JP2520001Y2 - Liquid concentration meter for automobile maintenance - Google Patents
Liquid concentration meter for automobile maintenanceInfo
- Publication number
- JP2520001Y2 JP2520001Y2 JP7194490U JP7194490U JP2520001Y2 JP 2520001 Y2 JP2520001 Y2 JP 2520001Y2 JP 7194490 U JP7194490 U JP 7194490U JP 7194490 U JP7194490 U JP 7194490U JP 2520001 Y2 JP2520001 Y2 JP 2520001Y2
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- Prior art keywords
- scale
- concentration
- antifreeze
- prism
- light
- Prior art date
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Description
【考案の詳細な説明】 [産業上の利用分野] この考案は、自動車保守に必要な、バツテリー用稀
硫酸の比重測定、不凍液の濃度測定、軽油の濃度測
定を行う計器に関するものである。DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to an instrument for measuring the specific gravity of dilute sulfuric acid for buttery, measuring the concentration of antifreeze liquid, and measuring the concentration of light oil, which are necessary for automobile maintenance.
なお、本明細書において、軽油の濃度というのは、灯
油に含まれる軽油の割合をいう。濃度100%は、軽油だ
け、濃度0%は灯油だけということになる。In addition, in this specification, the concentration of light oil means the ratio of light oil contained in kerosene. A concentration of 100% means only light oil, and a concentration of 0% means only kerosene.
[従来の技術と考案が解決しようとする課題] (1)従来、上記のバツテリー用稀硫酸の比重測定、
不凍液の濃度測定などは、それぞれ専門の測定器を用
いて行っていた。[Problems to be Solved by Conventional Techniques and Inventions] (1) Conventionally, measurement of specific gravity of dilute sulfuric acid for batteries,
The measurement of the concentration of antifreeze was performed using specialized measuring instruments.
そのため、測定器を別に備えなければならず、また、
測定に専門的知識を必要とした。Therefore, a separate measuring instrument must be provided, and
Requires specialized knowledge for measurement.
(2)また、軽油に関しては、これに安価な灯油を混ぜ
て使用する者、あるいは売る者がいる。(2) Regarding light oil, there are those who use cheap kerosene mixed with it or sell it.
従来、軽油の濃度(純度)を調査するには、サンプル
を持ち帰り、分析するという方法をとっていた。Conventionally, in order to investigate the concentration (purity) of light oil, a method of bringing back a sample and analyzing it has been used.
したがって、結果が判明するまで時間がかかり、かつ
手間がかかる作業であった。Therefore, it is a time-consuming and time-consuming task until the result is known.
[課題を解決するための手段] 従来からある手持ち屈折計を少し改良して、上記の
バツテリー用稀硫酸の比重測定、不凍液の濃度測定、
軽油の濃度測定を、行えるようにした。[Means for Solving the Problems] The conventional hand-held refractometer is slightly improved to measure the specific gravity of dilute sulfuric acid for buttery, the concentration measurement of antifreeze liquid,
It was made possible to measure the concentration of light oil.
この考案においては、稀硫酸や不凍液の屈折率と、軽
油の屈折率との間に大きな開き(隙間)の存在すること
を利用する。In this invention, the existence of a large gap (gap) between the refractive index of dilute sulfuric acid or antifreeze and the refractive index of light oil is utilized.
(1)第1図、第2図のように、 先端にプリズム16があり、その後方に前記プリズム16の
半分の幅の補助プリズム26が、光路の半分にだけ挿入さ
れ、その後方に、対物レンズ18、目盛り板20、接眼レン
ズ22が順次配置された手持ち屈折計において、次のよう
にする。(1) As shown in FIG. 1 and FIG. 2, there is a prism 16 at the front end, and an auxiliary prism 26 having a width half that of the prism 16 is inserted in the rear of the prism 16 only in the half of the optical path. In the hand-held refractometer in which the lens 18, the scale plate 20, and the eyepiece lens 22 are sequentially arranged, the following procedure is performed.
すなわち、 (a)前記目盛り板20に、稀硫酸の比重に対応する目盛
りCと、不凍液の濃度に対応する目盛りAと、軽油の濃
度に対応する目盛りDとを、並列して設ける。That is, (a) A scale C corresponding to the specific gravity of dilute sulfuric acid, a scale A corresponding to the concentration of antifreeze, and a scale D corresponding to the concentration of light oil are provided in parallel on the scale plate 20.
(b)前記稀硫酸比重に対応する目盛りCと不凍液濃度
に対応する目盛りAとには、前記補助プリズム26を通ら
ない光によつて明暗の境界線ができるようにするととも
に、 不凍液濃度に対応する目盛りにおける0%の目盛りが前
記目盛り板20の下部に在り、 かつ不凍液濃度に対応する目盛りにおける50〜65%の目
盛りが、目盛り板20の上部に在るようにする。(B) The scale C corresponding to the specific gravity of the dilute sulfuric acid and the scale A corresponding to the concentration of the antifreeze liquid have a boundary line of light and dark due to the light that does not pass through the auxiliary prism 26, and also correspond to the concentration of the antifreeze liquid. The graduation of 0% on the graduated scale is at the lower part of the graduation plate 20, and the graduation of 50 to 65% on the graduation corresponding to the concentration of the antifreeze is at the upper part of the graduation plate 20.
(c)前記軽油濃度に対応する目盛りDには、補助プリ
ズム26を通る光によつて前記境界線ができるようにする
とともに、 軽油濃度に対応する目盛りDにおける0%の目盛りが、
ほぼ前記不凍液濃度に対応する目盛りAの0%の目盛り
付近に在り、100%の目盛りが、前記不凍液濃度に対応
する目盛りの40%ないし50%付近に在るようにする。(C) In the scale D corresponding to the light oil concentration, the boundary line is formed by the light passing through the auxiliary prism 26, and the scale of 0% in the scale D corresponding to the light oil concentration is
The scale is approximately 0% of the scale A corresponding to the antifreeze concentration, and the 100% scale is approximately 40% to 50% of the scale corresponding to the antifreeze concentration.
(2)また、軽油濃度に対応する目盛りDを、0%から
100%の範囲を越えて上下に延長して、FやEの目盛り
を設けるとともに、それらの目盛り幅を、稀硫酸比重に
対応する目盛りCの幅より細かくする。(2) In addition, the scale D corresponding to the light oil concentration is changed from 0%.
The scales of F and E are provided by extending vertically beyond the range of 100%, and the scale width of them is made finer than the width of the scale C corresponding to the dilute sulfuric acid specific gravity.
[作用] (1)不凍液濃度に対応する目盛りAにおける0%と、
稀硫酸比重に対応する目盛りCに対する1.00とは同じ位
置にであり、かつその位置は、水の屈折率1.3330を示す
位置でもある。[Operation] (1) 0% on the scale A corresponding to the antifreeze concentration,
It is at the same position as 1.00 for the scale C corresponding to the dilute sulfuric acid specific gravity, and that position is also the position at which the refractive index of water is 1.3330.
(2)65%不凍液の屈折率は1.4001、また軽油の屈折率
は、0%が1.4380、100%が1.4643である。(2) The refractive index of 65% antifreeze is 1.4001, and the refractive index of light oil is 1.4380 for 0% and 1.4643 for 100%.
そのため、不凍液濃度に対応する目盛りAにおける0
%の目盛りが目盛り板20の下部に在り、不凍液濃度に対
応する目盛りにおける50〜65%の目盛りが目盛り板の上
部に在るようにすると、 その目盛り板を見る視野の中に軽油の濃度を表す境界線
は、入ることができない。Therefore, 0 on the scale A corresponding to the antifreeze concentration
% Scale is at the bottom of the scale plate 20, and 50 to 65% of the scale corresponding to the antifreeze concentration is at the top of the scale plate, the concentration of light oil will be shown in the field of view of the scale plate. The boundary line to represent cannot be entered.
(3)同様に、軽油濃度に対応する目盛りDにおける0
%の目盛りが、ほぼ不凍液濃度に対応する目盛りAの0
%の目盛り付近に在り、100%の目盛りが、前記不凍液
濃度に対応する目盛りの40%ないし50%付近に在るよう
にすると、その目盛り板を見る視野の中に不凍液や稀硫
酸の濃度を表す境界線は、入ることができない。(3) Similarly, 0 on the scale D corresponding to the light oil concentration
The scale of% is 0 of the scale A, which almost corresponds to the concentration of antifreeze.
%, And if the 100% scale is around 40% to 50% of the scale corresponding to the antifreeze concentration, the concentration of antifreeze or dilute sulfuric acid will be displayed in the visual field of the scale plate. The boundary line to represent cannot be entered.
(4)軽油濃度に対応する目盛りを、0%から100%の
範囲を越えて上下に延長するとともに、目盛り幅を、稀
硫酸比重に対応する目盛りの幅より細かくすると、それ
を利用して、後記のようなことが可能になる。(4) The scale corresponding to the light oil concentration is extended vertically beyond the range of 0% to 100%, and the scale width is made finer than the scale corresponding to the dilute sulfuric acid specific gravity. It will be possible to do something like the following.
[実施例] ・全体の構造: 始めに、従来一般の手持ち屈折計について、簡単に触
れておく。[Embodiment] -Overall structure: First, a brief description of a conventional general handheld refractometer.
第5図(a)(b)のように、鏡筒12の先端に、開閉
自在の試料押え用蓋14を有するプリズム16があり、その
後方(右方)に、対物レンズ18、目盛り板20、接眼レン
ズ22が、順次配置されている。As shown in FIGS. 5 (a) and 5 (b), a prism 16 having an openable / closable sample holding lid 14 is provided at the tip of a lens barrel 12, and an objective lens 18 and a scale plate 20 are provided behind (to the right of) the prism 16. , Eyepieces 22 are sequentially arranged.
そして、プリズム16に塗布した試料の屈折率に応じて
目盛り板20に生ずる明暗の境界線24の像を、接眼レンズ
22により拡大して観察する(第6図)。Then, an image of the boundary line 24 of light and dark generated on the scale plate 20 according to the refractive index of the sample applied to the prism 16 is changed to the eyepiece lens.
Magnify with 22 and observe (Fig. 6).
この考案においては、第1図(a)(b)のように、
プリズム16の後方に、その半分の幅の補助プリズム26
が、光路の半分にだけ挿入される。In this device, as shown in FIGS. 1 (a) and (b),
Behind the prism 16, a half width auxiliary prism 26
Is inserted only in the half of the optical path.
・目盛り板について: 第2図に目盛り板20を拡大して示す。-Regarding scale plate: Fig. 2 shows the scale plate 20 in an enlarged manner.
(1)Aは、不凍液濃度に対応する目盛りである。(1) A is a scale corresponding to the concentration of antifreeze.
すなわち、屈折率の代わりに不凍液(エチレングリコ
ール)の濃度で目盛ったものである。That is, it is calibrated with the concentration of antifreeze (ethylene glycol) instead of the refractive index.
この目盛りは、補助プリズム26を通らない光線による
値を示したものである。This scale shows the value of the light rays that do not pass through the auxiliary prism 26.
0%の目盛りが目盛り板20の下部に在り、かつ50〜65
%の目盛りが目盛り板の上部に在るようにしてある(そ
の理由は後記)。There is a 0% scale at the bottom of the scale plate 20 and 50 to 65
The% scale is set on the top of the scale plate (the reason is described later).
なお、50%の不凍液の屈折率は1.3850、65%の不凍液
の屈折率は1.4001である。The 50% antifreeze has a refractive index of 1.3850 and the 65% antifreeze has a refractive index of 1.4001.
(2)Bは、不凍液濃度に対応する目盛りAの各濃度に
対応する不凍液凍結温度に対応する目盛りである。(2) B is a scale corresponding to the antifreeze freezing temperature corresponding to each concentration of the scale A corresponding to the antifreeze concentration.
たとえば、40%の不凍液の凍結温度は−25℃であるこ
とを示している。For example, it shows that the freezing temperature of 40% antifreeze is -25 ° C.
なお、上記のように、不凍液濃度に対応する目盛りA
の0%は水の屈折率(1.3330)と同じ位置である。そし
て、その凍結温度は0℃である。As mentioned above, the scale A corresponding to the concentration of antifreeze liquid
0% of is at the same position as the refractive index of water (1.3330). The freezing temperature is 0 ° C.
(3)Cは、稀硫酸比重に対応する目盛りである。(3) C is a scale corresponding to the specific gravity of diluted sulfuric acid.
この目盛りも、補助プリズム26を通らない光線による
値を示したものである。This scale also shows the value of the light rays that do not pass through the auxiliary prism 26.
この1.00目盛りは、不凍液濃度に対応する目盛りAの
0%目盛りと同じ位置である。The 1.00 scale is the same position as the 0% scale of the scale A corresponding to the antifreeze concentration.
また、バツテリーが満充電のとき、稀硫酸の比重は1.
30であるから、それ以上に目盛る必要はない。When the battery is fully charged, the specific gravity of dilute sulfuric acid is 1.
Since it is 30, there is no need to scale it further.
比重1.30の稀硫酸の屈折率は1.3808であるから、不凍
液の50%の目盛りの少し下になり、充分に目盛り板20内
に納まる。Since the refractive index of dilute sulfuric acid having a specific gravity of 1.30 is 1.3808, it is slightly below the 50% scale of the antifreeze liquid, and is well contained within the scale plate 20.
(4)次にDは、軽油濃度に対応する目盛りである。(4) Next, D is a scale corresponding to the light oil concentration.
この目盛りは、補助プリズム26を通る光線によつて明
暗の境界線24ができるようにする。This graduation allows the light and dark boundaries 24 to be created by the rays passing through the auxiliary prism 26.
0%の目盛りが、ほぼ不凍液濃度に対応する目盛りA
の0%の目盛りより僅かに上に在り、かつ100%の目盛
りが、不凍液濃度に対応する目盛りAの40%ないし50%
付近に在るようにする。Scale 0% corresponds to almost antifreeze concentration A
40% to 50% of scale A, which is slightly above the 0% scale of 100% and corresponds to the antifreeze concentration.
Try to stay nearby.
また、この目盛り幅は、第2図からも分かるように、
稀硫酸比重に対応する目盛りCや不凍液濃度に対応する
目盛りAの幅よりも、細かくしてある。Also, as can be seen from FIG. 2, this scale width is
The width of the scale C corresponding to the specific gravity of dilute sulfuric acid and the width of the scale A corresponding to the concentration of the antifreezing liquid are made finer.
(5)また、軽油濃度に対応する目盛りDを、0%から
100%の範囲を越えて上下に延長する。(5) Also, set the scale D corresponding to the light oil concentration from 0%
Extends vertically beyond the range of 100%.
説明の都合上、下の部分をE部分、上をF部分という
ことにする。For convenience of explanation, the lower portion is referred to as the E portion and the upper portion is referred to as the F portion.
・使用法 (1)不凍液 不凍液を一滴プリズム16に付け、蓋で押え、接眼レン
ズ22で観察する。-How to use (1) Antifreeze solution Attach one drop of antifreeze solution to the prism 16, hold it with the lid, and observe with the eyepiece lens 22.
そして、第3図(b)のように、境界線24のA目盛り
を読む。Then, as shown in FIG. 3B, the A scale on the boundary line 24 is read.
また、その凍結温度は、B目盛りを読めば分かる。 The freezing temperature can be known by reading the B scale.
65%不凍液の凍結温度は、−50℃以下である。このよ
うな状態は極めて稀である。50〜65%を目盛りの上限と
したのは、それ以上はほとんど必要ないからである。The freezing temperature of 65% antifreeze is -50 ° C or lower. Such a condition is extremely rare. The upper limit of the scale is 50 to 65%, because it is almost unnecessary to exceed it.
この場合、同図(a)のように、補助プリズム26を通
らない光線が目盛り板20に捕捉される。その屈折率の範
囲は、ほぼ1.3330(0%)から1.4001(65%)である。In this case, light rays that do not pass through the auxiliary prism 26 are captured by the scale plate 20 as shown in FIG. The range of its refractive index is approximately 1.3330 (0%) to 1.4001 (65%).
それ以上の屈折率のもので、補助プリズム26を通らな
いで来た光32は、目盛り板20から外れてしまう。Light 32 having a refractive index higher than that and not coming through the auxiliary prism 26 is deviated from the scale plate 20.
(2)稀硫酸 上記不凍液の場合と同じである。(2) Dilute sulfuric acid The same as in the case of the above antifreeze solution.
(3)軽油 上記同様に、軽油を一滴プリズム16に付け、蓋で押
え、接眼レンズ22で観察する。(3) Light oil Similarly to the above, light oil is attached to the single drop prism 16, held by the lid, and observed with the eyepiece lens 22.
軽油の屈折率は大きいから、補助プリズム26を通らな
い光は、上記のように目盛り板20から外れてしまうが、
補助プリズム26を通った光34が目盛り板20に捕捉され
る。なお、黄色フィルタを使用すれば、境界線がより明
確に見える。Light oil has a high refractive index, so light that does not pass through the auxiliary prism 26 will be deviated from the scale plate 20 as described above.
The light 34 that has passed through the auxiliary prism 26 is captured by the scale plate 20. It should be noted that the boundary line can be seen more clearly by using the yellow filter.
すなわち、1.4380(0%)付近以上の光だけが捕捉さ
れるように、設計してあるわけである。In other words, the design is such that only light above 1.4380 (0%) is captured.
プリズム16に不凍液や稀硫酸を塗布したとき、補助プ
リズム26を通る光36は、目盛り板20からはずれてしま
う。When antifreeze liquid or dilute sulfuric acid is applied to the prism 16, the light 36 passing through the auxiliary prism 26 is deviated from the scale plate 20.
この1本の計器で測定する屈折率の範囲は、補助プリ
ズム26によつて広がるようになつているが、補助プリズ
ム26を通り目盛り板20に捕捉される光の屈折率の範囲
と、補助プリズム26を通らないで目盛り板20に捕捉され
る光の屈折率の範囲との間に、大きな隙間が作ってあ
る。The range of the refractive index measured by this one instrument is expanded by the auxiliary prism 26, but the range of the refractive index of the light that passes through the auxiliary prism 26 and is captured by the scale plate 20 and the auxiliary prism A large gap is formed between the range of the refractive index of the light captured by the scale plate 20 without passing through 26.
したがって、不凍液や稀硫酸を測定するときは、迷わ
ずに、AかCの目盛りを読めばよいし、軽油のときは、
D目盛りを読めばよい。Therefore, when measuring antifreeze or dilute sulfuric acid, do not hesitate to read the scale of A or C, and for light oil,
Just read the D scale.
(4)なお、このように補助プリズム26を用いて、屈折
率の測定範囲を広げることは、公知の技術である(実公
昭53−16386号公報など)。(4) It is a known technique to extend the measurement range of the refractive index by using the auxiliary prism 26 as described above (Japanese Utility Model Publication No. 53-16386).
しかし、従来の場合は、補助プリズム26の後方にシャ
ッタを設けて、補助プリズム26のある光路と補助プリズ
ム26の無い光路とを択一的に選ぶ方式のものが多かっ
た。However, in the conventional case, there are many systems in which a shutter is provided behind the auxiliary prism 26 to selectively select an optical path with the auxiliary prism 26 and an optical path without the auxiliary prism 26.
したがって、構造も複雑になるし、使うときも切り替
えの手間がかかつた。Therefore, the structure becomes complicated and it takes time and effort to switch even when using.
しかし、この考案の場合は、そのような必要は、まつ
たくない。However, in the case of this invention, such a need does not matter.
(5)E,F目盛りについて: すべての目盛りは、20℃を基準にしている。(5) E and F scales: All scales are based on 20 ℃.
したがって、それ以外の温度のときは補正する必要が
ある。Therefore, it is necessary to correct at other temperatures.
それには、水を使う。水をプリズム16に塗布して明暗
の境界線24を見る。20℃のとき、境界線24は、A,B,C目
盛りの0または1.00と一致する。For that, use water. Apply water to the prism 16 to see the light / dark border 24. At 20 ° C., the boundary line 24 coincides with 0 or 1.00 on the A, B, C scale.
しかし、たとえば20℃より高いと、境界線24はそれよ
り下がる。However, above 20 ° C., for example, the boundary line 24 drops below that.
そこで、たとえば第2図の2点鎖線の位置に境界線24
が現れたときは、E目盛りを利用して補正する。Therefore, for example, at the position of the two-dot chain line in FIG.
If appears, correct it using the E scale.
すなわち、E目盛りから、20℃のときに比べて約2目
盛りだけ下がっていることがわかるから、実際の測定に
際しては、現れる境界線24から、この2目盛り相当分だ
け下の目盛りを読めばよいことになる。That is, it can be seen from the E scale that the scale is lowered by about 2 scales compared to that at 20 ° C. Therefore, in the actual measurement, it is sufficient to read the scale below by 2 scales from the boundary line 24 that appears. It will be.
E,D,Fの各目盛りの幅は、ほぼ等しくなつている。そ
こで、たとえばA目盛りで50%付近に境界線24が現れた
ときは、F目盛りを参考にして、その2目盛り分だけ下
を読むようにする。The widths of the E, D, and F scales are almost equal. Therefore, for example, when the boundary line 24 appears in the vicinity of 50% on the A scale, the F scale is used as a reference and the lower part of the scale is read.
(6)F目盛りは、軽油以外の油類の性質の判定に利用
することができる。(6) The F scale can be used to determine the properties of oils other than light oil.
たとえば、自動車のある種のエンジンオイルについて
調査したところ、新しいとき、明暗の境界線24は、軽油
のD目盛りの90〜100%付近に現れ、固有の値を持ち、
古くなつてもほとんど変化しない。このことを利用し
て、種別の判定が可能になる [考案の効果] (1)1つの計器により、バツテリー用稀硫酸の比重
測定、不凍液の濃度測定、軽油の濃度測定の測定
が、簡単にできる。For example, when researching certain engine oils of automobiles, when new, the light and dark boundary line 24 appears near 90 to 100% of the D scale of light oil and has a unique value,
Even if it is old, it hardly changes. By utilizing this, it is possible to determine the type. [Effect of the device] (1) Simple measurement of the specific gravity of dilute sulfuric acid for buttery, the concentration of antifreeze, and the concentration of gas oil with one instrument. it can.
(2)上記のように、軽油測定のときは、補助プリズム
26通過の光だけが目盛り板20に入り、また不凍液と稀硫
酸測定のときは、補助プリズム26を通過しない光だけが
目盛り板20に入る。(2) As described above, when measuring light oil, the auxiliary prism
Only the light that has passed through 26 enters the scale plate 20, and when measuring antifreeze and dilute sulfuric acid, only the light that does not pass through the auxiliary prism 26 enters the scale plate 20.
その間に、混乱はまつたく無い。 Meanwhile, the confusion is unbearable.
測定者は、光路切り替えなどの操作を行う必要はな
い。The measurer does not need to perform operations such as switching the optical path.
また、構造的にも、光路切り替え用シャッタなどが不
要であるから、シンプルになる。Further, it is structurally simple because it does not require a shutter for switching the optical path.
(3)D目盛りを上下に延長したEやFの目盛りは、上
記のように、温度補正や、軽油以外の油類の調査研究に
役立つ。(3) The E and F scales obtained by extending the D scale up and down are useful for temperature correction and investigation and research of oils other than light oil as described above.
第1〜4図は本考案の実施例に関するもので、第1図は
光学部品の配列の説明図で、 (a)は側面図、(b)は平面図、 第2図は目盛り板20の説明図、 第3図は不凍液と稀硫酸測定の場合の説明図で、 (a)は光路の概念的説明図、(b)は視野の説明図、 第4図は軽油測定の場合の説明図で、(a)は光路の概
念的説明図、(b)は視野の説明図、 第5図は従来の手持ち屈折計の説明図で、(a)は側面
図、(b)は平面図、 第6図は視野の説明図。 16:プリズム 18:対物レンズ 20:目盛り板 22:接眼レンズ 24:境界線 26:補助プリズム1 to 4 relate to an embodiment of the present invention, FIG. 1 is an explanatory view of an arrangement of optical components, (a) is a side view, (b) is a plan view, and FIG. 2 is a scale plate 20. Explanatory diagram, FIG. 3 is an explanatory diagram in the case of antifreeze and diluted sulfuric acid measurement, (a) is a conceptual explanatory diagram of the optical path, (b) is an explanatory diagram of the visual field, and FIG. 4 is an explanatory diagram in the case of light oil measurement Here, (a) is a conceptual explanatory view of an optical path, (b) is an explanatory view of a visual field, FIG. 5 is an explanatory view of a conventional handheld refractometer, (a) is a side view, (b) is a plan view, FIG. 6 is an explanatory view of the field of view. 16: Prism 18: Objective lens 20: Scale plate 22: Eyepiece lens 24: Boundary line 26: Auxiliary prism
Claims (2)
リズムがあり、その後方に前記プリズムの半分の幅の補
助プリズムが、光路の半分にだけ挿入され、その後方
に、対物レンズ、目盛り板、接眼レンズが順次配置さ
れ;前記プリズムに塗布した試料の屈折率に応じて前記
目盛り板に生ずる明暗の境界線の像を、前記接眼レンズ
により拡大して観察する手持ち屈折計において、 (a)前記目盛り板に、稀硫酸の比重に対応する目盛り
と、不凍液の濃度に対応する目盛りと、軽油の濃度に対
応する目盛りとを、並列して設けるとともに、 (b)前記稀硫酸比重に対応する目盛りと不凍液濃度に
対応する目盛りには、前記補助プリズムを通らない光に
よつて前記境界線ができるようにするとともに;不凍液
濃度に対応する目盛りにおける0%の目盛りが前記目盛
り板の下部に在り、かつ不凍液濃度に対応する目盛りに
おける50〜65%の目盛りが目盛り板の上部に在るように
し、 (c)また前記軽油濃度に対応する目盛りには、補助プ
リズムを通る光によつて前記境界線ができるようにする
とともに、軽油濃度に対応する目盛りにおける0%の目
盛りが、ほぼ前記不凍液濃度に対応する目盛りの0%の
目盛り付近に在り、100%の目盛りが、前記不凍液濃度
に対応する目盛りの40%ないし50%付近に在るようにす
ること、 を特徴とする、自動車保守用の液体濃度測定計。1. A prism having an openable / closable sample-holding lid at its tip, an auxiliary prism having a width half that of the prism is inserted only in the half of the optical path behind the prism, and an objective lens and a scale are provided behind it. In the hand-held refractometer, a plate and an eyepiece lens are sequentially arranged; and an image of a boundary line of light and darkness generated on the scale plate according to the refractive index of the sample applied to the prism is magnified and observed by the eyepiece lens. ) A scale corresponding to the specific gravity of dilute sulfuric acid, a scale corresponding to the concentration of antifreeze liquid, and a scale corresponding to the concentration of light oil are provided in parallel on the scale plate, and (b) Corresponding to the specific gravity of diluted sulfuric acid. The scale corresponding to the antifreeze concentration and the scale corresponding to the antifreeze concentration are made to have the boundary line by the light that does not pass through the auxiliary prism; 0% in the scale corresponding to the antifreeze concentration. The scale is located below the scale plate, and the scale corresponding to the antifreeze concentration is 50% to 65% above the scale plate. (C) The scale corresponding to the light oil concentration is supplemented The boundary line is formed by the light passing through the prism, and the scale of 0% in the scale corresponding to the light oil concentration is almost in the vicinity of the scale of 0% of the scale corresponding to the antifreeze concentration and is 100%. A liquid concentration measuring instrument for vehicle maintenance, characterized in that the graduation is located near 40% to 50% of the graduation corresponding to the antifreeze concentration.
0%の範囲を越えて上下に延長するとともに、目盛り幅
を、稀硫酸比重に対応する目盛りの幅より細かくするこ
とを特徴とする、請求項1記載の、自動車保守用の液体
濃度測定計。2. A scale corresponding to the concentration of light oil is 0% to 10
The liquid concentration measuring instrument for automobile maintenance according to claim 1, wherein the scale is extended vertically beyond the range of 0% and the scale width is made finer than the scale width corresponding to the dilute sulfuric acid specific gravity.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7194490U JP2520001Y2 (en) | 1990-07-06 | 1990-07-06 | Liquid concentration meter for automobile maintenance |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7194490U JP2520001Y2 (en) | 1990-07-06 | 1990-07-06 | Liquid concentration meter for automobile maintenance |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0430463U JPH0430463U (en) | 1992-03-11 |
| JP2520001Y2 true JP2520001Y2 (en) | 1996-12-11 |
Family
ID=31609435
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP7194490U Expired - Fee Related JP2520001Y2 (en) | 1990-07-06 | 1990-07-06 | Liquid concentration meter for automobile maintenance |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2520001Y2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2004527753A (en) * | 2001-04-26 | 2004-09-09 | レイチャート インコーポレーテッド | Portable automatic refractometer |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2024122581A1 (en) * | 2022-12-06 | 2024-06-13 | 株式会社山本金属製作所 | Density monitoring system |
-
1990
- 1990-07-06 JP JP7194490U patent/JP2520001Y2/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2004527753A (en) * | 2001-04-26 | 2004-09-09 | レイチャート インコーポレーテッド | Portable automatic refractometer |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0430463U (en) | 1992-03-11 |
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