SU1679049A1 - Positive displacement pump - Google Patents

Abstract

The invention relates to pumping engineering, in particular to positive displacement pumps, and can be used for pumping hardening liquids, for example, polyurethane foam compositions. The aim of the invention is to increase the service life of the pump. The pump includes a housing 1 with a discharge valve 3 fixed on its end wall 2, a drive rod 5 with axially spaced two cylindrical protrusions 6 and 7 fixed to the rod 5 axially and a movable cylindrical protrusion in the form of a ring 15. The pump also has an orifice plate 8, connected to the rod 5, placed with the formation of the working chamber 9 in the sleeve 10 and fixed on its end, and on this end a removable cup 11 is mounted with an opening 12 in its bottom. The sleeve 10 is movably mounted in the axial direction with the possibility of contact of its cup 11 by the hundredth wall 2 when executing the injection stroke and has a stop 14 loaded with a spring 13 relative to the first cylindrical protrusion 6, which is installed with the possibility of interaction with the second cylindrical protrusion 7. The ring 15 is spring-loaded by the spring 16 to the working body 8, which helps to reduce the tensile stresses of the walls of the working body 8 arising from the pressure of the liquid in the working chamber 9. 1 sludge.

Description

The invention relates to pumping engineering, in particular to positive displacement pumps, and can be used for pumping hardening liquids, for example, polyurethane foam compositions.

The aim of the invention is to increase the service life of the pump.

The drawing shows a diagram of the volumetric pump.

The volumetric pump includes a housing 1 with a pressure valve 3 fixed on its end wall 2 with an inlet 4 in the wall 2, a drive rod 5 s

two axially spaced cylindrical protrusions 6, 7, diaphragm body 8 connected to stem 5, placed to form working chamber 9 in sleeve 10 and fixed on its end facing the discharge valve 3. Sleeve 10 is provided with a removable cup 11c an opening 12 in its bottom, made in the zone of the location of the inlet 4 of the discharge valve 3, is mounted movably in the axial direction with the possibility of contact with the specified end wall 2 of the housing 1 when performing

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discharge stroke, and has a spring loaded 13 relative to the first cylindrical protrusion 6 of the rod 5 stop 14, installed with the ability to interact with the second cylindrical protrusion 7 of the rod 5. The rod 5 is equipped with an additional movable cylindrical protrusion in the form of a ring 15 worn on the end of the rod 5 with the possibility of contact with the worker body 8 and a spring 16 installed between the ring 15 and the second cylindrical protrusion 7 of the rod 5; The suction chamber 17 is formed in the housing 1, filled with pumped liquid through the nozzle 18.

 Volumetric pump works as follows.

When the stem 5 and the working body 8 associated with it move to the left from the extreme right position, the volume of the working fluid of chamber 9 increases after the second cylindrical protrusion 7 of the stem 5 contacts the stop 14 of the sleeve 10 and further moves the rod 5 to the left the cup 11 together with the sleeve 10 From the end wall 2 of the housing 1 and the working chamber 9 communicates with the suction chamber 17, thus the working chamber 9 is filled with the pumped liquid - the suction stroke occurs. When the rod 5 moves to the right, the second cylindrical protrusion 7 comes out of contact with the stop 14 of the sleeve 10, while the rod 5, the operating member 8 and the sleeve 10 move together until the contact of the cup 11c with the end wall 2 of the housing 1, after which the volume of the working chamber 9 begins to decrease and the pumped liquid from the working chamber 9 by the working body 8 through the openings 12 and 4 of the cup 11 and the wall 2, respectively, and then through the discharge valve 3 is forced out to the consumer - a stroke occurs

pumping. When performing this stroke, the ring 15 under the action of the spring 16 is in constant contact with the working body 8, helping to reduce the tensile stresses of the walls of the working body 8 arising from the fluid pressure in the working chamber 9.

Further cycles are repeated.

Claims (1)

0 claims Volumetric pump, comprising a housing with a pressure valve fixed to its end wall with an inlet in this wall, a drive rod with 5 by two axially spaced cylindrical protrusions, a diaphragm working body connected to the stem, placed with the formation of the working chamber in the sleeve and fixed to its top0 facing the discharge valve, the sleeve being installed in an axially movable manner with the possibility of contact with the specified the end wall of the housing when performing the pumping stroke and supplying 5 an abutment which is spring-loaded relative to the first cylindrical protrusion of the rod and installed with the possibility of interaction with the second cylinder stem-cylindrical projection, characterized in that, in order 0 increasing the service life of the pump, the rod is provided with an additional movable cylindrical protrusion in the form of a ring, worn on the end of the rod with the possibility of contact with the working body and the spring, 5 installed between the ring and the second cylindrical protrusion of the rod, and the sleeve on the side facing the discharge valve is provided with a removable glass with a hole in its bottom, made in the area 0 location of the inlet of the discharge valve. 5 6 I sixteen -TTTNLSH / already / mngshhschsh sh zshushsh: / // // / 7 1089 16 15