CH95097A - Exhaustion pump. - Google Patents

Description

  

  Exhaustion pump. The object of the present invention is a exhaustion pump comprising a pump body in which a diaphragm works fixed by its periphery to the pump body and connected by its central part to an organ performing a reciprocating movement. ;

   according to the invention, the diaphragm consists of a rubber plate, the edge of which is clamped between flanges which have two frustoconical shells which are superimposed by their large bases and one of which forms part of the pump body, and the pump comprises two valves, suction and discharge, each of which, reed-shaped, is formed by a piece of flat rubber tube embracing a suction pipe, respectively discharge, by one of its ends.



  The accompanying drawing shows, by way of example only; one embodiment of said pump.



  Fig. 1 is an axial section thereof; Fig. 2 is a cross section of a valve.



  The pump according to these figures has two frustoconical shells b and c, superimposed by their bases, which have a flange, to trap between them, the edge d of a diaphragm m and are joined to each other by means of bolts.



  The pump body, of which the lower shell c forms a part, comprises suction a, and discharge pipes f, on which fit fittings e and r receiving the respective pipes. The upper shell b has its socket pierced with an opening for the passage of a yoke, to which is articulated the control rod of the diaphragm <I> in. </I>



  This diaphragm in whose edge <I> d </I> is trapped between the flanges of the shells b and c, is constituted by a disc cut from a flat rubber sheet of suitable thickness. The diameter of this disc is approximately equal to the outside diameter of the flanges of the two shells. During assembly, all you have to do is place this disc between the flanges and then pull it through the center until its edge has exposed the bolt holes in the flanges. We then place these bolts and nuts and tighten the two shells. The central part of the diaphragm takes the shape of the shells. This central part of the diaphragm is clamped between two crowns i, by means of a screw il, one of these two crowns i, the upper crown, being provided at the lower part of the yoke g, seen above.

   If we then give the crowns i, by means of the yoke g and a control rod connected to the latter and not shown in the appended drawing, a vertical reciprocating movement, the central part of the diaphragm will then take the form shells and will perform the role of pump piston. The diaphragm thus formed and mounted as has just been said, forms a flexible annular surface allowing a large amplitude of movement of the yoke g to be obtained in both directions. Like the already known molded diaphragms and) rubber, it does not present excess material and does not form folds, which are detrimental to the flow rate of the pump and absorb force.

   As a result, a greater number of strokes can be given to the screed, thus increasing the flow rate of the pump.



  The pump has valves h, having as opening the total cross section of the suction and discharge ports <I> e and f </I>. These valves h are each formed by a piece of flat rubber pipe, threaded by one of its ends on the connectors e and f and ligated thereon. The rubber pipe with the aid of which the valves h are made, will preferably be made by means of two flat rubber bands superimposed and glued to their internal edges. In this way a flat tube is obtained which always joins perfectly at its angles. The lips of the opposite end to that which is threaded on the fittings <I> e and f, </I> join automatically and hermetically.

   The impurities contained in the liquid to be pumped, a piece of straw, gravel or any other debris remaining caught in the valve,. Will not interfere with the operation of the latter, and will not cause the pump to deactivate or stop. .



  The combination of the diaphragm and the valves described above, constitutes a high flow depletion pump, with a small footprint of the pump frame, which can be used for the suction of all clear liquids as well as thick liquids, or loaded with solids.



  The exhaust pump described above can be operated by arm or motor; in the latter case, it will be possible to couple a titi -certain number in order to obtain higher flow rates.

 

Claims (1)

CLAIM: Exhaust pump comprising a pump body in which works a diaphragm fixed by its periphery to the pump body and connected by its central part to a titi organ performing a back-and-forth movement, characterized in that the diaphragm consists of a rubber plate, the edge of which is clamped between flanges that have two frustoconical shells which are superposed by their large bases and one of which is part of the pump body and in that the pump has two valves, suction and delivery, each of which, reed-shaped, is formed by a piece of flat rubber tube embracing a suction pipe, respectively delivery, by one of its ends. SUB-CLAIMS 1 exhaust pump according to claim, wherein the flat rubber tube ends which constitute the suction and discharge valves are formed by two flat rubber bands, superposed and glued on their internal edges. 2 exhaust pump according to claim, as described with reference to FIGS. 1 and 2 of the accompanying drawing.