CN218195829U - Panel banding equipment - Google Patents

Abstract

The utility model discloses a panel banding equipment, including the conveyor that is used for centre gripping panel to carry out linear transportation, along conveyor's direction of delivery, install in proper order in the banding side of panel: the milling device comprises a straight surface milling mechanism and an inclined surface milling mechanism; the gluing device comprises an inclined plane gluing mechanism and a straight plane gluing mechanism; the groove milling device comprises a side sealing belt turntable, a first cutting wheel set, a belt pulling mechanism and a belt leaning mechanism, wherein the first cutting wheel set is horizontally arranged, is positioned between the side sealing belt turntable and the belt pulling mechanism, and is used for pushing the side sealing belt to approach towards the direction of the cutting wheel set; the pressing device comprises a first pressing wheel and a second pressing wheel, wherein the first pressing wheel is vertically arranged, the second pressing wheel is obliquely arranged, and the plurality of first pressing wheels and the plurality of second pressing wheels are sequentially arranged; the finishing device is used for cutting excess materials of the edge sealing belts on the inclined plane and the vertical plane; the edge scraping device is used for scraping the edge of the edge sealing belt; a series of edge sealing operations of the special-shaped plate are completed automatically, and the whole process is efficient and accurate.

Description

Panel banding equipment

Technical Field

The utility model relates to a banding equipment, in particular to panel banding equipment.

Background

It is now necessary to edge seal the side of a profiled sheet material as shown in figure 9, the edge seal having a vertical planar surface and an inclined planar surface extending upwardly and obliquely from the upper edge of the vertical planar surface. The common edge sealing mode is to respectively carry out edge sealing operation on a vertical plane and an inclined plane, and the operation undoubtedly lengthens the whole edge sealing procedure production line, so that the working efficiency is low. Some edge sealing operations bend the edge sealing belt and seal the vertical plane and the inclined plane together, but due to the toughness of the edge sealing belt, the edge sealing belt is easy to separate from the edge sealing surface, and the product quality is affected. Therefore, an edge sealing device which can meet the requirement that the plate can be automatically and efficiently finished needs to be designed.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve at least one of the above-mentioned technical problems in the related art to a certain extent. Therefore, the utility model provides a panel banding equipment.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

according to the utility model discloses a panel banding equipment of first aspect embodiment, including the conveyor that is used for centre gripping panel to carry out linear transportation, follow conveyor's direction of delivery installs in proper order in the banding side of panel:

the milling device comprises a straight surface milling mechanism for milling a vertical plane and a bevel surface milling mechanism for milling a bevel plane;

the gluing device comprises an inclined gluing mechanism for gluing an inclined plane and a straight gluing mechanism for gluing a vertical plane;

the groove milling device comprises a side sealing belt turntable, a first cutting wheel set, a belt pulling mechanism and a belt leaning mechanism, wherein the first cutting wheel set is horizontally arranged, the first cutting wheel set is positioned between the side sealing belt turntable and the belt pulling mechanism, and the belt leaning mechanism is used for pushing a side sealing belt to approach towards the direction of the first cutting wheel set;

the pressing device comprises a first pressing wheel and a second pressing wheel, wherein the first pressing wheel is vertically arranged, the second pressing wheel is obliquely arranged, and the first pressing wheels and the second pressing wheels are sequentially arranged;

the finishing device is used for cutting the excess materials of the edge sealing belts on the inclined plane and the vertical plane;

and the edge scraping device is used for scraping the edge of the edge sealing belt.

According to the utility model discloses panel banding equipment has following beneficial effect at least: a series of edge sealing operations of the special-shaped plate are completed automatically, and the whole process is efficient and accurate.

According to some embodiments of the utility model, milling device includes two sets of the mechanism is milled to the straight face, the mechanism is milled to the straight face includes milling face horizontal installation's first milling cutter, drive first milling cutter pivoted first motor and first moving mechanism, and is two sets of the mechanism is milled to the straight face adopts the power difference first motor, first moving mechanism drive first motor together with first milling cutter carries out translation and vertical lift.

According to some embodiments of the utility model, milling device includes two sets of the inclined plane milling mechanism, the inclined plane milling mechanism is including milling the second milling cutter that personally submits the slope installation, the drive second milling cutter pivoted second motor, second moving mechanism and first high adjustment mechanism, and is two sets of the inclined plane milling mechanism adopts the power difference the second motor, the drive of second moving mechanism the second motor together with second milling cutter goes up and down along the incline direction, the second moving mechanism install on the first high adjustment mechanism, the adjustment of first high adjustment mechanism the vertical height of second moving mechanism.

According to some embodiments of the present invention, the inclined glue spreading mechanism includes a first glue spreading roller set and a third moving mechanism which are obliquely arranged, the third moving mechanism drives the first glue spreading roller set to ascend and descend and to horizontally move towards the conveying device, the third moving mechanism is provided with an elastic member, and the elastic member has an elastic buffering effect on the first glue spreading roller set in the moving direction of the third moving mechanism; the straight glue spreading mechanism is located on a rear station of the inclined plane glue spreading mechanism and comprises a second glue spreading roller set which is vertically arranged.

According to some embodiments of the utility model, lean on tape unit to construct including backup plate, first depended wheel, fourth moving mechanism and high stop gear, first depended wheel with first cutting wheelset is located the backup plate both sides, fourth moving mechanism drives first depended wheel toward the backup plate direction removes, first depended wheel with form the cutting clearance between the backup plate, high stop gear is including relative the backup plate carries out the depression bar that goes up and down.

According to some embodiments of the present invention, each of the first pressing wheels and each of the second pressing wheels are driven to move towards the transportation device by a respective independent fifth moving mechanism.

According to some embodiments of the utility model, the finishing device is including the second cutting wheelset and the third cutting wheelset that lay in proper order, the second cutting wheelset includes first sloping seat and two slidable mounting carry out relative slip second cutting wheel on the first sloping seat, the pivot line of second cutting wheel is on a parallel with conveyor's direction of delivery, the third cutting wheelset includes first vertical mount pad, two slidable mounting and is in third cutting wheel and first profiling on the first vertical mount pad, two distribute and go up and down relatively from top to bottom the third cutting wheel, first profiling is installed one side of third cutting wheel, the cutting point of third cutting wheel slightly bulge in the setpoint of first profiling.

According to some embodiments of the utility model, scrape limit device and include scraper, the vertical mount pad of second and second profiling, the second depended wheel is connected be equipped with the elastic component on the vertical mount pad of second and between the two and cushion, two the scraper slopes respectively and the horizontal orientation conveyor sets up, two the scraper distributes from top to bottom, the second profiling is close to the scraping point position of scraper.

According to the utility model discloses a some embodiments still include elevating system, elevating system includes elevating platform and elevator motor, the inclined plane mill the mechanism the inclined plane rubber coating mechanism the milling flutes device with press the device to install on the elevating platform, the elevator motor drive the elevating platform goes up and down in step.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the straight milling mechanism of the present invention;

FIG. 3 is a schematic structural view of the bevel milling mechanism of the present invention;

FIG. 4 is a schematic structural view of the glue spreading device of the present invention;

fig. 5 is a schematic structural view of the groove milling device of the present invention;

FIG. 6 is a schematic structural view of the pressing device of the present invention;

fig. 7 is a schematic structural view of the finishing device of the present invention;

FIG. 8 is a schematic structural view of the edge scraping device of the present invention;

fig. 9 is a schematic structural view of the profiled sheet.

Reference numerals:

a conveying device 100;

a milling device 200; a straight face milling mechanism 210; a first milling cutter 211; a first motor 212; a first moving mechanism 213; a ramp milling mechanism 220; a second milling cutter 221; a second motor 222; the second moving mechanism 223; a first height adjustment mechanism 224;

a glue spreading device 300; an inclined glue coating mechanism 310; a first glue roller set 311; the third moving mechanism 312; a straight glue spreading mechanism 320; a second glue roller set 321;

a groove milling device 400; a banding band turntable 410; a first cutting wheel set 420; a belt pulling mechanism; a belt abutting mechanism 430; a backup plate 431; a first idler 432; a fourth moving mechanism 433; a height limiting mechanism 434;

a pressing device 500; a first pinch roller 510; a second pinch roller 520; a fifth moving mechanism 530;

a finishing device 600; a second cutting wheel assembly 610; a first tilting seat 611; a second cutting wheel 612; a third cutting wheel assembly 620; a first vertical mount 621; a third cutting wheel 622; a first explorator 623;

the edge scraping device 700; a scraper 710; a second vertical mount 720; a second master 730;

a lifting mechanism 800; an elevating platform 810; a lift motor 820;

a slanted plane 910; a vertical plane 920.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The utility model relates to a panel banding equipment, including conveyer. The structure of current banding equipment can be selected for use to the conveyer, utilizes and carries platform cooperation pressure roof beam and gyro wheel to carry out the centre gripping to panel and carry along the straight line. As shown in fig. 1, the conveying device conveys the plate from left to right, and a milling device 200, a gluing device 300, a slot milling device 400, a pressing and pasting device 500, a finishing device 600 and an edge scraping device 700 are sequentially installed on the edge sealing side of the conveying device 100 along the conveying direction of the conveying device.

The milling device 200 includes a straight milling mechanism 210 and a ramp milling mechanism 220. As shown in fig. 2, the straight milling mechanisms 210 have two sets, and the two sets of straight milling mechanisms 210 are arranged in sequence along the conveying direction. The straight milling mechanism 210 includes a first milling cutter 211, a first motor 212, and a first moving mechanism 213. A first motor 212 controls a first milling cutter 211 to rotate, the rotation axis of the first milling cutter 211 is oriented vertically, and the milling surface of the first milling cutter 211 is oriented horizontally to the conveying device 100. The first moving mechanism 213 may be provided with a vertical rail and a horizontal rail, and the first motor 212 is mounted on the vertical rail of the first moving mechanism 213, so as to adjust the height of the first milling cutter 211 by adjusting the height position of the first motor 212 relative to the first moving mechanism 213. The first moving mechanism 213 can drive the vertical rail to translate relative to the horizontal rail through the cylinder, so as to control the first milling cutter 211 to translate back and forth towards the conveying device 100. When the plate moves to the front of the straight milling mechanism 210 along with the conveying device 100, the first milling cutter 211 approaches the vertical plane of the plate to mill the vertical plane of the plate. The plate then continues to move to the position of the second first milling cutter 211, and the vertical plane of the plate is milled again by the second milling cutter 221. The power of the two first motors 212 is different, the power of the first motor 212 is smaller than that of the second motor 222, the first milling cutter 211 roughly mills the vertical plane, and the second first milling cutter 211 finely mills the vertical plane, so that the flatness of the vertical plane is guaranteed. As shown in fig. 3, the milling device 200 has two sets of bevel milling mechanisms 220, and the two sets of bevel milling mechanisms 220 are used for rough milling and finish milling of the bevel plane of the plate. The bevel milling mechanism 220 includes a second milling cutter 221, a second motor 222, a second moving mechanism 223, and a first height adjusting mechanism 224. The second motor 222 drives the second milling cutter 221 to rotate. The rotation axis of the second milling cutter 221 is inclined, and the inclined direction is matched with the inclined plane of the plate, so that the second milling cutter 221 mills the inclined plane. The second moving mechanism 223 is provided with an inclined rail, the second motor 222 is mounted on the inclined rail, and the second motor 222 is driven by the cylinder to slide relative to the inclined rail, so as to drive the second milling cutter 221 to approach or leave the inclined plane. The first height adjusting mechanism 224 is connected to the second moving mechanism 223, and the first height adjusting mechanism 224 can drive the second moving mechanism 223 to move up and down through a screw rod, so as to adjust the relative height of the second milling cutter 221. A second motor 222 drives a second milling cutter 221 to rotate, the power of the two second motors 222 is different, the power of the first second motor 222 is smaller than that of the second motor 222, so that the inclined plane of the plate is roughly milled by using the first second motor 222, and the inclined plane of the plate is finely milled by using the second motor 222.

After milling of the inclined plane and the vertical plane of the plate is completed, the gluing device 300 is used for gluing the two surfaces. The glue spreading device 300 includes a bevel glue spreading mechanism 310 and a straight glue spreading mechanism 320. The glue coating mechanism comprises a straight glue coating mechanism 320 and an inclined glue coating mechanism 310. As shown in fig. 4, the inclined glue spreading mechanism 310 includes a first glue spreading roller set 311 and a third moving mechanism 312, the first glue spreading roller set 311 is arranged in an inclined manner according to an inclination angle of an inclined plane, the first glue spreading roller set 311 is connected with an external glue cavity, and the glue in the glue cavity is separated through rotation of the first glue spreading roller set 311. The third moving mechanism 312 can drive the first gluing roller set 311 to translate towards the inclined plane direction of the plate through the structure that the horizontal slide rail is matched with the air cylinder. Wherein, a vertical slide bar is arranged on the third moving mechanism 312, the first gluing roller set 311 is connected to the vertical slide bar through a horizontal slide rail, and an elastic member (not shown in the figure) is sleeved on the vertical slide bar, and the elastic member can be a spring. The first resist roller group 311 is adjusted to be raised and lowered with respect to the third moving mechanism 312 by a screw. During the lifting, the first applicator roller group 311 is elastically buffered by an elastic member. Meanwhile, when the first gluing roller set 311 is used for gluing an inclined plane, the first gluing roller set 311 can be elastically buffered within a certain range through an elastic component, and hard collision between the first gluing roller set 311 and a plate is avoided. The straight glue coating mechanism 320 is positioned at the rear station of the inclined glue coating mechanism 310. The straight glue spreading mechanism 320 comprises a second glue spreading roller group 321 which is vertically arranged, the second glue spreading roller group 321 is connected with an external glue cavity, and the second glue spreading roller group 321 separates glue from a glue belt through rotation. The plate sequentially passes through the inclined plane gluing mechanism 310 and the straight plane gluing mechanism 320, and the surfaces of the inclined plane and the vertical plane are sequentially glued through the first gluing roller set 311 and the second gluing roller set 321.

And after the plate is coated with the glue, starting to enter a sealing link. Before the edge sealing belt enters, the edge sealing belt needs to be subjected to groove milling according to the connection position of the inclined plane and the vertical plane. As shown in fig. 5, the groove milling device 400 includes an edge sealing belt turntable 410, a first cutting wheel set 420, a belt pulling mechanism (not shown), and a belt leaning mechanism 430. The edge sealing belt is placed on the edge sealing belt rotating disc 410 in a coiled mode, one end of the edge sealing belt is led in, and the edge sealing belt is pulled towards the direction of the pressing and pasting device 500 by the belt pulling mechanism. When the edge sealing band passes through the first cutting wheel set 420, the first cutting wheel set 420 is used for milling the groove of the edge sealing band. During the groove milling, the tape leaning mechanism 430 pushes the edge sealing tape toward the first cutting wheel set 420 in a fixed amount. Specifically, the belt leaning mechanism 430 includes a leaning plate 431, a first leaning wheel 432, a fourth moving mechanism 433, and a height limiting mechanism 434. The backup plate 431 is vertically arranged, and the first backup wheel 432 and the first cutting wheel group 420 are respectively positioned at both sides of the backup plate 431. The cutting point of the first cutting wheel set 420 is leaned against the first leaning wheel 432 through the lower portion of the leaning plate 431. The fourth moving mechanism 433 can be a combination of an air cylinder and a sliding seat, and drives the first backup wheel 432 to move towards the backup plate 431. A cutting gap is formed between the first idler wheel 432 and the backup plate 431, the edge sealing belt penetrates through the cutting gap under the traction of the belt pulling mechanism, the edge sealing belt is attached to the side face of the backup plate 431 by the first idler wheel 432, and the surface of the edge sealing belt of the first cutting wheel set 420 is milled while the edge sealing belt moves. The height limiting mechanism 434 may be provided on the feed and discharge side of the backup plate 431. In this embodiment, the height limiting mechanism 434 may be a cross bar, the cross bar is mounted on the base of the groove milling device 400 through a lifting slider, and the cross bar passes through the backup plate 431 to lift. When the edge sealing belt enters the range of the backup plate 431, the edge sealing belt is pressed down by the height limiting mechanism 434, so that the edge sealing belt is prevented from jumping up and down in the process of traction and groove milling, and the groove milling quality is ensured.

The edge sealing belt after the groove milling enters the pressing and pasting device 500 backwards, and the pressing and pasting device 500 is used for pressing the edge sealing belt after the groove milling to the glued plate. As shown in fig. 6, in some embodiments of the present invention, the pressing device 500 includes a first pressing wheel 510 and a second pressing wheel 520, the first pressing wheel 510 is vertically disposed, the pressing surface of the first pressing wheel 510 is parallel to the vertical plane of the board, the second pressing wheel 520 is obliquely disposed, and the pressing surface of the second pressing wheel 520 is parallel to the inclined plane of the board. The plurality of first pressing wheels 510 and the plurality of second pressing wheels 520 are sequentially arranged, that is, the pressing device 500 is distributed in the form of the first pressing wheels 510, the second pressing wheels 520, the first pressing wheels 510, and the second pressing wheels 520 … …. Both the first puck 510 and the second puck 520 are driven by respective fifth movement mechanisms 530. The fifth moving mechanism 530 can drive the first pressing wheels 510 and the second pressing wheels 520 to move towards the vertical plane and the inclined plane of the board through the air cylinders. The groove position of the banding band corresponds to the joint position of the inclined plane and the vertical plane of the plate. Under the action of the first pressing wheel 510 and the second pressing wheel 520, the edge sealing belt is bent along the slot position and is attached to the edge sealing surface of the plate. The stability of the edge sealing belt is ensured by the staggered arrangement of the first pinch roller 510 and the second pinch roller 520.

After passing through the pressing and pasting device 500, the edge sealing strip is stably pasted on the edge sealing surface of the plate. The edge sealing belt needs to be subjected to excess material cutting and edge scraping treatment later. Specifically, as shown in fig. 7, the finishing device 600 includes a second cutting wheel set 610 and a third cutting wheel set 620. The second cutting wheel group 610 and the third cutting wheel group 620 are sequentially installed along the conveying direction of the conveying device 100. The second cutting wheel group 610 includes a first tilting seat 611 and a second cutting wheel 612, and the first tilting seat 611 is tilted from the upper left to the lower right. The two second cutting wheels 612 are driven to rotate by respective motors, the two second cutting wheels 612 are slidably mounted on the first inclined seat 611 through the motor and the slider, one second cutting wheel 612 is located at the upper left side of the first inclined seat 611, and the other second cutting wheel 612 is located at the lower right side of the first inclined seat 611. The first tilting seats 611 and the respective motors are driven to move by cylinders. The axis of rotation of the second cutting wheel 612 is oriented parallel to the conveying direction of the conveyor 100. The panel after pressing the subsides enters into the scope of second cutting wheelset 610, and two second cutting wheelsets 610 start simultaneously, and the second cutting wheel 612 that is located the upper left side moves to the downside that turns right, and the second cutting wheel 612 that is located the downside that turns left moves, cuts the banding area of the panel left and right sides, and the banding area translation that goes out in the panel left side cuts in the left surface of panel, cuts the banding area parallel and level on panel right side in the right flank and blocks. Second cutting wheel 612 moves along the incline direction, can cooperate the transport of panel to carry out quick rough cut, improves cutting efficiency. The third cutting wheel group 620 is located at the right side of the second cutting wheel group 610, and the third cutting wheel group 620 is used for cutting the edge sealing band at the upper edge side of the inclined plane and the edge sealing band at the lower edge side of the vertical plane. Specifically, third cutting wheel group 620 includes first vertical mount 621, two third cutting wheels 622 and first profiling 623, and two third cutting wheels 622 drive through respective motor and rotate, and two third cutting wheels 622 are located the upper and lower side of first vertical mount 621 respectively, and the motor that third cutting wheel 622 corresponds passes through slider sliding connection on first vertical mount 621, and rethread cylinder drive reciprocates. The rotation axis of the third cutting wheel 622 is oriented back and forth perpendicular to the conveying direction of the conveyor 100. The two third cutting wheels 622 are correspondingly equipped with first cams 623. The lowest point of the third cutting wheel 622 on the upper side is used as a cutting point, which is slightly lower than the lowest point of the corresponding first profile 623, and the lowest point is an anchor point of the first profile 623. The highest point of the third cutting wheel 622 on the lower side is the cutting point thereof, and the cutting point thereof is slightly higher than the highest point of the corresponding first profile 623, and the highest point is the positioning point of the first profile 623. After the plate enters the working range of the third cutting wheel group 620, the third cutting wheel 622 on the upper side descends, the corresponding first explorator 623 abuts against the upper surface of the plate, and the third cutting wheel 622 on the upper side accurately cuts the edge sealing belt excess material on the upper edge side of the inclined plane. The third cutting wheel 622 on the lower side is raised, the corresponding first explorator 623 abuts against the lower surface of the plate, and the third cutting wheel 622 on the lower side precisely cuts the edge sealing belt excess material on the lower edge side of the vertical plane.

After the finishing device 600 finishes the finishing, the plate moves to the working range of the edge scraping device 700 along with the conveying device 100, and the edge of the edge sealing band is scraped by the edge scraping device 700. Specifically, as shown in fig. 8, the edge scraping device 700 includes a scraper 710, a second vertical mounting seat 720 and a second profile 730, the scraper 710 is slidably mounted on the upper side and the lower side of the second vertical mounting seat 720, and the two scrapers 710 are driven by an air cylinder to move back and forth on the second vertical mounting seat 720 to achieve feeding and retracting. The upper blade 710 is horizontally disposed toward the conveying device 100, and the lower blade 710 is inclined upward toward the conveying device 100. When the plate passes through the edge scraping device 700, the upper edge side of the edge sealing band is scraped by the scraper 710 located at the upper side, and the lower edge side of the edge sealing band is scraped by the scraper 710 located at the lower side. This corresponds to chamfering the long edge of the edge band with the scraper 710. The second explorator 730 is correspondingly disposed at the side of the two scrapers 710. The lowest point of the second fence 730 positioned at the upper side is close to the scraping point of the scraper 710 positioned at the upper side, and the highest point of the second fence 730 positioned at the lower side is close to the scraping point of the scraper 710 positioned at the lower side. Wherein, set up the elastic component between second profiling 730 and the vertical mount pad 720 of second and cushion, this elastic component chooses for use the spring. During operation, the second profile modeling 730 located at the upper side abuts against the upper surface of the plate, and the second profile modeling 730 located at the lower side abuts against the lower surface of the plate, so as to position the scraping point of the scraper 710 relative to the plate. And simultaneously, the second profiling 730 is prevented from being collided with the plate firmly under the buffer action of the elastic piece.

In some embodiments of the present invention, as shown in fig. 1, the plate edge sealing device is further provided with a lifting mechanism 800. The lifting mechanism 800 comprises a lifting platform 810 and a lifting motor 820, wherein the inclined plane milling mechanism 220, the inclined plane gluing mechanism 310, the groove milling device 400 and the pressing and pasting device 500 are installed on the lifting platform 810, and the lifting motor 820 drives the lifting platform 810 to lift synchronously. Under the unchangeable condition of inclined plane inclination, after the vertical plane height changed, need adjust to the operating position of banding area pressure subsides and the glued station of panel to inclined plane, utilize elevating system 800 to go up and down in step with corresponding device, can the quick adjustment target in place.

In the description of the present specification, references to the description of "some specific embodiments" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. The utility model provides a panel banding equipment, includes conveyor (100) that is used for centre gripping panel to carry out linear transportation, its characterized in that, follows conveyor (100)'s direction of delivery, installs in proper order in the banding side of panel:

the milling device (200) comprises a straight face milling mechanism (210) for milling a vertical plane and a bevel face milling mechanism (220) for milling a bevel face;

the gluing device (300) comprises an inclined gluing mechanism (310) for gluing an inclined plane and a straight gluing mechanism (320) for gluing a vertical plane;

the groove milling device (400) comprises a banding belt turntable (410), a first cutting wheel set (420) which is horizontally installed, a belt pulling mechanism and a belt leaning mechanism (430), wherein the first cutting wheel set (420) is positioned between the banding belt turntable (410) and the belt pulling mechanism, and the belt leaning mechanism (430) is used for pushing the banding belt to be attached to the first cutting wheel set (420) in the direction;

the pressing and pasting device (500) comprises a first pressing wheel (510) and a second pressing wheel (520), wherein the first pressing wheel (510) is vertically arranged, the second pressing wheel (520) is obliquely arranged, and the first pressing wheels (510) and the second pressing wheels (520) are sequentially arranged;

the finishing device (600) is used for cutting the excess materials of the edge sealing belts on the inclined plane and the vertical plane;

and the edge scraping device (700) is used for scraping the edge of the edge sealing belt.

2. The sheet edge banding apparatus of claim 1, wherein: the milling device (200) comprises two groups of straight face milling mechanisms (210), each straight face milling mechanism (210) comprises a first milling cutter (211) with a horizontally mounted milling face, a first motor (212) and a first moving mechanism (213), the first motors (212) driving the first milling cutters (211) to rotate are adopted by the two groups of straight face milling mechanisms (210), the powers of the first motors (212) are different, and the first moving mechanisms (213) drive the first motors (212) to move horizontally and lift vertically together with the first milling cutters (211).

3. The sheet edge banding apparatus of claim 1, wherein: the milling device (200) comprises two groups of the inclined plane milling mechanisms (220), each inclined plane milling mechanism (220) comprises a second milling cutter (221) with a milling surface obliquely installed, a second motor (222), a second moving mechanism (223) and a first height adjusting mechanism (224), the second motors (222) driving the second milling cutters (221) to rotate, the second moving mechanisms (223) drive the second motors (222) with different powers to ascend and descend along the oblique direction, the second moving mechanisms (223) are installed on the first height adjusting mechanisms (224), and the first height adjusting mechanisms (224) adjust the vertical height of the second moving mechanisms (223).

4. The sheet edge banding apparatus of claim 1, wherein: the inclined glue coating mechanism (310) comprises a first glue coating roller group (311) and a third moving mechanism (312), the first glue coating roller group (311) is obliquely arranged, the third moving mechanism (312) drives the first glue coating roller group (311) to lift and translate towards the conveying device (100), an elastic member is arranged on the third moving mechanism (312), and the elastic member has an elastic buffering effect on the first glue coating roller group (311) in the moving direction of the third moving mechanism (312); the straight glue spreading mechanism (320) is located on the rear station of the inclined plane glue spreading mechanism (310), and the straight glue spreading mechanism (320) comprises a vertically arranged second glue spreading roller set (321).

5. The sheet edge banding apparatus of claim 1, wherein: the belt leaning mechanism (430) comprises a leaning plate (431), a first leaning wheel (432), a fourth moving mechanism (433) and a height limiting mechanism (434), the first leaning wheel (432) and the first cutting wheel set (420) are located on two sides of the leaning plate (431), the fourth moving mechanism (433) drives the first leaning wheel (432) to move towards the direction of the leaning plate (431), a cutting gap is formed between the first leaning wheel (432) and the leaning plate (431), and the height limiting mechanism (434) comprises a pressing rod which is opposite to the leaning plate (431) and is used for lifting.

6. The sheet edge banding apparatus of claim 1, wherein: the first pressing wheels (510) and the second pressing wheels (520) are driven to move towards the conveying device through independent fifth moving mechanisms (530).

7. The sheet edge banding apparatus of claim 1, wherein: the fine trimming device (600) comprises a second cutting wheel set (610) and a third cutting wheel set (620) which are sequentially arranged, wherein the second cutting wheel set (610) comprises a first inclined seat (611) and two second cutting wheels (612) which are slidably mounted on the first inclined seat (611) and slide relatively, the rotating axis of the second cutting wheels (612) is parallel to the conveying direction of the conveying device (100), the third cutting wheel set (620) comprises a first vertical mounting seat (621), two third cutting wheels (622) which are slidably mounted on the first vertical mounting seat (621) and a first explorator (623), the two third cutting wheels (622) are vertically distributed and relatively lift, the first explorator (623) is mounted on one side of the third cutting wheels (622), and the cutting point of the third cutting wheels (622) slightly protrudes out of the positioning point of the first explorator (623).

8. The sheet edge banding apparatus of claim 1, wherein: the edge scraping device (700) comprises a scraper (710), a second vertical mounting seat (720) and a second profiling mold (730), wherein the second profiling wheel is connected to the second vertical mounting seat (720), an elastic piece is arranged between the second vertical mounting seat and the second vertical mounting seat for buffering, the scraper (710) inclines and horizontally faces to the conveying device (100) in a set mode, the scraper (710) is vertically distributed, and the second profiling mold (730) is close to the scraping point position of the scraper (710).

9. The sheet edge banding apparatus of claim 1, wherein: still include elevating system (800), elevating system (800) includes elevating platform (810) and elevator motor (820), inclined plane milling machine constructs (220), inclined plane rubber coating mechanism (310) milling flutes device (400) with press and paste device (500) and install on elevating platform (810), elevator motor (820) drive elevating platform (810) goes up and down in step.

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