KR20150053115A - Profile-shaping apparatus and the method thereof - Google Patents

Abstract

The present invention relates to a profile forming device and a forming method thereof. An existing profile forming device used to form profiles by manually and individually supplying basic materials with a short length to the forming device. As a worker supplies the basic materials to the forming device and there is a limited weight which the worker can hold, thereby there is a problem on the formation of the basic materials with a relatively long length. Also, it causes a problem wherein one forming process can manufacture only one part, so the productivity was decreased. The present invention can provide the multiple basic materials with a cutting process while performing one forming process by automatically and successively putting the multiple loaded profile materials to the forming device one by one and supplying the basic materials formed relatively longer in the longitudinal direction. Also, the present invention can provide constant formed products by stably aligning the basic materials mounted on a formed position and can reduce the manual processes of the worker by automatically separating and transferring the formed basic materials; thereby increasing productivity and preventing the injuries of the workers beforehand.

Description

[0001] PROFILE-SHAPING APPARATUS AND THE METHOD [0002]

The present invention relates to a profile forming apparatus and a method of forming the same, and more particularly, to a method and apparatus for automatically feeding a plurality of base materials formed by one punching and cutting process, The present invention relates to a profile forming apparatus and a molding method thereof, in which a formed base material is automatically removed from a molding apparatus to be transferred to a next process, thereby replacing an operator's manual process with an automatic process.

Generally, profiles are widely used for the convenience of work in the field of construction or interior decoration. Profile refers to a standard product made in advance of various troublesome processes required for operations such as cutting, grinding, punching, curving, twisting, and the like of a base material such as steel or aluminum.

The profile is usually set according to the purpose of use. Particularly, it is easy to standardize the structure because the bolt, the wedge and the tie bar can be easily assembled by using the profile assembly, for example, the euro form, by using the bracket Cost can be saved by shortening work time.

For example, a Euroform used in a form is formed of a flat plate and a wall, in which the concrete is laid. The profile base material of the wall is manufactured through various working processes such as carving, twisting, and punching using a molding machine.

A conventional profile produced for the above purpose is disclosed in the applicant's Published Japanese Patent Application No. 10-2009-0090044 (titled profile forming apparatus and method thereof), and the constitution thereof will be described. In a molding apparatus composed of upper and lower molds Wherein the lower mold comprises at least two alignment means for aligning the base material in place and a removal means for removing the molded base material from the molding position.

That is, the base material having a length acceptable to the operator is manually inserted into the forming position, and when the forming operation is completed, the base material is released from the forming position by the operation of the removing means.

However, in the conventional molding apparatus as described above, since the operator supplies the base material to the molding apparatus, since the weight of the worker is limited, the biggest problem is that it is difficult to mold the base material having a relatively long length.

In addition, the above-described problem is a problem in that productivity is lowered due to a problem that one part is manufactured in one molding step, fatigue due to continuous simple labor of the worker is accumulated, arthritis and muscular pain Injuries occur, and such fatigue and injuries have a problem in that it gives workers a cause of safety accidents.

In addition, since the molding operation can not be performed at the time other than the worker's shift and work, the productivity also deteriorates.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior application of the present applicant, and it is an object of the present invention to provide a method of automatically feeding a plurality of profile base materials one by one to a molding machine, A plurality of base materials can be provided in one cutting operation and a cutting step, and the base material placed at the forming position can be arranged in a stable manner without being disturbed to provide a uniform molded product, The present invention provides a profile forming apparatus and a molding method thereof that can significantly reduce the manual work process of a worker to increase productivity and prevent an operator from being injured in advance.

The present invention is configured as follows to achieve the above object. That is, there is provided a profile forming apparatus configured to form carving or twisting, carving and twisting, or punching on a supplied base metal, comprising: a pressurizing band for providing a strong hitting force by being raised and lowered by the operation of a pressurizing cylinder; A feeding means disposed in front of the forming base so as to automatically feed the base material to the forming portion, and a plurality of feeding means arranged at a predetermined interval in the rear of the forming base forming portion, Longitudinal alignment means for aligning the base materials provided on both sides in the longitudinal direction of the forming base so as to align the base material seated on the forming portion and arranged at regular intervals in the rear of the forming portion of the forming base A punching device for perforating the base material to form an assembly hole by the blow of the pressing band, It is arranged at appropriate intervals between the punching machine characterized by including a take-out means which is provided with a base material at the same time as punching by pressing one blow to automatically take out the molded preform from the molding cutter and the cutting unit for the respective units.

The discharge conveyor further includes a discharge conveyor driven by a motor to supply and discharge the base material taken out by the takeout means.

On the other hand, the molding method according to the present invention

A step of automatically feeding a plurality of loaded base materials one by one to a forming unit by a feeding means, aligning the base material supplied to the forming unit by a longitudinal direction adjusting means and fixing the same, A step of punching and cutting molding a punching machine and a cutter by dropping a pressurizing base on a base material to form a plurality of base materials each unit; The method comprising the steps of:

Further, the plurality of the base materials taken out are further transferred to the discharge conveyor and transferred to the next process.

The method further includes the step of pulling the base material supplied to the forming part in the width direction using the width direction transferring means to be seated in the correct position of the forming part.

As described above, according to the present invention, by automatically feeding a plurality of preformed workpieces to a forming unit sequentially by using a feeding means, there is a greatest effect of preventing a reduction in production speed and injury caused by a manual operation of an operator.

In addition, since the base material is supplied automatically, the base material is not limited so that a long base material can be supplied to the molding apparatus and then cut into an appropriate length, thereby providing a large number of base materials at once.

In addition, since the base material having a long length can be molded at a predetermined position using the longitudinal direction adjusting means, the defective rate can be reduced to provide the same molded product.

In addition, there is an effect that the defect rate can be reduced by placing the base material supplied to the supply means in the correct position of the forming portion by using the width direction transfer means.

By automatically configuring the extraction of the molded base material, it is possible to automate the entire production process, and a large number of individual base materials are fed as they are molded using the take-out conveyor, So that the rearrangement of the base material can be relatively easily performed in the next step.

1 is a perspective view showing a molding apparatus according to the present invention;
Fig. 2 is an enlarged perspective view of Fig.
3 is a perspective view showing a feeding means according to the present invention.
Figs. 4A to 4C are side sectional views showing the operating state of Fig. 3
5A and 5B are side sectional views showing the operation states of other supplying means of the present invention;
Fig. 6 is a perspective view showing the width direction conveying means according to the present invention.
Fig. 7 is a side sectional view of Fig. 6
8 is a partial cross-sectional perspective view showing the takeout means according to the present invention.
Figs. 9A and 9B are side sectional views showing the tie state of Fig. 8
10A and 10B are side sectional views showing the operation state of another takeout means of the present invention
Fig. 11A and Fig. 11B are side sectional views showing operation states in a state in which guide rollers are installed in the take-out means of Fig.
12 is a flowchart showing a molding method according to the present invention
13 is a flow chart illustrating another forming method of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, a molding apparatus 1 according to the present invention comprises a presser pedestal 10 and a pressurizing member 10 disposed in a lower portion of the presser pedestal 10 in a longitudinal direction Feeding means 31 and 32 for automatically feeding the formed base 20 and the base material 100 to the forming base so as to prevent the supplied base material 100 from being displaced in the width direction, A punching device 61a for punching and cutting the aligned base material 100 and a take-out device 61b for taking out the molded base material 100 71) < / RTI >

Furthermore, a discharge conveyor 80 for transferring the base material 100 detached by the takeout means 71 (72) to the next process is further included.

As shown in FIGS. 1 and 2, the pressure pedal 10 is elongated in the longitudinal direction, and a pressure cylinder 10a is provided on an upper surface of the pressure pedal 10 so as to move up and down the pressure pedestal 10, The pressing bar 10 strongly hits the upper portion of the punching machine 61a and the cutter 61b by the operation of the presser foot 10a so as to form a hole in the base material 100 and to cut it.

The pressurizing cylinder 10a may be installed in a plurality of proper lengthwise directions so as to exert an even force to be hitting the pressurizing table 10.

2 and 3, the molding base 20 is spaced apart from the pressing pedestal 10 in a downward direction and includes a molding part 20a formed in a groove shape on which a base material 100 to be molded is seated, And a through hole is formed at a corresponding position of the forming portion 20a provided with the punching device 61a and the cutting device 61b so that the punching device 61a and the blades 63a and 63b of the cutting device 61b, The punching device 61a and the cutting device 61b are inserted into the molding position to the rear of the forming part 20a and then are fastened to each other using a fastening means such as a bolt And a rail 20b to be fixed.

The supply means 31 and 32 positioned in front of the molding base 20 are provided to automatically move the plurality of loaded base materials 100 to the forming portion 20a. Here, the forward direction refers to the direction in which the base material 100 is fed and discharged.

These supply means 31 and 32 provide two embodiments.

As shown in FIGS. 3 and 4, the first embodiment of the supplying means 31 includes a supply plate 31 for slidably mounting and stacking a plurality of base materials 100, A plurality of base materials 100 are stacked in a state in which their side surfaces are in contact with each other in the width direction.

In this case, the base plate 100 is not to be arbitrarily slid into the supply plate 31a, and the base plate 100 must be sequentially supplied to the forming unit 20a one by one so as not to interfere with the process. Therefore, a through hole is formed at the front end of the supply plate 31a facing the forming portion 20a, and a first stopper 31c is provided in the through hole so as to ascend and descend by the operation of the first cylinder 31b. And a second stopper 31e which is formed at a position spaced apart from the stopper 31c by a width of the base material 100 and which is moved up and down by the operation of the second cylinder 31d in the through hole, The best first stage parent material 100 to be supplied immediately is interposed between the first stopper 31c and the second stopper 31e and the distal end of the plurality of parent materials 100 stacked on the second stopper 31e is hooked When the first stopper 31c is lowered by the first cylinder 31b, the best first stage parent material 100 is slidably supplied to the forming portion 20a. When the first stopper 31c rises again, the second stopper 31e The plurality of base materials 100 hanging on the second stopper 31e are slid and engaged with the first stopper 31b. At this time, the second stopper 31e rises Spread between the best standing in contact with the base end 100 and then the base material 100 so as to hanging. As the process is repeated, the loaded base material 100 can be automatically supplied to the forming unit 20a sequentially.

As in the first embodiment, the second embodiment of the feeding means 32 is similar to the first embodiment in that a feed plate 32a provided slantingly in a front-rear direction so that a plurality of the base materials 100 stacked thereon are naturally slidable And a supply conveyor 32b provided at a position spaced upward from the supply plate 32a and operated by driving of the motor so as not to interfere with the movement of the base material 100. In the supply conveyor 32a, A plurality of projecting protrusions 32c arranged at intervals of the width of the base material 100 are formed.

The hooking protrusion 32c having such a configuration is supported at one end thereof in contact with the inner side surface of the base material 100 and is provided on the front side wall of the base material 100 located next to the base material located at the best end of the supply plate 32a When the supply conveyor 32b is moved in the sliding direction by the operation of the motor in a state in which the respective locking projections 32c are in contact with each other, the fastening protrusion 32c in which the fastest starting base material 100 is hooked is released, The base material 100 is slid by its own weight and supplied to the forming portion 20a and then the base material 100 positioned next is guided in a state of being hooked on the engaging protrusion 32c to be positioned at the best end of the supply plate 32a And is moved and positioned. This process is repeated while the loaded base material 100 is automatically supplied in a sequential manner.

In addition, the feeding means 31 and 32 of the first and second embodiments may be formed long to support the entire length of the base material 100 formed long in the longitudinal direction, or may prevent overloading of the supporting force , And a plurality of the base material 100 may be supported to support the base material 100 at an appropriate position so as to reduce manufacturing costs. It is preferable that the appropriate positions are controlled at both sides of the supply plates 31a and 32a.

Meanwhile, the width direction feeding means 90 can be installed so as to guide the base material 100 supplied through the feeding means 31 (32) and to be stably and accurately mounted on the forming portion 20a.

6 and 7, the width direction transfer means 90 is provided with a mounting groove 90b formed in the lower portion of the forming portion 20a in the width direction and an upper surface The transfer conveyor 90a which is installed to be exposed is operated by the driving force of the motor so that when the supplied base material 100 drops onto the forming part 20a, the leading edge first comes into contact with the upper surface of the conveying conveyor 90a The transfer conveyor 90a is rotated to the rear of the forming part 20a so that the base material 100 can be pulled into the forming part 20a and can be seated in the correct position.

3 and 4, the aligning member 40 is formed so that the base material 100 automatically supplied by the supply means 31 and 32 is not pushed out in the width direction of the forming portion 20a, And may be formed into a bar shape protruding vertically to the rear of the molding portion 20a.

The longitudinal alignment means 50 is configured to adjust the length direction so that the base material 100 aligned in the width direction for the alignment member 40 can be molded at an accurate position, as shown in FIGS. 1 and 2, A plate body 50a which is provided on both open sides of the forming part 20a and which is moved in the longitudinal direction while being in contact with the base material 100 and fixed at a fixed position, And an aligning cylinder 50b for transmitting a power source for pushing or pulling the plate body 50a to place the base material 100 in position.

The longitudinal direction aligning means 50 moves the base material 100 to a position to be molded and then firmly fixes the base material 100. The longitudinal direction aligning means 50 can control the movement of the base material 100 during molding,

1 to 8, the punching machine 61a is formed with holes for allowing bolts or wedges formed on the base material 100 to be inserted into the holes of the base material 100, The punching machine 61a and the cutting machine 61b are configured to cut and cut a predetermined length of the base material 100. The punching machine 61a and the cutting machine 61b are provided with a blade 63a, and 63b are different from each other in shape, and the other structures are the same.

The lower end of the punching machine 61a or the cutting machine 61b for this purpose is inserted into the rail 20b formed on the rear side of the forming portion 20a of the forming base 20 and moved to a predetermined position, Shaped support 62 which is firmly fixed so that it can not be moved.

The shape of the supporter 62 is formed in the shape of a letter "A" when the base material 100 is inserted using the feed means 31 or 32 or the base material 100 is inserted And is formed so as to be open so as not to cause interference when it is detached forward.

An elevating rod 62a is provided on the bent upper portion of the supporting body 62 so as to be able to move up and down by a return spring 62b and the pressing rod 10 is lowered on the upper surface of the elevating rod 62a, A shock absorber 62c for moving the elevating bar 62a in a downward direction while absorbing the impact is provided on the lower end of the elevating bar 62a and blades 63a and 63b .

The blade 63a and 63b are normally in contact with the upper surface of the bent lower surface of the support body so that the returning force of the return spring 62b is not detached from the support body. The short blades 63a and 63b are formed in ellipses long in the longitudinal direction and the short blades 63a are provided in the punching machine 61a forming the holes and the long blades 63b And is installed in a cutting machine 61b for cutting the base material.

The number of the punching machines 61a for punching the base material 100 is such that seven holes are generally formed in one wall of the base material 100 so that the molding base 20 for molding a single base material 100 to be cut Seven punching devices 61a are arranged in series and seven cutting devices 61a are provided between the punching devices 61a for cutting the other parent material 100 adjacent to the single parent material 100. [ For example, in the figure, it is seen that all the single preforms 100 in which seven holes are formed are formed in five, and that all 35 punching machines 61a are installed and four cutting machines 61b are installed.

One such base material 100 having a long length is punched in the forming part and simultaneously cut into an appropriate length according to the standard and molded into a plurality of base materials 100 and supplied, thereby increasing the productivity.

On the other hand, the takeout means 71 and 72 are configured to automatically remove a large number of molded base materials 100 from the forming portion 20a and take them out. The takeout means 71 and 72 include two Examples are provided.

As shown in FIGS. 8 and 9, the first embodiment of the take-out means 71 has a take-out hole 71a formed in a proper width in a state that the front side of the forming base 20 is opened, The hole 71a is formed to extend to the rear of the forming portion 20a on which the base material 100 is seated and a front roller 71b that rotates by the driving force of the motor is attached to the take- A take-out conveyor 71d is provided so that the upper surface of the rear roller 71c passes through the forming portion 20a and the front roller 71b is in a fixed state in which the front roller 71b is not moved up and down, An elevating cylinder 71e is provided on the rear roller 71c to vertically move the rear roller 71c.

When the forming of the base material 100 is completed, the take-out means 71 configured as described above moves upwardly while the rear roller 71c is rotated about the axis of the front roller 71b by the operation of the elevating cylinder 71e, The base material contacting the upper surface of the take-out conveyor 71d is lifted while being removed from the forming portion 20a. When the base material 100 reaches the position where interference does not occur when the base material 100 moves on the forming base, The base material 100 is moved forward and taken out.

The second embodiment of the take-out means 72 is provided with a slide groove 72a which is opened at the upper portion by communicating with the lower portion of the molding portion 20a of the molding base 20 as shown in FIG. 10, And a take-out member 72e that is seated in the slide groove 72a is formed on the upper surface of the base member 72a so as to be in contact with the load of the presser foot 10 The front side is inclined at an angle corresponding to the guide surface 72b of the slide groove 72a and is axially combined with the take-out member 72c to be moved forward, And a takeout guide plate 72c is provided in front of the molding base 20 for guiding the taken out base material 100 and discharging it to the outside.

When the take-out member 72c is moved forward by the advancing operation of the take-out cylinder 72d, the take-out means 72 is guided by the guide surface and is pulled forward to pull out the base material 100, After the base material 20a is detached, the base material 100 seated on the extraction guide plate 72c is guided to the outside and discharged.

Since the slide groove 72a and the take-out member 72c of the take-out means 72 slide in a state of being in surface contact with each other, a frictional force is generated and the inclination of the guide surface 72b of the slide groove 72a is steep It is difficult to smoothly guide the take-out member 72c to the guide roller 72e in order to reduce the frictional force when rotating along the guide surface 72b as shown in Fig. 11 attached to the take- Can be installed. The installation position of the guide roller 72e is provided at the inclined lower front edge of the take-out member 72c so that the guide roller 72e can be first brought into contact with the guide surface 72b and guided, It is possible to perform a smooth extraction operation by reducing to a minimum.

1, 2 and 8, the discharge conveyor 80 for transferring the base material 100 removed by the take-out means 71 and 72 to the next process is provided with the take-out means 71 The base material 100 is installed at a position in front of the molding base 20 to receive the base material 100 to be transferred through the base material 100. The base material 100 is configured to collectively transfer a plurality of base materials 100 in the longitudinal direction, So that the rearrangement for the next process can be easily performed.

The pressing unit 10, the feeding unit 31, the width direction feeding unit 90, the longitudinal direction adjusting unit 50, the punching unit 61a, the cutter 61ab, The operation of each of the take-out means 71, 72 and the discharge conveyor 80 is collectively controlled through the input data of the unillustrated control portion so as to be operated without mutual interference.

A method of molding the base material 100 using the molding apparatus 1 of the present invention having the above-described structure is as follows.

12, when a plurality of base materials 100 stacked on the supply plates 31a and 32a are lifted or lowered by the lifting or rotating operation of the supply means 31 and 32, The base material 100 supplied in this manner is automatically supplied one by one to the forming portion 20a in order to prevent the forming material 20a from being separated from the forming portion 20a by the aligning member 40 located behind the forming portion 20a, (10), the base material (100) supplied to the forming unit (20a) is aligned at a predetermined position by the adjustment of the longitudinal direction adjusting means (50) A step S20 of aligning and fixing the base material so as to be fixed by the direction adjusting means 50 and a step of aligning and fixing the base material 100 to the punching machine 61a and the cutter 61b (S30) in which a plurality of base materials (100) are formed in a unit by punching and cutting molding, A 100 to and detached from the take-out means (71, 72), the forming section (20a) by using the exhaust to the outside, comprises a step (S40) for taking out the preform from the forming section.

The plurality of base materials 100 having passed through the step S40 of taking out the base material from the forming part may further include a base material discharge step S50 in which the base material 100 is transferred to the discharge conveyor 80 and transferred to the next step .

13, after the step (S10) of automatically feeding the base material to the forming unit by using the supplying unit, the base material 100 supplied to the forming unit 20a is conveyed to the widthwise conveying unit 90, And a step S11 of feeding the base material in the widthwise direction so that the base material is stably pulled in the width direction and stably positioned at the forming portion 20a.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

Molding apparatus: 1 Pressurizing zone: 10
Pressurizing cylinder: 10a Molding base: 20
Molded part: 20a Rail: 20b
Supply means: 31,32 Supply plate: 31a
First cylinder: 31b First stopper: 31c
Second cylinder: 31d Second stopper: 31e
Supply Plate: 32a Supply Conveyor: 32b
Stopper: 32c Alignment member: 40
Length direction adjusting means: 50 plate: 50a
Sorting cylinder: 50b Punching machine: 61a
Cutter: 61b Support: 62
Width: 62a Spring return: 62b
Shock Absorber: 62c Blade: 63a, 63b
Take-out means: 71,72 Take-out hole: 71a
Front roller: 71b Rear roller: 71c
Take-off conveyor: 71d Lift cylinder: 71e
Slide groove: 72a Guide face: 72b
Outlet member: 72c Outlet cylinder: 72d
Guide roller: 72c extraction guide plate: 73
Discharge conveyor: 80 width direction conveying means: 90
Feed conveyor: 90a Installation groove: 90b
Base material: 100

Claims (13)

A profile forming apparatus for forming a curving or twisting, carving and twisting, or punching on a supplied base material,
A pressure pedal 10 that provides a strong striking force by being raised and lowered by the operation of the pressure cylinder 10a;
A molding base 20 located below the pressing pedestal 10 and having a molding part 20a on which the base material 100 is placed;
Feeding means 31 (32) located in front of the forming base (20) to automatically feed the base material (100) to the forming portion (20a);
An alignment member 40 protruding from the molding part 20a to prevent the base material 100 from escaping from the molding part 20a at regular intervals behind the molding part 20a;
Longitudinal alignment means (50) arranged on both sides in the longitudinal direction of the forming base (20) for aligning the base material (100) seated on the forming portion (20a);
A punching device 61a disposed at a predetermined interval behind the forming portion 20a of the forming base 20 and perforating the forming base 20 to form an assembly hole in the base material 100 by hitting the pressing base 10;
A cutter 61b arranged at appropriate intervals between the arranged punching machines 61a to cut the base material 100 into individual units by hitting the presser pedestal 10; And
(71) (72) provided to automatically remove the base material (100) molded in the forming part (20a). The method according to claim 1,
Further comprising a discharge conveyor (80) driven by a motor to supply and discharge the base material (100) taken out by the takeout means (71, 72) to the outside. 2. The apparatus according to claim 1, wherein said feeding means (31)
A feed plate 31a sloped forward of the forming base 20 and adapted to slide a plurality of the base materials 100 into the forming portion 20a;
A first stopper 31c provided at an end of the supply plate 31a facing the forming unit 20a to move up and down by the operation of the first cylinder 31b; And
And a second stopper 31e provided at a position spaced apart from the first stopper 31c by a width of the base material 100 to move up and down by the operation of the second cylinder 31d
When each of the base materials 100 caught by the first stopper 31c and the second stopper 31e is opened by the descent of the first stopper 31c and the leading end base material 100 is slid and released, The base material 100 of the second stopper 31e is engaged and when the first stopper 31c rises, the second stopper 31e is lowered so that the base material 100 of the second stopper 31e is moved to the first stopper 31c ) Of the profile forming apparatus. 2. The apparatus according to claim 1, wherein the feeding means (32)
A supply plate 32a sloped forward of the forming base 20 and adapted to slide a plurality of base materials 100 into the forming portion 20a;
A supply conveyor 32b located above the supply plate 32a where the movement of the base material 100 is not disturbed and operated by the driving force of the motor; And
And a plurality of locking protrusions (32c) protruding from the supply conveyor (32b) at a distance corresponding to the width of the base material (100) and supporting the inner surface of the wall forming the base material (100). The apparatus as claimed in claim 3 or 4, wherein the feeding means (31) (32) further comprise a width direction feeding means (90), wherein the width direction feeding means
An installation groove 90b formed in the lower portion of the forming portion 20a in the width direction; And
The top edge of the base material 100 is exposed on the upper surface of the mounting groove 90b and the front edge of the base material 100 is brought into contact with the upper surface of the base material 90b. And a conveying conveyor (90a) for conveying the profile. 2. The apparatus according to claim 1, wherein said longitudinal alignment means (50)
A plate body 50a which presses the base material 100 supplied to the forming unit 20a so as to align the base material 100 in a correct position; And
And an alignment cylinder (50b) provided on the outer surface of the plate body (50a) and operated to push or pull the plate body (50a) so as to align or fix the base material (100). The cutting apparatus according to claim 1, wherein the punching machine (61a) or the cutting machine (61b)
A support 62 formed in the shape of " a " fixed to the right side by being inserted into the rail 20b after forming the rail 20b behind the forming portion of the forming base 20;
A lifting rod 62a which is vertically movably installed on the bent upper portion of the support 62 by a return spring 62b; And
A shock absorber 62c installed on the upper surface of the elevating rod 62a to absorb the impact impact of the pressing rod 10;
And blades (63a) (63b) for punching or cutting the base material (100) by descending the bottom surface of the elevating bar (62a) by the impact of the presser bar (10). The apparatus according to claim 1, wherein the takeout means (71)
A take-out hole 71a extending to a position out of the rear of the forming part 20a where the base material 100 is seated in a state where the front of the forming base 20 is opened and formed with a proper width;
A take-out conveyor 71d inserted into the take-out hole 71a and provided with front and rear rollers 71b and 71c rotated by the driving force of the motor; And
The front roller 71b of the take-out conveyor 71e is fixed and the rear roller 71c is composed of an elevating cylinder 71e provided on the shaft of the rear roller 71c so as to be vertically movable up and down
When the forming of the base material 100 is completed, the backing roller 71c rises by the operation of the lifting cylinder 71e so that the base material 100 is placed on the take-off conveyor 71d and released from the forming portion 20a Characterized in that the profile forming device comprises: The apparatus according to claim 1, wherein the takeout means (72)
A slide groove 72a formed at the lower portion of the forming portion 20a of the forming base 20 and having a guiding surface 72b inclined downward and forward;
A take-out member 72c that is seated in the slide groove 72a, has a forward shape corresponding to the guide surface, and has an upper surface on which the base material 100 is seated and supported; And
A take-out cylinder 72d provided at the rear of the take-out member 72c and connected to the take-out member 72c forward, backward and rotatably;
And a takeout guide plate (73) installed in front of the forming base (20) and guiding the taken out parent material (100) to the outside
The extraction member 72c is guided by the guide surface 72b at the same time as the extraction member 72c is moved forward by the operation of the extraction cylinder 72d, So as to be removed therefrom. 10. The method of claim 9,
Wherein the take-out member (72c) further comprises a guide roller (72e) for reducing the frictional force generated when the slide groove (72a) rotates along the forward, backward and inclined surfaces. (S10) automatically feeding a plurality of the loaded base materials 100 to the forming unit 20a one by one by the feeding means 31 and 32;
(S20) aligning the base material 100 supplied to the forming unit 20a by aligning the base material 100 in the longitudinal direction by the longitudinal direction adjusting means;
A step S30 in which a plurality of base materials 100 are formed in units of the base material 100 by punching and cutting the base material 100 by hitting the punching machine 61a and the cutter 61b by the lowering of the presser stand 10;
And the step (S40) of taking out the molded base material (100) from the forming portion (20a) by the takeout means (71, 72) after releasing the longitudinal direction adjusting means (50) Way. 12. The method of claim 11,
Further comprising a step (S50) of transferring the plurality of base materials (100) taken out to the discharge conveyor (80) and collectively transferred to the next process. 12. The method of claim 11,
(S11) of pulling the base material (100) supplied to the forming part (20a) in the width direction by using the width direction transfer means (90) so as to be seated and aligned in the correct position of the forming part Wherein the profile forming method comprises the steps of:

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