Heat hydraulic

 

The invention is intended for use in the field of heating technology, namely to heat water used in heating and hot water supply. The hydraulic heat generator includes a cylindrical housing with a lid and a bottom, a vertical shaft placed in the journal and thrust bearings, pipes entrance of cold and hot water outlet and the twisting device. Moreover, the inner wall of the housing is rigidly attached to a hollow disk-washer, located in parallel in the casing and connected hydraulically between a by-pass pipes, disks, washers, have through holes made concentric with and connected through pipes installed in the lid and the bottom of the case, with cold and hot water to the shaft rods rigidly attached to the glasses up with the holes in the bottoms and sides with radially attached semi-cylinders in two rows that are offset relative to each other for 10-15, and between the cups to the shaft rigidly attached conical disks with concentric holes, United pairwise rigidly interconnected by a ring of screws. The invention allows the use of hydraulic heat generator for heating the liquid. Sawano to heat water for hot water supply and heating.

Known hydraulic heat generator comprising an input torquing device that is connected to the housing of the vortex tube, the pipe outlet of the heated fluid, and the housing of the vortex tube and pipe drainage is installed on the opposite side of the input twisting device (RF Application for invention No. 97118346/06, CL F 24 D 3/02. BI No. 22, 1999, Russia).

Known heat is complicated by design.

Known rotary mass transfer apparatus, comprising a housing, a stationary plate and the rotor, and a rotating vertical shaft bottom down attached to glasses, to which radially attached energizers, made in the form nutriplex semicylinders (A. c. No. 398257, CL 01 D 3/30, BI No. 38, 1973, USSR).

Known apparatus is complicated in construction and is not intended for heating the liquid.

Closest to the proposed technical solution is mnogoobrazny plunger containing a cylinder with a lid, seal and plunger to which is attached a set of annular membranes (A. S. No. 375430, CL 01 D 3/30. BI No. 38, 1973, USSR).

Known apparatus is complicated in construction and is not intended for heating the liquid.

The design of the plunger is not intended for heating the liquid.

In the drawing bring the shape of the housing 1 with a cover 2 and a bottom 3, in which are respectively mounted thrust bearing 4 and the thrust bearing 5, with fixed them with a vertical shaft 6, having a top coupling 7 for receiving power (rotation). In the bottom 3 has a nozzle 8 of the inlet of cold water and cover 2 - pipe 9 out of hot water, associated, respectively, with cold and hot water supply (not shown). In the left part of the cover 2 is installed tube 10.

Inside the housing 1 a torquing device consisting of a hollow disk-washers 11, parallel to the height of the housing and hydraulically connected between a by-pass pipe 12. Drives-washers 1 are through holes 13 made concentric with and connected through tubes to the water systems.

The shaft 6 is rigidly attached to the cups 14 bottom down with holes in the bottoms and sides with radially attached semi-cylinders 15 in two rows that are offset relative to each other for 10-15. The top of the cups 14 is fastened to the shaft 6 by rods 16 to give them the total hardness. Between the cups 14 to the shaft 6 is rigidly attached housing disks 17 concentric with holes (not shown), United pairwise rigidly interconnected by a ring of screws 18. Wnuck inner wall of the housing 1, for example, by welding. Through holes 13 are made of sleeves, the ends of which are welded to the upper and lower sides of the disk-washers 11. Ring screws 18 are fabricated by welding to the metal rings, made for example from a pipe, on top of their spiral plate. To the outer surface of the plate by forming a welded both hull disk 17 by the shaft 6. Possible variant of the entrance of cold water through the pipe 9, and the output of hot water through the pipe 8 (counterflow).

The generator works as follows.

In the assembled heat through the tube 10 filled with high-viscosity liquid. Connect the pipes 8 and 9 to the cold and hot water using a coupling 7 to the drive motor, such as a wind turbine.

Including in the work drive motor, the shaft 6 of the heat generator, glasses 14 with the semi-cylinders 15, the conical disk 17 with the ring screws 18 will rotate in the housing 1 by converting mechanical energy into heat. The resulting friction heat is transferred from a high-viscosity fluid 19 hollow disk-washer 11, which is filled with water. When heated viscous fluid 19 70-80To open the valve to supply the hot water supply is from the bottom of the disc-washer 11 to the upper by-pass pipe 12 and out of heated through pipe 9 into the hot water supply system.

Through holes 13 made of bushings, increase the surface of heat between the heated viscous fluid 19 and cold water. Through holes 13 of the heated viscous fluid 19 will rise and circulate inside the body 1 of the heat source, effectively giving heat to the water.

The proposed hydraulic heat generator is compact, has a movable and fixed disks, the latter is made hollow for the passage through them of the heated liquid. The heat source can be used in three variants: the first variant is only with glasses and a semi-cylinders attached to the rotating shaft; the second is only paired with conical discs, bonded ring screws; the third is the glasses with the semi-cylinders and conical disks with ring screws (see drawing).

The implementation design of the heat generator in different ways gives the precondition for its wide application in various fields of the national economy.

Claims

The hydraulic heat generator, comprising a cylindrical housing with a lid and a bottom, a vertical shaft placed in the journal and thrust bearings, nozzles inlet and cold outlet g the s hollow disk-washer, located in parallel in the casing and connected hydraulically between a bypass tubes have holes made concentric with and connected through pipes installed in the lid and the bottom of the case, with cold and hot water to the shaft rods rigidly attached to the glasses up with the holes in the bottoms and sides with radially attached semi-cylinders in two rows that are offset relative to each other for 10-15and between the cups to the shaft rigidly attached conical disks with concentric holes, the United pairwise rigidly interconnected by a ring of screws.

 

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