CN219095409U - Edge banding device - Google Patents

Abstract

The utility model relates to a technical field of panel banding has improved the comparatively manpower problem of consuming of current panel banding process, has disclosed a banding device, and it includes transport mechanism, platform of unloading, first bag sealer and second bag sealer, transport mechanism's one end with the discharge end of first bag sealer meets, transport mechanism's the other end with the platform of unloading meets, the platform of unloading is close to the feed end of second bag sealer, the last one end of keeping away from of platform of unloading transport mechanism is provided with the barrier, transport mechanism transport panel remove to on the platform of unloading and with the barrier offsets. The utility model provides a panel that the staff of can making things convenient for finishes unilateral banding is sent to the bag sealer and is carried out opposite side banding, uses manpower sparingly and consumes, can improve the efficiency of panel banding simultaneously.

Description

Edge banding device

Technical Field

The application relates to the technical field of plate edge sealing, in particular to an edge sealing device.

Background

The edge sealing of the plate has the advantages of enabling furniture to be more attractive, preventing moisture from invading, effectively reducing the release of harmful substances of the plate, reinforcing the plate and the like.

The existing method for sealing edges of the plates is mainly realized through an edge sealing machine, and after the plates are fed into the edge sealing machine, the edge sealing machine can carry out edge sealing treatment on one end face of the plates while transporting the plates.

However, the existing edge banding machine has the following problems: taking square plates as an example, the square plates generally have two groups of opposite sides to be sealed, after one side of the plates is sealed, workers are required to carry the plates with the sealed single sides to the feeding end of the edge sealing machine for sealing again, and the cycle is performed until all sides of the plates are sealed, so that the existing plate sealing process consumes more manpower.

Disclosure of Invention

In order to solve the problem that the existing plate edge sealing process consumes more manpower, the application provides an edge sealing device.

The application provides a banding device adopts following technical scheme:

the utility model provides a banding device, includes transport mechanism, platform of unloading, first bag sealer and second bag sealer, transport mechanism's one end with the discharge end of first bag sealer meets, transport mechanism's the other end with the platform of unloading meets, the platform of unloading is close to the feed end of second bag sealer, it is provided with the barrier to keep away from on the platform of unloading transport mechanism's one end, transport mechanism transportation panel remove to on the platform of unloading and with the barrier offsets.

Through the technical scheme, after the single-side edge sealing of the plate by the first edge sealing machine is finished, the plate is transported to the unloading platform by the transport mechanism, the blocking piece prevents the plate from sliding off the unloading platform due to self inertia, and then after the single-side edge sealing quality of the plate is confirmed by a worker, the plate is manually sent into the second edge sealing machine to seal the other side; the path that staff's transport panel removed can be reduced, manpower resources are saved, panel banding's efficiency can be improved simultaneously.

Optionally, the conveying mechanism includes organism, conveyer belt and is used for driving the driving piece of conveyer belt motion, the discharge end of first bag sealer is higher than the conveyer belt is close to the one end of first bag sealer.

By adopting the technical scheme, the plate falls onto the conveyor belt after the single-side edge sealing is finished on the first edge sealing machine, and the driving piece drives the conveyor belt to move so as to drive the plate to move; the sheet material after the unilateral edge sealing can keep the position state of the sheet material during discharging as much as possible, and the sheet material is transported to the discharging platform by the transport mechanism, so that the time for the workers to adjust the position of the sheet material on the discharging platform is saved, and the edge sealing efficiency of the sheet material is further improved.

Optionally, the device further comprises a transfer mechanism, wherein the transfer mechanism comprises a frame body and a transfer piece, the frame body is fixedly connected with the machine body, the transfer piece is positioned above the conveyor belt, and the transfer piece is in sliding connection with the frame body; the transfer piece is provided with a storage groove for storing the plates, the storage groove is provided with a feed inlet and a discharge outlet on the transfer piece, the feed inlet faces the first edge bonding machine, and the discharge outlet faces the conveyor belt; when the middle rotating piece slides upwards to the limit position, the feeding port is aligned with the discharging end of the first edge bonding machine along the horizontal direction; when the transfer piece slides downwards to the limit position, the conveying belt drives the plates to leave the storage groove.

By adopting the technical scheme, after the single-side edge sealing of the plate is finished on the first edge sealing machine, the plate enters the storage groove from the feed inlet for storage, and after the transfer piece slides downwards to the limit position, the moving conveyor belt can drive the plate in the storage groove to move; the sheet material after the single-side edge sealing can still keep the position state of the sheet material during discharging when transported on the conveyor belt, the time for position adjustment of the sheet material on the discharging platform by workers is further saved, and the edge sealing efficiency of the sheet material is further improved.

Optionally, the transferring mechanism further includes an elastic member, two ends of the elastic member are respectively connected with the frame body and the transferring member, and the elastic member drives the transferring member to slide in a direction away from the conveyor belt; the acting force of the elastic piece is smaller than the sum of the weight of the transit piece and the weight of the plate.

By adopting the technical scheme, after the plate subjected to the single-side edge sealing completely enters the storage groove, the sum of the weights of the transfer piece and the plate drives the transfer piece to slide downwards to the limit position against the acting force of the elastic piece, and then the conveying belt moves to drive the plate to move; the elastic piece can drive the transfer piece to automatically slide according to the position condition of the plate in the storage groove, so that the transfer mechanism is more convenient and reliable to use.

Optionally, the conveyer belt slope sets up, the conveyer belt is close to the one end of first bag sealer is the slope lower extreme, after the panel gets into in the storage tank, the one end of panel is worn out the discharge gate, when the transfer piece slides to extreme position downwards, the one end of panel with the conveyer belt offsets.

Through adopting above-mentioned technical scheme, when the transfer piece slides to extreme position downwards, the one end of panel in the storage tank will offset with the conveyer belt, makes things convenient for the conveyer belt motion to drive panel and leave the storage tank, further improves the reliability that transfer mechanism used.

Optionally, the surface of the conveyor belt is provided with anti-skid lines.

Through adopting above-mentioned technical scheme, the friction between conveyer belt and the panel can be increased to the antiskid line to reduce the probability that takes place to skid and can't drive the panel to remove from the storage tank between conveyer belt and the panel.

Optionally, the terminal surface of platform top of unloading is less than the conveyer belt is close to the one end of platform of unloading, it is provided with the lug to unload the one end that keeps away from on the platform the barrier, the top of lug has the guide face, the guide face slope sets up, the guide face is close to the one end of barrier is the slope lower extreme.

By adopting the technical scheme, when the conveyor belt moves to drive the plate to move to one end close to the unloading platform, the plate rotates and contacts with the convex blocks, and the plate continues to move to be propped against the blocking piece under the guidance of the guide surface; the plate can be prevented from being directly fallen onto the unloading platform to damage the plate, and meanwhile, the plate can be ensured to move to be propped against the blocking piece, so that the follow-up operation of staff is facilitated.

Optionally, when the panel with the barrier offsets, the panel with there is the interval between the lug, the lug is close to one side of barrier is provided with the sight glass.

Through adopting above-mentioned technical scheme, after the panel removes to and offsets with the barrier, the quality of unilateral banding on the panel is observed in the reflection of staff's accessible sight glass, makes the staff more convenient and fast to the inspection process of panel when guaranteeing panel banding quality.

Optionally, the unloading platform is connected with the feed end of the second edge bonding machine, and after the plate abuts against the blocking piece, the plate can enter the second edge bonding machine after moving under the guide of the blocking piece.

Through adopting above-mentioned technical scheme, after the staff finishes the unilateral banding quality inspection of panel, remove panel along blocking piece slip and can follow the feed end department of second bag sealer with the panel and send into, need not the staff and carry the panel additionally, make things convenient for the staff to send the panel to the second bag sealer and carry out banding once more.

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

1. after the single-side edge sealing is carried out on the plate, the labor consumption for manually carrying the plate to carry out the edge sealing again can be reduced, the work load of workers is reduced, the time interval of the two-time edge sealing of the plate is shortened, and the edge sealing efficiency of the plate is improved;

2. the plate can be kept in a position state under the transportation of the transportation mechanism, the time for the staff to carry out position adjustment on the plate is saved, the staff is convenient to check the edge sealing quality of the plate, and meanwhile, the staff is convenient to move the plate into the second edge sealing machine to carry out edge sealing again.

Drawings

FIG. 1 is a schematic view of a banding device in embodiment 1;

FIG. 2 is a schematic view of a banding device in embodiment 2;

FIG. 3 is an internal view of the intermediate rotary member of embodiment 2 when slid upward to the limit position;

fig. 4 is an internal view of the relay member in embodiment 2 when slid down to the limit position.

Reference numerals illustrate: 1. a first edge bonding machine; 2. a second edge bonding machine; 3. a transport mechanism; 31. a conveyor belt; 311. anti-skid lines; 32. a driving member; 33. a body; 4. a discharging platform; 41. a blocking member; 42. a bump; 421. a guide surface; 422. an observation mirror; 5. a transfer mechanism; 51. a frame body; 52. a transfer member; 521. a storage tank; 522. a feed inlet; 523. a discharge port; 53. an elastic member; 6. a sheet material.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a banding device.

Example 1:

referring to fig. 1, the banding device includes a first banding machine 1, a second banding machine 2, a transport mechanism 3, and a discharge platform 4. The first edge banding machine 1 and the second edge banding machine 2 are parallel to each other, and the transportation directions of the first edge banding machine 1 and the second edge banding machine 2 to the plate 6 are opposite. One end of the conveying mechanism 3 is close to the discharge end of the first edge bonding machine 1, the other end of the conveying mechanism 3 is connected with the discharging platform 4, the discharging platform 4 is close to the feeding end of the second edge bonding machine 2, and the conveying direction of the conveying mechanism 3 to the plates 6 is perpendicular to the conveying direction of the first edge bonding machine 1 to the plates 6. The first edge banding machine 1 carries out edge banding to one side of the plate 6, then the conveying mechanism 3 conveys the plate 6 with the edge banding on one side to the discharging platform 4, after the staff carries out edge banding quality inspection to the plate 6 with the edge banding on one side, the plate 6 is sent into the second edge banding machine 2 to carry out edge banding to the other side. In the present embodiment, the first edge bonding machine 1 and the second edge bonding machine 2 are all prior art in the field, so the description is omitted herein, and only the drawings are schematically shown.

Referring to fig. 1, the transport mechanism 3 includes a conveyor belt 31 for moving the sheet material 6, a driving member 32 for driving the conveyor belt 31 to move, and a body 33 for mounting the conveyor belt 31 and the driving member 32. In this embodiment, the driving member 32 is preferably a stepping motor.

Referring to fig. 1, the driving member 32 is fixedly connected to the body 33, and the conveyor belt 31 can drive the sheet material 6 to move in a horizontal direction toward the discharge platform 4. The conveying belt 31 and the discharging end of the first edge bonding machine 1 and the discharging platform 4 are provided with height differences, wherein the discharging end of the first edge bonding machine 1 is higher than the conveying belt 31, and the discharging platform 4 is lower than the conveying belt 31. In this embodiment, the transporting mechanism 3 is implemented by using a conveyor belt 31, and in other embodiments, the transporting mechanism 3 may be implemented by using a roller transportation.

Referring to fig. 1, a blocking member 41 is installed at one end of the top of the discharge platform 4 away from the conveyor belt 31, and the length direction of the blocking member 41 is parallel to the transport direction of the second edge bonding machine 2 to the sheet 6. After the conveyor belt 31 drives the plate 6 to move onto the discharging platform 4, one side of the plate 6 away from the edge sealing thereof is abutted against the end face of the blocking piece 41.

Referring to fig. 1, one end of the discharging platform 4 is connected with the feeding end of the second edge banding machine 2, and the top of the discharging platform 4 is aligned with the feeding end of the second edge banding machine 2 along the horizontal direction, and the plate 6 keeps a position state of being abutted against the blocking piece 41 and moves towards the direction approaching to the second edge banding machine 2, so that the feeding end of the edge banding machine enters into the edge banding process again.

The implementation principle of the edge sealing device in the embodiment of the application is as follows:

after the plate 6 is fed from the feeding end of the first edge banding machine 1, one side of the plate 6 is subjected to edge banding, after the plate 6 subjected to edge banding on one side leaves from the discharging end of the first edge banding machine 1, the conveying mechanism 3 drives the plate 6 to move and fall onto the discharging platform 4, the blocking piece 41 prevents the plate 6 from continuously moving and falling from the discharging platform 4, after the staff performs edge banding quality inspection on the plate 6 on the discharging platform 4, the plate 6 is moved along the blocking piece 41 to be fed through the feeding end of the second edge banding machine 2, and the other side of the plate 6 is fed from the discharging end of the second edge banding machine 2 after edge banding is completed on the second edge banding machine 2.

Example 2:

referring to fig. 2, the present embodiment is optimized and improved on the basis of embodiment 1, so that the plate 6 can be kept to be filled on the conveying device for moving after the edge is sealed at one side, the time for the operator to adjust the position on the discharging platform 4 is saved, and meanwhile, the operator can conveniently perform edge sealing quality inspection on the plate 6 on the discharging platform 4.

Referring to fig. 2, the edge sealing device further includes a transfer mechanism 5, where the transfer mechanism 5 is located at a boundary position between the first edge sealing machine 1 and the transport mechanism 3, and the transfer mechanism 5 includes a frame 51, a transfer member 52, and an elastic member 53. One end of the frame body 51 is fixedly connected with the machine body 33, and the other end of the frame body 51 is positioned above one end of the conveyor belt 31, which is close to the first edge banding machine 1. The transfer member 52 is slidably connected to the frame 51 in the vertical direction, and the transfer member 52 is located between the conveyor belt 31 and an end of the frame 51 away from the machine body 33. One end of the elastic member 53 is fixedly connected with the frame body 51, the other end of the elastic member 53 is fixedly connected with the middle rotating member 52, and the elastic member 53 drives the middle rotating member 52 to slide in a direction away from the conveyor belt 31. In this embodiment, the elastic member 53 is preferably a tension spring.

Referring to fig. 3 and 4, a storage groove 521 for storing the plate 6 is formed in the middle member 52, a feed inlet 522 is formed in the storage groove 521 at one end of the middle member 52 near the first edge bonding machine 1, and a discharge outlet 523 is formed in the storage groove 521 at one end of the middle member 52 near the discharge platform 4. The sliding of the transfer member 52 on the frame 51 is limited, when the storage tank 521 is empty, the elastic member 53 drives the transfer member 52 to slide upwards to the limit position and keep the transfer member, and at this time, the sheet material 6 sent out from the discharge end of the first edge banding machine 1 can enter the storage tank 521 from the feed inlet 522; after the sheet material 6 leaves the first edge bonding machine 1 and enters the storage groove 521, the mass of the sheet material 6 and the transferring member 52 overcomes the force of the elastic member 53 to drive the transferring member 52 to slide downwards to the limit position and keep the same, and at this time, a space still exists between the bottom of the transferring member 52 and the conveyor belt 31.

Referring to fig. 2 and 4, the direction in which the conveyor belt 31 moves to drive the sheet material 6 to move is inclined, and the end of the conveyor belt 31 adjacent to the first edge banding machine 1 is the inclined lower end. After the plate 6 enters the storage groove 521, a space exists between the top of the plate 6 and the upper groove wall of the storage groove 521, and one end of the plate 6 far away from the edge sealing part penetrates out of the discharge hole 523. When the transfer member 52 slides down to the limit position, the end of the plate 6 away from the edge sealing portion abuts against the conveyor belt 31, and the movement of the conveyor belt 31 drives the plate 6 to move away from the storage groove 521. The surface of the conveyor belt 31 is provided with anti-skid grains 311, so that the friction force between the conveyor belt 31 and the plate 6 is increased, and the probability that the plate 6 cannot move away from the storage groove 521 due to the slip between the conveyor belt 31 and the plate 6 is reduced.

Referring to fig. 2, a projection 42 is mounted at an end of the discharge platform 4 remote from the blocking member 41, a guide surface 421 is provided at the top of the projection 42, the guide surface 421 is an inclined surface, and an end of the guide surface 421 near the blocking member 41 is an inclined lower end. When the plate 6 moves to a position where the conveyor belt 31 is close to the discharging platform 4, the plate 6 will overturn until the bottom end surface of the plate 6 abuts against the guiding surface 421, the guiding surface 421 will guide the plate 6 to move continuously and completely to fall onto the discharging platform 4, one end of the plate 6 away from the edge sealing part abuts against the blocking piece 41, and at the moment, a space exists between the edge sealing part of the plate 6 and the protruding block 42.

Referring to fig. 2, an observation mirror 422 is further installed at one end of the bump 42 near the blocking member 41, and a worker can observe the edge sealing position of the plate 6 through the observation mirror 422 on one side of the discharging platform 4 near the blocking member 41, so that the primary edge sealing quality of the plate 6 is inspected, and after the inspection is finished, the plate 6 can be moved to be sent into the second edge sealing machine 2 for secondary edge sealing treatment.

The implementation principle of the edge sealing device in the embodiment of the application is as follows:

after the plate 6 is fed from the feeding end of the first edge bonding machine 1, one side of the plate 6 is subjected to edge bonding treatment, after the plate 6 subjected to edge bonding at one side leaves from the discharging end of the first edge bonding machine 1, the plate 6 enters a storage groove 521 of a transfer piece 52, then the transfer piece 52 slides downwards to a limit position against the acting force of an elastic piece 53, so that one end of the plate 6 away from the edge bonding position contacts with a conveying belt 31, and the conveying belt 31 moves to drive the plate 6 to move and leave from the storage groove 521; when the conveyor belt 31 moves to drive the plate 6 to move to the position to be dropped onto the unloading platform 4, the guide surface 421 of the projection 42 will guide the plate 6 to drop onto the unloading platform 4 and make the plate 6 prop against the blocking piece 41, then a worker can check the edge sealing quality of the plate 6 through the observation mirror 422, then the checked plate 6 is fed from the feeding end of the second edge sealing machine 2, and after the edge sealing of the other side of the plate 6 on the second edge sealing machine 2 is completed, the plate 6 is fed from the discharging end of the second edge sealing machine 2.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The utility model provides a banding device, its characterized in that, includes transport mechanism (3), discharge platform (4), first bag sealer (1) and second bag sealer (2), the one end of transport mechanism (3) with the discharge end of first bag sealer (1) meets, the other end of transport mechanism (3) with discharge platform (4) meets, discharge platform (4) are close to the feed end of second bag sealer (2), discharge platform (4) are last to be kept away from one end of transport mechanism (3) is provided with and blocks piece (41), transport mechanism (3) transport panel (6) remove to discharge on platform (4) and with block piece (41) offset.

2. An edge banding device as claimed in claim 1, characterized in that said transport mechanism (3) comprises a machine body (33), a conveyor belt (31) and a driving member (32) for driving the conveyor belt (31) in motion, the discharge end of said first edge banding machine (1) being located higher than the end of said conveyor belt (31) close to said first edge banding machine (1).

3. An edge sealing device according to claim 2, further comprising a transfer mechanism (5), wherein the transfer mechanism (5) comprises a frame body (51) and a transfer member (52), the frame body (51) is fixedly connected with the machine body (33), the transfer member (52) is located above the conveyor belt (31), and the transfer member (52) is slidably connected with the frame body (51); a storage groove (521) for storing the plate (6) is formed in the middle rotating piece (52), a feed inlet (522) and a discharge outlet (523) are formed in the middle rotating piece (52) by the storage groove (521), the feed inlet (522) faces the first edge bonding machine (1), and the discharge outlet (523) faces the conveying belt (31); when the middle rotating piece (52) slides upwards to a limiting position, the feeding hole (522) is aligned with the discharging end of the first edge bonding machine (1) along the horizontal direction; when the middle rotating piece (52) slides downwards to the limit position, the conveying belt (31) drives the plate (6) to leave the storage groove (521).

4. A sealing device according to claim 3, wherein the transit means (5) further comprises an elastic member (53), both ends of the elastic member (53) being respectively connected to the frame body (51) and the transit member (52), the elastic member (53) driving the transit member (52) to slide away from the conveyor belt (31); the force of the elastic piece (53) is smaller than the sum of the weights of the intermediate rotating piece (52) and the plate (6).

5. A banding device as in claim 3, wherein said conveyor belt (31) is disposed obliquely, one end of said conveyor belt (31) near said first banding machine (1) is an oblique lower end, one end of said plate (6) is passed out of said discharge port (523) after said plate (6) enters said storage tank (521), and one end of said plate (6) abuts against said conveyor belt (31) when said intermediate rotary member (52) slides downward to a limit position.

6. An edge banding device as claimed in claim 5, characterized in that the surface of said conveyor belt (31) has anti-slip textures (311).

7. An edge sealing device according to claim 5, wherein the end surface of the top of the discharging platform (4) is lower than the end of the conveyor belt (31) close to the discharging platform (4), a bump (42) is arranged at the end of the discharging platform (4) far away from the blocking piece (41), a guiding surface (421) is arranged at the top of the bump (42), the guiding surface (421) is obliquely arranged, and the end of the guiding surface (421) close to the blocking piece (41) is an oblique lower end.

8. An edge sealing device according to claim 7, characterized in that when the plate (6) is abutted against the blocking member (41), a space exists between the plate (6) and the protruding block (42), and a viewing mirror (422) is arranged on one side of the protruding block (42) close to the blocking member (41).

9. An edge sealing device according to claim 1, characterized in that the discharge platform (4) is connected with the feed end of the second edge sealing machine (2), and after the plate (6) is abutted against the blocking piece (41), the plate (6) moves under the guide of the blocking piece (41) and can enter the second edge sealing machine (2).

Images