WO1984000808A1

WO1984000808A1 - Portable digital displacement-measuring machine

Info

Publication number: WO1984000808A1
Application number: PCT/JP1983/000272
Authority: WO
Inventors: Yoshikazu Kikuchi; Kouji Sasaki
Original assignee: Mitutoyo Mfg Co Ltd
Priority date: 1982-08-20
Filing date: 1983-08-19
Publication date: 1984-03-01
Also published as: DE3390155C2; GB2135779B; DE3390155T1; GB2135779A; JPS5934107A; JPH0161161B2; GB8407644D0

Abstract

A portable digital displacement-measuring machine prevents count or display errors due to external noise. At least some of electronic circuits (16, 46, 66) contained within the body of this machine are surrounded by equipotential zones (12, 20, 50, 70), and the contact points of an article being measured with measuring elements (14, 44, 64) are electrically insulated from the body of the machine containing the electronic circuits.

Description

Akira Portable digital displacement measuring machine Technical field

The present invention relates to a portable digital displacement measuring device, and more particularly to a main frame, and a tip supported by the main frame in a sliding manner. A tracing stylus in contact with the object to be measured, an electronic circuit built in the measuring device main body for digitally detecting a movement displacement of the tracing stylus; The present invention relates to an improvement of a portable digital displacement measurement system having a battery built in a wooden body of the measuring machine for the purpose of driving a circuit.

Background f

Generally, in a displacement measuring machine that measures the length of an object, etc., the measurement element is moved to the body and the probe is moved to the body. Like the amount of movement ^, a place to measure the scenery of tears vs. movements-a main scale on one side and an index scale on the other side. Included detection ¾ -2: An r-digital displacement measuring instrument that is fixed and digitally measures the relative displacement の between the main school and the detector is known. Yes.

This digital position measuring instrument consists of a detector, a 7-wire circuit, and a table.

Portable digital type with built-in battery 变 Built-in battery 变 Measurement and the digital type with separate power supply that separates most of the components described above They are roughly divided into displacement measuring machines.

In the former, a displacement measuring machine can be easily used at any site.

It has a special lysate that can be used for

The same or very similar electronic circuit as a stationary digital displacement measuring instrument

Even when using, count mistakes and display mistakes may occur irregularly.

There was a problem that the chances of occurrence were extremely large. This

Problems such as the above, especially with the development of electronic components, etc.,

Significant when adopting a compact and low power consumption electronic circuit

It was

The present invention has been made to solve the conventional drawbacks.

Therefore, no counting mistakes or display mistakes occur, and

Therefore, high accuracy measurement equivalent to that of a stationary digital displacement measuring instrument

変位 Digital displacement measurement that can be easily performed

The primary purpose is to provide m

The present invention also discloses an isoelectric device for achieving the first purpose.

A portable digital camera that can easily form a position band.

The second purpose is to provide. ¾

A mobile phone capable of completely shielding by the equipotential zone

The third purpose is to provide a portable digital displacement measuring machine.

You

The present invention also provides a measuring method for achieving the first object.

Easily insulates the set point from the measuring instrument body at the part to be measured

Provide a portable digital displacement measuring machine that can do

This is the fourth purpose.

Ο? Ι, 'ΑΉΟ The present invention further provides a portable device capable of completely isolating the contact portion of the measuring element from the measuring instrument body from the measuring instrument body in order to achieve the purpose of m η 1. The fifth object is to provide a digital displacement measuring device of the type (disclose the invention).

'The present invention provides a main frame, a stylus supported by the main frame so as to slide itself, and a tip of which is in contact with an object to be measured. A built-in power supply in the measuring instrument to digitally detect the displacement of the probe. A circuit and a battery built into the main body for driving the electronic circuit.

,

In a portable T-central displacement measuring machine having a measuring device, at least the-part of the electronic circuit is enclosed in an isoelectric band, and the measuring object of the measuring element is measured. Electrically disconnect the object abutment from the measuring instrument body including the u-circuit, so that (0, count noise and display noise caused by external noise can be reduced. Therefore, the stationary digital displacement measuring machine and the high-precision measurement of the circumference Tr can be easily performed. Before the isoelectric band is made conductive

It consists of a mainframe or a cover.

Thereby, the equipotential band can be easily formed. According to the present invention, furthermore, a conductor made of a conductor seal

It consists of a case. As a result, the iso-zero band shields ^

According to the present invention, the electric potential of one of the batteries is set in the equipotential zone.

OV "I One Connect the poles. As a result, the shielding by the equipotential band can be completely performed.

According to the present invention, further, the contact portion of the measuring element of the measuring element is formed of a ceramic material. This makes it easy to insulate the contact point of the measuring element from the measuring instrument body with the measuring element.

According to the present invention, the tracing stylus is fixed to the measuring instrument main body via an insulator. Thus, the contact between the contact point of the measuring element and the object to be measured can be completely performed from the measuring machine body.

When the inventors conducted research on a large number of practical measuring instruments and their usage, the cause of count mistakes and display mistakes in the portable digital displacement measuring instrument was investigated. Was as follows. In other words, a portable digital displacement measuring instrument needs to be reduced in size as a whole due to its portability. Therefore, the main body case and the like are made of plastic material. Electronic components and electronic circuits are used in much smaller voltage systems so that they can be used for a long time and the battery life can be maintained for a long time. The whole thing has to be electrically floating. Therefore, it is much more susceptible to external noise compared to stationary ^1- ^f digital displacement measuring machines.

What we should focus on is that most of the places where the measuring table etc. are held floating on the ground. This is the fact that the DUT placed on this was charged with extremely large static electricity. This seems to be due to the charging during the movement to the measuring table or after the addition. Therefore, the spindle is brought into contact with the DUT to perform the measurement.

For example, a contact-type portable digital transformation such as a dial gauge

In a position measuring machine, the reverse voltage is negative through the spindle.

It is loaded, which causes count and display misses.

In order to solve such problems, it is necessary to

It is conceivable to connect a cable to be dropped to the ground.

There is a possibility that the portability, which is the original function of the portable type, may be impaired.

Such a method cannot be adopted.

The present invention has been made based on the above knowledge.

It is.

Brief explanation of drawings

FIG. 1 shows a portable digital displacement measuring device according to the present invention.

FIG. 3 is a front view including a partial cross-sectional view showing a configuration of a first embodiment of the present invention;

FIG. 2 shows the configuration of the equipotential band in the first embodiment.

FIG. 3 is an enlarged cross-sectional view of FIG. 1 and FIG.

Is a portable digital displacement measuring apparatus according to the present invention.

The IT configuration, including a partial cross-sectional view, showing the configuration of the example, FIG.

Front view including a partial cross-sectional view showing the configuration of the third embodiment.

Fig. 6 and Fig. 6 are used in the modified example of the third embodiment.

FIG. 3 is a cross-sectional view showing a configuration of the touch sensor.

BEST MODE FOR CARRYING OUT THE INVENTION

With reference to the drawings below, a portable digital type transformation according to the present invention will be described.

An embodiment of the position measuring machine will be described in detail.

The first embodiment of the present invention is shown in FIG. 1 and FIG.

_O? I ___ The main frame 1 2 and the main frame 1

2 slidably supported by

And the displacement of the spindle 14

Built-in in the measuring instrument body for digital detection

An electronic circuit 16 and a driving circuit for driving the electronic circuit 16

The battery 18 built into the measuring instrument and the case power

Portable digital dial gage with 20 and 10

Then, the main frame 2 and case cover 20

Is made of a conductor, for example, a metal, and the main frame is

12 is connected to one electrode of the battery 18, for example, a cathode.

As a result, the area around the electronic circuit 16 is equipotential.

In addition to being completely surrounded by steel balls, conventionally, steel balls and carbide balls were used.

The contacts of spindle 14 removed are shown in detail in Figure 3.

As such, a contact made of an insulator such as ceramic or ruby

(Hereinafter referred to as the absolute rest f) 22

Therefore, the spindle 14 contacts the object 8 to be measured.

The part of the electricity Measuring machine book including times 16

It was designed to be related. In Fig. 1, 2

4 is for attaching spindle 14 in the direction of contact with DUT 8

Gives spindle 14 a measuring force by energizing

Extension spring 26 is fixed to the main frame 2.

, For example, light alternately formed on a glass substrate

Scale stripes are formed for detecting the amount of displacement, consisting of transparent and shielded areas

The resulting main scale, 28, is added to the spindle 14,

CM? I

,. V »ίΡΟ Alternatingly formed on a fixed, similarly glass substrate

The scale stripes for detecting the amount of displacement, consisting of the light transmitting and shielding parts,

The formed index scale, 30, is

And, in FIG. 3, 32 is, for example, true

It is a contact receiver made of.

In this way, the electronic circuit 16 is connected to the cathode of the battery 18.

The main frame 12 made of conductive material and the same

Complete with isoelectric band composed of case cover 20 made of electric material

The object under test 8 of the spindle 14 is completely enclosed.

The abutting part of the electronic circuit is fixed by the insulator contact 22.

Electrical isolation from the measuring machine, including Road 16

Thus, the electronic circuit 16 can be protected from external noise, and therefore, the count miss and display miss peculiar to the portable type can be eliminated.

Therefore, it is possible to measure with the same high accuracy as the stationary type.

る

In this embodiment, the equipotential band is set to the main frame 1 2

And the case cover 2Q, and completely surrounds the FR circuit 16, so it is affected by external noise.

The possibilities are very small. Note that the isoelectric circuit is located around the termination circuit 16.

The method of forming the band is limited to this.

The case power par 20 is changed to the same M

The equipotential band is the same as that of frame Ί2.

It is also possible to configure the

Obtainable . In addition, the isoelectric band is 12 or other members other than the case cover 20, for example,

It can also be composed of the case itself.

In the present embodiment, a pot ball or a pot made of a conventional conductor is used.

Is a spindle 14 occupant who had been using a hard sphere,

By replacing it with the insulator contact 2 2, the spin

The contact point of the object to be measured of the level 14 is electrically insulated from the measuring instrument body.

To make it easier to maintain continuity.

. Measure the abutting part of object 14

The configuration to be electrically derived from this is not specified here.

電気 There must be an electrical insulator between the spindle 14

It is also possible.

Next, a second embodiment of the present invention will be described in detail with reference to FIG.

explain .

In this embodiment, the main frame 4 2

The main frame 42 supported by the slide itself.

A spindle 44 whose end is in contact with the DUT 8;

To digitally detect the displacement of the handle 4

The electronic circuit 46 built into the measuring instrument body and the electronic circuit 4

6 Drive for driving the built-in power supply

Portable digital micrometer with pond 48

In this case, the electronic circuit 46 is connected to the cathode of the battery 48.

Connected, consisting of a conductive shield case 50 ^

When surrounded by a potential band, the measured

(5) The contact part is made of a ceramic material, for example.

Huo:

ΟΜΡΙ From the measuring instrument main body including the electronic circuit 46.

It is designed to be insulated from the ground. In the figure, 54 is

It is an anvil.

In the present embodiment, the same as in the first embodiment,

Prevent count and display errors due to external noise.

Is out.

Next, a third embodiment of the present invention will be described in detail with reference to FIG.

explain .

In this embodiment, the main frame 62 having a substantially U-shape is

It slides on the main frame 62 through the output device 63

A built-in detector 63 for detecting the supported stylus 64 whose tip is in contact with the object to be measured and the moving displacement of the stylus 64 digitally The electronic circuit 6 6 and the electronic circuit 6

In order to drive the sensor 6, a power supply built in the detector 6 3 is used.

Battery built-in digital hight gage with pond 68

At 60, the electronic circuit 66 is connected to a navigation battery 68.

Enclosed in a conductive shield case with poles connected to it

In addition, the probe 64 is made of a ceramic material, etc.

Fixing to the detector 63 via the insulator 72,

The contact portion of the measuring element 64 with the object to be measured is connected to the electronic circuit 6 6

That is electrically isolated from the detector 63

It is. In the figure, 74 is the direct line of the main frame 62.

C to move the detector 63 upward and downward along the upright

The handle, 76, is a stone surface plate.

OMPI

V In this embodiment, as in the first embodiment, the counting noise and display noise due to external noise are prevented.

Can be

In the third embodiment, the i7v output device era63 is

Although there was a probe 64 that was in direct contact with the workpiece,

The scope of application of the present invention is limited to such a height gauge.

However, for example, as shown in FIG. 6, the fulcrum 76 is the center.

A rod-shaped contact member 78 supported by the swinging member;

The movable contact 80 a, which is solidified at the rear end of 8, and the movable contact 80 a

A pair of fixed contacts located at a position where BC can be contacted with BC 80 b

, ⁰

Battery-integrated digital camera using a touch sensor 75

It is clear that it can be applied to Tal-type height gauges as well.

It is. In this case, the dead end of the contact 78

What is necessary is just to provide the body 82 of a material etc. and to insulate.

For example, in each of the m06 examples, the cathode of the battery was

Although the connection was made to the equipotential band, the potential of the equipotential band was

Need not necessarily be the same as the cathode of the battery, for example

It is also possible to connect the anode of the battery to the equipotential zone.

In any of the above embodiments, the present invention is not limited to light transmission.

Displacement consisting of excess and shielding parts is formed with inspection fringes

Has the following τ-box scale and main scale:

Portable digital displacement measurement equipped with a photoelectric displacement detection device

M

Although it was applied to fixed equipment, the scope of application of the present invention is not limited to this.

For example, a portable device equipped with a capacitive displacement detector

"¾¾ΝΑΤΙΟ It is clear that the present invention can be similarly applied to a digital displacement measuring machine.

It is. Also, the output is not always a digital display.

The same can be applied to anything.

Industrial applicability

As described above, the present invention provides a portable digital displacement measurement.

Prevent count and display errors due to external noise from the machine

Useful, especially for portable digital tires

It is suitable for use in lugages, micrometers, and digital height gauges with built-in batteries.

OM? I -

Claims

Ofl range

1. The main frame (2, 42, 62,) and a measurement that is slidably supported by the main frame and whose tip abuts on the object to be measured. Probe (電子 4, 44, 64) and an electronic circuit (16, 46, 66) built in the measuring instrument body for digitally detecting the displacement of the probe. And a fc battery (18, 48, 68) built in the same measuring device w for driving the electronic circuit. In a displacement measuring machine (10, 40, 60), at least the-part of the electronic circuit is surrounded by an equipotential band, and the surface of the measuring element is covered. A portable digital displacement measuring instrument characterized in that the contact portion of the measuring object is electrically insulated from the measuring instrument body including the electronic circuit.

2. The claim 1, wherein the isoelectric band is formed by a groove made of a conductor made of a conductive material. The portable displacement digital displacement measurement described in 镲,

3. It is characterized in that the equipotential band is formed by a groove made of the above-mentioned main frame (12) made of a conductor and a case force pad (20). A portable digital displacement measuring instrument as set forth in claim 1.

4. The claim according to claim 1, wherein the equipotential zone is formed of a conductive shield (5070). Portable digital displacement measuring machine.

5 .. In the ad equipotential zone, place the batteries (18, 48, 68) The portable digital displacement measuring device according to claim 1, wherein one of the electrodes is connected to the portable digital displacement measuring device.

6. A claim characterized in that the contacting portion of the measuring element <14, 44> is formed of a ceramic material (22, 52>). 2. A portable digital displacement measuring instrument according to item 1.

7. Claims characterized in that the tracing stylus (64) is fixed to the measuring instrument body (63) via an insulator (72). 2. A portable digital displacement measuring device according to claim 1.