KR20140034266A - The auto edge coating machine - Google Patents

Abstract

The present invention relates to an automatic edge coating apparatus. The automatic edge coating apparatus includes transfer members spaced apart from each other along a conveyor chain by a predetermined gap; a coating unit including a pair of coating cylinders spaced from a pair of left and right coating cylinders over a middle portion of the conveyor by a predetermined distance; and a rotation guide plate having a guide groove below a middle portion of a coating part. The transfer member includes a moving plate having both sides supported by the chain, a shaft freely rotated by a bearing formed at the center of the moving plate, a link vertically protruding about a shaft protruding toward a low portion of the moving plate, and a roller fixed to the link. The coating cylinders of the coating part are freely rotated by the bearing, respectively and an edge coating solution is supplied to each of the coating cylinders. A plurality of products for performing an edge coating are fixed by a jig and the jig is fixed to a shaft protruding toward an upper portion of the moving plate of the transfer member. While the transfer member moves by the conveyer, both side surfaces of the product is coated by the first coating cylinder. As the shaft is rotated at 90° in a horizontal direction while the roller of the transfer member moves along the guide groove of the rotation guide plate, the jig is rotated with the shaft and both sides of the moving jig are edge-coated by the next coating cylinder, so that the edge coating is uniformly performed and it is possible to perform the edge coating on a large scale.

Description

The auto edge coating machine

The present invention relates to an automatic edge coating apparatus, comprising a conventional conveyor in which the chain is rotated by a motor, the conveying body along the chain at regular intervals, a pair of left and right coatings above the middle portion of the conveyor Comprising a coating portion constituting a pair of coating cylinder at a certain distance from the cylinder, and comprises a rotary guide plate formed with a guide groove in the lower portion of the middle of the coating portion, the transfer body is a moving plate, both sides are supported by a chain, It consists of a shaft freely rotating by a bearing configured in the center of the moving plate, a link vertically protruding with respect to the axis protruding below the moving plate, and a roller fixed to the link. Rotating, and each coating cylinder constitutes an automatic edge coating device of the edge coating liquid supply, A plurality of articles are fixed to the jig, the jig is fixed to the shaft protruding from the moving plate upper part of the conveying member, and the conveying member is moved by the conveyor, and both sides of the product are coated by the first coating cylinder, As the roller moves along the guide groove of the rotation guide plate, the shaft rotates by 90 ° in the horizontal direction by the link, and the jig also rotates, and the moving jig is edge-coated on both sides by the next coating cylinder. The edge coating is uniform and bulk coating is possible.

Recently, the development of the IC industry has widened the popularity of mobile phones and portable tablets, and various specifications and designs have been released. Such portable electronic devices are used while being wrapped around the case to protect them from contamination or external impact It is common.

An example of a method of manufacturing a case of such a portable electronic device is disclosed in Korean Patent Application No. 2011-0040723, which includes a first step of placing a cover on the lower paper; Placing a core material on an upper surface of the cover; A third step of arranging an inlay on the upper surface of the core to form a laminate; The upper jig is lowered and pressurized with respect to the three layers of the lumber, so that ultrasonic waves are applied to melt the surface of the core to penetrate into the cover and the inlay; 5) curing a predetermined shape after curing for a predetermined time after the fourth step; (S6) of finishing the edge of the cut product by pressing it; And a seventh step (S7) of finishing the coating surface of the product by coating the paint on the cutting surface of the product.

In the case where the case of the portable electronic device is constituted by multiple layers of various materials or the material of the case includes a leather or a cloth, as in step 7 (edge finishing) of the above-mentioned patent, Edge coating operation (edge coating operation, creeping operation) is performed on a cross section to prevent separation (peeling) of a case having a plurality of ply, enhancement of aesthetics, and improvement of durability. .

However, in the case of the edge coating of the case of the portable electronic device, the worker uses the tool (jig) to work one by one or to facilitate the work, but since the edge coating operation is mostly dependent on the manual operation, mass production is impossible If the expert does not perform the edge coating operation, the thickness of the edge coating may not be uniform, or defects may occur. As the edge coating operator sucks harmful components of the edge coating (edge coating liquid) There is a problem that continuity is deteriorated and problems such as avoidance of work occur.

Therefore, to solve the above problems, the present invention constitutes a conventional conveyor in which the chain is rotated by a motor, constitutes a conveying body along the chain at regular intervals, and a pair of left and right coatings on the upper portion of the conveyor. Comprising a coating portion constituting a pair of coating cylinder at a certain distance from the cylinder, and comprises a rotary guide plate formed with a guide groove in the lower portion of the middle of the coating portion, the transfer member is a moving plate that is supported by both chains, It consists of a shaft freely rotating by a bearing configured in the center of the moving plate, a link vertically protruding with respect to the axis protruding below the moving plate, and a roller fixed to the link, wherein the coating cylinder of the coating part is freely rotated by the bearing, respectively. Each coating cylinder constitutes an automatic edge coating device having an edge coating liquid supplied thereto, thereby providing a product for edge coating. A plurality of jigs are fixed to the jig, and the jigs are fixed to the shaft protruding from the upper side of the moving plate of the conveying body. As the conveying body is moved by the conveyor, both sides of the product are coated by the first coating cylinder, and the roller of the conveying body is The edge coating is performed by moving the guide groove of the rotation guide plate, the shaft is rotated 90 ° in the horizontal direction by the link, and the jig also rotates, and the moving jig is edge-coated on both sides by the next coating cylinder. This allows for uniform, bulk coating.

Further, the guide groove of the rotation guide plate may be formed as a rectilinear straight groove and a diagonal slit groove in an oblique direction, and a return guide plate may be further provided at a position before entering the chamber, And a guide groove having a symmetrical structure is formed so as to form a linear groove in a straight line direction, a diagonal line groove in a diagonal direction and a linear groove in a straight line direction again, And the rollers of the conveying member are easily reentrant to the rotation guide plate by the return guide plate.

As described above, the present invention constitutes a conventional conveyor in which a chain rotates by a motor, forms a conveying body along the chain at regular intervals, and sets a predetermined distance with a pair of left and right coating cylinders above a middle portion of the conveyor. It consists of a coating part consisting of a pair of coating cylinder, and constitutes a rotation guide plate formed with a guide groove in the lower portion of the middle of the coating portion, the transfer body is a moving plate, both sides are supported by the chain, the moving plate is configured in the center It consists of a shaft freely rotating by the bearing, a link vertically projecting with respect to the axis protruding below the moving plate, and rollers fixed to the link. The coating cylinders of the coating unit are free to rotate by the bearings respectively, and each coating cylinder Furnace constitutes an automatic edge coating device that is supplied with an edge coating liquid to fix a plurality of products for edge coating on a jig, The jig is fixed to the shaft protruding above the moving plate of the conveying body, and the conveying body is moved by the conveyor, and both sides of the product are coated by the first coating cylinder, and the roller of the conveying body is guided along the guide groove of the rotating guide plate. While moving, the shaft rotates 90 ° in the horizontal direction by the link, and the jig also rotates, and the moving jig is edge coated on both sides by the next coating cylinder. It can be effective.

Further, the guide groove of the rotation guide plate may be formed as a rectilinear straight groove and a diagonal slit groove in an oblique direction, and a return guide plate may be further provided at a position before entering the chamber, And a guide groove having a symmetrical structure is formed so as to form a linear groove in a straight line direction, a diagonal line groove in a diagonal direction and a linear groove in a straight line direction again, The rollers of the conveying member can be easily reentrant into the rotation guide plate by the return guide plate.

1 is a plan view of an automatic edge coating apparatus according to the present invention;
2 is a front view of an automatic edge coating apparatus according to the present invention;
3 is a plan view according to an internal structure of an automatic edge coating apparatus according to the present invention;
4 is a front view according to the internal structure of an automatic edge coating apparatus according to the present invention.
5 is a side view according to the internal structure of an automatic edge coating apparatus according to the present invention.
6 is a side view of a coating portion of an automatic edge coating apparatus according to the present invention.
FIG. 7A is a plan view of a conveying member and a jig of an automatic edge coating apparatus according to the present invention, FIG. 7B is a sectional view taken along the line KK '
8 is a side view showing a state in which the jig is installed on the conveying body according to another embodiment of the jig applied to the automatic edge coating apparatus according to the present invention.
9 is a plan view showing the horizontal rotation of the conveying member moving along the return guide plate of the automatic edge coating apparatus according to the present invention.
10 (C) and 10 (D) are plan views showing the horizontal rotation of the conveying member moving along the rotation guide plate of the automatic edge coating apparatus according to the present invention.
11 is a plan view showing a coating portion and a rotation guide plate of an automatic edge coating apparatus according to the present invention.

The present invention relates to an automatic edge coating apparatus, comprising a conventional conveyor in which the chain is rotated by a motor, the conveying body along the chain at regular intervals, a pair of left and right coatings above the middle portion of the conveyor Comprising a coating portion constituting a pair of coating cylinder at a certain distance from the cylinder, and comprises a rotary guide plate formed with a guide groove in the lower portion of the middle of the coating portion, the transfer member is a moving plate that is supported by both chains, It consists of a shaft freely rotating by a bearing configured in the center of the moving plate, a link vertically protruding with respect to the axis protruding below the moving plate, and a roller fixed to the link. Each coating cylinder constitutes an automatic edge coating device having an edge coating liquid supplied thereto, thereby providing a product for edge coating. A plurality of them are fixed thereto, and the jig is fixed to the shaft protruding above the moving plate of the conveying body. As the conveying body is moved by the conveyor, both sides of the product are coated by the first coating cylinder, and the roller of the conveying body is rotated. By moving along the guide groove of the guide plate, the shaft is rotated by 90 ° in the horizontal direction by the link, and the jig is also rotated, and the moving jig is edge coated on both sides by the next coating cylinder. Uniform and bulk coating is possible.

The automatic edge coating apparatus according to the present invention includes a conveyor unit, a coating unit, a conveying unit, and a jig 400. The conveyor unit includes a conveyor and a frame 140, As shown in the drawing, the conveyor has a pair of shafts 120 constituting the sprocket 130 on both sides at a predetermined distance, and the sprockets 130 on both sides of the shaft 120 facing each other are spaced apart from each other by a distance A motor 110 is connected to one shaft 120 and a speed reducer is further connected to the motor 110 as required. The conveyor structure is connected to a conventional conveyor structure And so on.

5 and 10, the chain 100 of the conveyor includes the attachment 101, and the conveying member is fixed to the attachment 101 at predetermined intervals along the chain 100, A coating part is formed above the position, and the coating part and the transferring material will be described later.

As shown in FIGS. 1, 2 and 5, the frame 140 has a constant height, and a wheel 141 and a height adjusting device are disposed at the lower portion thereof to support the conveyor. The coating part formed in the frame 142 includes a separate frame 142a and a chamber 142 covered with a transparent cover 142b. The chamber 142 has a structure penetrating in the direction of the chain 100, The chamber 142 prevents foreign matter from entering and prevents contamination due to leakage of the edge coating liquid.

3 and 4, a return guide plate 160 and a rotation guide plate 170 are respectively installed at an end portion of the conveyor and a middle portion of the chamber 142. The return guide plate 160, And the rotation guide plate 170 are located below the upper chain 100. The upper surface of the return guide plate 160 located at the end of the conveyor The guide groove 161 is formed in a straight line groove 161a having a predetermined distance in the direction of the chain 100 and a linear groove 161a is formed next to the linear groove 161a and a proper angle And a straight groove 161c formed at the end of the slanting line 161b at a predetermined distance in the direction of the chain 100 is formed at the end of the slanting line 161b. The length and the angle of the shaft 161b can be rotated 90 degrees by the roller 340 of the conveying member described later Lock configuration.

A guide groove 171 is formed on the upper surface of the rotation guide plate 170 located inside the chamber 142. The guide groove 171 has a linear groove 171a having a straight line in the direction of the chain 100 And a slanting groove 171b having an appropriate angle with the linear groove 171a is formed after the linear groove 171a and the length and the angle of the slanting groove 171b are set so as to correspond to the length The shaft 320 can be rotated by 90 degrees by the roller 340 and a predetermined distance in the direction of the chain 100 may be further formed at the end of the oblique groove 171b, The guide groove 171 is formed to be slightly larger than the diameter of the roller 340 of the conveying member as shown in Fig. 10 (C), or , The guide groove 171 is extended toward the edge side without affecting the function of guiding the roller 340 as shown in FIG. This is also mubang formed.

1 and 3, the slanted grooves 161b and 171b of the return guide plate 160 and the rotation guide plate 170 are symmetrically symmetrical with respect to each other, The rotation guide plate 160 and the rotation guide plate 170 are formed with a plurality of through holes at the edges and fixed to the lower frame 140 of the upper chain 140 by a fixing member such as a bolt through a through hole, The end portions of the guide grooves 161 and 171 between the rotation guide plate 170 and the rotation guide plate 170 are positioned on the same line along the longitudinal direction and each of the oblique groove 161b and 171b And both the straight grooves 161a and 171a of the return guide plate 160 and the rotation guide plate 170 are located on the same line along the longitudinal direction.

As shown in FIGS. 1 and 5, the seating plate 150 is further provided along the upper side of the chain 100 on both sides. The seating plate 150 defines a groove along one upper edge. The seating plate 150 is formed along both sides of the chain 100 so that the seating grooves 151 are opposed to each other and the seating groove 151 facing the return guide plate 160 and the rotation guide plate 170 And the jig 400 to be described later is seated in the seating groove 151 of the seating plate 150 so that the distance between the facing seating plate 150 and the seating plate 150 Since the jig 400 rotates in the horizontal direction by 90 degrees in the rotation guide plate 170, The groove 151 is formed to have a wide width so as to prevent interference with the rotation of the jig 400.

Next, as shown in FIGS. 6 and 11, the coating portion is configured at an intermediate position of the conveyor, and the coating portion is configured to include a supply chamber 220, a coating cylinder 200, a container 260, The chamber 220 includes therein an edge coating liquid 600 and a tube (not shown) is connected to the supply chamber 220 and the tube is connected to the coating cylinder 200, So that the edge coating liquid 600 flows to the surface of the coating cylinder 200.

For this purpose, a certain amount of edge coating liquid 600 is held in the supply chamber 220. To this end, a separate pipe (pipe, tube, etc.) is connected to the supply chamber 220, It is preferable to continuously supply the coating liquid 600.

The coating cylinder 200 has a cylindrical shape and the upper portion of the coating cylinder 200 includes a housing 211 including a bearing 210. The coating cylinder 200 is configured to rotate freely, 4, a plate-shaped scrubber 201 is further provided adjacent to the coating cylinder 200. The scrubber 201 is disposed at a position slightly away from the circumferential surface of the coating cylinder 200, This scrubber (201) allows the coating liquid (600) to be evenly applied to the coating cylinder (200).

In addition, the coating cylinder 200 may be configured to control rotation by a motor (not shown).

The column 232 and the coating cylinder 200 are connected to each other by a link 230. The column 232 and the link 230 are connected to each other at a predetermined distance from the coating cylinder 200, The link 230 is freely rotated with respect to the pillar 232 while a stopper is provided at the end of the link 230 to limit the rotation range of the link 230. The stopper is fixed Or as shown in Figs. 1 and 11, a support base 240 on which a female screw is formed, and an adjustment screw 241 fitted on a female screw of the support base 240, So that the rotation range can be adjusted.

The push portion includes a support base 250 including a female screw, a push screw 251 assembled to the female screw, a spring (not shown) assembled at the end of the push screw 251, The coating cylinder 200 is further pushed out by pushing the link 230 by the tensile force of the spring 252 so that the coating cylinder 200 is pushed a little further by the spring 252 .

As shown in FIG. 1, these coating portions are arranged in four places above the chain 100 in the chamber 142, facing each other at the inner entrance side of the chamber 142, And a surface of each coating cylinder 200 is formed so as to protrude further toward the center than the path of the edge of the product 500 (case material) fixed to the jig 400 described later 6, a container 260 is formed under each coating cylinder 200 to receive an edge coating liquid 600 flowing down from the coating cylinder 200, A flow plate 261 having an inclination is provided between the coating cylinder 200 and the vessel 260 so as to avoid interference with the chain 100.

Next, as shown in Figs. 3, 4 and 7, the conveying member constitutes a constant interval along the chain 100, and includes a conveying plate 300, a housing 311, a shaft 320, And a roller 340. The transfer plate 300 has a suitable area and both ends of the transfer plate 300 are fixed to the attachment 101 of the chain 100. At the center thereof, A housing 311 including a bearing 310 is assembled.

A shaft 320 is assembled to the bearing 310 of the conveying member so that the shaft 320 protrudes to both sides of the conveying plate 300 and the shaft 320 protrudes from one side L "shaped link 330 is assembled to a shaft 320 protruding to the other side (lower side) of the link 330, The rollers 340 are assembled such that the rollers 340 rotate freely at the ends of the links 330. The rollers 340 rotate in a direction perpendicular to the axis 320 and are parallel to the conveyance plate 300, The roller 340 is rotatably supported by the guide grooves 161 and 171 of the return guide plate 160 and the rotation guide plate 170 described above, ) Roll along the inside.

Thus, the roller 340 of the conveying member rotates freely, and when the link 330 is applied with an external force, the shaft 320 rotates.

The conveying member is fixed at predetermined intervals along the chain 100 and both ends of the conveying plate 300 are fixed to the attachment 101 of the chain 100 to fix the conveying member. When the return member 160 and the rotation guide plate 170 are brought into contact with the conveying member while the conveying member moves along the chain 100 and the roller 340 comes into contact with the guide grooves 161 and 171 So that it can pass along.

7 and 8, the jig 400 is configured such that the lower jig 410 and the upper jig 420 are coupled to each other, and the jig 400 is slightly smaller than the size (area) of the product 500 The lower jig 410 is formed in a plate-like shape and has a fixing protrusion 411 protruding from its bottom surface. On the upper surface of the fixing jig 410, a fixing protrusion 412 protruding upward is formed. And the end face of the fixing groove 411 'is formed in the end face of the shaft 320 having the flat face 321 formed in the fixed body and the shaft 320 having the flat face 321 is formed, The jig 400 is inserted into the fixing groove 411 'so that the jig 400 is prevented from rotating with respect to the shaft 320 (the jig and the shaft rotate together) 412 are formed in consideration of a position and a cross-sectional shape of the hole 501 (hole according to camera position, buttons, etc.) formed in the product 500, and the multiple products 500 are attached to the jig 400 Consider to form a fixing protrusion (412) to the appropriate height.

7, the fixing protrusions 412 of the lower jig 410 may be formed in the same shape as the upper jig 410, The upper jig 420 is formed in a plate shape and the upper surface of the upper jig 420 is formed with a fixing protrusion 421 protruding upward and a lower surface of the fixing protrusion 421 corresponding to the lower side of the fixing protrusion 421 A fixing groove 422 is formed on the bottom surface of the upper jig 420 and the fixing groove 422 of the upper jig 420 is fitted into the fixing protrusion 412 of the lower jig 410 to be engaged with the upper jig 420 The other upper jig 420 is joined by the fixing protrusions 421 and the fixing grooves 422.

8, the fixing protrusions 412 of the lower jig 410 are configured to have a proper height (a height at which a plurality of products and a plurality of upper jigs can be inserted) as shown in FIG. 8 in another embodiment of the jig 400 The upper jig 420 is formed in a plate shape and has a plurality of fixing holes (not shown) penetrating therethrough. The fixing hole of the upper jig 420 is positioned at a position of the fixing protrusion 412 of the lower jig 410 Sectional size.

The jig 400 configured as described above fixes the product 500 as the material of the case. The product 500 has a square shape and a slightly larger area, and the product 500 is perforated The product 500 and the upper jig 420 are repeatedly laminated by inserting the hole 501 of the product 500 into the fixing protrusion 412 of the lower jig 410, The edges of the product 500 are slightly protruded compared to the jig 400 and the upper jig 420 is positioned between the products 500 so that the neighboring product 500 Thereby preventing aggregation with the edge coating liquid 600.

The jig 400 is fitted to the shaft 320 of the conveying member and both lower portions of the lower jig 410 are seated in the seating groove 151 of the seating unit 150.

A plurality of conveying members are fixed to the conveyor along the chain 100 at a predetermined interval, and the product 500 is fixed to the conveying member. And the jig 400 is supplied to the automatic edge coating apparatus.

First, the edge coating liquid 600 is applied to the coating cylinder 200 by supplying the edge coating liquid 600 to the coating cylinder 200. Further, the edge coating liquid 600 is applied to the coating cylinder 200, The edge coating liquid 600 is evenly applied to the circumferential surface of the coating cylinder 200. [

3, the conveying member moves from left to right, and the conveying member moved from the lower portion to the upper portion is positioned such that the direction of the link 330 is in the longitudinal direction of the conveyor, The roller 340 enters the straight groove 161a of the guide groove 161 of the return guide plate 160 and the slanted groove 161b The jig 400 is rotated 90 degrees in the horizontal direction by the rotation of the link 330 so that the link 330 is positioned in a direction perpendicular to the longitudinal direction of the conveyor.

The conveying member moves toward the chamber 142 and the jig 400 containing the product 500 is supplied to the conveying member before the conveying member enters the chamber 142. As shown in Fig. 10, The product 500 enters the chamber 142 and the product 500 of the transfer material meets the coating and the side of the product 500 while pushing the coating cylinder 200 protruding inward is pressed against the edge coating liquid 200 applied to the coating cylinder 200 The coating cylinder 200 is rotated by the product 500 moving in close contact with the coating cylinder 200 even if the coating cylinder 200 does not include the motor 110. In this case, The edge coating liquid 600 of the coating cylinder 200 uniformly applies the side surface of the product 500 and even if the corner portion of the product 500 is rounded due to the tensile force of the spring 252 of the push portion, Edge coating is achieved.

As shown in FIGS. 10 and 11, when the conveying member meets the rotation guide plate 170, the edge coating liquid 600 moves in the chamber 142 with the edge coating liquid 600 coated on both sides of the product 500. However, The roller 340 under the moving plate 300 moves along the guide groove 171. When the roller 340 enters the guide groove 171 and passes through the oblique groove 171b, The jig 400 is rotated in the horizontal direction by 90 degrees so that the direction of the link 330 is positioned in the longitudinal direction of the conveyor and the conveying member moves out of the rotation guide plate 170 to face the next coating cylinder 200 The edge coating liquid 600 is applied to the side surface of the product 500 so that the side surfaces of the product 500 are all edge coated while passing through the chamber 142.

The jig 400 is separated from the shaft 320 and cured at room temperature or put into an oven to cure the edge coating liquid 600 and the jig 400 is removed The conveying member moves downward along the chain 100 and then returns to the original position and again passes through the return guide plate 160 and receives the jig 400 containing the product 500 to perform edge coating do.

As described above, in the automatic edge coating apparatus according to the present invention, while the product 500 installed on the jig 400 moves along the conveyor, the edge coating is made uniform in the coating portion, and the return guide plate 160 and the rotation guide plate 170 to uniformly coat the side surface of the product 400 while moving along the conveyor to uniformly coat the side surface of the product 400 so that the jig 400 including the plurality of products 500, ) Are provided along the conveyor, and the edge coating is continuously performed, so that the productivity is excellent and mass production is possible.

100: chain 101: attachment 110: motor
120: shaft 130: sprocket 140: frame
141: wheel 142: chamber 142a: frame
142b: cover 150: seat plate 151: seat groove
160: return guide plate 161: guide groove 170: rotation guide plate
171: guide groove 200: coating cylinder 220: supply chamber
230: Link 240: Pillar 241: Adjustment screw
250: support 251: push screw 252: spring
260: container 300: transfer plate 320: shaft
330: Link 340: Roller 400: Jig
410: lower jig 411: fixture 411 ': fixing groove
412: fixing protrusion 420: upper jig 421: fixing protrusion

Claims (7)

A common conveyor is rotated by a motor, and a conveying body is formed at regular intervals along the chain, and a pair of coating cylinders are disposed at a predetermined distance from the left and right pairs of coating cylinders above the middle part of the conveyor. Consists of a coating part consisting of, and comprises a rotating guide plate formed with a guide groove in the lower portion of the middle of the coating part,
The conveying member is a moving plate supported by a chain on both sides, an axis freely rotating by a bearing configured at the center of the moving plate, a link projecting perpendicularly to the axis protruding below the moving plate, and a roller fixed to the link. Make up,
The coating cylinders of the coating part are free to rotate by bearings, and each coating cylinder constitutes an automatic edge coating device having a structure in which an edge coating liquid is supplied.
The jig in which the product for edge coating is fixed is installed on the conveying member, and the conveying member is moved by the conveyor, and both sides of the product are coated by the coating cylinder, and the roller of the conveying member is moved along the guide groove of the rotation guide plate. Automatic edge coating device characterized in that the automatic edge coating is made by a structure in which the shaft is rotated 90 degrees in the horizontal direction by the link and the jig is rotated, and both sides are edge coated by the next coating cylinder.
The method of claim 1,
The axis of the conveying member is formed perpendicular to the moving plate, the link is formed of a 'L' structure of the structure protruding vertically downward in the horizontal direction and the horizontal direction of the moving plate, the roller is rotated in the horizontal direction Has a structure,
The guide groove of the rotation guide plate is formed of a straight groove in a straight direction and an oblique groove in an oblique direction,
Before returning to the chamber, the return guide plate is further configured,
The return guide plate forms a guide groove having a symmetrical structure with an oblique groove of the rotation guide plate, and forms a linear groove in a straight direction, an oblique groove in an oblique direction, and a linear groove in a linear direction again, By matching the position of each guide groove between the return guide plates,
An automatic edge coating device, characterized in that the roller of the conveying member facilitates reentry into the rotation guide plate by the return guide plate.
3. The method of claim 2,
Further comprising a scrubber in a position spaced apart from the circumferential surface of the coating cylinder,
The coating cylinder of the coating portion is connected to the link,
The link is free to rotate by a bearing,
The link is configured with a stopper to limit the angle of rotation,
The link is configured with a push portion including a spring, with the tension of the spring, the end of each coating cylinder is located inward of the movement path of the edge of the product,
Automatic edge coating apparatus characterized in that the product is edge-coated while pushing the coating cylinder by the push portion, the quality of the edge coating is uniform.
The method of claim 3, wherein
The stopper includes a support including a female screw and a structure in which an adjustment screw is fitted to the female screw.
The push unit,
It consists of a structure including a support including a female thread, a push screw fitted to the female screw, and a spring fitted to the push screw in contact with the link,
Wherein the adjustment of the length of the adjusting screw limits the angle of the link and the pushing screw adjusts the compression and tension of the spring.
5. The method of claim 4,
The coating part constitutes a supply chamber including an edge coating liquid, and constitutes a tube leading from the chamber to the coating cylinder,
The container is formed at the bottom of each coating cylinder,
Each coating cylinder is configured to rotate by a motor,
Wherein the edge coating liquid is easily supplied, applied and collected.
6. The method according to any one of claims 1 to 5,
A plane is formed on the circumferential surface of the shaft protruding above the moving plate,
Fix the jig to which the product is fixed to the shaft,
The jig consists of a lower jig and an upper jig,
The bottom surface of the lower jig is formed with a fixing groove corresponding to the cross section of the shaft is formed, the upper surface of the lower jig to form a fixing projection,
The upper jig forms a fixing protrusion on an upper surface of a position corresponding to the fixing protrusion of the lower jig, and a fixing groove is formed on the bottom surface thereof.
Further comprising a seating plate formed grooved along the upper edge of one side,
The seating plate is configured along both sides of the chain so that the seating grooves face each other,
Wherein a jig for fixing the product by the lower jig and the upper jig is formed, and the jig is seated on the mounting groove so as to be moved.
6. The method according to any one of claims 1 to 5,
A plane is formed on the circumferential surface of the shaft protruding above the moving plate,
Fix the jig to which the product is fixed to the shaft,
The jig consists of a lower jig and an upper jig,
The bottom surface of the lower jig is formed with a fixing groove corresponding to the cross section of the shaft is formed, the upper surface of the lower jig to form a fixing projection,
The upper jig has a fixing hole penetrated at a position corresponding to the fixing projection of the lower jig,
Further comprising a seating plate formed grooved along the upper edge of one side,
The seating plate is configured along both sides of the chain so that the seating grooves face each other,
Wherein a jig for fixing the product by the lower jig and the upper jig is formed, and the jig is seated on the mounting groove so as to be moved.

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