JPS5856111Y2 - quick change holder - Google Patents

Description

[Detailed Description of the Invention] This invention relates to a quick change holder that allows cutting tools such as drills and reamers to be quickly replaced on the spindle of a machine.

Conventional quick-change holders of this type have a cylindrical holder body fixed to a spindle with multiple pocket holes extending radially through the circumference, and a ball is inserted into the pocket holes to insert the tool. Insert the nut with the adapter to be held into the holder body, engage the ball in the ■-shaped circumferential groove provided on the outer periphery of the nut, and hit the ball against the inner conical surface of the sleeve fitted on the outer periphery of the holder body. The sleeve is moved in the axial direction to control the radial position of the ball, and the ball is engaged with and disengaged from the circumferential groove of the nut.
Devices that allow the nut to be attached to and removed from the holder body are widely used.

However, when used as a holder for a drill with an oil hole or a gun drill, for example, hydraulic pressure acts to push the nut out of the holder body, creating a gap between the nut and the end face of the holder body, or the sleeve being pushed against the ball. The nut holding the tool may fall off due to the tool being moved.

Also, when chips are caught in the drill and the nut is pulled toward the workpiece, it may fall off in the same way.

For this reason, it is possible to make the spring stronger by pressing the sleeve toward the tip and forcing the inner conical surface to press the ball against the circumferential groove of the nut, but if the spring force is made too strong, it will be difficult to operate the sleeve. It becomes difficult to attach and detach tools, which has the opposite effect as a quick change holder.

Therefore, at the rear of the sleeve, that is, on the spindle side,
A quick change holder in which a cylindrical stopper is inserted into the outer periphery of the holder body and the stopper is brought into contact with the end face of the sleeve to prevent the sleeve from retreating is disclosed in Japanese Patent Laid-Open No. 53-9.
It is disclosed in Japanese Patent No. 7683.

This device has a simple structure and can prevent the sleeve from retreating, but when the stopper is engaged, a slight gap is created between the front end of the stopper and the rear end of the sleeve. It is possible to make a groove and engage a pin protruding from the main body so that the stopper comes into contact with the sleeve, but during use, the stopper becomes tighter and tighter, making it difficult to remove the stopper by hand. Become.

This idea attempts to solve these problems, and by providing a spring on the sleeve side of the stopper and pressing the sleeve through the spring, it is possible to eliminate the conventional method of interposing between the holder body and the sleeve. This invention relates to a quick-change holder that completely prevents the sleeve from naturally retreating due to the combined force of the spring, and also makes it possible to strongly attract the nut to the end surface of the holder body.

Below, the embodiments of this invention will be explained with reference to the drawings.
In the figure, the main body 1 of the quick change holder has a cylindrical shape, and is fixed to the tip of a spindle 2 of a machine with a screw 3.

A plurality of pocket holes 4 are bored on the circumference near the tip thereof, and a ball 5 is inserted into each pocket hole.

A sleeve 6 is fitted onto the outer circumferential surface of the holder body 1, and is biased in a direction opposite to the spindle, that is, to the right in the figure, by a spring 7 inserted between the sleeve 6 and the holder body 1.

An inner conical surface 8 whose diameter becomes larger toward the open end is provided on the inner diameter surface of the sleeve and abuts against the ball 5.

9 is a retaining ring that prevents the sleeve from being pulled out.

10 is a nut, and an adapter sleeve 12 to which a tool such as a drill is attached is screwed into the female thread of the nut 10 and fixed by a set screw 13.

The tip of the nut 10 has a small diameter and is inserted into the holder body 1, and a V-shaped circumferential groove 14 is provided on the outer periphery of the tip. A portion of the ball 5 enters and engages.

Therefore, when the sleeve 6 is pushed by the spring and moves to the right,
The ball 5 is pushed into the circumferential groove 14 by the inner conical surface B,
Since the groove wall 15 of the circumferential groove 14 is pressed, the force that pulls the nut 10 in the spindle direction moves by one movement, and the nut 10 comes into close contact with the end surface 16 of the holder body 1, causing the nut and, in turn, the tool 11
will be reliably supported by the holder body 1.

As shown in detail in FIG. 2, a thin-walled cylindrical stopper 17 is slidably fitted onto the outer peripheral surface of the holder body 1 on the spindle side of the sleeve 6, that is, on the left side in the figure.

A cam groove 18 is bored in the stopper 17, and the holder body 1
Since it engages with the pin 19 protruding from the stopper 17
When the stopper 17 is rotated in the circumferential direction, the stopper 17 can slide in the axial direction, that is, in the horizontal direction in the figure, along the cam surface 20 of the cam groove 1B.

The end surface 2 of the stopper 17 is located close to the end surface 21 on the sleeve side.
A large number of slits 22 are provided in parallel to 1.

Now, rotate the stopper 17 so that it moves to the right, and
1 contacts the end surface 23 of the sleeve and then moves further to the right, the slit 22 is elastically deformed by the pressing force as shown in FIG. 3, generating a spring force and pressing the sleeve 6 to the right. I will do it.

Therefore, the sleeve 6 is pressed to the right with a strong force due to the combined force of the spring force from the slit 22 in addition to the force of the spring 7.

Therefore, as described above, even if an external force acts on the nut 10 to move it to the right, the ball 5 is pushed outward by the groove wall 15, presses the inner conical surface 8, and pushes the sleeve 6 against the spring 7. Even if a force is applied to force the sleeve to move backward to the left against can be prevented from falling off from the holder main body 1.

Furthermore, since the spring force that presses the sleeve is divided into two, by retracting the stopper to the left, the sleeve can be retracted with a light force, and the ball can easily move radially outward along the inner conical surface. This makes it easy to remove the nut.

In addition, when the slit 22 provided in the stopper 17 acts as a spring, the wall thickness A of the stopper 17 portion can be reduced, so the outer diameter can be reduced for a quick change holder used in a place where the spindle spacing is narrow. There are also advantages that can be achieved.

Note that a coil spring may be welded to the end surface 21 of the stopper instead of providing a slit that acts as a spring.

If there is sufficient space between the spindles, the stopper 17 can be made thicker and the coil spring 24 can be inserted into the sleeve 6 as shown in FIG.

Also, a pin 19 serves as an axial movement means for the stopper 17.
Instead of the combination of the stopper 17 and the cam surface 20, as shown in FIG.

27 is a retaining ring.

As described above, in this invention, a cylindrical stopper 17 that is slidable in the axial direction is provided on the outer peripheral surface of the holder body 1 on the spindle side of the sleeve 6, and the stopper 17 allows the spring 2 to
2. Press the sleeve 6 through 24 and connect the springs 7 and 2.
Since the snow pro is pressed by a heavy spring force, it is possible to reliably prevent the sleeve from moving naturally, preventing the nut from falling off, and it also improves the workability of the quick change holder because it can be attached and detached with a weak force. However, it is extremely large.

[Brief explanation of drawings]

Fig. 1 is a vertical sectional side view of an embodiment of this invention, Fig. 2 is a perspective view of an embodiment of the stopper, Fig. 3 is a side view of the main part showing the operating state of the stopper, and Fig. 4 is another embodiment. Main part side view of
FIG. 5 is a side view of a main part of still another embodiment. 1...Body, 2...Spindle, 4...Pocket hole, 5...Ball, 6...Sleeve, 7...Spring, 8...Inner conical surface, 10...Nut , 11・
...Tool, 12...Adapter, 14...Peripheral groove, 17
...stopper, 19...pin, 20...cam surface,
21... End face, 22... Slit, 24... Coil spring, 25... Female thread, 26... Male thread.

Claims (5)

[Scope of utility model registration request] (1) A cylindrical holder main body fixed to the tip of a spindle and provided with a plurality of pocket holes in the circumferential direction, a ball inserted into each pocket hole, and a ball inserted into the outer periphery of the holder main body, a sleeve having an inner conical surface that is biased in a direction opposite to the spindle by a spring and comes into contact with the ball; an adapter holding a tool is fixed to the inner diameter surface; In a quick change holder equipped with a nut that is removably attached to the inner diameter surface of the holder body, a cylindrical stopper that is slidable at least in the axial direction is inserted into the outer circumferential surface of the holder body on the spindle side of the sleeve. and a quick change holder in which a spring is interposed between the sleeve-side end of the stopper and the sleeve. (2) The quick change holder according to claim 1, wherein the stopper is slidable in the axial direction by a cam surface that engages with a pin protruding from the holder body. (3) The quick change holder according to claim 1, wherein the stopper is screwed onto the holder body and is slidable in the axial direction. (4) The quick change holder according to claim 1, wherein the spring of the stopper is formed by a slit that is bored parallel to and close to the end surface of the stopper on the sleeve side. (5) The quick change holder according to claim 1, wherein the spring of the stopper is a coil spring inserted into the sleeve side.