SU1390434A1 - Plunger pump - Google Patents

Abstract

Invention m. Used for pumping high viscosity abrasive fluids. The purpose of the invention is to increase the uniformity of the pump and reduce hydraulic losses. Two-stage flow plunger (PP) 2 is located vertically in the housing I with the formation of the lower and upper working chambers (RK) 3 and 4. RK 3 through the suction i (L with: D about 4 SAE ip

Description

 valve 5 communicates with the source of the pumped liquid, and RC 4 - with the consumer. The pump drive is kinematically connected with PP 2. A stage 12 of larger diameter GSH is located in RC 3, its cross section area is twice as large as the cross section of stage 13 of a smaller PP diameter 2. RC 4 is designed as a pressure fluctuation compensator and communicates with consumer of its lower part 14.

In stage 12 of a larger diameter PP 2, a discharge valve 15 is installed. With this design of the pump, a uniform supply of fluid to the discharge line 6 connecting the RC 4 with the consumer is ensured. The implementation of the plunger 2 of the flow-through valve and the RK-4 in the form of a pressure-pressure compensator ensure the linearity of movement of the pumped liquid and the reduction of hydrodynamic losses. 2 Il.

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The invention relates to positive displacement pumps and can be used, in particular, for pumping abrasive liquids of increased viscosity.

The purpose of the invention is to increase the uniformity of the pump and reduce hydraulic losses.

Figure 1 shows the plunger pump, the cut; figure 2 - the same, from the side of his drive.

The plunger pump contains a two-stage flow plunger 2 vertically located in the housing 1 with the formation of the lower 3 and upper 4 working chambers, the first of which through the suction valve 5 communicates with the source (not shown) of the pumped well 1, and the second through the discharge line 6 with the consumer.

The pump drive can be made in the form of, for example, a drive shaft 7, which is kinematically connected through the crank 8 and the connecting rod 9 to the trunnions 10 rigidly mounted on the differential flow plunger 2 in its middle part and passed through the longitudinal slots - guides 11 in the housing 1 pump.

A stage 12 of a larger diameter of the flow plunger 2 is located in the lower working chamber 3 of the housing 1, and its cross-sectional area is twice as large as the cross-sectional area of the step 13 of the smaller diameter of the flow-plunger 2.

The upper working chamber 4 of the housing 1 is designed as a collar compensator.

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The pressure gauge of the pumped liquid is connected to the discharge line 6 with its lower part 14, and the discharge valve 15 is installed in a stage 12 of a larger diameter of the flow plunger 2.

Plunger pump works as follows.

The rotational movement of the drive shaft 7 is transformed through the crank 8, the connecting rod 9 and the slots - the guides 11 in the housing 1 into the reciprocating movement of the trunnions 10 and the two-stage flow plunger 2 rigidly connected with it.

When the two-stage flow plunger 2 moves upward, the discharge valve 15 remains closed, and the suction valve 5 opens and the pumped liquid flows into the lower working chamber 3.

At the same time, from the upper working chamber 4 under the conditions of the steady state 5 operating modes, i.e. when a pressure in the air cap of the working chamber 4 is equal to the pump supply pressure, a portion of the liquid is displaced.

During the return stroke of the two-stage flow plunger 2, the suction valve 5 is closed, and the discharge valve 15 is opened and a portion of the liquid is displaced from the lower working chamber 3 through the flowing plunger 2, while the other part of the liquid flows through the working chamber 4 is forced into discharge line 6.

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during each course of the flow-through plunger line 6 of the amount of fluid that the area of the cross section 12 is larger than the diagonal of the transverse 3 is smaller in diameter 2.

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these two countries are all the same

The speed of movement of the flow plunger 2 varies according to a sinusoidal law and, due to the hydrodynamic resistance in the discharge line 6, the pressure in the air cavity of the upper working chamber 4 changes according to the same law, while the pump and the air cavity of the working chamber 4 in the form of a pressure fluctuation compensator work in conjunction with the shift of the working phases of the flow by 90 °, which provides greater uniformity of fluid flow in the discharge line 6.

The two-stage plunger 2 is flow-through, and the upper working chamber 4 in the form of a pressure-pressure compensator ensures the linearity of movement of the pumped liquid

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hydrodynamic reduction 0

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Claims (1)

Formula of the invention) 1i A plunger pump containing a two-stage flow plunger vertically located in the housing with the formation of lower and upper working chambers, the first of which through the suction valve is connected to the source of the pumped liquid, and the second - to the consumer, the pump drive kinematically connected to the two-stage flow plunger and pressure a valve, with a step of a larger diameter of the flow plunger located in the lower working chamber, and its cross-sectional area is twice as large as the cross-sectional area and steps of smaller diameter flow plunger, characterized in that, in order to increase pump supply uniformity and reduce hydraulic losses, the upper working chamber is designed as a pressure fluctuation compensator and communicated to the consumer with its lower part, and the discharge valve is installed in a step of larger diameter of the flow plunger . ig.2