JPS6020637Y2 - Liquid supply nozzle - Google Patents
Liquid supply nozzleInfo
- Publication number
- JPS6020637Y2 JPS6020637Y2 JP17832579U JP17832579U JPS6020637Y2 JP S6020637 Y2 JPS6020637 Y2 JP S6020637Y2 JP 17832579 U JP17832579 U JP 17832579U JP 17832579 U JP17832579 U JP 17832579U JP S6020637 Y2 JPS6020637 Y2 JP S6020637Y2
- Authority
- JP
- Japan
- Prior art keywords
- valve
- nozzle
- refueling
- flow path
- liquid supply
- 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.)
- Expired
Links
Landscapes
- Loading And Unloading Of Fuel Tanks Or Ships (AREA)
Description
【考案の詳細な説明】
この考案は、自動車等へ給油を行なう給油装置のような
給液装置に使用されるノズルに関するものである。[Detailed Description of the Invention] This invention relates to a nozzle used in a liquid supply device such as a refueling device for refueling automobiles and the like.
近年プリセット装置付きの給油装置が普及しつつあるが
、この装置では、顧客の指定した給油量ないし金額をプ
リセットし、設定量の給油が行なわれると自動的に給油
が停止される。In recent years, refueling devices with preset devices have become popular, and in this device, the amount of refueling or amount of refueling specified by the customer is preset, and refueling is automatically stopped when the set amount of refueling is completed.
この場合、給油停止は給油ポンプの消勢あるいは給油路
中の電磁弁の閉止によって行なわれる。In this case, the oil supply is stopped by deenergizing the oil supply pump or closing a solenoid valve in the oil supply path.
このとき給油ノズルがその内蔵弁をレバー操作で開閉す
る方式の場合には、レバー弁開放位置に係止して給油を
行なうが、プリセット量の給油が完了すると、必らずこ
のレバーの係止を外し内蔵弁を閉止しなければならない
。At this time, if the refueling nozzle has a built-in valve that is opened and closed by operating a lever, the lever is locked in the open position to refuel, but once the preset amount of refueling is completed, this lever must be locked. must be removed and the built-in valve closed.
なぜなら、給油ノズルの内蔵弁が開いた状態のままでは
、次回の給油に際して給油ポンプが動作しあるいは電磁
弁が開かれると、ノズル筒先から油が吐出して危険だか
らである。This is because if the built-in valve of the refueling nozzle remains open, when the refueling pump operates or the solenoid valve is opened during the next refueling, oil will be discharged from the nozzle tip, which is dangerous.
しかし、実際にはこのレバー係止を解除する操作を忘れ
ることが多い。However, in reality, users often forget to perform the operation to release this lever lock.
ところで、この種のノズルでは給油終了後ノズル筒先か
らの曲事れを防ぐためにノズル筒先を上方へ向けて給油
装置のノズルケースに収納するかあるいは上方から垂下
したホースの下端で待機させておく。By the way, in this type of nozzle, in order to prevent the nozzle tip from bending after refueling is completed, the nozzle tip is stored in a nozzle case of a refueling device with the nozzle tip facing upward, or it is kept on standby at the lower end of a hose hanging down from above.
この考案はこのようにノズル筒先を上方へ向けて待機さ
せる点に着目し、上述の問題を解決した給液ノズルを提
供しようとするもので、ノズルを貫通する給油流路と、
この給油流路に設けた第1の弁と、この弁の開閉動作さ
せる手段とを備えた給油ノズルにおいて、ノズル筒先を
上方へ向けることによって前記給油流路を閉止する第2
の弁を前記第1の弁よりも上流側に設けるとともに、前
記第2の弁の閉弁時にこの弁を迂回してこの弁の上流側
と下流側とを連通ずる連通路を設け、この連通路の開口
面積を前記給油流路の開口面積に比して小さく形成した
ことを特徴とする。This invention aims to provide a liquid supply nozzle that solves the above-mentioned problems by focusing on the point of waiting with the nozzle tip facing upward.
In a refueling nozzle that includes a first valve provided in the refueling flow path and a means for opening and closing the valve, a second valve that closes the refueling flow path by directing the nozzle tip upward.
A valve is provided on the upstream side of the first valve, and a communication path is provided that bypasses this valve and communicates the upstream side and downstream side of this valve when the second valve is closed. It is characterized in that the opening area of the passage is smaller than the opening area of the oil supply flow path.
以下地上設置式の給油装置のノズルに本案を実施した例
を説明する。An example in which the present invention is applied to a nozzle of a ground-mounted refueling device will be described below.
図において、Hは給油装置のハウジング、10はハウジ
ングHの側面に設けたノズルケース、11はホース、N
は給油ノズル、12はノズル本体、13はノズル筒先パ
イプ、14はノズルの貫通流路、15は流路13を開閉
する弁、16は弁15を開閉するためのレバーで、弁1
5をスプリングSに抗して開放位置に保持する位置(鎖
線位置)とスプリングSによって閉止状態を許容する位
置(実線位置)を選択的にとらしめることができる。In the figure, H is the housing of the oil supply device, 10 is a nozzle case provided on the side of the housing H, 11 is a hose, and N
12 is a refueling nozzle, 12 is a nozzle body, 13 is a nozzle pipe, 14 is a passage through the nozzle, 15 is a valve for opening and closing the passage 13, 16 is a lever for opening and closing the valve 15;
5 can be selectively set to a position where it is held in the open position against the spring S (chain line position) and a position where the spring S allows it to be closed (solid line position).
レバー16と流路開閉弁15との関係およびその動作は
公知の事項であって詳細な説明は省略する。The relationship between the lever 16 and the channel opening/closing valve 15 and its operation are well-known matters, and a detailed explanation will be omitted.
この考案によれば以上の構成においてノズル筒先パイプ
13を上向きにしてノズルNを保持したときノズルの流
路14を閉止する第2の弁17を設け、この第2の弁の
閉止状態をノズルを上向き位置から他の状態位置に変え
た後も(第1の)弁15が開いている限り、維持するよ
うにしたことを特徴とする。According to this invention, in the above configuration, a second valve 17 is provided which closes the flow path 14 of the nozzle when the nozzle N is held with the nozzle tip pipe 13 facing upward, and the closed state of the second valve is controlled by the nozzle. It is characterized in that it is maintained as long as the (first) valve 15 remains open even after changing from the upward position to another state position.
この第2の弁17は、第1図の実施例ではノズル本体1
のホース11との連結部近くにおいて流路14に設けた
フロート室18とこのフロート室18内に配備した球状
のフロート弁19からなる。This second valve 17 is connected to the nozzle body 1 in the embodiment of FIG.
It consists of a float chamber 18 provided in the flow path 14 near the connecting portion with the hose 11, and a spherical float valve 19 disposed within the float chamber 18.
20はフロート室18と流路14の隔壁で、フロート室
18と流路14を連通する弁孔21がフロート弁19に
よって後述のようにして開閉される。Reference numeral 20 denotes a partition wall between the float chamber 18 and the flow path 14, and a valve hole 21 communicating the float chamber 18 and the flow path 14 is opened and closed by a float valve 19 as described below.
22は隔壁20に設けた連通孔で流路13の開口面積に
比して充分に小さい開口面積を有し、フロート弁19が
弁孔21を閉じた状態でもフロート室18と流路14を
連通させる。Reference numeral 22 denotes a communication hole provided in the partition wall 20, which has a sufficiently smaller opening area than the opening area of the flow path 13, and allows communication between the float chamber 18 and the flow path 14 even when the float valve 19 closes the valve hole 21. let
第2図に示すようにノズルが給油状態にあるときは、フ
ロート弁19はフロート室18の凹部18′に浮上しく
第1図では2点鎖線で示す)隔壁20の弁孔21を開き
、油が流路14へ流入するのを許容する。When the nozzle is in the lubricating state as shown in FIG. 2, the float valve 19 floats in the recess 18' of the float chamber 18 (shown by a two-dot chain line in FIG. 1), opens the valve hole 21 of the partition wall 20, and lubricates is allowed to flow into the flow path 14.
プリセット給油量の給油が終了し弁15を開いたままで
ノズル筒先パイプ13を上方に向けてノズルをノズルケ
ース10に収納すると、ノズル筒先パイプ13とノズル
本体12の境界付近に設けた逆止弁(図示省略)のため
にこの逆止弁よりホース側の流路14内には油が充満し
ているので第1図に示すようにフロート弁19はフロー
ト室18内で浮上して弁孔21を閉止する。When the preset amount of oil has been supplied and the nozzle is stored in the nozzle case 10 with the valve 15 open and the nozzle tip pipe 13 facing upward, a check valve ( (not shown), the flow path 14 on the hose side of the check valve is filled with oil, so the float valve 19 floats up in the float chamber 18 and closes the valve hole 21 as shown in FIG. Close.
この状態で次回の給油に際し、ノズルをノズルケースか
ら外すと、ポンプが付勢されて油がホース11を介して
ノズル12へ送られてくるが、この油の圧力がフロート
弁19にかかり、弁孔21の閉止状態を維持するので、
弁15が開いたままであっても油がノズル筒先パイプか
ら噴出することはない。When the nozzle is removed from the nozzle case for the next refueling in this state, the pump is energized and oil is sent to the nozzle 12 via the hose 11, but the pressure of this oil is applied to the float valve 19, causing the valve to Since the hole 21 is maintained in a closed state,
Even if the valve 15 remains open, oil will not spout from the nozzle tip pipe.
そこで一旦ノズルケース10にもどし、ポンプモータを
消勢してホース11内の油の圧力を抜き同時にレバー1
6を操作して弁15を閉止し、再びノズルをノズルケー
スから外すと、このときフロート弁19はまだ油の圧力
に押されて弁孔21を閉じているが、流路14とフロー
ト室18を連通する連通孔22を通って油が徐々に流路
14に流入し流路14とフロート室18内の圧力差がな
くなる。Therefore, once it is returned to the nozzle case 10, the pump motor is deenergized and the oil pressure in the hose 11 is released, and the lever 1
6 to close the valve 15 and remove the nozzle from the nozzle case again. At this time, the float valve 19 is still pressed by oil pressure and closes the valve hole 21, but the flow path 14 and the float chamber 18 are closed. Oil gradually flows into the flow path 14 through the communication hole 22 that communicates with the flow path 14, and the pressure difference between the flow path 14 and the float chamber 18 disappears.
従ってこの状態でノズル筒先を下方へ向けるとフロート
弁19は第1図の2点鎖線で示す位置に浮上し、弁孔2
1を開くので、レバー16を引いて弁15を開放すれば
給油を行なうことができる。Therefore, when the nozzle tip is directed downward in this state, the float valve 19 floats to the position shown by the two-dot chain line in FIG.
1 is opened, refueling can be performed by pulling the lever 16 and opening the valve 15.
以上の実施例は第2の弁19としてフロート弁を使用し
ているが、この考案は油よりも比重の重い弁体の場合は
、第3図、第4図に示すような構成としても実施するこ
とができる。Although the above embodiment uses a float valve as the second valve 19, this invention can also be implemented with the configuration shown in FIGS. 3 and 4 in the case of a valve body whose specific gravity is heavier than oil. can do.
この第2の実施例においてはフロート室23内部にホー
ス11の末端に連通する一状の流路23aを隔壁24,
25によって形威し、ノズル内の流路14の基端部14
′をL字型にし、隔壁25に設けた弁孔26によって流
路23aと14′とを連通させるとともに、流路23a
内の弁孔26近くに油よりも比重の大きい材質の球状弁
体27を配備する。In this second embodiment, a flow path 23a communicating with the end of the hose 11 is provided inside the float chamber 23 by a partition wall 24,
25, the proximal end 14 of the channel 14 within the nozzle.
' is L-shaped, and the flow passages 23a and 14' are communicated by a valve hole 26 provided in the partition wall 25, and the flow passage 23a
A spherical valve body 27 made of a material with a higher specific gravity than oil is arranged near the valve hole 26 inside.
第3図に示すノズルの給油状態では弁体27は流路23
aの凹部23bに沈下して弁孔26を開くが、ノズルを
第4図のように筒先を上向きにして保持すると弁体27
が弁孔26を塞ぐ。In the nozzle oil supply state shown in FIG.
The valve hole 26 is opened by sinking into the recess 23b of a, but if the nozzle is held with the tip facing upward as shown in Fig. 4, the valve body 27
closes the valve hole 26.
このとき隔壁25に傾斜面25aを形成しておくと、弁
体27が転動して弁孔26の閉止を確実に行なうのに役
立つ。At this time, forming an inclined surface 25a on the partition wall 25 helps ensure that the valve body 27 rolls and closes the valve hole 26.
28は第1図、第2図の実施例における連通孔22と同
じ目的のために設けた同様の連通孔である。Reference numeral 28 designates a similar communication hole provided for the same purpose as the communication hole 22 in the embodiment shown in FIGS. 1 and 2.
第3図、第4図の実施例の動作は、第1図、第2図の実
施例の動作から容易に理解できるので詳細な説明は省略
する。Since the operation of the embodiment shown in FIGS. 3 and 4 can be easily understood from the operation of the embodiment shown in FIGS. 1 and 2, detailed explanation will be omitted.
この考案の給油ノズルは地上設置式給油装置のみならず
天井吊下げ式の給油装置にも使用できる。The refueling nozzle of this invention can be used not only for ground-mounted refueling equipment but also for ceiling-suspended refueling equipment.
また、ノズルは自動閉弁機構を備えたものであってもよ
い。Further, the nozzle may be equipped with an automatic valve closing mechanism.
さらにこの考案は給油ノズルのみならず他のいかなる給
液ノズルにも適用できる。Furthermore, this invention can be applied not only to oil supply nozzles but also to any other liquid supply nozzles.
この考案の給液ノズルは以上詳述したとおりであるから
、ノズルの内蔵弁が開かれたままであっても、ノズルを
待機位置にもたらす操作自体で付加装価した弁によって
自動的に流路を閉止し、次回給液に際して不用意に液が
ノズルから吐出する危険を防止できる。Since the liquid supply nozzle of this invention is as described in detail above, even if the built-in valve of the nozzle remains open, the flow path is automatically opened by the additional valve by the operation itself of bringing the nozzle to the standby position. This prevents the liquid from being inadvertently discharged from the nozzle the next time the liquid is supplied.
第1図は本案の一実施例のノズル要部を縦断面で示した
正面図、第2図は第1図のノズルの給油状態を示す図、
第3図は他の実施例の要部を縦断面で示した正面図でノ
ズルの給油状態を示す図、第4図は第3図の要部の拡大
縦面図でノズルの不使用状態を示す図である。
S・・・・・・給油装置ハウジング、N・・・・・・給
油ノズル、10・・・・・・ノズルケース、11・・・
・・・ホース、12・・・・・・ノズル本体、13・・
°・°°ノズル筒先パイプ、14・・・・・・貫通流路
、15・・・・・・第1の弁、16・・・・・・弁開閉
レバー、17・・・・・・第2の弁、18.23・・・
・・・フロート室、19−−−−−−フロート弁、20
,24.25・・・・・・隔壁、21,26・・・・・
・弁孔、22゜28・・・・・・連通孔、27・・・・
・・弁体。FIG. 1 is a front view showing a main part of a nozzle according to an embodiment of the present invention in longitudinal section, FIG. 2 is a diagram showing the oil supply state of the nozzle in FIG. 1,
Fig. 3 is a front view showing the main part of another embodiment in longitudinal section, showing the nozzle oiling state, and Fig. 4 is an enlarged vertical sectional view of the main part of Fig. 3, showing the nozzle in the unused state. FIG. S...Refueling device housing, N...Refueling nozzle, 10...Nozzle case, 11...
...Hose, 12...Nozzle body, 13...
°・°°Nozzle tip pipe, 14... Through flow path, 15... First valve, 16... Valve opening/closing lever, 17... Number 2 valve, 18.23...
...Float chamber, 19---Float valve, 20
, 24.25... Bulkhead, 21, 26...
・Valve hole, 22゜28...Communication hole, 27...
... Valve body.
Claims (1)
1の弁と、この弁を開閉動作させる手段とを備えた給液
ノズルにおいて、ノズル筒先を上方へ向けることによっ
て前記給油流路を閉止する第2の弁を前記第1の弁より
も上流側に設けるとともに、前記第2の弁の閉弁時にこ
の弁を迂回してこの弁の上流側と下流側とを連通ずる連
通路を設け、この連通路の開口面積を前記給油流路の開
口面積に比して小さく形成したことを特徴とする給液ノ
ズル。In a liquid supply nozzle that includes a fuel supply channel penetrating the nozzle, a first valve provided in the fuel supply channel, and means for opening and closing this valve, the fuel supply channel can be closed by directing the nozzle tip upward. a second valve that closes the valve is provided upstream of the first valve, and a communication passage that bypasses the second valve and communicates the upstream side and the downstream side of the valve when the second valve is closed; A liquid supply nozzle characterized in that the communication passage has an opening area smaller than an opening area of the oil supply passage.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17832579U JPS6020637Y2 (en) | 1979-12-22 | 1979-12-22 | Liquid supply nozzle |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17832579U JPS6020637Y2 (en) | 1979-12-22 | 1979-12-22 | Liquid supply nozzle |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5694798U JPS5694798U (en) | 1981-07-28 |
| JPS6020637Y2 true JPS6020637Y2 (en) | 1985-06-20 |
Family
ID=29688866
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP17832579U Expired JPS6020637Y2 (en) | 1979-12-22 | 1979-12-22 | Liquid supply nozzle |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6020637Y2 (en) |
-
1979
- 1979-12-22 JP JP17832579U patent/JPS6020637Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5694798U (en) | 1981-07-28 |
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