CN114474294A - Cleaning structure of discharge end of automatic edge bonding machine and method for removing fragments of plate - Google Patents

Abstract

The invention discloses a cleaning structure of a discharge end of an automatic edge bonding machine and a method for removing fragments of a plate, and relates to the field of plate processing equipment.

Description

Cleaning structure of discharge end of automatic edge bonding machine and method for removing fragments of plate

Technical Field

The invention relates to the field of plate processing equipment, in particular to a cleaning structure of a discharge end of an automatic edge bonding machine and a method for removing fragments of a plate.

Background

In the production of furniture, a plate material is a common material for manufacturing furniture, and in the processing of the plate material, the side surface of the plate material needs to be subjected to edge sealing treatment for aesthetic appearance, and when the side surface of the plate material is subjected to edge sealing treatment, an edge sealing machine is adopted for treatment. In an automatic edge bonding machine, a plate is manually placed on a conveying assembly from a feeding end, and the conveying assembly directly passes through a glue spraying assembly, an edge bonding assembly, a flush head assembly and a trimming assembly to achieve edge bonding of the plate.

When the trimming assembly trims the sheet material, a trimming knife is generally provided to trim the upper and lower edges of the sheet material after the trimming, and the upper and lower edges of the sheet material are trimmed at the same time. However, since the edge-sealing tape has a certain flexibility, chips generated after trimming are easily attached to the rear end of the plate material and are not broken, and therefore, the trimmed plate material has a certain amount of chips, and the chips need to be manually removed, which is troublesome.

It is seen that improvements and enhancements to the prior art are needed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a cleaning structure for the discharge end of an automatic edge bonding machine and a method for removing scraps of a plate material, and aims to solve the problems that the existing edge bonding machine has a certain amount of scraps after trimming the plate material and needs a worker to remove the scraps.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an automatic clean structure of bag sealer discharge end for get rid of the piece on the panel, it includes the frame and installs the conveying subassembly in the frame, the frame has the removal subassembly that polishing subassembly and drive polishing subassembly removed at conveying subassembly's terminal sliding connection, and the frame is fixed with the detector in polishing subassembly's the place ahead, still includes the controller, conveying subassembly, detector, polishing subassembly and removal subassembly all with controller electric connection.

In a preferred embodiment, the polishing assembly comprises a bracket fixed on the frame, a first sliding seat connected to the bracket in a sliding manner, a driving motor fixed on the first sliding seat, and a polishing wheel fixed on an output shaft of the driving motor; the driving motor is electrically connected with the controller, the moving assembly is an electric cylinder or a telescopic cylinder, the moving assembly is fixed on the support, and the output end of the moving assembly is connected with the first sliding seat.

In a further embodiment, the frame is fixed with a brush behind the polishing component; or the machine frame is fixed with brushes at the rear and the front of the polishing component.

In a further embodiment, the frame is provided with a scraper component in front of the polishing component, the scraper component comprises a scraper and two limiting discs, the two limiting discs are used for forming a 90-degree arrangement with the surface in contact with the plate, and the scraper is arranged between the two limiting discs.

In a preferred embodiment, a mounting seat is fixed on the machine frame, a second sliding seat is vertically and slidably connected to the mounting seat, a first adjusting assembly is installed between the second sliding seat and the machine frame, the second sliding seat is longitudinally and slidably connected to a third sliding seat, a second adjusting assembly for driving the third sliding seat to move is connected to the second sliding seat, and the limiting disc and the scraper are fixed on the third sliding seat.

In a preferred embodiment, the first adjusting assembly comprises a first connecting rod rotatably connected to the second sliding seat, a first handle is fixed at one end of the first connecting rod away from the second sliding seat, and the middle part of the first connecting rod is in threaded connection with the frame;

the second adjusting component comprises a second connecting rod which is rotatably connected to the second sliding seat, a second handle is fixed to one end, away from the second sliding seat, of the second connecting rod, and the middle of the second connecting rod is in threaded connection with the third sliding seat.

In a preferred embodiment, the polishing assemblies and the scraper assemblies are respectively provided with two groups, the two groups of polishing assemblies and the scraper assemblies are arranged corresponding to the upper edge and the lower edge of the plate, and the two groups of scraper assemblies are arranged in a staggered mode.

A method for removing debris from a plate by using a cleaning structure at a discharge end of an automatic edge bonding machine comprises the following steps:

the detector detects the plate and sends a signal to the controller;

the controller reads and records the transmission distance of the transmission assembly, and when the transmission distance of the transmission assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move a set distance L1 in the direction away from the plate;

the detector detects that the plate is not detected any more and sends a signal to the controller;

the controller reads the conveying distance of the recording conveying assembly, and when the conveying distance of the conveying assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move towards the direction close to the plate material by the set distance L1.

In a preferred embodiment, the speed at which the polishing assembly is driven by the moving assembly is equal to the transport speed of the transport assembly.

A method for removing debris from a plate by using a cleaning structure at a discharge end of an automatic edge bonding machine comprises the following steps:

the detector detects that the plate is not detected any more and sends a signal to the controller;

the controller reads and records the transmission distance of the transmission assembly, and when the transmission distance of the transmission assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move a set distance L1 towards the direction close to the plate;

before the detector detects the plate material and the controller controls the conveying distance of the conveying assembly to be equal to the set value, the controller controls the moving assembly to drive the polishing assembly to move away from the plate material by the set distance L1.

Has the advantages that: the frame of automatic bag sealer has the removal subassembly that polishing subassembly and drive polishing subassembly removed at the terminal sliding connection of conveying subassembly, and the frame is fixed with the detector in the place ahead of polishing subassembly, still includes the controller, conveying subassembly, detector, polishing subassembly and removal subassembly all with controller electric connection, wherein, the controller can control the removal subassembly drive polishing subassembly and carry out the action that corresponds, consequently, carry out the in-process of polishing at polishing subassembly to panel, can also carry out corresponding polishing work to the rear end of panel for the piece and the panel separation of connection at the panel rear end, realize clastic cleaing away, and is convenient simple, and do not need the manual work to get rid of the piece, and the efficiency is improved.

Drawings

FIG. 1 is a first schematic structural view of a cleaning structure of a discharge end of an automatic edge bonding machine.

Fig. 2 is a partial enlarged view of fig. 1 at a.

Fig. 3 is a structural schematic diagram of a cleaning structure of the discharge end of the automatic edge bonding machine.

Fig. 4 is a schematic structural diagram three of a cleaning structure of the discharge end of the automatic edge bonding machine.

FIG. 5 is a schematic diagram of the construction of a sheet material, wherein the arrows indicate the path of the burnishing elements burnishing the lower edge of the sheet material.

Description of the main element symbols: 100-frame, 200-polishing component, 210-bracket, 220-first slide seat, 230-driving motor, 240-polishing wheel, 300-moving component, 400-detector, 500-controller, 600-brush, 700-scraper component, 710-scraper, 720-spacing disc, 730-mounting seat, 740-second slide seat, 750-first adjusting component, 751-first connecting rod, 752-first handle, 760-third slide seat, 770-second adjusting component, 771-second connecting rod, 772-second handle, 800-plate, 810-lower edge and 820-upper edge.

Detailed Description

The invention provides a cleaning structure for a discharge end of an automatic edge bonding machine and a method for removing scraps on a plate, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail below by referring to the attached drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention.

Referring to fig. 1, 2 and 5, an automatic edge banding machine discharge end cleaning structure for removing debris from a sheet material 800 includes a frame 100 and a conveyor assembly mounted on the frame 100 for conveying the sheet material 800, which may be an existing belt conveyor structure or a plate conveyor structure. The machine frame 100 is slidably connected with a polishing assembly 200 and a moving assembly 300 for driving the polishing assembly 200 to move at the end of a conveying assembly, the machine frame 100 is fixed with a detector 400 in front of the polishing assembly 200, and the machine frame further comprises a controller 500, and the conveying assembly, the detector 400, the polishing assembly 200 and the moving assembly 300 are all electrically connected with the controller 500.

In the above, the detector 400 is used to detect the plate material 800, and when the detector 400 detects the plate material 800, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to perform a corresponding action, so as to polish the die-trimming surface of the plate material 800 in the previous process, so that the debris on the plate material 800 is removed. In practical applications, since the moving assembly 300 can drive the polishing assembly 200 to move, during the process of polishing the plate 800 by the polishing assembly 200, the rear end of the plate 800 can be correspondingly polished, so that the debris connected to the rear end of the plate 800 is separated from the plate 800, and the debris can be removed.

Specifically, the polishing assembly 200 includes a bracket 210 fixed on the frame 100, a first slide 220 slidably connected to the bracket 210, a driving motor 230 fixed on the first slide 220, and a polishing wheel 240 fixed on an output shaft of the driving motor 230; the driving motor 230 is electrically connected to the controller 500, the moving assembly 300 is an electric cylinder or a telescopic cylinder, the moving assembly 300 is fixed on the bracket 210, and the output end of the moving assembly 300 is connected to the first sliding base 220. The moving assembly 300 can drive the first sliding base 220 to move relative to the bracket 210, and the driving motor 230 is fixed on the first sliding base 220, so that the moving assembly 300 can drive the polishing wheel 240 to move close to or away from the plate material 800.

In a further embodiment, the frame 100 is fixed with a brush 600 behind the polishing assembly 200, and the brush 600 is in contact with the polishing assembly 200 of the plate 800 to clean the debris on the plate 800.

In a preferred embodiment, a brush 600 may be disposed in front of the polishing assembly 200, so that the plate 800 is cleaned and then polished, and the debris is reduced before the plate 800 is polished, thereby improving the debris cleaning effect.

Referring to fig. 1, 3 and 4, in a further embodiment, the frame 100 is provided with a scraper assembly 700 in front of the polishing assembly 200, the scraper assembly 700 includes a scraper 710 and two limiting discs 720, the two limiting discs 720 are arranged at 90 degrees for contacting the plate 800, and the scraper 710 is disposed between the two limiting discs 720. Wherein, two spacing dish 720 is adjacent with panel 800 two face butt respectively, for example top surface and side, or bottom surface and side, and scraper 710 is then the same with the before-operation in the position of repairing and grinding, set up the edge position at panel 800 promptly, panel 800 is at the removal in-process, through scraper 710 position, glue on panel 800 and bellied piece can be scraped or scrape to panel 800 rear end by scraper 710, guarantees that automatic bag sealer has better piece clearance effect to panel 800 after the processing.

Specifically, a mounting seat 730 is fixed on the machine frame 100, a second sliding seat 740 is vertically connected to the mounting seat 730 in a sliding manner, a first adjusting assembly 750 is installed between the second sliding seat 740 and the machine frame 100, the second sliding seat 740 is longitudinally connected to a third sliding seat 760 in a sliding manner, a second adjusting assembly 770 used for driving the third sliding seat 760 to move is connected to the second sliding seat 740, and the limiting disc 720 and the scraper 710 are fixed on the third sliding seat 760. The first adjusting assembly 750 can adjust the position of the second slide carriage 740 on the frame 100, and the second adjusting assembly 770 can adjust the position of the third slide carriage 760 on the second slide carriage 740, wherein the second slide carriage 740 slides vertically, and the third slide carriage 760 slides longitudinally, so that the positions of the limiting disc 720 and the scraper 710 can be adjusted in two directions, and the limiting disc and the scraper 710 can be attached to the edge of the plate material 800.

In a preferred embodiment, the first adjusting assembly 750 includes a first connecting rod 751 rotatably connected to the second slide 740, a first handle 752 is fixed to an end of the first connecting rod 751 remote from the second slide 740, and a middle portion of the first connecting rod 751 is threadedly connected to the frame 100. Since one end of the first connecting rod 751 is rotatably connected to the second slide 740 and the middle part is threadedly connected to the frame 100, the first connecting rod 751 is rotated by rotating the first handle 752, so that the second slide 740 is moved. Similarly, the second adjusting assembly 770 includes a second link 771 rotatably connected to the second slide 740, a second handle 772 is fixed to one end of the second link 771 far from the second slide 740, and the middle of the second link 771 is threadedly connected to the third slide 760. By rotating the second handle 772, the second connecting bar 771 is rotated, thereby moving the third slider 760.

In a preferred embodiment, two polishing assemblies 200 and two scraper assemblies 700 are provided, and the two polishing assemblies 200 and the two scraper assemblies 700 are arranged corresponding to the upper edge 820 and the lower edge 810 of the plate 800, so that the two edges of the plate 800 can be subjected to chip removal treatment simultaneously, and the working efficiency is improved. In order to avoid the interference between the two scraper assemblies 700 during the use process, the two scraper assemblies 700 are arranged in a staggered manner, and similarly, the two polishing assemblies 200 can also be arranged in a staggered manner.

Referring to fig. 5, a method for removing debris from a plate material by using a cleaning structure at a discharge end of an automatic edge bonding machine includes the following steps:

detector 400 detects sheet 800 and sends a signal to controller 500.

After the controller 500 receives the corresponding signal, the controller 500 reads and records the transmission distance of the transmission assembly, and when the transmission distance of the transmission assembly is equal to the set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move the set distance L1 in the direction away from the plate material 800; the set value is the distance between the detector 400 and the polishing wheel 240 of the polishing assembly 200, that is, after the plate material 800 passes through the set value from the position of the detector 400, the front end of the plate material 800 starts to contact with the polishing wheel 240 of the polishing assembly 200, and then polishing of the plate material 800 is started. After the polishing wheel 240 of the polishing assembly 200 contacts the plate 800, the polishing assembly 200 moves by a set distance L1, so that the polishing wheel 240 contacts the edge of the plate 800 to polish the edge.

Detector 400 detects that sheet material 800 is no longer detected and sends a signal to controller 500.

The controller 500 reads the conveying distance of the recording conveying assembly, and when the conveying distance of the conveying assembly is equal to the set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move the set distance L1 in the direction approaching the plate material 800. After the detector 400 detects that the plate 800 is no longer detected, and the transmission distance of the transmission assembly is equal to a set value, the polishing wheel 240 reaches the rear end position of the plate 800, and then the polishing assembly 200 is controlled to move towards the direction close to the plate 800, so that the rear end of the plate 800 is polished, and therefore, the scraps at the rear end of the plate 800 are removed, and the processing quality of the plate 800 is improved.

Since the welt on the side of sheet 800 is typically only 1mm to 2mm, distance L1 is set to be less than or equal to this value so that burnishing assembly 200 only partially burnishes the welt without changing the overall shape of sheet 800.

In a preferred embodiment, the speed at which polishing assembly 200 is driven by moving assembly 300 is equal to the conveying speed of the conveying assembly, thereby forming a slight chamfer area at both ends of sheet 800, such that debris attached to the ends of sheet 800 is removed, and the corners of sheet 800 are worn away and no longer sharp.

In a preferred embodiment, when the controller 500 receives the power-on signal, the moving assembly 300 is controlled to drive the polishing assembly 200 to move a set distance L2 toward the plate 800; when the controller 500 receives the stop signal, the moving assembly 300 is controlled to drive the polishing assembly 200 to move a set distance L2 in a direction away from the plate material 800, and the set distance L2 is greater than the set distance L1. In the conventional automatic edge bonding machine, rollers for pressing the plate material 800 on the conveying assembly are usually arranged above the conveying assembly, that is, a channel for exactly conveying the plate material 800 is formed between the rollers and the conveying assembly, and when the polishing assembly 200 is in a stop state, the distance between the polishing assembly 200 and the channel is large, and the polishing assembly does not contact the plate material 800 passing through the channel, that is, the edge bonding machine has a function of not polishing the plate material 800.

A method for removing debris from a plate by using a cleaning structure at a discharge end of an automatic edge bonding machine comprises the following steps:

detector 400 detects that sheet 800 is no longer detected and sends a signal to controller 500; the controller 500 reads the conveying distance of the recording conveying assembly, and when the conveying distance of the conveying assembly is equal to the set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move a set distance L1 towards the direction close to the plate material 800; before the detector 400 detects the plate material 800 and the controller 500 controls the conveying distance of the conveying assembly to be equal to the set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move away from the plate material 800 by the set distance L1.

In the preferred embodiment, polishing assembly 200 does not polish the front end of sheet 800, i.e. when sheet 800 passes through polishing assembly 200, both upper edge 820 and lower edge 810 of sheet 800 contact polishing assembly 200, thereby polishing upper edge 820 and lower edge 810 of sheet 800, and when detector 400 detects that sheet 800 is no longer detected, a signal is sent to controller 500; the controller 500 reads the conveying distance of the recording conveying assembly, and when the conveying distance of the conveying assembly is equal to a set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move a set distance L1 towards the direction close to the plate material 800, so as to polish the rear end of the plate material 800. After the polishing assembly 200 finishes polishing the rear end of the plate material 800, before the polishing assembly 200 contacts the next plate material 800, the polishing assembly 200 is reset, that is, before the detector 400 detects the plate material 800 and the controller 500 controls the conveying distance of the conveying assembly to be equal to the set value, the controller 500 controls the moving assembly 300 to drive the polishing assembly 200 to move away from the plate material 800 by the set distance L1.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other suitable relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the protective scope of the present invention.

Claims (10)

1. The utility model provides an automatic clean structure of bag sealer discharge end for get rid of the piece on the panel, it includes the frame and installs the conveying subassembly in the frame, its characterized in that, the frame has the removal subassembly that polishing subassembly and drive polishing subassembly removed at conveying subassembly's terminal sliding connection, and the frame is fixed with the detector in the place ahead of polishing subassembly, still includes the controller, conveying subassembly, detector, polishing subassembly and removal subassembly all with controller electric connection.

2. The automatic edge banding machine discharge end cleaning structure of claim 1, wherein said polishing assembly comprises a frame fixed to the frame, a first slide slidably connected to the frame, a drive motor fixed to the first slide, and a polishing wheel fixed to an output shaft of the drive motor; the driving motor is electrically connected with the controller, the moving assembly is an electric cylinder or a telescopic cylinder, the moving assembly is fixed on the support, and the output end of the moving assembly is connected with the first sliding seat.

3. The automatic edge banding machine discharge end cleaning structure of claim 2, wherein said frame is fixed with a brush behind a polishing assembly; or the machine frame is fixed with brushes at the rear and the front of the polishing component.

4. The automatic edge bonding machine discharge end cleaning structure according to claim 1, wherein the frame is provided with a scraper assembly in front of the polishing assembly, the scraper assembly comprises a scraper and two limiting discs, the two limiting discs are arranged at 90 degrees to the surface contacting the plate, and the scraper is arranged between the two limiting discs.

5. The automatic edge bonding machine discharge end cleaning structure according to claim 4, wherein a mounting seat is fixed on the frame, a second slide seat is vertically and slidably connected to the mounting seat, a first adjusting assembly is installed between the second slide seat and the frame, a third slide seat is longitudinally and slidably connected to the second slide seat, a second adjusting assembly for driving the third slide seat to move is connected to the second slide seat, and the limiting disc and the scraper are fixed on the third slide seat.

6. The automatic edge banding machine discharging end cleaning structure according to claim 5, wherein said first adjusting component comprises a first connecting rod rotatably connected to the second sliding seat, a first handle is fixed at one end of the first connecting rod far away from the second sliding seat, and the middle part of said first connecting rod is in threaded connection with the frame;

the second adjusting component comprises a second connecting rod which is rotatably connected to the second sliding seat, a second handle is fixed to one end, away from the second sliding seat, of the second connecting rod, and the middle of the second connecting rod is in threaded connection with the third sliding seat.

7. The automatic edge bonding machine discharge end cleaning structure according to claim 4, wherein the polishing assemblies and the scraper assemblies are arranged in two groups, the two groups of the polishing assemblies and the scraper assemblies are arranged corresponding to the upper edge and the lower edge of the plate, and the two groups of the scraper assemblies are arranged in a staggered manner.

8. A method for removing debris from a plate by using a cleaning structure at a discharge end of an automatic edge bonding machine is characterized by comprising the following steps of:

the detector detects the plate and sends a signal to the controller;

the controller reads and records the transmission distance of the transmission assembly, and when the transmission distance of the transmission assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move a set distance L1 in the direction away from the plate;

the detector detects that the plate is not detected any more and sends a signal to the controller;

the controller reads the conveying distance of the recording conveying assembly, and when the conveying distance of the conveying assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move towards the direction close to the plate material by the set distance L1.

9. The method of claim 8, wherein the polishing assembly is driven by the movement assembly at a speed equal to the transport speed of the transport assembly.

10. A method for removing debris from a plate by using a cleaning structure at a discharge end of an automatic edge bonding machine is characterized by comprising the following steps of:

the detector detects that the plate is not detected any more and sends a signal to the controller;

the controller reads and records the transmission distance of the transmission assembly, and when the transmission distance of the transmission assembly is equal to a set value, the controller controls the moving assembly to drive the polishing assembly to move a set distance L1 towards the direction close to the plate;

before the detector detects the plate material and the controller controls the conveying distance of the conveying assembly to be equal to the set value, the controller controls the moving assembly to drive the polishing assembly to move away from the plate material by the set distance L1.

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