CH323417A - Valve - Google Patents

Description

  

  valve The subject of the invention is a valve. Valves are usually controlled by mechanical devices operated by a handwheel, handle or lever operating the valve stem. The passage of these mechanical devices into the interior of the valve body requires, in order to obtain a seal, the provision of sealed gaskets, for example cable glands.



  According to the invention, the valve is characterized in that it comprises a monoblock element formed of a body with a fluid inlet orifice and at least one fluid outlet and of a flexible, pleated wall connecting said body <B> to </B> a base, this valve further comprising a rod integral with said base and disposed <B> inside </B> the interior of said element <B> '</B> said rod controlling the valve closure member.



  Figs. <B> 1 <I> to </I> 5 </B> of the appended drawing represents, <B> to </B> by way of examples, five embodiments of the object of the invention.



  Fig. <B> 1 </B> shows half in section, half in side view, a valve having an element made of molded material. This element has a body with an inlet <B> A </B> for fluid and an outlet pipe B, upstream of which a conical valve <B> C </B> can be moved away from its seat <B> D. </B>



  A stem <B> E, </B> forming the valve stem, is integral with a bottom <B> G </B> connected to said body by an elastic pleated wall F. When pressing on the bottom <B> G , </B> the wall F creases and, thanks <B> to </B> the stem <B> E, </B> the valve <B> C </B> is detached from its seat, the fluid passes then from <B> A </B> to B.



  The element which has just been described, except however the valve proper <B> C, </B> cast or molded, is made in one piece, of a suitable material (plastic, metal or other ) making it possible to ensure (either by the actual constitution of the material, or by appropriate subsequent treatments) the rigidity of the body and the flexibility of the wall F.



  This embodiment also has a valve control device which allows detachment of the latter at will, either permanently or controlled by a manual button.



  <B> A </B> For this purpose, the upper part of said <B> element </B> element is covered by a cap H screwed onto a thread I formed on the valve body. However, in the bottom <B> J </B> of the cap and opposite the bottom <B> G </B> is made a hole K in which is engaged a button L, one of the ends M of which forms a head of larger diameter.



  We can therefore command <B> to </B> remain the valve by screwing the cap H which compresses the wall F by means of the enlarged head of the button L.



  If, on the other hand, it is desired to perform a short-term flow, it suffices to exert pressure on the button L, the valve closing as soon as the said button is stopped.



  The embodiment of FIG. 2 presents the same components <B> A <I> to </I> G </B> whose functions are the same as in the valve of the fi. <B> 1. </B> To press the valve <B> C </B> the valve has a cam <B> N, </B> controlled by a lever <B> 0. </B>



  In the valve shown in fig. <B> 3 </B> (on which we did not <B> deemed </B> useful to represent the control member), the rod <B> E, </B> although for a separate element, is integral with the bottom <B> G. </B> In addition, in this valve., Ia wall F is removed by a spring Pl. In this case, the flexible membrane may or may not be pleated <B> to < / B> its state of rest, the spring P alone giving the elasticity necessary for the return. The folds of the wall F are produced in a helical fashion, the res out P being screwed into the folds of this wall.



  In the valve according to fig. 4, the rod <B> E </B> controls two valves <B> <I> Q </I> </B> <I> and </I> R, the construction of the wall F and the bottom < B> G </B> being the same as that shown in fig. <B> 1 to 3. </B> When sinking the rod <B> E, </B> the conical surfaces <B><I>S</I> </B> of the rod <B> E </B> separate pushers T fixed to valves <B> <I> Q </I> </B> <I> and </I> R. Springs <B> U </B> return the <B> <I> Q </I> </B> <I> and </I> R valves to their closed position.



  The valve of fig. <B> 5 </B> has the same components <B> A <I> to </I> G </B> as those of fig. <B> - 1 to </B> 4. The conical pet valve being replaced by a V.



  In this example, the number of inlets, such as fluid outlets, can be variable. The valves described and shown are free from cable glands, which avoids any risk of leaks by stuffing box, by joining or assembling independent members and finally allows a very simplified manufacture without any additional adjustment or development.

 

Claims (1)

CLAIM <B>: </B> Valve, characterized in that it comprises a one-piece element formed by a body with a fluid inlet orifice and at least one fluid outlet and a flexible wall, pliable, connecting said body <B> to </B> a base, this valve further comprising a rod integral with said base and disposed <B> inside </B> said element, said rod controlling the valve closure member. SUB-CLAIMS <B>: </B> <B> 1. </B> Valve according to claim, characterized in that said wall is engaged in a cap screwed onto a thread formed on the valve body and pierced, facing said bottom, with a hole through which a button trapped between the cap and said bottom protrudes outwardly from the cap. 2. Valve according to claim, character ized in that the wall is biased by a spring. <B> 3. </B> Valve according to claim, characterized in that the wall has folds produced in a helical fashion. 4. Valve according to claim and sub-claims 2 and <B> 3, </B> characterized in that the spring is screwed into the folds of the wall. <B> 5. </B> Valve according to claim, characterized in that the rod secured to the bottom of said one-piece element controls at least two closure members. <B> 6. </B> Valve according to claim, characterized in that the rod secured to the bottom of said element controls a slide.