KR20090013873A - Cushion pressure stabilization apparatus of press mold - Google Patents

Abstract

A cushion pressure stabilization device of a press die is provided to reduce a handling cost for a panel quality and a maintenance cost due to working fluid leakage. A cushion pressure stabilization device of a press die comprises two solenoids(29a,29b), having repulsion by magnetic force, built in an inner structure of housing of a pressure balancing cylinder(21), a cylinder rod(28), integrally connecting to a cushion pin(15), operating by an escalation with the repulsion between two solenoids in a state of being inserted within the housing and a pressure stabilization control part(25) connecting to an each solenoid coil to control a current and cushion pressure conducted to a lift location and a cushion pin of cylinder rod.

Description

Cushion pressure stabilization apparatus of press mold

The present invention relates to a cushion equalizing device of a press die, and more specifically, to a cushion of a press die employing a solenoid-type equalization cylinder instead of using a conventional hydraulic equalization cylinder that uses the pressure (hydraulic) of working oil. The equalizing device.

During the development of the press mold, the mold reconditioning in the mass production press mold was excessively occurred due to the difference in molding conditions between the tryout press mold and the mass production press mold, resulting in a long mold development period.

Accordingly, in order to make the molding condition of the test production press mold and the mass production press mold the same, the same molding conditions are satisfied by applying a uniform pressure to the die face of the mold by applying a uniform pressure to the cushion pin using hydraulic pressure (liquid). Cushion equalization device has been developed as a device for controlling

This cushioning equalizer eliminates the difference in molding conditions between the test-acting press mold and the mass-producing press mold during manufacturing of the mold, shortens the reconditioning period of excessive production line mold due to the difference in molding conditions, and highly skilled technical personnel for mold adjustment. It was developed to solve problems such as difficulty in securing.

In press molds, gaps occur between the cushion pin and the cushion foot of the mold due to the difference in length of the cushion pin, mold processing error, and cushion pad bending, and the blank holding force does not act on the die face evenly due to the gap. As it adversely affects the castle, it is a fact that a lot of labor is required to readjust the mold due to bad moldability.

Therefore, a cushion equalizing device is required, which will be described below with reference to the accompanying drawings for a conventional hydraulic cushion equalizing device.

1 is a configuration diagram of a press mold to which a conventional hydraulic cushion equalizing device is applied, and reference numerals 11 and 12 denote slides and upper molds of the press mold, and reference numeral 13 denotes a blank 1 together with the upper mold 12. A punch, reference numeral 14 denotes a blank holder for holding the blank 1, reference numeral 15 denotes a cushion pin, reference numeral 16 denotes a pneumatic tank, reference numeral 17 denotes a cushion cylinder, reference numeral 18 denotes a cushion pad, respectively. Indicates.

Also, as a constituent part of the cushion equalizing device, reference numeral 21 denotes a equalization cylinder for generating cushion pressure by hydraulic pressure in the cylinder, and reference numeral 19 denotes a equalization manifold for adjusting the same hydraulic pressure to be formed for all the cylinders 21. The folder 24 denotes a pressure sensor for detecting the fluid (working oil) pressure in the manifold 19, respectively, and the reference numeral 23 denotes a fluid in the hydraulic tank 22 for adjusting the fluid pressure in the manifold 19. A hydraulic pump for supplying the gas, a reference numeral 25 denotes a pressure equalizing control panel for controlling the fluid pressure in the manifold 19, and 26 denotes a measurement system for recording a change in the cushion pressure.

FIG. 2 is a view for explaining the operation procedure of the press mold to which the conventional cushion equalizing device is applied. First, the equalizing cylinder 21 and the cushion cylinder 17 are in a raised state, and the injected blank 1 punches the punch 13. And the blank holder 14, the slide 11 and the upper die 12 are lowered to form the product.

Next, when the upper die 12 continues to be lowered, the upper die 12 and the blank holder 14 hold the blank 1 first, and equalization is performed by the pressing force of the slide 11.

At this time, while the equalization cylinder 21 is lowered and a uniform pressure acts on the cushion pin 15, the pressure of the equalization cylinder 21 is smaller than the pressure of the cushion cylinder 17.

Accordingly, the equalization control panel 25 controls the cushion pressure with the hydraulic pump 23, and the cushion cylinder 17 is operated by the pressure of the slide 11, and the equalization cylinder 21 pressure is the cushion cylinder 17. Will be greater than the pressure.

Then, in the state where the panel is formed, the equalization cylinder 21 exerts a uniform pressure on the cushion pin 15, the cushion cylinder 17 is lowered by the slide 11 pressing force, and the equalization control panel 25. To control the cushion pressure during molding.

At this time, the measurement system 26 calculates the actual cushion pressure of the entire molding process through the pressure sensor 24.

However, the above conventional cushion equalizing device has the following problems.

1) Since it uses hydraulic fluid (fluid), there are many difficulties in maintenance of the device due to leakage of hydraulic oil.

2) The hydraulic pipe is complicated and bulky.

3) In order to continuously control the cushion pressure by the compression of the fluid, the hydraulic pressure must be measured. Therefore, a separate control device is required.

Therefore, the present invention has been invented to solve the above problems, and instead of using a conventional hydraulic pressure equalizing cylinder using the pressure (hydraulic) of the hydraulic oil, it is configured by employing a solenoid operated pressure equalizing cylinder, Difficulty in maintenance due to leakage can be eliminated, and the configuration of the device can be simplified as well as the volume can be reduced as the hydraulic components are unnecessary, and a separate control device for controlling the hydraulic pump drive for cushion pressure control It is an object of the present invention to provide a cushioning equalization device of a press mold using a solenoid that does not need to constitute.

In order to achieve the above object, the present invention comprises a plurality of equalization cylinders for generating a cushion pressure, the equalization cylinders die pressure surface of the mold by generating a uniform pressure to transfer to the corresponding cushion pin In the cushion equalization device of a press die to apply a uniform pressure to the

Two solenoids are built in the housing of each of the equalization cylinders so that a repulsive force by magnetic force is applied, and the lifting and lowering operation is performed by the repulsive force between the two solenoids with a cylinder rod integrally connected to the cushion pin inserted into the housing. And, the equalization control panel is provided to control the current applied to each of the solenoid coil of the press die, characterized in that to control the cushioning pressure transmitted to the corresponding cushion pin through the lifting position of the cylinder rod and the cylinder rod Provide a cushion equalizer.

In a preferred embodiment, the fixed solenoid is fixed to the bottom inside the cylinder housing in each equalization cylinder, and the movable type is integrally moved with the cylinder rod in the lower part of the cylinder rod inserted into the housing through the guide hole above the cylinder housing. The solenoid is fixed, and the lifting position of the cylinder rod by the repulsive force is controlled as the strength of the current applied to the coils of the two solenoids is controlled.

Here, a linear scale sensor for detecting a distance between the two solenoids is installed in the housing of each equalization cylinder, and the detection signal of the linear scale sensor is connected to be input to the measurement system through the equalization control panel. It is done.

According to the present invention described above, instead of using a conventional hydraulic pressure equalizing cylinder that uses the pressure (hydraulic pressure) of the hydraulic oil, a solenoid operated pressure equalizing cylinder is adopted, whereby the following effects are obtained.

1) Conventional problems due to hydraulic use, that is, problems such as lack of cushion pressure and maintenance due to leakage of hydraulic oil, changes in cushion pressure due to hydraulic oil compression, and poor quality of mass-produced products can be solved. . Maintenance is easy and maintenance time can be reduced.

2) As the complicated and bulky hydraulic-related devices and parts such as hydraulic motor, hydraulic tank, hydraulic piping, and equalization manifold for cushion pressure (hydraulic) management are unnecessary, the configuration of the device is simplified and the volume is reduced. Can be. Cushion pressure monitoring equipment is unnecessary and there is no need to configure a separate control device for controlling the hydraulic pump drive for cushion pressure control.

3) It has the effect of reducing maintenance cost due to leakage of hydraulic oil, eliminating expensive hydraulic device, cost reduction due to no need to replace hydraulic oil (hydraulic oil), and manual labor cost for panel quality.

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cushion equalizing device for a press die using a solenoid cylinder. Instead of using a conventional hydraulic equalizing cylinder using a pressure (hydraulic) of hydraulic oil, a cushion of a press mold having a solenoid operated equalizing cylinder is provided. The equalizing device.

That is, the cushion equalizing device of the present invention is configured to improve the equalizing cylinder by the solenoid operation type so as to apply a uniform cushion pressure by the magnetic force of the solenoid instead of using the conventional hydraulic pressure.

As shown in Fig. 3, when a wire is wound into a coil shape (a shape wound in a cylinder) and a current flows, magnetic force is generated at both ends of the coil, and a metal such as iron is put in the solenoid (electromagnet).

In the present invention, each equalization cylinder is constructed using two solenoids.

That is, Figure 4 is a block diagram showing a solenoid-operated equalization cylinder of the cushion equalization device according to the present invention, as shown in the solenoid at the bottom inside the cylinder housing 27 in each equalization cylinder 21 29a is fixed to the inside of the cylinder housing through the guide hole 27a on the upper side of the cylinder housing 27 while being integrally connected to the upper cushion pin (not shown in FIG. 4). A solenoid (hereinafter referred to as a movable solenoid) 29b which is integrally moved with the cylinder rod is fixed to the lower portion of the inserted cylinder rod 28.

The two solenoids 29a and 29b are disposed at positions corresponding to the upper side and the lower side inside the cylinder housing 27 so that a repulsive force by magnetic force acts on each other, and the movable solenoid 29b is the cylinder housing 27. The cylinder rod 28 is integrally installed with the cylinder rod 28 which is capable of lifting and lowering through the guide hole 27a of the circumference, and moves the cylinder rod 28 integrally with the movable solenoid 29b during the repulsive action by the magnetic force. .

As a result, when a current flows through the coils constituting the solenoids 29a and 29b, a magnetic force is generated around the solenoid, and accordingly, the cylinder rod 28 is raised due to the repulsion generated by the magnetic force between the two solenoids 29a and 29b. do.

At this time, the strength of the magnetic force is changed according to the strength of the current, it is possible to adjust the strength of the force supported by the cylinder through the cylinder rod 28, in the present invention to the current in the solenoid coil of each equalization cylinder 21 It is the equalization control panel 25 which applies and especially controls the applied current.

In the present invention, the housing 27 of the equalization cylinder 21 is manufactured using a material capable of shielding a magnetic field, and for example, may be manufactured using a silicon steel sheet as a material.

In addition, the linearization sensor 21 detects and outputs a distance between the fixed solenoid 29a and the movable solenoid 29b in the equalization cylinder 21. The linear scale sensor 31 is a kind of distance sensor. Becomes

At this time, the linear scale sensor 31, the equalization control panel 25, the measurement system 26 so that the detection signal of the linear scale sensor 31 can be input to the measurement system 26 through the equalization control panel 25. Are connected to each other, and the measurement system 26 is formed from the distance between the two solenoids 29a and 29b and the strength of the current applied to the coils of the two solenoids 29a and 29b by the equalization control panel 25 during molding. Calculate the pressure.

FIG. 5 is a configuration diagram showing a press die provided with a cushion equalizing device of the present invention. As shown in FIG. 5, as the equalization cylinders, the solenoid operated equalization cylinder described in FIG. The linear scale sensor 31 which detects the distance between the fixed solenoid 29a and the movable solenoid 29b is provided in the cylinder 21, and the equalization control panel 25 is the coil of each solenoid 29a, 29b. Control the current applied to the point, the measurement system 26 receives the detection signal of the linear scale sensor 31 through the equalization control panel 25 to calculate the actual cushion pressure, equalization manifold and hydraulic pump Except that all of the conventional hydraulic components, such as hydraulic tank, hydraulic piping is deleted, the rest of the configuration is the same as the conventional.

In configuring the solenoid operated equalization cylinder as described above, the influence factors of the solenoid magnetic field strength include the number of coil turns, the coil thickness, the current strength, the core length and the thickness, and FIG. 6 shows the magnetic field strength according to each factor. It is a figure compared and shown.

In FIG. 5, the equalization cylinder 21 using solenoids 29a and 29b exerts a uniform cushion pressure by magnetic force by electricity (current), and the equalization control panel (or current control panel) 25 is The cushion pressure is adjusted by controlling the strength of the current applied to each solenoid 29a, 29b.

Hereinafter, referring to FIG. 7, the operation procedure of the press mold to which the cushion equalizing device of the present invention is applied is as follows.

First, in the state where the equalization cylinder 21 and the cushion cylinder 17 are raised, and the injected blank 1 is placed on the punch 13 and the blank holder 14, the slide 11 and the upper die for forming the product. 12 descends.

Next, when the upper die 12 continues to be lowered, the upper die 12 and the blank holder 14 hold the blank 1 first, and equalization is performed by the pressing force of the slide 11.

At this time, the solenoid equalization cylinder 21 is lowered, the uniform pressure acts on the cushion pin 15, the solenoid equalization cylinder pressure 21 is less than the cushion cylinder 17 pressure.

Accordingly, the equalization control panel 25 controls the intensity of the current to adjust the strength of the solenoids 29a and 29b. The cushion cylinder 17 is operated by the slide 11 pressing force, and the solenoid equalization cylinder 21 is operated. The pressure is greater than the cushion cylinder 17 pressure.

Then, in the state where the panel is formed, the solenoid equalization cylinder 21 exerts a uniform pressure on the cushion pin 15, and the cushion cylinder 17 is lowered by the slide 11 pressing force, and the equalization control panel 25 is applied. ) Adjusts the cushion pressure by controlling the strength of the current applied to the solenoids (29a, 29b) during molding.

At this time, the measurement system 26 calculates the actual cushion pressure in the whole molding process from the strength of the current applied to the solenoids 29a and 29b and the detection signal of the linear scale sensor 31.

1 is a configuration diagram of a press mold to which a conventional hydraulic cushion equalizing device is applied;

2 is a view for explaining the operation procedure of the press mold to which the conventional cushion equalizing device is applied;

3 is a view for explaining a solenoid used in the cushion equalizing device of the present invention,

Figure 4 is a block diagram showing a solenoid operated equalization cylinder of the cushion equalization device according to the present invention,

Figure 5 is a block diagram showing a press mold equipped with a cushion equalizing device of the present invention,

Figure 6 is a view showing a comparison of the magnetic field strength according to each factor of the solenoid employed in the present invention,

Figure 7 is a view showing the operation sequence of the press mold to which the cushion equalizing device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: blank 11: slide

12: Pictograph 13: Punch

14 blank holder 17 cushion cylinder

21: equalization cylinder 27: housing

28: cylinder rod 29a: fixed solenoid

29b: Movable solenoid 31: Linear scale sensor

Claims (3)

It comprises a plurality of equalization cylinders for generating a cushion pressure, the pressure equalization cylinders of the press mold to generate a uniform pressure and to deliver a uniform pressure to the die face of the die by applying to the corresponding cushion pins In the apparatus, Two solenoids are built in the housing of each of the equalization cylinders so that a repulsive force by magnetic force is applied, and the lifting and lowering operation is performed by the repulsive force between the two solenoids with a cylinder rod integrally connected to the cushion pin inserted into the housing. And, the equalization control panel is provided to control the current applied to each of the solenoid coil of the press die, characterized in that to control the cushioning pressure transmitted to the corresponding cushion pin through the lifting position of the cylinder rod and the cylinder rod Cushion Equalizer. The method according to claim 1, A fixed solenoid is fixed to a bottom inside the cylinder housing in each of the equalization cylinders, and a movable solenoid fixedly movable with the cylinder rod is fixed to a lower part of the cylinder rod inserted into the housing through a guide hole above the cylinder housing. Cushion equalizing device of the press die, characterized in that the lifting position of the cylinder rod by the repulsive force is controlled as the strength of the current applied to the coils of the two solenoids are controlled. The method according to claim 2, A linear scale sensor for detecting a distance between the two solenoids is installed in the housing of each equalization cylinder, and the detection signal of the linear scale sensor is connected to be input to the measurement system through the equalization control panel. Cushion equalizer for press mold.

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