Disintegrator pump

 

(57) Abstract:

The invention relates to equipment to ensure the disintegration of microorganisms, as well as a comfortable temperature conditions in the premises for local heat supply of buildings and structures. The device operates in a continuous and automatic cycle modes blower and heater. In heating mode circulation through lithopane camera with bypass mode of the compressor when the spiral off camera switch (10) directly on the heating system when water heating is carried out directly in the annular channel (7) in the absence of braking time transformations of the dynamic and static pressures in the annular channel (7) lithobates camera and turn off the switch (10) and valve (12). The facility provides efficiency. 6 Il.

The invention is intended for disintegration of microorganisms hydroshock, cavitation effects and heat water when transforming pressures in the local hot-water heating systems of buildings and structures.

Known disintegrator pump containing a cylindrical housing with suction and discharge nozzles along the axis of the howling channel with protrusions and cavities of the body, and switch it into the modes of operation of the blower and heater /patent RF N 2086641, CL C 12 M 1/33, C 02 F 3/00, 1993/, lack of which is the complexity of the design of the switch, which reduces its effectiveness.

The purpose of the invention is the improvement of its efficiency is achieved in that the discharge nozzle provided with a bend and rocker valve overlap sections channel discharge pipe and the outlet signal relays temperature, and the outlet is in communication with lithobates camera of its socket and the tapered part of the cochlea reported installed perpendicular to the plane of the snail pipe in the inner cavity of which is placed a flat spiral, and the tube is communicated with the bypass with the heating system of a building or structure.

Lithopane Luggage is a hindrance that impedes the passage of water from the annular channel between the rotor and the housing, which increases the duration of the transformation of dynamic pressure into static, and Vice versa, and accordingly, the accompanying transformation pressure hot water. Hot water can cause damage to a comfortable temperature in the rooms and even boiling water in the annular channel of the rotor. When connected via wideopenspaces shows a longitudinal section of the device; in Fig. 2 is a top view of Fig. 3 - section a-lithobates camera of Fig. 2; Fig. 4 - cut exhaust lithobates camera along B-B in Fig. 2; Fig. 5 - node of the first switch of Fig. 2; Fig. 6 - scheme of heating using disintegrator pump.

Disintegrator pump comprises a cylindrical housing 1 with 2 suction and discharge 3 nozzles, the axis of which is placed the rotor 4 with alternating protrusions 5 and valleys 6, communicating through the annular channel 7 with projections and depressions 8 and 9 of the housing, and the switch 10 of the transfer pump in the mode of operation of the blower and heater. The discharge nozzle 3 is made with tap 11 and the changeover valve 12 of the switch 10 overlap living sections of the channels discharge pipe 3 and outlet 11 signals the temperature relay 13, and the outlet 11 is in communication with lithobates chamber 14 of the socket 15 and the tapered part 16 lithobates chamber 14 is communicated with the installed perpendicular to the plane of the constricted portion 16 of the pipe 17 into the internal cavity of which is placed a flat coil 18, and the pipe 17 is communicated with the bypass 19 to the heating system of a building or structure, including the heat exchangers 20, the fixture 21, the check valve 22.

Disintegrator us the th rotation, excluding slip, 3000 rpm, the rotor 4 sucks the water from the heating system through the pipe 2 into the annular channel 7 tabs 5. When the rotor 4 water in the depressions 6 are reported the dynamic pressure, which in the trenches 9 between the projections 8 of the housing 1 becomes static, and the water is again absorbed in the cavity 6, which are freed from the previous portions of water, but with higher potential. As water flows through the annular channel 7 from a suction pipe 2 to the discharge 3 static pressure increases many times. When multiple transformations pressure of the energy supplied by the motor 24, converted to heat, providing hot water. During emptying of the cavities 6, when the water discharge in the annular channel 7 it creates a vacuum that causes a lowering of pressure to release bubbles of steam from the water. Upon contact of the bubbles of steam with the walls of the depressions having a lower temperature in comparison with water, the bubbles are condensed. The volume of condensate is a thousand times smaller than the volume of the steam from which it was formed. In the water there are voids that are filled with portions of water with a hydraulic shock. Often the centers of condensation are microorganisms, including iron bacteria, obrobka 3 at the ceiling of his living section of the flap 12 of the switch 10, the water goes into lithopane chamber 14. When moving water from the socket 15 to the constricted portion 16 there is a change in the plot of flow velocities with increase in the near-wall region. The increased friction of water on the walls of the chamber 14 causes it to heat. The effect of transformation of velocities continues in the pipe 17 through the impact on water of a flat spiral 18 with the formation of a concave parabola plots of the speeds with a maximum near the walls of the pipe 17. When the device is in the mode of the heater water temperature rises, which leads to the heat from the heat exchanger 20, the temperature of the air in the room and discomfort. Triggered thermostat 13, and the damper closes the outlet 11 /dotted line in Fig. 5/, and the pump 23 when the bypass 19 begins to work on the heating system in the mode of the compressor until the temperature of the water cooled in the heat exchangers 20, defined conditions. By cooling the air below the optimal value from the temperature switch 13 switch 10 switches the valve 12 in the position blocking the passage of water through the discharge pipe 3, and the device 23 starts to operate in the mode of the heater through the bypass 19 with the rise of water in the heating system.

The continuity of the water circulation eliminates the deposition of sediments in the heat exchangers 20, to the surfaces of the system, which increases the heat-transfer coefficients from water to air space. The system operates in automatic mode and responsive to changes in the outdoor temperature. Waiver services CHP ten times reduces heating costs. The unit can be used for heating of individual buildings, and residential neighborhoods. The rejection of the use of water heating solid, liquid and gaseous fuels improves the environment. Setting promotes the separation of air from water, which slows down the corrosion of the internal surfaces of the heating system 4 and increases operating life.

Disintegrator pump containing a cylindrical housing with suction and discharge nozzles, the axis of which is placed a rotor with alternating protrusions and depressions, communicating through the annular channel with the projections and depressions of the housing, and a switch transfer pump modes of operation of the blower and heater, characterized in that the discharge nozzle is made with a bend and flip the flap switch overlap living sections of the channels discharge pipe and the outlet signal relays temperature, and the outlet is in communication with lithobates camera it rastra the cavity which is placed a flat spiral, and the tube is communicated with the bypass with the heating system of a building or structure.

 

Same patents:

The invention relates to heating, and more specifically to techniques for the heating of multi-storey buildings connected to the heat network or boiler, and can be used for heating of buildings for any purpose

Liquid heat // 2148754
The invention relates to heat engineering and can be used in heating systems and heating of liquids, and also for mixing liquids in various technological processes

The invention relates to the field of heat supply and can be used in boiler plants public heating systems using makeup for these systems source water quality nondrinking

Heating boiler // 2147714
The invention relates to the field of power engineering and can be used in heating boilers

Device for heat // 2140042
The invention relates to heat engineering and can be used to produce thermal energy for heating of buildings and structures

The invention relates to the field of power engineering and can be used in the hot water boiler

Hot water boiler // 2137984
The invention relates to a power system and can be used in heat supply systems

The invention relates to a power system and can be used in heating boilers

Disintegrator // 2086641
The invention relates to techniques disintegration of microorganisms hydrodynamic and cavitation effects on shell and use the dissipation transformation pressures in thermal energy for heating the liquid heating systems

The invention relates to techniques for the destruction of the membranes of bacteria, such as gelatobaby hydrodynamic cavitation and thermal effects, and can be used in heating systems of buildings and constructions

The invention relates to techniques for the destruction of the membranes of bacteria hydrodynamic cavitation and thermal effects and can be used in heating systems of residential and industrial buildings

Disintegrator // 2064498

The invention relates to the food industry and for receiving food product from yeast

The invention relates to biotechnology, namely the technique of disintegration of microorganisms

Disintegrator // 2017812
The invention relates to techniques disintegration of microorganisms and can be used to obtain nucleic acids, enzymes, vitamins, micronutrients, biostimulants, medicines and other physiologically active substances

Heat supply system // 2252366

FIELD: power engineering.

SUBSTANCE: system has heat source - heat carrier heater, connected to vortex pipe, connected to heat consumer by feeding and backward pipeline of heat carrier. Into feeding pipeline of heat carrier pipeline of hot stream of heat carrier is connected, projecting from vortex pipe, and pipeline of cold flow of heat carrier outputted from vortex pipe is connected to suck-in branch pipe of heat carrier forcing pump, while cold flow of heat carrier passes through heat exchange device, into which heat carrier of outer source of low-potential heat is fed.

EFFECT: higher effectiveness.

1 cl, 1 dwg

Up!