KR20100061888A - Apparatus for increasing machining distance of vertical type machine tool - Google Patents

Abstract

PURPOSE: A device for increasing the machining distance of a vertical machine tool is provided to increase the process distance in a vertical direction without changing peripheral and column. CONSTITUTION: A device for increasing the machining distance of a vertical machine tool comprises a cylinder(20), an hydraulic pressure supply units for downward and upward transfers(30,40), and a solenoid valve. A cylinder perpendicularly reciprocates a boring bar(10). The hydraulic pressure supply units for downward transfer supplies the fluid pressure to the top of the cylinder. The boring bar combined in the cylinder is transferred to a transferred downward in a vertical direction. The hydraulic pressure supply units for upward transfer supplies the fluid pressure to the lower part of the cylinder. The boring bar combined in the cylinder is transferred to the vertical upward.

Description

Apparatus for increasing machining distance of vertical type machine tool}

The present invention relates to an apparatus for increasing the machining distance of a vertical machine tool, and more particularly to an apparatus for the addition of a vertical machine tool for increasing the maximum machining distance in the vertical direction in a vertical turning center.

A vertical machine tool with a vertically arranged tool spindle, a patented vertical turning center is provided with a servo motor 1 which transmits a driving force for tool rotation and turret indexing, as shown on the left side of FIG. A mounted turret 5 capable of tool indexing, a tool post body 4 for reciprocating the turret 5 in the vertical direction by the power of the servo motor 1, the servo motor 1, The turret 5, the column 3 which supports and accommodates the tool post body 4, and the ball screw 2 which connects the servo motor 1 and the tool post body 4 are comprised.

And, the tool holder 6 provided adjacent to the turret 5 is equipped with a boring bar (boring bar) for processing the inner diameter of the workpiece (W) to process the workpiece (W) fixed to the chuck (C). . At this time, the tool postbody 4 can be properly moved in the vertical (Z-axis) direction within a limited stroke (transportable distance) by using the servo motor 1 to bring the tool close to the workpiece W. It is.

However, when machining the inner diameter of the workpiece (W) by using the boring bar 10, depending on the depth of the workpiece (W), in some cases additional tool machining distance is required beyond the Z-axis stroke that can be implemented. .

In this case, in order to increase the maximum inner working distance of the workpiece without changing the Z-axis stroke as shown in the right side of Fig. 1, the length of the boring bar 10 is increased (L2? L2 '), and accordingly The method of increasing the length of the column 2 (L1-> L1 ', (DELTA L1)) was used.

According to the conventional method, however, in order to avoid the risk of the interference between the tool and the workpiece W when indexing the turret 5, a larger axis feed is used in the Z-axis (or X-axis) direction, which delays the cycle time. It became the main factor.

In addition, according to the conventional method, since the length of the column 3 is changed, a peripheral device such as a cover is inevitably changed accordingly, which is a factor that lowers the delivery date and productivity due to a decrease in the production efficiency of machine tools.

The present invention is to solve the above problems, the present invention is a vertical turning center, machine tool by increasing the vertical maximum machining length of the workpiece in an effective and simple way without changing the peripheral devices such as columns and covers It is a technical problem to improve manufacturing productivity and efficiency.

In order to achieve the above object, in the present invention, the tool for processing the inner diameter of the workpiece, that is, the boring bar can be independently transferred in the vertical direction, thereby increasing the effective effective distance in the vertical direction without changing peripheral devices such as columns of existing machine tools. To make it work.

More specifically, the machining distance increasing apparatus of the vertical machine tool according to the present invention is coupled to the tool post body (4) is conveyed together with the tool post body (4) and the boring bar 10 by itself in the vertical direction A cylinder 20 to allow the reciprocating conveyance to the air; A downward supply hydraulic pressure supply unit 30 for supplying hydraulic pressure to the upper portion of the cylinder 20 to transfer the boring bar 10 coupled to the cylinder 20 vertically downward; An upward supply hydraulic pressure supply unit 40 for supplying hydraulic pressure to the lower portion of the cylinder 20 so that the boring bar 10 coupled to the cylinder 20 is vertically upwardly transferred; The solenoid which controls the conveying direction of the boring bar 10 by allowing the hydraulic pressure transmitted to the cylinder 20 to be alternatively transmitted through any one of the downward conveying hydraulic supply 30 or the upward conveying hydraulic supply 40. Valve; characterized in that it comprises a.

On the other hand, the boring bar 10 is preferably a long boring bar 10 whose length is increased corresponding to the transportable distance of the cylinder (20).

According to the device of the present invention, it is effective to process the inner diameter of a workpiece using a boring bar in a vertical turning center, and to process a workpiece that requires a longer machining distance than the feed stroke area of a previously set machine without changing columns or other peripheral devices. Machinable distance can be increased.

That is, the present invention is provided with a transfer means capable of independently moving the boring bar itself up and down in addition to the tool post body, it is possible to increase the vertical machining distance without changing the column and peripheral devices, and interference between the tool and the workpiece during machining It is possible to minimize the assembly and machining productivity of the machine tool.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a view showing a machining distance increasing apparatus according to the present invention applied to a vertical machine tool.

As shown, the basic configuration of the vertical machine tool on which the apparatus of the present invention is mounted is almost similar to the conventional one.

That is, the vertical machine tool has a servo motor 1, a turret 5 equipped with a plurality of tools and capable of tool indexing, and the turret 5 in a vertical direction by the power of the servo motor 1. Tool post body (4) for reciprocating transfer, column (3) for supporting and receiving the servo motor (1), turret (5), tool post body (4), servo motor (1) and tool post body ( It consists of a ball screw (2) connecting 4).

In addition, in the vertical machine tool shown in FIG. 2, the height L1 of the column 3 does not increase, and is equal to the height L1 of the column 3 of the conventional vertical machine tool shown in the left side of FIG. 1. It can be confirmed that it is maintained.

However, unlike the prior art in which the tool holder 6 was provided adjacent to the turret 5 for mounting the boring bar 10, the present invention is different from the fact that the boring bar 10 is connected to the separately provided cylinder 20. Do.

Hereinafter, the configuration of the processing distance increasing apparatus for the vertical machine tool according to the present invention will be described based on the newly added configuration.

As shown, the machining distance increasing apparatus according to the present invention is composed of a cylinder 20, a downward feed hydraulic supply 30, an upward feed hydraulic supply 40 and a solenoid valve (not shown) have.

The cylinder 20 is connected to the boring bar 10 to allow the boring bar 10 of the cylinder 20 to be moved up and down. In addition, the cylinder 20 is coupled to the tool post body 4 when the tool post body 4 is transferred vertically (Z axis) by the servo motor 1 and the transfer bar coupled thereto ( 10) is also conveyed together.

In addition, in order to vertically reciprocate the boring bar 10 up and down in the cylinder 20 itself, the cylinder 20 is provided with a downward supply hydraulic supply unit 30 and an upward transfer hydraulic supply unit 40.

The downward supply hydraulic supply unit 30 is an inflow passage provided at the upper portion of the cylinder 20 to supply hydraulic pressure to the cylinder 20, and when the hydraulic pressure is transmitted to the downward transfer hydraulic supply unit 30, the hydraulic supply unit 30 is coupled to the cylinder 20. Boring bar 10 is to be transferred vertically downward.

The upstream hydraulic pressure supply unit 40 is an inflow passage provided in the lower portion of the cylinder 20 to supply the hydraulic pressure to the cylinder 20, and when the hydraulic pressure is transmitted to the upwardly supplied hydraulic supply unit 30, the cylinder 20 is coupled to the cylinder 20. Boring bar 10 is to be transferred vertically upward.

The downward feed hydraulic supply 30 and the upward feed hydraulic supply 40 can employ any conduit to which hydraulic pressure can be supplied, and can typically employ a hose made of polymer.

Solenoid valve (not shown) serves to control the conveying direction of the boring bar (10). Specifically, the solenoid valve allows the hydraulic pressure to be selectively delivered to any one of the downwardly supplied hydraulic supply 30 or the upwardly supplied hydraulic supply 40. If the hydraulic pressure is delivered to the downward feed hydraulic supply unit 30 by the control of the solenoid valve will be transferred to the boring bar 10, the hydraulic pressure is delivered to the upward feed hydraulic supply unit 30 by the control of the solenoid valve. Boring bar 10 is to be transferred upward.

With this configuration, the boring bar 10 has a Z-axis stroke due to the Z-axis transfer of the tool post body 4, and the boring bar 10 itself can be vertically transferred to the cylinder 20 by itself. 3) and the processing feed distance can be increased without changing the peripheral device. Thus, the long boring bar 10 having a longer boring bar 10 than the standard size can be used without changing the column 3 and the peripheral device.

According to the configuration described above will be described the process of operating the device according to the present invention.

First, the cylinder 20 assembled with the boring bar 10 is assembled to the tool post body 4.

When the machining is started, the boring bar 10 may further secure the machining distance provided by the cylinder 20 together with the vertical machining distance secured by the Z-axis stroke of the tool post body 4.

That is, as the tool post body 4 is moved by the servo motor 1, the cylinder 20 and the boring bar 10 attached thereto are also transferred to the Z axis, and separately by the operation of the cylinder 20. Since the boring bar 10 itself moves downward, the inner surface of the workpiece W having a deep processing depth can be effectively processed.

When the machining is completed, the cylinder 20 raises the boring bar 10 to the initial position, and the tool post body 4 is transferred to the position outside the interference area with the tool by the servo motor 1.

Although specific embodiments of the present invention have been described above, the spirit and scope of the present invention are not limited to the specific embodiments, and various modifications and changes can be made without departing from the spirit of the present invention. It will be understood by those skilled in the art to which the present invention pertains.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

1 is a view for explaining a method for increasing the vertical machining distance of the vertical machine tool according to the prior art.

Figure 2 is a view showing a state in which the vertical machining distance increasing device is applied to a vertical machine tool in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

C: Chuck W: Workpiece

1: servomotor 2: ball screw

3: column 4: toolpost bodies

5: turret 6: toolholder

7: reference point 10: boring bar

20: cylinder 30: hydraulic supply for downward conveyance

40: hydraulic supply for upward transfer

Claims (2)

A servo motor 1, a turret 5 on which a tool is mounted, a tool post body 4 for reciprocating the turret 5 in a vertical direction by the power of the servo motor 1, and the servo motor (1) the vertical machining of the boring bar 10 for boring the workpiece W in a vertical machine tool comprising a turret 5 and a column 3 supporting and accommodating the tool post body 4. Apparatus for increasing the processing distance of vertical machine tools to increase the distance, A cylinder 20 installed in the tool post body 4 for reciprocating the boring bar 10 in a vertical direction; A downward supply hydraulic pressure supply unit 30 for supplying hydraulic pressure to the upper portion of the cylinder 20 to transfer the boring bar 10 coupled to the cylinder 20 vertically downward; An upward supply hydraulic pressure supply unit 40 for supplying hydraulic pressure to the lower portion of the cylinder 20 so that the boring bar 10 coupled to the cylinder 20 is vertically upwardly transferred; The solenoid which controls the conveying direction of the boring bar 10 by allowing the hydraulic pressure transmitted to the cylinder 20 to be alternatively transmitted through any one of the downward conveying hydraulic supply 30 or the upward conveying hydraulic supply 40. valve; Apparatus for increasing the processing distance of the vertical machine tool, characterized in that it comprises a. The method of claim 1, The boring bar (10) is a machining distance increase device of the vertical machine tool, characterized in that the long boring bar (10) is increased in length corresponding to the transportable distance of the cylinder (20).

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