Connector apparatus and docking station connection therewtih
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16L-037/12
B65B-003/04
F16L-023/00
B05B-001/00
출원번호
US-0578352
(2014-12-20)
등록번호
US-9605785
(2017-03-28)
발명자
/ 주소
Murray, Chris
Erickson, Kyle
출원인 / 주소
Scholle IPN Corporation
대리인 / 주소
The Watson IP Group, PLC
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
A connector apparatus including a body, a fluid supply connection subassembly and a docking station connection subassembly. The body defines a fluid passageway including a first passageway portion and a second passageway portion generally perpendicular to the first passageway portion. The first pass
A connector apparatus including a body, a fluid supply connection subassembly and a docking station connection subassembly. The body defines a fluid passageway including a first passageway portion and a second passageway portion generally perpendicular to the first passageway portion. The first passageway portion including a first end outlet and the second passageway portion including a second end outlet. The fluid supply connection subassembly is at the first end of the body and includes an elongated probe defined by the first end outlet. The docking station connection subassembly is at the second end of the body and includes an elongated spout defining the second end outlet. The elongated spout extends from a frame including an outside surface and a base rim. The base rim defines a plane with the elongated spout extending therebeyond.
대표청구항▼
1. A connector apparatus comprising: a body defining a fluid passageway, the fluid passageway defining a first passageway portion and a second passageway portion generally perpendicular to the first passageway portion, the first passageway portion including a first end outlet and the second passagew
1. A connector apparatus comprising: a body defining a fluid passageway, the fluid passageway defining a first passageway portion and a second passageway portion generally perpendicular to the first passageway portion, the first passageway portion including a first end outlet and the second passageway portion including a second end outlet;a fluid supply connection subassembly at the first end of the body, the fluid supply connection subassembly including an elongated probe defined by the first end outlet;a docking station connection subassembly at the second end of the body, the docking station connection assembly including an elongated spout defining the second end outlet, the elongated spout extending from a frame including an outside surface and a base rim, the base rim defining a plane with the elongated spout extending therebeyond, the elongated spout defining an elongated spout axis,wherein the docking station connection subassembly further includes a coupling structure which includes a fastener passageway with a fastener receiving portion at an upper end thereof, the fastener passageway defining a fastener passageway axis, with the fastener passageway axis being spaced apart from the elongated spout axis and substantially parallel thereto, and with the fastener passageway positioned within the frame. 2. The connector apparatus of claim 1 wherein the frame comprises a substantially oval with the base rim defining a plane that is substantially parallel to a plane defined by the second end outlet, and substantially perpendicular to a plane defined by the first end outlet. 3. The connector apparatus of claim 2 wherein the frame includes a first semi-circular end, a second semi-circular end with a pair of rectangular portions extending therebetween so as to define the oval configuration. 4. The connector apparatus of claim 3 wherein the frame defines a width and a length, the length of the frame being larger than the width by approximately a ratio of 3:1. 5. The connector apparatus of claim 3 wherein the first semi-circular end defines a center point, with the center point of the first semi-circular end defining a longitudinal axis of the elongated spout. 6. The connector apparatus of claim 3 wherein the elongated spout and the fastener passageway of the coupling structure define a line that bisects the frame along a longitudinal axis extending therethrough. 7. The connector apparatus of claim 3 wherein the fluid supply connection subassembly further comprises a flange spaced apart from the first end outlet defining a proximal end of the elongated probe, and a pair of opposing locking fingers, each of the locking fingers including a spring post extending outwardly from the body on an opposite side of the flange from the first end opening, a handle portion extending away from a distal end of the spring post away from the first end opening, and a grasping portion extending from the distal end of the spring post toward the first end, terminating between the flange and the first end opening, with a retaining flange extending inwardly from a distal end of the grasping portion, so as to retain an outer rim of a fitment upon insertion of the elongated probe therethrough. 8. An assembly including a docking station and a connector apparatus: the docking station including, a connector block having a block body with an upper surface, a side surface, an upper surface and a lower portion, the lower portion attachable to a grasping body, a first opening extending through the upper surface of the connector block; and a second opening extending through the upper surface of the connector block, the second opening having an upper countersink portion and a lower portion, wherein the lower portion is of a smaller diameter than the upper portion, with a step surface extending therebetween; andan elongated fluid receiving member defining a tubular passageway with a first end and a second end, the elongated fluid receiving member extending through the second opening of the connector block, with the first end extending beyond the upper surface of the block body;the connector apparatus comprising, a body defining a fluid passageway, the passageway defining a first passageway portion and a second passageway portion generally perpendicular to the first passageway portion, the first passageway portion including a first end outlet and the second passageway portion including a second end outlet;a fluid supply connection subassembly at the first end of the body, the fluid supply connection subassembly including an elongated probe defined by the first end outlet;a docking station connection subassembly at the second end of the body, the docking station connection assembly including an elongated spout defining the second end outlet, the elongated spout extending from a frame including an outside surface and a base rim, the base rim defining a plane with the elongated spout extending therebeyond,wherein the first end of the elongated fluid receiving member extends into the second end outlet and into the second passageway portion, with the second end outlet extending into the upper countersink portion of the second opening, with the base rim interfacing with the upper surface of the block body. 9. The assembly of claim 8 wherein the side surface of the block body substantially corresponds in shape to the frame of the docking station connection subassembly. 10. The assembly of claim 9 wherein the docking station subassembly further includes an opening corresponding to the first opening of the connector block, with the first opening of the connector block including a thread formed thereon, and a fastener extending through the opening of the docking station subassembly and into the first opening of the connector block, sandwiching the docking station subassembly therebetween. 11. The assembly of claim 10 wherein the opening of the first docking station subassembly further includes an elongated passageway, and the first opening of the connector block includes a countersink portion proximate the upper surface of the block body, with the elongated passageway extending into the countersink portion of the first opening of the connector block upon positioning of the connector apparatus into engagement with the connector block. 12. The assembly of claim 11 wherein the elongated fluid receiving member further includes an upper flange, the upper flange including an upper surface that limits further movement of the elongated fluid receiving member within the connector block. 13. The assembly of claim 11 wherein the elongated fluid receiving member further includes an upper seal spaced apart from the first end thereof and spaced apart from the second opening of the block body of the connector block. 14. The assembly of claim 11 wherein the fluid supply connection subassembly further comprises a flange spaced apart from the first end outlet defining a proximal end of the elongated probe, and a pair of opposing locking fingers, each of the locking fingers including a spring post extending outwardly from the body on an opposite side of the flange from the first end opening, a handle portion extending away from a distal end of the spring post away from the first end opening, and a grasping portion extending from the distal end of the spring post toward the first end, terminating between the flange and the first end opening, with a retaining flange extending inwardly from a distal end of the grasping portion, so as to retain an outer rim of a fitment upon insertion of the elongated probe therethrough.
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이 특허에 인용된 특허 (14)
Johnson, James W., Adaptor for use with a valve fitment.
Michael Hetherington CA; Richard Charles Pahl, Method and system for transfer of fluid and dry materials from an inverted holding container to a paired docking station receptacle.
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