KR20160023972A - Safety of Machine Tools Applied the Pattern and Method Using the Same - Google Patents

Abstract

The present invention provides a pattern applied safety device for a tool machine and a method using the same. The method using the pattern applied safety device for the tool machine comprises: a step of opening a locking part by supplying air to the inside to compress an inner spring; and a step of allowing the air on the inside to be moved outside to restore the inner spring and pushing the locking part connected to the inner spring to fixate a main part of the tool machine when an error occurs in the tool machine, thereby stopping the supply of electricity or air. In the step of pushing the locking part connected to the inner spring to fixate the main body part of the tool machine, a pattern is formed on the locking part, thereby firmly fixing the main body of the tool machine.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety device for a machine tool,

The present invention relates to a safety device for a machine tool to which a pattern is applied and a method of using the same. More particularly, the present invention relates to a safeguard apparatus and a method of using the safeguard apparatus that apply a pattern to guarantee the safety of a worker or a defect of the apparatus when a problem occurs in a gripper transport system.

In all modern industries, precision parts are being used in various forms, and new advanced industries are being developed more and more, and quality improvement and higher precision are required. New methods of machine tools are being developed in accordance with the need for quality improvement and high precision, and there are increasingly processes that improve the precision of the machine in various ways.

As these machine tools are developed, there is a great possibility that equipment defects can occur and it is more important to keep the safety of workers. There is a safety device called gripper to protect the safety of the operator in the event of sudden equipment failure or an unexpected situation.

In general, gripper is a safeguard of various machine tools that produce parts in various forms in modern industry. In addition, the gripper is mounted on a linear feed mechanism, which keeps the operator safe in the event of an electric supply or an unexpected situation, and locks the conveying part so as not to cause a defect in the equipment.

What is important in the gripper, which is a safety device of the machine tool, is that the gripping force of the locking part should be strong when the air supply is interrupted. This is because, when the gripping force of the portion to be locked in the gripper is weak, even if the gripping force is locked, it may not be fixed properly, which may jeopardize the safety of the operator, and mechanical defects may occur.

Accordingly, there is a need to more securely and securely fix the locking part when locking the machine tool, thereby protecting a mechanical defect or a user's safety

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and a method for mounting a pattern on a locking part, A safety device for a machine tool and a method using the same.

In addition, by inserting a cross-shaped pattern in the locking part, the gripping force of the locking part is strengthened when the air supply to the machine tool is interrupted, thereby increasing the frictional force and firmly fixing the machine tool, And to provide a safety device for a machine tool employing a pattern capable of protecting a user's safety and a method using the machine tool.

According to an aspect of the present invention, there is provided a method of using a safety device of a machine tool to which a pattern proposed in the present invention is applied, comprising the steps of: supplying air to compress an inner spring to open a locking part; And when the supply of electricity or the air is interrupted due to an abnormality in the machine tool, the air in the inside moves to the outside, the internal spring is restored, and the locking part connected to the internal spring is pushed, Wherein the step of securing the main part of the machine tool by pushing the locking part connected to the inner spring comprises the step of forming a pattern in the locking part to fix the main part of the machine tool .

In the step of locking the main part of the machine tool by pushing the locking part connected to the internal spring, a cruciform pattern may be formed on the locking part to fix the main part of the machine tool firmly.

The locking part is formed in the inside and is protruded by pressing, so that the pattern can firmly fix the main part of the machine tool.

According to another aspect of the present invention, there is provided a safety device for a machine tool to which a pattern proposed by the present invention is applied, the device being mounted on a machine tool and being supplied with air to open an inner spring, A locking part connected to the inner spring to fix a main part of the machine tool when the electricity or the supply of the air is interrupted, the air in the inner part moves to the outside and the internal spring is restored; And a pattern portion for fixing a main portion of the machine tool by forming a pattern on a surface of the locking portion that contacts the main portion of the machine tool.

The pattern portion may have a cruciform pattern engraved to firmly fix the main portion of the machine tool.

According to the embodiments of the present invention, it is possible to reduce the mechanical defects by adding a pattern to the locking part and securely fix it to the machine tool when locking the machine tool, A safety device of a machine tool and a method using the same can be provided.

In addition, by inserting a cross-shaped pattern in the locking part, the gripping force of the locking part is strengthened when the air supply to the machine tool is interrupted, so that the frictional force is increased and the machine tool is firmly fixed, A safety device of a machine tool using a pattern capable of protecting a user's safety and a method using the same can be provided.

1 is a view showing a gripper which is a safety device of a general machine tool.
2 is a view illustrating a safety device of a machine tool to which a pattern according to an embodiment of the present invention is applied.
3 is a flowchart showing a method using a safety device of a machine tool to which a pattern according to an embodiment of the present invention is applied.
4 is a diagram illustrating an example of application of a safety device for a machine tool to which a pattern according to an embodiment of the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a safety device for a machine tool to which a pattern is applied. More specifically, it is a device that can guarantee the defect of the equipment or the safety of the operator when a problem occurs in the gripper conveyance system, and it is possible to insert a cross-shaped pattern directly on the conveyance system to increase the frictional force, It is fixed.

In addition, a cruciform pattern is added to the locking part to secure more securely and firmly when locked to the machine tool, thereby reliably protecting mechanical defects and the safety of the user.

1 is a view showing a gripper which is a safety device of a general machine tool.

Referring to FIG. 1, a gripper 100, which is a safety device for a machine tool, is mounted on a machine tool 110 such as a linear feed mechanism to protect the safety of an operator when an electric supply or an unexpected situation occurs. It is possible to lock the conveying portion by the locking portion 120 so as not to occur.

In general, gripper is a safeguard of various machine tools which produce parts in various forms in modern industry. In addition, the gripper can be mounted not only on existing machine tools but also on semiconductor inspection equipment, large-scale printing equipment, laser processing machines, CNC lathe, etc. to prevent operator's safety and equipment defects in advance.

2 is a view illustrating a safety device of a machine tool to which a pattern according to an embodiment of the present invention is applied.

Referring to FIG. 2, a safeguard apparatus 100 of a machine tool to which a pattern is applied may include a machine tool 110, a locking unit 120, and a pattern unit 130.

The machine tool 110 may be a machine that is developed in a new way in accordance with the need for quality improvement and high precision such as a linear feed mechanism, and a machine which requires processes for improving the precision of the machine by various methods.

The locking part 120 may be mounted on a machine tool such as a linear feed mechanism. In operation, the locking portion 120 may be opened by compressing the inner spring by supplying air to the locking portion.

Thereafter, when an abnormality occurs in the machine tool and the supply of electricity or the air is interrupted, the internal air moves to the outside, and the internal spring can be restored. Accordingly, the locking part 120 can be connected to the inner spring to fix the main part of the machine tool.

The pattern unit 130 may have a pattern formed on one surface of the locking unit 120 that contacts the main part of the machine tool to fix the main part of the machine tool.

The shape of the pattern unit 130 is not limited, but a cruciform pattern is engraved, so that the main part of the machine tool can be firmly fixed. Here, the pattern unit 130 may be formed in various shapes as well as a cross shape.

3 is a flowchart showing a method using a safety device of a machine tool to which a pattern according to an embodiment of the present invention is applied.

Referring to FIG. 3, a method using a safety device of a machine tool to which a pattern is applied can be explained using a safety device of a machine tool to which a pattern engraved on a surface of a locking part for locking a machine tool is applied. have.

In step 210, air is supplied to a gripper, which is a safety device of the machine tool, to compress the inner spring so that the locking part can be opened.

In other words, when operating the gripper in a manner that locks the machine tool, air is continuously supplied to push the spring inside the gripper so that the locking part is opened .

In step 220, when an abnormality occurs in the machine tool and the supply of electricity or the air is interrupted, the air in the interior moves to the outside and the internal spring can be restored. The locking part connected to the inner spring may be pushed to fix the main part of the machine tool.

In other words, as the supply of power is interrupted or the supply of air is suddenly stopped during the operation of the machine tool, the air in the gripper moves to the outside and the spring that was being pushed is returned to its original state, Thereby pushing the locking portion. Accordingly, the gripper is fixed to the mounting portion when the locking portion is closed, thereby restricting the movement of the machine tool or the movement of the other main portion, thereby preventing defects in the equipment, and further, In case of sudden stop, locking can be performed to prevent an accident that may occur unexpectedly while the worker is working.

In the step of locking the main part of the machine tool by pushing the locking part connected to the internal spring, a pattern may be formed on the locking part to firmly fix the main part of the machine tool.

In addition, the step of locking the main part of the machine tool by pushing the locking part connected to the internal spring may form a cross-shaped pattern on the locking part to fix the main part of the machine tool firmly .

In other words, by adding a cross-shaped pattern to the locking part of the gripper to further increase the frictional force, the locking is made harder even when an error occurs in the machine tool, It is possible to securely protect the safety of the operator.

In addition, the locking portion may be formed in the interior of the machine tool, and may be protruded by pressing to firmly fix the major portion of the machine tool. In other words, the locking part is suddenly protruded from the inside and catches the main part of the machine tool. At this time, the locking part is protruded by pressing or the like so that the transfer system can not move, .

4 is a diagram illustrating an example of application of a safety device for a machine tool to which a pattern according to an embodiment of the present invention is applied.

Referring to FIG. 4, a safeguard apparatus of a machine tool to which a pattern is applied may mean a safeguard apparatus for various machine tools that produce parts in various forms. Such a patterned safety device for machine tools can be installed not only in conventional machine tools but also in semiconductor inspection equipment, large-scale printing equipment, laser processing machines, CNC lathe, etc. to prevent operator safety and equipment defects in advance .

For example, it can be used in semiconductors and FPD inspection equipment to determine the exact position of the stage with a simple design and to be firmly fixed. In addition, it can be used in a printing machine to fix a precise position of a substrate with a simple design, and also to save space.

Furthermore, it can be used in a slitting machine to maintain position fixation after movement of the blade according to the substrate size. It can be used in a laser processing machine to prevent falling of the laser head when the power is off, Lt; / RTI >

In addition, it can be used in CNC lathe to fix the position of the table, to prevent vibration, and to save space and cost.

Accordingly, the gripper may be continuously supplied with air when operating in a manner that locks the machine tool, and the locking portion may be opened by pushing the inner spring of the gripper . Thereafter, when the machine tool is operated, the power supply may suddenly be interrupted or the air supply may be interrupted. Then, when the air inside the gripper moves outward, the inner spring that was pushing back is returned to the original state, and the locking part connected to the inner spring can be pushed.

Accordingly, a gripper is fixed to a portion where the locking portion is closed when the locking portion is closed, and restriction of movement of the machine tool or other major portions can be prevented to prevent defects in the equipment. Furthermore, when the machine tool suddenly stops, it is possible to prevent an accident that may occur unexpectedly while the work is performed by locking.

The frictional force can be further increased by adding a cross-shaped pattern to the locked portion of the gripper. At this time, not only a cross shape but also various patterns capable of increasing frictional force can be applied to the pattern. Accordingly, even when an error occurs in the machine tool, the locking can be made more rigid to prevent the occurrence of defects in the equipment, and the safety of the operator can be reliably ensured.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (5)

A method using a safety device of a machine tool to which a pattern is applied,
Air is supplied to compress the inner spring to open the locking part; And
When the supply of electricity or the air is interrupted due to an abnormality in the machine tool, the air in the inside moves to the outside, the internal spring is restored, and the locking part connected to the internal spring is pushed, Fixing the main part
Lt; / RTI >
The step of locking the main part of the machine tool by pushing the locking part connected to the inner spring
And a pattern is formed on the locking part to firmly fix the main part of the machine tool
A method using a safeguard device of a machine tool applying a pattern characterized by the following. The method according to claim 1,
The step of locking the main part of the machine tool by pushing the locking part connected to the inner spring
And a cruciform pattern is formed on the locking part to firmly fix the main part of the machine tool
A method using a safeguard device of a machine tool applying a pattern characterized by the following. 3. The method according to claim 1 or 2,
The locking portion
And the pattern is protruded by pressing so as to firmly fix the main part of the machine tool
A method using a safeguard device of a machine tool applying a pattern characterized by the following. A safety device for a machine tool to which a pattern is applied,
And the air is supplied to the machine tool to compress the inner spring. When the supply of electricity or the air is interrupted due to an error in the machine tool, A locking part connected to the inner spring to fix a main part of the machine tool;
Wherein a pattern is formed on one surface of the locking part that contacts the main part of the machine tool to fix the main part of the machine tool,
And a safety device for the machine tool. 5. The method of claim 4,
The pattern portion
A cruciform pattern engraved to securely fix the major part of the machine tool
Wherein the pattern is applied to the surface of the workpiece.

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