GR1010547B - Hot usage and heating water boiler furnished with inertia tank - Google Patents

Abstract

The invention relates to a boiler (13) meant for the production of hot usage water (10) and heating water, which boiler has an inertia tank (1) connected to a solar collector (9). The inertia tank (1) has an outer container (2) with a lid, an inner container (4) with a metal lid (7) and insulating material (5) between them. On top of the metal lid (7) there is a detachable metal assembly with heat exchangers (6).

Description

DESCRIPTION

HOT WATER PRODUCTION BOILER AND WATER

HEATING WITH INERTIA FILE

THE FIELD OF TECHNOLOGY

The invention refers to the field of heating and more specifically to the field of water heating and even more specifically to the field of water heaters, which have heat generating means. In particular it refers to boilers, continuous flow heaters or water storage heaters. At the same time, it also refers to technologies or applications to deal with or adapt to climate change and in particular to the reduction of greenhouse gas emissions, related to the production, transmission or distribution of energy. Even more specifically it refers to the production of energy through renewable energy sources. Specifically, it refers to a boiler for the production of domestic hot water and heating water, with an inertia tank and with solar energy assistance.

THE HISTORY OF THE INVENTION

The subsequently disclosed domestic hot water and heating water boiler with solar energy assistance and inertia vessel has not been disclosed in the prior art.

To date, it is not possible for boilers with inertia vessels to visit their interior in order to repair, clean or even replace the heat exchangers. This causes significant problems both in the operation of the systems, as well as an increase in their maintenance and operation costs. Although many inert vessels have inspection hatches inside, these are not large enough to allow access to and extraction of the heat exchangers inside.

It is thus an object of the present invention to advantageously address the above-mentioned disadvantages and deficiencies of the prior art by proposing a boiler for producing domestic hot water and heating water, with an inertia vessel and with solar energy assistance.

A characteristic of the invention is the fact that the inertia vessel with the exchangers includes an outer vessel and an inner vessel, which is accessible, providing the possibility of extracting the heat exchangers, both for their replacement and for cleaning, inspection and repair of the interior of the interior of the inert vessel.

An advantage of the present invention is that it offers a boiler that draws energy from renewable energy sources and from a variety of conventional energy sources, such as from heat pumps, oil, natural gas, LPG, biomass boilers, wood boilers and also from fireplaces with a hydraulic connection.

A further feature of the present invention is that it offers a boiler for the production of domestic hot water and heating water, with the help of solar energy, which can be manufactured in a variety of sizes, from 300 to more than 5000 liters, meeting the needs of both private and commercial premises .

A further advantage of the invention is that it offers a boiler, with an inert vessel, which can have an outer jacket made of different materials, such as high strength steel plate with paint coating, stainless steel plate, copper plate or aluminum plate. Correspondingly, the inert container may have different options for its protection, which, among others, include coating with a sheet of stainless steel, aluminum, plastic or synthetic leather.

A further feature of the invention is the fact that the inert vessel has a choice of a number of insulating materials, such as, among others, injected polyurethane, elastomeric insulation, fiberglass jacket, stone wool, ceramic wool or expanded polystyrene. Another object of the invention is to present an inert vessel, which has arrangement with heat exchangers, which is detachable.

The object of the present invention is also the presentation of a boiler, with an inertia vessel, which can be connected both to a solar collector and to heating means and even to a heat pump.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawing, in which it is illustrated in an illustrative, non-limiting manner.

Figure 1 shows an indicative illustration of the boiler producing domestic hot water and heating water, with the inertia tank.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawing we will describe indicative applications of the hot water production boiler and heating water, with inertia tank and with solar energy assistance.

The system of the invention consists of an inert container (1) with an outer container (2), Fig. 1 , which is made of metal or of plastic, preferably of low density polyethylene. The dimensions of the outer container (2) depend on the respective capacity options required during the application. Perimeter, in the outer container (2), there are holes (3), for joining various sources with the inner container (4). Between the outer (2) and the inner container (4) there is a layer of insulation (5). The insulating material (5) contributes to the thermal insulation protection of the inner container (4), with the aim of the one-dimensional flow of heat towards consumption. The insulating material (5) may be of injected polyurethane, of elastomeric insulation, of glass wool mantle, rock wool, ceramic wool or even of expanded polystyrene. The inner container (4) is made of metal material, which can withstand pressure up to 3bar. Inside the inner container (4) there is a metal arrangement with at least one, but preferably two, detachable stainless steel heat exchangers (6). The heat exchangers (6) are made of flexible pipe and are configured in a serpentine winding. The metal assembly with the heat exchangers (6) is attached to the metal lid (7) of the inner container (4), with stainless steel connection supplies (8) for the connection to the solar collector (9) and to the consumptions (10) for the hot water for use. For the operation of the system, a hydraulic regulator (11) and a differential thermostat (12) are inserted between the solar collector (9) and the external container (2). Further between the opening lid of the outer container (2) and the metal lid (7) of the inner container (4), there is a gasket, capable of sealing the device, according to the temperature and pressure conditions under which it will operate.

In the holes (3) of the external container (2), the boiler (13) is connected for the operation of the system, while a heat pump (14) can also be connected, if this is foreseen or required by the installation. At the bottom of the outer container (2) there is a discharge point (15), which leads to the inner container (4) for emptying it whenever required, while there is also a thermometer (16) for monitoring the temperature inside the inner container (4).

When assembling the system, the metal assembly with the heat exchangers (6) is immersed in the inner container (4).

This means that for proper operation, but also to avoid corrosion, all metal elements must be coated with epoxy paint or resin. Correspondingly, the inner part of the inner container (4), in which there is the liquid heating medium, usually water, must be protected against corrosion and is therefore coated either with enamel, or with epoxy paint, or plasticized.

The opening covered by the cap at the top of the outer container (2) and the metal cap (7) of the inner container (4) allows the extraction of the metal assembly with the heat exchangers (6). In this way, the heat exchangers can be changed, as well as cleaning and maintenance of the interior of the inner container (4), whenever this is deemed necessary.

At this point it is noted that the description of the invention was made with reference to illustrative application examples, to which it is not limited. Therefore, any change or modification in the shape, dimensions, morphology, materials and construction and assembly components used, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the aims and objectives of the present invention.

Claims (1)

1. Boiler for the production of domestic hot water and heating water with an inert tank, where the inert tank (1) has an external tank (2) with an opening lid with stainless steel connections (8) for connection to a solar collector (9) and to consumptions ( 10) for domestic hot water, internal container (4) with metal lid (7) with flange and holes (3) for connection to boiler (13) and heat pump (14), and intermediate from the internal container (4) and the outer container (2) there is an insulating material (5), characterized by the fact that a metal device with heat exchangers (6) is located inside the inner container (4) attached to the metal lid (7) of the inner container (4), the which is detachable.