SU840454A1 - Piston pump - Google Patents

Description

  The invention relates to pump construction, in particular, to pumps for transferring liquids other than the fluid that fills its drive unit, for example for pumping a water-oil emulsion. A piston pump is known for transferring liquids other than a fluid that fills the drive unit, holding the housing with piston blocks mounted on it, including a housing part with piston pairs from the sleeve and the piston f1 arranged in it. However, when such a pump is pumped with liquids that have limited lubricating properties, its life is limited, which is aggravated by the fact that the fluid being pumped can get into the water pump assembly. The aim of the invention is to increase the durability of the pump by isolating the cavity of the drive unit from penetration of the pumped medium. This goal is achieved by the fact that the pump is provided with a cavity made in the housing, a CBJjaaHHoft with a negative pressure source, and each piston pair is provided with a removable element in the form of a hollow rod mounted inside the piston and mounted in a housing part parts of the block in the area adjacent to the sleeve, in this case, all the drainage grooves using channels in the body part of the blank and the body communicate with each other and with the specified cavity. , FIG. 1 shows a diagram of the pump; in fig. 2- Yurshneva pump group. The piston pump contains a casing 1 with a cavity 2 in which a drive unit with an eccentric 3 is placed. On the case 1 piston blocks are installed, including case part 4 with piston 5 and piston 6 installed in the piston pair. Each piston pair is provided with a locking element 7 in

in the form of a hollow rod fixed in the housing part 4 installed inside the piston 6, and with a drainage groove 8, formed in the housing part 4 in the zone adjacent to the sleeve 5.

Casing 1 has a cavity 9 connected by a channel 10 with a source of negative pressure, for example, hydroline 1 1 (suction of feed pump 12. Hydroline 11 suction Yu communicates with tank 13 for the pumped liquid.

All of the drainage grooves 8 in the case of the channels 14 in the body part 4: the channels 15 in the body 1 are connected ij between themselves and with the cavity 9.

In case 1, there is a suction 16 and an injection valve 17: there are 18 low-pressure and 19 high-pressure collectors.

The piston unit also has a working chamber 20, a support shoe 21 of the piston 6, a spring 22 for pressing the shoe 21 against the eccentric 3 and means of sealing in the form of elastic rings 23, 24 and 25, 25

A feed pump via channel 26 communicates with a low-pressure manifold 18.: pressure. The high-pressure manifold 19 has an outlet channel 27. The cavity 2 of the housing 1 is filled with lubricating fluid, - which comes from the tank 28 using the pump 29 through the channel 30, having been cleaned in the filter element 31. Excess fluid from the cavity 2 through channel 32 drained into tank 28.35

Piston pump works as follows.

When rotating the eccentric 3 drive-. Node assembly occurs ... reciprocating movement of the pistons 6, which 40 leads to a periodic increase (suction stroke) and decrease (pressure stroke) of the volume of working chambers.

A feed pump 12 via a hydroline 11 sucks the working fluid from the tank 13 45 and feeds it through the channel 26 into the low-pressure manifold | 18, from which, through the suction valve 16, the working fluid during the suction stroke enters the working chamber 20. During the injection stroke 50, the working fluid from The working chamber 20 is displaced by the discharge valve 17 into the high-pressure manifold 19 and further along the channel 27 to the recipient.

Leaks in the gap between the piston 6 and the locking element 7 enter the drainage groove 8, from which channels 14 and 15 enter the cavity 9. Since cavity 9 through channel 10 is connected to the suction line II of the pump 12, the feedwater, and this hydroline is a source of negative pressure, leaks from the drainage grooves 8 enter the suction side of the feed pump 12 and practically cannot get into the cavity 2 of the pump drive unit. In the cavity 2, with the help of naros 29, the lubricating fluid is circulated, which ensures the removal of wear products and the replacement of filtered and cooled fluids in the tank 28.

Thus, optimal durability of the operating conditions can be ensured for the pump drive unit, and separation of pumped and lubricating fluids is provided by relatively simple technical means. .

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Claims (1)

Invention Formula Piston pump for pumping fluids other than fluids, for-. a power assembly that supports it, comprising a housing with piston blocks mounted on it, including a housing part with piston yars located in it from a sleeve and a piston characterized in that, in order to increase durability, the pump is provided with a cavity in the housing associated with a negative pressure source and its each piston pair is provided with a locking element in the form of a hollow rod mounted in the body part of the block mounted inside the piston, and. the drainage groove, made in the body part of the unit in the area adjacent to the sleeve, with all the drainage grooves using channels in the body part of the unit and the body communicating with each other and with the specified cavity. Sources of information taken into account in the examination. 1. For the application of the Federal Republic of Germany No. 2382250. cl. F 04 B 21/02, 1975. Nagyur 8 hydraulic system t  to JfPuz. {