JPS6056945B2 - mixing valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to valves of the type generally shown in my prior US Pat. Nos. 3,103,231 and 3,204,656.

The invention particularly relates to a type of mixing valve that uses a flexible sleeve to control the amount and temperature of water passing through the valve. The valve of the present invention includes a generally cylindrical member and a valve member mounted for reciprocation therein.

The cylindrical member has an inlet and an outlet, and movement of the valve member controls the flow of water between the inlet and outlet. Located within the cylindrical member and covering the inlet thereof is a flexible sleeve. The valve member is provided with a cam portion that is selectively moved into alignment with a portion of the flexible sleeve to regulate the flow of water from the inlet to the outlet. The flexible sleeve and valve member further have cooperating surfaces forming a closure between the inlet and outlet. SUMMARY OF THE INVENTION It is an object of the present invention to provide a mixing valve with a flexible sleeve inserted as a cartridge within a valve housing and located between a movable valve member and a fixed sleeve.

It is about providing. Another purpose is to provide a valve member of the type in which the flexible sleeve controls the passage of water from the valve inlet when the valve is in the open position and also provides a seal when the valve is in the closed position. do. Another object is to provide a valve member of the type that allows the flexible sleeve to be reversed when one end of the sleeve, commonly used in valve closures and cleavages, becomes worn.

Another object is to provide a valve utilizing a rubber sleeve of type q which can be used to simply and efficiently control the passage of water from an inlet to an outlet. Another object is to provide a type of valve structure that acts as a damping member to positively control the passage of fluid.

Another object is to provide a type of valve that acts as a check valve to prevent backflow.

Another object is to provide a pressure-closed valve.

Other objects will become apparent from the following description and drawings.

As described in the above patents, the mixing valve of the present invention is typically mounted within a housing that is a permanent part of the plumbing installation. The movable valve member or stem typically has a suitable actuating member, either a rod or a handle, used to reciprocate and rotate the valve member to control the amount and temperature of water flowing through the valve. be done. This valve is used in kitchen faucets, washbasin faucets, shower door devices, etc. Valve cartridges are replaceable units, and faucets and shower systems can be quickly repaired by removing a damaged cartridge and replacing it with a new one. The valve housing is indicated at 10 and generally has a closed bottom.
It is shown in a cylindrical shape with a section 12.

The housing has a pair of inlets 14, 16 and an outlet 18. The outlet is connected to a mounted spout or remote outlet, such as a spray or shower head. A valve cartridge is provided within the housing 10 and has a valve sleeve 20 and a valve member or stem 22 reciprocatably and rotatably mounted within the sleeve 20.

A valve assembly consisting of a sleeve and a valve member typically includes:
It is attached within the housing 10 by a spring clip 24 whose legs are located within slots 26 in the sleeve and extend through openings 28 in the housing 10. Sleeve 20 is open at a bottom or inner end 30 and has a sleeve tube 32 with a flange 34 attached thereto.

A sleeve tube 32 extends within the sleeve 20, as shown at 36, and is preferably made of synthetic resin to provide relatively low friction to facilitate movement of the axle 22 into the sleeve. The inner end of the sleeve 20 is spaced apart from axial notches 31 in which sleeve tubes 32 and projections 33 are received. Retaining ring 35 is a cooperating member on a flexible member that fits within a groove 37 on the outside of sleeve 20 and secures the sleeve tube to the sleeve by passing through groove 39 of projection 33. a generally cylindrical portion terminating in a circumferential shoulder at one end on the member, said shoulder being configured to contact an annular end portion of a flexible sleeve when said valve is in a closed position; A fluid valve characterized by: 6. The fluid valve of claim 5, further comprising an inwardly directed annular shoulder formed on an inner surface of the generally cylindrical member, one end of the flexible sleeve being seated on the shoulder. Characteristic fluid valve.

DETAILED DESCRIPTION OF THE INVENTION The present invention is based on the inventor's prior U.S. Pat.
103231 and 3204656.

The invention particularly relates to a type of mixing valve that uses a flexible sleeve to control the amount and temperature of water passing through the valve. The valve of the present invention includes a generally cylindrical member and a valve member mounted for reciprocation therein.

The cylindrical member has an inlet and an outlet, and movement of the valve member controls the flow of water between the inlet and outlet. A flexible sleeve is located within the cylindrical member and extends over the inlet thereof. The valve member is provided with a cam portion that is selectively moved into alignment with a portion of the flexible sleeve to regulate the flow of water from the inlet to the outlet. The flexible sleeve and valve member further have cooperating surfaces forming a closure between the inlet and outlet. SUMMARY OF THE INVENTION It is an object of the present invention to provide a mixing valve with a flexible sleeve inserted as a cartridge within a valve housing and located between a movable valve member and a fixed sleeve. It is about providing.

Another purpose is to provide a valve member of the type in which the flexible sleeve controls the passage of water from the valve inlet when the valve is in the open position and also provides a seal when the valve is in the closed position. do. Another object is to provide a valve member of the type that allows the flexible sleeve to be reversed when one end of the sleeve, commonly used in valve closures and cleavages, becomes worn.

Another object is to provide a valve utilizing a rubber sleeve of type q which can be used to simply and efficiently control the passage of water from an inlet to an outlet. Another object is to provide a type of valve structure that acts as a damping member to positively control the passage of fluid.

Another object is to provide a type of valve that acts as a check valve to prevent backflow.

Another object is to provide a pressure-closed valve.

Other objects will become apparent from the following description and drawings.

As described in the above patents, the mixing valve of the present invention is typically mounted within a housing that is a permanent part of the plumbing installation. The movable valve member or stem typically has a suitable actuating member, either a rod or a handle, used to reciprocate and rotate the valve member to control the amount and temperature of water flowing through the valve. be done. This valve is used in kitchen faucets, washbasin faucets, shower door devices, etc. Valve cartridges are replaceable units, and faucets and shower systems can be quickly repaired by removing a damaged cartridge and replacing it with a new one. The valve housing is indicated at 10 and is generally cylindrical in shape with a closed bottom 12 .

The housing has a pair of inlets 14, 16 and an outlet 18. The outlet is connected to a mounted spout or remote outlet, such as a spray or shower head. A valve cartridge is provided within the housing 10 and has a valve sleeve 20 and a valve member or stem 22 reciprocatably and rotatably mounted within the sleeve 20.

A valve assembly consisting of a sleeve and a valve member typically includes:
It is attached within the housing 10 by a spring clip 24 whose legs are located within slots 26 in the sleeve and extend through openings 28 in the housing 10. Sleeve 20 is open at a bottom or inner end 30 and has a sleeve tube 32 with a flange 34 attached thereto.

A sleeve tube 32 extends within the sleeve 20, as shown at 36, and is preferably made of synthetic resin to provide relatively low friction to facilitate movement of the mandrel 22 relative to the sleeve. The inner end of the sleeve 20 is spaced apart from axial notches 31 in which sleeve tubes 32 and projections 33 are received. The retaining ring 35 fits within a groove 37 on the outside of the sleeve 20 and secures the sleeve tube to the sleeve by passing through the groove 39 in the projection 33. Spaced outwardly from the inner end of the sleeve are inlet groups 38, 40.
are provided which meet the inlets 14, 16 of the housing.

The inner end of the sleeve is sealed by an O-ring 42 held within a miso 44. A diagonal O-ring 46 retained in a diagonal groove on the outside of the sleeve prevents cross-flow between the hot water spout 14 and the cold water spout 16. This diagonal O-ring is shown in the above-mentioned US patent. Intermediate O-ring 48 seals between the outside of the sleeve and the inside of housing 10 outside of inlets 14,16. Similarly, the outer end of sleeve 22 carries an O-ring seal 50.
The sleeve may be made of metal, but preferably of a suitable synthetic resin material. A flexible sleeve 52, such as a rubber sleeve, is provided within the valve sleeve 20.

One end of the flexible sleeve 52 is located in a shoulder 54 formed inside the valve sleeve 20, while the other end is located on a shoulder 54 formed inside the valve sleeve 20.
included or located at the end 56 of 2. Thus, flexible sleeve 52 is positioned within valve sleeve 20 and over sleeve inlets 38,40. These inlets communicate with sleeve outer recesses 38a, 40a which communicate directly with housing inlets 14,16.

Water flowing into the sleeve inlets 38, 40 is directed toward the flexible sleeve, partially crushing it, thereby allowing water to flow toward the sleeve outlet 58. There may be two, three, four or more such outlets, and their sizes may be different.

These outlets open into an outer chamber 62 formed between the inside of the housing 10 and the outside of the sleeve 22. This outer chamber communicates with the housing outlet 18. The stem or valve member 22 has an outer portion 64 that accommodates either a rod or a handle.

An O-ring 66 is installed within the inner end of the mandrel 22 to seal the inner end of the mandrel to the sleeve tube 32. An axially extending passage 70 communicates the inner end of the mandrel to the atmosphere via a side passage 72, thereby reducing the mandrel pressure.
It is equilibrated by atmospheric pressure in both its open and closed positions. 0
Immediately above the axle portion holding the ring 66 is a cam member 76, particularly shown in FIG.

Cam member 76 has a somewhat cylindrical outer surface 78 whose outer diameter is generally the same as the inner diameter of flexible sleeve 52 . Cam member 76 has an axial length that is greater than the axial length of flexible sleeve 52 so that it contacts the inner surface of the flexible sleeve at all locations on the mandrel. The cam member 76 is particularly
As shown, the sleeve 52 is bent inward to form an opening area or recess 80 so that water from the inlet passes between the inner surface of the valve sleeve 20 and the flexible sleeve 52 to the sleeve outlet 58. . Therefore, the position of the cam 76 relative to the inlet sets the amount and degree of mixing of water flowing from the inlet to the outlet. Externally of the cam member 76 on the mandrel 22 is a cylindrical portion 82 having an outer diameter the same as the inner diameter of the valve sleeve and is adapted to cover the valve sleeve outlet when in the closed position of FIG. Note that in this position, the lower edge 84 of the cylindrical portion 82 is in sealing relationship with the edge of the flexible sleeve 52. Therefore, the sleeve 52 not only allows water to pass from the inlet, but also when the valve is in the closed position.
Together with the cylindrical portion 82 it forms a seal and closure. An O-ring 86 is provided on the outside of the cylindrical portion and seals the inner surface of the sleeve 20.

To explain the operation, the degree of mixing of water from the hot water inlet and the cold water inlet is set by rotating the valve member, and the amount of water flowing to the outlet is set by the reciprocating movement of the valve member.

The position of the cam member relative to the two inlets sets the degree of water flow, particularly by squeezing the flexible sleeve 52, as shown in FIG.

When the valve is in the fully closed position of FIG. 2, the inner surface 84 of the cylindrical portion of the stem is in sealing relationship with the edge of the flexible sleeve 52. When the valve is in the fully open position, the valve sleeve 2
A shoulder 88 formed on the inner surface of the 0 provides a stop for the valve member. According to a particular advantage, the flexible sleeve 52 not only has the function of controlling the water flowing through the valve when the valve is open, but also seals the stem when the valve member is in the closed position.

The tube sleeve 32, which is made of synthetic resin and preferably has a very low frictional resistance, allows the mandrel to rotate and reciprocate easily relative to the sleeve. Both the mandrel and the sleeve are made of synthetic resin or of metal. According to an important aspect of the invention, the flexible sleeve is hydraulically balanced in both the open and closed positions of the valve. In the open position, water is present inside and outside the flexible sleeve as the flexible sleeve collapses to allow water to flow to the sleeve outlet.
Similarly, when the valve is closed, the pressure on the sleeve causes water to flow from the sleeve inlet into the flexible sleeve. However, since the actual shut-off seal of the valve is formed by the cooperating surfaces of the cylindrical portion 82 and the flexible sleeve, there is no risk of leakage. Another advantage of the particular construction of the illustrated and described flexible sleeve is that, since it is cylindrical and therefore has identical ends, if one end wears out due to the closure by the valve stem above it, the sleeve will reverse. Just do it.

Reversing the sleeve effectively puts the entire structure of the valve into a new condition. Although the use of the valve structure has been described above with respect to a mixing valve, it is clear that the principles of the disclosure are equally applicable to both non-mixing faucets and faucet structures that do not utilize the one-cart-liquid principle.

With particular reference to FIG. 8, the kitchen faucet has a hot water supply pipe and a water supply pipe 90,92 passing within a shield plate 94. pipe 90,9
2 is piped into a housing structure 96 having a cavity 98. The outer part of this housing structure has a cylinder 1
A spout structure consisting of a spout 102 and an integral spout 102 is attached. An opening 104 in the cylinder 100 connects the spout 102 via a circumferential passage 109 to an alignment opening 106 in the upper end of the housing 96 . housing 9
6 has an outwardly facing flange 112 which overlies the upper end of the housing 96. A sleeve member 110 is provided.

Sleeve 110 has a central opening 114 that is aligned with cavity 98 and mounts a reciprocable and rotatable valve stem 116 in cooperation with the cavity. The sleeve 110 has an opening 1 aligned with the passageway 106.
It has 08. Valve stem 116 is substantially the same as valve stem 22 described for the valves of FIGS. 1-7 and has cap 113 and rod 115 attached thereto. Flexible sleeve 118 has an annular shoulder 120 formed within housing 96.
The upper end of the sleeve 118 cooperates with the valve stem to surround and seal the faucet in the manner previously described.

The operation of the structure shown in FIG. 8 is the same as that described with respect to FIGS. 1-7.

The main difference is the absence of an insertable valve cartridge of the type previously described. The flexible sleeve is mounted directly within the faucet housing. Figure 9 shows the same principle applied to a bathroom faucet.

In this case, the housing body 122 has a cylindrical member 124 attached thereto, which has the same internal shape as the housing 96 shown in FIG. The housing 122 is connected to the opening 13 by a tube 128.
0 and has an integral spa out 126 connected to the opening 13
0 opens into the cavity formed by member 124.
The valve stem 132 is the same as the valve stem 116 shown in FIG.
It is fixed to a handle 136 with a screw or the like 134, and the handle is used to operate the stem to adjust the amount and temperature of water discharged from the spout 126. A flexible sleeve 138 is mounted within member 124 and seats on shoulder 140.

A sleeve member 135, similar to member 110, is inserted within member 124. The upper end of the flexible sleeve 138 also cooperates with the cylindrical portion of the valve stem to properly sealingly enclose the faucet.
The operation of the structure shown in FIG. 9 is the same as that shown in FIG. 8 and the valves shown in FIGS. 1-7. Although embodiments of the invention have been illustrated and described herein, many modifications, substitutions, and modifications to the invention may be made.

[Brief explanation of the drawing]

1 is a partial axial sectional view of a valve of the type described above; FIG. 2 is a sectional view taken along line 2--2 of FIG. 1; and FIG. 3 is a vertical view similar to FIG. 2 showing the valve in the open position. 4 is a sectional view of the valve member, FIG. 5 is a partially exploded side view of the valve sleeve, and FIG. 6 is a sectional view of the valve member.
The figure is another partially exploded side view of the valve sleeve displaced by 90 degrees from Figure 5, Figure 7 is an exploded plane cross-sectional view of the valve sleeve bearing taken along line 7-7 in Figure 5, and Figure 8 is a modified version. FIG. 9 is an axial cross-sectional view of another modified valve member. Explanation of symbols of main parts, inlet port...38, 40, outlet port...58, valve sleeve...20, valve member (mandrel)...22, flexible sleeve·····
・52, Sealing ring...42, 86, Cam member...76, Shoulder part...56, Sleeve tube...32, Sleeve tube protrusion・...33
, Groove...39, Retaining ring...35.

Claims (1)

[Scope of Claims] 1. A mixing valve, comprising a valve sleeve means having an inlet for hot water and an inlet and an outlet for water, and a valve sleeve means installed in the valve sleeve means so as to be reciprocatingly and rotatably configured to allow water to flow from the inlet. a valve member for controlling the amount and temperature of water flowing to the outlet; and a flexible sleeve disposed within the valve sleeve means and covering the inside of the hot water and water inlet, the outlet axially extending through the flexible sleeve. a member on the valve member located beyond the inlet and selectively moved into position with a portion of the flexible sleeve to control passage of water from the inlet to the outlet; and a cooperating member on said valve member and flexible sleeve for forming a closure between said valve member and said flexible sleeve such that said valve member contacts an end of said flexible sleeve when said valve member is in a closed position; a member on the valve member, the member on the valve member being selectively moved into position with the flexible sleeve, the member on the valve member including an axially extending cam member, the outer surface of the cam being at least partially are generally the same cylindrical shape and have approximately the same diameter as the inside of the flexible sleeve, and the axial length of the axially extending cam member is greater than the length of the flexible sleeve. valve. 2. The mixing valve according to claim 1, further comprising a sealing ring attached to the valve member and in sealing contact with the inner surface of the valve sleeve means, the sealing ring being opposite the inlet and outlet of the valve sleeve means. A mixing valve characterized by being located on the side. 3. A mixing valve according to claim 1, further comprising a shoulder on the inner surface of the valve sleeve means for positioning the flexible sleeve within the valve sleeve means. . 4. In the mixing valve according to claim 1, the valve sleeve means includes a sleeve, a sleeve pipe located at one end of the sleeve, a cooperating protrusion provided on the sleeve and the sleeve pipe to connect them, and A mixing valve comprising a groove and a retaining ring located on the sleeve and extending into the protrusion and groove. 5. In a fluid valve, a generally cylindrical member having an inlet and an outlet, a valve control member provided to reciprocate within the cylindrical member and controlling the flow from the inlet to the outlet; a flexible sleeve disposed within the cylindrical member and overlying the inlet, the outlet being axially beyond the flexible sleeve and selectively disposed within the flexible sleeve; a member on the valve member that is moved into position with a portion of the flexible sleeve to control the passage of water from the inlet to the outlet; and the member forming a barrier between the inlet and the outlet. a cooperating member on the valve member and the flexible member, which includes a generally cylindrical portion terminating at one end as a circumferential shoulder on the valve member, the shoulder being in the closed position of the valve; A fluid valve configured to contact an annular end portion of a flexible sleeve. 6. The fluid valve of claim 5, further comprising an inwardly directed annular shoulder formed on an inner surface of the generally cylindrical member, one end of the flexible sleeve being seated in the shoulder. Characteristic fluid valve.