RU2152990C1 - Disintegrator - Google Patents

Abstract

FIELD: disintegrating microorganisms in water heating systems of buildings. SUBSTANCE: when water flows from intake pipe of casing to delivery pipe, it is ejected many times from rotor depressions to annular channel and to depressions of rotor ring. Water ejection from rotor depressions to casing ring ones is accompanied by dynamic water hammers and cavitation which disintegrates shells of microorganisms and causes water heating. Scroll-shaped insert and pipe installed at delivery pipe outlet function as resistors and provide for additional water heating. Hot water is used in local water heating systems and disintegration of microorganisms eliminates biofouling of inner walls in heating system. EFFECT: improved design. 4 dwg

Description

 The invention relates to techniques for the disintegration of microorganisms in local water heating systems of buildings.

 A known disintegrator comprising a housing with suction and discharge nozzles, a rotor with alternating longitudinal protrusions and depressions interacting through an annular channel with a housing ring made with alternating protrusions and depressions (RF patent N 2086641, class C 12 M 1/33, C 02 F 3/00, 1993), the disadvantage of which is the duration of water heating in the heating system of buildings and structures with its use, which reduces the efficiency of the work.

 The purpose of the invention is to increase the operating efficiency is achieved by the fact that the protrusions and depressions are made triangular in shape with vertical and inclined walls, and the inclination of the rotor cavity is made in the direction of its rotation, and the hollows of the housing ring are opposite, and the discharge pipe of the housing is equipped with a cochlear insert, the cochlear bell is connected with a branch pipe, and the narrowed end of the cochlea is equipped with a branch pipe perpendicular to the plane of the cochlea.

 The execution of the rotor and the ring of the casing with longitudinal alternating protrusions and hollows of a triangular shape in the rotor increases the speed of movement of water during its transition from the annular channel, and in the hollows of the ring of the casing, the brakes increase the hydroshock and cavitation effects of the disintegration of microorganisms. Installing a cochlear insert on the discharge pipe and supplying the tapered end of the cochlea with a branch pipe perpendicular to the plane of the cochlea inhibits the movement of fluid from the disintegrator into the main network and, accordingly, the processing time in the annular channel between the rotor and the ring of the casing.

 In FIG. 1 shows a disintegrator, a longitudinal section; in FIG. 2 is a section A-B-B in FIG. 1; in FIG. 3 - node I in FIG. 1; in FIG. 4 is a diagram of a heating system.

 The disintegrator comprises a housing 1 with a suction 2 and discharge 3 nozzles, a rotor 4 located along the axis of the housing 1 with alternating longitudinal protrusions 5 and depressions 6, interacting through an annular channel 7 with the ring 8 of the housing 1, made with alternating longitudinal protrusions 9 and depressions 10. Protrusions 5 and 9 and the depressions 6 and 10 are made triangular in shape with vertical 11 and inclined 12 walls, the inclination of the depressions 6 being made in the direction of rotation of the rotor 4, and the depressions 10 of the ring 8 of the housing 1 in the opposite. The discharge pipe 3 of the housing 1 is equipped with a cochlear insert 13, the bell 14 of the cochlea of the insert 13 is connected to the pipe 3, and the narrowed end 15 of the cochlea of the insert 13 is a branch pipe 16 that is perpendicular to the plane of the cochlea of the insert 13. The heating system is equipped with heating devices 17, taps 18, a check valve 19 and temperature switch 20.

 The disintegrator in the heating system operates as follows.

 When the rotor 4 is rotated and from the electric motor 21 under the action of centrifugal force, the water is ejected by the protrusions 5 from the depressions 6 and enters the depressions 10 between the protrusions 9 of the ring 8 of the housing 1, while the transition of the pressure head to static. From the depressions 10, subsequent along the rotation of the rotor 4, the protrusions 5, the water is captured and fills the cavity 6, freed from the ejected water, but with a higher pressure. Such emissions and suction occur repeatedly when water moves along the annular channel 7 between the ring 8 of the housing 1 and the rotor 4 from the suction pipe 2 to the discharge pipe 3. When water is ejected from the cavity 6, a vacuum is created in it, which leads to the formation of steam bubbles that collapse subsequent portions of water entering the cavity. The volume of steam is a thousand times greater than the volume of water condensed from the steam, and the centers of condensation are iron bacteria. When steam bubbles collapse, new portions of water rush to the centers of condensation and destroy the shells of microorganisms with hydraulic shocks. With multiple transitions of the pressure head to static and vice versa, part of the energy of the head goes into heat, accompanied by heating of the water. To increase the frequency of water circulation in the annular channel 7, a coiled insert 13 with a socket 14 is installed at the outlet of the pipe 3, a pipe 16 is attached to the narrowed end 15, perpendicular to the plane of the cochlea, which are additional resistances that provide water heating. The temperature of the water, preventing its boiling, is regulated by the temperature switch 20, which turns off the electric motor 21. The vertical walls 11 and the inclined 12 troughs 6 and 10 increase the efficiency of acceleration and deceleration of the water, and, accordingly, the dissipation of pressure with the transition to heat.

 Refusal to use heating from CHP reduces the cost of heating, allows you to set the temperature in the rooms depending on the outdoor temperature, i.e. create comfortable temperature conditions. The destruction of iron bacteria eliminates the biofouling of the system, increases the heat transfer coefficients from the heating medium to the heated.

Claims (1)

 A disintegrator comprising a housing with suction and discharge nozzles, a rotor placed along the axis of the housing with alternating longitudinal protrusions and depressions interacting through an annular channel with a housing ring made with alternating longitudinal protrusions and depressions, characterized in that the protrusions and depressions are made triangular with vertical and inclined walls, while the hollows of the rotor are made in the direction of its rotation, and the hollows of the ring of the housing are in the opposite direction, the discharge pipe of the housing is provided litkoobraznoy insert socket insert cochlea connected to the discharge pipe body and a tapered end is provided with a fitting cochlear retraction perpendicular to the plane of insertion of the cochlea.

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