JP2904332B2 - Outer diameter measuring jet for air micrometer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an outer diameter measuring jet for an air micrometer, and more particularly to a method for blowing air from a nozzle at an inner periphery of a ring-type measuring head to the outside of a work supported in a hollow portion of the ring-type measuring head. The present invention relates to an outer diameter measuring jet for an air micrometer for measuring a diameter.

[0002]

2. Description of the Related Art In general, a snap-hand type or the like is known as an outer diameter measuring jet for an air micrometer. As shown in FIG. 3, nozzles 8, 8 are arranged at both ends of the V-table 4 of the snap-hand type outer diameter measuring jet 2. And
The work 6 is placed on the V table 4, and air is blown out from the nozzles 8 to measure the outer diameter of the work 6.

[0003]

However, the work 6 having a small outer diameter is required for the snap-hand type outer diameter measuring jet 2.
Is measured, the curvature of the work 6 becomes small, and the air blown out from the nozzles 8 escapes, so that there is a problem that the outer diameter of the work 6 cannot be measured. Also,
When the work 6 is lightweight, air is blown from the nozzles 8, 8 onto the work 6 placed on the
Poses a problem that the outer diameter of the work 6 cannot be measured accurately.

The present invention has been made in view of such circumstances, and has as its object to provide an outer diameter measuring jet for an air micrometer that can accurately detect the outer diameter of a work.

[0005]

According to the present invention, in order to achieve the above object, a work is fitted into a circular hollow portion of a measuring head, and a measuring nozzle is provided on an inner periphery of the circular hollow portion of the measuring head. In an outer diameter measurement jet for an air micrometer that blows air to measure the outer diameter of the work,
The measurement nozzle is disposed at a position facing the inner periphery of the circular hollow portion of the measurement head, and a plurality of floating nozzles formed with a throttle having a diameter smaller than the diameter of the measurement nozzle are formed in a circular shape of the measurement head. Arranged radially on the inner periphery of the hollow portion, air is blown out from the throttles of the plurality of floating nozzles, and the work fitted into the hollow portion of the ring-type measuring head is held at a central position of the hollow portion. While measuring the outer diameter of the work by blowing air from the measurement nozzle.

[0006]

According to the present invention, a plurality of floating nozzles are arranged on the inner periphery of a measuring head for measuring the outer diameter of a work. Then, by blowing air from the plurality of floating nozzles, the work fitted into the circular hollow portion of the measuring head can be held at the center of the circular hollow portion.
Therefore, with the work held in the center of the circular hollow,
The outer diameter of the work can be measured by blowing air from the measurement nozzle.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The outer diameter measuring jet for an air micrometer according to the present invention will be described below in detail with reference to the accompanying drawings. FIG.
FIG. 2 is a sectional view of an outer diameter measuring jet for an air micrometer according to the present invention, and FIG. 2 is an enlarged view of a main part thereof. The ring-type measuring head 10 of the outer diameter measuring jet for an air micrometer is formed in a ring shape, and mounting holes 12, 12,... Are formed in the ring-type measuring head 10 radially at predetermined intervals.

In FIG. 1, mounting nipples 1 are provided in mounting holes 12 formed in the same cross section of the ring-type measuring head.
4 and 14 are fitted. The measurement nipple 14 has a nozzle 14A. The inner end portion 14B of the measuring nipple 14 is the inner peripheral surface 10A of the ring type measuring head 10.
The ring-shaped measurement head 10 is formed 10 to 20 μ outside the inner peripheral surface 10A (see FIG. 2).

A flange 16 is formed at the outer end of the measuring nipple 14, and the flange 16 is connected to the ring-type measuring head 1.
0 is in contact with the outer circumference via a ring 17. A nipple 18 is formed at the outer end of the measurement nipple 14, and a hose is fitted into the nipple 18. This hose is connected to an air supply source (not shown). Therefore, the air supplied from the air supply source is supplied to the hose, nozzle 1
It is blown out into the circular hollow portion of the ring-type measuring head 10 through 4A.

In FIG. 1, floating nipples 20, 20 are fitted in holes 12, 12,... Formed in the same cross section of the ring type measuring head. The floating nipple 20 has a flange 22 formed therein.
Is in contact with the outer periphery of the ring-type measuring head 10 via a ring 17. A nozzle 20A is formed coaxially with the floating nipple 20, and a throttle 20B is formed at the inner end of the floating nipple 20.

The inner end surface 20C of the floating nipple 20 is connected to the inner peripheral surface 10A of the ring type measuring head 10.
The ring-shaped measuring head 10 is located 10 μ to 20 μ outside the inner peripheral surface 10A.
A nipple portion 24 is formed at the outer end of the floating nipple 20, and a hose is fitted into the nipple portion 24. The hose is in communication with the air supply.

Therefore, the air supplied from the air supply source is blown out to the circular hollow portion of the ring type measuring head 10 through the hose, the nozzle 20A and the throttle 20B. In this case, by setting the diameter of the diaphragm 20B of the floating nipple 20 small, the air pressure in the nozzle 20A can be reduced even when the work 26 fitted into the circular hollow portion of the ring-type measuring head 10 is slightly displaced from the center. Decrease. Therefore, by maintaining the air pressure in the nozzle 20A constant, the work 26 can be held at the center of the circular hollow portion of the ring-type measuring head 10.

Here, a method of attaching the measuring nipple 14 to the ring type measuring head 10 will be described. First, the length under the neck of the nipple 14 for measurement and the nipple 20 for floating (in the case of the nipple 14 for measurement) is the length (t ₁ + t ₂ ) obtained by adding the thickness t ₂ of the ring to the thickness t ₁ of the ring type measurement head 10. , The length from the flange 16 to the inner end 14B of the measuring nipple 14, the floating nipple 20
, The floating nipple 2
0 to the inner end 20C).
The inner ends of 4, 20 are machined. In this case, the inner ends of the nipples 14 and 20 are processed so as to have the same curved surface as the inner peripheral surface 10A of the ring-type measuring head 10.

Next, when the thickness of the ring is (t ₂ +10 μ to ₂ )
0 μ), the measurement nipple 14 and the floating nipple 20 are fitted to the measurement nipple 14 and the floating nipple 20, respectively, and the holes 12 formed in the ring-type measurement head 10 are
12 fit into predetermined positions. Thus, the inner end 14B of the measurement nipple 14 and the inner end 20C of the floating nipple 20 are located 10 μ to 20 μ outside the inner peripheral surface 10A of the ring-type measurement head 10.

The operation of the outer diameter measuring jet for an air micrometer according to the present invention configured as described above will be described. First, magnification adjustment and zero adjustment of the air micrometer are performed using the master. Next, the ring-type measuring head 10
A work 26 is fitted into the circular hollow portion of the nipple, and air supplied from an air supply means (not shown) is supplied through a hose to the measurement nipples 14 and 14 and the floating nipples 20 and 2.
Lead to 0 ... The air guided to the floating nipple 20 is blown into the circular hollow portion of the ring-type measuring head 10 via the nozzle 20A and the throttle 20B.

In this case, the floating nipple 20
Since the diameter of the stop 20B is set small, the work 26 can be held at the center of the circular hollow portion of the ring-type measuring head 10 by keeping the air pressure in the nozzle 20A constant. On the other hand, the air guided to the measurement nipple 14 is blown out from the tip of the nozzle 14A into the circular hollow portion of the ring-type measurement head 10. Therefore, based on the volume of air flowing through the gap between the inner end 14B of the measuring nipple 14 and the outer periphery of the work 26 while the work 26 is held at the center of the circular hollow portion of the ring-type measuring head 10,
The outer diameter of the work 26 can be measured. Therefore, the outer diameter of the work 26 can be measured with high accuracy.

[0017]

As described above, according to the outer diameter measuring jet for an air micrometer according to the present invention, by blowing air from a plurality of floating nozzles, the work fitted into the circular hollow portion of the measuring head can be circularly formed. It can be held in the center of the hollow part. Therefore, in a state where the work is held at the center of the circular hollow portion, air can be blown out from the measurement nozzle to measure the outer diameter of the work, whereby the outer diameter of the work can be accurately detected.

[Brief description of the drawings]

FIG. 1 is a sectional view of a ring-type measuring head used in an outer diameter measuring jet for an air micrometer according to the present invention.

FIG. 2 is a sectional view showing a state cut along the line ABC in FIG. 1;

FIG. 3 is a side view of a conventional outer diameter measuring jet for an air micrometer.

FIG. 4 is an explanatory view illustrating the operation of a conventional outer diameter measuring jet for an air micrometer.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Ring type measuring head 10A ... Inner circumference 14 ... Measurement nipple 14A, 20A ... Nozzle 20 ... Floating nipple 26 ... Work

Claims (1)

(57) [Claims] 1. A work is fitted into a circular hollow portion of a measuring head, and air is blown out from a measuring nozzle provided on an inner periphery of the circular hollow portion of the measuring head to measure an outer diameter of the work. In the outer diameter measurement jet for an air micrometer to be measured, the measurement nozzle is an inner periphery of a circular hollow portion of the measurement head.
And at the same position as the diameter of the measurement nozzle.
Multiple floating nozzles with a smaller diameter aperture
The chisel is radially arranged on the inner circumference of the circular hollow portion of the measuring head.
The throttle of the plurality of floating nozzles
Characterized by measuring the outer diameter of the workpiece the workpiece is fitted pressurized et air outlet in the hollow portion of the ring-type measuring head from the measuring nozzle while maintaining the center position of the hollow portion blows air Outer diameter measurement jet for air micrometer.