RU7479U1 - FUEL HEATER - Google Patents

Abstract

A fluid heater comprising a housing with a suction and discharge nozzles, inside which a drum interacting with the drive is installed, equipped with spaced ribs, and a stationary disk having channels in its cavity, characterized in that the fixed disk contains ribs placed with a gap in the interval between the ribs of the drum, made identical to the first in the form of concentric cylinders rigidly connected to it, and its channels have the form of through holes located on the surfaces of the ribs, this axis of the holes of the adjacent ribs of the disks and the drum are offset relative to each other.

Description

FUEL HEATER

The utility model relates to a power system, namely to devices for heating a liquid coolant and can be used in housing and communal services, in heat supply, as well as in other areas of industry where there is a need for heating a fluid medium.

A centrifugal heater is known, it has a housing, inside of which there is a flat rotor interacting with the drive, made in parallel disks, on the shaft, (Japan, application N 2-27578, M class F 24 J 3/00 1990)

However, the known centrifugal heater is not very effective, since the heating of the fluid is carried out by friction with the latter on the disks when it is moved under the action of centrifugal force along the gaps between the rotating disks. The greatest effect during the operation of this heater can be achieved using a high viscosity fluid.

The closest in technical essence is a pump heater for flowing O) food, containing a housing with suction and outlet pipes, inside of which are installed full, a drum interacting with the drive and having spaced ribs of complex configuration, and a fixed disk having channels located inside the drum ( Pat. N1329620, M. KJL F 24 J 3 / 00.1982 year).

A disadvantage of the known pump - a fluid heater is the complexity and low-tech design of the fixed dask and drum designs, the special configuration of its ribs, the design of which allows the fluid q) to heat up due to the formation of zones (by the number of ribs) of the pressure differential in the process of interaction between the surfaces of the fixed disk and drum.

An increase in the number of such zones to increase the efficiency of a single heater will invariably entail an increase in the dimensions of the heater.

the manufacturability of its manufacture by using a rational design of fins with holes that increase the heat transfer surface and create pressure fluctuation zones that contribute to an increase in the temperature of heating of the fluid.

The essence of the proposed fluid heater is that in the fluid heater, comprising a housing with suction and discharge nozzles, inside which are installed interacting with the drive, a drum having ribs placed at intervals, and located in its cavity having channels, a fixed disk is provided ribs placed with a gap in the interval ucisfsy of the ribs of the drum, made tentatively first in the center of the rigidly connected concentric cylinders, and its channels are made in the form of through holes, equal to aspolozhennyh surfaces of ribs RCT otvertishsya this axis adjacent the disc and the ribs of the drum are displaced relative to each other.

The essence of the utility model is illustrated by the drawings, in which FIG. 1 shows the general internal air supply of the heater, FIG. 1

The fluid heater comprises a housing 1 (Fig. 1.2), the outer surface of which is provided with a thermal insulation (not shown in the drawing), which has all the required 2 and 3 outlet pipes. Inside the housing 1 there is a drum 4 mounted on the shaft 5 with the possibility of receiving the greatest momentum from the drive (not shown in the drawing) and a fixed disk 6 attached to the housing 1. The drum 4 is provided with ribs 7 and 8 and is installed in the housing 1 so that its ribs 8 are placed with gaps B, C in the hedgehog interval by ribs 9 of the fixed disk 6. The ribs 8,9 are made in the interior of concentric shchivdry, rigidly connected to the drum 4 and the fixed disk b, respectively, and have holes D equally spaced on their surfaces, and the holes D ribs x 8 are offset, relative to the holes in the ribs 9, by N.

The fluid heater works as follows: When the drive is turned on, torque is transmitted through the shaft 5 to the drum 4. 0; 1 at a time through the suction pipe 2, liquid enters into the housing 1, which is trapped by the ribs 7 and moves along the surface of the ribs 9 of the fixed plate 6. Through holes D and the gap B, the thickness falls into the gap C, dangling along it, carried away by the rotating edge 8 of the drum 4, it reaches the hole D, and also through the gap B enters the next gap C.

Passing in this way, washing, washing all the surfaces of the ribs, 8.9 enters the branch pipe 3.

from the same direction with different angular velocity, since the part of the flow carried away by the rotating ribs 8 moves with one angular velocity, and the speed of the other part of the flow bordering the fixed ribs 9 is reduced due to the braking of the fixed surface of the rib 9. The one mishotok glides on another . In addition, the compressed liquid in the gap C, encountering holes D on the way, rushes into them under the action of centrifugal forces and hits the surface of a nearby rib, since the holes of both ribs are offset from each other by H. By swirling, the fluid rushes into the next gap C. In the openings D, the expansion of the flow of compressed liquid, zones of local increased and decreased pressure are formed, which causes the effect of local boiling of oil.

All these processes associated with the movement of the tissue thickness along the surfaces of the ribs, the internal friction of the fluid flows in the gaps B and C, pressure fluctuations during the passage of fluid through the holes D turns the accumulated kinetic energy of living into heat, which contributes to an increase in its temperature.

The proposed fluid sfeda heater, in comparison with the known fluid heating pump, allows increasing its outlet temperature in the outlet pipe due to the rational design of the heater, in which the heat exchange surface is significantly increased. Flowing o) food, in addition to the heat injected by its excess energy when moving into the heater, also removes the heat of the working surfaces of the disk elements and their ribs, as well as the internal heat of the ribs, washing their surfaces with 3 (YORON AND passing through their many openings .

Patent Specialist / EAOrlova

Claims (1)

A fluid heater comprising a housing with a suction and outlet pipes, inside which a drum interacting with the drive is installed, provided with spaced ribs, and a stationary disk having channels in its cavity, characterized in that the fixed disk contains ribs placed with a gap in the interval between the ribs of the drum, made identical to the first in the form of concentric cylinders rigidly connected to it, and its channels have the form of through holes located on the surfaces of the ribs, this axis of the holes of the adjacent edges of the disks and the drum are offset relative to each other.