KR0131604Y1 - Universal chuck of eccentric work - Google Patents

Abstract

The present invention discloses an interlock chuck for eccentric machining.

Interlocking chuck for eccentric machining according to the present invention, the insertion hole is coupled to the spindle head of the lathe and the workpiece is inserted and supported in the center and the guide groove is provided at least three or more at equal intervals toward the insertion hole from the outer peripheral surface The inner surface of the rotating disk having a square screw groove is formed so as to be slidable to the guide groove of the rotating disk, and the lower portion of the rotating disk having a square screw portion to be engaged with the square screw groove formed on the bottom surface of the rotating disk. In an interlocking chuck for an eccentric machining having jaws that reciprocate simultaneously toward an insertion hole of the rotating disc according to rotation, the distance from the center of the insertion hole to the flat surface of each jaw is equal to the length of any two jaws. Is formed to be in contact with the workpiece to maintain a flat surface, conventional eccentric It is possible to reduce the replacement time of the chuck by replacing only the jaw of the interlocking chuck with the single-drive chuck for the ball. Especially, it is unnecessary to measure it as a measuring instrument such as a dial gauge to check the amount of eccentricity. You can save time.

Description

Interlocking Chucks for Eccentric Machining

1 is a front view showing a single-acting chuck used in conventional eccentric machining.

Figure 2 is a schematic front view showing an interlock chuck for eccentric machining according to the present invention.

Figure 3 is a schematic perspective view showing an interlock chuck for eccentric machining according to the present invention.

Figure 4 is a schematic side view showing an extract of the jaw in the eccentric interlock chuck according to the present invention.

* Explanation of symbols for main parts of the drawings

10: interlock chuck 20: rotating disc

21: insertion hole 22: guide groove

30: jaw 40: workpiece

The present invention relates to an interlocking chuck for eccentric machining, and more particularly, to an eccentric machining interlock chuck for varying length of jaw.

In general, as a fixing device for fixing a workpiece in turning, an interlocking chuck coupled to a rotating disc installed on the axis of a lathe and a single-acting chuck are used.

At this time, the linkage chuck has a jaw moving toward the center of the rotating disk at the same time to support the workpiece coupled to the center of the rotating disk as the jaw at the same time. And such interlocking chuck is mainly used to fix a workpiece with a constant diameter.

On the other hand, the jaw coupled to the rotating disk is the single-drive chuck is guided toward the center of the rotating disk, respectively.

Figure 1 shows this monotonic chuck.

That is, at least three guide grooves 2a are provided symmetrically with respect to the center of rotation of the rotating disc 2, and through-holes 2b through which the workpiece is inserted are formed in the center surface thereof. The guide groove 2a is slidably mounted with a jaw 3 which is screwed to the rotating disc 2 and is transferred toward the through hole 2b. On the other hand, when the eccentric machining is performed as the single-acting chuck 1 configured as described above, the jaw is inserted so that the workpiece 4 has a predetermined eccentric amount after inserting the workpiece 4 into the through hole 2b of the rotating disc 2. It is possible to adjust by changing the fixed position of the said workpiece | work 4 supported and fixed by (3).

However, in the case of eccentric machining by the single-acting chuck as described above, the work time is long due to the replacement of the chuck by removing the existing mainly used interlocking chuck and replacing it with the single-acting chuck. Since the jaws of the chuck should be properly transferred and fitted with a dial gauge, there is a problem in that it takes a lot of time to find the amount of eccentricity.

The present invention has been made in order to solve the above-mentioned problems, the object of the present invention is to provide an eccentric machining interlock chuck that can be eccentric machining of the workpiece only by replacing the jaw coupled to the rotary disk of the interlock chuck.

In order to achieve the above object, the present invention, the insertion hole is coupled to the spindle headstock of the shelf and the workpiece is inserted and supported in the center and the guide groove is provided at least three equal intervals from the outer peripheral surface toward the insertion hole The inner surface of the rotating disk having a square screw groove is formed so as to be slidable to the guide groove of the rotating disk, and the lower portion of the rotating disk having a square screw portion to be engaged with the square screw groove formed on the bottom surface of the rotating disk. In an interlocking chuck for an eccentric machining having jaws that reciprocate simultaneously toward an insertion hole of the rotating disc according to rotation, the distance from the center of the insertion hole to the flat surface of each jaw is equal to the length of any two jaws. It is characterized in that it is formed so as to maintain a flat surface in contact with the workpiece All.

The present invention as described above can easily realize the eccentric processing by replacing only the jaw of the interlock chuck without having to replace the chuck with a single-drive chuck.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the eccentric machining interlock chuck according to the present invention will be described in detail.

2 is a front view showing an interlock chuck for eccentric machining according to the present invention. And the eccentric machining linkage chuck according to the present invention will be described with an example having three jaws.

As shown therein, the eccentric machining linkage chuck 10 according to the present invention is coupled to the spindle head (not shown) of the lathe and rotates. The interlocking chuck 10 is provided with an insertion hole 21 into which the workpiece 40 is inserted and supported at the center thereof, and the guide grooves 22 are equidistant from the outer circumferential surface of the interlocking chuck 10 at three positions toward the insertion hole 21. Rotating disc 20 provided as is installed. And the inner surface of the rotating disk 20 is provided with a plurality of square screw grooves 23 in the circumferential direction. On the other hand, the jaw 30 for holding and supporting the workpiece 40 inserted into the insertion hole 21 of the rotary disk 20 is slidably installed in the guide groove 22 of the rotary disk 20. And the bottom surface of the jaw (30) is formed with a square screw portion (30a) to be engaged with the square screw groove (23) formed on the inner surface of the rotating disk (20). On the other hand, three jaw (30) is installed, wherein the length of the jaw (30), in particular the distance in contact with the workpiece 40 from the center of the rotating disk 20, with respect to any one jaw (31) The other two jaws 32 and 33 are formed to have the same length. That is, the length H of the two jaws 32 and 33 is different from the length H of the other jaw 31. Thereby, the workpiece 40 fixed by the jaw 30 is supported and fixed with a predetermined amount of eccentricity. In this case, the ends of the two jaws 30 having the same length as the end contacting the workpiece 40 from the center of the rotating disk 20, that is, the portion in contact with the workpiece 40 are formed to have a flat surface. desirable. In addition, it is preferable that the length d of the flat surface is formed to be 2 × 2 or more with respect to the eccentric amount p of the work piece 40, so that the work piece 40 can be smoothly supported.

On the other hand, the length of the two jaws (32, 33) is changed by the amount of eccentricity of the workpiece 40 inserted into the insertion hole 21 provided in the center of the rotary disk 20.

When formulated, it is as follows. At this time, the lengths from the center of the jaws 32 and 33 to both ends thereof are referred to as h1 and h2, and the total length of the jaws 32 and 33 is referred to as H. The eccentricity of the work 40 is assumed to be p, and the distance from the center of the jaws 32 and 33 to the flat surface in contact with the work 40 is assumed to be L.

(p + 1 / 2p) + h1 (or h2) = L

When the length of the jaws 32 and 33 processed according to the amount of eccentricity of the workpiece 40 according to the above equation is shown according to the amount of eccentricity p, it is as shown in Table 1 below.

The case where the amount of eccentricity of the workpiece 40 is 2.0 will be described as an example.

When the workpiece 40 is fixed with an eccentricity of 2.0 from the center point of the rotating disc 20 and the workpiece 40 is moved to one jaw 31 side used as a fixed jaw, one jaw 31 is provided. The eccentric distance to is 2.0. In addition, the jaws 31 arranged at an angle of 120 degrees with respect to the center point of the rotating disc 20 and used as an eccentric jaw are arranged in an arbitrary vertical axis. Assuming that is located at an angle of 30 degrees from the horizontal axis to the center point. As a result, the movement distances of the plurality of jaws 32 and 32 become 1/2 times the eccentricity of the work piece 40.

That is, when one jaw 31 moves by 2.0 in the vertical axis according to the amount of eccentricity of the workpiece 40, the other jaws 32, 33 are inclined at an angle of 30 degrees with respect to the horizontal axis from the center point, so that the Pythagoras By theorem, a moving distance of 1.0 corresponding to the height of the right triangle is generated. This means that the moving distance of the plurality of jaws 32 and 33 due to the amount of eccentricity according to the diameter of the workpiece 40 is always 1/2 times the amount of eccentricity. Thus, the actual length from the center of the plurality of jaws 32, 33 to be machined to the flat surface in contact with the workpiece 40 is h1, which is the length of the jaws 32, 33, and is used as the fixed jaw. The eccentric amount of one jaw 31 and the eccentric amounts of a plurality of jaws 32 and 33 used as the eccentric jaw may be added together. The length of the other end of the jaws 32 and 33 is also the sum of the eccentricity mentioned above and h 2, which is the length of the jaws 32 and 33. Accordingly, the total length of the jaws 32 and 33 may be the sum of both h1 and h2, which are the lengths from the center portions of the jaws 32 and 33 to both ends, and the moving distances eccentric to both sides.

As shown in Table 1, the workpiece 40 can be processed with an accurate eccentric amount by replacing the jaw 30 suitable for the amount of eccentricity of the workpiece 40 after manufacturing the jaw 30 that is used in a workshop.

As described above, according to the eccentric machining interlock chuck according to the present invention, the eccentric machining can be performed by replacing only the jaw of the interlock chuck, which previously used a single-acting chuck for eccentric machining, thereby reducing the replacement time of the chuck. It is not necessary to measure as a measuring instrument such as a dial gauge to reduce the working time.

Claims (2)

Rotation is coupled to the spindle headstock of the lathe, the insertion hole for inserting and supporting the workpiece is provided in the center, the guide groove is provided at least three equal intervals from the outer peripheral surface toward the insertion hole, the inner surface is formed with a square screw groove The insertion hole of the rotating disc according to the rotation of the rotating disc has a square screw portion is installed to be slidably in the guide groove of the rotating disc and the square screw groove formed on the bottom surface of the rotating disc. In an eccentric machining linkage chuck having jaws that reciprocate simultaneously, the distance from the center of the insertion hole 21 to the flat surface of each jaw 30 is the length of any two jaws 32 and 33. Formed to be the same but the interlocking chuck for eccentric processing, characterized in that the surface in contact with the workpiece 40 to maintain a flat surface. The interlocking chuck of claim 1, wherein the length d of the flat surface has a length of 2 × 2 with respect to the eccentric amount p of the work piece 40.