KR20190026156A - Device for press forming - Google Patents

Abstract

The present invention relates to a press forming apparatus and, more specifically, to a press forming apparatus capable of absorbing shock applied to a lower mold by descending of an upper mold and maintaining horizontality of a molding unit even at an ununiform pressure of a gas spring. According to the present invention, a shock applied to a second molding unit and a plate unit is absorbed by a shock absorption means, thereby providing an advantage of lowering a forming defect ratio, such as rupture, bending, and the like, dropping the quality of a product. In particular, main and sub plates are rotatably supported and buffered with each other by a rotating gas spring, thereby providing an advantage of increasing shock absorption efficiency. Moreover, even if supporting force to support the plate unit by a plurality of gas springs through a horizontal maintaining unit is not even, a horizontal state of the second molding part is able to be maintained, thereby providing an advantage of improving productivity. According to the present invention, the press forming apparatus comprises a movable mold unit and a fixed mold unit.

Description

Device for press forming < RTI ID = 0.0 >

The present invention relates to a press forming apparatus, and more particularly to a press forming apparatus capable of buffering an impact applied to a lower mold by lowering an upper mold and maintaining the horizontal position of the forming unit even under uneven pressure of a gas spring.

Generally, a press machine places a workpiece between an upper mold and a lower mold, and presses the workpiece to form a predetermined shape. Such a press molding can produce a workpiece of the same shape in a large quantity.

In the process of processing a molding object using such a press machine, an upper mold is firstly installed on the slider of the press machine, and a lower mold is fixed to the table of the press machine. When the upper and lower molds are installed on the press machine, an object to be processed is positioned between the upper and lower molds, and then the upper mold is lowered to be coupled with the lower mold so as to press the object, The molding object is formed into a predetermined shape.

In such a press machine, a plurality of gas springs for a mold are provided to mitigate the impact on the lower mold when the upper mold is lowered. In a press mold requiring a small change in elastic force compared with a displacement, the gas spring for a mold has an important influence on the quality and yield of the mold product. Since the gas springs for molds must be capable of absorbing high loads (due to the upper mold) compared to general industrial gas springs, the pressure of the filled gas must always be maintained at a high pressure of about 150 bar, There is a demand for a structural design in which gas leakage should not occur.

In the gas spring, when the upper mold and the lower mold are combined, the inert gas is compressed as the pressure is applied to the rod, so that the rod is lowered. When the molding is completed, The load is restored.

However, when the initial pressure in the gas spring is not maintained due to the repetitive pressing force of the upper mold, or when the mold suddenly rises or falls due to the gas spring, the mold is damaged by the trouble due to the molding, There is a problem that does not support.

Korean Patent Laid-Open Publication No. 10-2017-0080965:

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for assisting an impact applied to a plurality of gas springs provided on a lower mold when the upper mold is lowered, And it is an object of the present invention to provide a press forming apparatus capable of maintaining a horizontal forming portion of a lower mold.

According to an aspect of the present invention, there is provided a press forming apparatus comprising: a movable mold unit that moves up and down to press a forming object; And a stationary mold portion provided at a lower portion of the movable mold portion and supporting a molding object when the movable mold portion is lowered and having a second molding portion formed with a first molding portion formed in the moving mold portion to form the molding object Wherein the stationary mold portion includes a plate unit for supporting the second molding portion, a plurality of gas springs for supporting the plate unit, and a base portion to which the gas spring is fixed, An auxiliary plate which is accommodated in a receiving groove upwardly drawn in a lower portion of the main plate and is supported by the plurality of gas springs, and an auxiliary plate provided between the main plate and the auxiliary plate, And a shock buffering means for buffering an impact applied to the main plate by the shock absorber Case the buffer means is characterized in that it is installed on the side edge of the upper surface of the receiving groove of the main plate with a plurality of secondary gas spring can expand and contract in the direction of the sub-plate so as to support an edge of the auxiliary plate.

Wherein the impact buffering means is configured such that when the shock due to the downward movement of the movable mold portion or the shock due to the restoration of the gas spring is eccentrically transmitted, the main plate and the auxiliary plate are rotated relative to each other, And a rotation gas spring installed on a center side of the plate and rotated about the main plate to support the main plate, wherein a rod end of the rotation gas spring is rotatable in the direction of the main plate And the main plate is drawn upward so as to support the rotation of the end of the rod of the rotating gas spring at the center side of the receiving groove corresponding to the rotating gas spring, Formed with pivotal support grooves formed in a curved surface .

When the auxiliary plate is inclined while being pivoted relative to the main plate by the support of the gas spring having a different internal pressure due to repetitive pressing force of the movable mold portion of the present invention, Wherein the horizontal holding unit includes a tilt sensor for detecting tilting of the auxiliary plate, a gas storage tank for supplying gas to the auxiliary gas spring, and a gas storage tank for storing gas in the gas storage tank, A plurality of gas supply pipes extending respectively to the main plate and the main plate to supply gas for controlling the elongation and expansion to the auxiliary gas springs through a plurality of channels respectively communicated with the auxiliary gas springs, Closing valve for opening and closing the gas supply pipe, The auxiliary gas spring on the inclined side receiving the signal of the crying sensor is extended to maintain the horizontal state of the main plate to control the supply of gas to the auxiliary gas spring on the inclined side so as to support the main plate And a control unit.

In the press-forming apparatus of the present invention, shocks applied to the second forming unit and the plate unit can be buffered by the shock absorbing means, thereby reducing the defective molding rate which deteriorates the quality of products such as breakage and bending. The main plate and the auxiliary plate are supported and buffered so as to be rotated with respect to each other, so that the shock buffering efficiency can be increased.

In addition, the press forming apparatus of the present invention is advantageous in that productivity can be improved because the second forming unit can maintain the horizontal state even if the supporting force for supporting the plate unit by the plurality of gas springs is not uniform through the horizontal holding unit.

1 is a side view of a press forming apparatus according to an embodiment of the present invention,
2 is an enlarged partial side view of a state in which the upper mold and the lower mold of FIG. 1 are combined,
3 is a partial side view of a press forming apparatus according to another embodiment of the present invention.

Hereinafter, a press forming apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 2 show a press forming apparatus according to an embodiment of the present invention.

The press forming apparatus 1 according to the present invention comprises a movable mold section 10 which is moved up and down to press a molding object 5 and a movable mold section 10 which is located below the movable mold section 10, A stationary mold portion 50 in which a second molding portion 55 for molding the object 5 is formed by molding with the first molding portion 15 which supports the molding object 5 and which is formed on the moving mold portion 10, Respectively.

1, the first forming part 15 is drawn upward from the bottom surface of the moving mold part 10, and the second forming part 55 is formed so as to be formed in the first forming part 15 The first and second molding portions may be protruded from the plate unit 60 of the stationary mold portion 50 to be described later. However, the first molding portion may be protruded and the second molding portion may be formed by being inserted and formed.

The stationary mold part 50 includes a plate unit 60 for supporting a second molding part 55 to be fitted to the first molding part 15 and a plurality of gas A spring 80, and a base 90 to which the gas spring is fixed.

The plate unit 60 includes a plate-shaped main plate 61 formed with a second forming unit 55 at an upper portion thereof, an auxiliary plate 66 positioned at a lower portion of the main plate 61, And shock absorbing means provided between the plate 66 and capable of buffering an impact transmitted to the main plate when the movable die is lowered to press the forming object.

The main plate 61 is drawn downward from the bottom surface of the main plate 61 to a predetermined thickness to form a receiving groove 62 in which the main plate 61 is received. The second forming part 55 may be integrally formed with the main plate 61 and may be formed in a shape coupled to the upper end of the main plate 61 as shown in the figure.

The auxiliary plate 66 is formed in a plate shape corresponding to the shape on the transverse plane of the receiving groove 62 and preferably has an area smaller than the receiving groove 62 so as to be rotatable in the receiving groove 62.

The shock absorbing means includes an auxiliary gas spring 67 mounted on the main plate 61 so as to support the edge of the auxiliary plate 66 and an auxiliary gas spring 67 provided on the center side of the auxiliary plate 66, And a rotating gas spring 68 which rotates relative to the main plate 61 to support the main plate 61 so that the impact can be buffered.

The plurality of auxiliary gas springs 67 are provided on the edge side of the upper end surface of the receiving groove 62 of the main plate 61 and are expanded and contracted in the direction of the auxiliary plate 66, The plurality of auxiliary gas springs 67 may be disposed at the same distance from each other around the pivoting gas spring 68 so as to provide the same elastic force to the edge side of the main plate or the auxiliary plate.

The pivoting gas spring 68 is a spring for urging the movable mold member 10 in the direction of the axis of the movable mold member 10 so that the impact transmitted by the first and second mold members due to the descent of the movable mold member 10 or the impact due to the restoration of the gas spring 80 When eccentrically transmitted, the main plate 61 and the auxiliary plate 66 are rotated relative to each other so that the impact can be buffered.

The rod 69 of the pivoting gas spring 68 is formed into a convex curved surface in the direction of the main plate 61 so that the end portion can be rotated with respect to the main plate 69. The main plate 61 is drawn upward toward the center of the receiving groove 62 corresponding to the pivoting gas spring 68 so as to support the rotation of the end of the rod 69 of the pivoting gas spring 68, A rotation support groove 63 is formed in which the end of the rod 69 of the rotation gas spring 68 is received.

The pivot support groove 63 is formed as a curved surface having an arc-shaped curvature whose inner diameter becomes narrower toward the upper end so that the end of the upwardly pivoting gas spring can be easily turned.

The base portion 90 is provided with a restricting jaw portion 85 positioned between the plurality of gas springs and restricting the lowering height of the plate unit.

The press forming apparatus 1 according to the embodiment of the present invention can buffer shocks applied to the second forming portion 55 and the plate unit 60 by the shock absorbing means to improve the quality of products such as breakage and bending In particular, since the main plate 61 and the auxiliary plate 66 are supported and buffered by the pivoting gas spring 68, there is an advantage that the impact buffering efficiency can be increased.

3, a press forming apparatus according to another embodiment of the present invention is shown. Components having the same functions as those in the above-described drawings are denoted by the same reference numerals.

The press forming apparatus 2 according to the present invention further includes a horizontal holding unit 100 in the configuration of the press forming apparatus 1 according to the embodiment of the present invention.

 The plurality of gas springs 80 supporting the plate unit 60 can not maintain the initial internal pressure while being repeatedly shrunk and elongated according to the upward and downward movement of the movable mold unit 10 and can have different pressures. Thereby, the auxiliary plate 66 can be supported on the gas spring 80 in a slanting manner.

The horizontal holding unit 100 allows the main plate 61 to maintain a horizontal position when the auxiliary plate 66 supported by the gas spring 80 is inclined while being rotated relative to the main plate 61. [

The horizontal holding unit 100 includes a tilt detection sensor 110, a gas storage tank 120, a plurality of gas supply pipes 131 and 135, a plurality of opening and closing valves 141 and 145, and a control unit 150.

The tilt detection sensor 110 is installed on the auxiliary plate and senses the tilt of the auxiliary plate on the horizontal line to transmit the tilt value to the control unit.

The gas storage tank 120 stores an inert gas such as nitrogen for supplying gas to the auxiliary gas spring 67.

On the other hand, the main plate 61 is formed with first and second flow passages 64 and 65 which are respectively penetrated inwardly from both sides of the outer peripheral surface and communicate with the auxiliary gas spring 67.

The plurality of gas supply pipes extend from the gas storage tank 120 to both side portions of the main plate 61 so as to be connected to the first and second flow paths 64 and 65, And first and second gas supply pipes 131 and 135 for supplying gases for the first and second gas supply pipes 131 and 135, respectively.

The plurality of open / close valves are driven by the control of the controller 150 to open and close the first and second gas supply pipes 131 and 135, respectively. The first and second gas supply pipes 131 and 132 include a first open / close valve 141, And a second on-off valve 145 installed on the second gas supply pipe 135.

The first and second gas supply pipes 131 and 135 are connected to first and second pumps 161 and 165 for supplying the gas stored in the gas storage tank 120 to the first and second flow paths under the control of the controller 150, Respectively.

The control unit 150 is connected to the tilt detection sensor 120, the first and second opening and closing valves 141 and 145 and the first and second pumps 161 and 165 to receive signals of the tilt detection sensor 110, And the second open / close valves 141 and 145, and the first and second pumps 161 and 165, respectively.

3, the controller 150 receives the signal from the tilt sensor 110 and extends the auxiliary gas spring 67 'on the inclined side longer than the auxiliary gas spring 67' on the opposite side, Closing valve 145 is operated so that gas can be supplied to the tilted auxiliary gas spring 67 'so that the main plate 61 can be supported to maintain the horizontal state of the second valve 61, The gas supply pipe 145 is opened and the second pump 165 is driven to supply the gas into the auxiliary gas spring 67 'which is tilted through the second flow path 65.

In the press forming apparatus 2 according to another embodiment of the present invention, since the main plate and the auxiliary plate are supported and buffered by the rotating gas spring, the shock buffering efficiency can be increased. The press forming apparatus 2 according to another embodiment of the present invention is configured such that the plurality of gas springs 80 support the plate unit 60 through the horizontal holding unit 100, And the second forming part 55 can be maintained in a horizontal state, which is advantageous in that the productivity can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications may be possible without departing from the scope of the invention as defined in the appended claims. I will understand that. Accordingly, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1,5: Press forming device 5: Molding object
10: movable mold part 15: first forming part
50: stationary mold part 55: second molding part
60: Plate unit 61: Main plate
63: inlet groove 64: first flow path
65: second flow path 66: auxiliary plate
67: auxiliary gas spring 68: rotating gas spring
80: gas spring 90: base portion
100: horizontal holding unit 110: tilt detection sensor
120: gas storage tank 131: first gas supply pipe
135: second gas supply pipe 141: first opening / closing valve
145: second open / close valve 150:
161: first pump 165: second pump

Claims (3)

A movable mold part which is moved up and down to press the object to be molded;
And a stationary mold portion provided at a lower portion of the movable mold portion and supporting a molding object when the movable mold portion is lowered and having a second molding portion formed with a first molding portion formed in the moving mold portion to form the molding object and,
The stationary mold part
A plate unit for supporting the second forming unit, a plurality of gas springs for supporting the plate unit, and a base part to which the gas spring is fixed,
The plate unit
An auxiliary plate that is accommodated in a receiving groove upwardly received in the lower portion of the main plate and is supported by the plurality of gas springs, And impact buffering means for buffering an impact applied to the main plate due to the descent of the movable mold portion,
The shock buffering means
And a plurality of auxiliary gas springs provided on an edge side of an upper surface of the receiving groove of the main plate so as to support the edge of the auxiliary plate and extendable and contractible in the direction of the auxiliary plate. The shock absorber according to claim 1,
When the impact due to the lowering of the movable mold and the impact due to the restoration of the gas spring are transmitted eccentrically, the main plate and the auxiliary plate are rotated relative to each other, Further comprising: a rotation gas spring installed on the main plate and rotated about the main plate to support the main plate,
The rod end of the pivoting gas spring is formed into a convex curved surface in the direction of the main plate so as to be rotatable with respect to the main plate,
The main plate
A rotation supporting groove formed in a curved surface which is drawn upward so as to support the rotation of the end of the rod of the rotation gas spring and whose inner diameter becomes narrower toward the end is formed at the center side of the receiving groove corresponding to the rotation gas spring And a press forming device 3. The method of claim 2,
A horizontal holding unit capable of maintaining the horizontal position of the main plate when the auxiliary plate is tilted while being pivoted to the main plate by the support of the gas spring having a different internal pressure due to repetitive pressing force of the movable mold part; Respectively,
The horizontal holding unit
A tilt sensor for detecting tilting of the auxiliary plate,
A gas storage tank for supplying gas to the auxiliary gas spring,
A plurality of gas supply pipes extending from the gas storage tank to the main plate and supplying gas to the auxiliary gas springs through a plurality of flow passages respectively communicated with the auxiliary gas springs inside the main plate, and,
An on-off valve installed on the gas supply pipe to open and close the gas supply pipe,
The auxiliary gas spring on the inclined side receiving the signal of the tilt detection sensor is extended to maintain the horizontal state of the main plate to supply gas to the auxiliary gas spring tilted so as to support the main plate And a control section for controlling the press molding section.

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