RU82301U1 - WATER HEATER - Google Patents

Abstract

1. A water heater comprising a hollow body made in the shape of a rectangular parallelepiped and having openings for liquid inlet and outlet, means for heating the liquid in the body, and located inside the body parallel to its narrow side walls and dividing the body cavity into flow channels, plates, height which are less than the height of the side wall of the housing, and the plates that are adjacent on one side to the lower horizontal wall of the housing, and on the other hand form a gap for the passage of fluid from the top horizontal wall, alternate with plates that are adjacent on one side to the upper horizontal wall of the housing and on the other hand form a gap for the passage of fluid with the lower horizontal wall, as a result of which a zigzag channel for fluid flow is formed inside the housing, characterized in that the heating means fluid includes two flat electric heaters installed on the outer surfaces of the opposing wide side walls of the housing, and on both surfaces of the plates, as well as on the inside on the surfaces of the narrow side walls of the housing are located across their entire width rows of adjoining or executed parallel to them parallel strips of figured profile, forming local swirls of fluid flow, and within each corresponding flow channel, said strips of the same row are offset with respect to the strips of the opposite row in a checkerboard okay. ! 2. The water heater according to claim 1, characterized in that all the flow channels have the same width. ! 3. The water heater according to claim 1, characterized in that the entrance hole is

Description

The utility model relates to heating systems operating on the principle of heating a fluid, and relates to the design of an electric water heater designed to provide commercial heat for an individual, cottage or multi-storey housing stock, rolling stock, railway cars and other special equipment, as well as in agricultural facilities, peasant farming. The use of the proposed water heater in temporary constructions, kiosks, change houses, country houses, garages, unheated basements, etc. will bring maximum thermal comfort with minimal energy costs. The water heater can be successfully used both in single-circuit and in multi-circuit heating systems and with the use of orthogonal, multi-tiered and parallel connection schemes.

A device for heating a liquid is known, comprising two parallel tubular U-shaped heat exchangers, inside of which a heating element with sealing units and power terminals is coaxially placed. Two adjacent ends of the heat exchangers are connected by a sealing unit, and the other two ends are connected through a second sealing unit with inlet and outlet pipes (RU No. 2220381, 2003). The known device does not provide a sufficiently long path for the passage of fluid through the heating zone, whereby the heat output of such a device is low. In addition, the device is not compact enough and has significant dimensions, which negatively affects its storage, transportation and operation, in particular in small areas.

A flow-through electric water heater is known, comprising a housing, an inlet and an outlet nozzle, and an electric heating module associated with these nozzles. The casing of the electric heating module is made in the form of panels formed by flat sheets, in each of which stampings are made. When connecting sheets vyshtampovki adjacent to each other and form channels

for the passage of fluid. An electric heating element is installed in the channels. The shape and length of the channels corresponds to the shape and length of the electric heating element (RU No. 2269068, 2006). The manufacturing technology of a flowing electric heater, in the panels of which the stamping is performed, necessary for the subsequent formation of channels for the passage of fluid, requires the use of special stamping equipment, as well as additional operations to connect the panels. At the same time, the connection of the panels by means of the fit of the stampings does not ensure the durability of the resulting unit for the flow of fluid in the electric heater: the places of contact (contact) of the stampings can open both during operation of the electric heater and inaccurate transportation and storage. The installation of an electric heating element in the channels for the passage of liquid makes it difficult to access it, for example, in case of breakage, and the constant presence of the electric heating element in the liquid entails the need for its special isolation from liquid penetration.

The closest analogue to the claimed water heater is a device for heating flowing liquids containing parallel to each other plates, between which are placed plates having a length less than the length of the sides of the parallel plates, and a shell. The plates parallel to each other, the plates placed between them and the shell form a zigzag flow channel. The plates located between the parallel plates are angled to them and are mounted in such a way that, together with the parallel plates and the shell, they form a channel of parallelogram section and are equipped with cavities for the passage of heat-containing gases. (RU No. 2310139, 2006). To increase the heat output in a known water heater, the plates forming a zigzag channel are installed at an angle to the body plates, as a result of which the dimensions of the water heater increase. The use of heat-containing gases entails the need to use plates of a certain design for the formation of cavities through which pass

heat-containing gases, and also limits the possibility of using a water heater, as requires a source of heat-containing gases.

The inventive utility model is aimed at solving the problem of creating such a small-sized and compact design of a water heater that is able to provide heat to closed rooms of various, including large, areas using various connection schemes.

The technical result that can be achieved by implementing the utility model consists in a significant increase in the temperature of heating the liquid and, as a result, in increasing the heat output of the water heater, in improving its manufacturability and operational characteristics, in convenience during storage and transportation, as well as in increasing reliability and the durability of the design of the water heater and the expansion of its operational capabilities.

To achieve the indicated technical result, a water heater design is proposed, comprising a hollow body made in the shape of a rectangular parallelepiped and having openings for liquid inlet and outlet (coolant), means for heating the liquid located in the body, and located inside the body parallel to its narrow side walls and separating body cavity into flow channels, plates, the height of which is less than the height of the side wall of the body. Plates that are adjacent on one side to the lower horizontal wall of the housing, and on the other hand form a gap for the passage of fluid with the upper horizontal wall, alternate with plates that are adjacent on one side to the upper horizontal wall of the housing and form a gap on the other side for fluid passage with a lower horizontal wall. As a result, a zigzag channel for fluid flow is formed inside the housing. The fluid heating means includes two flat electric heaters mounted on the outer surfaces of the opposing wide side walls of the housing. On both walls of the plates, as well as on the inner surfaces of the narrow side walls of the housing, rows of adjacent figured profiles adjacent to them or made at the same time as the local profile swirls are formed along their entire width, forming local fluid flow swirls. Within each

the corresponding flow channel, said planks of one row are shifted staggered with respect to the planks of the opposite row.

Mostly all flow channels have the same width.

Preferably, the fluid inlet and fluid outlet are located on one wide side wall of the housing in its opposite lower corner portions.

The figured profile of the strips may have a mushroom shape, as the most effective for giving the strips the function of flow swirls.

The maximum heating capacity of a water heater can be obtained provided that the distance between the inner surfaces of the wide side walls of the casing is equal to the thickness of these walls.

The utility model is illustrated by drawings, where:

figure 1 shows a General view of the water heater;

figure 2 - water heater, front view with the front wall removed;

figure 3 - water heater, side view, in section.

The water heater comprises a hollow body 1 having the shape of a rectangular parallelepiped and formed by wide side (front and rear) walls 2 and 3, narrow side walls 4 and 5, as well as the upper horizontal wall 6 and the lower horizontal wall 7.

On the wall 2 of the housing 1 there is an inlet 8 and an outlet 9, communicating with the cavity of the housing and located in opposite lower angular portions of the wall 2. An inlet 10 is connected to the hole 8 through which the liquid (coolant) is supplied to the cavity of the housing 1. K the outlet 9 is connected to an outlet pipe 11, through which the liquid (coolant) passed through the water heater is supplied to the consumer. The diameters of the holes 8 and 9 are equal.

Inside the casing and parallel to its narrow side walls 4, 5, plates 12 and 13 are installed, which divide the cavity of the casing 1 into communicating flow channels 14 of the same width. In this case, the side ends 15 of the plates 12, 13 are adjacent to the corresponding opposite inner surfaces of the wide side walls 2 and 3 of the housing 1. The height of each plate 12, 13 is less than the height of the side wall of the housing (2, 3, 4, 5). Plates 12 alternate with plates

13. In this case, the plates 12 are adjacent on one side to the lower horizontal wall 7 of the housing 1, and on the other hand form a gap 16 for the passage of fluid with the upper horizontal wall 6 of the housing 1. In turn, the plates 13 are adjacent on one side to the upper horizontal the wall 6 of the housing 1 and on the other hand form a gap 17 for the passage of fluid with the lower horizontal wall 7. As a result of the alternation of the plates 12 and 13 inside the housing 1, a zigzag channel is formed for the fluid flow.

The strips 20 are located on both surfaces (sides) 18 and 19 of each of the plates 12 and 13 along the entire width (along the entire width) of the plates. The strips 20 have a figured profile, the configuration of which is selected from the condition that the strips are given the function of local swirls of a fluid flow passing along a zigzag channel. The same strips 21 and 22 are on the inner surfaces of the narrow side walls 4 and 5 of the housing 1 and are located along the entire width of these walls. The strips 20 of the plates 12, 13 can be made integral with these plates or tightly adjacent to the surface surfaces of the walls of these plates. Correspondingly, the strips 21, 22 of the side walls 4 and 5 can be made integral with these walls or tightly adjacent to the surface of these walls. On each of the surfaces (plates or narrow side walls), the strips are parallel to each other (in parallel rows). Within each respective flow channel 14, the slats 20 of one row are offset with respect to the slats 20 of the opposite row. Advantageously, such a shift is staggered. Figure 2 shows one of the preferred configurations of the profile of the strips 20 is a mushroom shape, in the base of which pockets 23 are formed.

To heat the fluid flowing through the zigzag channel of the water heater, two flat electric heaters 24 and 25 are used, which are installed on the outer surfaces of the opposite wide side walls 2 and 3 of the housing 1. Each electric heater 24, 25 contains a sealed sheet metal body made of carbon or stainless steel steel, inside of which there is a heating element made of a material having high electrical resistance (nichrome wire, tape, etc.). The turns of the heating element are isolated from each other and from

enclosures with insulating material. The dimensions of each electric heater 24, 25 are selected so that its heating surface covers most of the surface of the corresponding wide side wall 2, 3. for example, spiral),

The water heater operates as follows.

Cold liquid (coolant) enters the water heater through hole 8 (Fig. 1), passes through a zigzag channel (fluid movement is indicated by arrows) and, when heated, exits through hole 9 to the consumer. When liquid passes through a zigzag channel due to the profile of the strips 20 in zones “A”, vortex formations appear, which are directed in the direction opposite to the main stream entering through hole 8. In this case, part of the flow passes through the channel, and part of it is delayed in time by a vortex in the zones local swirl "A". Throughout the entire zigzag channel, the flow overcomes a large number of vortex zones, due to which the speed of the main flow decreases, and a part of the flow returns to additional heating, which significantly increases the heating of the heat-carrying fluid. In addition, the use of profile strips provides the subsequent creation of microshocks of the main flow, which is very beneficial when the product is operated without a pump.

As established experimentally, the distance "a" (figure 2) from the profile of the strip 20 to the adjacent opposite surface should be equal to the diameter of the holes 8, 9 or more of this diameter. Most preferably, this distance should be equal to the specified diameter. If the distance "a" is greater than the specified diameter, then the efficiency of the water heater will be less. If the “a” value is less than the specified diameter, vaporization is possible, which is unacceptable.

The maximum heating capacity of the water heater can be obtained when the distance “L” between the inner surfaces of the wide side walls 2 and 3 of the housing 1 is equal to the thickness “H” of these walls. In this case, there is a zone "F" of increased heating (figure 2). The applicant has established this experimentally, and the occurrence of such a zone

using disk thermistors. Moreover, the most preferred value of each of the values of “L” and “H” is 4 cm.

As the coolant passing through the water heater, water (preferably rain), antifreeze used in heating, used automobile oils and aggregate oily automobile fluids, including brake fluid, can be used. It is preferable to install water heaters with coolants from used automotive fluids in those places where irregular use of the room is possible in the cold season (garages, kiosks, etc.). Automotive oily liquids have a greater heat capacity, and hence a greater temperature hysteresis, which is not unimportant in conditions of energy conservation.

Water heaters are divided into three groups according to power: 2000 watts, 3000 watts, 4000 watts. Water heaters with a power of 2000 watts provide, with a temperature difference between the street and the indoor room of 65 ° C, a comfortable temperature of 18-26 ° C in a room of about 100 m. Water heaters with a power of 3000 watts provide a comfortable temperature in a room of about 150 m under the same conditions ² , and water heaters with a capacity of 4000 watts - in a room with an area of approximately 200 m ² . Further increase in thermal power will occur through the use of orthogonal, multi-tiered and parallel switching systems or through the use of multi-circuit systems.

The water heater works with circulation pumps for heating systems, which in the shortest time provides a set of market temperature in heating radiators 60-80 ° C and the most uniform heating around the entire perimeter of the circuit.

A water heater can also be installed in the circuit of an existing heating system. In case of series connection with an existing solid fuel, liquid or gas boiler and the upper arrangement of the heated water supply pipes, the water heater can operate without a pump.

Claims (5)

1. A water heater comprising a hollow body made in the shape of a rectangular parallelepiped and having openings for liquid inlet and outlet, means for heating the liquid in the body, and located inside the body parallel to its narrow side walls and dividing the body cavity into flow channels, plates, height which are less than the height of the side wall of the housing, and the plates that are adjacent on one side to the lower horizontal wall of the housing, and on the other hand form a gap for the passage of fluid from the top horizontal wall, alternate with plates that are adjacent on one side to the upper horizontal wall of the housing and on the other hand form a gap for the passage of fluid with the lower horizontal wall, as a result of which a zigzag channel for fluid flow is formed inside the housing, characterized in that the heating means fluid includes two flat electric heaters installed on the outer surfaces of the opposing wide side walls of the housing, and on both surfaces of the plates, as well as on the inside on the surfaces of the narrow side walls of the housing are located across their entire width rows of adjoining or executed parallel to them parallel strips of figured profile, forming local swirls of fluid flow, and within each corresponding flow channel, said strips of the same row are offset with respect to the strips of the opposite row in a checkerboard okay. 2. The water heater according to claim 1, characterized in that all the flow channels have the same width. 3. The water heater according to claim 1, characterized in that the fluid inlet and the fluid outlet are located on one wide side wall of the housing in its opposite lower corner portions. 4. The water heater according to claim 1, characterized in that the figured profile of the slats forming the local fluid flow swirls has a mushroom shape. 5. The water heater according to claim 1, characterized in that the distance between the inner surfaces of the wide side walls of the housing is equal to the thickness of these walls.