RU76404U1 - EJECTOR EQUIPMENT WITH HYDRAULFINDERS - Google Patents

Abstract

Ejector device with hydraulic disintegrants for cleaning storm wells and sublattice collectors of garbage and melt water at metro entrances, etc. containers containing the active fluid pipe, a connection pipe and a nozzle for supplying an active liquid, a suction pipe, a pressure chamber, a confuser, a neck, (a mixing chamber), a diffuser with a flexible hose, characterized in that the ejector is installed with an annular gap with respect to confuser a combined jet-ring nozzle made in the form of a nozzle with a beveled end, with a bevel, on the surface of which there are recesses of a rectangular or oval shape for supplying jets of active liquid, and another open The open end of the nozzle is hermetically fixed to the plate, which is hermetically connected to the confuser and has vertical holes - nozzles for jets of hydraulic disintegrants flowing out of the pressure chamber, while the open internal end of the nozzle is the suction nozzle of the ejector, its inner diameter is equal to the diameter of the neck of the ejector, and the vertical holes - nozzles are located along its perimeter, while the plate with the pipe is connected to the confuser by bolts.

Description

The device of the ejector with hydraulic disintegrants relates to the field of public utilities, in particular to the treatment of storm wells, and sublattice collectors of garbage and melt water at the entrances to the metro, and can also be used to remove drains from sewer wells.

The known size range of ejector pumps of the DKT-200 type for pumping sludge liquids from sedimentation tanks, as well as the size range of portable water-jet ejectors of the PVEZh-20 type with a central supply of active liquid (Appendix 1) for pumping liquids from containers.

In the technical literature, the names ejector pumps and ejector are used as synonyms. A more general definition of devices of this type is the name - jet pumps.

PVEZh-20 type jet pumps contain a flexible hose with a shut-off valve for supplying active liquid, a connection pipe and a nozzle with a central supply of active liquid, a suction pipe, a confuser, a mixing chamber (neck) and a diffuser with a flexible ejector pressure hose for transporting the pumped liquid ( pulp). PVEZh-20 type jet pumps are manufactured in series and are standard equipment for each newly built vessel.

The disadvantage of water-jet pumps of the above types is that they do not remove solid sediment deposited on the bottom of the tank. Their disadvantage is also the reduction of the maximum possible overall dimensions of the solid particles contained in the liquid removed from the wells, against the passage section of the ejector neck. So, for example, if the diameter of the neck

of the PVEZh-20 ejector is 30 mm, the arrangement of the central nozzle of the active liquid reduces the overall passage size of the particles by about 3 times.

A device of an ejector for removing non-flowing bottom sediments from shipboard storage tanks for oil products (AS USSR No. 1214523), which contains a confuser, a suction receiver, a pipe for connecting and an annular (slotted) nozzle for supplying active liquid, a pressure chamber, a mixing chamber (neck) and diffuser with a flexible pressure hose of the ejector, while the nozzle has a pattern and is provided with through holes (nozzles) directed inward downward at an angle to the longitudinal axis of the ejector 12 ÷ 15 °. The disadvantages of the device are the rather high complexity of manufacturing a nozzle receiver with patterned formations and inclined nozzles, the massiveness of the nozzle, increasing the mass of the ejector. The considered device did not become serial production equipment. Therefore, as a prototype, ejectors of the PVEZh-20 type were adopted, the composition and device of which are discussed above, which are manufactured in series and are standard equipment of each newly built vessel.

A utility model of an ejector with hydraulic disintegrants is proposed, comprising an active fluid pipeline with a shutoff valve, a connection pipe and an active fluid supply nozzle, a suction pipe, a confuser, a neck (mixing chamber), a diffuser with a flexible hose, characterized in that the ejector is installed with an annular gap with respect to the confuser, a combined jet-annular nozzle made in the form of a nozzle with a beveled end, with a chamfer, on the surface of which recesses are located rectangular or oval (at

at least four) for feeding the jets of active liquid into the mixing chamber, the other open end of the nozzle is hermetically fixed to the plate, which is hermetically connected to the confuser and has vertical openings - nozzles (at least two) for the jets of hydraulic disintegrants, while the internal cavity, through the open end of the nozzle is the suction nozzle of the ejector, its inner diameter is equal to the diameter of the neck of the ejector, and the vertical holes of the nozzle are located around its perimeter.

The device of the utility model is illustrated in figure 1 and figure 2. In Fig. 1, a sectional view of a general view of an ejector with hydraulic disintegrants is placed; Fig. 2 is a sectional view of a plate with a combined jet-ring nozzle and at the same time a suction pipe of the ejector.

The device comprises a flexible sleeve 1 for supplying active liquid with a shut-off valve 2 and a Rott nut, a discharge pipe 3 for connecting to an ejector, a pressure chamber 4 and a combined jet-ring nozzle 5 formed by a confuser 6 and a chamfer pipe 7, on the surface of which recesses 8 are made of rectangular or oval (at least four), the other open end of the inner cavity of the pipe 7 is located on the plate 9 and is a suction pipe of the ejector having an inner diameter equal to the diameter of the neck ( mixing chamber) 10, holes are located on the plate 9 — nozzles 11 (at least two); the device also contains a diffuser 12, a pressure hose of the ejector 13 with an unpressurized throttle closure (not shown in FIG. 1), connections using Rott nuts 14 and connecting bolts 15, which are simultaneously supports when installing the ejector on a hard surface.

The device operates as follows. Active liquid with a pressure of 0.3 ÷ 0.6 MPa through a flexible sleeve 1 and a pipe 3 is fed into the pressure chamber 4. From where the combined jet-ring

nozzle 5 is fed into the neck (mixing chamber) 10. The combination of (annular) and jet outflow intensifies the process of creating a vacuum and mixing (transfer of the kinetic energy of active fluid particles to passive, sucked, fluid particles) and, as a result, increases the ability of the active fluid flow to engage in its movement is non-flowing sediment. Separation of non-flowing bottom sediments from the sediment, their rise to a suspended state (pulp) is carried out by jet jets flowing out of the pressure chamber 4 through nozzles 11. From the diffuser 12, the pulp is fed into the collection tank with a flexible hose 13. At the end of the hose 13, an unpressurized throttle closure can be installed to clean the nozzle with a reverse flow when closing the throttle.

Water-jet pumps adopted as a prototype do not have jet jets, as a result of which the process of washing out, agitating, converting the sediment into a fluid pulp and its absorption into the ejector receiver could not take place. Those. the use of jet jets in a utility model extends the functionality of a water-jet ejector adopted as a prototype, and the use of a combined jet-annular nozzle intensifies the pulp absorption process.

In the prototype, the limiting factor of the size of the solid particles in the pumped liquid is the distance between the central nozzle of the active liquid supply and the confuser, which is approximately three times smaller than the neck diameter (mixing chamber).

The installation of a combined jet-annular nozzle, the inner cavity of which is the suction nozzle of the ejector, and its diameter is equal to the diameter of the neck, allows you to suck out the pulp with solid inclusions, the overall dimensions of which are much larger than those that could be sucked off with ejectors like PVEZh-20,

taken as a prototype, subject to the agitation of bottom sediments by an external source, such as a brigade boom.

T.O. The technical effect of the device should be considered the expansion of the functional capabilities of the PVEZH-20 type jet pumps, due to the addition of their design to the vertical nozzles for jet jets and the replacement of the jet nozzle with a central supply of active liquid to the combined jet-ring nozzle, the inner cavity of which is an ejector suction pipe.

Claims (1)

An ejector device with hydraulic disintegrants, comprising a connection pipe and a nozzle for supplying active liquid, a suction pipe, a confuser, a pressure chamber, a neck (mixing chamber), a diffuser with a flexible pressure hose, characterized in that a combined jet-ring nozzle is installed in the ejector in the form of nozzle, with a beveled end, with a bevel, on the surface of which there are recesses of rectangular or oval shape (at least four), the other open end of the nozzle is hermetically fixed to the plates , which is hermetically connected to the confuser by connecting bolts and has vertical openings - nozzles (at least two), while the open end of the internal cavity of the nozzle is the suction nozzle of the ejector, the diameter of the internal cavity is equal to the diameter of the neck of the ejector, and the vertical holes are nozzles located around the perimeter of the nozzle and directed vertically down.