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JPH10132722A - Indenter shaft unit for micro hardness tester - Google Patents

Indenter shaft unit for micro hardness tester

Info

Publication number
JPH10132722A
JPH10132722A JP30094196A JP30094196A JPH10132722A JP H10132722 A JPH10132722 A JP H10132722A JP 30094196 A JP30094196 A JP 30094196A JP 30094196 A JP30094196 A JP 30094196A JP H10132722 A JPH10132722 A JP H10132722A
Authority
JP
Japan
Prior art keywords
indenter
cylinder
indenter shaft
shaft
shaft unit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP30094196A
Other languages
Japanese (ja)
Inventor
Hirotaka Hayashi
浩孝 林
Koji Matsuura
幸治 松浦
Takeaki Iida
岳明 飯田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Akashi Corp
Original Assignee
Akashi Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Akashi Corp filed Critical Akashi Corp
Priority to JP30094196A priority Critical patent/JPH10132722A/en
Publication of JPH10132722A publication Critical patent/JPH10132722A/en
Pending legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To make an indenter shaft system for micro hardness tester compacter. SOLUTION: The indenter unit 5 is constituted by supporting an indenter shaft 1 having an indenter 2 at the central section of a cylindrical moving pipe 6 by a supporting spring 16 in a vertically movable state and firmly fixing a cylindrical body 8 to a support pipe 15 into which the moving pipe 6 is inserted so that the pipe 6 can move in the axial direction, and then, interposing a return spring 14 between the support pipe 15 and moving pipe 6 so that the indenter shaft system can be made compacter. In addition, since the indenter shaft unit 5 can be handled as a single body, the replacement work of the indenter 2 to a rotary frame 11 can also be simplified.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、微小硬さ試験機に
関し、特にマイクロビッカース式硬さ試験機に好適な圧
子軸ユニットに関する。
The present invention relates to a micro hardness tester, and more particularly to an indenter shaft unit suitable for a micro Vickers type hardness tester.

【0002】[0002]

【従来の技術】微小硬さ試験機の従来例として、図2に
示すようなターレット式のものが知られている。すなわ
ち図2において、符号1は圧子軸を示しており、この圧
子軸1の先端部に圧子2がビスにより取り付けられてい
る。符号10は試験機の機枠を示しており、この機枠10に
回転枠11が回転中心軸12により回転可能に取り付けられ
ている。回転枠11に板ばね26および戻しばね14により支
持されて運動板27が取り付けられ、この運動板27に円錐
受け13が取り付けられている。運動板27の外端部に押棒
18の下端部が当接する押棒受け27aが取り付けられてい
る。円錐受け13に圧子軸1上の円錐部1aが上方から当
接し、かつ戻しばね14により上方に向けて付勢されるこ
とで、圧子軸1が図2の状態に保持されるようになって
いる。
2. Description of the Related Art As a conventional example of a micro hardness tester, a turret type as shown in FIG. 2 is known. That is, in FIG. 2, reference numeral 1 denotes an indenter shaft, and an indenter 2 is attached to a tip of the indenter shaft 1 with a screw. Reference numeral 10 denotes a machine frame of a test machine, and a rotating frame 11 is attached to the machine frame 10 so as to be rotatable about a rotation center shaft 12. A motion plate 27 is mounted on the rotating frame 11 while being supported by a leaf spring 26 and a return spring 14, and the cone receiver 13 is mounted on the motion plate 27. Push rod on outer end of exercise plate 27
A push rod receiver 27a with which the lower end of 18 abuts is attached. The conical portion 1a of the indenter shaft 1 abuts on the conical receiver 13 from above and is urged upward by the return spring 14, so that the indenter shaft 1 is held in the state of FIG. I have.

【0003】圧子軸1を垂直方向移動を確保するため
に、圧子軸1の上端部付近に支えばね16が取り付けられ
ている。支えばね16の基端部は回転枠11に立設されたば
ね支持部材17に取り付けられている。押棒18はその上端
部付近を回転枠11に上下動可能に支持されるとともに、
上端面に制御レバー22の先端部の押下げ部19が当接する
ようになっている。制御レバー22は軸22aで機枠10に枢
支され、先端部に押下げ部19をそなえるとともに基端部
にカム25に転接するローラ24が取り付けられている。
In order to ensure that the indenter shaft 1 moves in the vertical direction, a support spring 16 is mounted near the upper end of the indenter shaft 1. The base end of the support spring 16 is attached to a spring support member 17 erected on the rotating frame 11. The push rod 18 is supported by the rotating frame 11 in the vicinity of its upper end so as to be vertically movable,
The lower end 19 of the control lever 22 is in contact with the upper end surface. The control lever 22 is pivotally supported on the machine frame 10 by a shaft 22a, and has a push-down portion 19 at a distal end thereof, and a roller 24 rotatably connected to a cam 25 at a proximal end thereof.

【0004】符号20は試験荷重負荷機構を示しており、
この試験荷重負荷機構20は、重錘23,重錘23を担持する
荷重軸21,ケーシング27とをそなえて構成され、荷重軸
21は制御レバー22を貫通して下方に延びてその下端部を
圧子軸1の上端部に対向するように配設されている。符
号21aは荷重軸21に突設されたピンを示しており、ピン
21aは制御レバー22にその上方から当接するように構成
されており、カム25を回転して制御レバー22のカム25に
よる押下げを徐々に解除すると、制御レバー22は重錘23
の作用で軸22aを中心に反時計回りに回転する。これに
より押棒18と共に円錐受け13が下降し、円錐受け13に支
えられていた圧子軸1も一緒に下降する。
Reference numeral 20 denotes a test load applying mechanism.
The test load applying mechanism 20 includes a weight 23, a load shaft 21 carrying the weight 23, and a casing 27.
Reference numeral 21 extends downward through the control lever 22 so that its lower end is opposed to the upper end of the indenter shaft 1. Reference numeral 21a indicates a pin protruding from the load shaft 21.
The control lever 22 is configured to contact the control lever 22 from above. When the cam 25 is rotated to gradually release the pressing of the control lever 22 by the cam 25, the control lever 22
Rotates counterclockwise about the shaft 22a. As a result, the cone receiver 13 descends together with the push rod 18, and the indenter shaft 1 supported by the cone receiver 13 also descends.

【0005】そして、圧子2の先端が試料に当接すると
圧子軸1は円錐受け13から解放され、設定した荷重(重
錘23の重量)が試料台4上の試料3に負荷される。カム
25が元の位置に戻ると、運動板27,押棒18は戻しばね14
の復元力により押し上げられる。このとき圧子軸1も円
錐受け13により持ち上げられて負荷工程は終了する。な
お回転枠11には圧子軸1と同心円上に試料3に形成され
た圧痕の計測用対物レンズ(図示せず)が取り付けられ
ている。
When the tip of the indenter 2 comes into contact with the sample, the indenter shaft 1 is released from the cone receiver 13 and a set load (the weight of the weight 23) is applied to the sample 3 on the sample stage 4. cam
When 25 returns to its original position, the motion plate 27 and the push rod 18
Is pushed up by the restoring force. At this time, the indenter shaft 1 is also lifted by the cone receiver 13, and the loading process is completed. The rotary frame 11 is provided with an objective lens (not shown) for measuring an indentation formed on the sample 3 on a circle concentric with the indenter shaft 1.

【0006】[0006]

【発明が解決しようとする課題】ところで、上述のよう
な従来の微小硬さ試験機では、圧子軸の支持機構が、支
えばね16,押棒18,運動板27,板ばね26で構成されてい
るため、圧子軸系(圧子軸とその支持機構)として広い
スペースを必要とする。したがって、従来は、回転枠11
には圧子軸は1基しか装着されておらず、異なる圧子を
使用しようとする場合、新しい圧子と取り替えるのであ
るが、圧子の取替えは、(圧子はビスにより圧子軸の下
端部に取り付けられているため)圧子の取付け用ビスを
緩めて圧子を取り外してから、新しい圧子を圧子軸に挿
入してビス止めするという複雑な作業を必要とし、しか
もビスが非常に小さいので圧子交換作業中にビスを紛失
するおそれがあるほか、圧子の位置合せ作業も必要であ
るため、圧子の取替えは面倒であるという問題点があ
る。
By the way, in the conventional micro hardness tester as described above, the support mechanism of the indenter shaft is composed of the support spring 16, the push rod 18, the motion plate 27, and the leaf spring 26. Therefore, a large space is required for the indenter shaft system (the indenter shaft and its supporting mechanism). Therefore, conventionally, the rotating frame 11
Has only one indenter shaft, and if you want to use a different indenter, you must replace it with a new one. To replace the indenter, (the indenter is attached to the lower end of the indenter shaft with a screw. It is necessary to remove the indenter by loosening the screw for mounting the indenter, then insert a new indenter into the indenter shaft and fix it with screws. In addition, since the screws are very small, the screws must be replaced during the indenter replacement work. In addition, there is a problem that the replacement of the indenter is troublesome because there is a risk of losing the indenter and the work of aligning the indenter is required.

【0007】本発明はこのような問題点の解決をはかろ
うとるすもので、圧子軸系を小スペースのユニットに形
成して(これを「圧子軸ユニット」という)、圧子
(軸)の回転枠への取付け、取外しを支持機構も含んだ
ユニット単位で行なうことができるようにするととも
に、複数基の圧子軸ユニットを回転枠に装着できるよう
にした、微小硬さ試験機における圧子軸ユニットを提供
することを目的とする。
The present invention seeks to solve such a problem. The indenter shaft system is formed into a unit having a small space (this is referred to as an "indenter shaft unit"), and the indenter (shaft) is formed. An indenter shaft unit in a micro hardness tester that can be attached to and detached from the rotating frame in units including the support mechanism, and that multiple indenter shaft units can be mounted on the rotating frame. The purpose is to provide.

【0008】[0008]

【課題を解決するための手段】本発明は、微小硬さ試験
機において、本体部を形成する円筒体製の運動筒と、同
運動筒の中心部に支えばねを介して垂直方向に移動可能
に支えられた圧子軸と、同圧子軸の先端部に取り付けら
れた圧子と、上記運動筒の下端部に設けられた上記圧子
軸の円錐部を受け止める円錐受けと、上記運動筒の外側
に同運動筒を軸方向に摺動可能に嵌挿された支え筒と、
上記の運動筒と支え筒との間に介装された戻しばねと、
上記支え筒に一体的に設けられた取付け用筒体とで圧子
軸ユニットを構成し、上記取付け用筒体により上記圧子
軸ユニットを上記微小硬さ試験機の回転枠へ取り付ける
ようにして課題解決の手段としている。
SUMMARY OF THE INVENTION The present invention relates to a microhardness tester, in which a moving cylinder made of a cylindrical body forming a main body and a vertically movable movable cylinder via a support spring at the center of the moving cylinder. An indenter mounted on the tip of the indenter shaft, a conical receiver provided at a lower end of the exercise cylinder for receiving a conical portion of the indenter shaft, and an outer periphery of the exercise cylinder. A support cylinder in which the exercise cylinder is slidably inserted in the axial direction,
A return spring interposed between the exercise cylinder and the support cylinder,
A problem is solved by forming an indenter shaft unit with a mounting cylinder integrally provided on the support cylinder, and mounting the indenter shaft unit to a rotating frame of the micro hardness tester by the mounting cylinder. Means.

【0009】さらに、上記取付け用筒体にフランジ部を
形成する一方、上記回転枠に上記運動筒を挿入可能な穴
を形成し、同穴に上記運動筒を挿入配設してから上記取
付け用筒体上の上記フランジ部と上記回転枠とを挿通す
るボルトにより、上記圧子軸ユニットの上記回転枠への
取り付けが行なえるようにして課題解決の手段としてい
る。
Further, a flange portion is formed on the mounting cylinder, a hole is formed in the rotating frame in which the moving cylinder can be inserted, and the moving cylinder is inserted and arranged in the hole, and then the mounting cylinder is mounted. A bolt is inserted between the flange on the cylindrical body and the rotary frame so that the indenter shaft unit can be attached to the rotary frame.

【0010】本発明では、圧子軸(圧子を含む)とその
支持機構とを圧子軸ユニットの本体部としての運動筒に
組み込み一体化(ユニット化)して圧子軸ユニットを構
成したため、圧子の取替えを、圧子軸とその支持機構を
一体物化(ユニット化)した圧子軸ユニットを取替える
ことで行なうことができ、圧子の取替え作業の簡易化を
可能とする。
In the present invention, the indenter shaft (including the indenter) and its support mechanism are incorporated into a moving cylinder as a main body of the indenter shaft unit to form an integrated (unitized) unit, so that the indenter shaft is replaced. Can be performed by replacing the indenter shaft unit in which the indenter shaft and its supporting mechanism are integrated (unitized), and the replacement work of the indenter can be simplified.

【0011】また圧子軸とその支持機構とを本体部とし
ての運動筒に組み込むことでコンパクト化(省スペース
化)をはかったため、回転枠上に複数基の圧子軸ユニッ
トを装備することが可能となる。
In addition, since the indenter shaft and its supporting mechanism are incorporated in a moving cylinder as a main body to reduce the size (to save space), a plurality of indenter shaft units can be mounted on the rotating frame. Become.

【0012】[0012]

【発明の実施の形態】以下、図面により本発明の一実施
形態としての微小硬さ試験機における圧子軸ユニットに
ついて説明すると、図1はその縦断面図である。なお図
1中図2と同じ符号はほぼ同一の部材を示している。
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view of an indenter shaft unit in a micro hardness tester according to an embodiment of the present invention. 1 that are the same as those in FIG. 2 indicate substantially the same members.

【0013】図1において、符号5は圧子軸ユニットを
示している。圧子軸ユニット5は、同圧子軸ユニット5
の本体部を形成する円筒体製の運動筒6をそなえ、この
運動筒6の中心部に圧子軸1がダイヤフラム製の支えば
ね16により上下動可能に支持されている。
In FIG. 1, reference numeral 5 denotes an indenter shaft unit. The indenter shaft unit 5 is
An indenter shaft 1 is supported by a diaphragm supporting spring 16 at the center of the moving cylinder 6 so as to be able to move up and down.

【0014】運動筒6の下端部に、円錐受け13が取り付
けられていて、圧子軸1の円錐部1aを支持するように
なっている。運動筒6をその軸方向に摺動可能に支持す
る支え筒15が運動筒6の外側に嵌挿されており、この支
え筒15の外側に取り付けられた円筒部材7を介して、運
動筒6を回転枠11に取り付けるための取付け用筒体8が
取り付けられている。
A conical receiver 13 is attached to the lower end of the exercise cylinder 6 so as to support the conical portion 1a of the indenter shaft 1. A support tube 15 that supports the movement cylinder 6 slidably in the axial direction is fitted outside the movement cylinder 6, and the movement cylinder 6 is attached via a cylindrical member 7 attached to the outside of the support cylinder 15. Is attached to the rotating frame 11.

【0015】筒体8にフランジ部8aが突設され、この
フランジ部8aと回転枠11とを貫通して挿通されるボル
ト9により、圧子軸ユニット5が回転枠11に着脱可能に
取り付けられる。
A flange 8a protrudes from the cylindrical body 8, and the indenter shaft unit 5 is detachably attached to the rotary frame 11 by bolts 9 inserted through the flange 8a and the rotary frame 11.

【0016】回転枠11には、回転中心軸(図2の符号1
2)を中心とした同心円上に、複数の圧子軸ユニット5
取付け穴11aが穿設されていて、複数の圧子軸ユニット
5を回転枠11の下方から各取付け穴11aに嵌挿し、取付
けボルト9で筒体8のフランジ部8aと回転枠11とを連
結することで、圧子軸ユニット5を回転枠11に簡単に固
定することができる。圧子軸ユニットの取外しをこれと
逆の手順で行うことができることは言うまでもない。
The rotation frame 11 has a rotation center axis (reference numeral 1 in FIG. 2).
2) A plurality of indenter shaft units 5
A plurality of indenter shaft units 5 are inserted into the respective mounting holes 11a from below the rotary frame 11 and the flange portions 8a of the cylindrical body 8 and the rotary frame 11 are connected with the mounting bolts 9. Thus, the indenter shaft unit 5 can be easily fixed to the rotating frame 11. It goes without saying that the indenter shaft unit can be removed in the reverse order.

【0017】なお取付け穴11aと同心円上に、試料3に
形成された圧痕の計測用対物レンズ(図示せず)が取り
付けられている点は、通常のターレット式硬さ試験機の
場合と同様である。
The point that an objective lens (not shown) for measuring an indentation formed on the sample 3 is mounted on a concentric circle with the mounting hole 11a as in the case of a normal turret type hardness tester. is there.

【0018】支え筒15と運動筒6との間に戻しばね14が
介装されており、運動筒6は戻しばね14により常に上向
きに付勢されている。回転枠11の上方に、図2のもとと
ほぼ同様の試験荷重負荷機構20および制御レバー22が設
けられている。
A return spring 14 is interposed between the support cylinder 15 and the movement cylinder 6, and the movement cylinder 6 is constantly urged upward by the return spring 14. Above the rotating frame 11, a test load applying mechanism 20 and a control lever 22 substantially similar to those shown in FIG. 2 are provided.

【0019】なお試験荷重負荷機構20は一基設けられて
おり、複数のうちのいずれか1つの圧子軸ユニット5
が、その圧子軸1と荷重軸21とが整合(両者が同一鉛直
線上にくる)するとともに、制御レバー22の押下げ部19
と運動筒6とが対向する位置まで回転枠11を回転させて
から、カム25をモータ(図示せず)により回転させる
と、制御レバー22を介して運動筒6が下降し、運動筒6
の円錐受け13で支えられていた圧子軸1も運動筒6と一
緒に下降する。このとき荷重軸21も制御レバー22と一緒
に下降している。
It is to be noted that one test load applying mechanism 20 is provided, and one of the plurality of indenter shaft units 5 is provided.
However, the indenter shaft 1 and the load shaft 21 are aligned (both are on the same vertical line), and the pressing portion 19 of the control lever 22 is pressed.
When the rotating frame 11 is rotated to a position where the moving cylinder 6 and the moving cylinder 6 face each other, and then the cam 25 is rotated by a motor (not shown), the moving cylinder 6 is lowered via the control lever 22 and
The indenter shaft 1 supported by the conical receiver 13 is also lowered together with the moving cylinder 6. At this time, the load shaft 21 is also lowered together with the control lever 22.

【0020】圧子軸1の下降により圧子2の先端が試料
3に接して下降を停止しても運動筒6は下降を続けるか
ら圧子軸1は運動筒6から解放される。一方、荷重軸21
も運動筒6と一緒に下降して荷重軸21の下端部が圧子軸
1の上端部に当接し、荷重軸21上の試験荷重により圧子
軸1を押し下げ圧子2を試料3に押し付けて試料3に圧
痕を形成する。その後、カム25が再び元位置に戻ると、
運動筒6は戻しばね14の復元力で押し上げられる。その
時、円錐受け13により圧子軸1も持ち上げられ負荷工程
(試料への圧痕形成工程)は終了する。なお上述の一連
の圧痕形成手順は、通常の硬さ試験機の場合と同じであ
る。
Even when the tip of the indenter 2 comes into contact with the sample 3 and stops descending due to the lowering of the indenter shaft 1, the moving cylinder 6 continues to descend, so that the indenter shaft 1 is released from the moving cylinder 6. On the other hand, the load shaft 21
The lower end of the load shaft 21 abuts on the upper end of the indenter shaft 1 together with the moving cylinder 6, and the indenter shaft 1 is pushed down by the test load on the load shaft 21 so that the indenter 2 is pressed against the sample 3. Indentations are formed on the surface. After that, when the cam 25 returns to the original position again,
The moving cylinder 6 is pushed up by the restoring force of the return spring 14. At this time, the indenter shaft 1 is also lifted by the conical receiver 13, and the loading step (the step of forming an impression on the sample) is completed. Note that the above-described series of indentation forming procedures is the same as in the case of a normal hardness tester.

【0021】この実施形態では、上述のとおり圧子軸1
(圧子2を含む)とその支持機構(例えば同圧子軸に試
験荷重を作用させる受圧部(運動筒の頂部),圧子軸1の
支えばね16, 戻しばね14, 支え筒15等)とを、本体部と
しての運動筒6に一体的に組み込んで圧子軸ユニットを
構成したため、硬さ試験機に対する圧子軸の取付け、取
外し時に、圧子軸およびその支持機構を一体物として取
り扱うことができる。
In this embodiment, as described above, the indenter shaft 1
(Including the indenter 2) and its supporting mechanism (for example, a pressure-receiving part (top of a moving cylinder) for applying a test load to the indenter shaft, a support spring 16, a return spring 14, a support cylinder 15, etc. of the indenter shaft 1) Since the indenter shaft unit is formed integrally with the motion cylinder 6 as the main body, the indenter shaft and its support mechanism can be handled as an integral body when the indenter shaft is attached to or detached from the hardness tester.

【0022】したがって、圧子の交換は圧子軸ユニット
を取替えることにより行なうことができ、しかもその取
替え作業は簡単なため、圧子の交換を気軽に行うことが
できる。さらに圧子軸とその支持機構をユニット化して
コンパクト化をはかったため、回転枠上に複数基の圧子
軸(ユニット)の取付けが可能となる。なお回転軸上に
異なる圧子をそなえた複数基の圧子軸ユニットを装備さ
せるとき、圧子交換の作業がなくなり、複数の圧子によ
る敏速な試験が可能となる。
Therefore, the indenter can be replaced by replacing the indenter shaft unit, and since the replacement operation is simple, the indenter can be easily replaced. Further, since the indenter shaft and its supporting mechanism are unitized to be compact, a plurality of indenter shafts (units) can be mounted on the rotating frame. When a plurality of indenter shaft units having different indenters are provided on the rotating shaft, the work of exchanging the indenter is eliminated, and a prompt test using a plurality of indenters becomes possible.

【0023】また、圧子軸ユニットは専用の工場で製作
できるため、従来の各部材を硬さ試験機の組立て工程で
機枠に順次組付ける方式に比べて能率的であり、かつ高
品質のものを安価に提供することができる。
Further, since the indenter shaft unit can be manufactured in a dedicated factory, it is more efficient and has a higher quality than the conventional method of assembling each member to the machine frame in the process of assembling the hardness tester. Can be provided at a low cost.

【0024】[0024]

【発明の効果】以上詳述したように、本発明の微小硬さ
試験機における圧子軸ユニットによれば、次のような効
果ないし利点が得られる。 (1) 圧子軸(圧子を含む)とその支持機構とを運動筒に
組み込んでユニット化して圧子軸ユニットに形成したた
め、圧子の取替えを、圧子軸とその支持機構を一体化
(ユニット化)して構成した圧子軸ユニットの取替えに
より行なうことが可能となり、圧子の取替え作業の簡易
化が可能となる。 (2) 圧子軸とその支持機構を本体部としての運動筒に組
み込んでコンパクト化をはかったため、回転枠上に複数
基の圧子軸ユニットを装備することが可能となる。 (3) 高品質の圧子軸系を安価に製作することが可能であ
る。
As described in detail above, according to the indenter shaft unit in the micro hardness tester of the present invention, the following effects and advantages can be obtained. (1) The indenter shaft (including the indenter) and its supporting mechanism are assembled into a moving cylinder to make a unit and formed into an indenter shaft unit. Therefore, the indenter is replaced (the indenter shaft and its supporting mechanism are integrated (unitized)). By replacing the indenter shaft unit thus configured, the replacement of the indenter can be simplified. (2) The indenter shaft and its supporting mechanism are incorporated in the moving cylinder as the main body to reduce the size, so that a plurality of indenter shaft units can be mounted on the rotating frame. (3) It is possible to manufacture a high quality indenter shaft system at low cost.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の一実施形態としての微小硬さ試験機に
おける圧子軸ユニットの縦断面図。
FIG. 1 is a longitudinal sectional view of an indenter shaft unit in a micro hardness tester as one embodiment of the present invention.

【図2】従来の微小硬さ試験機(の荷重機構部)の縦断
面図。
FIG. 2 is a longitudinal sectional view of (a load mechanism section) of a conventional microhardness tester.

【符号の説明】[Explanation of symbols]

1 圧子軸 1a 圧子軸上の円錐部 2 圧子 3 試料 4 試料台 5 圧子軸ユニット 6 運動筒 7 円筒部材 8 圧子軸ユニットの取付け用円筒体 9 ボルト 10 機枠 11 回転枠 12 回転中心軸 13 円錐受け 14 戻しばね 15 支え筒 16 支えばね 17 支えばねの支持部材 19 押下げ部 20 試験荷重負荷機構 21 荷重軸 21a 荷重軸上のピン 22 制御レバー 22a 軸 23 重錘 24 ローラ 25 カム 26 板ばね 27 ケーシング DESCRIPTION OF SYMBOLS 1 Indenter shaft 1a Conical part on indenter shaft 2 Indenter 3 Sample 4 Sample stand 5 Indenter shaft unit 6 Exercise cylinder 7 Cylindrical member 8 Cylindrical body for mounting indenter shaft unit 9 Bolt 10 Machine frame 11 Rotating frame 12 Rotating center axis 13 Conical Support 14 Return spring 15 Support cylinder 16 Support spring 17 Support member of support spring 19 Depressed part 20 Test load applying mechanism 21 Load shaft 21a Pin on load shaft 22 Control lever 22a Shaft 23 Weight 24 Roller 25 Cam 26 Leaf spring 27 casing

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 微小硬さ試験機において、同微小硬さ試
験機の回転枠に着脱可能に取り付けられる圧子軸ユニッ
トをそなえ、同圧子軸ユニットが、本体部を形成する円
筒体製の運動筒と、同運動筒の中心部に支えばねを介し
て垂直方向に移動可能に支えられた圧子軸と、同圧子軸
の先端部に取り付けられた圧子と、上記運動筒の下端部
に上記圧子軸の円錐部を受け止める円錐受けと、上記運
動筒の外側に同運動筒を軸方向に摺動可能に嵌挿された
支え筒と、上記の運動筒と支え筒との間に介装された戻
しばねと、上記支え筒に一体的に設けられた上記硬さ試
験機の回転枠への取付け部材としての取付け用筒体とで
構成されていることを特徴とする、微小硬さ試験機にお
ける圧子軸ユニット。
An indenter shaft unit detachably attached to a rotating frame of the microhardness tester, wherein the indenter shaft unit is a cylindrical motion cylinder forming a main body. An indenter shaft supported at a central portion of the moving cylinder via a supporting spring so as to be movable in a vertical direction; an indenter attached to a tip end of the indenter shaft; and an indenter shaft mounted at a lower end of the moving cylinder. A conical receiver for receiving the conical portion, a support cylinder in which the exercise cylinder is slidably fitted in the outside of the exercise cylinder in the axial direction, and a return interposed between the exercise cylinder and the support cylinder. An indenter for a micro hardness tester, comprising: a spring; and a mounting cylinder body provided integrally with the support cylinder as a mounting member to a rotating frame of the hardness test machine. Shaft unit.
【請求項2】 上記取付け用筒体にフランジ部が形成さ
れる一方、上記回転枠に上記運動筒を挿入可能な穴が形
成され、同穴に挿入配設された上記運動筒の取付け用筒
体上のフランジ部と上記回転枠とを挿通するボルトによ
り、上記圧子軸ユニットの上記回転枠への取り付けが行
なえるように構成されていることを特徴とする、微小硬
さ試験機における、請求項1に記載の圧子軸ユニット。
2. A mounting cylinder for the moving cylinder, wherein a flange portion is formed in the mounting cylinder, a hole through which the moving cylinder can be inserted is formed in the rotating frame, and the moving cylinder is inserted and disposed in the hole. Claims: A microhardness tester, characterized in that the indenter shaft unit is configured to be attached to the rotating frame by a bolt that penetrates the body flange and the rotating frame. Item 2. The indenter shaft unit according to item 1.
JP30094196A 1996-10-25 1996-10-25 Indenter shaft unit for micro hardness tester Pending JPH10132722A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP30094196A JPH10132722A (en) 1996-10-25 1996-10-25 Indenter shaft unit for micro hardness tester

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP30094196A JPH10132722A (en) 1996-10-25 1996-10-25 Indenter shaft unit for micro hardness tester

Publications (1)

Publication Number Publication Date
JPH10132722A true JPH10132722A (en) 1998-05-22

Family

ID=17890950

Family Applications (1)

Application Number Title Priority Date Filing Date
JP30094196A Pending JPH10132722A (en) 1996-10-25 1996-10-25 Indenter shaft unit for micro hardness tester

Country Status (1)

Country Link
JP (1) JPH10132722A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003004615A (en) * 2001-06-26 2003-01-08 Akashi Corp Mechanism for forming indentation and hardness test machine
EP1434045A2 (en) * 2002-12-25 2004-06-30 Akashi Corporation Hardness testing apparatus
US7096720B2 (en) 2004-09-01 2006-08-29 Mitutoyo Corporation Hardness tester
KR100714828B1 (en) 2006-01-07 2007-05-04 학교법인 인제학원 A pressure fatigue tester
CN103913390A (en) * 2012-12-28 2014-07-09 株式会社三丰 Hardness tester
KR102244772B1 (en) * 2020-11-13 2021-04-27 한국가스안전공사 Chamber type tensile tester using diaphragm for tensile test in high pressure hydrogen environment

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003004615A (en) * 2001-06-26 2003-01-08 Akashi Corp Mechanism for forming indentation and hardness test machine
EP1434045A2 (en) * 2002-12-25 2004-06-30 Akashi Corporation Hardness testing apparatus
EP1434045A3 (en) * 2002-12-25 2005-06-01 Mitutoyo Corporation Hardness testing apparatus
US7121136B2 (en) 2002-12-25 2006-10-17 Mitutoyo Corporation Hardness testing apparatus
US7380443B2 (en) 2002-12-25 2008-06-03 Mitutoyo Corporation Hardness testing apparatus
US7096720B2 (en) 2004-09-01 2006-08-29 Mitutoyo Corporation Hardness tester
KR100714828B1 (en) 2006-01-07 2007-05-04 학교법인 인제학원 A pressure fatigue tester
CN103913390A (en) * 2012-12-28 2014-07-09 株式会社三丰 Hardness tester
KR102244772B1 (en) * 2020-11-13 2021-04-27 한국가스안전공사 Chamber type tensile tester using diaphragm for tensile test in high pressure hydrogen environment

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