjusting members 251 are respectively arranged at two ends of the upper end surface of the first transporting machine body 211. The height adjusting member 251 is provided with a long hole along the vertical direction, and the long hole penetrates through the height adjusting member 251 along the axial direction of the pressing roller 252.

The height adjusting member 251 is provided with a slide block that slides in the long hole, and a fifth driving member 2511 for controlling the slide of the slide block.

The both ends of transportation roller 24 rotate with the sliding block of both sides respectively and are connected, and the vertical setting of fifth driving piece 2511, and fifth driving piece 2511 runs through height adjusting part 251, and the lower extreme and the sliding block of fifth driving piece 2511 are connected, and height adjusting part 251 is worn out to the upper end of fifth driving piece 2511, and the one end that the sliding block was kept away from to fifth driving piece 2511 has the operation portion.

The fifth driving element 2511 is preferably a screw rod in the present embodiment, and may be driven by a cylinder or a toothed chain in other embodiments.

The height position of the sliding block is adjusted through the fifth driving piece 2511, so that the height position of the pressing roller 252 is adjusted, the pressing roller 252 is enabled to be abutted to the upper end face of the aluminum plate 9, and the probability of curling and warping in the transportation process of the aluminum plate 9 is reduced.

Referring to fig. 1, 2 and 3, the guide device 4 includes a front end guide assembly 41, a middle guide assembly 42 and a rear end guide assembly 43 along the transport direction, respectively, and the guide device 4 contacts both sides of the aluminum plate 9 so that the aluminum plate 9 can be transported while keeping its length direction parallel to the transport direction.

The first transport mechanism 21 includes an inlet end 213 and an outlet end 214.

Wherein, the front end guide assembly 41 is located at one end of the first transportation mechanism 21 close to the feeding end 213, and two front end guide assemblies 41 are arranged at equal intervals along the transportation direction. In other embodiments, one or more than two front end guide assemblies 41 may be provided according to the length of the first transport mechanism 21.

The front guide assembly 41 includes a support bracket 411 and a guide wheel 412. One end of the support frame 411 is connected with the first conveyor body 211, the other end of the support frame 411 is provided with a support rod 4111, and the length direction of the support rod 4111 is parallel to the conveying roller 24.

The supporting bars 4111 are located above the aluminum plate 9, and each supporting bar 4111 is provided with two guide wheels 412. The guide wheel 412 is disposed below the supporting rod 4111, and the guide wheel 412 is rotatably connected to the supporting rod 4111 and has a vertical rotation axis.

The supporting rod 4111 is provided with a long hole along the length direction thereof, one end of the guide wheel 412 close to the supporting rod 4111 is provided with a sliding part matched with the long hole, the guide wheel 412 can slide along the long hole, and the guide wheel 412 and the supporting rod 4111 are positioned by threaded connection.

Two guide wheels 412 are respectively located on both sides of aluminum plate 9, and by moving the positions of guide wheels 412, two guide wheels 412 are respectively in contact with both sides of aluminum plate 9, thereby guiding the movement of aluminum plate 9.

The middle guide assembly 42 is located between the front end guide assembly 41 and the rear end guide assembly 43, and the middle guide assembly 42 includes a fixed guide 421 and a movable guide 422. Wherein, the fixed guide 421 is located at one end of the first transporting body 211, and the movable guide 422 is located at the other end of the first transporting body 211.

The intermediate guide assembly 42 further includes a vertical adjuster 423 for adjusting the position of the movable guide 422 and a horizontal adjuster 424.

The vertical adjuster 423 is disposed at one end of the first conveyor body 211, and the vertical adjuster 423 is disposed vertically. The vertical adjusting piece 423 is provided with a long hole along the vertical direction, the horizontal adjusting piece 424 is horizontally arranged, one end of the horizontal adjusting piece 424 is in threaded connection with the vertical adjusting piece 423, and the screw rod is arranged in the long hole of the vertical adjusting piece 423 in a penetrating mode.

One end of the horizontal adjusting piece 424, which is far away from the vertical adjusting piece 423, is also provided with a long hole perpendicular to the transportation direction, the movable guide piece 422 is positioned below the horizontal adjusting piece 424, and the horizontal adjusting piece 424 is also provided with a screw rod which is arranged in the long hole in a penetrating manner so that the movable guide piece 422 is in threaded connection with the horizontal adjusting piece 424.

The fixed guide 421 and the movable guide 422 are provided with guide parts at the ends close to the aluminum plate 9, and the guide parts are vertically arranged. One side of aluminum plate 9 contacts with the guide part of fixed guide 421, adjusts the position of movable guide 422 through vertical adjusting piece 423 and horizontal adjusting piece 424, makes the guide part of movable guide 422 contact with the other side of aluminum plate 9, can realize the guide effect.

The rear end guide assembly 43 is located at one end of the first transportation mechanism 21 close to the discharge port, and the rear end guide assembly 43 is located at one end of the first transportation machine body 211.

The rear end guide assembly 43 includes a supporting block 431 and a guide plate 432, the supporting block 431 is disposed at one end of the first transporting body 211, and the guide plate 432 is located above the supporting block 431. One end of the guide plate 432 close to the supporting block 431 is provided with a long hole perpendicular to the transportation direction, and the rear end guide assembly 43 is provided with a screw rod which is arranged in the long hole in a penetrating way so that the guide plate 432 is in threaded connection with the supporting block 431.

The end of the guide plate 432 remote from the support block 431 has a guide portion, which is disposed vertically. Through adjusting screw in the position on the slot hole, can adjust the distance between guide part and the aluminum plate 9, finally make guide part and aluminum plate 9 be close to the one side contact of supporting shoe 431, can realize the guide effect.

The implementation principle of a gluing device in the embodiment of the application is as follows:

the aluminum plate 9 is glued while being transported on the first transport mechanism 21, and the aluminum plate 9 can be transported while keeping the length direction thereof parallel to the transport direction by the front end guide assembly 41, the middle guide assembly 42 and the rear end guide assembly 43.

Example 2:

the embodiment of the application discloses a cellular board gluing line with a gluing device in embodiment 1.

Referring to fig. 4, the glue line for honeycomb panel includes a machine base 1, a console 7, a control box 8, a glue applicator 3, a transportation device 2, and a bonding device. Control cabinet 7, rubberizing device, conveyer 2 and adhesive device all set up on frame 1, and aluminum plate 9 sets up on conveyer 2, and the staff operates in control cabinet 7 and control box 8, makes conveyer 2 drive aluminum plate 9 and removes, and aluminum plate 9 removes the in-process and successively passes through rubberizing device and adhesive device. The gluing device is used for gluing the side, close to the gluing device, of the aluminum plate 9, and the gluing device is used for gluing the glued aluminum plate 9, so that the needed aluminum honeycomb plate can be obtained finally.

The glue applicator 3 includes a support body 31, a first moving member 33, and a second moving member 35. The supporting body 31 is horizontally disposed, and one end of the supporting body 31 is connected to one side of the first transporting body 211.

The first moving member 33 is disposed on the supporting body 31, and the gluing machine 3 further includes a first driving member 32 for driving the first moving member 33 to move perpendicular to the transporting direction.

The supporting body 31 is far away from one end of the first transporting body 211 and extends upwards along the vertical direction to form an extending portion, the first moving member 33 is located on one side of the extending portion close to the first transporting body 211, the first driving member 32 penetrates through the extending portion and is connected with the first moving member 33, and one end of the first driving member 32, which is far away from the first moving member 33, is located on one side of the extending portion, which is far away from the first moving member 33.

In this embodiment, the first driving element 32 is preferably a screw rod, and an end of the first driving element 32 away from the first moving element 33 has an operation portion for facilitating the rotation of the screw rod by the worker. In other embodiments, the first driving member 32 can be driven by a cylinder or a toothed chain.

Two guide rods are further arranged on the two sides of the extending portion in the horizontal direction of the first driving piece 32 in a penetrating mode, the guide rods are arranged in parallel with the first driving piece 32, and two ends of each guide rod are connected with the extending portion and the first moving piece 33 respectively.

Two guide rods are further connected above the first moving member 33 and are arranged in the vertical direction. The end of the guide rod far away from the first moving part 33 is provided with an auxiliary plate, and the two ends of the auxiliary plate are respectively connected with the ends of the two guide rods far away from the first moving part 33.

The second moving member 35 is located between the auxiliary plate and the first moving member 33, and the gumming machine 3 further comprises a second driving member 34 for driving the second moving member 35 to move in the vertical direction.

The second driving member 34 is simultaneously inserted through the auxiliary plate and the second moving member 35, and the second driving member 34 is located between the two guide rods. The second driving member 34 is vertically disposed, one end of the second driving member 34 is connected to the first moving member 33, and one end of the second driving member 34 away from the first moving member 33 is located above the auxiliary plate. Two guide rods are also arranged in the second moving part 35 in a penetrating way.

In this embodiment, the second driving element 34 is also preferably a screw rod, and one end of the second driving element 34 away from the first moving element 33 is also an operating part. In other embodiments, the second driving member 34 can be driven by a cylinder or a toothed chain.

Referring to fig. 2, a glue gun 36 for gluing the aluminum plate 9 is disposed on one side of the second moving member 35, and a gluing portion is disposed at one end of the glue gun 36 close to the aluminum plate 9, and includes a glue guiding sheet 362, a doctor blade 361 and a locking block 363. The leader sheet 362 is placed perpendicular to the transport direction, and the leader sheet 362 is connected to one side of the rubberizing section. After the glue guiding sheet 362 is installed, the glue flows out and then flows to one end of the upper glue part close to the aluminum plate 9 along the gap between the glue guiding sheet 362 and the upper glue part, so that the glue discharging of the glue gun 36 is uniform.

The doctor blade 361 is located on one side of the gluing part far away from the glue guiding sheet 362, and the doctor blade 361 has an inclined surface for adhesion of excess glue, so that the glue gun 36 can uniformly apply the glue on the aluminum plate 9.

One side that is close to gluing machine 3 on first transport organism 211 is seted up and is supplied to glue rifle 36 to stretch into and make the mouth of stepping down 212 of gluing portion and the contact of aluminum plate 9 side, and the position of staff's accessible regulation first moving member 33 and second moving member 35 is adjusted the position of gluing the portion.

In order to ensure that the side of the aluminum plate 9 close to the gluing machine 3 can be glued sufficiently, an auxiliary gluing mechanism 26 is further arranged on the conveying device 2.

Referring to fig. 1 and 2, the auxiliary glue applying mechanism 26 is disposed at an end of the first transportation body 211 away from the glue applying machine 3, and the auxiliary glue applying mechanism 26 includes a position adjusting member 261, a third driving member 262 and an abutting member 263.

Position control piece 261 one end is connected with one side that gluing machine 3 was kept away from to first transportation organism 211, and third driving piece 262 is connected with position control piece 261's the other end, and position control piece 261 is used for adjusting the position of butt piece 263, because the structure is comparatively simple, does not describe here the position control principle of position control piece 261 any more.

The connecting member 611 is connected to one end of the third driving member 262 close to the glue applicator 3, the abutting member 263 is disposed below the connecting member 611, and the abutting member 263 is opposite to the position-giving opening 212 in the transporting direction.

The abutting part 263 is rotatably connected with the connecting part 611, the rotating axis of the abutting part 263 is vertically arranged, and the third driving part 262 can drive the connecting part 611 to move along the direction parallel to the axis of the transportation roller 24, so as to drive the abutting part 263 to abut against one side of the aluminum plate 9 away from the gluing machine 3.

The abutting member 263 is of a wheel-shaped structure, a positioning groove 2631 adapted to the aluminum plate 9 is formed in the middle of the abutting member 263 in the vertical direction, and guide grooves 2632 are formed at two ends of the abutting member 263 in the vertical direction of the positioning groove 2631, and the guide grooves 2632 are communicated with the positioning groove 2631. When the third driving member 262 drives the abutting member 263 to approach to the side of the aluminum plate 9 away from the gluing machine 3, the guiding groove 2632 can guide the aluminum plate 9 to smoothly enter the positioning groove 2631, so as to reduce the surface damage of the aluminum plate 9 caused by collision during the abutting process of the abutting member 263 and the aluminum plate 9.

The auxiliary glue applying mechanism 26 applies a resisting force to the side of the aluminum plate 9 close to the glue applicator 3 at the glue applying position, so that the aluminum plate 9 can be sufficiently glued by the glue applicator 3.

The base 1 is arranged on the ground, and the transportation device 2 is arranged on one side of the base 1. The transportation device 2 comprises a first transportation mechanism 21 and a second transportation mechanism 22, the second transportation mechanism 22 is similar to the first transportation mechanism 21 in structure, and the power of the second transportation mechanism 22 is provided by the first driving member 32.

Referring to fig. 3, 4 and 5, the transporting apparatus 2 includes a transporting body including a first transporting body 211 and a second transporting body 221. The end of the conveyor body away from the machine base 1 is provided with a cover plate 222 for covering the gear part 241 on the conveying roller 24, and the end of the cover plate 222 close to the aluminum plate 9 is also provided with a guide part.

The rear end guide assembly 43 is located at the junction of the first transportation mechanism 21 and the second transportation mechanism 22, so that the aluminum plate 9 can keep the length direction thereof parallel to the transportation direction after being transported by the first transportation mechanism 21.

With reference to fig. 6 and 7, the stand 1 comprises a first stand 11 for the console 7 and the gluing device and a second stand 12 for the gluing device. The second stand 12 is higher than the first stand 11 in height, and the upper ends of the transport rollers 24 are slightly higher than the upper end surface of the second stand 12 in height.

The end of the second transport mechanism 22 remote from the first transport mechanism 21 is provided with a stop plate 27 for stopping the movement of the aluminum plate 9. The interception plate 27 is vertically disposed, the interception plate 27 is disposed perpendicular to the transportation direction, one end of the interception plate 27 is connected to one end of the second transportation machine body 221 away from the second machine base 12, and the other end of the interception plate 27 is connected to the second machine base 12.

The intercepting plate 27 is further provided with a light sensor 28, and the light sensor 28 extends towards one end close to the first transportation mechanism 21. Since the light sensor 28 is a common knowledge in the art, the principle of the light sensor is not described in detail in this embodiment.

The bonding device comprises a pushing mechanism 5 and a positioning mechanism 6, wherein the pushing mechanism 5 is positioned on one side of the second transportation mechanism 22 far away from the second base 12, and the positioning mechanism 6 is positioned on the second base 12.

When the aluminum plate 9 moves on the transporting device 2 to abut against the blocking plate 27, the light sensing member 28 outputs a signal to the pushing mechanism 5 after detecting the aluminum plate 9, the pushing mechanism 5 pushes the aluminum plate 9 on the transporting device 2 in a direction close to the positioning mechanism 6, the positioning mechanism 6 positions the adhered aluminum plates 9 or the aluminum plates 9 to be adhered between the positioning mechanism 6 and the second base 12, and when the pushing mechanism 5 pushes the aluminum plate 9 to the farthest distance, the aluminum plate 9 abuts against and is adhered to other aluminum plates 9.

The pushing mechanism 5 includes a pushing assembly 52 and a power assembly 51, the pushing assembly 52 is powered by the power assemblies 51, and the power assemblies 51 are disposed at equal intervals along the transporting direction on a side of the second transporting mechanism 22 away from the second base 12.

In the present embodiment, the power modules 51 are provided in total of four. The power assembly 51 includes a support column 511 and a sixth driving element 512, wherein the lower end of the support column 511 is connected to the ground, and one side of the support column 511 close to the second base 12 extends to be connected to the second base 12.

One end of the supporting column 511, which is far away from the ground, is provided with a horizontally arranged mounting platform, and the sixth driving element 512 is arranged on the mounting platform. In this embodiment, the sixth driving element 512 is preferably an air cylinder, and in other embodiments, a screw rod, a toothed chain transmission, or the like may be used.

An abutting plate 513 is connected to one end of the sixth driving element 512 close to the second base 12, the abutting plate 513 is arranged parallel to the conveying direction, and the sixth driving element 512 drives the abutting plate 513 to move along the direction parallel to the axis of the conveying roller 24.

Guide rods are further provided at both sides of the sixth driving member 512, and a detailed description thereof will not be given in this embodiment since the guide rods have a simple structure.

The pushing assembly 52 comprises a pushing plate 521, one end of the pushing plate 521, which is far away from the second base 12, is connected with the four abutting portions 513, the pushing plate 521 is arranged in parallel with the abutting portions 513, and the lower end surface of the pushing plate 521 is flush with the upper ends of the transportation rollers 24.

Referring to fig. 7 and 8, the positioning mechanism 6 includes a positioning pressing plate 61 for pressing and positioning the bonded aluminum plates 9 or the aluminum plates 9 to be bonded, and a positioning space 122 for allowing the aluminum plates 9 to enter and be positioned in the horizontal direction is formed between a lower end surface of the positioning pressing plate 61 and an upper end surface of the second base 12.

A plurality of pushing blocks 522 are arranged at equal intervals at one end of the pushing plate 521 close to the second base 12 along the transportation direction, the lower end faces of the pushing blocks 522 are flush with the upper end of the transportation roller 24, and a chamfer is arranged at the junction of the lower end face of the pushing block 522 and one end face close to the second base 12, so that the probability of scraping and interference between the pushing block 522 and the transportation roller 24 when the pushing block 522 moves close to the second base 12 is reduced.

The sixth driving element 512 has a maximum stroke and a minimum stroke, and when the sixth driving element 512 has the maximum stroke, the pushing block 522 abuts against the side surface of the positioning pressing plate 61; when the sixth driving member 512 has a minimum stroke, the pushing block 522 is located above the gear portion 241 of the transportation roller 24.

The positioning pressing plate 61 is provided with guide blocks 612 at equal intervals along the conveying direction at one end close to the pushing mechanism 5, and the lower end face of each guide block 612 is flush with the lower end face of the positioning pressing plate 61. The pushing blocks 522 and the guiding blocks 612 are staggered in the horizontal direction, and when the pushing blocks 522 move to abut against the positioning pressing plate 61, the pushing blocks 522 and the guiding blocks 612 are respectively inserted into the space between the two guiding blocks 612 and the space between the two pushing blocks 522.

The pushing block 522 completely pushes the aluminum plate 9 into the positioning space 122, a chamfer is formed at the junction of the lower end surface of the guiding block 612 and the end surface close to the pushing assembly 52, and the chamfer on the guiding block 612 enables the process of pushing the aluminum plate 9 into the positioning space 122 to be smoother.

Meanwhile, a chamfer is also formed at the junction of the lower end face of the positioning pressing plate 61 and an end face close to the pushing assembly 52, so that interference between the aluminum plate 9 and the positioning pressing plate 61 in the process that the aluminum plate 9 is pushed to enter the positioning space 122 is reduced.

The positioning mechanism 6 further includes a support base 62 and a seventh driving member 63 for driving the positioning platen 61 to move in the vertical direction. The supporting seat 62 includes two seat bodies 621, the two seat bodies 621 are disposed on the second machine base 12, the two seat bodies 621 are symmetrically disposed, and the two seat bodies 621 are respectively disposed on two sides of the positioning pressing plate 61 along the transportation direction.

Referring to fig. 6, the second housing 12 is further provided with a guide bar 121 at an end thereof adjacent to the interception plate 27, and after the pushing block 522 pushes the aluminum plate 9, the aluminum plate 9 enters the positioning space 122 along one side of the guide bar 121. The guide strips 121 are arranged parallel to the interception plate 27, and one end face of the guide strips 121 close to the aluminum plate 9 is flush with one end face of the interception plate 27 close to the aluminum plate 9. One end of the guide strip 121 close to the bottom of the machine base 1 is matched with the bottom of the machine base 1, and one end of the guide strip 121 close to the interception plate 27 is provided with a chamfer for guiding the aluminum plate 9 to enter.

Referring to fig. 7, the supporting seat 62 further includes a supporting plate 622 for the seventh driving element 63 to be disposed, the supporting plate 622 is disposed at the upper end of the seat 621, the supporting plate 622 is disposed horizontally, and the seventh driving element 63 penetrates through the supporting plate 622 along the vertical direction. The two ends of the positioning pressing plate 61 close to the two seat bodies 621 are both provided with a connecting portion 611, the lower end of the seventh driving member 63 is connected with the connecting portion 611, and the upper end of the seventh driving member 63 is provided with an operating portion which is located above the supporting plate 622.

In this embodiment, the seventh driving member 63 is preferably a screw rod, and in other embodiments, a cylinder, a toothed chain transmission, or the like may be used.

A guide rod is arranged between the support plate 622 and the bottom of the seat 621, one end of the guide rod is connected with the support plate 622, and the other end of the guide rod is connected with the bottom of the seat 621. Each seat 621 is provided with two guide rods, and the two guide rods are located at two sides of the seventh driving member 63.

Referring to fig. 7 and 9, two adjusting rods 65 are further disposed between the supporting plate 622 and the bottom of the seat 621, the two adjusting rods 65 are disposed vertically, and the adjusting rods 65 are disposed between the seventh driving member 63 and the guide rod.

The upper end of the adjusting rod 65 is connected with the supporting plate 622, and a space is formed between the lower end of the adjusting rod 65 and the upper end surface of the second base 12. An elastic member 66 is further disposed between the supporting rod 4111 and the connecting portion 611, and the elastic member 66 is sleeved on the adjusting rod 65. When there is a machining error in the vertical dimension of aluminum plate 9 entering positioning space 122, the position of positioning pressing plate 61 will be slightly changed by elastic member 66, so that positioning space 122 is automatically adapted to aluminum plate 9.

One side surface of the base along the pushing direction of the aluminum plate 9 is provided with an indicating scale 6211 along the vertical direction, and an indicating arrow 6111 is arranged on the connecting part 611. The distance between the lower end face of the positioning pressing plate 61 and the upper end face of the second base 12 can be obtained by indicating the scale indicated on the indicating scale 6211 by the indicating arrow 6111.

The positioning mechanism 6 further comprises an auxiliary positioning assembly 64 for positioning the aluminum plate 9 to be bonded, wherein the auxiliary positioning assembly 64 comprises a cross beam 642, an eighth driving member 641 and a positioning plate 643.

The cross beam 642 is disposed parallel to the transport direction, the cross beam 642 is located above the support plates 622, and both ends of the cross beam 642 are connected to one ends of the two support plates 622 near the transport device 2, respectively.

A plurality of eighth driving members 641 are disposed on the cross beam 642 at equal intervals along the length direction thereof, and in this embodiment, there are four eighth driving members 641. The eighth driving member 641 is located above the cross beam 642, and the eighth driving member 641 is vertically disposed. The eighth driving element 641 is disposed on the cross beam 642 in a penetrating manner, and a lower end of the eighth driving element 641 is located below the cross beam 642. The positioning plate 643 is connected to a lower end of the eighth driving element 641, and the positioning plate 643 is horizontally disposed.

A plurality of openings 613 matched with the positioning plates 643 are formed in the positioning pressing plate 61 along the vertical direction, the number of the openings 613 is the same as that of the positioning plates 643, and the positions of the openings 613 correspond to the positioning plates 643.

The eighth driving element 641 drives the positioning plate 643 to move in a vertical direction, in this embodiment, the eighth driving element 641 is preferably an air cylinder, and in other embodiments, the driving direction can be implemented by a screw rod or a toothed chain transmission.

Guide rods for facilitating the movement of the positioning plate 643 in the vertical direction are further disposed at both sides of the eighth driving member 641.

The implementation principle of the honeycomb panel rubberizing line of the embodiment of the application is as follows:

aluminum plate 9 is after the rubberizing of rubberizing device, conveyer 2 transports aluminum plate 9 to and blocks behind the board 27 counterbalance, pushing mechanism 5 moves aluminum plate 9 on the conveyer 2 towards positioning mechanism 6, it has bonded aluminum plate 9 to compress tightly the location between positioning pressure plate 61 and second frame 12 on the positioning mechanism 6, eighth driving piece 641 control locating plate 643 compresses tightly the location with the one end that has bonded aluminum plate 9 and is close to conveyer 2, make conveyer 2 go up aluminum plate 9 and can form firm bonding with bonded aluminum plate 9 after getting into location space 122, can make a plurality of aluminum plate 9 bonds and form required aluminum honeycomb panel product with this circulation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a guider, its characterized in that, guider (4) set up on first transport mechanism (21), first transport mechanism (21) include feed end (213) and discharge end (214), aluminum plate (9) have been placed on first transport mechanism (21), the rubberizing is accomplished in the time of aluminum plate (9) transportation on first transport mechanism (21), guider (4) contact with the both sides of aluminum plate (9), aluminum plate (9) transportation in length direction is parallel with the direction of transportation of first transport mechanism (21).

2. A guide device according to claim 1, wherein the guide device (4) comprises a front guide assembly (41), the front guide assembly (41) is located at one end of the first transport mechanism (21) close to the feeding end (213), the front guide assembly (41) is provided with a plurality of guide assemblies at equal intervals along the transport direction, and the front guide assembly (41) comprises:

the supporting frame (411) is provided with a plurality of supporting rods (4111) along the transportation direction;

a guide wheel (412), the guide wheel (412) being disposed on a support bar (4111);

wherein, a plurality of bracing piece (4111) is along the equidistant setting of direction of transportation, bracing piece (4111) is located the top of aluminum plate (9), just the length direction perpendicular to direction of transportation of bracing piece (4111), every be equipped with two leading wheels (412) on bracing piece (4111), leading wheel (412) rotates with bracing piece (4111) and is connected, leading wheel (412) set up in bracing piece (4111) and are close to the one end of aluminum plate (9), and two leading wheel (412) contacts with the both sides of aluminum plate (9) respectively.

3. A guide device according to claim 2, wherein the supporting rod (4111) is provided with a long hole along its length, one end of the guide wheel (412) close to the supporting rod (4111) is provided with a sliding portion adapted to the long hole, and the guide wheel (412) is in threaded connection with the supporting rod (4111).

4. A guide arrangement according to claim 1, wherein the guide arrangement (4) further comprises a rear guide assembly (43), the rear guide assembly (43) being located at an end of the first transport mechanism (21) adjacent the discharge end (214), the rear guide assembly (43) comprising:

a supporting block (431), wherein the supporting block (431) is arranged at one side of the first transportation mechanism (21);

a guide plate (432), the guide plate (432) being disposed on the support block (431);

the guide plate (432) is horizontally arranged, one end, away from the supporting block (431), of the guide plate (432) is provided with a guide portion used for being in contact with the aluminum plate (9), and the guide plate (432) is in contact with one side, close to the supporting block (431), of the aluminum plate (9).

5. A guide device according to claim 4, characterized in that the guide plate (432) is slotted perpendicularly to the transport direction, and the guide plate (432) is screwed to the support block (431).

6. A guide device according to claim 1, wherein the guide device (4) further comprises an intermediate guide assembly (42), the intermediate guide assembly (42) being located between the front guide assembly (41) and the rear guide assembly (43), the intermediate guide assembly (42) comprising:

a fixed guide (421), the fixed guide (421) being located at one side of the first transport mechanism (21);

the movable guide piece (422) is positioned at the other side of the first transportation mechanism (21), and the movable guide piece (422) is opposite to the fixed guide piece (421);

wherein, the relative one end of fixed guide (421) and activity guide (422) contacts with the both sides of aluminum plate (9) respectively, and the position of activity guide (422) is adjustable.

7. A guiding device according to claim 6, characterized in that the end of the movable guiding element (422) away from the fixed guiding element (421) has a vertical adjusting element (423) and a horizontal adjusting element (424), the vertical adjusting element (423) is arranged on the first transportation mechanism (21), the horizontal adjusting element (424) is arranged on the vertical adjusting element (423), the end of the horizontal adjusting element (424) away from the vertical adjusting element (423) is connected with the movable guiding element (422), and the vertical adjusting element (423) and the horizontal adjusting element (424) are respectively used for adjusting the vertical position and the horizontal position of the movable guiding element (422).

8. A guiding device according to claim 1, further comprising a pressing mechanism (25), wherein the pressing mechanism (25) is disposed above the first transporting mechanism (21), a plurality of the pressing mechanisms (25) are disposed at equal intervals along the transporting direction, and the pressing mechanism (25) comprises:

the pressing roller (252), the pressing roller (252) is perpendicular to the conveying direction, and the lower end of the pressing roller (252) is abutted against the upper end face of the aluminum plate (9);

the two height adjusting pieces (251) are arranged, and the two height adjusting pieces (251) are arranged at two ends of the first conveying mechanism (21);

the two ends of the pressing roller (252) are respectively connected with two height adjusting pieces (251), and the height adjusting pieces (251) are used for adjusting the position of the pressing roller (252) in the vertical direction.

9. A cellular board sizing line comprising a guide device according to any one of claims 1 to 8.

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