KR101922844B1 - Apparatus and method for cutting construction plate material - Google Patents

Abstract

One embodiment of the present invention relates to an apparatus and method to cut a plate material for construction, comprising: a base unit having a plurality of concave compartments formed on an upper surface to be horizontally spaced apart from each other and supporting a plate material disposed thereon; a cutting unit disposed on the upper side of the base unit to discharge plasma for cutting the plate material to form a processed plate material; a moving unit disposed on the upper side of the base unit to be coupled to the cutting unit, moving the cutting unit on the upper surface of the base unit in a first direction and a second direction perpendicular to the first direction, and moving the cutting unit to be closed to or be spaced apart from the upper surface of the base unit; and a guide unit connected to the moving unit on one side of the base unit, disposed corresponding to the cutting unit, and sucking air. Accordingly, the cutting unit cuts the plate material while moving on the upper side of the plate material when the plate material is disposed on the upper surface of the base unit, thereby producing the processed plate material.

Description

[0001] APPARATUS AND METHOD FOR CUTTING CONSTRUCTION PLATE MATERIAL [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for cutting a plate material for construction, and more particularly, to an apparatus and a method for cutting a plate material for construction that can easily cut a plate material into a desired size and shape.

Generally, the metal plate is made of a metal material such as steel or aluminum, and is cut by a band saw machine, an oxygen gas cutting method, and a circular saw blade.

The band saw machine is advantageous for cutting a curve, and is difficult to cut a metal plate made of stainless steel or an iron alloy having a high hardness, and is not suitable for cutting a metal plate because the cutting speed is extremely slow.

In addition, the oxygen gas cutting is a method of cutting a metal plate by using an oxidation reaction of oxygen gas and metal. The oxygen gas cutting method is a method of cutting a metal plate by using an oxygen-acetylene gas flame to preheat the cut region to about 800 ° C to 900 ° C, And the metal sheet material is melted and cut at the same time. Such oxygen gas cutting causes the surface of the cut surface to be rough and deteriorates the quality of the metal plate and requires a separate post-treatment process. In addition, a relatively long metal sheet cut by oxygen gas cutting causes warping or distortion, requiring a separate calibration and post-treatment process.

Also, the circular saw blade includes a cutting mechanism having at least one first blade and at least one second blade disposed apart from each other by a distance forming a cut gap, Each of the blade and the second blade has at least one position measuring mechanism for determining a cutting gap so that the cutting gap can be determined and adjusted without error and an optimum cutting gap can be obtained.

However, when cutting a metal plate having a length of 3 m or more, such a circular saw blade can not perfectly control the shaking of the metal plate due to difficulty in maintaining a straight line and cutting the metal plate, A distortion is occurring.

Technical Solution According to the technical idea of the present invention, there is provided an apparatus and method for cutting a plate material for construction, which can easily cut a plate material without shaking, and can produce a processed plate material of various sizes and shapes .

It is another object of the present invention to provide an apparatus and a method for cutting a plate material for construction, which can prevent deterioration of a quality of a processed plate produced by cutting a plate material .

The technical problem to be solved by the apparatus and method for cutting a construction sheet according to the technical idea of the present invention is not limited to the above-mentioned problems, and another problem which is not mentioned can be clearly understood by a person skilled in the art from the following description There will be.

According to an aspect of the present invention, there is provided an apparatus for cutting a plate material for construction, comprising: a base portion having a plurality of compartments formed on an upper surface of the plate portion, the plate portions being parallel and spaced apart from each other; A cutting portion located on the upper side of the base portion and cutting the plate material to eject the plasma to produce a processed plate material; A moving part which is located on the upper side of the base part and is engaged with the cut part and moves the cut part over the upper surface of the base part in the first direction and the second direction orthogonal to the first direction and moves close to the upper surface of the base part or away from the upper surface of the base part part; And an induction portion which is connected to the moving portion at one side of the base portion and corresponds to the cut portion and which has an induction portion for sucking air. In a state where the plate material is positioned on the upper surface of the base portion, To produce a processed sheet material.

The moving unit may include a first moving unit positioned along the second direction at the upper side of the base unit and connected to the base unit, connected to the guide unit, and movable along the first direction; A second moving part located on the first moving part and movable along the second direction; And a third moving part coupled to the second moving part such that the cut part is orthogonal to the upper surface of the base part and moving the cut part closer to the upper surface of the base part or away from the upper surface of the base part.

In addition, the base portion includes a pair of base body portions which are plate-shaped and spaced apart from each other to form an insertion space; A plurality of compartment forming parts inserted into the insertion space by connecting the base body parts to each other and positioned adjacent to each other in parallel to form a plurality of compartments; And a base driving unit which is disposed on an outer surface of the base body and is connected to the compartment forming unit and rotates the compartment forming unit.

Further, the compartment forming portion includes a compartment shaft having a bar shape, both ends of which are connected to the inner surface of the base body portion and inserted into the insertion space; And a plurality of compartment plates positioned along the circumferential direction of the compartment shaft at the outer surface of the compartment shaft, wherein one end of the compartment shaft is connected to the base driving unit, and the base driving unit rotates the compartment shaft, One can be positioned vertically to support the plate, and the other two of the compartment plates can be positioned horizontally.

Further, the compartment plates positioned horizontally in one compartment shaft may be in coplanar contact with the compartment plates positioned horizontally in the other compartment shaft positioned adjacent to each other.

The plate material cutting device further includes a discharge portion connected to one longitudinal end face of the base portion and extending along the first direction from the base portion and gradually tilting downward to guide and move the processed plate material, A discharge plate extending along the first direction from one longitudinal end face of the base portion adjacent to the upper surface of the base portion and tilted downwardly away from the base portion; And a discharge control part provided below the discharge plate and protruding from the upper surface of the discharge plate or inserted into the upper surface of the discharge plate, wherein when the discharge control part protrudes from the upper surface of the discharge plate, And when the discharge control portion is inserted into the upper surface of the discharge plate, the processed plate material can be moved along the discharge plate to be spaced from the base portion.

In addition, a plurality of control holes are formed on the discharge plate, the control holes are spaced apart from each other in the first direction and are spaced apart from each other in the second direction, and the discharge control unit is formed in an elliptical shape, A plurality of control bodies positioned corresponding to the control holes on the lower side of the control body; A body connection portion formed in a bar shape and positioned along a first direction at a lower side of the discharge plate to connect control bodies to each other; A rotation inducing part provided on a lower surface of the discharge plate and connected to the body connecting part to form a rotation axis of the body connecting part; And a rotation driving part connected to one end of the body connection part and rotating the body connection part. When the rotation driving part rotates the body connection part, the control body part is rotated by the body connection part and protruded from the upper surface of the discharge plate through the control hole, Or may be inserted into the upper surface of the discharge plate.

Further, the control body portion can be inserted into the control hole while being spaced apart from the inner surface of the control hole.

Further, the control holes may be formed in the discharge plate so as to be spaced along the first direction so as to correspond to the width of the processed sheet material.

The sheet material cutting apparatus further includes a discharge guide portion that is movable along the first direction on the upper side of the base portion between the discharge portion and the moving portion and is detachably attached to the processed sheet material to guide the processed sheet material from the base portion to the discharge portion Wherein the discharge inducing portion is located along the second direction at an upper side of the base portion between the moving portion and the discharge portion and is capable of moving along the first direction; An inductive coupling part positioned between the induction body part and the upper surface of the base part, the induction coupling part optionally having magnetism; And a coupling driving unit connecting the induction coupling unit to the induction body unit and moving the induction coupling unit in a vertical direction.

The apparatus and method for cutting a plate material for construction according to embodiments of the present invention are as follows.

(1) The sheet material can be easily cut without shaking, and can be produced as a processed sheet material of various sizes and shapes.

(2) the quality of the produced processed sheet can be prevented from deteriorating.

However, the effects that can be achieved by the apparatus and method for cutting a plate material for construction according to an embodiment of the present invention are not limited to those mentioned above, and other effects not mentioned are apparent to those skilled in the art from the following description. It can be understood.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited herein.
FIG. 1 is a perspective view showing a plan plate cutting apparatus for construction according to a first embodiment of the present invention. FIG.
FIG. 2 is a perspective view showing a cutting device for a construction sheet according to a second embodiment of the present invention. FIG.
FIG. 3 is a perspective view showing a planar material cutting apparatus for construction according to a third embodiment of the present invention.
FIG. 4 is a view showing the operation of the discharge portion in the construction-use plate material cutting apparatus according to the third embodiment of the present invention.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the intention is not to limit the invention to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In addition, numerals (e.g., first, second, etc.) used in the description of the present invention are merely an identifier for distinguishing one component from another.

Also, in this specification, when an element is referred to as being "connected" or "connected" with another element, the element may be directly connected or directly connected to the other element, It should be understood that, unless an opposite description is present, it may be connected or connected via another element in the middle.

In addition, an element represented by '~' in the present specification may be a structure in which two or more elements are combined into one element, or one element may be divided into two or more functions according to a finer function. In addition, each of the components to be described below may additionally perform some or all of the functions of the other components in addition to the main functions of the component itself, and some of the main functions And may be performed entirely by components.

Hereinafter, exemplary embodiments of the present invention will be described in detail.

Fig. 1 is a perspective view showing an apparatus 100 for cutting a construction sheet according to a first embodiment of the present invention.

1, a cutting apparatus 100 for cutting a constructional sheet according to a first embodiment of the present invention includes a base 101, a cutting unit 102, a moving unit 103, and an induction unit 104 , And can be used to cut the plate 10 into a desired shape and size. Here, the plate member 10 may be made of metal, and the cut plate member 10 may be formed of the processed plate member 10 '.

A plurality of compartments 101a are formed on the upper surface of the base portion 101, and the compartments 101a may be positioned so as to be parallel to and spaced from each other.

In this embodiment, the compartments 101a are positioned to be spaced along the first direction A and are each formed along the second direction B, which is perpendicular to the first direction A. [ The first direction A corresponds to the longitudinal direction of the base portion 101 and the second direction B corresponds to the width direction of the base portion 101. However, The direction A may correspond to the width direction of the base portion 101 and the second direction B may correspond to the length direction of the base portion 101. [ Further, water may be supplied to each of the compartments 101a.

The plate member 10 may be positioned on the upper surface of the base portion 101. Here, the lower surface of the plate member 10 may be in line contact with the upper surface of the base portion 101 by the compartments 101a.

On both sides of the base portion 101, the first movement guide portion 110 may be positioned along the first direction A. As shown in FIG.

The cut portion 102 is located on the upper side of the base portion 101 and can be used for cutting the plate material 10. [ Here, the cut portion 102 may be positioned perpendicular to the plate 10 positioned on the upper surface of the base portion 101, and may generate plasma to eject the plate 10 toward the plate 10. When the plasma ejected from the cut portion 102 reaches the plate member 10, the plate member 10 can be cut by plasma.

By-products generated when the plate 10 is cut can be collected and collected in the compartment 101a. The byproduct does not remain on the upper surface of the base portion 101 and the upper surface of the base portion 101 may not be separately cleaned after the cutting of the plate 10 is completed.

The moving part 103 is coupled to the first moving guide part 110 while being positioned along the second direction B from above the base part 101. [ The cutting portion 102 is coupled to the moving portion 103 and is moved by the moving portion 103 in the first direction A and the second direction A by the moving portion 103 in a state where the plate material 10 is positioned on the upper surface of the base portion 101. [ Is movable along the direction B and is close to the upper surface of the plate 10 or movable away from the upper surface of the plate 10. [ That is, the moving part 103 can move the cut part 102 over the upper surface of the plate material 10. [

The moving unit 103 may include a first moving unit 131, a second moving unit 133, and a third moving unit 135.

The first moving part 131 is positioned along the second direction B from above the base part 101. Here, both end portions of the first moving part 131 are connected to the first moving guide part 110, respectively. Accordingly, the first moving part 131 can move along the first moving guide part 110 along the first direction A.

The second moving guide part 131a may be formed on the upper surface of the first moving part 131 along the second direction B. As shown in FIG.

The second moving part 133 is positioned on the first moving part 131 and can be coupled to the second moving guide part 131a. Here, the second moving part 133 can move along the second moving guide part 131a along the second direction B.

When the first moving part 131 moves along the first direction A, the second moving part 133 can move along the first direction A together with the first moving part 131. [ Here, the second moving part 133 can move along the first direction A and the second direction B by the first moving part 131. [

The third moving part 135 couples the cut part 102 to the second moving part 133 so as to be perpendicular to the upper surface of the base part 101. Here, the third moving part 135 may move the cut part 102 close to the upper surface of the base part 101 or away from the upper surface of the base part 101. [

When the first moving part 131 moves along the first direction A, the second moving part 133 moves along the first direction A together with the first moving part 131, The moving unit 135 can be moved along the first direction A. When the second moving part 133 moves along the second direction B, the third moving part 135 can move along the second direction B together with the second moving part 133.

The cut portion 102 moves along the first direction A and the second direction B and the cut portion 102 moves in the first direction A and the second direction B, (10). Here, the cut portion 102 can use the entire plate 10 to produce the processed plate 10 'having a desired size and shape.

The guide portion 104 is connected to the moving portion 103 at one side of the base portion 101 and is positioned to correspond to the cut portion 102. [ The guide part 104 may be connected to the first moving part 131 of the moving part 103 and positioned in the first moving guide part 110. The moving part 103 can move the guide part 104 along the first direction A.

In addition, the guide portion 104 sucks in air. On the other hand, when the cutting portion 102 cuts the plate 10, a fume is generated. Here, the induction unit 104 sucks the fumes while sucking the air, and removes the fumes from the upper surface of the plate material 10. Therefore, fumes may not adhere to the upper surface of the plate 10 'as well as the plate 10.

The cutting device 100 for cutting a construction sheet cuts the plate material 10 positioned on the upper surface of the base portion 101 by using a cutting portion 102 which is moved by the moving portion 103. The cutting portion 102 moves along the longitudinal direction and the width direction of the base portion 101 by the moving portion 103 and ejects the plasma to cut the plate material 10 to form the processed plate material 10 ' Can be generated. In addition, the cut surface of the processed sheet material 10 'may be formed to be smooth due to the plasma.

When the plate member 10 is cut, by-products and fumes are generated. Here, the by-product is introduced into the compartment 101a formed on the upper surface of the base portion 101, and the fume is sucked into the guide portion 104 to be removed from the base portion 101 and removed. Degradation of the quality of the processed sheet material 10 'due to by-products and fumes can be prevented.

Particularly, since the byproduct does not remain on the upper surface of the base portion 101, the new plate 10 can be stably positioned on the upper surface of the base portion 101 for cutting, and can be cut without shaking when cut.

FIG. 2 is a perspective view showing a construction-material cutting apparatus 300 according to a second embodiment of the present invention.

2, the apparatus 300 for cutting a construction-use plate according to a second embodiment of the present invention includes a base 301, a cut 302, a moving unit 303, and an induction unit 304 , And can be used to cut the plate 10 into a desired shape and size.

The cutting portion 302, the moving portion 303 and the guiding portion 304 of the present embodiment are substantially the same as the cutting portion 102, the moving portion 103 and the guiding portion 104 of the first embodiment, and a detailed description thereof will be omitted . On the other hand, the base portion 301 of the present embodiment is configured differently from the base portion 101 of the first embodiment. Therefore, the present embodiment will be described mainly with reference to the base unit 301. [

A plurality of compartments 301a are formed on the upper surface of the base portion 301, and the compartments 301a are positioned so as to be parallel to and spaced from each other. In this embodiment, the compartments 301a are positioned to be spaced along the first direction A and are each formed along a second direction B that is perpendicular to the first direction A, respectively. The first direction A corresponds to the longitudinal direction of the base portion 301 and the second direction B corresponds to the width direction of the base portion 301. However, The direction A may correspond to the width direction of the base portion 301 and the second direction B may correspond to the longitudinal direction of the base portion 301. [

The plate member 10 may be positioned on the upper surface of the base portion 301. Here, the lower surface of the plate member 10 may be in line contact with the upper surface of the base portion 301 by the compartments 301a. The first movement guide unit 310 may be disposed on both sides of the base unit 301 along the first direction A. As shown in FIG.

The base portion 301 may include a base body portion 311, a compartment forming portion 313, and a base driving portion 315.

The base body portions 311 are formed as a pair and are each formed in a plate shape. Here, the base body portion 311 may be spaced apart from each other to form an insertion space 311a.

The base body portion 311 may be positioned along the first direction A and the first movement guide portion 310 may be positioned adjacent to the outer surface of the base body portion 311, respectively.

The plurality of compartment forming portions 313 may be formed to be inserted into the insertion spaces 311a to connect the base body portions 311 to each other and form the compartments 301a. The compartment forming portions 313 are positioned parallel to and adjacent to each other along the first direction A, and are positioned along the second direction B, respectively. The upper surface of the compartment forming portion 313 may be flush with the upper surface of the base body portion 311 in a state where the compartment forming portion 313 is inserted into the insertion space 311a. When the plate member 10 is positioned on the upper surface of the base 301, the plate member 10 is supported on the lower surface of the compartment forming portion 313 and supported on the upper surface of the base body portion 311 It can be seen as being located.

In addition, the compartment forming portion 313 may be composed of a compartment shaft 313a and a compartment plate 313b.

The compartment shaft 313a has a bar shape and is inserted into the insertion space 311a and positioned along the second direction B. [ Here, both ends of the compartment shaft 313a are connected to the inner surface of the base body portion 311, respectively.

The plurality of compartment plates 313b are formed in a plate shape. The compartment plates 313b are positioned apart from each other along the circumferential direction of the compartment shaft 313a at the outer surface of the compartment shaft 313a.

When at least one of the compartment plates 313b is positioned in the vertical direction, the other two of the compartment plates 313b may be positioned in the horizontal direction. Further, when the other two compartment plates 313b are positioned in the horizontal direction, the vertically positioned compartment plate 313b is positioned between the horizontally positioned compartment plates 313b. The vertically oriented compartment plate 313b forms the side of the compartment 301a and can be used to support the plate 10 and the horizontally positioned compartment plates 313b can be used to hold the compartment 301a Can be used to form a lower surface.

On the other hand, the compartment plates 313b of this embodiment are shown as being composed of four. Here, the compartment plates 313b may be spaced apart from each other at regular intervals to form a right angle. Two of the compartment plates 313b are positioned in the vertical direction and form side surfaces of the compartment 301a in combination with the inner surface of the base body portion 311 and the remaining two of the compartment plates 313b are positioned in the horizontal direction To form a lower surface of the compartment 301a. Here, the number of the compartment plates 313b is not limited to four, but may be a multiple of four, such as eight, sixteen, and so on.

The compartment plate 313b positioned horizontally in one compartment shaft 313a may be coplanar with and in contact with the compartment plate 313b positioned horizontally in the other compartment shaft 313a positioned adjacent thereto have. Here, a pair of compartment forming portions 313 positioned adjacent to each other may form a compartment 301a with the lower surface of the compartment 301a closed.

The base driving part 315 is located on the outer surface of the base body part 311 and connected to the compartment forming part 313. The base driving section 315 is connected to one end of the compartment shaft 313a, and can rotate the compartment shaft 313a. Here, the compartment shaft 313a is rotated about an axis along the longitudinal direction, and the compartment plate 313b can be rotated around the compartment shaft 313a. As a result, the position of the compartment plate 313b can be changed by the base driving section 315. [

The base driving unit 315 positions at least one of the compartment plates 313b in the vertical direction while placing the other two of the compartment plates 313b in the horizontal direction with the compartment plate 313b positioned in the vertical direction therebetween . Here, the base driving unit 315 can rotate the compartment shaft 313a to select the compartment plate 313b used to support the plate member 10 out of the compartment plate 313b. In addition, the base driving unit 315 may be in the form of a motor.

As described above, the base unit 301 can change the portion supported by the plate member 10 while forming the compartment 301a, that is, the compartment plate 313b positioned in the vertical direction.

Even if the compartment plate 313b is damaged by the cut portion 302 when the cut portion 302 cuts the plate material 10 in a state in which the compartment plate 313b positioned in the vertical direction supports the plate material 10, The base drive section 315 can be used to rotate the compartment shaft 313a and position the other compartment plate 313b in the vertical direction to support the plate material 10. [ Thus, the plate member 10 can be stably positioned on the upper surface of the base portion 301.

By-products generated when the plate 10 is cut can be collected and collected in the compartment 301a. Here, the byproduct may be located on the upper surface of the compartment plate 313b positioned in the horizontal direction. When the compartment shaft 313a is rotated by the base driving unit 315, the compartment plates 313b are rotated to collect the by-products located on the upper surface of the compartment plate 313b into the insertion space 311a and collect them.

The construction sheet material cutting apparatus 300 of the present embodiment can delay the maintenance period due to the damage due to the structure of the base unit 301 as described above.

FIG. 3 is a perspective view showing a constructional sheet material cutting apparatus 500 according to a third embodiment of the present invention. FIG. 4 is a cross-sectional view of a constructional sheet material cutting apparatus 500 according to a third embodiment of the present invention, 505, respectively.

3, the apparatus 500 for cutting a construction-use plate material according to the third embodiment of the present invention includes a base 501, a cutting portion 502, a moving portion 503, an induction portion 504, (505) and a discharge guide (506), and can be used to cut the plate material (10) into a desired shape and size. Here, the longitudinal direction of the processed sheet material 10 'may correspond to the first direction A.

The base portion 501, the cut portion 502, the moving portion 503 and the guide portion 504 of this embodiment are the same as those of the base portions 101 and 301 and the cut portions 102 and 302 of the first and second embodiments, And the guides 103 and 303 and the guide portions 104 and 304 are substantially identical to each other. On the other hand, the discharge portion 505 and the discharge guide portion 506 of this embodiment are not included in the first embodiment and the second embodiment. Accordingly, the present embodiment will be described mainly with respect to the discharge portion 505 and the discharge guide portion 506. [

The discharge portion 505 is connected to one longitudinal surface portion of the base portion 301, adjacent to the upper surface of the base portion 501. In particular, the discharge portion 505 extends from the base portion 501 along the first direction A and can be inclined downward and downward. The processed sheet material 10 'generated through the cutting of the sheet material 10 may be positioned on the discharge portion 505 and moved downward along the discharge portion 505 while being separated from the base portion 501. Here, the discharge portion 505 controls the movement of the processed sheet material 10 'so that the processed sheet material 10' can be stopped on the discharge portion 505 and can be stopped and moved. This allows the processed sheet material 10 'to be collected and stacked apart from the base portion 501 stably along the discharge portion 505 without falling from the base portion 501.

Further, the discharge portion 505 may include a discharge plate 551 and an discharge control portion 553.

The discharge plate 551 is formed in a flat plate shape and extends along the first direction A from one longitudinal side surface of the base portion 501 so as to be adjacent to the upper surface of the base portion 501. Here, the discharge plate 551 may be positioned so as to be gradually tilted downward away from the base portion 501.

The processed plate 10 'is guided and positioned in the discharge plate 551 and can be moved downward along the first direction A while being spaced from the base portion 501.

Further, a plurality of control holes 551a may be formed on the discharge plate 551. Here, the control holes 551a may be spaced apart from each other by a predetermined distance in the first direction A, and may be spaced apart from each other along the second direction B. In particular, the distance between the control holes 551a along the first direction A may correspond to the width of the processed sheet material 10 '.

The discharge control unit 553 is installed on the lower side of the discharge plate 551 and protrudes from the upper surface of the discharge plate 551 through the control hole 551a and is inserted into the upper surface of the discharge plate 551. Particularly, when the discharge control portion 553 protrudes from the upper surface of the discharge plate 551, the processed plate material 10 'placed on the discharge plate 551 can be brought into contact with the discharge control portion 553 and stopped. When the discharge control portion 553 is inserted into the upper surface of the discharge plate 551, the processed plate material 10 'positioned on the discharge plate 551 is moved along the first direction A without contacting the discharge control portion 553 And can be moved away from the base portion 501.

The discharge control unit 553 may include a control body portion 553a, a body connecting portion 553b, a rotation induction portion 553c, and a rotation driving portion 553d.

A plurality of control body portions 553a are provided, each corresponding to the control hole 551a. Here, the control body portion 553a has an elliptical shape, and in particular, has an elliptical arcuate shape and is spaced from the inner surface of the control hole 551a in a state of being inserted into the control hole 551a.

The body connecting portion 553b has a bar shape and is disposed along the first direction A below the discharge plate 551 to connect the control body portions 553a to each other. That is, the body connecting portion 553b can connect the control body portions 553a along the first direction A and keep the control body portions 553a apart from each other.

The rotation inducing portion 553c is installed on the lower surface of the discharge plate 551 and is connected to the body connecting portion 553b. Here, the rotation inducing portion 553c can maintain the body connecting portion 553b positioned below the discharge plate 551 and position the control body portion 553a corresponding to the control hole 551a. In particular, the rotation inducing portion 553c provides the rotation axis of the body connecting portion 553b. That is, the body connecting portion 553b can be rotated around the rotation inducing portion 553c.

The rotation driving part 553d is connected to one end of the body connecting part 553b and can rotate the body connecting part 553b. Here, the rotation driving unit 553d may be in the form of a motor.

When the body connecting portion 553b is rotated by the rotation driving portion 553b, the control body portion 553a is rotated by the body connecting portion 553b. At this time, since the control body portion 553a has an elliptical shape, the control body portion 553a may protrude from the upper surface of the discharge plate 551 through the control hole 551a and may be inserted into the upper surface of the discharge plate 551. [ Here, when the control body portion 553a protrudes through the control hole 551a to the upper surface of the discharge plate 551, the processed plate material 10 'on the discharge plate 551 contacts the control body portion 553a (See Fig. 4 (a)). When the control body portion 553a is protruded and inserted into the upper surface of the discharge plate 551 through the control hole 551a, the processed plate material 10 'on the discharge plate 551 moves in the first direction A (See Fig. 4 (b)).

On the other hand, when the control body portion 553a is inserted into the control hole 551a, the control body portion 553a is separated from the inner side surface of the control hole 551a. Therefore, when the control body portion 553a is rotated, So that it can be smoothly rotated without friction with the discharge plate 551.

The discharge inducing portion 506 is located along the second direction B on the upper side of the base portion 501 between the moving portion 503 and the discharge portion 505 and is movable along the first direction A. Here, the discharge guide portion 506 may be detachably attached to the processed plate member 10 '. The discharge inducing portion 506 is attached to the processing plate 10 'positioned on the upper surface of the base portion 501 and moves along the first direction A to face the discharge portion 505, So that the processed sheet material 10 'can be led to the discharge portion 505 separately. The processed plate 10 'may be guided to the discharge plate 551 of the discharge unit 505 and moved along the discharge unit 505 so as to be spaced apart from the base unit 501.

The discharge guide portion 506 may include an induction body portion 561, an inductive coupling portion 563, and a coupling drive portion 565.

The induction body portion 561 is positioned along the second direction B on the upper side of the base portion 501 between the moving portion 503 and the discharge portion 505. [ Here, both end portions of the guide body portion 561 are connected to the first movement guide portion 510, respectively. The guide body portion 561 can move along the first movement guide portion 510 in the first direction A between the movement portion 503 and the discharge portion 505. [

The inductive coupling portion 563 is positioned between the induction body portion 561 and the upper surface of the base portion 501. Here, the induction coupling portion 563 has a magnetic property selectively. The induction coupling portion 563 includes an electromagnet. When current is supplied to the electromagnet, the inductive coupling portion 563 becomes magnetized and can be attached to the plate member 10 and the processed plate member 10 '. On the other hand, if no current is supplied to the electromagnet, the inductive coupling portion 563 does not have magnetism and can not be attached to the plate member 10 and the processed plate member 10 '.

The coupling drive unit 565 can connect the induction coupling unit 563 to the induction body unit 561 and move the induction coupling unit 563 in the vertical direction. The coupling drive unit 565 may move the inductive coupling unit 563 to contact the upper surface of the base unit 501 or to move away from the upper surface of the base unit 501.

The engageable driving portion 565 moves the inductive coupling portion 563 close to the upper surface of the base portion 501 so that the processed plate member 10 'is positioned on the upper surface of the base portion 501, ). Here, the inductive coupling portion 563 may be magnetically attached to the processed plate member 10 '.

The coupling drive portion 565 moves the inductive coupling portion 563 attached to the processed plate member 10 'so as to be spaced from the upper surface of the base portion 501 and the induction body portion 561 discharges the coupling driving portion 565 The processed plate 10 'can be positioned above the discharge portion 505, particularly the discharge plate 551, by moving along the first direction A so as to be close to the portion 505. Here, the coupling drive unit 565 may move the inductive coupling unit 563 downward to position the processed plate member 10 'on the discharge plate 551. With the processed plate member 10 'positioned on the discharge plate 551, the inductive coupling portion 563 does not have magnetism and can move upward by the coupling drive portion 565. [ At this time, the processed sheet material 10 'may be placed on the discharge plate 551, moved away from the base portion 501, and collected and stacked.

As described above, due to the operation of the discharge inducing part 506, the processed plate 10 'can be automatically guided from the upper surface of the base part 501 to the discharge part 505.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible.

100, 300, 500: Plate cutting equipment for construction
101, 301, 501:
102, 302, 502:
103, 303, 503:
104, 304, 504:
311: Base body part
313:
315:
505:
511: Exhaust plate
513:
506:
561: Induction body part
563: induction coupling part
565:

Claims (10)

In the sheet material cutting apparatus,
A base portion having a plurality of compartments formed on an upper surface thereof and being parallel to and spaced apart from each other, the plate being positioned and supported;
A cutting portion located on the upper side of the base portion and cutting the plate material to eject the plasma to produce a processed plate material;
A moving part which is located on the upper side of the base part and is engaged with the cut part and which moves the cut part over the upper surface of the base part in the first direction and the second direction orthogonal to the first direction and moves close to the upper surface of the base part or away from the upper surface of the base part part; And
And an induction part connected to the moving part at one side of the base part and positioned to correspond to the cut part,
In a state in which the plate member is positioned on the upper surface of the base portion, the cut portion is cut from the upper side of the plate member by the moving portion to generate a processed plate member,
The sheet material cutting apparatus includes:
And a discharge unit connected to one longitudinal end face of the base portion and extending along the first direction from the base portion and inclined downwardly and being guided and moved by the processed plate material,
In the discharge portion,
An exhaust plate which is in the form of a plate and extends along the first direction from one longitudinal end face of the base portion adjacent to the upper face of the base portion and is inclined downwardly as being separated from the base portion; And
And a discharge control unit installed below the discharge plate and protruding from the upper surface of the discharge plate or inserted into the upper surface of the discharge plate,
When the discharge control portion is projected from the upper surface of the discharge plate, the processing plate is stopped by contacting the discharge control portion on the discharge plate,
When the discharge control portion is inserted into the upper surface of the discharge plate, the processed plate is moved along the discharge plate so as to be spaced apart from the base portion,
A plurality of control holes are formed on the discharge plate, the control holes are formed spaced apart from each other along the first direction,
The discharge control unit,
A plurality of control bodies each formed in an elliptic shape and positioned to correspond to the control holes on the lower side of the discharge plate;
A body connection portion formed in a bar shape and positioned along a first direction at a lower side of the discharge plate to connect control bodies to each other;
A rotation inducing part provided on a lower surface of the discharge plate and connected to the body connecting part to form a rotation axis of the body connecting part; And
And a rotation driving part connected to one end of the body connection part and rotating the body connection part,
Wherein the control body portion is rotated by the body connecting portion and protruded from the upper surface of the discharge plate through the control hole or inserted into the upper surface of the discharge plate when the rotation drive portion rotates the body connection portion.
The apparatus according to claim 1,
A first moving part positioned along the second direction on the upper side of the base part and connected to the base part, connected to the guide part and movable along the first direction;
A second moving part located on the first moving part and movable along the second direction; And
And a third moving unit coupled to the second moving unit such that the cutting unit is orthogonal to the upper surface of the base unit and moving the cutter unit closer to the upper surface of the base unit or away from the upper surface of the base unit.
2. The apparatus according to claim 1,
A pair of base body parts which are plate-shaped and spaced apart from each other so as to form an insertion space;
A plurality of compartment forming parts inserted into the insertion space by connecting the base body parts to each other and positioned adjacent to each other in parallel to form a plurality of compartments; And
And a base driving unit which is located on an outer surface of the base body and is connected to the compartment forming unit and rotates the compartment forming unit.
4. The apparatus according to claim 3, wherein the compartment-
A compartment shaft formed in a bar shape, both ends of which are connected to the inner surface of the base body portion and inserted into the insertion space; And
A plurality of compartment plates positioned along the circumferential direction of the compartment shaft at the outer side of the compartment shaft,
One end of the compartment shaft is connected to the base driver,
Wherein the base drive rotates the compartment shaft to position at least one of the compartment plates in a vertical direction to support the sheet material and to position the other two of the compartment plates in a horizontal direction.
5. The method of claim 4,
Wherein the compartment plates positioned horizontally in one compartment shaft are in coplanar contact with the compartment plates positioned horizontally in another compartment shaft positioned adjacent thereto.
delete delete The method according to claim 1,
Wherein the control body is inserted into the control hole in a state of being separated from the inner surface of the control hole.
The method according to claim 1,
Wherein the control holes are formed in the discharge plate so as to be spaced along the first direction so as to correspond to the width of the processed plate material.
The sheet material cutting apparatus according to claim 1,
And a discharge inducing portion that is movable along a first direction at an upper side of the base portion between the discharge portion and the moving portion and is detachably attached to the processed plate material to guide the processed plate material from the base portion to the discharge portion,
The discharge-
A guide body positioned along the second direction at an upper side of the base portion between the moving portion and the discharge portion and capable of moving along the first direction;
An inductive coupling part positioned between the induction body part and the upper surface of the base part, the induction coupling part optionally having magnetism; And
And a coupling drive unit that connects the induction coupling unit to the induction body unit and moves the induction coupling unit in a vertical direction.

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