JP3185740U - Connection port connection base structure of the storage can - Google Patents
Connection port connection base structure of the storage can Download PDFInfo
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- JP3185740U JP3185740U JP2013003507U JP2013003507U JP3185740U JP 3185740 U JP3185740 U JP 3185740U JP 2013003507 U JP2013003507 U JP 2013003507U JP 2013003507 U JP2013003507 U JP 2013003507U JP 3185740 U JP3185740 U JP 3185740U
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- storage
- connection base
- suction
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- air supply
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B23/00—Pumping installations or systems
- F04B23/02—Pumping installations or systems having reservoirs
- F04B23/025—Pumping installations or systems having reservoirs the pump being located directly adjacent the reservoir
- F04B23/028—Pumping installations or systems having reservoirs the pump being located directly adjacent the reservoir the pump being mounted on top of the reservoir
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B53/00—Component parts, details or accessories not provided for in, or of interest apart from, groups F04B1/00 - F04B23/00 or F04B39/00 - F04B47/00
- F04B53/16—Casings; Cylinders; Cylinder liners or heads; Fluid connections
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T137/00—Fluid handling
- Y10T137/9029—With coupling
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Compressors, Vaccum Pumps And Other Relevant Systems (AREA)
- Chairs Characterized By Structure (AREA)
- Massaging Devices (AREA)
- Filling Or Discharging Of Gas Storage Vessels (AREA)
Abstract
【課題】高い使用の利便性と吸入の安定性を達成できる収納缶の導通口接続台構造を提供する。
【解決手段】エアコンプレッサーのエアチューブと給気導通口110に設置する給気制御管110Aとを連接し、給気制御管110Aの制御バルブ110Bにより、高圧空気を排気導通口の排気導管111Aを経て排気導通口に設置する排気導管111Aへと導入し、圧力測定導通口112に設置する圧力メーター112A或いは制御電磁バルブにより、導入気体圧力の探知及び制御を行う。これにより高圧気体は収納缶体内の収容物の比重に応じて、収納缶体内に導入され、収納缶体内の収容物は圧力を受け、吸入導通口に設置する吸入導管120Aより吸入導出口121に設置する導出制御管121Aへと導出され、導出制御管121Aに設置する制御バルブ121Bを開くことで導出される。
【選択図】図1Provided is a storage port connection base structure for a storage can capable of achieving high use convenience and inhalation stability.
An air tube of an air compressor is connected to an air supply control pipe 110A installed in an air supply passage 110, and high pressure air is discharged to an exhaust conduit 111A by a control valve 110B of the air supply control pipe 110A. Then, the gas is introduced into the exhaust conduit 111A installed in the exhaust conduction port, and the introduced gas pressure is detected and controlled by the pressure meter 112A or the control electromagnetic valve installed in the pressure measurement conduction port 112. As a result, the high-pressure gas is introduced into the storage can according to the specific gravity of the storage in the storage can, and the storage in the storage can receives pressure and is supplied to the suction outlet 121 from the suction conduit 120A installed in the suction conduction port. Derived to the installation control pipe 121A to be installed, and is derived by opening the control valve 121B installed in the extraction control pipe 121A.
[Selection] Figure 1
Description
本考案は収納缶の導通口接続台構造に関し、特に、収納缶の内容物導出装置に用いる収納缶の導通口接続台構造に関する。 The present invention relates to a structure for connecting a connection port of a storage can, and more particularly to a structure for connecting a connection port of a storage can used for a content derivation device for a storage can.
従来の缶体吸引装置は図5に示すように、ポンプユニット30には缶胴部31、缶底部32、缶頂部33を備える。缶頂部33には、吸入ピストン330、導出口331を設置する。缶底部32には、連接固定導通口(図示なし)を設置する。ポンプユニット30は、収納缶体20の頂点部に設置される。缶底部32に設置されている連接固定導通口320は、収納缶体20の導通口に相対するように位置する。吸入ピストン330を操作することで、缶胴部31内の気体は真空状態を呈する。こうして、収納缶体20内の収容物を吸引して取り出すことができる。 As shown in FIG. 5, a conventional can body suction device includes a can body 31, a can bottom 32, and a can top 33 in a pump unit 30. A suction piston 330 and a lead-out port 331 are installed on the can top 33. The can bottom 32 is provided with an articulated fixed conduction port (not shown). The pump unit 30 is installed at the apex of the storage can body 20. The connection fixed conduction port 320 installed in the can bottom 32 is positioned to face the conduction port of the storage can body 20. By operating the suction piston 330, the gas in the can body 31 is in a vacuum state. Thus, the contents in the storage can body 20 can be sucked out.
しかし、従来の缶体吸引装置には以下の問題が存在する。
1. 使用の利便性が劣る:人力により吸入ピストンを操作することで、缶胴部内の気体を真空状態とし、これにより収納缶体内の収容物を吸引して取り出す必要があるため、使用の利便性が劣る。
2. 吸入の安定性が劣る:人力により吸入ピストンを操作することで、缶胴部内の気体を真空状態とし、これにより収納缶体内の収容物を吸引して取り出す必要があるため、人力により吸入ピストンを操作する際に作用する力の大きさ及び操作の頻度を固定することができないため、吸入の安定性が劣る。
本考案は、従来の缶体吸引装置の上記の欠点に鑑みてなされたものである。
However, the conventional can suction device has the following problems.
1. Convenience of use is inferior: The suction piston is operated by human power, so that the gas in the can body is evacuated, and the contents in the storage can must be sucked out. Inferior.
2. Inhalation stability is inferior: By operating the suction piston by human power, the gas in the can body is evacuated and it is necessary to suck and take out the contents in the container. Since the magnitude of the force acting when operating the piston and the frequency of operation cannot be fixed, the stability of inhalation is poor.
This invention is made | formed in view of the said fault of the conventional can body suction device.
本考案が解決しようとする課題は、従来の缶体吸引装置の使用の利便性及び吸入の安定性が劣るという問題を解決することができる収納缶の導通口接続台構造を提供することである。 The problem to be solved by the present invention is to provide a conduction port connection base structure of a storage can that can solve the problems of inconvenience in use of a conventional can body suction device and instability of inhalation. .
上記課題を解決するため、本考案は下記のような収納缶の導通口接続台構造を提供する。
本考案の収納缶の導通口接続台構造は、接続台本体を備え、該接続台本体には、給気管路及び吸入管路を設置し、該給気管路は、T字型に類似した形状を呈し、該吸入管路は、L字型に類似した形状を呈し、しかも、該接続台本体の両側には、係合用平面をそれぞれ設置し、該係合用平面下方の接続台本体を環状に囲む外径には、螺合固定部を設置し、該給気管路は、該接続台本体の前方に、給気導通口を設置し、該給気導通口は、給気制御管を結合して設置し、該給気制御管には、制御バルブを設置し、また、該接続台本体底側には、排気導通口を設置し、該排気導通口は、排気導管を結合して設置し、しかも、該接続台本体頂点側には、圧力測定導通口を設置し、該圧力測定導通口は、圧力メーター或いは制御電磁バルブを結合して設置し、該吸入管路は、該接続台本体底側に、吸入導通口を設置し、該吸入導通口は、吸入導管を結合して設置し、別に、該吸入管路は、該接続台本体前方に、吸入導出口を設置し、該吸入導出口は、導出制御管を結合して設置し、該導出制御管には、制御バルブを設置し、該接続台本体は、設置する螺合固定部により、収納缶体の導通口に螺合して固定し、エアコンプレッサーのエアチューブと該給気導通口に設置する給気制御管とを連接することで、該給気制御管の制御バルブを経て、高圧空気を、該排気導通口の排気導管を経て収納缶体内に導入し、該圧力測定導通口に設置する圧力メーター或いは制御電磁バルブにより、導入気体圧力の探知及び制御を行い、これにより、高圧気体は、該収納缶体内の収容物の比重に応じて、該収納缶体内に導入され、こうして、該収納缶体内の収容物は圧力を受け、該吸入導通口に設置する吸入導管より、該吸入導出口に設置する導出制御管へと導出され、並びに、該導出制御管に設置する制御バルブを開くことで導出され、こうして、高圧空気を収納缶体に簡易に導入することで、収容物を安定的に導出することができ、高い使用の利便性と吸入の安定性を達成することができる。
In order to solve the above-mentioned problems, the present invention provides the following structure for the connection opening of the storage can.
The conduction port connection base structure of the storage can of the present invention comprises a connection base body, and the connection base body is provided with an air supply pipe and a suction pipe, and the air supply pipe has a shape similar to a T-shape. The suction pipe has a shape similar to an L-shape, and an engagement plane is provided on both sides of the connection base body, and the connection base body below the engagement plane is annularly formed. A screw fixing part is installed on the outer diameter, and the air supply conduit is provided with an air supply conduction port in front of the connection base body, and the air supply conduction port is connected to the air supply control pipe. A control valve is installed in the air supply control pipe, and an exhaust conduction port is installed on the bottom side of the connection base body. The exhaust conduction port is installed by connecting an exhaust conduit. Moreover, a pressure measurement conduction port is installed on the apex side of the connection base body, and the pressure measurement conduction port is installed by connecting a pressure meter or a control electromagnetic valve. The suction conduit is provided with a suction conduction port on the bottom side of the connection base body, the suction conduction port is installed by connecting a suction conduit, and separately, the suction conduit is connected to the front of the connection base body. A suction lead-out port, the suction lead-out port is installed by connecting a lead-out control pipe, a control valve is installed in the lead-out control pipe, and the connection base body is installed by a screwing fixing portion to be installed. , Screwed and fixed to the conduction port of the storage can body, and connected the air tube of the air compressor and the air supply control pipe installed in the air supply conduction port, through the control valve of the air supply control pipe The high pressure air is introduced into the housing can through the exhaust conduit of the exhaust passage, and the introduced gas pressure is detected and controlled by a pressure meter or a control electromagnetic valve installed at the pressure measurement passage, High-pressure gas is contained in the storage can according to the specific gravity of the storage in the storage can. In this way, the contents in the storage can receive pressure, and are led out from the suction conduit installed in the suction conduction port to the lead-out control tube installed in the suction lead-out port, and to the lead-out control tube It is derived by opening the control valve to be installed. Thus, by simply introducing high-pressure air into the storage can body, the contents can be stably derived, and the convenience of use and the stability of inhalation can be improved. Can be achieved.
本考案の収納缶の導通口接続台構造は、以下の効果を有する。
1.使用の利便性が高い:高圧空気を排気導通口の排気導管を経て収納缶体に導入することで、収納缶体内の収容物は圧力を受け、吸入導通口に設置する吸入導管より、吸入導出口に設置する導出制御管へと導出され、並びに、導出制御管に設置する制御バルブを開くことで導出され、高圧空気を簡易に導入することで、収容物を導出できるため、使用の利便性が高い。
The conduction port connection base structure of the storage can of the present invention has the following effects.
1. High convenience of use: By introducing high-pressure air into the storage can body through the exhaust conduit of the exhaust passage, the contents in the storage can receive pressure, and from the suction conduit installed at the suction passage, Since it is led out to the lead-out control pipe installed at the suction lead-out port, and it is derived by opening the control valve installed in the lead-out control pipe, the contained material can be led out by simply introducing high-pressure air. Convenience is high.
2.吸入の安定性が高い:高圧空気は排気導通口の排気導管を経て収納缶体に導入され、圧力測定導通口に設置する圧力メーター或いは制御電磁バルブにより、導入気体圧力の探知及び制御を行い、これにより、高圧気体は、収納缶体内の収容物の比重に応じて、収納缶体内に導入され、こうして、収納缶体内の収容物は圧力を受け、吸入導通口に設置する吸入導管より、吸入導出口に設置する導出制御管へと導出され、並びに、導出制御管に設置する制御バルブを開くことで導出され、高圧空気を収納缶体に導入することで、収容物を安定的に導出するため、吸入の安定性が高い。 2. High intake stability: High-pressure air is introduced into the storage can through the exhaust conduit of the exhaust vent, and the pressure meter or control solenoid valve installed at the pressure measurement vent detects and controls the introduced gas pressure. In this way, the high-pressure gas is introduced into the storage can according to the specific gravity of the storage in the storage can. Thus, the storage in the storage can receives pressure and from the suction conduit installed in the suction conduction port. , Led out to a lead-out control pipe installed in the suction lead-out port, and led out by opening a control valve installed in the lead-out control pipe. By introducing high-pressure air into the housing can body, the contents can be stably Because it derives, the stability of inhalation is high.
以下に図面を参照しながら本考案を実施するための最良の形態について詳細に説明する。 The best mode for carrying out the present invention will be described below in detail with reference to the drawings.
本考案収納缶の導通口接続台構造の立体組合せ状態、立体分解状態、側視断面状態の各模式図である図1〜3に示すように、本考案収納缶の導通口接続台構造は、接続台本体10を備える。 As shown in FIGS. 1 to 3, which are schematic diagrams of a three-dimensional combination state, a three-dimensional disassembled state, and a side view sectional state of the conduction port connection base structure of the storage can according to the present invention, A connection base body 10 is provided.
接続台本体10には、給気管路11及び吸入管路12が設置されている。 The connection base body 10 is provided with an air supply line 11 and an intake line 12.
給気管路11は、T字型に類似した形状を呈し、吸入管路12は、L字型に類似した形状を呈する。
しかも、接続台本体10の両側には、係合用平面13がそれぞれ設置されている。
係合用平面13下方の接続台本体10を環状に囲む外径には、螺合固定部14が設置されている。
The air supply line 11 has a shape similar to a T shape, and the suction line 12 has a shape similar to an L shape.
In addition, on both sides of the connection base body 10, engagement planes 13 are respectively installed.
A screw fixing portion 14 is installed on the outer diameter surrounding the connection base body 10 below the engagement plane 13 in an annular shape.
給気管路11における接続台本体10の前方には、給気導通口110が設置されている。
給気導通口110には、給気制御管110Aが結合されている。
給気制御管110Aには、制御バルブ110Bが設置されている。
An air supply opening 110 is provided in front of the connection base body 10 in the air supply line 11.
An air supply control pipe 110A is coupled to the air supply passage 110.
A control valve 110B is installed in the air supply control pipe 110A.
また、接続台本体10底側には、排気導通口111が設置されている。
排気導通口111には、排気導管111Aが結合されている。
また、接続台本体10の頂点側には、圧力測定導通口112が設置されている。
圧力測定導通口112には、圧力メーター112A或いは制御電磁バルブ(図示なし)が結合されている。
Further, an exhaust conduction port 111 is provided on the bottom side of the connection base body 10.
An exhaust conduit 111A is coupled to the exhaust conduction port 111.
Further, a pressure measurement conduction port 112 is provided on the apex side of the connection base body 10.
A pressure meter 112A or a control electromagnetic valve (not shown) is coupled to the pressure measurement conduction port 112.
吸入管路12における接続台本体10の底側には、吸入導通口120が設置されている。
吸入導通口120には、吸入導管120Aが結合されている。
また、吸入管路12における接続台本体10の前方には、吸入導出口121が設置されている。
吸入導出口121には、導出制御管121Aが結合されている。
導出制御管121Aには、制御バルブ121Bが設置されている。
A suction conduction port 120 is installed on the bottom side of the connection base body 10 in the suction pipe 12.
A suction conduit 120A is coupled to the suction conduction port 120.
In addition, a suction outlet 121 is provided in front of the connection base body 10 in the suction pipe 12.
A lead-out control pipe 121A is coupled to the suction lead-out port 121.
A control valve 121B is installed in the derivation control pipe 121A.
上記のような構造により、本考案の収納缶の導通口接続台構造の構成が完成される。 With the structure as described above, the structure of the conduction port connection base structure of the storage can of the present invention is completed.
本考案収納缶の導通口接続台構造の立体分解状態模式図、側視断面状態模式図、及び収納缶体に結合する使用状態参考図である図2〜4に示すように、接続台本体10に設けられている螺合固定部14により、収納缶体20の導通口に螺合して固定される。 As shown in FIGS. 2 to 4 which are a three-dimensional exploded schematic diagram, a side sectional schematic diagram of the storage port connection base structure of the present invention, and a use state reference diagram coupled to the storage can body, as shown in FIGS. Are fixed to the conduction port of the storage can body 20 by a screw fixing portion 14 provided in the container.
エアコンプレッサーのエアチューブと給気導通口110に設置されている給気制御管110Aとを連接することで、給気制御管110Aの制御バルブ110Bを経て、高圧空気を、排気導通口111の排気導管111Aを通して収納缶体20に導入する。
圧力測定導通口112に設置されている圧力メーター112A或いは制御電磁バルブにより、導入気体圧力の探知及び制御を行う。
これにより、高圧気体は、収納缶体20内の収容物の比重に応じて、収納缶体20内に導入される。
By connecting the air tube of the air compressor and the air supply control pipe 110A installed in the air supply conduction port 110, high pressure air is exhausted through the control valve 110B of the air supply control pipe 110A and exhausted from the exhaust conduction port 111. It is introduced into the storage can body 20 through the conduit 111A.
The introduced gas pressure is detected and controlled by a pressure meter 112A or a control electromagnetic valve installed in the pressure measurement conduction port 112.
Thereby, the high-pressure gas is introduced into the storage can body 20 according to the specific gravity of the storage object in the storage can body 20.
こうして、収納缶体20内の収容物は圧力を受け、吸入導通口120に設置する吸入導管120Aより、吸入導出口121に設置されている導出制御管121Aへと導出される。また、導出制御管121Aに設置されている制御バルブ121Bを開いて導出する。こうして、高圧空気を収納缶体20に簡単に導入することで、収容物を安定的に導出することができ、高い使用の利便性と吸入の安定性を達成することができる。 Thus, the contents in the storage can body 20 receive pressure and are led out from the suction conduit 120A installed in the suction conduction port 120 to the lead-out control pipe 121A installed in the suction lead-out port 121. Further, the control valve 121B installed in the derivation control pipe 121A is opened for derivation. Thus, by simply introducing the high-pressure air into the storage can body 20, the stored item can be stably derived, and high convenience of use and stability of inhalation can be achieved.
上記の本考案名称と内容は、本考案技術内容の説明に用いたのみで、本考案を限定するものではない。本考案の意思に基づく等価応用或いは部品(構造)の転換、置換、数量の増減はすべて本考案の保護範囲に含むものとする。 The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the intention of the present invention or conversion, replacement of parts (structure), and increase / decrease in quantity are all included in the protection scope of the present invention.
本考案は実用新案登録の要件である新規性を備え、従来の同類製品に比べ十分な進歩性を有し、実用性が高く、社会的ニーズに合致しており、産業上の利用価値は非常に大きい。 The present invention has the novelty that is a requirement for utility model registration, has sufficient inventive step compared to conventional similar products, has high practicality, meets social needs, and has a very high industrial utility value Big.
10 接続台本体
11 給気管路
110 給気導通口
110A 給気制御管
110B 制御バルブ
111 排気導通口
111A 排気導管
112 圧力測定導通口
112A 圧力メーター
12 吸入管路
120 吸入導通口
120A 吸入導管
121 吸入導出口
121A 導出制御管
121B 制御バルブ
13 係合用平面
14 螺合固定部
20 収納缶体
30 ユニット
31 缶胴部
32 缶底部
320 連接固定導通口
33 缶頂部
330 吸入ピストン
331 導出口
10 Connection base
11 Supply line
110 Air supply port
110A air supply control pipe
110B control valve
111 Exhaust port
111A exhaust pipe
112 Pressure measurement port
112A pressure meter
12 Suction line
120 Inlet port
120A suction conduit
121 Inlet outlet
121A Derived control pipe
121B Control valve
13 engagement plane
14 Screw fixing part
20 storage cans
30 units
31 Can body
32 Can bottom
320 articulated fixed conduction port
33 Can top
330 Suction piston
331 Outlet
Claims (8)
接続台本体を備え、
前記接続台本体には、給気管路及び吸入管路が設置され、
前記給気管路における前記接続台本体の前方に、給気導通口が設置され、前記給気導通口には、給気制御管が結合され、
前記接続台本体底側には、排気導通口が設置され、前記排気導通口には、排気導管が結合され、
しかも、前記接続台本体頂点側には、圧力測定導通口が設置され、前記圧力測定導通口には、圧力メーターが結合され、
前記吸入管路における前記接続台本体底側には、吸入導通口が設置され、前記吸入導通口には、吸入導管が結合され、
前記吸入管路における前記接続台本体の前方には、吸入導出口が設置され、前記吸入導出口には、導出制御管が結合されていることを特徴とする収納缶の導通口接続台構造。 It is a conduction port connection base structure of the storage can,
It has a connection base body,
The connection base body is provided with an air supply line and a suction line,
An air supply opening is installed in front of the connection base body in the air supply line, and an air supply control pipe is coupled to the air supply opening,
On the bottom side of the connection base body, an exhaust conduction port is installed, and an exhaust conduit is coupled to the exhaust conduction port,
In addition, a pressure measurement conduction port is installed on the apex side of the connection base body, and a pressure meter is coupled to the pressure measurement conduction port,
A suction conduction port is installed on the bottom side of the connection base body in the suction conduit, and a suction conduit is coupled to the suction conduction port,
A conduction port connection base structure for a storage can, wherein a suction lead-out port is installed in front of the connection base body in the suction pipe, and a lead-out control pipe is coupled to the suction lead-out port.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW102210173U TWM462267U (en) | 2013-05-31 | 2013-05-31 | Connection seat structure of guide opening of receiving container |
TW102210173 | 2013-05-31 |
Publications (1)
Publication Number | Publication Date |
---|---|
JP3185740U true JP3185740U (en) | 2013-08-29 |
Family
ID=49629829
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2013003507U Expired - Fee Related JP3185740U (en) | 2013-05-31 | 2013-06-20 | Connection port connection base structure of the storage can |
Country Status (4)
Country | Link |
---|---|
US (1) | US20140352829A1 (en) |
JP (1) | JP3185740U (en) |
CN (1) | CN203332676U (en) |
TW (1) | TWM462267U (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106269736A (en) * | 2016-08-15 | 2017-01-04 | 广东技术师范学院 | The cleaning head structure of a kind of beer barrel cleaning machine and cleaning method thereof |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AR219527A1 (en) * | 1978-04-26 | 1980-08-29 | Araley Sa | LIQUID DISPENSER, TYPE SUITABLE TO DRIVE A QUANTITY OF WATER TO EJECTORS OR THE LIKE AT CONTROLLED PRESSURE AND IN A DEFAULT QUANTITY |
US4997111A (en) * | 1989-12-12 | 1991-03-05 | Richard Lowers | Liquid dispensing apparatus |
US7849872B2 (en) * | 2007-08-13 | 2010-12-14 | Greatbatch Ltd. | Keyed fluid connector and fluid dispensing system |
-
2013
- 2013-05-31 TW TW102210173U patent/TWM462267U/en not_active IP Right Cessation
- 2013-06-14 CN CN2013203400793U patent/CN203332676U/en not_active Expired - Fee Related
- 2013-06-18 US US13/920,263 patent/US20140352829A1/en not_active Abandoned
- 2013-06-20 JP JP2013003507U patent/JP3185740U/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
CN203332676U (en) | 2013-12-11 |
US20140352829A1 (en) | 2014-12-04 |
TWM462267U (en) | 2013-09-21 |
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