RU202232U1 - PUMP FOR LAYOUT PRODUCTION - Google Patents

Abstract

The utility model relates to the field of mechanical engineering, namely to pump engineering, and can be used in construction, drilling equipment, etc. The objective of the utility model is to exclude a decrease in the strength characteristics of the working (pumped) medium, in particular concrete. pump for grouting production, containing a housing with a drive installed in it in the form of a connecting rod-crosshead mechanism, a control rod located in a hydraulic block, equipped with a one-piece removable piston with a double-sided seal, while the piston is made with a round stepped groove, on a smaller diameter of which a spring ring, and a sealing element is placed on the protrusion of this ring, and on both sides of the latter are mounted split protective rings, the horizontal shelves of which interact with the groove walls of a larger diameter, while the sealing element and protective rings are made of a material with a low tren coefficient the sealing element is made of polytetrafluoroethylene or oil-water-petrol-resistant polyurethane, and the protective rings are made of polyacetate.

Description

The utility model relates to the field of mechanical engineering, namely to pump engineering, and can be used in construction, drilling equipment, etc.

Known pump for grouting production (see RU 52614 UI F04В 15/00) containing a housing with a drive located in it in the form of a connecting rod-crosshead mechanism, a hydraulic part containing a suction and delivery unit with pressure generating pistons connected by means of rods with crossheads, and forced lubrication system.

The disadvantages of the known solution include low reliability of the piston seal.

There is also known a pump for plugging production (RU 126058 UI F04В 15/00), a prototype containing a housing with a drive in the form of a connecting rod-crosshead mechanism connected to a rod that controls the assembly piston of the valve boxes of the hydraulic part, consisting of two packs of seals operating with forced lubrication.

The disadvantages of this design include a decrease in the strength characteristics of the pumped medium, in particular of concrete, due to mixing with mineral oil, lubricated by a piston interacting on both sides with the working medium (see Thesis N.M. Vasiliev, 1966, "Influence of mineral oils on the physical and mechanical properties of concrete and its protection ").

The problem solved by this utility model is to eliminate the decrease in the strength characteristics of the working (pumped) medium, in particular, concrete.

The problem is solved by the fact that a pump for grouting production, containing a housing with a drive installed in it in the form of a connecting rod-crosshead mechanism, which controls a rod located in a hydraulic block, equipped with a one-piece removable piston with a double-sided seal, while the piston is made with a round stepped groove, on a smaller diameter of which a spring ring is installed, and a sealing element is placed on the protrusion of this ring, and split protective rings are mounted on both sides of the latter, the horizontal flanges of which interact with the groove walls of a larger diameter, while the sealing element and protective rings are made of a material with low coefficient of friction, while the sealing element is made of polytetrafluoroethylene or oil-water-petrol-resistant polyurethane, and the protective rings are made of polyacetate.

FIG. 1 shows a longitudinal section of a pump for grouting production: FIG. 2 callouts I in FIG. 1: in FIG. 3 callouts II in FIG. one.

The pump for plugging production contains a housing 1, in which a connecting rod-crosshead mechanism 2 is installed, which controls a piston 3 located in a hydraulic block 4, in the lower part of which there is a suction manifold 5, and in the upper part a block of bypass valves 6 and a zone 7 for receiving the working medium ... The unit is equipped with a pressure gauge 8. On the housing 1, a forced lubrication unit 9 is installed only for the connecting rod-crosshead mechanism 2.

The piston 3 contains a housing 10 with a profile groove 11, on a smaller diameter of which an elastic (spring) ring 12 with a projection 13 is placed, made of a material, for example, oil-water-petrol resistant polyurethane, or polytetrafluoroethylene, on both sides of the element 14 are mounted and interact with a profile of a larger diameter groove 15 split protective rings 16, made, for example, of polyacetal. The overflow valve 6 consists of a disc 17, spring-loaded relative to the upper stop 18, sealed against the body of the hydraulic unit.

The pump for grouting production works as follows.

From the drive (not shown in the figure), the connecting rod-crosshead mechanism 2 through the rod 6 transmits the reciprocating motion to the piston 3, which, thanks to the double-sided seal, alternately pumps the working medium through the valves 6 into the chamber 7 of the hydraulic unit 4 with monitoring the pressure in the unit from the pressure gauge 8 ...

Thus, due to the fact that the piston is made with a profile groove, in which a spring-loaded sealing element made of polytetrafluoroethylene or oil-water-petrol-resistant polyurethane is installed, fixed by protective rings made of polyacetal, all the materials used have a low coefficient of friction, a good sealing effect, exceptional abrasion resistance, a wide range of operating temperatures, which makes it possible to work without the use of forced lubrication with mineral oils, which means - to exclude harmful effects on the working (pumped) medium, in particular on concrete, and the absence of a pipeline with detachable connections from the forced lubrication pump to the piston increases the reliability of the pump.

Claims (4)

1. A pump for grouting production, containing a housing with a drive installed in it, in the form of a connecting rod-crosshead mechanism, which controls a rod located in a hydraulic block, equipped with a one-piece removable piston with a double-sided seal, characterized in that the piston is made with a round stepped groove, on a smaller the diameter of which a spring ring is installed, and a sealing element is placed on the protrusion of this ring, while on both sides of the latter there are mounted split protective rings, the horizontal shelves of which interact with the groove walls of a larger diameter, while the sealing element and protective rings are made of a material with a low coefficient friction. 2. The pump according to claim 1, characterized in that the sealing element is made of polytetrafluoroethylene. 3. The pump according to claim 1, characterized in that the sealing element is made of oil-water-petrol-resistant polyurethane. 4. The pump according to claim 1, characterized in that the protective rings are made of polyacetate.

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