KR200203333Y1 - Machining center for right and left symmetry manufacture - Google Patents

Abstract

The present invention relates to a machining center, the body assembly 110 formed on the support 100, the front and rear along the guide rail 112 formed on the body assembly 110 and formed on the body assembly 110 Moved to the bed 200 and the workpiece is located on the upper surface of the body assembly 110, the vertical shape on each of the two sides of the body assembly 110 is formed in a U-shape and the guide rail 320 is formed in a vertical direction on the upper front surface (300) ), And is guided to the guide rail 320 formed on the front of the column 300 flows up and down, the Shanghai East unit 400, the cross rail 410 is formed on the front, and is formed on the front of the Shanghai East unit, In the machining center consisting of the left and right movement unit 500 moved to the right, the left and right movement unit 500 is formed on the front surface of the Shanghai copper unit 400, the coupling 511 is formed in the center, the coupling ( 511) the left and right sides Left handed, the right handed provided that the symmetry referred songyong ball screw 510, and; It is coupled to the left side based on the coupling 511 formed on the symmetrical transfer ball screw 510, the cross-rail 410 formed on the Shanghai Dong unit 400 by the rotation of the symmetrical transfer ball screw 510 A left moving unit 520 which is moved left and right along; The right side is coupled to the right side based on the coupling 511 formed on the symmetrical transfer ball screw 510 and is moved to the left and right symmetrically with the left side movement unit 520 by the rotation of the symmetrical transfer ball screw 510. A moving unit 530; And a processing head 540 formed on each of the left and right moving units to process the workpiece. Left and right symmetry, wherein the workpiece comprises a left and right symmetrical workpiece simultaneously. Machining centers are technically important. Thus, by moving a set of machining heads left and right symmetrically, there is an advantage in that the workpieces symmetrical left and right symmetrical processing simultaneously.

Description

Machining center for right and left symmetry manufacture}

The present invention relates to a workpiece machining head device of a machining center, and more particularly, to form a pair of machining heads of a machining center, and to move a pair of machining heads left and right symmetrically, thereby achieving left and right symmetry. It relates to a left and right symmetrical machining center for simultaneously processing the left and right symmetrical shapes.

In general, a CNC (Computerized Numerical Control) device that can be automatically three-dimensional machining by adding a three-dimensional processing function and a computer-based numerical control function has been widely used in the machining of molds, mechanical parts, and the like. In addition, the CNC machine concept has been introduced into the door-type machining center, and is widely used for automatic three-dimensional machining.

A general description of such a conventional machining center is briefly described with reference to FIG. 1. As shown, the door-shaped machining center is formed in the body assembly 11, the body assembly 11 formed on the support 10, front and rear along a guide rail (not shown) formed on the body assembly 11 Moved to the bed 12 and the workpiece 12 is located on the upper surface, and formed on each of both sides of the body assembly 11 in a vertical shape on the upper side and a guide rail (not shown) in the vertical direction on the upper front ( 13) and guided by a guide rail, which is moved up and down, and is guided to a cross-rail (not shown) formed on the shanghai east unit 14 and the shanghai east unit 14 having a cross rail (not shown) on the front side. It comprises a processing head 15 flowing to the right, the tool 16 is chucked to the lower end of the processing head to process the workpiece.

The processing of the workpiece by the door-type machining center includes the front and rear movement of the bed 12, the vertical movement of the shanghai copper unit 14, and the processing head (with the workpiece placed on the bed 12). By moving in the left and right directions of 15), the three-dimensional machining of the workpiece is performed by the organic movement of the bed 12, the shanghai copper unit 14 and the machining head 15.

As for the processing head 15 used for processing such a conventional workpiece, it is common to use a single processing head 14 formed on the front surface of the shanghai copper unit 14.

However, in order to process a shape in which the left and right sides are identical and symmetrical, such as a shoe mold in which left and right are symmetrically distinguished, and a left and right door of a vehicle, one side of the workpiece is processed, Processing. As described above, when the left and right sides are processed separately, the work process is lengthened, and thus, a lot of working time is required, thereby lowering productivity.

In addition, when the right side is processed after the left side processing, chucking errors may occur when the workpiece is chucked to the bed, and the left side and the right side may be processed separately, thereby causing a machining error.

Therefore, the present invention has been devised to solve the above problems, by forming a machining head of the machining center in a pair, by moving a set of machining heads left and right symmetrically, a workpiece having a left and right symmetry It is an object of the present invention to provide a left and right symmetrical machining center for simultaneously machining left and right symmetrical shapes.

In addition, since the left and right symmetrical workpieces are processed in one process, it is another object to shorten the machining time and improve productivity while preventing machining errors from occurring.

1-a view showing a conventional machining center

Figure 2-Front view showing a left, right symmetric machining center according to the present invention

3-side view showing a left and right symmetric machining center according to the present invention

Figure 4 shows a ball screw for symmetrical movement of the left and right symmetric machining center according to the present invention

5-Process diagram of the machining center according to the present invention

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

100: support 110: body assembly

111: ball screw 112: guide rail

200: bed 201: guide coupling portion

300: column 310: ball screw

320: guide rail 400: Shanghai East Unit

410: cross rail 500: left and right moving unit

510: Ball screw for symmetrical transfer 511: Coupling

520: left moving unit 521: ball nut

530: right shift unit 531: ball nut

540: machining head 541: tool

The present invention for achieving the above object, the body assembly formed on the support, and the bed formed on the body assembly and moved forward and backward along the guide rail formed on the body assembly and the workpiece is located on the upper surface and And a Shanghai copper unit formed in a vertical shape on each side of each side of the body assembly and having a guide rail formed on the upper front side, and a guide rail formed on the front rail, flowing up and down, and having a cross rail formed on the front surface thereof. In the machining center consisting of a left and right moving unit which is formed on the front of the left and right moving unit, the left and right moving units are formed on the front surface of the Shanghai copper unit, the coupling is formed in the center, the left centering around the coupling A symmetrical transfer ball screw formed with a left screw and a right screw having right sides symmetric to each other; A left moving unit coupled to the left side based on the coupling formed on the ball screw and moving left and right along a cross rail formed on the shanghai east unit by rotation of the ball screw; A right side movement unit coupled to the right side based on the coupling formed on the ball screw and moved left and right symmetrically with the left side movement unit by rotation of the ball screw; And a processing head which is formed on each of the left and right moving units to process the workpiece. The machining center includes a left and right symmetrical machining center which comprises a left and right symmetrical workpiece simultaneously. To provide a technical gist.

Thus, by moving a set of machining heads left and right symmetrically, there is an advantage in that the workpieces symmetrical left and right symmetrical processing simultaneously.

With reference to the drawings showing the left, right symmetric processing center according to the present invention having the configuration as described above in detail.

2 is a front view showing a left and right symmetric machining center according to the present invention, Figure 3 is a side view showing a left and right symmetric machining center according to the present invention, Figure 4 is a left, right symmetric processing according to the present invention The ball screw for symmetrical movement of the machining center is shown.

As shown, the door-shaped machining center is formed on the body assembly 110 and the body assembly 110 formed on the support 100 and moves forward and backward along the guide rail 112 formed on the body assembly 110. The column 200, the column 300 is formed in the shape of a vertical shape on each of the two sides of the bed 200, the body assembly 110, the processing workpiece is located on the upper surface and the guide rail 320 in the vertical direction on the front surface of the upper column, column Guided to the guide rail 320 formed on the front of the 300 flows up and down and is formed on the front of the Shanghai East unit 400, Shanghai East unit 400, the cross-rail 410 is formed on the front and move left and right The left and right movement unit 500 is made.

Body assembly 110 is formed on the support, the center is formed with a ball screw 111 for driving the bed 200 in the front and rear direction, the ball screw 111 is fixed to one end of the ball screw 111, The servo motor M1 for driving in the reverse direction is provided. In addition, guide rails 112 are formed to guide the front and rear movement of the bed 200 formed on the body assembly 110 and spaced apart from both sides of the ball screw 111. The LM guide is used as the guide rail 112, and LM guides are formed at two positions at both sides to give an accuracy of the front and rear movement of the bed. Since the guide form by the LM guide is a guide form widely used in the art, detailed description thereof will be omitted. In addition, the column 300 is formed on both sides of the body assembly 110.

The bed 200 is formed on the body assembly 110 and moved in the front and rear directions, and the left and right symmetric processing workpieces are positioned and processed on the upper surface. The lower part of the bed 200 is screwed with the ball screw 111 formed on the body assembly 110, the guide coupling portion 201 is formed on the lower surface of both sides is coupled to the guide rail 112 to the bed 200 It will guide the forward and backward movement of.

The column 300 is formed in the shape of the upper side of the body assembly 110, the upper side is spaced apart from each other. In addition, the front surface of the upper center of the column 300 is provided with a servo motor M2 for transmitting driving force to the one-way ball screw 310 and the ball screw 310 in the vertical direction, and predetermined to both sides of the ball screw 310. The guide rails 320 are spaced apart from each other in the vertical direction. The guide rail 320 uses the same as the LM guide formed in the body assembly 110. The ball screw 320 and the guide rail 320 are coupled to the shandong copper unit 400 formed on the front surface of the column 300 to be shanghai.

Shanghai copper unit 400 is screwed with the ball screw 310 formed in the vertical direction on the upper front side of the column 300, guided by the LM guide rail 320 formed in the vertical direction on both sides of the column 300, the upper and lower Is moved. In addition, the cross rail 410 is formed on the upper side and the lower side of the front surface of the Shanghai copper unit 400 to guide the left and right movement of the left and right movement unit 500 coupled to the front surface. The cross rail 410 uses the same LM guide as the guide rails 112 and 320 formed in the body assembly 110 and the column 300.

The left and right movement unit 500 is formed on the front surface of the Shanghai east unit 400, the left and right sides of the coupling 511 symmetrically transfer ball screw 510, the symmetry of the left and right screws are formed symmetrically, the symmetry is It is formed on the left side movement unit 520 coupled to the left side of the ball screw 510 for transport, the right side movement unit 530 coupled to the right side of the ball screw 510 for symmetry, and the left side and right side movement units 520 and 530, respectively. It is made of a processing head 540.

As shown in FIG. 4, the ball screw 510 for the symmetrical transfer is formed on the shandong copper unit 400 which is formed on the front surface of the column 300 formed on the body assembly 110 and flows up and down. Coupling ball screw 510 has a coupling 511 is formed in the middle portion, forming a left, right boundary around the coupling 511, the symmetrical screw is formed on both sides. When the left side thread is formed on the left side based on the coupling 511, the right side thread is formed to be symmetrical with the left side. Alternatively, if the left side is formed with the right screw, the right side is formed with the left screw symmetrically with the left side. When formed in this way, since the advancing direction of the ball screw 510 of the left and right when the rotation in the same rotation direction is made in the opposite direction, the left moving unit 520 and the right moving unit 530 coupled to each of the left and right are mutually The symmetrically moved workpieces can be simultaneously symmetrically formed on the left and right sides.

Then, one end of the symmetrical transfer ball screw 510 is fixed to be rotated on the end side of the Shanghai copper unit 400, the other end is fixed to the Shanghai copper unit 400, the end of the servo motor (M3) ) Is connected and connected. Servo motor (M3) is installed at one end of the Shanghai copper unit 400 and provides a driving force to the symmetric transfer ball screw 510 to rotate the symmetric transfer ball screw 510 in the forward and reverse directions, The left and right movement units 520 and 530 coupled to the left and right sides of the symmetrical transfer ball screw 510 are symmetrically moved in opposite directions by the rotation of the symmetrical transfer ball screw 510.

The left moving unit 520 is coupled to the left side of the cross rail 410 formed on the front surface of the Shanghai east unit 400 and screwed to the left side of the symmetrical transfer ball screw 510 to provide the symmetrical transfer of the ball screw 510. It is moved left and right by rotation. In addition, a ball nut 521 is formed in the left moving unit 520, and is screwed to the left side of the symmetrical transfer ball screw 510 formed in the Shanghai movable unit 400 to rotate the symmetrical transfer ball screw 510. Is moved left and right by. The reason for using the ball screw 5510 and the ball nut 521 as described above is to allow the left movement unit 520 to be accurately moved during the left and right movement of the left movement unit 520.

In addition, a machining head 540 is inserted into and coupled to the front portion of the left moving unit 520, and a servo motor M4 is provided at the top to provide a driving force to the machining head 540. The servo motor M4 provides a driving force to the machining head 540 to rotate the tool 541 fastened in front of the machining head 540 and the left machining workpiece or the workpiece to be positioned above the bed 200. The left side of the is processed.

The right side movement unit 530 is coupled to the left side of the cross rail 410 formed on the front surface of the Shanghai east unit 400 and screwed to the right side of the symmetrical transfer ball screw 510 of the symmetrical transfer ball screw 510. It is moved left and right by rotation. The right movement unit 530 is configured in the same manner as the left movement unit 520, and moved symmetrically with the left movement unit 520, a detailed description thereof will be omitted.

In addition, a machining head 540 is inserted into and coupled to the front portion of the right movement unit 530 in the same manner as the left movement unit 520, and a servo motor that provides a driving force to the machining head 540 at the upper portion thereof. M4 ') is formed in the same manner as the left moving unit to process the right side workpiece or the right side of the workpiece.

The left moving unit 520 and the right moving unit 530 as described above are guided by an LM guide formed in front of the Shanghai moving unit 400, and are coupled to the left and right sides of the symmetrical transfer ball screw 510, respectively. By the rotation of the symmetrical transfer ball screw 510 is moved to the left and right symmetry. That is, when the left side movement unit 520 is moved to the left side, the right side movement unit 530 is moved to the right side. In addition, when the left side movement unit 520 is moved to the right side, the right side movement unit 530 is moved to the left side, so that the symmetrical shape of the same dimension can be processed without error when the symmetrical shape processing is moved in opposite directions to each other. .

The processing head 540 is coupled to the processing head coupling portion () formed inside the front and rear of the left and right moving units 520 and 530, and the lower portion protrudes from each of the left and right moving units 520 and 530. In addition, servo motors M4 and M4 'are provided on the upper side of each of the left and right moving units 520 and 530 to provide forward and reverse driving force to the processing head 540, respectively. In addition, the tool 541 is coupled to the lower end of the processing head 540 to process the workpiece located on the bed 200.

The processing of the door-type machining center equipped with the left and right symmetric machining centers according to the present invention having the above configuration will be described with reference to FIG. 5.

As shown, the door-shaped machining center is formed on the body assembly 110 and guided to the LM guide rail 112 to rotate the ball screw 111 by forward and reverse rotation of the servo motor M1, before and after The ball screw is driven by the forward and reverse rotation of the bed 200 moved in the direction and the servo motor M2 formed on the upper side of the column 300 and guided to the LM guide rail 320 formed on the upper front side of the column 300. As the 310 is rotated, it is coupled to the left and right sides of the Shanghai copper unit 400 and the symmetrical transfer ball screw 510 formed on the front surface of the Shanghai copper unit 400, respectively. By rotating the ball screw 510 for the symmetrical transfer by the forward and reverse movement of M3), the movement of the left and right movement units 520 and 530, which are moved left and right in each of the left and right sides, is organically combined to make a three-dimensional movement. do.

And, the front and rear movement is made by the bed 200, the workpiece is placed, the up and down movement is made by the Shanghai East unit 400, the left and right movement is symmetrically each Workpieces placed on the bed 200 by the left and right movement units () moved from left and right to left and right (shoe molds forming a pair of left and right, parts distinguished by symmetrical shapes such as left and right) The left and right machining heads 540 which are in contact with each of the upper and left upper surfaces of the machining head 540 are symmetrically moved in three dimensions, thereby processing the left and right workpieces in a symmetrical shape. In addition, the processing head 540 is rotated by the driving force of the servo motors M4 and M4 'formed on the upper left and right moving units 520 and 530 to rotate the tool 541 coupled to the front of the processing head 540. As a result, the tool 541 processes the workpieces on the left and right sides on which the bed 200 is placed.

In addition, although the processing head 540 formed on the left and right moving units 520 and 530 is simultaneously moved to the same dimension by the symmetrical left and right movement of the left and right moving units 520 and 530, the moving direction is reversed so that the workpiece It is machined to an symmetrical shape without any error. That is, the ball screw 510 for the symmetrical transfer is rotated by the driving force of the servomotor M3, and the ball screws 510 of the left and the right are centered around the coupling 511 of the ball screw 510 for the symmetrical transfer. The conveying direction is symmetrical with each other, and the left and right moving units 520 and 530 coupled to the left and right sides of the symmetrical transfer ball screw 510 are symmetrically moved in opposite directions and placed on the bed 200 in the same manner. Although dimensioned, machining of the workpiece in a symmetrical shape is carried out simultaneously.

As described above, according to the left and right symmetric machining center according to the present invention, by forming a machining head of the machining center in a pair, by moving a pair of machining head left and right symmetrically, The workpiece (the left and right sides of the shoe mold, the left and right doors of the vehicle, etc.) to be formed has the advantage of simultaneously processing left and right symmetrical shapes.

In addition, since the left and right symmetrical workpieces are processed in one process, the machining time is shortened, thereby improving productivity and preventing machining errors from occurring.

Claims (1)

The body assembly 110 formed on the support 100 and the guide rail 112 formed on the body assembly 110 and moved forward and backward along the guide rail 112 formed on the body assembly 110 and the workpiece The column 200 and the column 300 is formed in a vertical shape on each of the both sides of the body assembly 110, the guide rail 320 is formed in a vertical direction on the upper front, and the column ( Guided to the guide rail 320 formed on the front of the 300 and flows up and down and the Shanghai East unit 400, the cross-rail 410 is formed on the front, and formed on the front of the Shanghai East unit and moved left and right In the machining center consisting of a mobile unit 500, The left and right moving unit 500, It is formed on the front surface of the Shanghai copper unit 400, the coupling 511 is formed in the center, the left and right symmetrical transfer ball formed with the left and right symmetric with respect to the coupling 511 centered around the coupling 511 Screw 510; It is coupled to the left side based on the coupling 511 formed on the symmetrical transfer ball screw 510, the cross rail formed on the shangdong copper unit 400 by the rotation of the symmetrical transfer ball screw 510 ( A left moving unit 520 moved left and right along 410; It is coupled to the right side based on the coupling 511 formed on the symmetrical transfer ball screw 510, and left and right symmetrically with the left side movement unit 520 by the rotation of the symmetrical transfer ball screw 510. A right moving unit 530 to be moved; And And a processing head 540 formed on each of the left and right moving units to process a workpiece. Left and right symmetrical machining center, characterized in that the left and right symmetrical workpieces are processed simultaneously to the left and right symmetrical shape.