KR100661090B1 - A returning type of a layer slide cover for cutting machine - Google Patents

Abstract

A reciprocal slide cover for a cutting tool machine is provided to prevent damage by chips and contamination by a cutting oil by closing an opened portion with the slide cover even when a head cover is reciprocated. A reciprocal slide cover for a cutting tool machine includes a heat cover(110), a slide cover(120), a spring(130), and a stopper(140). The head cover is reciprocally moved and a stepped portion is formed on one side of the head cover. The slide cover is located at the stepped portion of the head cover. One end of the spring is fixed to the slide cover and the other end thereof is fixed to the head cover to provide a resilient force when the spring is expanded or contacted as the slide cover is moved. The stopper is fixed to an opened portion so as to be interfered with the slide cover so that the slide cover closes the opened portion located in a movement range of the slide cover.

Description

Reciprocating single slide cover for cutting machine tools {A Returning Type of A layer Slide Cover for Cutting Machine}

1 is a perspective view showing a cutting machine tool provided with a reciprocating single slide cover according to an embodiment of the present invention,

Figure 2a is a side view showing a state in which the head cover of the cutting machine shown in Figure 1 is located at the lowest end,

FIG. 2B is a side view illustrating a process in which the head cover of the cutting tool machine shown in FIG. 2A moves upward.

Figure 2c is a side view showing a state in which the head cover of the cutting machine shown in Figure 2b is located at the top,

FIG. 2D is a rear view of the rear surface of the FIG. 2C state.

Explanation of symbols on the main parts of the drawings

100: tool fitting 110: head cover

111: step 113: buffer

120: slide cover 121: bending piece

130: spring 140: stopper

The present invention relates to a reciprocating single slide cover of a cutting machine tool, and in particular, the tool mounting port is moved by a feed shaft system having a relatively short feed distance, as well as protecting peripheral devices. It is configured to have.

In processing a workpiece by using a tool mounted on a tool fitting, the cutting oil is supplied to prevent thermal deformation of the workpiece and the tool due to frictional heat. Chips are also generated in the workpiece being machined.

Such chips and coolant are scattered during processing. The coolant is scattered and contaminates the peripherals, and the chips collide with the peripherals and destroy the peripherals.

Therefore, in order to protect the peripheral device by the cutting oil and chips scattered during processing, the movement path of the tool fitting is covered with protection means of various materials to prevent contamination and damage of the peripheral device from the flying cutting oil and chips.

Hereinafter, a conventional protection means will be described.

Protective means include a multi-stage slide cover, bellows cover, roll cover and the like.

Multi-stage slide cover is the most used and excellent sealing of the chip, but occupies a lot of mounting space may adversely affect the accuracy of the machine by pinching or twisting.

In addition, the bellows cover can be attached to a narrow mounting space and can be used efficiently in a relatively wide and long conveying distance, but since the sealing is not sufficient and it is not a metal cover, there is a problem of damage caused by a chip when used for a long time.

In addition, the roll cover can be attached to a narrow space like the bellows cover and can be used for a long conveying distance. However, when the cover width is widened, the roll cover is not smooth and the sealing direction is insufficient. Poor reactivity to

Thus, since each protection means has advantages and disadvantages, there is always a difficulty in selecting and applying, and in particular, it is necessary to develop a slide cover having excellent sealing property in a narrow installation space.

The present invention has been invented to solve the problems of the conventional slide cover as described above, and has an object to provide a reciprocating single slide cover having a relatively short conveying distance and requiring little mounting space. .

Reciprocating one end slide cover of the cutting machine tool of the present invention for achieving the above object is a linear reciprocating movement and one side head cover is formed with a step, a slide cover located at the step of the head cover, one end is a slide A spring fixed to the cover and the other end fixed to the head cover to expand and contract according to the movement of the slide cover and to provide an elastic force, and the opening around the opening such that the slide cover closes an opening located within a movement range of the slide cover. Technical features that comprise a stopper fixed to interfere with the slide cover.

In addition, according to a preferred embodiment of the present invention, the head cover is moved in the vertical direction, the stopper is formed to protrude toward the head cover at the lower end of the opening portion, the bent piece is formed in the slide cover to interfere with the stopper do.

In addition, according to a preferred embodiment of the present invention, a buffer in contact with the slide cover is attached to the inside of the step.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a reciprocating one end slide cover of a cutting machine tool according to the present invention will be described in detail.

1 is a perspective view showing a cutting machine tool having a reciprocating single slide cover installed therein according to an embodiment of the present invention, and FIG. 2A shows a state where the head cover of the cutting machine tool shown in FIG. Figure 2b is a side view, Figure 2a is a side view showing a process of moving the head cover of the cutting machine shown in Figure 2a upwards. 2C is a side view illustrating a state in which the head cover of the cutting tool machine illustrated in FIG. 2B is positioned at the top thereof, and FIG. 2D is a rear view illustrating the rear side of the FIG.

As shown in FIG. 1, the tool mounting hole 100 is equipped with a head cover 110 so that the tool mounting hole 100 and the head cover 110 move together in an up and down direction.

One head of the slide cover 120 is positioned on the rear surface of the head cover 110 of the structure, and one end of the spring 130 is fixed to the upper end of the slide cover 120. And the other end of the spring 130 is fixed to the upper side of the head cover 110. The spring 130 is a compression coil spring, and provides an elastic force to move the slide cover 120 upward.

Meanwhile, a step 111 of a space in which the slide cover 120 may be located is formed on the rear surface of the head cover 110. Therefore, the slide cover 120 may be located inside the step 111 formed on the rear surface of the head cover 110 by the elastic force of the spring 130, the spring when the force is applied to move the slide cover 120 downward As the 130 is tensioned, the slide cover 120 moves downward relative to the head cover 110.

Meanwhile, a stopper 140 that interferes with the slide cover 120 is formed at a moving distance of the head cover 110, that is, in the middle of the stroke, and the stopper 140 interferes with the slide cover 120 to allow a slide cover ( 120 no longer moves upward along the head cover 110. More specifically, the opening part 1 is formed on the side wall on which the head cover 110 is moved, and the stopper 140 protrudes toward the head cover 110 at the lower end of the opening part 1. In addition, bending pieces 121 protruding outward are formed at both sides of the slide cover 120 so that the slide cover 120 moves upward, and the stopper 140 and the bending pieces 121 interfere with each other.

Hereinafter will be described the operation relationship of the reciprocating single slide cover of the present invention configured as described above.

As shown in FIG. 2A, when the head cover 110 is located at the lowest end, the head cover 110 has the shortest length of the spring 130 and the slide cover 120 is located inside the step 111 of the head cover 110. Located at the bottom with the head cover 110 in a positioned state.

In this state, the opening 1 of the side wall shown on the left side of FIG. 2A is covered by the head cover 110.

On the other hand, when the head cover 110 moves upward, the head cover in a state in which the spring 130 is contracted to the shortest length, and the slide cover 120 is located inside the step 111 of the head cover 110. Move upward with 110.

As the slide cover 120 moves upward as described above, the bent pieces 121 formed on both sides of the slide cover 120 interfere with the stopper 140 protruding from the side wall. In the state where the bent piece 121 interferes with the stopper 140 in this way, as shown in FIGS. 2C and 2D, when the head cover 110 is further moved upward, the slide cover 120 stops ( Since the upward movement is stopped by the 140, only the head cover 110 is moved upward. As the slide cover 120 stops and the head cover 110 moves upward in this way, the length of the spring 130 is extended.

Here, the stationary slide cover 120 is closing the opening 1 formed in the side wall so that the slide cover 120 is still open 1 even if the head cover 110 moves upwards to the opening 1. Is placed in the closed state. Therefore, it is possible to protect equipment inside the side wall from chips and cutting oil generated during processing.

On the contrary, when the head cover 110 is moved downward, the slide cover 120 is in the state of interference with the stopper 140, the head cover 110 is moved downward while the length of the spring 130 is contracted, the head Since the slide cover 120 is positioned on the stepped 111 of the cover 110, the slide cover 120 interferes with the stepped 111 and moves downward together with the head cover 110.

Therefore, even if the head cover 110 moves upward and downward, the opening 1 of the side wall is not opened but is always closed.

In addition, the buffer 113 is attached to the inside of the step 111 of the head cover 110 in order to cushion the noise and vibration generated when the slide cover 120 moves up and down and comes into contact with the head cover 110. .

As described in detail above, even if the head cover is reciprocated, the reciprocating single slide cover of the present invention can prevent damage by chips or contamination by cutting oil by closing the opening with the slide cover.

In addition, the reciprocating single slide cover of the present invention is composed of one stage of the slide cover, so that the thickness and width are small, does not significantly affect the size of the equipment, compared to the conventional slide cover can be configured to a very thin thickness.

In addition, since the slide cover is moved by the spring force and the interference of the head cover, the reciprocating single slide cover of the present invention has a small number of failures, and no malfunction occurs.

In addition, the reciprocating single slide cover of the present invention reduces the occurrence of noise by attaching a buffer to the contact area between the slide cover and the head cover.

Although the technical idea of the reciprocating single slide cover of the cutting machine tool of the present invention has been described above with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

Claims (3)

Linear reciprocating movement and one side head cover is formed with a step, A slide cover positioned at a step of the head cover; One end is fixed to the slide cover and the other end is fixed to the head cover and the spring to stretch and provide elastic force in accordance with the movement of the slide cover, And a stopper fixed to interfere with the slide cover around the opening such that the slide cover is closed in an opening located within the movement range of the slide cover. The method of claim 1, The head cover moves in the vertical direction, and the stopper is formed to protrude toward the head cover at the lower end of the opening, and the slide cover is a reciprocating end of the cutting machine tool, characterized in that the bending piece is formed to interfere with the stopper Slide cover. The method according to claim 1 or 2, A reciprocating single slide cover of a cutting machine tool, characterized in that a buffer is in contact with the slide cover inside the step.

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