KR101565536B1 - The equipment of pile for paperboard - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a precision calibrated lamination apparatus for paperboard.
Accordingly, it is a technical object of the present invention to provide a laminating apparatus in a finishing step in which cartons discharged through a conveyor in a process of manufacturing a paperboard including box corrugated paper can be stacked in order while calibrating the four sides of the carton, A plurality of variable arms branched on the basis of the cardboard are formed on the left and right widthwise lines of the face panel so as to form a face panel for blocking the progression of the cardboard in the form of a barrier against the incoming cardboard, So that the four-sided alignment (correction) can be precisely performed with respect to the carton being processed.
The present invention prevents the irregular protruding and separating portions of the laminated cardboard from being originally prevented, thereby eliminating the inconvenience that the operator has to re-arrange the cardboard before the packaging operation after the finishing step, thereby greatly improving the productivity and undermining or deteriorating the outer surface of the cardboard. Thereby improving the quality of the product as a box.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a precision calibration lamination apparatus for a paper sheet,

The present invention relates to a laminating apparatus in a finishing step in which a carton finally discharged through a conveyor during a process of manufacturing a paperboard including a box corrugated cardboard is stacked in order while the four sides of the carton are uniformly calibrated, A plurality of variable arms branched on the basis of the cardboard are formed on the left and right widthwise lines of the face panel so as to form a plurality of variable arms on the cardboard in the stacking direction, So that the four-sided alignment (correction) is precisely performed on the four-sided surface.

The present invention prevents the irregular protruding / detaching portions of the laminated cardboard from being originally blocked, thereby eliminating the inconvenience that the operator has to rearrange the cardboard before the post-packing operation after the finishing step, thereby remarkably improving the productivity, Thereby improving the quality of the product as a box.

In general, corrugated cardboard is processed by putting a corrugated cardboard between one or two sheets of cardboard. It is processed by putting one or two layers of corrugated cardboard, which can be used for various items such as a ramen box, a packaging box, It is widely used as a material for packing boxes which are packed safely.

Such a cardboard such as corrugated cardboard has a pallet on one side of the discharge conveyor for carrying efficiency and convenience during manufacture, and is loaded with multi-stages on the pallet for conveying the forklift and the like.

However, there has been a problem that the paperboard finally discharged from the conventional paperboard manufacturing apparatus has to be piled up by the operator when the paperboard is stacked on the upper surface of the pallet.

In order to solve this problem, a structure in which a partitioned-type partition is formed at a distal end of a conveyor to deposit the discharged paperboard on its own is currently used. However, such a partition is merely formed in the form of a partition to completely prevent forward movement. This is a fact that is inferior.

As a result, conventionally, a waste of manpower has been caused for organizing the cardboard, and the conveying operation of the cardboard has been delayed and the productivity has been reduced. In particular, the laminated state of the cardboard with the rugged protrusions is caught by the workers' This can cause damage to the equipment or damage it.

1. Patent Publication No. 10-2009-0101586 (disclosed on September 29, 2009)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is a technical object of the present invention to provide a method of manufacturing a paper cardboard comprising a box corrugated cardboard, Wherein the front face of the front face of the front face of the front face of the front face of the front face of the front face of the face plate is opposed to the front face of the front face of the front face of the face face, And a plurality of branched arms are formed so as to precisely align the four sides of the laminated paperboard. The object of the present invention is to provide an accurate precision lamination apparatus for a paperboard.

The present invention prevents the irregular protruding / detaching portions of the laminated cardboard from being originally blocked, thereby eliminating the inconvenience that the operator has to rearrange the cardboard before the post-packing operation after the finishing step, thereby remarkably improving the productivity, So that the product quality as a box can be improved.

In order to achieve the above object, the present invention provides a plurality of bed rests 110 having conveying rails 111 so as to be capable of up-down, wherein the conveying rails 111 are provided with conveying And a face panel 130 having a slide groove 131 is formed on one side of the conveyance opening 120 so as to provide stacking of the cardboard 20 discharged through the conveyor 10 A lift (100); The slider 210 is controlled to be electrically driven by a server motor so that the slider 210 is coupled to the slide groove 131 of the face panel, A variable arm 200 for controlling the loading and unloading of the cardboard in a predetermined frame shape while precisely adjusting the width of the cardboard 20 according to the size of the cardboard 20; .

The alignment guide 220 of the variable arm is formed so that the first hinge region 230 is formed on the side adjacent to the slider 210 and can be folded toward the facing panel 130 after the completion of the calibration loading operation.

At this time, the alignment guide 220 of the variable arm is formed so that the vibration generating device 240 is coupled to the linear or planar side so that the micro-vibration can arrange the cardboard quickly.

The second hinge unit 250 is coupled to the first hinge unit 250 by the server cylinder 260 so that the second hinge unit 250 is coupled to the first hinge unit 250. [ And is rotated in one direction or another direction.

In addition, the alignment guide 220 of the variable arm is provided with a rear end alignment cylinder 270 at a free end portion which is branched toward the cardboard, and the auxiliary cylinder 270 is connected to the cylinder rod 271 by a third hinge A closure 290 is coupled to align the rear end of the carton while the earth 280 rotates so that the closure 290 is formed with a long hole 291 corresponding to the third hinge 280, A hinge body 292 is formed at one end of the auxiliary cylinder 270 so as to be coupled with the cylinder rod 271 of the auxiliary cylinder and a roller 293 is formed at the other end of the auxiliary cylinder 270 to move the rear end of the carton 20 So as to be calibrated while being pressurized.

As described above, according to the present invention, since the irregular projecting / detaching portions of the stacked paperboard are originally blocked, the operator is not required to rearrange the paperboard before the packaging operation after the finishing step, and productivity is greatly improved. Thereby preventing breakage and improving the quality of the product as a box.

In other words, the present invention relates to a laminating apparatus in a finishing step in which a carton finally discharged through a conveyor in a process of making a paperboard including a box corrugated cardboard can be stacked in order while the four sides of the carton are uniformly calibrated, A plurality of variable arms branched on the basis of the cardboard are formed on the left and right widthwise lines of the face panel so as to form a face panel for blocking the progression of the cardboard in the form of a barrier against the incoming cardboard, There is an effect that the four-sided alignment (correction) can be precisely performed with respect to the cardboard in use.

1 is a view showing a use example of a laminating apparatus according to the present invention,
FIG. 2 is a plan view of FIG. 1,
FIG. 3 is an exemplary use state diagram of FIG. 2,
4 is an enlarged view of a closure according to the present invention,
FIG. 5 is an exemplary view showing a deployed or folded state of a variable arm according to the present invention,
FIG. 6 is a cross-sectional view of a conventional cardboard for stacking and a cardboard for stacking according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

1 to 5, the present invention is largely composed of a lift 100 and a variable arm 200.

The lift 100 is formed to have a plurality of support posts 110 having conveying rails 111 so as to be capable of up-down.

At this time, the feed rail 111 is formed with a feed port 120 for controlling the up and down movement by the electric motor.

At this time, a facing panel 130 having a slide groove 131 is formed on one side of the conveying port 120 to provide a stacking of the cardboard 20 discharged through the conveyor 10.

That is, the facing panel is formed to automatically control the stacking height of the transporting platform along the conveying rail of the rack in accordance with the number or height of the stacked discharge cartridges entering through the conveyor.

At this time, the stack height is stopped at a set position when the feeder is transported upward by a height set by a separate sensor, and then when the pallet is stacked, when the next pallet is prepared, the feed port is lowered again, And prepare for upward lifting. At this time, the facing panel combined with the conveying port is interlocked as described above.

The variable arm 200 is formed to have a width adjusting slider 210 so as to be coupled to the slide groove 131 of the face panel.

In this case, the slider 210 is controlled to be electrically driven by the server motor, and the alignment guide 220 branched from the slider 210 toward the discharged paperboard 20 has a left and right width depending on the size of the paperboard 20 Is formed to precisely control the loading and calibrating of the carton in the form of a regular frame.

At this time, the alignment guide is a kind of enclosed square block, which is shaped like a flat panel.

At this time, the alignment guide 220 of the variable arm is formed so that the first hinge region 230 is formed on the side end adjacent to the slider 210 and can be folded toward the facing panel 130 after the completion of the calibration loading operation. 5)

Accordingly, the variable-arm alignment guide 220 is formed so that the vibration generator 240 is coupled to one side of the linear or planar surface so that microvibration can rapidly arrange the deformation of the cardboard.

At this time, the vibration generating device is an auxiliary device in which fine vibration is generated by an ultrasonic wave or a vibrator, and vibration is generated in the heat guide inspecting the cardboard, so that the cardboard in the lamination is formed to be uniformly aligned by vibration.

At this time, a separate soft silicone resin is coupled to one side of the alignment guide (the side facing the paperboard) to protect the paperboard of the paper material even in the event of an external shock due to vibration.

At this time, it is also preferable that one or more vibration generating devices are formed and arranged on the longitudinal direction line, so that the vibration generating devices can be formed uniformly.

As shown in FIG. 3, the alignment guide 220 of the variable arm is configured such that a second hinge region 250 having a multi-joint shape is further coupled to one side of the longitudinal direction line, 260 in the form of a link with the first hinge region so as to be rotated in one direction or another direction.

This is for the purpose of providing a smooth inflow path even in the case of a small conveying deviation of the paperboard moving toward the facing panel 130 and the pallet 30 (see FIG. 3).

That is, when the same size paperboard is introduced through the conveyor, if the alignment guide is correctly sized with respect to the paperboard, that is, when the guide is fitted with the opening, it may interfere with the inflow of a small deviation of the board, In order to prevent leakage, the server cylinder and the second hinge hole are formed so that a part of the alignment guide (free end side) of the multi-joint type is unfolded in the width direction so as to smoothly perform the inflow while achieving accurate calibration.

Of course, the server cylinder is formed so that a separate control unit is arranged to relax the cylinder rod to face the outer peripheral surface of the cardboard when the facing panel reaches the upward set value.

4, an auxiliary cylinder 270 for rear-end alignment is provided at a free end of the variable-arm alignment guide 220 branched toward the cardboard, The closure 290 is coupled to the third hinge region 280 so as to align the rear end of the carton while the third hinge region 280 rotates and the closure 290 is coupled to the third hinge region 280 The hinge body 292 is formed at one end of the auxiliary cylinder 270 so as to be coupled with the cylinder rod 271 of the auxiliary cylinder and the other end is formed with a roller 293, And the rear end of the cardboard 20 is pressed and calibrated.

At this time, at the time of contraction operation of the auxiliary cylinder, the cylinder rod is pulled so that the closure moves along the transfer hole of the long hole with respect to the third hinge region so as to be transferred from the plurality of variable arms to the outer side do.

When the variable arm according to the left and right width adjustment is approached toward the cardboard, the cardboard is loaded according to the set number or height, and then the rear end of the cardboard So that the irregular lamination state can be corrected.

At this time, it is preferable that the roller of the closure is made of a urethane, Teflon or ceramic material having a high coefficient of friction so as not to be damaged on the cardboard. If necessary, the small motor is coupled to one side, So that the rearrangement is performed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... Conveyor 20 ... Carton
30 ... Palette
100 ... Lift 110 ... Stand
111 ... Feed rail 120 ... Feed
130 ... facing panel 131 ... slide groove
200 ... variable arm 210 ... slider
220 ... alignment guide 230 ... first hinge region
240 ... Vibration generator 250 ... 2nd hinge region
260 ... server cylinder 270 ... auxiliary cylinder
271 ... cylinder rod 280 ... third hinge region
290 ... Closure 291 ... Feeder
292 ... hinge body 293 ... roller

Claims (3)

The feed rail 111 is provided with a plurality of support bars 110 having a feed rail 111 so that the feed rail 111 can be moved up and down, A lift 100 on which a face panel 130 having a slide groove 131 is formed at one side of the conveying port 120 so as to provide stacking of the cardboard 20 discharged through the conveyor 10; The slider 210 is controlled to be electrically driven by a server motor so that the slider 210 is coupled to the slide groove 131 of the face panel, A variable arm 200 for controlling the loading and unloading of the cardboard in a predetermined frame shape while precisely adjusting the width of the cardboard 20 according to the size of the cardboard 20; In the laminating apparatus constituted as described above,
Wherein the alignment guide (220) of the variable arm has a first hinge region (230) formed at a side end adjacent to the slider (210) so that it can be folded toward the face panel (130) after completion of the calibration loading operation. Precision calibration lamination device for paper. delete 2. The apparatus according to claim 1, wherein the alignment guide (220) of the variable arm is coupled to a vibration generating device (240) on one side of a line or a plane so as to allow microvibration to quickly arrange the movement of the cardboard Accurate calibration laminating equipment for board.

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