RU181519U1 - FLAT STORAGE HEATER HEATER TYPE - Google Patents

Abstract

The proposed utility model relates to devices for heating a liquid, and specifically to storage electric water heaters of pressure type with immersion heating elements. The technical result is to prevent the formation of corrosion while increasing resistance to high water pressure. The electric storage water heater contains a flat body, inside of which are placed two thermally insulated polyurethane foams round in the cross section of the water tank. Water tanks are interconnected and are connected to the external pipeline by stainless pipes, fused into their skeletons, made of polymer material with a thickness of 5-15 mm. 4 s.p. f-ly, 2 ill.

Description

Technical field

The proposed utility model relates to devices for heating a liquid, and specifically to storage electric water heaters of pressure type with immersion heating elements.

State of the art

The storage water electric heater is known from the prior art (see RU77399, class F24H1 / 00, publ. 2008 [1]).

This water heater contains a housing with one internal tank, a layer of thermal insulation, cold / hot water pipes and a heating element.

One of the main disadvantages of this type of water heaters [1] is the large size, requiring the corresponding installation area, as well as the large volume of the internal tank for heating, which requires a large amount of electricity.

The accumulator household electric heater is known from the prior art (see RU79988, class F24H7 / 00, publ. 2009 [2]).

This storage water heater contains two steel inner tanks insulated with polyurethane foam, coated with silicone from the inside, connected by a pipe, a steel outer casing and heating elements installed at the base of each tank.

The closest analogue of the proposed utility model can be considered a flat electric water heater (see RU65185, class F24H1 / 20, publ. 2007 [3]).

Known flat electric water heater contains a housing, inside of which are placed two thermally insulated polyurethane foam interconnected water tanks made of metal, on the inner surface, which is coated with an anti-corrosion polymer protective layer.

The main advantage of this type of electric heaters [2] and [3] is a compact flat body with a depth of 20 -35 cm with a volume of 30-100 liters.

Due to the unique compactness of this type of water heaters [2] and [3], maximum space savings are achieved during installation. This advantage is achieved due to the introduction of an innovative development, which consists in placing two stainless steel tanks inside the body of the water heater, which are interconnected by a pipe system.

The specified technical feature allows you to design the outer casing of water heaters flat, able to withstand high pressure, in addition, such water heaters are characterized by the versatility of installation, consisting in the possibility of their installation, both vertically and horizontally.

However, the considered constructive implementation of this type of water heaters, in particular [2] and [3] requires the use of special materials in the production process.

As a rule, flat water heaters are made with a housing made of structural plastic or polished mirror stainless steel. Internal interconnected tanks are made of stainless steel.

The latest versions of such water heaters are equipped with electronic control, providing the ability to select the power of work, all information about the system is displayed on the LCD display, and the presence of the self-diagnosis option allows you to control the occurrence of malfunctions, in particular, breakdown or overheating of the heater with a thermostat.

The considered water heaters [2] and [3] are very modern water heating systems, which have a number of advantages, which include versatility (due to the possibility of horizontal installation), compactness (due to the flat casing) and manufacturability, manifested in rapid heating water (due to the presence of two heaters) at the same time low power consumption, due to the sufficient efficient use of low power heaters.

But despite the advantages described above and the external attractiveness of this type of storage water heaters [2] and [3] they are still not without drawbacks.

Despite the fact that the inner tanks are made of high-quality stainless steel, they are nonetheless susceptible to corrosion, and this is due to the fact that according to the production technology they use high-temperature welding under the influence of alloying additives in stainless steel, which increase corrosion resistance - evaporate.

In addition, the disadvantages of these water heaters include the lack of constructive ability to use a sufficient thickness of the insulating layer of the inner tanks, which is necessary to minimize heat losses, which insignificantly, but still increase the energy consumption for heating water.

Utility Model Disclosure

The objective (technical problem) of the proposed utility model is to increase the technical and operational indicators of flat (compact) storage pressure-type electric water heaters.

The technical result of the proposed utility model, which is objectively manifested during its use, is the elimination of corrosion, while increasing resistance to high water pressure.

The specified technical result is achieved due to the fact that the electric storage water heater contains a flat body, inside of which are placed two thermally insulated polyurethane foam round water tanks in cross section, while the water tanks are interconnected and are connected to the pipeline (external pipes) by stainless steel tubes fused into them cores made of polymer material with a thickness of 5-15 mm.

According to one particular embodiment of the utility model, the containers on the outside are reinforced with fiberglass and / or stiffeners.

It is most preferable if the tanks are heated independently using immersed heating elements located in each of them.

According to one of the private, most preferred embodiments of the utility model, stainless pipes are made of metal or metal alloys.

 According to one particular embodiment of the utility model, stainless pipes are made of polymer material.

The design of the water heater body is flat, namely, having a considerable length and width with a small thickness, even without protrusions and recesses inside, which are insulated (separated from the body by heat insulation) round in cross section, interconnected containers - ensures the compactness of the heater during installation, while maintaining at a qualitative level, the main operational indicators characteristic of water heaters, such as, the time of heating the water, the amount of electricity consumed, cor Zeon resistance, and resistance to permanent high pressure water or to the water pressure surges in the central water system.

Due to the fact that the internal tanks are interconnected, as well as with the pipeline (inlet water supply, subsequent pipe distribution systems), stainless steel pipes fused into the skeletons (bodies) of the tanks create a single rigid monolithic internal structure that is able to function reliably for a long time under unstable conditions or increased water pressure, and the execution of the skeletons (cases) of containers made of thick-walled polymer material additionally strengthens the specified design and It has a special strength that can withstand particularly strong and sharp surges in water pressure that occur in the central water supply.

In addition, the implementation of the cores (cases) of internal containers, as well as stainless connecting pipes made of polymer material, including thick-walled ones, the problem of corrosion is solved, the formation of corrosion on stainless steel connecting pipes made of alloy metal is also prevented, as they are fused into the body (core) containers, which eliminates the damage to alloying additives that occurs during high-temperature welding.

Thus, as a result of the fact that the electric storage water heater contains a flat casing, inside of which are two thermally insulated polyurethane foam round containers in the cross section, and also as a result of the fact that the mentioned containers are interconnected and connected to the pipeline (water supply, distribution pipe feeding system) stainless steel pipes fused into their skeletons (container bodies), which (skeletons) are made of polymer material with a thickness of 5-15 mm, the formation of cor rosii, as well as increasing the stability of the structure to high water pressure.

The indicated features of the proposed electric storage water heater form a set of essential features necessary and sufficient to achieve technical-related effects, which are related to each other, by preventing corrosion and increasing the structural stability to increased water pressure, which in turn solves the problem (technical problem) increase technical and operational indicators of flat (compact) storage pressure electric water heaters the second type.

Brief Description of the Drawings

In FIG. 1 shows an embodiment of the proposed water heater with tanks reinforced with stiffeners;

In FIG. 2 shows an embodiment of the proposed water heater with containers reinforced with fiberglass.

Utility Model Implementation

The proposed utility model is illustrated by a specific implementation example, which, however, is not the only possible, but clearly demonstrates the achievement by the presented set of essential features of the indicated technical and causal relationships.

In FIG. 1 and FIG. 2 presents the following parts and elements of the proposed electric storage water heater:

1 - flat body;

2 - heat-insulating polyurethane foam layer;

3 - connecting pipes;

4 - inlet pipe;

5 - output pipe;

6 - immersion heating elements;

7 - control unit;

8 - internal containers of polymer material;

9 - reinforcing ribs;

10 - reinforcing fiberglass;

11 - adapters inlet and outlet nozzles 4 and 5.

According to the concept of the proposed utility model, the electric storage water heater comprises a flat casing 1, inside of which are located two internal containers 8 for water that are insulated with a polyurethane foam layer 2.

In cross section, two water containers 8 are made round.

Two water tanks 8 are interconnected by connecting pipes 3, and with the pipeline / external pipes (water supply, distribution pipe feeding system), the inlet pipe 4 and the outlet pipe 5.

The connecting pipes 3, as well as the inlet pipe 4 and the outlet pipe 5 are made of alloyed metal and fused into the polymer skeletons (cases) of the internal containers 8 of a thickness of which (skeletons) is 5-15 mm.

Water tanks 8 can be reinforced with stiffeners 9 or fiberglass 10 or a combination thereof.

It has been experimentally established that the thickness of the polymer material of the inner water tanks 8, component 5-15 mm, provides optimal stability of the compact design of the water heater to high water pressure, as well as to sharp jumps in the water pressure in the water supply network, and also has a direct preventive effect on possible corrosion on the pipes made of alloyed metal 3, 4 and 5, since they are not welded to the water tanks 8, but are fused into them, the thickness of the cores to otory 5-15 mm provides their ultra-rigid and accordingly reliable fastening.

The proposed utility model is as follows.

The manufacture of the housing 1 of the proposed pressure electric heater flat, i.e. having a considerable length and width with a small thickness, even without protrusions and recesses inside, which are two insulated with a layer of 2 polyurethane foam round in cross section, interconnected internal containers 8 - provides compactness of the pressure electric heater during installation, while maintaining the main quality performance indicators typical for pressure storage type electric water heaters, such as the time of heating the water, the amount of electricity consumed and, corrosion resistance, as well as resistance to constant high water pressure or to pressure surges in the central water supply.

As a result of the fact that the two inner tanks 8 are interconnected by connecting (overflow) pipes 3, and also connected to the pipeline / external pipes for water (plumbing, distribution pipes for water supply) inlet and outlet pipes 4 and 5 made of alloyed metal, fused into the cores (shells) of the internal water tanks 8 — a single rigid monolithic internal structure is created, which is able to function reliably for a long time under conditions of unstable or high water pressure, and the execution of the cores (hulls) of the inner containers 8 for water from thick-walled polymeric material additionally strengthens the specified design and gives special strength that can withstand especially strong and sharp surges in water pressure that occur in the central water supply.

In addition, the execution of the cores (shells) of the inner containers 8 for water from thick-walled polymer material solves the problem of corrosion, the formation of corrosion on the connecting metal stainless pipes 3, 4 and 5 is also prevented, as they are fused into the body (frame) of the inner containers 8 for water , which eliminates the damage to alloying additives that occurs during high-temperature welding.

Thus, the desired technical results are achieved thanks to the formulated set of essential features, clearly presented below:

- the electric storage water heater comprises a flat housing 1, inside of which are placed two heat-insulated layer 2 of polyurethane foam, inner containers 8 round in cross-section, for water;

- internal water tanks 8 are interconnected and connected to the pipeline / external pipes (inlet water supply, outgoing pipe distribution system) using stainless connecting, inlet and outlet pipes 3, 4 and 5, respectively;

- stainless pipes 3, 4 and 5 are fused into the skeleton (body) of the inner water tanks 8, which is made of polymer material 5-15 mm thick.

In this case, the technical result, which consists in eliminating the formation of corrosion, and the technical result, which is able to withstand high water pressures, are interconnected, including a causal relationship, since they are objectively manifested during the operation of the proposed electric heater and are inevitably taken into account by a specialist.

The proposed compact electric storage water heater will find wide application in the field of providing hot water for domestic and industrial facilities with cold water supply.

Claims (5)

1. Electric storage water heater containing a flat body, inside of which are placed two thermally insulated polyurethane foam round in cross section water tanks, characterized in that the water tanks are interconnected and are connected to the external pipe by stainless steel tubes fused into the cores of these containers, while the cores are made of polymer material with a thickness of 5-15 mm. 2. Electric water heater according to claim 1, characterized in that the water tanks are reinforced with fiberglass and / or stiffeners. 3. An electric water heater according to claim 1, characterized in that the water tanks are heated independently of each other. 4. Electric water heater according to claim 1, characterized in that the stainless pipes are made of metal or its alloys. 5. An electric water heater according to claim 1, characterized in that the stainless pipes are made of a polymer material.

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