RU613U1 - Jet pump - Google Patents

Abstract

1. A jet pump comprising a receiving chamber combined in one housing, an active slot nozzle, a mixing chamber and an injection pump connected at the outlet to the active nozzle and inlet communicated by a drainage pipe with the outlet of the mixing chamber, characterized in that the active nozzle is multi-barrel, the mixing chamber is multi-sectional and slotted and each nozzle barrel has its own section of the mixing chamber, while the nozzle trunks with their corresponding sections of the mixing chamber are combined into a battery, and from the wearing width to the cross-sectional length of each barrel and each mixing chamber corresponding to this barrel is determined from the ratio 1 to Xn, where Xn = Xn-1 + [20 + 20 * (n-1)],, X0 = 180, n = 1, 2,3,4 ... 2. The pump according to claim 1, characterized in that it contains two or more nozzle barrel batteries with corresponding sections of the mixing chamber located around the circumference of the discharge pump at the outlet of the latter.

Description

The invention relates to the field of mechanical engineering and other areas where vacuum pumps are used. Known pumps have a number of disadvantages: high fluid flow rate at a relatively low productivity due to the large cross section of the nozzle and diffuser, high energy costs. Oil ones have the disadvantage of possible oil getting into the vacuum chamber, to prevent which filters are used, which significantly increase the cost of installation and increase the size.

The purpose of the invention is to increase the performance of jet pumps while reducing the consumption of active medium and energy consumption, the creation of environmentally friendly technologies based on jet pumps, reducing the cost of manufacture and operation, significantly increasing the performance of the pump while reducing the dimensions. The proposed design of the jet pump combines in a single casing the injection and jet pumps Through the use of slotted nozzles and diffusers, significantly increase productivity with a minimum expenditure of active medium . Location left nozzles and diffuses in the package allows you to use in a single casing 2 or more packages located around the circumference of the injection pump, which can significantly increase productivity with minimal energy costs per unit of work, and reduce the dimensions and weight of the unit.

The proposed design of the jet pump (hereinafter referred to as the pump) consists of (see, Fig. 1-III) a single housing I, in which an injection turbine of 2, 2 or more nozzle packages with diffusers 6.7 located along the diameter of the injection pump, and a water conduit is located 4, filler pipe 3, nozzle b and diffusers 7 are made in the form of a gap with the ratio of the cross section to the longitudinal

Jet Pump / b ou - s

0.5-100; 0.75-180; 1-300, etc., which can significantly increase the area of the jet with a minimum flow rate.

The proposed pump device operates as follows (see fig. 1-III): through nozzle 3, liquid is poured into the housing I, the drive of turbine 2 is pulled in, turbine 2, while spinning, creates a fluid pressure in nozzles b. The liquid, flying out of the nozzle 6 into the diffuser 7, captures the passive medium from the chamber 8 connected to the diffuser 7 and carries it into the diffuser 7 (arrows indicate the movement of the active and passive media),

Upon exit from the diffuser 7, the liquid enters the water conduit 4 and returns to the turbine 2 through it, closing the continuous cycle of the pump with a small amount of liquid. The diffusers and the nozzle are made in the form of a gap with a ratio of the cross section to the longitudinal 0.5-100; 0.75-180; 1-300 etc. Slot-hole diffusers and a nozzle allow you to collect 2 or more nozzles with diffusers in a bag, which allows you to significantly increase the pump performance with a small size. at a low flow rate of the active medium and high pump performance. The liquid at the outlet of the water conduit 4 enters the turbine, where, under the action of centrifugal force, separation of the trapped passive medium occurs, as a result of which excessive pressure is created, which increases the pressure in the turbine. Part of the excess pressure is discharged through the pipe 3,

-significantly reduce fluid consumption;

-create environmentally friendly technologies and widely use in various fields of industry;

-Significantly reduce the energy and material consumption of pumps;

-creation of pumps with a slotted nozzle and a high-capacity diffuser with low energy consumption;

 place several packages of nozzles with diffusers around the circumference of the discharge pump,

Forshla inventions

I. The jet pump combines injection and jet pumps in a single housing, a turbine, jet pumps 2 or more, water pipes for returning the active medium to the turbine, characterized in that in order to increase the specific productivity, it has 2 or more nozzles with a diffuser, united by one housing,

2, The jet pump is characterized in that when a closed cycle requires a minimum of active medium (liquid) with high productivity,

3, The jet pump is characterized in that it has a slotted nozzle and a diffuser with a cross-section to longitudinal ratio of 0.5-100; 0.75-180; 1-300, etc., which can significantly increase productivity with low fluid consumption,

4, The jet pump is characterized in that slotted nozzles with a diffuser can be assembled into batteries, which will significantly increase the performance of jet pumps with small dimensions and liquid costs,

 Fords, depending on the destination, nozzle and diffuser.

b. The jet pump is characterized in that it allows you to place 2 or more packages of nozzles with diffusers around the circumference of the discharge pump.

AuthorM В, 11.0ryaanyuk-Malitsky

- 30.gS/

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Claims (2)

1. A jet pump comprising a receiving chamber combined in one housing, an active slot nozzle, a mixing chamber and an injection pump connected at the outlet to the active nozzle and inlet communicated by a drainage pipe with the outlet of the mixing chamber, characterized in that the active nozzle is multi-barrel, the mixing chamber is multi-sectional and slotted and each nozzle barrel has its own section of the mixing chamber, while the nozzle trunks with the corresponding sections of the mixing chamber are combined into a battery, and from the wearing width to the cross-sectional length of each barrel and each mixing chamber corresponding to this barrel is determined from the ratio 1 to Xn, where Xn = Xn-1 + [20 + 20 * (n-1)],, X0 = 180, n = 1, 2,3,4 ... 2. The pump according to claim 1, characterized in that it contains two or more batteries of the nozzle shafts with their respective sections of the mixing chamber, placed around the circumference of the discharge pump at the outlet of the latter.