KR102130157B1 - Shock prevention equipment for gas spring and press mold apparatus using the same - Google Patents

Abstract

The present invention relates to a shock prevention apparatus for a gas spring and a press mold apparatus using the same, and more specifically, to a shock prevention apparatus for a gas spring, which is able to, when performing a press molding, reduce the shock generated by repulsive power by an increase in the internal pressure of the gas spring. According to the present invention, the shock prevention apparatus for a gas spring moves the gas in a gas chamber to a gas storage tank when the internal pressure of the gas spring approaches near a dangerous pressure such that the rise of the repulsive power of the gas spring to an external force is limited in a risk section and accordingly, the shock by the repulsive power of the gas spring to an external force can be prevented or relieved, thereby enhancing the durability of the gas spring. In addition, according to the present invention, the press mold apparatus using the shock prevention apparatus for a gas spring is able to limit the rise of the repulsive power of the gas spring to an increase in the pressurizing force for a working mold in the risk section to prevent or relieve the shock by the repulsive power of the gas spring, thereby performing a press molding of parent metal in a stable manner.

Description

Shock prevention equipment for gas spring and press mold apparatus using the same}

The present invention relates to a gas spring shock prevention device and a press mold device using the same, and more particularly, to prevent or reduce the shock caused by the repulsive force due to the increase in the internal pressure of the gas spring during press molding. It relates to an apparatus and a press mold apparatus using the same.

In general, gas springs are widely used in the general industry because they have the characteristics of being able to obtain a small spring constant with a small and large on-off valve load compared to metal and rubber springs.

The gas spring is composed of a cylinder having a gas chamber filled with a predetermined pressure with an inert gas such as nitrogen through a filling valve, a sliding piston or head accommodated in the cylinder, and a rod connected thereto. This gas spring provides a cushion that allows the rod to flexibly move to its retracted position when the force applied to the rod from the outside is greater than the gas repelling force in the gas chamber applied to the piston.

The gas chamber of the gas spring is filled with an inert gas having a pressure of 2,000 psi or more, and the pressure during use may be increased to 3,000 to 5000 psi. Accordingly, the gas spring is designed to inject the gas and design of the upper part of the gas spring (piston rod part) so that the gas filled with high pressure does not leak at the contact portion between the surface of the piston rod and the gas holding seal. The design of the lower piston (gas inlet) should be considered.

In particular, in a press mold requiring a small change in elastic force compared to a displacement, the gas spring for the mold has an important influence on the quality and production of the mold product. Since the gas spring for the mold must be able to absorb a higher load (by press pressure) than the gas spring for general industry, the pressure of the filled gas must always be maintained at a high pressure, and the gas caused by many reciprocations of the piston due to the load There is a need for a structural design to prevent leakage.

The gas spring installed in the press mold cushions the pressure applied to the press mold to facilitate the molding of sheet metal parts. When the movable mold is molded to the fixed mold supported by the gas spring for molding, the compressed gas spring is the limit pressure. When it reaches, a large shock is generated. This impact causes problems such as the fixed mold being shaken or the press mold being unreasonably formed. In addition, when the gas pressure in the gas chamber of the gas spring reaches the limit pressure, there is a problem in that the cylinder does not withstand the pressure and the gas leaks or explodes.

Gas springs are disclosed in Korean Registered Utility Model Publication No. 20-0028474, Registered Patent Publication No. 10-0014517, and Registered Patent Publication No. 10-0145456.

Republic of Korea Utility Model Publication No. 20-0028474: Gas Spring Republic of Korea Registered Patent Publication No. 10-0014517: Gas spring Republic of Korea Registered Patent Publication No. 10-0145456: Gas spring equipped with a filling valve

The present invention was devised to solve the above problems, a gas spring shock prevention device capable of reducing or preventing the shock generated by the repulsive force caused by the expansion and contraction of a gas spring caused by external force, and a press mold forming apparatus using the same Want to provide.

The gas spring impact prevention device of the present invention for achieving the above object is a gas flow tube in communication with a gas chamber filled with gas of the gas spring; A gas storage tank connected to the other side of the gas flow pipe extending from the gas spring and filled with gas so as to achieve pressure equilibrium with the gas chamber in a pressure released state by an external force; An opening/closing valve for opening and closing the gas flow pipe; A first sensing sensor for sensing a length reduction or a pressure change of the gas spring due to the external force; Upon receiving the signal from the first sensor, the gas in the compressed gas chamber is moved in the direction of the gas storage tank, or the external force is released to suppress the occurrence of an impact due to the repulsive force of the gas spring against the external force. Control unit for controlling the operation of the on-off valve so that the gas spring is moved from the gas storage tank having a relatively high pressure to the gas chamber when the gas spring is restored to achieve a pressure balance between the gas chamber and the gas storage tank; It is characterized by having.

It is further provided with a second sensing sensor for sensing the pressure in the gas storage tank, the control unit receives the signal of the second sensing sensor, the gas storage tank when the pressure signal higher than the set pressure in the gas storage tank is transmitted It may be applied to open the gas flow pipe by controlling the operation of the on-off valve so that the gas in the gas is moved to the gas chamber.

The gas spring impact prevention device of the present invention bypasses the on-off valve and connects a bypass pipe connecting one side and the other side of the gas flow pipe, and a micro-pore installed in the bypass pipe and having a narrower inner diameter than the gas flow pipe and the bypass pipe It is formed may further include an orifice portion for adjusting the pressure balance error between the gas storage tank and the gas chamber when the on-off valve is closed.

In addition, a plurality of gas spring press mold apparatus using the gas spring impact prevention device of the present invention; A fixed mold supported on a plurality of gas springs; A movable mold that is movable to be molded or released from the fixed mold, and press-molding a base material together with the fixed mold; When the length of the gas spring is reduced by the pressurization of the movable mold, the gas spring is reduced when the gas spring is reduced over a set length or when the internal pressure rises, so as to suppress the impact caused by the repulsive force of the generated gas spring. It is characterized in that it has a gas spring impact preventing device that moves the gas in the spring to the outside of the gas spring, and re-injects the gas moved outside when the fixed mold is pressurized into the gas spring.

The gas spring impact prevention device of the press mold of the present invention includes a plurality of first gas flow pipes respectively communicating with a gas chamber filled with gas of each of the gas springs; The second gas flow pipe and the second gas flow pipe respectively connected to the plurality of first gas flow pipes extending from the gas chamber of each gas spring, and connected to the second gas flow pipe to achieve pressure equilibrium with the gas chambers in a depressurized state A gas storage tank filled with; An opening/closing valve installed in a plurality of the first gas flow pipe or the second gas flow pipe to open and close the first gas flow pipe or the second gas flow pipe; A first sensing sensor for sensing the expansion or contraction of the gas spring due to external force; The gas in the compressed gas chamber is moved in the direction of the gas storage tank to receive the signal from the first detection sensor and suppress the shock caused by the repulsive force generated when the length of the gas spring is reduced by external force. When the external force is released and the gas spring restores length, gas is moved from the relatively high pressure gas storage tank to the gas chamber to control the operation of the on-off valve so that the gas chamber and the gas storage tank achieve pressure equilibrium. A control unit; may be provided.

The gas spring impact prevention device has an internal space to allow the gas in the gas chamber to be moved and stored so that the internal pressure of the gas spring can be buffered in multiple stages, and is connected to a plurality of the first gas flow pipes and the internal space. A flow gas storage chamber connected to the second gas flow pipe is further provided so that the gas introduced into the gas storage tank can be moved to the gas storage tank. When the plurality of gas springs are reduced in length by pressurization of the stationary mold, the gas in the gas chamber passes through the first gas flow pipe when the gas spring is reduced by a predetermined length or more than a set pressure by an internal pressure rise. It is moved to the flow gas storage chamber to control the operation of the on-off valve mounted on the first gas flow pipe so that the internal pressure of the gas chamber can be reduced first, and the plurality of gas communicated with the flow gas storage chamber When the internal pressure of the spring rises above the set pressure, the gas of the flow gas storage chamber flows into the gas storage tank, so that the internal pressure of the gas chamber is reduced secondarily so that the opening/closing valve mounted on the second gas flow pipe It is desirable to control the drive.

In the gas spring shockproof device of the present invention, when the internal pressure of the gas spring approaches the limit pressure, since the gas in the gas chamber is moved to the gas storage tank, an increase in the repulsive force of the gas spring against the external force is limited in the dangerous section. The occurrence of shock due to repulsive force may be prevented or the shock may be reduced, thereby increasing the durability of the gas spring.

In addition, the press-molding apparatus using the gas spring impact prevention device of the present invention is prevented from occurring due to the repulsive force of the gas spring or shock is buffered because the repulsive force of the gas spring against the increase in the pressing force of the movable mold is limited in the danger section. There is an advantage that can stably press-form the base material.

In addition, the press mold device using the gas spring impact prevention device of the present invention can open the opening and closing valve so that the gas chamber of the gas spring communicates with the gas storage tank, so that the space where the movable mold can be compressed when the fixed mold is molded can be expanded. There is an advantage that is suitable for molding by controlling the pressing force of the movable mold according to the base material or molding conditions.

1 is a view showing a press-mold apparatus using a gas spring impact prevention device according to a first embodiment of the present invention,
2 is a view showing a state in which the gas spring is contracted when the material is pressed by moving the movable mold in the direction of the fixed mold for molding the material of FIG. 1,
3 is a view showing a state in which the gas spring of Figure 1 is restored,
Figure 4 is a partial block diagram of the gas spring impact prevention device of Figure 1,
5 is a view showing the reaction force of the gas spring against the pressing force of the movable mold of FIG. 1,
6 is a view showing a change in the reaction force with respect to the increase in the pressing force of the gas spring is not equipped with a gas spring shock prevention device,
7 is a view showing a press mold equipped with a gas spring impact prevention device according to a second embodiment of the present invention,
8 is a view showing the reaction force of the gas spring against the pressing force of the movable mold of FIG. 7,
9 is a view showing a press mold equipped with a gas spring impact prevention device according to a third embodiment of the present invention,
10 is a view showing a press mold equipped with a gas spring impact prevention device according to a fourth embodiment of the present invention,
11 is a view showing a press mold equipped with a gas spring impact prevention device according to a fifth embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the gas spring impact prevention device and a press mold device using the same according to a preferred embodiment of the present invention.

1 to 3, a press mold apparatus 1 using a gas spring impact prevention device according to an embodiment of the present invention is supported by a plurality of gas springs 10 and a plurality of gas springs 10 A fixed mold 3; A movable mold 5 that is movable to be molded or unmold with the fixed mold 3 and press-forming the base material 7 together with the fixed mold 3; When the plurality of gas springs 10 are reduced in length by pressurization of the stationary mold 3, the gas spring 10 outside the gas spring 10 is suppressed so that the pressure rise of the gas spring 10 is suppressed so that an impact is not generated due to the increased internal pressure. A gas spring impact prevention device 100 for inducing the flow of furnace gas is provided.

1 to 3, when a base material 7 such as an iron plate is input, the movable mold 5 located above is lowered. The lowered movable mold 5 is engaged with the fixed mold 5 provided at the lower part of the mold apparatus to form the base material 7 together with the fixed mold 5. The plurality of gas springs 10 support the fixed mold 3 to alleviate the impact when the movable mold 5 contacts the fixed mold 3.

The gas spring 10 includes a cylinder 11 with a hollow portion formed in the longitudinal direction, an end cap (not shown) having a discharge passage penetrating the inside of the cylinder to the outside by sealing the lower end of the cylinder, and a hollow portion of the cylinder 11 Gas inserted into the piston 16 having a rod 17 and the outer circumferential surface of the rod 17 and the inner circumferential surface of the cylinder 11 corresponding to the gas is compressed or expanded by sealing the upper end of the cylinder 11 It has a head cap (not shown) that is limited to the chamber.

The gas in the gas chamber is compressed while the piston 16 is lowered by pressurization of the movable mold 5. In the gas spring impact prevention apparatus 100 according to an embodiment of the present invention, the pressure in the gas chamber reaches a dangerous pressure This prevents damage to the shock or gas spring.

The gas spring impact prevention device 100 detects that the gas in the chamber is compressed to a pressure equal to or higher than a predetermined pressure or the piston 16 is lowered to a predetermined length or more, and the gas in the gas spring 10 is moved out of the gas spring 10. After the base material 7 is formed, when the movable mold 5 is raised, the pressure of the gas spring 10 is released, so that the gas moved out of the gas spring 10 is re-introduced into the gas spring 10.

The gas spring impact prevention device 100 includes a plurality of first gas flow pipes 110 respectively communicating with the gas chambers of each gas spring 10; A second gas flow pipe 130 connected to a plurality of first gas flow pipes; A gas storage tank 140 connected to the second gas flow pipe 130 and filled with gas to achieve pressure equilibrium with the gas chambers of each gas spring 10 depressurized to the movable mold 5; A first opening/closing valve 150 installed on the second gas flow pipe 130 to open and close the second gas flow pipe 130; A first sensing sensor 160 that detects a pressure change of the gas spring 10; It is provided with a control unit 170 for controlling the opening and closing operation of the first opening and closing valve 150 receives the signal of the first detection sensor 160.

The plurality of first gas flow pipes 110 are connected to the side of the cylinder 11 of each gas spring 10 to communicate with the gas chamber, or end caps mounted at the bottom of the cylinder 11 of each gas spring 10 (Not shown) may be connected to the gas chamber. In this case, it is preferable that a through hole (not shown) that penetrates into the gas chamber and is coupled to the gas flow tube is formed in the end cap.

It is preferable that the plurality of first gas flow pipes 110 are formed to be extended to the same length and have the same inner diameter so that the gas movement paths of the same conditions can be formed.

The second gas flow pipe 130 has a manifold portion 131 connecting a plurality of first gas flow pipes 110 and a tubular shape extending from the center side of the manifold portion 131 to the gas storage tank 140 A gas confluence unit 133 is provided.

The first opening/closing valve 150 is installed on one side of the gas confluence view 133 of the second gas flow pipe 130 to open and close the second gas flow pipe 130.

The first detection sensor 160 may be applied with a pressure gauge that can measure the pressure inside the gas chamber. Alternatively, the first detection sensor 160 may be applied to a proximity sensor capable of detecting the position of the adjacent piston 16 while being lowered by being mounted on the inner circumferential surface of the cylinder 11 so as to measure the descending length of the piston 16. . The proximity sensor is preferably set to transmit a signal to the control unit when the piston 16 is lowered into the cylinder 11 by 1/3 of the length protruding from the top of the cylinder 11.

The first detection sensor 160 is preferably mounted on each gas spring 10, but may be mounted on any one of a plurality of gas springs, as shown in Figure 1, a plurality of gas springs (10) It may be mounted only on the gas springs 10 on the middle edge.

The control unit 170 receives the signal from the first detection sensor 160, and when the movable mold 5 is pressed against the fixed mold 3, the gas spring 10 reduces the length or senses the internal pressure when pressed.

In order to suppress the occurrence of impact due to the increased pressure in the gas chamber, the control unit 170 is the first to open the second gas flow pipe 130 so that the gas in the gas chamber can be moved in the direction of the gas storage tank 140 The pressure for controlling the operation of the on-off valve is set.

Here, the pressure set in the control unit 170 is preferably set to be lower than the limit pressure that the gas spring 10 applied to withstand to prevent gas leakage or explosion of the gas spring 10. For example, if the limit pressure of the gas spring 10 is 5000 psi, the pressure set in the control unit is preferably set to 4500 to 4900 psi.

In addition, the control unit 170, the external force, that is, the force of the movable mold pressing the fixed mold is released, and the gas spring 10 is moved from the relatively high pressure gas storage tank 140 to the gas chamber when the gas spring 10 is restored. The driving of the first opening/closing valve 150 is controlled so that the gas chamber and the gas storage tank achieve pressure equilibrium.

2 to 5, the operation of the press mold apparatus 1 using the gas spring impact prevention apparatus 100 according to the first embodiment of the present invention having the structure as described above will be described.

In order to press-form the base material 7, the movable mold 5 descends and is molded with the fixed mold 3, so that the gas spring 10 is contracted in length so as to cushion the shock generated when the fixed mold is pressed.

When the length of the gas spring 10 is contracted, the pressure of the gas chamber is increased. When the pressure of the gas chamber is increased above a set pressure, or when the piston 16 is lowered below a set height, the control unit 170 is the first. The second gas flow pipe 130 is controlled by controlling the first opening/closing valve 150 so that the gas in the gas chamber is moved to the gas storage tank 140 having a lower pressure than the pressurized gas chamber by detecting this through the detection sensor 160. ).

As the second gas flow pipe 130 is opened and the gas in the gas chamber in the high pressure is moved to the relatively low gas storage tank 140, the occurrence of shock is prevented even when the gas spring 10 is compressed adjacent to the danger range. .

Then, after the base material is molded, when the movable mold 5 is raised and the pressure is released to the fixed mold, the gas spring 10 is restored. The control unit 170 senses this and the gas is moved to the gas spring side so that the gas storage tank 140 and the gas chamber of the gas spring whose pressure is increased by the introduced gas when the gas spring is pressurized can achieve pressure equilibrium. Control the on-off valve so that the flow pipe 130 is opened.

When the length of the gas spring 10 is restored, the control unit 170 senses this by a signal transmitted from the first sensing sensor to which the pressure gauge or proximity sensor is applied, and the first opening/closing valve 150 to open the second gas flow pipe 130 ) Can be controlled.

On the other hand, as shown in Figure 4, the gas spring shock prevention device according to the first embodiment of the present invention is mounted in the gas storage tank 140, the second detection sensor for sensing the pressure in the gas storage tank 140 ( 165) may be further provided. When the pressure higher than the set internal pressure of the gas storage tank 140 is sensed, the control unit 170 opens the second gas flow pipe 130 to open the first opening/closing valve 150 so that the gas in the gas storage tank moves to the gas chamber. You can also control.

On the other hand, the gas spring shock prevention device 100 is a plurality of first gas flow pipe 110 is connected to one gas storage tank 140 through the second gas flow pipe 130, but, as shown, the second A plurality of first opening/closing valves 150 installed in the first gas flow pipe 110 and beating a plurality of gas storage tanks 140 to be connected to the plurality of first gas flow pipes 110 without the gas flow pipe 130 respectively ) And a control unit 170 receiving a signal from the first detection sensor 160 and controlling opening and closing operations of the plurality of first opening/closing valves 150.

By the gas flow as described above, the reaction force (R) of the gas spring against the increase in the pressing force (P) by the movable mold is as shown in Figure 5, as the gas spring 10 contracts as the pressing force increases When the pressure rises together, the pressure inside the gas spring decreases as the gas moves to the gas storage tank when the internal pressure approaches the dangerous pressure. 6, the gas spring shock storage device 100 according to an embodiment of the present invention is compared with the change in the reaction force for the pressure increase of the gas spring is not mounted.

In the gas spring impact prevention device 1 according to the first embodiment of the present invention, when the internal pressure of the gas spring 10 approaches the dangerous pressure, the gas in the gas chamber is moved to the gas storage tank 140 to prevent external force. Since the rise of the repulsive force of the gas spring 10 is limited, shock generation due to the repulsive force of the gas spring 10 can be prevented or shock can be buffered, thereby improving the durability of the gas spring 10.

In addition, the press mold device 1 using the gas spring impact prevention device of the present invention has a repulsive force of the gas spring 10 because the increase in the repulsive force of the gas spring 10 against the increase in the pressing force of the movable mold 5 is limited in the danger section. It is possible to prevent the occurrence of impact by or shock can be buffered, there is an advantage to stably press-form the base material.

In addition, the press mold device 1 using the gas spring impact preventing device of the present invention is a movable mold (5) by opening the first opening/closing valve 150 so that the gas chamber of the gas spring 10 communicates with the gas storage tank 140. ) Can expand the space that can be compressed when the fixed mold (3) is molded, and is suitable for molding by controlling the pressing force of the movable mold according to the base material or molding conditions.

For example, in the press mold apparatus 1 according to the present invention, when forming a base material 7 with a pressing force of 800 tons of a movable mold having a maximum pressing force of 1200 tons, the gas chamber and the gas storage tank 140 communicate with each other. By opening and closing the opening/closing valve 150, it is possible to reduce the repulsive force of the gas spring by lowering the size of the gas chamber 10 in the gas chamber according to the pressurization of the movable mold 5, thereby satisfying the necessary molding conditions according to the molding shape or the thickness of the base material. I can do it.

Meanwhile, FIGS. 7 and 8 show a press mold apparatus 201 using a gas spring impact prevention apparatus according to a second embodiment of the present invention.

The press mold apparatus 201 using the gas spring impact preventing apparatus according to the second embodiment of the present invention uses the gas spring impact preventing device according to the first embodiment of the present invention, except for the gas spring impact preventing device 200. It is the same as the structure of the press mold device 1.

The gas spring impact prevention device 200 is connected to a plurality of first gas flow pipes 110 and a plurality of first gas flow pipes 110 and has an internal space in which gas moved in the gas spring 10 can be stored. A flow gas storage chamber 120; A second gas flow pipe 230 connected to the flow gas storage chamber 120; A gas storage tank 140 connected to the second gas flow pipe 130 and filled with gas to achieve pressure equilibrium with the gas chambers of each gas spring 10 depressurized to the movable mold 5; A first opening/closing valve 150 installed on the second gas flow pipe 130 to open and close the second gas flow pipe 130; A first sensing sensor 160 that detects a pressure change of the gas spring 10; It is provided with a control unit 170 for controlling the opening and closing operation of the first opening and closing valve 150 receives the signal of the first detection sensor 160.

As shown in FIG. 8, the gas spring impact prevention device 200 moves gas into the flow gas storage chamber 120 in communication with the gas chamber when the gas chamber 10 is compressed, thereby preventing gas spring against external force. The first opening and closing valve 150 is opened when the internal pressure of the gas chamber and the flow gas storage chamber 120 approaches the dangerous pressure by first buffering the repulsive force and increasing the pressing force of the movable mold 5. By allowing the gas storage tank 140 to move, the repulsive force of the gas spring is completely buffered.

Press mold device 201 using a gas spring impact prevention device according to a second embodiment of the present invention to buffer the impact transmitted to the fixed mold (3) when the movable mold (5) is molded with the fixed mold (3) When the gas spring 10 is stretched to the dangerous pressure of the internal pressure of the gas spring 10 during expansion and contraction in multiple stages, there is an advantage that a more stable press forming process can be achieved.

Meanwhile, FIG. 9 shows a press mold apparatus 301 using a gas spring impact prevention apparatus according to a third embodiment of the present invention.

Gas spring impact according to the second embodiment of the present invention, except that the press mold apparatus 301 using the gas spring impact prevention device according to the third embodiment of the present invention further comprises a second opening and closing valve 115 It is the same as the structure of the press mold device 2 using the prevention device.

The second opening/closing valve 115 is installed in each of the first gas flow pipes 110, and is provided in plural, respectively, and is connected to the control unit 170. The plurality of second opening/closing valves 115 are respectively mounted on the first gas flow pipes 110 positioned at the same distance from each connected gas spring 10.

The control unit 170 detects a pressure greater than or equal to the pressure set by the first detection sensor 160 when the gas spring length is stretched for buffering against the press of the fixed mold 4 of the movable mold 5 or the gas greater than or equal to the first set length When the length of the spring 10 is reduced, the driving of the second opening/closing valve 115 is controlled such that the gas in the gas spring 10 is moved to the flow gas storage chamber 120 through the first gas flow pipe 110.

Then, in the state in which the first gas flow pipe 110 is opened, the control unit 170 again pressurizes the movable mold 5 so that the pressure in the gas spring 10 and the flow gas storage chamber 120 is higher than the set pressure. When the length of the gas spring 10 is increased or the second set length is reduced, the first opening and closing of the gas in the flow gas storage chamber 120 is moved to the gas storage tank 140 through the second gas flow pipe 230. Control the operation of the valve 150.

In addition, the control unit 170, the external force, that is, the movable mold press releases the force to press the fixed mold, so that the gas spring 10 has a relatively high flow gas storage chamber 120 or gas storage tank 140 when the length is restored. The gas is moved to the gas chamber of the gas spring 10 to control the driving of the second opening and closing valves and the first opening and closing valves 115 and 150 so that the gas chamber and the gas storage tank 140 achieve pressure equilibrium.

The press mold device 301 using the gas spring impact prevention device according to the third embodiment of the present invention is provided with an initial gas pressure control valve 115 connected to a control unit in a plurality of first gas flow pipes 110, Each gas spring 10 has the advantage of uniformly controlling the gas flow to the pressure change of the gas chamber to increase the buffering reliability of the gas spring against pressurization of the movable mold.

Meanwhile, FIG. 10 illustrates a press mold apparatus 401 using a gas spring impact prevention apparatus according to a fourth embodiment of the present invention.

The press mold apparatus 401 using the gas spring impact prevention apparatus according to the fourth embodiment of the present invention, except that it further includes a bypass pipe 180 and an orifice portion 183, the second embodiment of the present invention It is the same as the structure of the press mold device 201 using the gas spring impact prevention device according to the example.

The bypass pipe 180 bypasses the first opening/closing valve 150 to connect one side and the other side of the second gas flow pipe 230.

The bypass pipe 180 includes a first bypass pipe portion 181 connected to one side of the second gas flow pipe 230 and one side of the orifice portion, and the other side of the orifice portion 183 and the other side of the second gas flow pipe 230. A second bypass pipe portion 185 is provided.

The orifice portion 183 is installed between the first bypass pipe portion 181 and the second bypass pipe portion 185 on both sides, and has a narrower inner diameter than the second gas flow pipe 230 and the bypass pipe 180 184 is formed.

The micropore 184 has a pressure difference between the gas storage tank 140 and the gas chamber when the first opening/closing valve 150 is closed, and the gas is moved so that the gas storage tank 140 and the gas chamber or gas storage tank 140 ) And the flow gas storage chamber 120 to provide a passage through which the gas can be moved to achieve pressure equilibrium.

The press mold apparatus 401 using the gas spring impact prevention apparatus according to the fourth embodiment of the present invention is provided with an orifice portion 183 having a micro hole 184 through which gas can be finely moved, and thus a gas storage tank ( 140), even if the first opening/closing valve 150 is closed in a state where the pressure balance between the gas spring 10 and the gas spring 10 is not achieved, the gas storage tank 140 and the gas spring 10 may be in pressure equilibrium after a predetermined time. .

Therefore, the press mold apparatus 401 using the gas spring impact prevention apparatus according to the fourth embodiment of the present invention has the advantage of increasing the reliability of control of the control unit according to the change in the internal pressure of the gas spring when the gas spring is buffered by external force. have.

On the other hand, the bypass pipe 180 and the orifice portion 183 of the press die device 401 using the gas spring impact prevention device according to the fourth embodiment of the present invention presented above are the first and second embodiments of the present invention. The first gas flow pipe of the press mold apparatus 301 according to the third embodiment of the present invention can also be applied to the second gas flow pipes 130 and 230 of the press mold apparatus 1,201 using the gas spring impact prevention apparatus according to the example. 110) may also be applied to the second gas flow pipe 230.

On the other hand, on the other hand, FIG. 11 shows a press mold apparatus 501 using a gas spring impact prevention apparatus according to a fifth embodiment of the present invention.

The press mold apparatus 501 using the gas spring impact prevention apparatus according to the fifth embodiment of the present invention includes a plurality of gas storage tanks 140 and a first opening/closing valve 150, and a plurality of bypass pipes ( 580) and the check valve 581, except that it is further provided, it is the same as the structure of the press mold apparatus () using the gas spring impact prevention apparatus according to the first embodiment of the present invention.

Referring to FIG. 11, a gas spring impact prevention apparatus 500 according to a fifth embodiment of the present invention includes a plurality of first gas flow pipes 110; A plurality of gas storage tanks 140 which are connected to each of the first gas flow pipes 110 and filled with gas so as to achieve pressure equilibrium with the gas chambers of each gas spring 10 depressurized to the movable mold 5; A plurality of first opening/closing valves 150 installed in each first gas flow pipe 130 to open and close the first gas flow pipe 110; A plurality of first sensing sensors 160 that detect changes in pressure of each gas spring 10; It is provided with a control unit 170 for controlling the opening and closing operation of the first opening and closing valve 150 receives the signal of the first detection sensor 160.

In addition, the gas spring impact prevention apparatus 500 according to the fifth embodiment of the present invention bypasses the first opening/closing valve 150 to connect one side of the first gas flow pipe 110 and the gas storage tank 140. The gas installed in the pass pipe 580 and the bypass pipe 580 and moved into the gas storage tank 140 when the length of the gas spring 10 extends is moved through the bypass pipe 580 when the gas spring length is restored. In order to be possible, a check valve 581 which is opened only in the direction of the gas spring 10 in the gas storage tank 140 is further provided.

Gas in the gas storage tank 140 without control of the first opening/closing valve 150 of the press mold device 501 control unit 170 using the gas spring impact prevention device 500 according to the fifth embodiment of the present invention It can be moved to the gas chamber of the gas spring 10 through (581), the advantage of being able to quickly achieve the pressure balance of the gas chamber and the gas storage tank 140 of the gas spring 10 when restoring the length of the gas spring have.

In the above, the gas spring impact prevention device according to the present invention and the press mold device using the same have been described with reference to an example shown in the drawings, but this is only an example, and those skilled in the art can use various It will be understood that variations and other equivalent embodiments are possible. Therefore, the scope of true technical protection of the present invention should be defined by the technical spirit of the appended claims.

1,201,301: Press mold device
3: fixed mold 5: movable mold
7: Base material 10: Gas spring
100,200,300: Gas spring impact prevention device
110: first gas flow pipe 115: second opening and closing valve
120: flow gas storage chamber
130, 230: Second gas flow pipe 131: Manifold section
133: gas confluence section 140: gas storage tank
150: first opening and closing valve 160: first detection sensor
170: control unit

Claims (6)

A gas flow pipe communicating with a gas chamber filled with gas of the gas spring;
A gas storage tank connected to the other side of the gas flow pipe extending from the gas spring and filled with gas so as to achieve pressure equilibrium with the gas chamber in a pressure released state by an external force;
An opening/closing valve for opening and closing the gas flow pipe;
A first sensing sensor for sensing a length reduction or a pressure change of the gas spring due to the external force;
Upon receiving the signal from the first sensor, the gas in the compressed gas chamber is moved in the direction of the gas storage tank, or the external force is released to suppress the occurrence of an impact due to the repulsive force of the gas spring against the external force. A control unit for controlling the operation of the on-off valve such that the gas spring moves gas from the relatively high pressure gas storage tank to the gas chamber when the gas spring is restored to achieve a pressure balance between the gas chamber and the gas storage tank;
A bypass pipe bypassing the on-off valve and connecting one side and the other side of the gas flow pipe,
It is installed in the bypass pipe, characterized in that it has an orifice portion for adjusting the pressure balance error between the gas storage tank and the gas chamber when the gas flow pipe and the bypass pipe are formed with a narrow hole having a narrower inner diameter. Gas spring impact prevention device. delete delete A plurality of gas springs; A fixed mold supported on a plurality of gas springs; A movable mold that is movable to be molded or released from the fixed mold, and press-molding a base material together with the fixed mold; When the length of the gas spring is reduced by the pressurization of the movable mold, the gas spring is reduced when the gas spring is reduced over a set length or when the internal pressure rises, so as to suppress the impact caused by the repulsive force of the generated gas spring. A gas spring impact prevention device is provided to move the gas in the spring to the outside of the gas spring, and to re-inject the gas moved outward to the gas spring when the fixed mold is released from pressure.
The gas spring impact prevention device
A gas flow pipe communicating with each gas chamber filled with gas of the gas spring;
A gas storage tank connected to the gas flow pipe and filled with gas so as to achieve a pressure equilibrium with the gas chamber in a depressurized state;
An opening/closing valve installed on the gas flow pipe to open and close the gas flow pipe;
A first sensing sensor for sensing the expansion or contraction of the gas spring due to external force;
The gas in the compressed gas chamber is moved in the direction of the gas storage tank to receive the signal from the first detection sensor and suppress the shock caused by the repulsive force generated when the length of the gas spring is reduced by external force. When the external force is released and the gas spring restores length, gas is moved from the relatively high pressure gas storage tank to the gas chamber to control the operation of the on-off valve so that the gas chamber and the gas storage tank achieve pressure equilibrium. A control unit;
A bypass pipe bypassing the on-off valve and connecting one side and the other side of the gas flow pipe;
It is installed in the bypass pipe and the orifice portion for adjusting the pressure balance error between the gas storage tank and the gas chamber when the opening/closing valve is closed by forming a micropore having a narrower inner diameter than the gas flow pipe and the bypass pipe. Gas spring impact prevention device, characterized in that. delete A plurality of gas springs; A fixed mold supported on a plurality of gas springs; A movable mold that is movable to be molded or released from the fixed mold, and press-forming a base material together with the fixed mold; When the length of the gas spring is reduced by the pressurization of the movable mold, the gas spring is reduced when the gas spring is reduced over a set length or when the internal pressure rises, so as to suppress the impact caused by the repulsive force of the generated gas spring. A gas spring impact prevention device is provided to move the gas in the spring to the outside of the gas spring, and to re-inject the gas moved outward to the gas spring when the fixed mold is released from pressure.
The gas spring impact prevention device
A gas flow pipe communicating with each gas chamber filled with gas of the gas spring;
A gas storage tank connected to the gas flow pipe and filled with gas so as to achieve a pressure equilibrium with the gas chamber in a depressurized state;
An opening/closing valve installed on the gas flow pipe to open and close the gas flow pipe;
A first sensing sensor for sensing the expansion or contraction of the gas spring due to external force;
The gas in the compressed gas chamber is moved in the direction of the gas storage tank to receive the signal from the first detection sensor and suppress the shock caused by the repulsive force generated when the length of the gas spring is reduced by external force. When the external force is released and the gas spring restores length, gas is moved from the relatively high pressure gas storage tank to the gas chamber to control the operation of the on-off valve so that the gas chamber and the gas storage tank achieve pressure equilibrium. And a control unit;
The gas flow pipe
A plurality of first gas flow pipes each communicating with a gas chamber filled with gas of each gas spring; And a second gas flow pipe respectively connected to a plurality of the first gas flow pipes extending from the gas chamber of each of the gas springs,
The gas spring impact prevention device
It has an internal space so that the gas in the gas chamber can be moved and stored so that the internal pressure of the gas spring can be buffered in multiple stages. It is connected to a plurality of the first gas flow pipes and the gas introduced into the internal space is stored in gas. It is further provided with a flow gas storage chamber connected to the second gas flow pipe to be moved to the tank,
The opening and closing valve
It is installed in a plurality of the first gas flow pipe and the second gas flow pipe, respectively
The control unit
When a plurality of the gas springs are reduced in length by pressurization of the fixed mold, the gas in the gas chamber is stored in the flow gas through the first gas flow pipe when the gas spring is reduced over a set length or an internal pressure is increased over a set pressure. It is moved to the chamber to control the operation of the on-off valve mounted on the first gas flow pipe so that the internal pressure of the gas chamber is first reduced,
When the internal pressures of the plurality of gas springs communicating with the flow gas storage chamber rise above a set pressure, the gas of the flow gas storage chamber flows into the gas storage tank so that the internal pressure of the gas chamber can be reduced secondarily. Press mold device using a gas spring impact prevention device, characterized in that for controlling the operation of the on-off valve mounted on the second gas flow pipe.

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