CA1065720A - Plastic manifold assembly - Google Patents

Abstract

Abstract of the Disclosure Manifold assembly having a plastic body with intersecting flow passages and valve members for controlling communication between the passageways. Stop limit the move-ment of the valve members between predetermined positions, and the valve members can be removed from the body and rein-stalled in reversed positions to provide fixed communication between certain of the passageways. Externally threaded nipples are provided for connecting the assembly to external fixtures, and resilient sleeves are inserted between the valve members and the body to form fluid tight seals.

Description

106S7,'~:0 This invention pertains generally to medical appliances and more particularly to a manifold assembly for controlling flows of fluid and pres-sure.
Manifold assemblies have been provided in the past for medical applications, and one such assembly is shown in United States Patent 3,477,469 issued November 11, 1969 to the applicant herein. These prior art manifolds are commonly made of stainless steel, and while they have been found to give reliable performances for long periods of time, they require substantial machining and therefore are expensive to manufacture.
According to the invention there is provided in a manifold assembly a body fabricated of a substantially rigid plastic material formed to include -a longitudinally extending flow passageway and a plurality of laterally ex-tending flow passageways intersecting the longitudinally extending passage-way, said passageways lying in a common plane, bores extending through the body at the intersection of the passageways in a direction normal to the plane of the passageways, sleeves fabricated of a generally resilient material mounted in the bores and having openings aligned with the passageways, and ` valve members rotatably mounted in the sleeves with passageways a~apted for , selective alignment with the intersecting passageways through the openings ` 20 for controlling communication between the same.

Brief Description of the Drawings Figure 1 is a top plan view of one embodiment of ., :
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10~;57Z0 a manifold as5embly accor~ing to th~ invention.
FIGURE 2 is a cross-sectional view taken along line 2-2 in FIGURE 1.
FIGURE 3 is a cross-sectional view taken along line 3-3 in FIGURE 1.
FIGURE 4 is a cross-~ectional view taken along l~ne 4-4 in FIGURE 1.
FIGURE 5 is a cross-sectional view taken along line 5-5 in FIGURE 4.
FIGURE 6 is a cross-sectional view taken along line 6-6 in FIGURE 1.
FIGURE 7 is an exploded perspective view illustrating the addition of a bottom cover plate and a ~-mounting bracket to the manifold assembly of FIGURES 1-6, with the valve members omitted for clarity of illustration.
FIGUR~ 8 is a perspective view of a valve member used in the manifold assembly of the invention.
FIGURE 9 is a top plan view of a second embodiment of a manifold assembly according to the invention, with the valve members removed for clarity of illustration.
FIGURE 10 is a cross-sectional view taken along line 10-10 in FIGURE 9.
FIGURE 11 is a cross-sectional view taken along ~ine 11-11 in FIGURE 9.
FIGURE 12 is a cross-sectional view taken along line 12-12 in FIGURE 9.
FIGURE 13 is a bottom plan view of the manifold as8embly of FIGURES 9-12.
FIGURE 14 is a bottom plan view of another embodi-ment of a manifold assembly according to the invention.

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FIGURE 15 ic a sectional view taken along line 15-15 in FIGURE 14.
FIGURE 16 is a sectional view taken along line 16-16 in FIGURE 14.
FIGURE 17 i8 an end view of the manifold assembly of FIGURE 14.
FIGURE 18 is a bottom plan view of another embodi-ment of a manifold a-ssembly according to the invention.
FIGURE 19 i8 an end view of the embodiment of FIGURE 18.
FIGURE 20 is an enlarged fragmentary cross sectional view taken along line 20-20 in FIGURE 18.
FIGURE 21 is a fragmentary cross sectional view taken along line 21-21 in FIGURE 20.
FIGURE 22 is a cross sectional view taken along line 22-22 in FIGURE 20.
The manifold assembly illustrated in FIGURES 1-7 includes a generally rectangular hollow body 21 having a ; top wall 22, side walls 23, 24 and end walls 26, 27. A
centrally disposed rib 31 extends longitudinally of the body and has an axially extending flow passageway 32 formed therein. This passageway extends through end walls 26, 27 -~
~nd externally threaded nipples 33, 34 on the ends of the body. Additional ribs 36-40 extend laterally of the ; manifold body and intersect rib 31. Flow passageways 42-46 extend axially of ribs 36-40 and pass through slde wall 23 and externally threaded nipples 42-46 on the side of the manifold body.
Cylindrical bosses 57-61 are provided at the intersections of the ribs, and bores 63-67 formed in the ~ 4 . - .
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10657~0 bosses open through top wall 22. The bores intersect the passageways and extend in a direction normal to them.
Valve means is provided for controlling communica-tion between the passageways in the manifold body. This means includes valve members 71-75 having cylindrical core portions 71a-75a rotatively mounted in bores 63-67, respectively. The valve members also include kno~s 71b-75b affixed to the core portions and accessible externally of the manifold body. The core portions of the valves are provided with T-shaped passageways 71c-75c opening through the cylindrical side walls of the core portions. These passage-ways are adapted for alignment with different ones of the passageways in the manifold body depending upon the rotative positions of the valve members. The knobs are provided with arrows 77 which are in general aligned with the T-shaped passageways and serve to indicate the positions of these passageways.
Means is provided for limiting the rotation of ; the valve members between predetermined positions. This mean8 includes pin 81-85 which extends from top wall 22 of , . ~ .
the manifold body and arcuate stop members 71d-75d carried by the valve members. The stop members have radially extending faces 87, 88 and notches 89 for engaging the pins to limit the rotation of the valve members. The valve members are removably mounted in the manifold body, and they can be installed either with the pins between faces 87 ; and 88 or with the pins in notches 89. With the pin installed between faces 87 and 88, the valve member is free to rotate between the limiting postions defined by the faces. Whe the valve member is installed in the reverse - .

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10~57;~0 position, i.e. with the pin in the notch, the valve member is or~ented in a predetermined position and constrained against rotation.
The manifold body has additional bosses 91-94 in which openings 96-99 are formed. These openings open through top wall 22 and are adapted to receive the locating pins 101, 102 of a mounting bracket 103. This bracket is preferably of the type described in the aforementioned U. S. Patent 3,477,469, and it is adapted to be mounted on a vertical rod such as the upright rod of a stand used in intravenous feeding. The bracket includes a support plate 104 which in use is generally oriented in a horizontal position with the manifold assembly resting on it. The angular positic.. of the manifold relative to the mounting bracket i8 determined by the holes in which pins 101, 102 are located.
If desired, the bottom of the hollow manifold body can be closed by a cover plate 106. As illustrated in FIGURE 7, cover plate 106 is provided with openings 107 and 108 which are aligned respectively with bores 63-67 and openings 96-99. The cover plate is affixed to the manifold body by suitable means such as sonic welding or cementing.
Pins 109, which are similar to pins 81-85, extend from the cover plate, and the valve members can be inserted from the cover plate side of the manifold, if desired.
Nipples 33-34 and 51-55 provide means for connecting flow lines to the manifold assembly, and they are adapted for receiving a number of different types of fittings for this purpose. Several such fittings are illustrated in FIGURE 1, including a Luer fitting converter 111, sleeve .:, , - ~ . - .
-~.': ' ' ' ' ' - ' ' 10~;S7Z0 - clamps 112 and 113, and a one-twist male fitting 114.
Fittings 111-113 have internal threads which engage the external threads of the nipples, and fitting 114 fits over a tapered portion of the nipples.
In the preferred embodiment, the manifold body i8 fabricated of a plastic such as polysulfone or a polycarbonate such as Lexan, and with the exception of cover plate 106 it is formed as a unitary structure by a suitable process such as injection molding. Other materials can be used, if desired, but the material used should preferably be one which can be cleaned by sterilizing. The valve members are fabricated of a suitable material such as teflon or fluorinated ethylene F,opylene, and they are machined to provide a fluid tight fit in bores 63-67.
Operation and use of the manifold assembly of FIGURES 1-7 can be described briefly. The assembly is generally mounted in a horizontal position with top wall 22 I facing up. Flow lines are connected to the nipples by uitable fittings, and valve members 71-75 are positioned to provide communication between de~ired ones of the flow .. ; ~ , ,.
linefi via the passageways in the manifold body. For example, , .:.~ ..
with valve member 77 in the position illustrated, passage-way 42 is in communication with the inner portion of passage-way 32 through T-shaped passageway 71c, and the outer portion of passageway 32 is isolated from the other passageways. If valve member 71 were rotated 90 degrees in the clockwise direction, as viewed in FIGURES 1 and 5, the inner and outer portions of passageway 32 would communicate through T-shaped passageway 71c, and passage-way 42 would be isolated. If the valve member were then ~ F~4 , ., .

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106S7'~0 rotated an additional 90 degrees, paqqageway 42 would be in communication with the outer portion of passageway 32, and these passageways would be isolated from the remainder of the passageways. When a valve member is positioned with the pin in the notch, for example, as valve member 73 is positioned, the valve member is constrained against rotation, and the portions of passageway 32 on both sides of the valve member are in communication with the laterally extending passageway, e.g. passageway 44. For cleaning, the valve members can be removed from the body, and the body can be sterilized in the conventional manner.
The manifold assembly illustrated in FIGURES
9-13 includes a generally rectangular body, which in the preferred embodiment, is also molded as a unitary structu-e of a plastic such as polysulfone or a polycarbonate such as Lexan. This body is formed to include a longitudinally extending flow passageway 122 which opens through an externally threaded nipple 123 at one end of the body.
~he body is also formed to include laterally extending flow passageways 126-129 which lie in a common plane with passageway 122 and open through externally threaded nipples 131-134 at the sides of the body.
Cylindrical bosses 136-138 extend normally from body 121 at the intersections of the longitudinal and lateral passageways. Bores 141-143 extend through the bosses, and valve members of the type shown in FIGURE 8 are rotatably mounted in these bores. Pins 146-148 extend from the body adjacent to bosses 136-138 and cooperate with the stop members of the valve members to limit the rotation of the valve members between predetermined positions.

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10~57'~0 i Manifold body 121 is also provided with additional bosses 151-154 which define openings 156-159 for receiving the locating pins of a mounting bracket similar to bracket 103.
Operation and use of the manifold assembly of FIGURES 9-13 is generally similar to that described above in connection with the manifold assembly of FFIGURES 1-7.
The valve members control the communication between the passageways in the manifold body and the flow lines connect-ed thereto. The arrangement of the valves and passageways ln the assembly of FIGURES 9-13 make this unit particularly suitable for angiocardiographic work.
The manifold assembly illustrated in FIGURES
14-17 includes a generally planar body which, in the preferred embodiment, is molded as a unitary structure of a plastic such as polysulfone or a polycarbonate such as Lexan. This body comprises a generally rectangular portion 221 hav~ng a top wall 222, side walls 223, 224, and end walls 226, 227. A centrally disposed rib 231 extends longitudinally ~ 20 of the rectangular body portion and has an axially extending ¦ flow passageway 232 formed therein. This passageway extends through end walls 226, 227 and externally threaded nipples l 233, 234 at the ends of the body. Additional ribs 236-240 ;3 extend laterally of the manifold body and intersect rib 231. Flow passageways 242-246 extend axially of ribs , 23~-240 and pass through side wall 223 and externally threaded nipples 252-256 at the side of the manifold body.
` Cylindrical bosses 257-261 are provided at the :
intersections of the ribs, and bores 263-267 formed in the bosses extend through top wall 222. The bores intersect ~ _g_ ~ D~ ~

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10~57~0 the passageways and extend in a direction normal to them.
Communication between the passageways in the manifold body is controlled by valve members 271-275 which are similar to valve members 71-75. As in the embodiment of FIGURES 1-7, rotation of the valve members is limited by pins 281-285 which extend from top wall 222 and engage stops on the valve members.
The body of the manifold assembly of FIGURES
14-17 also includes a generally planar mounting flange 310 which extends laterally from side 224 of the generally rectangular portion. In the preferred embodiment, the mounting flange is formed integrally with the rectangular portion and includes a plate 311 which i8 aligned generally with top wall 222 of the rectangular portion. Depending ~kirts 321 and 313 extend along the side edges of plate 311 which are inclined outwardly, as illustrated in PIGURE 14, and ribs 316 and 317 extend along the underside of plate 311 parallel to the skirts.
An outwardly facing flange 321 is provided at the , outer edge of flange 311. Flange 311 forms an inwardly extending notch 322 adapted to receive a support member 323 such as the upright rod of an intravenous feeding stand.
A rib 324 is spaced from and generally parallel to flange 321 on the underside of flange plate 311. ' Threaded studs 326 and 327 extend laterally from , the outer edge of mounting flange 311. These studs are ~l anchored in bosses 328 and 329 on the mounting flange, and they are molded in place during the fabrication of the manifold body. The studs extend through suitable openings . ~ .

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10657~0 in the clamping bar 331, and wing nuts 332 and 333 provide means for drawing the clamping bar toward flange 321 to secure the assembly to support rod 323.
Operation and use of the manifold assembly of FIGURES 14-17 is similar to the operation and use of the embodiment of FIGURES 1-7.
The manifold assembly illustrated in FIGURES
18-22 includes a generally planar body which, in the preferred embodiment, is molded as a unitary structure of a rigid plastic material such as a polycarbonate such as Lexan.
This body comprises a generally rectangular portion 351 having a top wall 352, side walls 353, 354 and end walls 356, 357. A centrally disposed rib 358 extends longitudinally of the rectangular body portion and has an axially extend-ng flow passageway 359 formed therein. This passageway extends through end walls 356, 357 and externally threaded nipples 361, 362 at the ends of the body. Additional ribs 363-367 extend laterally of the manifold body and intersect rib 358.
Flow passageways 371-375 extend axially of ribs 363-367 and pass through side wall 353 and externally threaded nipples 377-381 at the side of the manifold body.
Cylindrical bosses 383-387 are provided at the intersections of the ribs, and bores 389-393 formed in the bosses extend through top wall 353. The bores intersect the passageways and extend in a direction normal to them.
Communication between the passageways in the manifold body is controlled by valve members 395-399 which are generally similar to valve members 71-75. However, instead of having T-shaped passageways, valve members 395-399 have generally semicircular arcuately extending peripheral , ,;

passageways 395a-399a formed in the cylindrical core portions 395b-399b of the valve members. In the preferred embodiment, the valve members are fabricated of a rigid material such a polytetramethyle-terepthlate, polypropylene or polyethylene. As in the previous embodiments, rotation of the valve members is limited by pins 400 which extend from top wall 352 and engage stops on the valve members.
Valve members 395-399 are rotatively mounted in sleeves 401-405 inserted in bores 389-393. The sleeves are fabricated of a resilient material, such as polyure-thane, which is softer than the valve members and valve body, and they provide fluid tight seals between the valve members and valve body, while permit~ing rotation of the valve members. The sleeves are provided with openings 401a,b,c - 405a,b,c which are aligned with the passageways in the valve body. The sleeves are also provided with keys 401d-405d which are received in keyways 389a-393a in bores 389-393 to prevent rotation of the sleeves i~ the valve . ! . .
body. In the preferred embodiment, the sleeves are removably mounted in bores and the valve members are ;~
removably mounted in the sleeves.
The body of the manifold assembly of FIGURES
18-22 also includes a generally planar mounting flange 411 which extends laterally from side 354 of the generally ;~ rectangular portion. In the preferred embodiment, the mounting flange is formed integrally with the rectangular portion and includes a plate 412 which is aligned generally with top wall 352 of the rectangular portion.
A depending skirt 413 extends along the periphery of the flange, and a grid work of ribs 414 provides additional ....... ~ ~ , - ~'- , iO657A~O
rigidity for the flange. A V-shaped flanged notch 416 is formed in the flange and adapted to receive a s~pport member 417 such as the upright rod of an intravenous feeding stand. A clamping screw 418 is threadedly mounted in the flange and aligned with the notch for engaging the side of the support opposite to the notch whereby the manifold assembly is clamped to the support.
Operation and use of the manifold assembly of FIGURES 18-22 is generally similar to the operation and use of the embodiments previously described.
Although not shown in the passageways, the flow passageways in all of the embodiments described above are tapered slightly so that they are somewhat larger in diameter at their outer ends than at their inner ends.
; This taper is formed during the molding process and , facilitates separation of the manifold and molding tools.
The invention has a number of important features and advantages. Being made of plastic, the manifold assembly can be manufactured by a relatively inexpensive process, yet it has a reliability and durability comparable to more expensive stainless steel manifolds-of the prior art. With the male fittings formed as an integral part of the manifold, there are no voids or gaps in the flow passageways to collect debris and the passageways can be cleaned easily and thoroughly. The use of soft inserts between the valve members and valve body eliminates the need for machining to get a proper fit for the valve members and enables the entire assembly to be manufactured by a relatively inexpensive molding process. In addition, the plastic construction provides an electrically .. . ............................. . .
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non-conductive structure within which physiological fluids are protected from stray electrical currents, thereby providing an additional measure of safety over manifolds constructed wholly or partly of metal or other electrically conductive materials.
It is apparent from the foregoing that a new and improved manifold assembly has been provided. While only the presently preferred embodiments have been described, as will be apparent to those familiar with the , art, certain changes and modifications can be made without departing from the scope of the invention as defined by the following claims.
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Claims (6)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. In a manifold assembly: a body fabricated of a substantially rigid plastic material formed to include a longitudinally extending flow passageway and a plurality of laterally extending flow passageways inter-secting the longitudinally extending passageway, said passageways lying in a common plane, bores extending through the body at the intersection of the passageways in a direction normal to the plane of the passageways, sleeves fabricated of a generally resilient material mounted in the bores and having openings aligned with the passageways, and valve members rotatably mounted in the sleeves with passageways adapted for selective alignment with the intersecting passageways through the openings for controlling communication between the same.

2. The manifold assembly of Claim 1 wherein the valve members are removably mounted in the sleeves and can be inserted in the sleeves in first and second rotatively displaced positions, and the assembly further includes stop means permitting the valve members to rotate between predetermined positions in the first position and constrain-ing the valve members against rotation in the second position.

3. The manifold assembly of Claim 1 further including externally threaded nipples forming an integral part of the manifold body and extending therefrom for receiveing fittings for connecting flow lines to the manifold assembly, the passageways in the body extending through the nipples without interruption.

4. The manifold assembly of Claim 1 wherein the body comprises a generally planar member having a first portion in which the passageways are formed and a flange portion extending laterally from the first portion, together with means carried by the flange portion for securing the assembly to a support.

5. The manifold assembly of Claim 1 wherein the body includes a longitudinally extending rib and a plurality of laterally extendiing ribs in which the passage-ways are formed.

6. The manifold assembly of Claim 1 wherein the sleeves are fabricated of a polyurethane material.