KR101786002B1 - Box Making Machine - Google Patents

Abstract

A longitudinal direction setting unit for setting a longitudinal position of a box with respect to a support portion supporting an end portion of a bottom surface of a box opposite to a discharge conveyor, A width direction setting unit for setting a width direction position of the box by adjusting a distance between the distance and the pair of discharge conveyors, and a width direction setting unit provided adjacent to the pressing unit, And a control unit for controlling the setting unit, the longitudinal direction setting unit, the width direction setting unit, and the height direction setting unit, respectively.
Therefore, by automatically setting the reference values in the longitudinal direction, the width direction, and the height direction of the box according to the size of the box to be removed, it is possible to shorten the reference point setting time of the box according to the change of the box size for removing, Can be improved.

Description

{Box Making Machine}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a softener box, and more particularly, to a softener box capable of automatically setting a reference point for a length, width, and height of a box,

Generally, a make-up machine is a machine that makes a plate-shaped box (hereinafter referred to as a box plate) into a hexahedron shape in order to make a box for packing various kinds of commodities.

The packaging box is made of various materials such as corrugated cardboard and synthetic resin, and is made by folding a box board material having a predetermined thickness to a hexagonal shape after delivering the box board material according to the application in a developed form. When these operations are manually performed, the operation takes a long time and the operation efficiency is very low.

In order to solve such a problem, there has been developed a demoulding device for folding a box-shaped plate material into a box with an open top by folding it in a hexahedron. An example of such a demolisher is disclosed in Korean Patent Publication No. 2002-0069835.

Such a conventional dispenser has a problem that the box supply device or the transfer device for supplying the box plate material is standardized and only a box of a certain size can be made, which is very inconvenient.

In addition, in order to make boxes of various sizes, after the operator manually sets the reference points for the width, length, and height of the box in the dispenser and then removes the boxes, in order to remove the boxes of different sizes, It takes a long time, and the working efficiency is lowered.

Korean Patent Publication No. 2002-0069835

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to automatically set a reference point for the length, width, and height of a box, The present invention is directed to providing a flexible take-off machine that can be used for a variety of applications.

According to an aspect of the present invention, there is provided a portable terminal comprising: a main frame; a support portion provided on the main frame for supporting both ends of a bottom surface of the box in a longitudinal direction of the box; A pressing unit for pressing the upper end of the box so as to be movable vertically to the main frame, and a pressing unit provided close to the supporting unit and the pressing unit, A cover folding portion and a pair of discharge conveyors for discharging the box removed by the supporting portion to the outside, wherein the longitudinal position of the box with respect to the support portion supporting the end portion facing the discharge conveyor is set at both ends of the bottom surface of the box And a distance between the pair of lid folding portions and a pair of discharge conveyors A width direction setting unit for setting a width direction position of the box by adjusting a distance, a height direction setting unit provided adjacent to the pressing unit to set a moving position in an upward direction of the pressing unit, And a control unit for controlling the setting unit, the width direction setting unit, and the height direction setting unit, respectively.

The longitudinal direction setting unit includes a second motor provided in the main frame and generating power, a second motor provided in the main frame in the longitudinal direction of the box, connected to the second motor and rotated, And a second screw member coupled to the support portion supporting the end portion of the discharge conveyor facing the discharge conveyor.

The width direction setting unit may include a third motor installed in the main frame and generating a rotational force, a third motor provided in the main frame in a direction orthogonal to the discharge conveyor and the lid folding portion, A fourth screw member disposed on the main frame in the same direction as the third screw member and spaced apart from the third screw member, the fourth screw member being connected to the cover folding portion, and a third screw member connected to the discharge conveyor, And a power transmission unit for connecting the screw member to the fourth screw member and transmitting the rotational force of the third motor to the fourth screw member.

The power transmission unit may include a first gear provided in the third screw member, a second gear provided in the fourth screw member, and a power transmitting member connecting the first gear and the second gear .

Preferably, the third screw member and the fourth screw member are formed with threads having different directions on one side and the other side with respect to the center of the third screw member and the fourth screw member.

The height direction setting unit includes a fourth motor installed in the main frame and generating power, a fifth screw member installed in the main frame in the height direction of the box, connected to the fourth motor and rotated, And a blocking member coupled to the fifth screw member and moving up and down, the blocking member blocking the upward movement of the pressing unit at an upper portion of the pressing unit.

According to the present invention, by setting the reference values in the longitudinal direction, the width direction, and the height direction of the box automatically according to the size of the box to be removed, it is possible to shorten the reference point setting time of the box according to the box size change for removing, The efficiency of the operation can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a flexibilizer according to one embodiment of the present invention. FIG.
Fig. 2 is a perspective view showing a supporting portion and a longitudinal direction setting unit in the softening applicator of Fig. 1; Fig.
Fig. 3 is a plan view showing the support portion and the lid folding portion in the softener dispenser of Fig. 1;
Fig. 4 is a perspective view showing a pressurizing unit and a height direction setting unit in the softener dispenser of Fig. 1; Fig.
Fig. 5 is a plan view schematically showing a width direction setting unit and a lengthwise setting unit in the softener container of Fig. 1; Fig.
Fig. 6 is a view showing third and fourth screw members in the width direction setting unit of Fig. 5; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view illustrating a flexible dispenser according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a support unit and a lengthwise setting unit in the softener dispenser of FIG. FIG. 3 is a plan view showing a support portion and a cover folding portion in the softener dispenser of FIG. 1, and FIG. 4 is a perspective view showing a pressurizing unit and a height direction setting unit in the softener dispenser of FIG. Fig. 5 is a plan view schematically showing a width direction setting unit and a lengthwise setting unit in the softener container of Fig. 1, and Fig. 6 is a view showing third and fourth screw members in the width direction setting unit of Fig.

As shown in the drawings, when the box plate material supplied from the box supply device or the box delivery device is formed into a box of a hexahedron, the implement 100 according to the embodiment of the present invention includes a box The supporting unit 120, the lid folding unit 130, the pressurizing unit 140, and the discharge conveyor 150 in order to automatically set reference points for the longitudinal direction, the width direction, and the height direction of the main frame 110, And further includes a longitudinal direction setting unit 160, a width direction setting unit 170, a height direction setting unit 180, and a control unit 200.

That is, the dispenser 100 according to one embodiment of the present invention includes a support portion 120, a cover folding portion 130, a pressing portion 130, and a pressing portion 140. The support portion 120 supports the box 120 in the longitudinal direction of the box, Width direction, and height direction of the box, respectively.

First, the box is provided with a plurality of lids folded at the upper and lower edges of a body of a rectangular-shaped body having a predetermined height, the lower lid is folded to form a bottom surface by folding the lower lid, Respectively.

The box in the box 100 of the present invention includes a first lid portion provided to be folded at both end portions in the longitudinal direction of the box of the lid provided at the upper and lower edges of the box, And the second cover portion is provided on the second cover portion.

The main frame 110 may be provided with a supporting portion 120, a lid folding portion 130, a longitudinal direction setting unit 160, a width direction setting unit 170 and a height direction setting unit 180 in a rectangular frame member And a vertical member vertically coupled to a corner of the frame member.

The supporting part 120 is provided on the main frame 110 and supports the lower end of the first lid that is configured to be folded at both ends in the longitudinal direction of the box so that when the pressing unit 140 presses the upper end of the box, And the first cover in the second housing.

That is, the supporting portions 120 are provided so as to be spaced apart from each other in order to fold the first lids provided at both end portions in the longitudinal direction of the box, in the direction opposite to each other. When the upper portion of the box is pressed by the pressing unit 140 after the box plate is unfolded, the lower end of the first cover is supported at a predetermined angle (for example, 120).

The cover folding portions 130 are formed as a pair and are spaced from each other by a predetermined distance on both sides of the support portion 120, and support the second cover of the box and fold the cover. The cover folding portion 130 is movably connected to the fourth screw member 173 of the width direction setting unit 170, which will be described later, which is coupled to the main frame 110.

The lid folding part 130 is coupled to the rotation unit 131 that is movably coupled to the fourth screw member 173 and generates a rotational force. The lid folding part 130 protrudes in the longitudinal direction of the box, And a pair of support members 1323 provided.

The rotating unit 131 generates rotating force by pneumatic pressure and is constituted by a rotating cylinder for reciprocatingly rotating the pair of supporting members 132 at a predetermined angle.

The pair of support members 132 are spaced apart from each other by a predetermined distance and are coupled to the rotation unit 131 so as to rotate together in the same direction. That is, the pair of support members 132 is rotated by driving the rotation unit 131 after the second lid of the box is fitted therebetween, thereby folding the second lid.

Here, the rotation unit 131 may be directly connected to the fourth screw member 173 or may be connected by a separate bracket.

The pressurizing unit 140 is provided at one corner of the main frame 110 to press the upper end of the box after the box plate is formed into a hexahedron shaped box and includes a pressing member 141, 142), and a first motor (143).

The first motor 143 generates rotational force and is mounted on a vertical member of the main frame 110 to which the upper end of the first screw member 142 is coupled.

The first screw member 142 is rotatably coupled to a vertical member vertically provided at one corner of the main frame 110 and connected to the first motor 143 and rotated. That is, the first screw members 142 are installed vertically in the same manner as the vertical members of the main frame 110.

The pressing member 141 is vertically movably coupled to the first screw member 142 in a screwed manner and presses the upper end of the cover formed at the upper end edge of the box.

The pressing member 141 is movably provided on the first screw member 142 by the driving of the first motor 143. The pressing member 141 is formed in a shape of a letter 'L' do.

The first motor 143 is mounted to the main frame 110 and the drive shaft is connected to the first screw member 142 directly or by gears to generate a rotational force to rotate the first screw member 142.

The discharge conveyor 150 has a pair of first and second lids at the lower end of the box, which are folded to form a bottom when the box is folded out.

That is, when the box is sandwiched between the pair of discharge conveyors 150 so that both sides of the box on which the second cover is formed are closely attached to the discharge conveyor 150, the box is moved during operation of the discharge conveyor 150, Is discharged.

The longitudinal direction setting unit 160 sets the lengthwise position of the box with respect to the box 120 by supporting the box in the longitudinal direction in order to support the box supplied from the box supply device in an optimal state according to its size, And includes a second motor 161 and a second screw member 162.

The second motor 161 generates rotational force and is mounted on a cross member of the main frame 110.

The second screw member 162 is rotatably coupled to the cross member of the main frame 110 and is disposed in the longitudinal direction of the box and is connected to the second motor 161 directly or by separate gears And is rotated by the second motor 161.

The second screw member 162 is screwed to the support portion 120 provided on the side of the discharge conveyor 150 through which the box of the support portion 120 is discharged. That is, when the second screw member 162 is rotated by the second motor 161, the supporting portion 120 is screwed to the second screw member 162 and moved in the longitudinal direction of the box, Thereby supporting the one end of the bottom surface.

The width direction setting unit 170 adjusts the distance between the pair of cover folding portions 130 and the distance between the pair of discharge conveyors 150 in order to remove the box in an optimum condition according to the box size, And includes a third motor 171, a third screw member 172, a fourth screw member 173, and a power transmission unit 174 for setting the width direction position.

The third motor 171 generates rotational force and is mounted on the main frame 110.

The third screw member 172 is rotatably installed in the main frame 110 in a direction orthogonal to the discharge conveyor 150 and the cover folding part 130 and connected to the third motor 171 and rotated.

The fourth screw member 173 is spaced apart from the third screw member 172 and is rotatably installed in the main frame 110 in the same direction as the third screw member 172 and is coupled to the cover folding unit 130 .

The power transmission unit 174 connects the third screw member 172 and the fourth screw member 173 so that the rotational force of the third motor 171 transmitted to the third screw member 172 is transmitted to the fourth screw member 173 173). The power transmitting unit 174 includes a first gear mounted on the third screw member 172, a second gear mounted on the fourth screw member 173, and a power transmitting member 173 connecting the first gear and the second gear, . Here, the first gear and the second gear are constituted by a sprocket having a plurality of gear teeth, and the power transmitting member is constituted by a chain connecting the first gear and the second gear.

The first gear and the second gear may each be constituted by a rotating member, and the power transmitting member may be constituted by a belt surrounding the first gear and the second gear.

Here, the third screw member 172 and the fourth screw member 173 are formed with threads having different directions on both sides with respect to the center portion thereof. In other words, the third screw member 172 and the fourth screw member 173 are formed with the left outer peripheral surface as the left side and the right outer peripheral surface as the right thread side or the one outer peripheral surface as the right thread side And the other outer peripheral surface is formed as a left-hand thread.

Therefore, when the third screw member 172 and the fourth screw member 173 are rotated by the third motor 171 which is a driving unit in the width direction setting unit 170, the third screw member 172 is moved to a predetermined distance A pair of discharge conveyors 150 spaced apart from each other and a pair of lid folds 130 spaced apart from each other by a predetermined distance from the fourth screw member 173 are moved away from each other.

The height direction setting unit 180 is provided on the vertical member of the main frame 110 and is disposed adjacent to the pressing unit 140 to block the upward movement of the pressing unit 140, And includes a fourth motor 181, a fifth screw member 182, and a blocking member 183.

The fourth motor 181 generates rotational force and is mounted on a vertical member of the main frame 110.

The fifth screw member 182 is mounted on a vertical member of the main frame 110 and is arranged vertically in parallel with the vertical member and is configured to be connected directly to the fourth motor 181 or connected by separate gears .

The blocking member 183 is screwed to the fifth screw member 182 so that when the fifth screw member 182 is rotated by driving the fourth motor 181, the blocking member 183 is moved up and down along the fifth screw member 182 And is disposed above the pressing member 141 coupled to the first screw member 142 to block the upward movement of the pressing member 141 to adjust the height of the pressing member 141. [

The control unit 200 is connected to each of the first to fourth motors, and controls the first to fourth motors according to the data set by the operator.

The operation of the supporter according to one embodiment of the present invention will now be described briefly.

First, when the box plate materials of different sizes are supplied to the softener shaker 100, depending on the size of the box, it is necessary to quickly carry out the operation of removing the box and to stably support and discharge the box during operation. Width, and height.

That is, in order to support the lower portion of the box in the longitudinal direction, a bottom end portion (one end portion of the box) of the box located on the opposite side of the discharge conveyor 150 among the pair of support portions 120 for supporting the both end portions of the bottom surface of the box, The other supporting portion 120 is fixed by the longitudinal direction setting unit 160 in the longitudinal direction of the box while the other supporting portion 120 is fixed to the other end portion of the box, (The end facing the discharge conveyor 150).

Therefore, the operator inputs the data value of the box supplied to the softener shaker 100 before the start of the removing operation with the softener shaker 100, and sets the data value in the control unit 200.

That is, when the operator inputs data values for the length, width, and height of the box to the control unit 200, the control unit 200 controls the longitudinal direction setting unit 160, the width direction setting unit 170, 180 to move the supporting part 120 with respect to the longitudinal direction of the box and widen or narrow the gap between the lid folding part 130 and the discharge conveyor 150. When the blocking member 183 is raised The height of the pressing unit 140 is set.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is understandable. Accordingly, the true scope of the present invention should be determined by the following claims.

100: The ship
110: main frame
120: Support
130: lid folding part 131: rotation unit
132: support member
140: pressure unit 141: pressure member
142: first screw member 143: first motor
150: Discharge conveyor
160: longitudinal direction setting unit 161: second motor
162: second screw member
170: width direction setting unit 171: third motor
172: third screw member 173: fourth screw member
174: Power transmission unit 175: Connecting member
180: height direction setting unit 181: fourth motor
182: fifth screw member 183: blocking member

Claims (6)

A main frame and a pair of supporting portions provided on the main frame for supporting both ends of the bottom surface of the box in a longitudinal direction of the box and a pair of folding portions provided on both sides of the supporting portion and folding a cover, A lid folding section, a pressing unit provided movably in the main frame so as to press the upper end of the box, and a box provided by the pressing unit, the lid folding section, and the supporting section, And a pair of discharge conveyors for discharging the waste material to the discharge conveyor,
A longitudinal direction setting unit for setting a longitudinal position of the box with respect to the support portion supporting the end portion of the bottom surface of the box opposite to the discharge conveyor;
A width direction setting unit for setting a width direction position of the box by adjusting a distance between the pair of lid folds and a distance between the pair of discharge conveyors;
A height direction setting unit provided adjacent to the pressing unit to set a moving position in an upward direction of the pressing unit;
And a control unit for controlling the longitudinal direction setting unit, the width direction setting unit, and the height direction setting unit, respectively,
The longitudinal direction setting unit includes a second motor installed in the main frame and generating power; And a second screw member installed in the main frame in the longitudinal direction of the box and connected to the support portion supporting the end of the bottom end of the box facing the discharge conveyor, ,
The width direction setting unit includes: a third motor installed in the main frame for generating a rotational force; A third screw member installed in the main frame in a direction orthogonal to the discharge conveyor and the lid folding portion, connected to the third motor and rotated, and connected to the discharge conveyor; A fourth screw member spaced apart from the third screw member and installed in the main frame in the same direction as the third screw member, the fourth screw member being connected to the cover folding portion; And a power transmission unit for connecting the third screw member to the fourth screw member and transmitting the rotational force of the third motor to the fourth screw member,
The height direction setting unit includes: a fourth motor installed in the main frame and generating power; A fifth screw member installed in the main frame in the height direction of the box and connected to the fourth motor and rotated; And a blocking member coupled to the fifth screw member and moving up and down to block movement of the pressing unit in an upward direction from an upper portion of the pressing unit. delete delete The method according to claim 1,
The power transmitting unit includes:
A first gear provided on the third screw member;
A second gear provided on the fourth screw member;
A power transmitting member for connecting the first gear and the second gear;
Wherein the flexible tank is made of a synthetic resin. The method of claim 4,
The third screw member and the fourth screw member
And one side and the other side are formed as threads having different directions with respect to the center thereof. delete

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