CS213441B1 - Non-pressurized accumulator and heater of useful defect with indirect and heating - Google Patents

Abstract

The purpose of the invention is to create an improved design of a useful water heater, where the storage tank is pressureless and the heater has a smaller weight. This purpose is achieved by placing in the storage tank, not filled with storage fluid, a first heat exchange insert, not connected to the cold useful water supply and to the heated useful water distribution, and a second heat exchange insert, connected to the supply heating pipes and the return pipe. The remaining heat exchange insert can be replaced by an electric heating element.

Description

The invention relates to a non-pressurized storage water heater β by indirect heating.

Up to now, the storage water heaters have been sensed by accumulation in heated water or heating water, which is located in a pressurized, usually cylindrical vessel. In the first case, a heating insert is connected to the hot water pressure tank, which is connected to the hot water distribution system, or to the steam and condensate pipes, or an electric heating insert is inserted into the pressure tank. In the second case, a heating insert is inserted into the pressure tank, which is connected to the cold water supply from the heated water distribution and the inner space of the pressure tank is connected to the heating distribution. The disadvantage is that the pressure tank must have a considerable wall thickness and a cylindrical or spherical shape, which increases the weight, complicates the layout when placing the hot water tank, especially near its consumption, such as basements, basement rooms, auxiliary service areas and the like. , makes assembly and transport more difficult. It is rarely possible to replace such storage heaters without creating temporary assembly passages associated with β demolition and construction work. Another disadvantage of the previously known domestic hot water storage heaters is that the storage liquid in the storage tank stagnates or flows only at low speed, so that the heat transfer is less intense and when the storage water is heated, the storage tank and heater are clogged by impurities and precipitated salts. In this case, oxygen is also released from the supplied water, which causes intensive corrosion of the heating element and the pressure jacket of the container.

The above-mentioned drawbacks are eliminated in the non-pressurized indirect domestic hot water storage heater according to the invention, characterized in that the first heat transfer insert is connected in the non-storage vessel not filled with storage liquid, connected with one end to the cold water supply and the other to heated domestic water and a second heat exchanger, connected with one end to the heating supply and the other to the return. According to a preferred embodiment, the second heat exchange insert is replaced by an electric heating element. The heat transfer medium heats the storage fluid through the second heat exchange insert, or by electrical energy through the electric heating element, and from this the service water flowing through the first heat exchange insert is heated.

The advantages of the solution according to the invention are that only the first heat exchanger element must be dimensioned for the pressure of the heated water and only the second heat exchanger element for the pressure of the heat transfer medium. The storage tank can be designed as a rackless, with a low wall thickness and in a shape that optimally suits the layout. The weight of the heater is smaller, its production is simpler and an arbitrarily large heater can be assembled from several smaller heaters, cells of a single production type, or from a small number of production types into a suitable and compact shape. This facilitates the layout, transport and assembly even in confined spaces and has a positive effect on the simplification, assembly and industrialization of the production, as it is possible to carry out thermal insulation for smaller heaters. The heated water does not ignite and does not become clogged with impurities from the heated water. The accumulation is carried out in water which can be treated against corrosion, or in another suitable non-corrosive substance, so that corrosion is limited to the inner surface of the first heat exchange insert. The flow of both the heated water and the storage liquid is intense, which favorably affects the magnitude of the heat transfer coefficients, there is no danger of contamination of the condensate from the heating steam by the raw heated water, since both substances are separated by the storage liquid at lower pressure. By splitting the storage tank into a plurality of smaller tanks, it is possible to connect them appropriately

213 441 to ensure better cooling of condensate or heating water, which will have a beneficial effect on increasing the transmission capability of the heating network and increasing the heat production of electricity.

The accompanying drawings show exemplary embodiments of a non-pressurized storage water heater with indirect heating, where not shown in FIG. with indirect heating.

The unpressurized storage water heater and indirect heating according to FIG. 1 consists of an accumulation vessel 1 filled with storage liquid of the first heat transfer insert 3, connected one end to the cold water supply 6 and the other end to the hot water distribution network, the second heat exchange insert 6 connected. one end of the supply heating system 2 and the other end of the return system 8, or the second heat exchange element 6 is replaced by an electric heating element 6. The temperature of the storage fluid is controlled by a control circuit 10 with a control valve 11, respectively heating element

In addition, an overflow 17 and a vent 18 can be installed in the accumulation vessel 1.

Pressureless storage heater hot water according to Figure 2 consists of four smaller heaters, cells interconnected on the side of the heated water and fluid couplings ekumulační 13.12 ⁸ not connected heating distribution inlet 2 and the clutch 14 into a reciprocating distribution of eight connectors 12,16. · ^U without 2, the first heat exchangers 2, in which the domestic water is heated, are connected in series to the cells placed one above the other, so that the heat of the accumulation fluids in the lower element can be lower and the heat transfer can be better cooled The second heat exchange insert 6 can also be added in series to better cool the heating water or condensate.

Claims (2)

SUBJECT OF THE INVENTION 1. A non-pressurized indirect storage water heater comprising an accumulation vessel, characterized in that a first heat exchange insert k3), connected to a cold service water inlet 14) and to a distribution system, is located in an accumulation vessel <1) filled with storage fluid 12). (.5) heated utility defects and a second heat exchange insert kb) connected to the inlet heating pipe (7) and the return pipe (8). 2. A pressure-free storage heater according to claim 1, characterized in that the second heat exchange insert (6) is replaced by an electric heating element (9).