DE2452680A1 - Mixer valve with two inlets and one outlet - is controlled by valve spindle with inclined taper - Google Patents

Abstract

The base of the valve body encloses the two flexible inlet pipes and the outlet nozzle within which the fluids of different temperatures are mixed. The upper part of the valve body locates the valve spindle and the two clamping arms. The valve spindle has a push and pull action by which the valve can be opened and closed. By rotating the valve spindle in the pulled position, the inclined tapered end of the spindle describes a circular motion which operates the two clamping arm alternatively. This regulates the flow in the two pipes from zero to maximum 180 deg. out of phase. It is thus possible to obtain any mixing ratio required.

Description

Mixing valve The invention relates to mixing valve in which the corresponding amount of hot and cold liquid flowing through the valve, E.g. water can be rotated and moved back and forth by rotating and moving a mounted cam member is controlled, which the liquid passage through a Pair of flexible tubes opens and closes.

Valves of this type are known, for example, from US Pat. No. 3,172,426. According to this document, the cam member directly engages the flexible tubes and it must because of the rounded and beveled shape of the cam surface the diameter of the tubes and the cam member are kept small to provide good To achieve completion with a cam lift of practically usable length. There is thus a limitation in terms of what can be used for effective operation Pipe size, which in turn limits the performance of the valve. At the The subject of the invention is a lever with a long straight contact surface for the Tube used, whereby you can use tubes of larger cross-section.

Valves with flexible tubes that are supported by a lever arm or by shoes as a means for controlling the flow are detected, for example from the US-PS 3,438,607 and from GB-PS 502 094 known. The arrangements described there overcome the difficulties that arise from having a limited contact area the pipe, as well as the lack of limited performance, to be able to however, not reciprocating and rotatable because of the shape of the cam surface assembled cam members according to US-PS 3,172,462 can be used. if the rounded cam surface according to this US Pat. No. 3,172,426 is used to to operate a lever by direct contact, then cam member and have Lever inevitably establish a point of contact with each other. This results from the rounding off and the conical shape of the cam member. The lever must be at its point of contact be rounded with the cam member to accommodate the sloping portion of the cam to be able to. The contact between the two is a point contact and the corresponding Forces are undesirably high. The lever according to US-PS 3,438,607 or GB-PS 502 094 can therefore not be used in conjunction with a cam member according to the U.S. Patent 3,172,426 can be used. It was therefore not possible until now, the efficiency a valve according to US Pat. No. 3,172,426 or a corresponding construction beyond the limits set by the contact of the Cam link with the pipe are allowed by using a lever to operate the pipes increase. The limits are accordingly low and form an obstacle for the Introduction of valves with rotatable and reciprocating cam members.

The invention eliminates these restrictions with regard to and moveable and rotatable cam members in a mixing valve and creates one Construction in which a pipe of larger cross-section can be effectively used with the help of a Lever can be locked without inadmissibly high forces arising there, where the cam member comes into contact with the cam follower.

The invention also enables smoother and easier cam actuation. In the subject matter of the invention, there is less tendency for the cam member to in to crawl a wider open position when it is partially open.

In addition, in the construction according to the invention, the cam lift be reduced.

Furthermore, rubbing or pulling of the cam member is part of the subject matter of the invention avoided on the pipe.

A mixing valve according to the present invention comprises a housing, a first flow path in the housing having an inlet end, a second flow path in the housing having an inlet end, the first flow path and the second flow path merge and continue in an outlet flow path to an outlet, an elongated cam member related to the housing and being moveable and rotatable, imide, each forming part of the flow paths flexible tubes that prevent movement radially with respect to the longitudinal axis of the cam member limited to the housing and located on opposite sides of the cam member are, and are characterized by a pivotable lever mounted on the housing for the two tubes on both sides of the cam member surface, which point to the corresponding Can grab tube to pinch them together.

A cam follower is advantageously provided for each lever, the- pivotable on the corresponding lever between the pivoting attachment of the lever is mounted on the housing and the point of application of the lever on the associated tube and has a surface that is in line contact with the cam member surface relative to the movement of the cam member in the longitudinal direction or its rotation of the housing. The cam member preferably has a cross section part of its length which the cam followers as the cam member rotates in opposite directions. moved so that the levers are pivoted and squeeze the flexible tubes together. This is a correspondingly proportioned one Flow through the first and second flow path possible. The cam member has also has a longitudinal cross-section, which the cam followers the tubes with a backward and compressing reciprocation and thereby the amount of flow through the first Allowed to control the flow path and the second flow path.

The invention is described below with reference to the drawings are explained in more detail.

The drawings show in Fig. 1 an exploded perspective Darstel-Rung of the mixing valve according to the invention; Fig. 2 is a section through the Mixing valve to reproduce the position of the cam when a tube is closed and opened other tube; FIG. 3 shows a section similar to FIG. 2, but with the two tubes are closed; and FIG. 4 shows a section along the line 4-4 of Fig. 2.

The mixing valve has a housing generally designated 10 a base 12 in a tubular attachment 14, which on the housing by means of Screws 16 is attached. The housing 10 and the attachment 14 are preferably made Made of plastic material. Two flow paths are provided in the housing 10, which are shown in FIG the outlet spout 18 converge.

The first flow path has an inlet 20 and extends up. Via a U-shaped flexible rubber tube 22 TO the outlet beak 18. The second flow path has an inlet 24 and extends upwardly across a TJ-shaped flexible rubber tube which opens into the outlet spout 18.

One flow path is connected to the hot water supply, the other to the cold water supply and the flow through the valve to the outlet spout 18 is set in terms of quantity and temperature by actuating the conical cam member 28 controlled. The cam member 28 has a circular cross-section and a general shape of the Nockengle. -des according to US-PS 3,172,426 aiif. The cam member 28 is in one Bearing 31 in the attachment 14 reciprocable irnd rotatably mounted, so that the flexible tubes 22 and 26 of the flow path as will be explained in more detail later should be able to be closed and opened. On the top of the cam link 28 an actuating handle (not shown) is mounted.

The cam member 28 can be reproduced in the vertical direction Rus in FIG Location in which a maximum flow rate for this particular rotary position of the Cam is given, are moved into the position according to FIG. 3, if none at all Flow rate is possible. By rotating the cam member in a position with With the exception of the position without the possibility of flow, the corresponding amount of water can be that can flow through each of the flow paths, change. In the position according to Fig. 2, the tube 26 is fully open and the tube 22 is fully closed.

If pipe 26 has cold water and pipe 22 has hot water, then the starting temperature is a minimum in this case. The round cross-section the cam surface is chosen so that by rotating the cam member the tube 26 gradually compressed and the tube 22 can be gradually opened, so that a mixture with a correspondingly high temperature is obtained at the outlet nozzle 18. In the rotary position in which the tube 26 is fully closed, the tube 22 is complete opened and the water at the outlet spout 18 has a maximum temperature on.

Because the mode of action of the cam member to achieve the setting the flow rate by means of the compressible tubes already in US Pat. No. 3,172 426, it does not need to be explained in more detail above.

In the mixing valve according to the invention, the flexible tubes 22 and 26 pressed together with the help of levers 29 and 30, the pins 32 have rotatable between opposing lugs in the upper part of the universal set 14 are mounted The levers 29 and 30 are connected to a cam follower 34 and 36 respectively, Each lever carries a pin 39. The fork-shaped legs of each cam follower 34 and 36 respectively fit over this pin 79 and can pivot about this pin 39. The cam surface 38 of each cam follower 34 and 36 extends vertically and represents line contact with the cam surface of the cam member 28, as can be seen from FIGS. 2 and 3 can be seen. Thus, when in use, the cam member 28 is rotated or is moved back and forth within the attachment 14, then the cam followers pivot 34 and 36 on their pivot pins 39, making line contact with the cam member depending on the various positions of the cam member when the The cam is raised and / or lowered and / or rotated.

The flexible tubes 22 and 26 are each between the wall of the attachment 14 and the outer surface of the corresponding levers 29 or 30 compressed, as can be seen from Fig. 4, which also shows that the interacting Ob-èrflächen are each formed convex. By actuating the cam member accordingly can be any mixture between the inlets to the flow paths 20 and 24 and any amount of flow between fully open and closed Set state.

In the position according to FIG. 2, the cam member 28 is in the topmost Position shifted and rotated so that the tube 22 in the closed position is squeezed together while the flexible tube 26 is at its most open position can occupy, so that a full flow in the Strömlangsweg 24, on the other hand, none Flow in Strömirngsweg 20 is present. By depressing the cam member 28 without rotation. the tube 26 gradually closed as the Hebd 30 moves around pivoted its pivot point 72 until the fully closed position according to Fig. 3 is reached.

Instead of moving the cam member 28 from the position according to FIG. 2, you can also twist it and thus the levers 29 and 30 are around their respective Pivot pivot points so that tube 26 is compressed and tube 22 can open due to the water pressure inside it. The outlet navel 18 thus receives a mixture of hot and cold water. A rotation around 1800 closes the flexible tube 26 completely and opens the flexible tube 22 completely.

The invention draws on its essential advantages in particular the lever assembly and cam followers 34 and 36 associated with their respective Levers are pivotally engaged. The levers 29 and 30 are designed so that their surfaces that engage the flexible tubes 22 and 26 are substantially run parallel to the reaction surfaces of the attachment 14 when the flexible Pipes are in a closed position, as shown, for example, in FIG. 3 is shown. Thus it is possible to have a secure lock for a flexible Pipe regardless of whether the pipe diameter is large or small. It is not possible to use a closure in the arrangement according to US Pat. No. 3,172,426 of pipes of larger diameter because there is a limit to the Diameter of a pipe that is effective with a practically useful cam stroke length can be closed. There is no practical limitation in the invention for the efficiency of the mixing valve due to the nature of the flexible pipes achieved closure.

The invention makes it possible to produce a pipe with a large diameter to close, without the cam stroke length having to be increased, knows the tube between the long straight surfaces of the lever is closed, their design is independent of the cam lift.

In addition, there is a favorable mechanical translation by the Lever actuation. It can be seen that the cam followers 34 and 36 revolve around the pivot pin 39 on the lever at a point between the pivot pin 32 and the center point pivot of the engagement of the levers with the flexible tubes. With such an arrangement the closing effect of the cam member on the pipes is increased. Thus, for For a given tube plug, the taper on the cam member 28 is kept flatter than in the case where no lever is used. This leads to a smoother and easier operability. F.s turned out to be a practical Mixing valve can be produced with a cam taper of approx. 40 30 '. A similar Mixing valve in which, however, the cam member is in direct contact with the pipes requires a cam taper of approx. 60 30 'and a longer stroke.

The preferred ratio for the distance a between the pivot axes 39 and 32 to the distance b between the pivot axis 32 and the contact center of the lever with the surface of the tube is approx. 1: 2.

Claims

Claims (4)

P a t e n t a n s p r ü c h e 1. Mixing valve with a housing first flow path in the housing with an inlet end, a second flow path in the housing having an inlet end, the first flow path and the second flow path merge into one another and continue in an outlet flow path to a 4uslaR, an elongated cam member reciprocable with respect to the housing and is rotatable, and having two flexible ones each forming part of the flow paths Tubes resisting movement radially with respect to the longitudinal axis of the cam member limited to the housing and located on opposite sides of the cam member are, g e k e n n n z e i c h n e t, each swivel-mounted on the housing (14) Levers (29, 30) for the hex tubes (22, 26) on either side of the cam member surface, which grip the corresponding tube (22 or 26) zim together the same. 2. Mixing valve according to claim 1, characterized in that g e k e n n -z e i c h n e t that a cam follower (34, 36) is provided for each lever, which is pivotable on the corresponding lever (29, 30) between the pivot mount (32) of the lever (29, 30) on the housing (14) and the point of application of the lever (29, 30) on the associated Tube (? 2, 26) is mounted and have a surface that makes line contact with the surface of the cam member (28) when the cam member (2R) is moved in the longitudinal direction or as it rotates with respect to the housing (14). 3. Mixing valve according to claim 1 or 2, characterized in that g e k e n n -z e i c h n e t that the cam member (28) has a cross section over part of its length having which the cam followers (34, 36) upon rotation of the cam member (28) in opposite directions Directions moved so that the levers (29, 30) are pivoted and the flexible tubes (22, 26) press together. 4. Mixing valve according to the preceding claims, characterized g e k e n n z e i c h n et that the cam member (28) has a longitudinal cross-section which it enables the cam followers (34, 36) to move the tubes (22, 26) back and forth Compress the forward movement of the cam member (28). L e r s e i t e