KR20110020656A - Press for multiple processing - Google Patents

Abstract

PURPOSE: A multi-processing press is provided to perform a multi-bending process at a time because a bent forming die forms a bent surface on a steel plate before an upper die does. CONSTITUTION: A multi-processing press comprises a frame part(10), an upper die(20), a bent forming die(30), a first gas spring(40), a second gas spring(50), a lower die(60), a support die(70), and a third gas spring(80). The frame part comprises an upper holder and a lower holder. The upper die has a first mounting groove and is installed to move up and down in the upper holder. The bent forming die has a pressing part and a blade part, and the bent forming die forms a bent surface on a steel sheet when lowered. The first gas spring includes a first cylinder body and a first cylinder rod for pressing the bent forming die downward. The second gas spring includes a second cylinder body and a second cylinder rod for pressing the blade part upward. The lower die has a second mounting groove in the location corresponding to both ends of the steel sheet. The support die is located higher than the lower die when raised. The third gas spring includes a third cylinder body and a third cylinder rod for pressing the support die upward.

Description

Multiple processing press device {Press for multiple processing}

The present invention relates to a multi-processing press apparatus, and more particularly, a bending surface processing mold for forming a bending surface on a steel sheet is installed in the upper mold, and the pressing portion of the bending surface processing mold is formed on the steel sheet before the upper mold. By forming a multi-stage bending process at a time, the work process is shortened, and thus the working time is significantly shortened and the multi-working press apparatus can significantly improve the processing efficiency of the bent surface formed on the steel sheet. will be.

In general, the press apparatus includes an upper mold and a lower mold whose upper surface is formed in the same shape as the lower surface of the upper mold and on which the object is seated. The upper mold is lowered and plastically deformed while pressing the object to bend. , Shearing, section shrinkage, etc.

Here, looking at the type of press working, the cutting process to cut into a predetermined shape with a cutter (cutter), the plucking process to obtain the required shape with a die (punch), the bending process to bend the material into the required shape Or drawing processing to create a seamless container with a bottom, such as a cylinder, a barrel, or the like.

This conventional press device is subjected to the bending process of several stages when the press object to be processed into a complex shape, such as a vehicle body, there is a problem that the work time is also significantly increased as the work process is increased.

In addition, when the bending surface is to be formed on the high tensile steel sheet to be processed, the strength varies depending on the material of the steel sheet, and when the strength of the steel sheet is high, the bending surface may not be processed properly. In this case, the upper mold pressurizes the steel sheet with excessive pressure, causing cracking or breaking of the steel sheet.

The present invention has been made to solve the above problems, the object of the present invention is to install a bending surface processing mold for forming a bending surface on the steel sheet in the upper mold, the pressing portion of the bending surface processing mold before the upper mold By forming the bent surface on the steel sheet, the work process is shortened by performing the bending process of multiple stages at once, thereby reducing the working time significantly and multiplying the processing efficiency of the bent surface formed on the steel sheet. In providing a processing press apparatus.

In addition, when the pressing portion of the bending surface processing mold presses one side of the steel sheet before the upper mold to primarily process the bending surface on the steel sheet, the bending surface of the steel sheet is subjected to secondary processing according to the load value applied to the first gas spring. When the upper mold pressurizes the steel sheet by adjusting the pressure of the first gas spring, by controlling the operation of the first gas spring at a pressure determined according to the material characteristics of the steel sheet, the bending surface of the steel sheet is processed secondly to obtain the It is to provide a multi-processing press apparatus that can bend the steel sheet in two stages according to the characteristics to significantly improve the bending surface processing efficiency of the steel sheet, significantly reducing the failure rate of the steel sheet to be processed.

According to an aspect of the present invention for achieving the above object, in a multi-process press apparatus for processing a steel plate having a bent surface, the frame portion including an upper holder, and a lower holder disposed below the upper holder. And a first installation groove is formed upward from the lower one side, and an upper width of the first installation groove is extended to form a support jaw near the inlet of the first installation groove, and to be movable in the upper holder. It includes an upper mold to be installed, a pressing part which is installed in the first installation groove so as to be movable, and has a lower end exposed to the outside through the first installation groove, and a wing portion extending from the side of the pressing part. When pressing one side of the steel plate bending surface processing mold for processing the bending surface on the steel plate, and the upper end is fixed to the inner surface of the upper mold formed with the installation groove Is a first gas spring including a first cylinder body, a first cylinder rod inserted into and coupled to a lower end of the first cylinder body, and having a lower end connected to the bent surface processing mold to apply downward force to the bent surface processing mold; And a second cylinder body installed at a position corresponding to the wing portion among the upper surfaces of the support jaw, and coupled to the second cylinder body so that the top and bottom portions thereof are connected to the wing portion to exert a force upward. A second gas spring including a second cylinder rod and an upper surface of the lower holder, the steel plate is seated on an upper surface, and an upper surface is formed in a shape corresponding to a shape of a bottom surface of the upper mold and a lower portion of the pressing part; And a lower mold having a second installation groove formed at a position corresponding to both ends of the steel plate seated on the upper surface thereof, and installed up and down in the second installation groove, And a third cylinder body installed between the support mold and the support mold in which the upper upper surface is higher than the lower mold and the lower mold on which the second installation groove is formed, and is coupled up and down to the cylinder body. It is connected to the support mold provides a multi-process press apparatus comprising a third gas spring including a third cylinder rod for applying a force upwardly to the support mold.

In addition, the bent surface processing mold has a lower end portion of the pressing portion protruding from the lower surface of the upper die, and the lower end portion of the protruding pressing portion first processes the bending surface on the steel sheet seated on the lower mold before the upper die. When the upper die die processes the steel sheet, it is preferable to repressurize the steel sheet to secondary process the bent surface of the steel sheet.

In addition, when the bending surface of the steel sheet is primarily processed, the load value applied to the first gas spring is detected, and the secondary pressure of the first gas spring for secondary processing of the steel sheet is based on the detected load value. It is more preferable that the control unit further comprises a control unit for controlling the operation of the first gas spring.

The apparatus may further include a storage unit configured to store a load value applied to the first gas spring in relation to the material information of the steel sheet during the primary processing of the steel sheet, and wherein the control unit primarily processes the bent surface of the steel sheet. Extracting material information corresponding to the load value applied to the first gas spring from the storage unit, and when the first gas spring is secondary processing of the steel sheet, operation of the first gas spring according to the extracted material information Can be controlled.

According to the present invention as described above, by installing a bending surface processing mold for forming a bending surface on the steel sheet in the upper mold, and the pressing portion of the bending surface processing mold to form the bending surface on the steel sheet before the upper mold multi-step bending process By performing the operation at a time, the work process is shortened, and thus the working time is significantly shortened, and thus, there is an effect of remarkably improving the processing efficiency of the bent surface formed on the steel sheet.

In addition, when the pressing portion of the bending surface processing mold presses one side of the steel sheet before the upper mold to process the bending surface first, the bending surface of the steel sheet is subjected to secondary processing according to the load value applied to the first gas spring. When the upper mold pressurizes the steel sheet by adjusting the pressure of the first gas spring, by controlling the operation of the first gas spring at a pressure determined according to the material characteristics of the steel sheet, the bending surface of the steel sheet is processed secondly to obtain the According to the characteristics, the bent surface is processed in two stages of the steel sheet to significantly improve the bending surface processing efficiency of the steel sheet, it is possible to significantly reduce the failure rate of the steel sheet to be processed.

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

1 is a cross-sectional view schematically showing a multi-process press apparatus according to an embodiment of the present invention, Figure 2 is an enlarged view of 'A' shown in FIG.

1 and 2, the multi-process press apparatus 1 according to the embodiment of the present invention includes a frame portion 10, an upper mold 20, a bending surface processing mold 30, and The first gas spring 40, the second gas spring 50, the lower mold 60, the support mold 70, the third gas spring 80 and the controller 90 are configured to be included.

Prior to the description of each configuration, the multi-process press apparatus 1 according to the embodiment of the present invention shown in FIG. 1 is obvious to those skilled in the art so that the features of the present invention can be more clearly shown. Note that one configuration, such as ejectors, cores, lifts, etc., is omitted.

As shown in FIG. 1, the frame part 10 includes an upper holder 11 and a lower holder 12 disposed below the upper holder 11.

Here, the upper holder 11 serves to support the upper mold 20 so that the upper mold 20, which will be described later, can be moved up and down, and the lower holder 12 has an upper mold, which the lower mold 60, described below, descends. As the role of fixing the lower mold 60 so as to support the bottom of the 20, the upper holder 11 and the lower holder 12 is preferably formed of a plate-like plate.

The upper mold 20 is installed vertically on the bottom surface of the upper holder 11 by using a normal cylinder or gas spring (G), and is bent on a steel plate that is a workpiece to be seated on the upper surface of the lower mold 60 to be described later. The first installation groove 21 is formed upward on one lower side corresponding to the position where the surface is to be formed.

In addition, the upper mold 20 has an upper width of the first installation groove 21 formed therein so that the supporting jaw 22 is formed near the entrance in which the first installation groove 21 is formed.

In addition, the upper mold 20 is further formed in the upper side of the inner surface of the upper mold 20, the first installation groove 21 is formed with an insertion groove 23 is inserted into the first gas spring 40 to be described later have.

The upper mold 20 has a bending surface processing mold 30, which will be described later in the installation groove is installed so that the bending surface processing mold 30 is accompanied by the shank at the bottom of the upper holder (11). At the same time lowering pressure serves to process the steel by pressing the steel plate seated on the upper surface of the lower mold 60 to be described later.

Bending surface processing mold 30 is configured to include a pressing portion 31 is inserted into the installation groove of the upper mold 20, and wings 32 extending from both sides of the pressing portion 31, processing It serves to form a bent surface on the steel sheet that is the object.

Pressing portion 31 is protruded downward from the bottom surface of the upper mold 20 through the installation groove, the lower end is formed in a shape corresponding to the shape of the bending surface to be processed when the upper mold 20 is lowered Along with the descending serves to press the steel plate to form a bent surface.

Here, the pressurizing portion 31 primarily processes the bent surface of the steel sheet when the upper mold 20 descends, and the bent surface of the steel sheet is cut while the upper mold 20 processes other portions except the bent surface of the steel sheet. In the machining, the operation of the pressing unit 31 will be described in detail in the operation description of the present invention to be described later.

The wing part 32 is connected to the second gas spring 50 to be described later, and transmits the force of the second gas spring 50 that applies upward force to the pressing part 31 so that the pressing part 31 moves upward. In addition to being moved, it is supported by the second gas spring 50 when the pressing unit 31 is lowered to serve to prevent the pressing unit 31 from being separated from the upper mold 20.

The first gas spring 40 is inserted into the insertion hole of the upper mold 20, the first cylinder rod 42 is coupled to the first cylinder body 41 and the first cylinder body 41 up and down It is configured to include, and the lower end of the first cylinder rod 42 is connected to the upper surface of the pressing portion 31 serves to apply a force downward to the pressing portion 31.

The second gas spring 50 has a second cylinder body 51 which is installed on the upper surface of the base jaw 22 of the upper mold 20 and a second cylinder which is vertically coupled to the second cylinder body 51. It is configured to include a rod 52, the upper end of the second cylinder rod 52 is connected to the wing portion 32 serves to apply a force upward to the wing portion (32).

Here, when the upper mold 20 descends, the force of the first gas spring 40 is controlled to be greater than the force of the second gas spring 50 by the controller 90 to be described later, so that the first gas spring 40 is pressurized. When the force is applied to the portion 31, it is preferable to prevent the pressurization portion 31 from being raised by the force of the second gas spring 50.

The lower mold 60 is fixed to the upper surface of the lower holder 12, and the second installation groove 61 is formed at a position corresponding to both ends of the steel sheet to be processed to be seated on the upper surface.

In addition, the lower mold 60 has a top surface formed in a shape corresponding to the shape of the bottom surface of the upper mold 20 and the lower end of the pressing portion 31 so that the upper mold 20 and the pressing portion 31 are seated on the upper surface. When pressing) serves to support the bottom surface of the upper mold 20 and the lower end of the pressing portion 31 so that the steel sheet is processed by the pressing force of the upper mold 20 and the pressing portion 31.

The supporting mold 70 is installed in the second installation groove 61 of the lower mold 60 so as to be movable, and when raised, the upper surface is positioned higher than the upper surface of the lower mold 60 so that both ends of the initial steel sheet are seated on the upper surface. do.

The supporting mold 70 is lowered together with the upper mold 20 by pressing the upper mold 20 when the upper mold 20 is lowered, and is raised when the processing of the steel sheet is completed. Spaced apart from the mold 60 serves to facilitate the drawing operation of the steel sheet.

The third gas spring 80 is a third cylinder body 81 is installed on the inner surface of the lower mold 60, the second installation groove 61 is formed, and the third cylinder body 81 is coupled to the upper and lower sides It is configured to include a three cylinder rod 82, the upper end of the third cylinder rod 82 is connected to the bottom surface of the support mold 70 serves to apply a force upward to the support mold (70).

The control unit 90 is installed at one side of the lower holder 12, and detects a load value applied to the first gas spring 40 when the pressing unit 31 primarily processes the bent surface of the steel sheet. The secondary pressure of the first gas spring 40 is determined to secondary the bent surface of the steel sheet based on the load value, thereby controlling the operation of the first gas spring 40.

Here, the load value applied to the first gas spring 40 is a pressure applied to the first gas spring 40 by using a conventional pressure sensor (not shown) such as a load cell when the pressurizing portion 31 presses the steel sheet. When the pressure signal according to the pressure value detected by the pressure sensor (not shown) is transmitted to the control unit 90, the control unit 90 to the first gas spring 40 transmitted based on the transmitted pressure signal The difference between the applied pressure value and the pre-stored pressure reference value is detected.

On the other hand, the first processing of the steel sheet may further include a storage unit (not shown) for storing the load value applied to the first gas spring 40 in association with the material information of the steel sheet, wherein the control unit 90 is a steel sheet Extracts material information corresponding to a load value applied to the first gas spring 40 from the storage unit (not shown) during the primary processing of the bent surface of the bent surface, and the first gas spring 40 performs secondary processing of the steel sheet. In this case, the operation of the first gas spring 40 may be controlled by determining the secondary pressure of the first gas spring 40 according to the extracted material information.

Here, the material information stored in the storage unit (not shown) is variable information of the load value applied to the first gas spring 40 according to the material strength of each steel sheet, that is, the higher the strength of the steel sheet, the first gas spring (40) ), The load value is increased, and the lower the strength of the steel sheet, the information that the load value applied to the first gas spring 40 is lowered through experiments, and the variable information of the collected load values is collected in each material. It is obtained by storing as much.

3 to 6 are views showing the operation of the multi-process press apparatus according to an embodiment of the present invention.

The operation of the multi-process press apparatus 1 according to an embodiment of the present invention having such a configuration will be described with reference to FIGS. 3 to 6 as follows.

First, as shown in FIG. 3, when the upper mold 20 and the lower mold are spaced apart from each other, as shown in FIG. 4, when the upper mold 20 starts to descend, the bending surface processing mold 30 is the upper mold ( While lowering together with 20), the lower end of the pressing portion 31 is in contact with one side of the steel sheet (P) to primary processing the bending surface on the steel sheet (P).

Subsequently, when the upper mold 20 continues to descend, as shown in FIG. 5, the upper mold 20 presses the steel plate P seated on the upper surface of the support block, and the support block is accompanied by the descending upper mold 20. The steel sheet P is supported by the upper mold 20 while being lowered while being supported by the upper surface of the lower mold 60.

At this time, as the second cylinder rod 52 is raised, the pressing part 31 is inserted into the first installation groove 21, and in the control unit 90, the pressing part 31 marks the bent surface of the steel sheet P as 1. The load value applied to the first gas spring 40 is detected during the next machining.

Herein, the control unit 90 extracts material information corresponding to the detected load value among the material information stored in the storage unit (not shown), and according to the material information of the extracted steel sheet P, 2 of the first gas spring 40 is extracted. Determine the differential pressure.

When the bottom surface of the upper mold 20 presses the steel sheet P to process the steel sheet P, the controller 90 controls the operation of the first gas spring 40 to control the operation of the first gas spring 40. 31) to secondary the bending surface of the steel sheet (P).

Subsequently, when the processing of the steel sheet (P) is completed, as shown in Figure 6, the upper mold 20 is raised in the state in which the pressing portion 31 is inserted into the first installation groove 21 of the upper mold 20, As the lowered support member rises, the processed steel sheet P is spaced apart from the upper surface of the lower mold 60.

The finished steel sheet (P) is withdrawn from the lower mold 60, the processing process of the steel sheet (P) is completed.

As described above, in the present invention, the pressing unit 31 performs the secondary processing according to the material characteristics of the steel sheet P after the first processing of the bent surface of the steel sheet P, because the material of the steel sheet P By adjusting the pressing force according to the strength, high strength steel plate (P) is to increase the pressing force so that the bent surface formed on the steel sheet (P) can be easily processed to significantly improve the efficiency of bending surface formation, The low strength steel sheet (P) is to prevent the occurrence of cracks or breakage due to excessive pressing force by lowering the processing pressure.

As a result of the secondary processing of the bent surface of the steel sheet P using the bent surface processing mold 30, the crack occurrence rate was significantly reduced from 5% to 2%, and the machining failure rate was also reduced from 8% to 4%. It was confirmed that it was markedly lowered.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications or changes as fall within the scope of the invention.

1 is a cross-sectional view schematically showing a multi-process press apparatus according to an embodiment of the present invention;

FIG. 2 is an enlarged view of 'A' shown in FIG. 1;

3 to 6 show the operation of the multi-process press apparatus according to an embodiment of the present invention.

<Description of main drawing code>

1: multi-process press apparatus 10: frame part

20: upper mold 30: bending surface processing mold

40: first gas spring 50: second gas spring

60: lower mold 70: support mold

80: third gas spring 90: control unit

Claims (4)

In the multi-process press apparatus which processes the steel plate which has a bending surface, A frame part including an upper holder and a lower holder disposed below the upper holder; The first installation groove is formed upward from the lower one side, the upper width of the first installation groove is formed to extend the base jaw is formed near the inlet of the first installation groove, is installed in the upper holder is movable Upper mold; It is installed so as to be movable in the first installation groove and the lower end portion is exposed to the outside through the first installation groove, and the wing portion extending from the side of the pressing portion, when lowering one side of the steel sheet A bending surface processing mold for pressing and processing a bending surface on the steel sheet; The first cylinder body is fixed to the inner surface of the upper mold and the upper end is formed with the installation groove, the lower end portion is coupled to the lower end of the first cylinder body is connected to the bent surface processing mold downward to the bending surface processing mold A first gas spring comprising a first cylinder rod for exerting a force; A second cylinder body installed at a position corresponding to the wing portion of the upper surface of the support jaw, and coupled to the second cylinder body so as to be vertically movable, and having an upper end connected to the wing portion to apply force to the wing portion upward; A second gas spring comprising a two cylinder rod; It is installed on the upper surface of the lower holder, the steel plate is seated on the upper surface, the upper surface is formed in a shape corresponding to the shape of the lower surface of the upper mold and the lower end of the pressing portion, the position corresponding to both ends of the steel plate seated on the upper surface A lower mold having a second installation groove formed therein; A support mold installed vertically in the second installation groove and having an upper surface positioned higher than the lower mold when raised; And A third cylinder body installed between the inner surface of the lower mold and the support mold, and the second mounting groove is coupled to the cylinder body so as to be vertically coupled to the support mold, and upwardly applied to the support mold. And a third gas spring comprising a third cylinder rod to be applied. The method of claim 1, The bending surface processing mold is a lower end portion of the pressing portion protrudes from the lower surface of the upper die, the protruding lower end portion of the bending die on the steel sheet first seated on the lower mold before the upper die die, When the upper die is processing the steel sheet, the multi-process press apparatus characterized in that for repressurizing the steel sheet to secondary processing the bent surface of the steel sheet. The method of claim 2, When primary processing the bent surface of the steel sheet, the load value applied to the first gas spring is detected, and the secondary pressure of the first gas spring for secondary processing of the steel sheet is determined based on the detected load value. And, The multi-process press apparatus further comprising a control unit for controlling the operation of the first gas spring. The method of claim 3, Further comprising a storage unit for storing the load value applied to the first gas spring during the primary processing of the steel sheet in association with the material information of the steel sheet, The control unit extracts material information corresponding to a load value applied to the first gas spring from the storage unit when the bending surface of the steel sheet is primarily processed, and the first gas spring is used to secondaryly process the steel sheet. The multi-process press apparatus, characterized in that for controlling the operation of the first gas spring in accordance with the extracted material information.

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