KR101159647B1 - Valve for protecting overpressure - Google Patents

Abstract

PURPOSE: A valve for preventing mechanical overload of a press machine is provided to prevent damage of a mold and a machine due to overload by removing the overload generating in a press machine with a mechanical operation method. CONSTITUTION: A valve for preventing mechanical overload of a press machine comprises a valve body(10), a body block(32), a guide pipe(38), a hole(40), and a slide pipe(42). The valve body comprises a chamber(12), a setting hydraulic line(14), an operational hydraulic supply path(20), and an operational hydraulic discharge path(22). A hole(34) through which setting hydraulic pressure supplied through the setting hydraulic line is passed is formed in the center of the body block. The guide pipe is fitted in an insertion groove(36) of the body block. A space where the setting hydraulic pressure passing through the hole is flowed is formed inside the guide pipe. The hole is formed along the circumference of the guide pipe and connects the operational hydraulic supply path and the operational hydraulic discharge path. The slide pipe opens the hole so that the operational hydraulic pressure supplied from the operational hydraulic supply path can be passed through the operational hydraulic discharge path to be discharged to the outside.

Description

Mechanical Overload Valve for Press Machines {VALVE FOR PROTECTING OVERPRESSURE}

The present invention relates to a mechanical overload valve of a press device, and more particularly, to a mechanical overload valve of a press device for removing an overload generated in a press device by a mechanical driving method.

As is well known, a press is a general term for a device that presses a material into a mold by using a lever, a screw, a hydraulic pressure, and the like to form a certain shape.In the driving method, a press uses a centrifugal force obtained by rotating a flywheel by the power of a motor. It is divided into a mechanical press to work and a hydraulic press to work using the high pressure obtained from the hydraulic pump.

The hydraulic press machine corresponding to the latter is a slider for forming a material placed on the die by forcing the die on which the material is placed and a punch provided at the lower end by moving upward and downward with the hydraulic pressure supplied from the outside and positioned above the die. Consists of including.

On the other hand, the slider is driven up and down by the pressure of the hydraulic pressure, when excessive hydraulic pressure is supplied in the process of use, the overload may occur the equipment may be damaged, therefore, when the hydraulic press machine usually overload, it is quickly Overload protection valves are usually installed.

In other words, the conventional overload prevention valve is to supply a hydraulic pressure of more than the set pressure to the slider to discharge a part of the hydraulic pressure to the outside to automatically control the overload of the slider. have.

However, the solenoid valve-type overload protection valve detects pressure by an electrical signal, and when an overload occurs, the overload prevention valve is operated by an electrical signal. Due to the time difference of the electrical signal, there is a problem that the overload is not solved immediately.

Accordingly, an object of the present invention for solving the above problems is to provide a mechanical overload prevention valve of a press device to remove the overload generated in the press device in a mechanical driving manner.

Another technical problem to be achieved by the present invention is to provide a mechanical overload prevention valve of a press device which can prevent a problem of malfunction due to a detection error of an electrical signal in advance.

The present invention for achieving the above object is a mechanical overload valve of a press device, the chamber, a valve body formed with a set hydraulic line and a working hydraulic pressure supply passage and a working hydraulic pressure discharge passage communicating with the chamber, the valve It is fixedly installed in the chamber of the main body and has a hole in the center formed with a hole for passing the set hydraulic pressure supplied through the set hydraulic line, and inserted into the insertion groove of the main block and the set hydraulic pressure passed through the hole inside A guide tube having a space formed therein, and at least one or more penetrating portions formed along a circumferential surface of the guide tube and fitted into a hole constituting the connection between the hydraulic pressure supply passage and the hydraulic pressure discharge passage and an internal space of the guide tube; A hole in the guide pipe is moved in the right direction by the pressure of the hydraulic pressure supplied from the hydraulic pressure line In the closed state, the hydraulic pressure supplied from the hydraulic pressure supply path is discharged from the hydraulic pressure supply path by moving the left side at the pressure of the hydraulic pressure supplied through the hydraulic pressure supply path and opening the hole. It comprises a slide tube for passing through the furnace to be discharged to the outside.

The working hydraulic supply passage is formed to be open on one side of the valve body, the other end is configured to be connected to the chamber of the valve body, the working hydraulic discharge passage is formed at one end is open to the lower end of the valve body, the other end It is preferable to be configured to be connected to the chamber of the valve body.

The working hydraulic supply passage is formed to be open at the lower end of the valve body, the other end is configured to be connected to the chamber of the valve body, the working hydraulic discharge passage one end is open to one side of the valve body, the other end is It is preferably configured to be connected to the chamber of the valve body, the inclined surface portion is further chamfered to the other peripheral surface of the slide tube.

The set hydraulic line is preferably configured to be configured to be connected to the drain port separately.

The present invention is to remove the overload generated in the press machine by a mechanical drive method to prevent the problem of malfunction due to the detection error of the electrical signal in the conventional electric drive method in advance to damage the mold and the device due to the overload Implement the effect to prevent the

1 is a view showing the configuration of a mechanical overload protection valve of a press device according to a first embodiment of the present invention.
FIG. 2 is a view showing an operating state of the mechanical overload valve of the press apparatus shown in FIG. 1. FIG.
3 is a view showing the configuration of a mechanical overload valve of a press device according to a second embodiment of the present invention.
4 is a view showing an operating state of the mechanical overload valve of the press device shown in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, in order to achieve the above technical problem, two exemplary embodiments will be representatively presented. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

{Example 1}

1 is a view illustrating a configuration of a mechanical overload prevention valve of a press device according to a first embodiment of the present invention, and FIG. 2 is a view illustrating an operating state of the mechanical overload protection valve of the press device shown in FIG. One drawing.

As shown in FIG. 1 and FIG. 2, the mechanical overload prevention valve 100 of the press device is supplied to the slide 300 when the overload occurs when the hydraulic pressure supplied to the slide 300 is supplied above the set pressure. It is a means to automatically prevent overload by releasing a part of the working hydraulic pressure to the outside.

The mechanical overload prevention valve 100 of the press apparatus is configured as a valve body 10 having a rectangular cross-sectional shape.

The valve body 10 is mounted on the slide 300 of the press device, and receives the hydraulic pressure supplied to the slide 300 to control the hydraulic pressure.

A chamber 12 is formed at an inner center of the valve body 10, and a set hydraulic line 14, a working hydraulic pressure supply path 20, and a working hydraulic pressure discharge path 22 are connected to the chamber 12, respectively. It is composed. On the other hand, the hydraulic pressure presented in the present invention refers to the hydraulic pressure that is first supplied to the chamber 12 of the valve body 10 before being supplied to the slide 300 to drive the slide 300 up, down, The set hydraulic pressure means that when the hydraulic pressure of a predetermined pressure is supplied to the chamber 12 and the hydraulic pressure is supplied to the chamber 12 of the valve body 10, the overload occurs (that is, the pressure of the hydraulic pressure is too high. Refers to the hydraulic pressure so that you can know if the supply is high.

The set hydraulic line 14 is one end is connected to the set hydraulic port 16 formed on the upper end of the valve body 10, the other end is configured to be connected to one side of the chamber 12, the set hydraulic port The set hydraulic pressure supplied from 16 is supplied to the chamber 12. At this time, the drain port 18 is branched to the set hydraulic line 14 again, and the drain port 18 has a chamber (when the hydraulic pressure supplied to the chamber 12 is excessively supplied above the set hydraulic pressure. The set hydraulic pressure supplied to 12) is discharged to the outside.

The working hydraulic supply passage 20 is open at one end of one side of the valve body 10, and the other end is connected to the chamber 12 of the valve body 10 to operate the slide 300. Hydraulic pressure is supplied to the chamber 12.

One end of the working hydraulic discharge passage 22 is formed at the lower end of the valve body 10, and the other end is connected to the chamber 12 of the valve body 10, so that the working hydraulic pressure is higher than the set hydraulic pressure. When supplied to the chamber 12, a part of the supplied hydraulic pressure is released to the outside.

On the other hand, the chamber 12 of the valve body 10 is operated in accordance with the pressure difference between the set hydraulic pressure and the operating hydraulic pressure and the operating means 30 for selectively connecting the operating hydraulic pressure supply passage 20 and the hydraulic hydraulic discharge passage 22 ) Is installed.

The operation means 30 comprises a main block 32, a guide tube 38 and a slide tube 42.

The body block 32 is fixedly installed in the chamber 12 of the valve body 10 in the form of a cylinder, and a hole 34 through which the set hydraulic pressure supplied to the set hydraulic line 14 described above is passed through the center block 32. It is formed through.

An insertion groove 36 having a larger diameter than the hole 34 is recessed in one side of the body block 32, and a guide tube 38 is inserted into the insertion groove 36.

The guide tube 38 is fitted into the insertion groove 36 of the main block 32, and is configured to open both sides in the form of a cylinder, the inner space 39 of the hole of the main block 32 ( The set hydraulic pressure passing through 34 is introduced, and a space 44 into which the slide tube 42 can be fitted is formed. At least one hole 40 is formed through one side circumferential surface of the guide tube 38, and the hole 40 is selectively opened according to the operation of the slide tube 42 and the aforementioned hydraulic pressure supply passage 20 is provided. The hydraulic pressure supplied to) is passed to the hydraulic pressure discharge path 22.

The slide tube 42 is fitted into the inner space 39 of the guide tube 38, the cylinder 44 is formed inside the space 44 is formed in one end and the other end is closed, At this time, the closing portion 41 of the slide tube 42 blocks the inlet 38a of the guide tube 38 communicating with the outlet of the hydraulic pressure supply passage 20 described above so that the hydraulic pressure does not flow into the chamber 12. do.

The slide pipe 42 is the set hydraulic pressure at this time when the set hydraulic pressure flows into the internal space 39 of the guide pipe 38 through the hole 34 of the main block 32 through the set hydraulic line 14 Pushed in one direction (right direction in the drawing) and received the pressure of the working hydraulic pressure supplied through the working hydraulic pressure supply passage 20 while closing the hole 40 formed in the circumferential surface of the guide tube 38. In the state, when the pressure of the working hydraulic pressure rises above the pressure of the set hydraulic pressure due to the overload, it is pushed in the other direction (the left direction in FIG. 2) by the working hydraulic pressure at this time and opens the hole 40 of the guide pipe 38. Through this, the hydraulic pressure flows into the chamber 12 through the open hole 40, and then is discharged to the outside through the hydraulic pressure discharge passage 22, thereby quickly removing the overload.

At this time, the set hydraulic pressure introduced into the internal space 39 of the guide tube 38 is discharged to the drain port 18 through the set hydraulic pressure line 14 as the slide tube 42 moves.

The spring 48 is located inside the slide tube 42. When the slide tube 42 is pushed in the other direction by the pressure of the hydraulic pressure, the pressure of the operating hydraulic pressure is the pressure of the set hydraulic pressure in a state in which the spring 48 is elastically supported. When it falls below, the slide tube 42 is elastically pushed back to the initial state.

Hereinafter, the operation of the mechanical overload protection valve of the press device according to the first embodiment of the present invention will be described with reference to FIGS. 1 and 2.

First, when the valve main body 10 is installed on one side of the slide 300 of the press machine, and then the set hydraulic pressure is supplied through the set hydraulic pressure port 16, the set hydraulic pressure is supplied to the valve main body 10. Flows into the inner space 39 of the guide pipe 38 through the hole 34 of the main body block 32 installed in the chamber 12 of the chamber 12, and the inside of the guide pipe 38 by the set hydraulic pressure at this time. The slide tube 42 fitted in the space 39 is pushed in the right direction and maintains the hole 40 of the guide tube 38 closed.

Next, when the operating hydraulic pressure is supplied to operate the slide 300 of the press machine, the operating hydraulic pressure is first supplied to the operating hydraulic pressure supply path 20 of the valve body 10 of the present invention before being supplied to the slide 300. Supplied.

The operating hydraulic pressure supplied to the operating hydraulic pressure supply passage 20 of the valve body 10 is transmitted to the slide tube 42 described above. At this time, when the pressure of the operating hydraulic pressure becomes higher than the set hydraulic pressure due to the overload At this time, the slide tube 42 is pushed in the left direction as shown in FIG. 2 to open the hole 40 of the guide tube 38.

When the hole 40 of the guide tube 38 is opened by the operation of the slide tube 42, the hydraulic pressure supply passage 20 and the hydraulic pressure discharge passage 22 are in communication with each other through the chamber 12. A part of the hydraulic pressure supplied to the hydraulic pressure supply passage 20 flows into the chamber through the hole 40 and then is discharged to the outside through the hydraulic pressure discharge passage 22 to quickly remove the overload of the equipment. It is possible to prevent breakage.

On the other hand, after releasing a part of the hydraulic pressure to remove the overload, the pressure of the set hydraulic pressure acts again as the slide tube 42 and the slide tube 42 is pushed to the right by the tension force of the spring 48. It returns to the initial state and closes the hole 40 of the guide tube 38 to block the release of any further hydraulic pressure.

{Example 2}

3 is a view illustrating a configuration of a mechanical overload prevention valve of a press device according to a second embodiment of the present invention, and FIG. 4 is a view illustrating an operating state of the mechanical overload protection valve of the press device shown in FIG. One drawing.

3 and 4, the mechanical overload valve 200 of the press apparatus according to the second embodiment of the present invention is the chamber 12 and the set hydraulic line ( 14), the valve body 10 formed with the operating hydraulic pressure supply passage 20 and the hydraulic hydraulic discharge passage 22, the main body block 32 and the guide pipe (installed in the chamber 12 of the valve body 10) 38) and the inside of the guide pipe 38, and moved to the right direction by the pressure of the working hydraulic pressure due to overload in the state moved to the left direction by the pressure of the set hydraulic pressure and the hole 40 of the guide pipe 38 It comprises a slide tube 42 for selectively opening the, but the position of the hydraulic oil supply passage 20 and the hydraulic oil discharge passage 22 is different from that formed in the opposite direction to the first embodiment described above. . That is, the hydraulic pressure supply passage 20 of the first embodiment becomes the hydraulic pressure discharge passage 22 in the second embodiment, and the hydraulic pressure discharge passage 22 in the first embodiment operates in the second embodiment. There is a difference in changing the position to become the hydraulic pressure supply passage (20). In addition, the closed other end of the slide tube 42 is characterized in that the inclined surface portion 45 is configured to be chamfered.

The mechanical overload prevention valve 200 of the press apparatus of the second embodiment having the above-described configuration is operated at this time when the pressure of the hydraulic pressure supplied through the hydraulic pressure supply passage 20 becomes higher than the pressure of the set hydraulic pressure due to the overload. Hydraulic pressure is transmitted to the inclined surface portion 45 of the slide tube 42, so that the slide tube 42 is moved to the left as shown in Figure 4 to open the hole 40 of the guide tube 38 .

When the hole 40 of the guide pipe 38 is opened as described above, the working hydraulic pressure supply passage 20 and the hydraulic hydraulic discharge passage 22 are in communication with each other through the chamber 12, thereby operating hydraulic pressure supply passage 20. A part of the hydraulic pressure supplied to) is introduced into the chamber 12 through the hole 40, and then discharged to the outside through the hydraulic hydraulic discharge path 22 and quickly removes an overload to prevent damage to the equipment. You can do it.

10: valve body 12: chamber
14: setting hydraulic line 20: working hydraulic supply path
22: working hydraulic discharge path 32: main body block
38: guide tube 40: hole
42: slide tube

Claims (4)

In the mechanical overload valve of the press machine,
A valve body (10) having a chamber (12), a set hydraulic line (14) and a working hydraulic pressure supply passage (20) and a hydraulic hydraulic discharge passage (22) communicating with the chamber (12);
A main body block 32 fixedly installed in the chamber 12 of the valve main body 10 and having a hole 34 through which a set hydraulic pressure supplied through the set hydraulic line 14 passes;
A guide tube 38 fitted into the insertion groove 36 of the main block 32 and having a space 39 therein for entering the set hydraulic pressure passing through the hole 34;
At least one through-hole formed along a circumferential surface of the guide tube 38 and a hole 40 configured to connect the working hydraulic pressure supply passage 20 and the working hydraulic pressure discharge passage 22;
The setting is inserted in the inner space of the guide tube 38 and moved to the right direction at the pressure of the set hydraulic pressure supplied from the set hydraulic line 14, and the setting is performed in a state in which the hole 40 of the guide tube 38 is closed. The hydraulic pressure supplied from the working hydraulic pressure supply passage 20 is moved to the left direction by the pressure of the operating hydraulic pressure supplied through the working hydraulic pressure supply passage 20 above the hydraulic pressure, and the opening 40 is opened. Mechanical overload valve of the press machine, characterized in that it comprises a slide pipe (42) for passing through the hydraulic pressure discharge path (22) to be discharged to the outside.
The method of claim 1,
The working hydraulic pressure supply passage 20 is open at one side of the valve body 10, and the other end is connected to the chamber 12 of the valve body 10, and the working hydraulic discharge passage 22 is provided. One end is formed to be open at the lower end of the valve body 10, the other end is a mechanical overload valve of the press apparatus, characterized in that configured to be connected to the chamber 12 of the valve body (10).
The method of claim 1,
The working hydraulic supply path 20 is formed to be open at the lower end of the valve body 10, the other end is configured to be connected to the chamber 12 of the valve body 10, the working hydraulic discharge path 22 One end is open at one side of the valve body (10), and the other end is connected to the chamber (12) of the valve body (10);
The other end circumferential surface of the slide tube 42 is characterized in that the inclined surface portion 45 is further chamfered process mechanical overload valve of the press machine.
The method of claim 1,
The set hydraulic line 14 is a mechanical overload valve of a press machine, characterized in that the drain port 18 is configured to be connected separately.

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