JPH075967Y2 - Pull stud - Google Patents

Description

[Detailed description of the device] (a) Industrial field of application This device is equipped with a cutting oil through tool.
The present invention relates to a pull stud that stores tool identification data.

(B) Conventional Technique FIG. 6 shows a machine tool provided with a tool used for automatic exchange. In this machine tool 3, a rotatable tool pot 32 is provided on an upper portion of a table 31 that moves on a horizontal plane, and the tool pot 32 holds a plurality of tool bodies 4 equipped with a tool identification device. Further, the machine tool 3 is provided with a data input / output device 35 corresponding to the tool pot 32. On the other hand, as shown in FIG. 7, the tool body 4 is provided with a working portion (drill) 42 at the tip of the tool shank 41, a pull stud 43 is attached at the base end, and the tool identification device 5 is embedded in the pull stud 43. I am doing it. The tool identification device 5 is provided with a core around which a coil is wound and an electronic circuit unit such as a memory for storing information for specifying the tool body (processing unit / drill) 4. The tool identification device 5 is set to be capable of electromagnetically communicating with the data input / output device 35 on the machine tool 3 side. Therefore, the tool body 4 housed in the tool pot 32 has the tool changing position 34
, The data input / output device (data reading device) 35 of the machine tool 3 is used to identify and select by data exchange by electromagnetic coupling, and is automatically exchanged with respect to the spindle (not shown) of the machine tool 3 to perform work machining. To be executed.

(C) Problems to be solved by the invention Conventionally, when a workpiece (workpiece) is machined by a tool body attached to a machine tool, in order to reduce cutting heat, a machining part (drill cutting edge) and a workpiece. Against this, injection of cutting oil from the outside has been executed. However,
This external oil injection method has the disadvantages that the cooling effect and the removal of chips are not sufficient. Recently, the oil passage portion that communicates with the tool body, that is, the pull stud, the tool shank, and the working portion (drill) is formed. An oil-through method that allows cutting oil to pass through is used.

By the way, in the tool main body in which the tool identification device is embedded in the pull stud, the automatic exchange of the tool can be easily executed in the machine tool (machining center), while the tool identification device hermetically closes the upper surface of the pull stud. Therefore, in the tool body in which the tool identification device is embedded, it is not possible to adopt a so-called oil-through method of flowing cutting oil from the pull stud side through the tool shank to the processing portion (drill). There were disadvantages such as low chip removal effect.

An object of the present invention is to solve the above problems and provide an oil-through type pull stud in which a tool identification device is embedded.

(D) Means and Actions for Solving Problems In order to achieve this object, the pull stud of the present invention is a pull stud (12) detachably provided on a tool holder (tool shank 11). Through hole (12a) that connects the fluid supply hole (11a) formed in the tool holder and the outside when the tool is attached to the tool holder
And a tool identification body (2) mounted in a recessed portion (12b) in the pull stud and having a core (22) wound with a coil (23) and communicating with the through hole in the upper part of the pull stud. And a fluid inflow path (2a) provided outside the tool identification body.

In the pull stud having such a configuration, the tool identification device is embedded. Therefore, in a machining center such as a machine tool, the data specifying the tool is read by electromagnetically coupling with the data input / output device, the tool corresponding to the work is automatically selected, and quick tool replacement is realized. obtain. Moreover, this pull stud is a through hole (oil passage portion) that communicates with the fluid supply hole (oil passage portion) formed in the tool holder (tool shank).
And a fluid inflow path (oil inflow path) communicating with the through hole and provided outside the tool identification body. Therefore, during work machining, the cutting oil flows from the fluid inflow passage of the pull stud through the through hole to the fluid supply hole of the tool holder and reaches the machining portion (drill portion). Therefore, the cooling effect against the cutting heat and the chip removing effect of the tool body provided with this pull stud are improved.

(E) Embodiment FIG. 2 shows a concrete embodiment of the pull stud according to the present invention, and shows a state in which the tool identification device (tool identification body) 2 is provided on the tool body 1, that is, the pull stud 12. FIG.

In the tool body 1, a processing portion, for example, a drill (not shown) is attached to the tip of a tapered tool shank 11 having a tapered proximal end, and the lower portion of the pull stud 12 is screwed to the tip.
The pull stud 12, the tool shank 11, and the drill are formed with oil passage portions 12a and 11a, respectively, which communicate with the inside. At the top (tip) of the pull stud 12,
A recessed portion 12b communicating with the oil passage portion 12a is formed,
A tool identification body 2 to be described later is fitted in the recess 12b.

FIG. 1 (A) is a sectional view showing the tool identification body 2, and FIG. 1 (B) is a perspective view showing the tool identification body 2.

The tool identification body 2 is formed on a cylindrical case body 21 having a bottom opening and a bottom, and a cylindrical inner cylinder portion 21a having upper and lower openings is formed at the bottom portion of the case body 21 (upper surface portion in a state of being attached to the pull stud 12). It is provided integrally. A core 22 having a coil 23 wound around the inner cylinder portion 21a is provided on the upper side, that is, on the inner surface side of the bottom portion of the case body 21.
And a printed circuit board 24 on which an electronic circuit section 25 such as a semiconductor memory electrically connected to the coil 23 is mounted.
Are provided and fixed with the filling resin 26.

A feature of the present invention is that an oil inflow passage 2a communicating with the oil passage portion of the tool body 1, that is, the oil passage portion 12a of the pull stud 12 and the oil passage portion 11a of the tool shank 11 is provided outside the tool identification body 2. There is a point.

The oil inflow passage 2a is formed with a gap between the inner cylindrical portion 21a and the cylindrical case body 21, and an oil inflow passage is formed by opening the upper portion of this gap, that is, the bottom surface of the case body 21 corresponding to the upper portion of the gap. Has been done.

This tool identification body 2 has the bottom portion (on the side of the coil 23) provided with the open end of the oil inflow passage 2a facing upward and the pull stud
It is properly fitted and inserted into the 12 recessed portions 12b. The cylindrical case body 21 is
The lower end is supported by the receiving step portion 12c provided in the concave portion 12b and protruding inward, and the outer peripheral surface of the case body 21 and the inner peripheral surface of the concave portion 12b are fixed with an adhesive. In a state where the tool identification body 2 is fitted and fixed in the recess 12b, the oil inflow passage 2a of the tool identification body 2 communicates with the bottom space of the recess 12b, and the oil passage portion 12 of the pull stud 12 is in communication.
It is set to communicate with a.

FIG. 4 (A) and FIG. 4 (B) are a sectional view and a perspective view showing still another embodiment of the tool identification body 2.

In the previous embodiment [FIG. 1 (A)], the oil inflow passage 2a is provided inside the cylindrical case body 21, but in this embodiment, the oil inflow passage 2a is formed in the cylindrical case body 21. Outside the perimeter,
That is, an example is shown in which the pull stud 12 is formed during fitting with the recessed portion 12b. Swelling wall portions 27, 27 that bulge outward are provided so as to face each other at appropriate positions on the outer peripheral surface of a cylindrical case body 21 having a coil 23 and an electronic circuit portion 25 built therein. When the tool identification body 2, that is, the cylindrical case body 21 is inserted and deployed in the recess 12b of the pull stud 12, the lower end of the bulging wall portion 27 is supported by the receiving step 12c of the recess 12b, and is expanded. The bulging surface of the outlet wall portion 27 is set so as to contact the inner surface of the concave portion 12b. Therefore, when the tool identification body 2 is fitted in the recess 12b, the oil inflow passage 2a is formed between the cylindrical case body 21 and the recess 12b.

5 (A) and 5 (B) are a sectional view and a perspective view showing another embodiment of the tool identification body 2.

In this embodiment, a plurality of protruding strips 27 are provided on the outer peripheral surface of the cylindrical case body 21, and the protruding strips 27 abut the inner wall of the recessed portion 12b, so that the cylindrical case body 21 and the recessed portion 12b. And an oil inflow passage 2a are formed between the and.

As shown in FIG. 2, the pull stud 12 having such a configuration is screwed and arranged on the tool shank 11. The tool body 1 provided with the pull studs 12 is housed in the tool pot 32 of the machining center (machine tool) 3 in the same manner as shown in FIG. Tool body 1 in the tool pot 32
Data is read between the data input / output device 35 and the tool identification body 2 by electromagnetic coupling, and after the proper tool body 1 corresponding to the workpiece is selected, the spindle is automatically attached to the machine tool 3. The tool is replaced and attached to and the work is processed. The tool identification body 2 provided on the tool body 1
Is the oil passage of the tool body 1 (passage of the pull stud 12
An oil inflow passage 2a communicating with 12a and the passage 11a of the tool shank 11 is opened. Therefore, when machining a workpiece,
When the cutting oil is supplied from the oil cylinder 6 arranged above the pull stud 12, the cutting oil flows down to the upper surface of the pull stud 12, that is, the upper surface of the tool identification body (cylindrical case body 21) 2 and then flows in. It flows out to the lower space of the recess 12b through the passage 2a, and is further supplied to the working portion (drill) via the oil passage portion 12a of the pull stud 12 and the oil passage portion 11a of the tool shank 11 (Fig. 2). reference). Therefore, the tool identification body 2 provided on the pull stud 12 does not hinder the flow of cutting oil into the tool body 1 and can realize an oil-through method, which improves continuous machining operation and cooling effect, and chip removal effect. To do.

(F) Advantageous effect of the invention In this invention, as described above, since the recess is formed in the pull stud detachably provided in the tool holder and the tool identification body is mounted in the recess, the tool body is a tool of the machining center. In the case of being stored in the pot, the data reading is executed by the electromagnetic coupling with the data input / output device, the tool main body corresponding to the work can be quickly and properly selected, and the tool can be replaced. In addition, the pull stud is provided with a through hole that communicates with the fluid supply hole of the tool holder.
Since the fluid inflow path communicating with this through hole is provided outside the tool identification body, the cutting oil is supplied to the oil passage inside the tool body through the outside of the tool identification body when machining the workpiece, and the oil through method is achieved. It Therefore, the cutting heat at the time of machining the work is effectively eliminated, and the continuous operation of the work machining and the effective removal of the cutting chips can be realized.

Furthermore, in this invention, outside the core around which the coil is wound,
That is, since the fluid inflow path is provided outside the tool identification body, the tool identification body can have a built-in core, and the core can increase the communication distance of electromagnetic coupling at the same power.

[Brief description of drawings]

FIG. 1 (A) is a sectional view showing a tool identification device according to the embodiment,
FIG. 3B is a perspective view, FIG. 2 is an enlarged cross-sectional view of an essential part showing a state in which the tool identification device of the embodiment is attached to the tool body, and FIG. 3A is a cross-section showing another embodiment of the tool identification device. Figure, third
FIG. 4 (B) is a perspective view, FIG. 4 (A) is a sectional view showing still another embodiment of the tool identification device, FIG. 4 (B) is a perspective view, and FIG.
FIG. 6 is a front view of a machine tool using a tool body provided with a tool identification device, and FIG. 6 is a view showing a conventional tool body. 1: Tool body, 2: Tool identification body, 2a: Oil inflow path, 12: Pull stud, 11a / 12a: Oil passage section.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Takeshi Shimizu Inventor, Tateishi Electric Co., Ltd., No. 10, Hanazono Dodo-cho, Ukyo-ku, Kyoto City, Kyoto Prefecture (56) References: 63-91354 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A pull stud (12) detachably provided on a tool holder (tool shank 11), wherein a fluid supply hole (11a) formed in the tool holder when the pull stud is mounted on the tool holder. And a through hole (12a) communicating with the outside, a tool identification body (2) mounted in a recess (12b) in the pull stud and having a core (22) wound with a coil (23), and a pull Fluid passes through the upper part of the stud and communicates with the through hole, and a fluid inflow passage (2
a), and a pull stud comprising: