JPS60220273A - Sanitary single lever mixing valve assembly - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The subject of the invention is the sanitation of a sump in a water supply system having a low pressure on the hot water side and having separate passages for the hot and cold water sumps at the end 1 of the tap outlet of the mixing valve assembly. Solo lever! type thermal joint valve assembly, wherein the mixing valve assembly comprises at least two plate-shaped control elements (4 ft. in length, one plate of which serves as a static valve seat having two inlet boats for cold water and hot water reservoirs. One boat is adapted to interact with the deflection chamber of the second plate, which moves over the first disk and is located on the valve seat plate. A mixing valve assembly arranged to direct cold water to an outlet port.

Water system sump mixing valve assemblies of the above type are, for example in the UK, equipped with separate passages for the cold water and hot water sumps up to the end of the tap outlet, so that so-called cross-flow occurs between the cold water and hot water pipes. The phenomenon must be prevented. The cross-flow phenomenon is more or less detrimental to both hygiene and operational reliability. The pressure differences in these water supply systems are extremely large. For example, if the cold water pressure is 2 bar gauge, it is not uncommon for the hot water pressure to be 0.2 bar gauge.

In the well-known single lever valve assembly of the type mentioned at the outset,
The stationary valve seat plate includes a pair of cold water and hot water boats for both the water inlet and outlet, through which the cold water and hot water are directed by the deflection chamber of the movable plate to the outlet boat of the fixed valve seat plate. You will be guided.

A mixing valve assembly of this type is described in British patent application 82251.07
(No. 2108684A).

The disadvantage of this design is that because the passage cross-section of the plate is the same for both the cold and hot water sides, the flow rate on the hot water side is significantly lower on the hot water side than on the cold water side17. I am unsatisfied with this. This means that because the hydrothermal pressure is considerably lower, a considerably lower flow rate is obtained. An increase in the passage cross section on the hot water side can only be carried out in this known construction by increasing the dimensions of the plates, which also means making the mixing valve assembly even larger. Even if we accept this, the following drawbacks will remain. In other words, it is not possible to increase the passage cross section on the hot water side without increasing the passage cross section on the cold water side (
When the faucet is in the intermediate position, significantly more cold water still flows through the valve assembly (because only in this case can independent control of water flow rate and water temperature be maintained).

In addition, there is the problem that the deflection of cold and hot water to the stationary valve seat plate outlet boat presents considerable engineering and engineering problems with respect to the manufacture of independent water passages. Moreover, by deflecting the flow into multiple streams, the flow m on the hot water side will be significantly further constricted due to the considerable low pressure on the hot water side.

This well-known design requires operation of the control lever such that water flow rate is controlled by rotating the lever and water temperature is controlled by vertical lever adjustment, in contrast to conventional mixing valve assemblies. There is a disadvantage of being a thing. In the case of temperature control, the problem here is that the temperature positions of the control levers are hardly distinguishable. Furthermore, because the lever adjustment angle of the temperature control barrel is relatively small, the comfort zone within the normal mixed water temperature range is correspondingly small.

The object of the invention is to eliminate these disadvantages and to create a sanitary single-lever mixing valve assembly of the type mentioned at the outset, which, despite its simple installation, ensures reliable operation. be.

To successfully achieve this purpose, the inlet port of the hot water can interact with the outer ring of the movable plate, which serves as a control lip.

The single lever mixing valve assembly of the present invention eliminates the design problems associated with increasing the passage cross-section of the hot water inlet port with respect to the cold water inlet bow. The mixing valve assembly of the present invention can be easily doubled in size without the need to increase the plate diameter. Another advantage of the invention is that no deflection is required in the valve seat plate of the sump on the hot water side, where especially advantageous flow conditions are desired. The incoming hot water passes through the movable valve plate laterally and flows directly to the snake.

Due to the design features of the present invention, the cold water inlet boat is at a smaller radius than the hot water inlet boat so that the radial extent 9 of the two inlet boats are essentially the same. Due to this simple design feature, despite the different sizes of the cold water hot water sump inlets, flow rate and temperature control is achieved virtually without these two parameters influencing each other. . This is because the percentage change in cross section of the two 6-[-1 ports is substantially the same.

Embodiments of the present invention will be described below with reference to the drawings. The subject matter of the invention is shown in the form of a design example in the drawing.

In the figure, the valve assembly housing is identified by 7 and the rotating valve [1 is identified by 8]. As can be seen, the mixed tF assembly includes a cartridge with two control elements in the form of plates 10 and 11, one of the two control elements being a stationary valve seat plate IO. Plate 10 is provided with inlet ports 12,13 for cold water and hot water reservoirs. Of course, for cold water there is one port 12 in the deflection chamber 14 of the second plate 11.
The deflection chamber 14 interacts with the lever 15, 1:
The valve is moved over the valve seat plate 10 to guide the cold water to an outlet boat 16 mounted on the plate 10. From there, cold water flows via passage 17 to the rotating outlet.

As can be further seen, the inlet boat 13 of the hot water reservoir interacts with the outer ring of the sealing surface [9] of the movable plate 11, so that the sealing surface 19 acts as a control lip 18. This radius 201) is smaller than the radius of the artificial boat 13 in the hot water reservoir, and the aforementioned 'I' diameter 20)] is I' of the total diameter. 1': The radial extents of the two inlet boats 12.13 are substantially the same. In contact with the cold water, the hot water is not deflected out of the stationary valve seat plate 10, but instead passes through the recess 21 of the movable plate 11 to the side toward the stationary valve seat plate 11. flows through lO,
The cart is then guided through the passages 22, 23 of 9 and the tap housing 7 into the tubular passage 24 located at the end of the rotation 11 and 18. This tubular channel 24 extends at the outlet end 1 and is doubled by the cold water flow in a mixed manner. The guide passages for the cold water and hot water reservoirs are separate throughout the mixing valve assembly so that when the snake is operated in mixing mode, the low pressure hot water stream is subjected to, for example, 10 times its pressure. Can be unaffected by cold water flow. Despite these modest pressure differences, the guidance and control system for hot water incorporated in the present invention ensures that the hot water passage cross-section always maintains essentially the same percentage, whatever the mixing position. is ensured that the hot water flow is always sufficient to obtain the desired mixing water temperature. The depicted mixing valve assembly is operated by a lever 15, as is normally the case with conventional single-lever mixing devices (e.g. according to German specification 1550060), i.e. the vertical adjustment of the lever 15 adjusts the water flow rate. The rotation of the rhubarb controls the water temperature. Lever 1
5, a finger 25 is incorporated which engages a recess 26 in the movable plate 11, so that the movable plate 11 can be moved in a linear direction by a lever to control the water flow rate and the center point of the cartridge for temperature control. rotated around. Since the movable control plate 11 together with the sealing plate 27 forms an outer car edge seal, no dynamic loads occur on the soft material seal. As already mentioned, the illustrated design constitutes only one embodiment of the invention, and the invention is not limited to this possibility; rather, the basic idea of the invention is It offers other installation possibilities regarding the arrangement and structure of the nine elements and the type of mounting. For example, the mixed tap assembly according to the present invention can be constructed in the form of a washbasin faucet assembly, and can be installed as a 1-1 assembly in the form of a horizontal or surface-mounted or flush-mounted 1-1 assembly. can.

[Brief explanation of drawings]

FIG. 1 is a longitudinal section of the kitchen faucet system in the mixing position with rotation 1110; FIG. A
- AK slips and cuts off, Figure 3 shows the plate at the middle 418 degree position with half open, Figure 4 shows the plate at the middle temperature position fully open, Figure 5 Figure 6 shows the plate in the fully open cold water position, and Figure 6 shows the plate in the fully open hot water position. 8... Serpent outlet 10... First plate 11... Second plate 12... Cold water reservoir inlet boat 13... Hot water reservoir inlet boat 14... Deflection chamber 16... Exit port 18... Control edge 10- 24... Tubular passage agent Hikaru Esaki Good agent Hikaru Esaki -]l- JP-A-Sho GO-220273 (5)

Claims (3)

[Claims] (1) A single lever mixing valve assembly for a water supply system reservoir having low pressure on the hot water side and having separate passages for hot water and cold water to the end of the faucet outlet, comprising: It comprises two plate-shaped control elements, one plate of which serves as a stationary valve seat and contains inlet ports for cold water and hot water reservoirs, whereby the inlet port for cold water is interconnected with the deflection chamber of the second plate. In a single lever mixing valve assembly, the second plate is movable above the first plate and serves to deflect the cold water to an outlet boat located on the valve seat plate. Single-lever mixing valve assembly, characterized in that the inlet port (13) for water interacts with the outer ring of the movable plate (11), which acts as a control lip (18). (2) Inlet bow for cold water) (12) is smaller radius (20
&), thereby two people 11 po) (1
, 2, 13) are essentially the same, and the radius (20a, 20b) '7J
1) Extending % from the center! 1! rπ1 The Sino-German bar type mixed well phase solid according to claim 1. (3) Hot water reservoir person [1 Bo 1-(13) has a large cross section at the cold water reservoir inlet port 1-(1'2) J:Claim 1. The single lever type mixing valve introduction device described in section.