RU212390U1 - Convection bath tub - Google Patents

Abstract

The device for heating the heat storage liquid consists of a furnace and a reservoir for water procedures. The cavity for the heat storage fluid and the tank are filled with water. The heating chamber is ignited using combustion materials that promote intense heat release. The hollow tubes are filled with water through the inlet and heated in the heating chamber, when boiling, the hot water in the tube channel enters the reservoir through the outlet of the tubes, thereby displacing cold water into the furnace cavity and filling its hollow tubes. Thus, there is a continuous convection circulation of water while maintaining the required temperature of the water in the tank, i.e. transfer of heat storage fluid from the zone of the highest temperature to the zone with a lower water temperature. The technical result is to create a device that allows you to maintain the same or a given temperature of water in the reservoir for water procedures. In addition, the technical result consists in increasing the efficiency of heat transfer of the heat storage fluid, as well as in efficient and fast heat transfer from the furnace to the device tank.

Description

The device can be used in industrial or domestic heating systems, for example, when heating a bath tub.

From the prior art, a device for heating a liquid is known, described in patent RU 196073, 02/14/2020, containing an external housing, a cavity, a chamber for heating a liquid fixed in the housing; the cavity is located between the outer casing and the chamber and is filled with liquid.

However, this device is inefficient when transferring heat from the heating chamber directly to the tank, since the highest required water temperature remains in the heating chamber, while only the lower layer of water is effectively heated in the tank.

The problem solved by the device proposed by us is to increase the efficiency when heating water in tanks of various volumes.

The technical result consists in the efficient transfer of heat from the furnace to the reservoir of the device.

The technical result is ensured by the fact that the device for water procedures contains a furnace with a heating chamber and a tank, while the furnace is equipped with a liquid cavity and a hollow tube placed in the heating chamber; the inlet of the tube is placed in the liquid cavity, and the outlet is directed towards the tank with the possibility of supplying liquid to the tank, while the tank is located above the furnace and provided with holes for connection with the liquid cavity.

The device for application of water procedures and heating of heat storage liquid consists of a furnace and a tank for water procedures.

The furnace contains an outer casing, consists of a liquid cavity, a heating chamber and hollow tubes. The furnace is configured to heat water in the range from 0 to 200°C.

The tank for water procedures can be made of any known material, such as stainless steel. The reservoir can be made in the form of a tub, vat or tank. The reservoir can have any geometric shape, any volume and size. The connection of the tank and the furnace of the device can be carried out by any method known from the prior art, for example, using a welded joint. The tank can be equipped with a bottom or not have a bottom, for example, instead of a bottom it can be equipped with a partition in the form of a lattice or have through holes in its lower part. At the same time, through holes located in the lower (bottom) part of the tank are connected to the cavity (cavities) of the furnace for efficient circulation of liquid, namely, cold (or cooled to a temperature below the set temperature) liquid from the tank into the furnace cavity. In addition, the tank can be equipped with any number of stiffening ribs, contain devices and elements for comfortable and efficient water procedures. For example, the tank may be equipped with a step or ladder, a seat, massage devices.

The outer casing can be made of any metal, such as stainless steel. The housing may contain a fitting for connecting shut-off valves and draining water. The body of the furnace can be made in the form of various geometric shapes, have any size.

The liquid cavity can have any volume and be located anywhere in the furnace of the device, for example, the cavity can be located between the outer casing of the furnace and the heating chamber. There can be an unlimited number of cavities in the furnace, based on the design features of the furnace.

The heating chamber (furnace) can be made of any metal, such as cast iron or steel. The heating chamber can be fixed in the oven in any way known from the prior art, for example, using a welded joint or riveting. The heating chamber can be made with a capacity of any volume of combustible materials. The camera can have any geometric shape and any size.

Hollow tubes (hydraulic tubes) can be made of any heat-conducting, heat-resistant material, such as copper or brass. Tubes can be made in any diameter and size. Each hollow tube is provided with an internal channel with an inlet and an outlet. The inlet of each tube is placed in the cavity for heating the liquid, and the outlet is directed towards the reservoir. The main part of each tube is fixed in the heating chamber. Fixation of the tubes is carried out by any method known from the prior art, for example, using a welded joint. In this case, the inlet and outlet openings of the tubes are located outside the perimeter of the heating chamber, so that the tubes are able to move the liquid along the internal channel from the cavity for heating the liquid through the heating chamber into the tank.

Versions of the device for the use of water procedures

The furnace can be made in the form of a separate heating block, without a heating chamber, while located in such a way as to connect the heating chamber and the reservoir. The tank can be located both above the furnace and on the side of the furnace or a separate heating block. In this case, the reservoir is made with the possibility of moving the liquid into the cavity. The outer body of the furnace, in a particular case of the device, is heat-resistant insulation from the external environment, which allows faster and more efficient heating of the liquid in its cavity. As a heated liquid, for example, water or another liquid consisting of impurities with water, which contributes to the purification and healing of a person - an infusion of medicinal herbs, balm, etc., can be used. In addition, the device for heating the liquid in the tank may contain elements of metals that have healing properties. The device may also have a support frame and other elements for fixing the device with respect to the plane on which the device is placed. The heating chamber may contain electrical heating elements, such as heating elements. The oven may contain one or more hollow tubes, for example 2 to 10 units. At the same time, the more hollow tubes, the more efficiently the specified water temperature in the tank is maintained, the efficiency increases accordingly, and the rate of heat transfer from the furnace to the tank increases. The number of hollow tubes is selected based on the design features of the furnace or the volume of the tank, as well as on the basis of the inner diameter of the tube.

A causal relationship between a set of essential features and technical results is provided as follows:

The cavity for the heat storage fluid and the tank are filled with water. The heating chamber is ignited using combustion materials that promote intense heat release. The hollow tubes fixed in the furnace are heated in the heating chamber, transfer the heated water from the cavity to the reservoir, while the water from the reservoir enters the cavity through the through holes made between the furnace and the reservoir, since the hollow tubes are filled with water through the inlet, and when When boiling, the hot water in the tube channel enters the tank through the outlet of the tubes, thereby mixing with cold water and displacing cold water from the tank into the furnace cavity, filling its hollow tubes. Thus, there is a continuous, convective circulation of water, maintaining the required temperature of the water in the tank, i.e. transfer of heat storage fluid from the zone of the highest temperature to the zone with a lower water temperature.

In various embodiments, the device may have many cavities, contain a chimney, a fitting (fitting) for connecting shutoff valves and draining water. The body of the device can be in the form of various geometric shapes, such as an oval, polygon or rectangle. The combustion chamber may take the form of various geometric shapes, for example, round, cylindrical or rectangular. At the same time, the dimensions of the chamber and its shape are selected based on the efficiency of using the device. The combustion chamber may contain an electric or gas heating element. Device elements can be made of any material, any size and shape. The structural arrangement of the elements of the device in relation to each other may also vary depending on the implementation of the device. The part for closing the combustion chamber can be provided with a handle. Fresh or sea water, essential oils or herbal tincture, etc. can be used as the heated liquid.

When assembling the device, a combustion chamber is installed in the internal space of the housing and connected to the housing using a welded joint. A cavity is formed between the housing and the chamber, which can be filled with water through a tank connected to the upper part of the housing or through a fitting installed in the device housing. Hollow tubes fixed in the furnace transfer heated water from the cavity to the reservoir, while water from the reservoir enters the cavity through through holes made between the furnace and the reservoir.

Claims (1)

A device for water procedures, containing a furnace with a heating chamber and a tank, while the furnace is equipped with a cavity for liquid and a hollow tube placed in the heating chamber; the inlet of the tube is placed in the liquid cavity, and the outlet is directed towards the tank with the possibility of supplying liquid to the tank, while the tank is located above the furnace and provided with holes for connection with the liquid cavity.