KR101714476B1 - Processing unit for soft jaw - Google Patents

Abstract

The present invention relates to a unit for machining a surface of a sawtooth, more particularly, a cover which is screwed to a main body of a workpiece fixing chuck and has two or more circumferential cutouts and a stepped portion formed on a truncated portion, And at least one flow prevention portion provided between the step portion and the step portion to prevent the flow of the master bath, wherein the cover and the flow prevention portion are mounted on the chuck, And the one side of the master trough is cut, the flow preventing portion prevents the master trough from shaking, thereby precisely cutting one side of the master trough. Thus, by tightly gripping the shaking of the master, it is possible to precisely cut one side of the soft tile and further improve the precision of the processed product.

Description

Processing unit for soft jaw < RTI ID = 0.0 >

The present invention relates to a unit for machining one side of a sorting machine.

A chuck is a device that fixes a workpiece or tool when machining a workpiece.

More specifically, the chuck is provided with a scroll inside a cylindrical body, and a plurality of jaws engaged with the scroll are fitted to the main body.

These chucks can be divided into mechanical chucks, hydraulic chucks, air chucks, magnet chucks, etc. according to the clamping force generating method. In addition, there are single chucks, scroll chucks, collet chucks, and cam lock chucks divided according to the structure. The number of groups of chucks is generally 2 to 4, and is optionally used according to the use.

When the scroll chuck rotates one handle hole, the scroll is operated inside, and at the same time, a plurality of jaws move by the same distance in the rotation center of the chuck or the opposite direction.

That is, when the handle hole is rotated, the bevel gear rotates and a plurality of tongues move simultaneously with the slider as the groove of the tucked tightly in the scroll.

Here, one side of the soft tank in close contact with the workpiece is damaged or worn over time.

If one side of the soft joining is damaged, one side of the soft joining should be cut off because the workpiece can not be gripped properly.

However, due to frequent operation of the master chamber, abrasion occurs at the portion where the master chamber and the main body are engaged, and thus the flow of the master bath occurs.

When the flow of the master bath occurs, the master bath shakes when the chuck rotates, and when the master bath shakes, there is a problem that one side of the soft bath can not be cut.

More specifically, as shown in FIG. 1, one surface of a soft tank is cut in a state where a cover 1 'is attached to a body of a conventional chuck.

However, shaking of the master bath occurs due to abrasion of the master bath or the main body.

When the master jaw is shaken, vibration occurs during chuck rotation, and when cutting one side of the soft jaw in which the cutter is shaken, the cutter is broken or the broken pieces of the broken cutter are splashed.

In addition, even if the shaking soft joining is cut, the chuck can not firmly hold the workpiece after the soft joining process because it is badly machined, and the parts can not be machined precisely.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a soft roughing unit capable of precisely and quickly cutting one surface of a soft trough by firmly holding the master trough, The purpose is to provide.

In order to achieve the above object,

A cover which is screwed to the main body of the workpiece fixing chuck and has a periphery cut by two or more and has a stepped portion formed in a truncated portion and at least one portion provided between the master jaw and the step portion of the chuck, Wherein the chuck is mounted on the chuck in a state where the cover and the flow preventing portion are provided on the chuck and the one surface of the master tank is cut after the chuck is rotated, So as to precisely cut one surface of the master bath.

Also, the stepped portion is formed at an acute angle, and the flow preventing portion corresponds to the stepped portion, and it is possible to prevent the flow preventing portion from deviating from the stepped portion toward the rotational center line of the cover.

In addition, the stepped portion is further provided with concavity and convexity, and the flow preventing portion corresponds to the stepped portion, and the flow preventing portion can be prevented from deviating from the stepped portion toward the rotational center line of the cover.

Further, it is possible to further reduce the wear of the cover by inserting the flow preventing portion into the reinforcing portion, further comprising a reinforcing portion formed with a stepped portion and provided at the stepped portion.

In addition,

They can be connected to each other and can be easily mounted.

The permanent magnet may further include a permanent magnet inserted into a surface of the step portion to fix the flow prevention portion.

In addition, it may further include a body corresponding to the structure of the main body, on which the master bath, the cover, and the flow preventing portion are mounted.

According to the present invention, the master trough can be prevented from being shaken when the soft trough is cut by firmly fixing the master trough.

Furthermore, it is possible to precisely process one side of the soft joining in a short period of time and precisely chuck the cutting product, thereby preventing the cutting product from being removed or producing a precise product.

Further, it is possible to prevent the flow preventing portion from falling forward of the cover.

In addition, the installation of the flow prevention portion is easy and can be easily separated.

In addition, it is possible to prevent the flow preventing portion from flowing.

In addition, the chuck can be rotated at a high speed, whereby one side of the soft joining can be processed more precisely.

Further, even if the chuck is rotated at a high speed, breakage of the cutting tool due to collision with the soft tank can be prevented.

1 is a perspective view schematically showing a cover provided on a conventional chuck;
Fig. 2 and Fig. 3 are exploded perspective views schematically showing a state before the soft rough machining unit according to the embodiment of the present invention is installed on the chuck. Fig.
4 is a perspective view schematically showing a state in which a soft rough machining unit according to an embodiment of the present invention is installed on a chuck.
5 is a schematic view showing a state in which one side of a soft tile is cut by applying the present invention.
6 is a perspective view showing a state in which one side of the soft tank is cut.
7 is a perspective view showing another example of the flow preventing portion in the present invention.
8 is a cross-sectional view schematically showing a state in which a cover having a concave-convex and a flow prevention portion are combined in the present invention.
9 is a cross-sectional view schematically showing a state in which a reinforcing portion is installed on a cover in the present invention.
10 is a cross-sectional view schematically showing a state in which a permanent magnet is installed on a cover according to the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for the sake of brevity.

As shown in Figs. 2 to 10, the soft rough processing unit according to the embodiment of the present invention includes a cover 1 and a flow preventive portion 2. As shown in Fig. Here, the reinforcing portion 4, the permanent magnet 5, and the body 3 may be further included.

The cover 1 is formed in a substantially disc shape and corresponds to the diameter of the mounting groove 31 formed in the main body 3 of the chuck 100. A part of the periphery is cut and the mounting groove 31 A screw hole SP corresponding to the screw hole SH formed in the screw hole SP is formed.

The cover 1 is formed with a step portion 11 having a rectangular shape recessed inward at the cut portion and is inserted into the mounting groove 31 of the main body 3 and screwed thereto with the bolt B.

Here, the cover 1 is cut symmetrically with respect to the center of the cover 1, or cut in a triangular or quadrangular shape with respect to the center of the cover 1. That is, the shape of the cover 1 is determined according to the number of master tanks 101 provided on the chuck 100.

The flow preventing portions 2 are provided in two to four elongated bar shapes having a substantially rectangular cross section and are fitted and engaged with the step portions 11 of the cover 1. [

Here, the flow preventing portion 2 may be provided with a plurality of flow preventing portions 2 formed in various widths.

For example, when the flow prevention portions 2 are respectively inserted into the step portions 11 with the cover 1 engaged with the main body 3 and the master tank 101 is moved, the inner tank 101a The inner tub 101a is brought into close contact with the flow preventing portion 2 by moving toward the center of the main body 3 on the guide groove 32 of the main body and the inner tub 101a pushes the flow preventing portion 2, The flow preventing portion 2 is tightly fitted between the inner tanks 101a.

Accordingly, even if the master bath 101 is worn and loosened, it is possible to prevent the master bath 101 from being shaken when cutting the soft bath 101b.

As shown in FIG. 7, the flow preventing portions 2 may be integrally connected.

Thus, it is possible to quickly or easily install or detach it.

The reinforcement portion 4 is formed of a metal having a high hardness, which is substantially rectangular in cross section and is in a shape of an "L" shape, corresponds to the length of the step portion 11, and is fixedly fitted in the step portion 11.

This prevents the flow preventing portion 2 from being inserted into the reinforcing portion 4 and causing the step portion 11 of the cover 1 to be worn due to the attachment and detachment of the flow preventing portion 2. 9)

In the permanent magnet 5, at least one permanent magnet 5 is inserted and fixed on one surface of the step portion 11. [

Accordingly, when the flow preventive portion 2 is inserted into the stepped portion 11, the flow preventive portion 2 is fixed to the cover 1 by attaching to the permanent magnet 5. In addition, it is possible to prevent the flow preventing portion 2 from being detached or lost from the cover 1 because the flow preventing portion 2 is attached to the permanent magnet 5 even if the chuck 100 is laid down or raised. 10)

The body 3 corresponds to the structure of the main body 3 of the chuck 100, but may be formed in a different shape.

That is, when the main body 3 is severely damaged, the remaining structure excluding the main body 3 is detached from the main body 3 and then installed on the body 3, and the cover 1 and the flow- It is possible to cut one surface of the post-softening tank 101b.

Here, the body 3 is substantially the same as the structure of the main body 3 of the chuck 100, and a detailed description thereof will be omitted.

Here, the cover 1 'can be formed such that the inner angle of the stepped portion 11 is formed at an acute angle to form the inclined plane 111, and the flow prevention portion 2' corresponds thereto.

In addition, the cover 1 'may be further provided with recesses and protrusions 112 and 112' such as a rectangular, triangular or round cross section on the stepped portion 11, and the flow prevention portion 2 ' .

Accordingly, if the flow preventive portion 2 is fitted in the step portion 11, it is possible to prevent the flow preventive portion 2 from deviating in the direction of the center line of the cover 1 (see Fig. 8).

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an operation state of a soft rough processing unit according to an embodiment of the present invention will be described with reference to the accompanying drawings.

After the cover 1 is coupled to the main body 3 of the chuck 100, the master tank 101 is moved toward the center of the main body 3 by a predetermined distance.

When the master bath (101) approaches the cover (1), the operation of the master bath (101) is stopped.

Thereafter, the flow preventive portion 2 is sandwiched between the step portion 11 of the cover 1 and the master bath 101, respectively.

When the flow preventing portions 2 are disposed, the master tank 101 is moved toward the center of the main body 3 again.

When the master tank 101 moves toward the center of the main body 3, the inner tank 101a is brought into close contact with the flow preventing portion 2. When the master tank 101 is subsequently moved, the inner tank 101a is prevented from flowing The portion 2 is pushed and brought into close contact with the cover 1.

The flow preventing portion 2 is tightly fixed between the cover 1 and the inner tank 101a and the master tank 101 is also firmly fixed to the main body 3. [

Therefore, it is possible to prevent the master bath 101 from swinging from the main body 3.

When the flow preventing portion 2 and the master tank 101 are firmly fixed, the chuck 100 is mounted on a rotating device (not shown) and the chuck 100 is rotated.

When the chuck 100 rotates at a high speed, the cutting cutter C is moved between the master tanks 101.

When the end of the cutting cutter C is brought into close contact with one surface of the soft trowel 101b, cutting of the soft trowel 101b is started.

At this time, one side of the soft trowel 101b is cut little by little while moving the cutting cutter C in the direction of the axis of rotation.

When one surface of the soft tank 101b is cut by a set depth, a smooth round surface R is formed on one surface of the soft tank 101b.

The chuck 100 having the round surface R formed therein can firmly fix the workpiece.

Therefore, the present invention can firmly fix the master bath 101 through the cover 1 and the flow preventive portion 2, so that one side of the soft bath 101b can be stably cut and a precise round face R can be formed . Particularly, by preventing the shaking of the master bath 101, it is possible to minimize the occurrence of vibration as a whole when the chuck 100 rotates, and further, stable cutting is possible.

In describing the present invention described above, the same reference numerals are used for the same configurations even if the embodiments are different, and the description thereof may be omitted if necessary.

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. Shall not be construed as being understood. Therefore, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. The present invention is not limited thereto.

1, 1 '; cover
11; Stepped portion
111; incline
112, 112 '; Uneven portion
2, 2 '; The flow-
3; Body, body
31; Mounting groove
32; Guide groove
4; Reinforced portion
5; Permanent magnet
100; chuck
101; Master Joe
101a; Inner side
101b; Soft joe
B; volt
C; Cutting cutter
R; Round face
SH; Screw hole
SP; Screw hole

Claims (7)

A cover screwed to the main body of the workpiece fixing chuck, the periphery of which is split by two or more, and the stepped portion is formed on the truncated portion; And
And at least one flow preventing portion provided between the master jaw and the step portion of the chuck to prevent the flow of the master tank,
The stepped portion includes:
Formed at an acute angle,
The flow-
A step portion corresponding to the step portion,
Preventing the flow preventing portion from deviating from the stepped portion toward the rotation center line of the cover,
When the chuck is mounted on the cutting device while the cover and the flow preventing part are installed on the chuck and the chuck is rotated and one surface of the master trough is cut, the flow preventing part prevents the shaking of the master trough, Can be precisely cut.
delete The method according to claim 1,
The stepped portion includes:
Further, unevenness is formed,
The flow-
A step portion corresponding to the step portion,
And prevents the flow preventive portion from deviating from the stepped portion toward the rotation center line of the cover.
The method according to claim 1,
And a reinforcing portion formed with a stepped portion and provided at the stepped portion,
And the flow preventing portion is inserted into the reinforcing portion, thereby minimizing the wear of the cover.
The method according to claim 1,
The flow-
And are easily connected to each other.
The method according to claim 1,
And a permanent magnet inserted into one surface of the step portion to fix the flow preventing portion.
delete

Images