IT201800006794A1 - Heater \ Radiant steam generator - Google Patents

Description

DESCRIPTION

Of the industrial invention entitled: Radiation steam heater \ generator

FIELD OF TECHNIQUE TO WHICH THE INVENTION REFERS:

The present invention finds application in the technical sector of thermohydraulics and relates to an electric heater / steam generator operating by irradiation.

BACKGROUND OF THE TECHNIQUE:

Steam heaters / generators known so far (such as electric or fuel boilers) have the drawback of having a high thermal inertia as they consist of chambers and cavities made with thick metal walls to be heated and contain quantities of water often exceeding the needs.

In addition, in the case of electric boilers, the electric heating element placed inside the boiler is in contact with the water and over time, especially in the case of steam generators, limescale deposits appear on said electric resistance which compromise the efficiency of the boiler. boiler itself.

In addition, over time the insulation of the heating element wears out and short circuits occur that make the device unusable

In fuel boilers, on the other hand, particulate deposits appear on the walls of the combustion chamber and also compromise their performance.

Heating the water or vaporizing it without having problems of high thermal inertia, limescale or particulate deposits, would be particularly advantageous in terms of electricity or fuel consumption, response times, and longevity of the heating and / or steaming apparatus

OBJECTIVE THAT THE INNOVATION INTENDS TO ACHIEVE: The invention obviates these drawbacks by providing a physical separation, therefore a non-contact, between water and the heating element (preferably consisting of a halogen cigarette type lamp with r7s attack or incandescent resistance to radiation ), a body that does not have chambers and cavities made with metal walls like the boilers known so far, but only a halogen lamp or radiant incandescent resistance and a spiral obtained by bending and wrapping a small diameter tube, preferably copper, around a rod that will be removed after bending, in such a way as to create coils in series without leaving space between one coil and another.

The number of turns will depend on the length that the spiral must have and the length of the spiral in turn is determined by the length of the halogen lamp or incandescent resistance to radiation that will be housed inside said spiral

The technical characteristics of the lamp or of the incandescent resistance to radiation will depend on the application of the invention, i.e. on the speed with which it is desired to heat and / or vaporize the water or any liquid and also on the quantity of water to be heated. a cigarette type lamp or incandescent radiant heater with a minimum power of 500watt

The halogen lamp or the incandescent resistance to radiation must be entirely hidden by the spiral so that all the energy radiated by said lamp or resistance does not come out of the spiral itself, irradiating each coil and therefore using all the radiation produced.

The tube with which the spiral is made will then be heated by radiation and will transmit the heat to the water that will be made to flow inside.

The water can be heated or vaporized to the desired temperature, depending on the use, by modulating or turning off the lamp or the resistance to irradiation through a suitable thermostat firmly placed on the coils, clearly the increase in water temperature depends directly on the time. of permanence of the same inside the spiral (as in the example of realization shown below)

At the desired temperature reached, the same thermostat will also give a signal to activate the pump which will make more water flow inside the spiral.

Given the low thermal inertia determined both by the fact that the pipe is made up of thin walls (of low thermal capacity) preferably of copper (because it is an excellent conductor of heat and has a good resistance to corrosion) and by the fact that inside this tube contains little water (therefore low thermal capacity) the energy emitted by the radiating body (halogen lamp or resistance to radiation) manages to heat and / or vaporize the water in less time and using less electricity than a normal one water heater.

For the realization of the body of the invention, the three factors of irradiation are considered in addition, namely: reflection, absorption and transparency, to obtain an optimal result all the energy of the radiation is absorbed by canceling the transparency coefficients and limiting the reflection coefficient to the limit. The transparency coefficient is obviously zero as the spiral will be made with a metal tube therefore not transparent, to minimize the reflection coefficient, the inside of the spiral will be painted in matt black with a paint resistant to high temperatures.

Therefore all the energy produced will be absorbed and the heat transfers to the external environment will be reduced to a minimum thanks to a thermal insulation that covers the outside of the coils, which can be made with a layer of rock wool or refractory material or low emissivity shielding (glossy screen) that firmly wrapping the entire spiral will hold the thermostat firmly on the coils.

The purpose of the present invention is therefore to heat and or vaporize the water, considerably reducing the waiting times for reaching the thermal regime compared to a normal boiler.

A particular object is that of not leaving, at the end of use of the invention, residual thermal energy accumulated inside it which remains unused, as instead occurs in common boilers which, once switched off, remain with a considerable quantity of water heated inside them.

A further object of the present invention is that of not keeping the heating and / or steaming machine in continuous preheating by eliminating losses due to thermal dispersion, thanks to the fact that, if necessary, the body of the invention is able to supply hot and / or hot water almost instantaneously. or steam as if it were a preheated boiler.

Another purpose is to obtain a longer life of the heating apparatus without its performance decreasing over time.

In addition, the halogen lamp or the incandescent radiant resistor will be interchangeable in the event that different performances are required or in the event or in the event of its breakage, said lamp or incandescent radiant resistor can therefore be replaced with minimal expense given the low cost and the ease with which it can be extracted from the inside of the spiral

BRIEF DESCRIPTION OF THE DRAWINGS:

In figure 1, “1” indicates the spiral inlet tube; “2” indicates the spiral outlet tube; “3” indicates the thermostat cable; “4” indicates the filament of the halogen lamp; "5" indicates the connection of the cigarette lamp (in this case of the R7S type); "6" indicates the circumferences depicting the coils in section; "7" indicates the body of the lamp; "8" indicates the layer of insulation made of steel wool; "9" indicates the thermostat placed on the last turns before the exit; “10” indicates the tube that constitutes the coils; "11" indicates the spacer rings made of ceramic that hold the lamp in a central position inside the spiral avoiding contact between the two parts, said rings will have an internal diameter slightly higher than the external diameter of the halogen lamp "7" and external diameter equal to the internal diameter of the spiral.

In figure2; “1” indicates the actual spiral not in section; the dotted part indicates the hidden parts inside the spiral or spacer rings and the luminous part of the lamp or the radiating part of the incandescent resistance to radiation.

Figure 3 shows two views of the casing of the body of the invention, a view of the longitudinal section and a top view depicting the bottom of the casing seen from the inside, where: "1" indicates the groove obtained on the edge in proximity the groove of the plug, for the water inlet pipe; "2" indicates the hole in the bottom for the heated water or steam outlet pipe; “3” indicates the hole on the bottom for the thermostat cable; "4" indicates the wire connected to the coupling located on the bottom; "5" indicate the couplings made of steel or brass, they are made by obtaining a base by making a non-through hole in the bottom wall into which a cylinder is inserted into which a spring and a steel or steel piston are inserted. rounded head brass to which wire “4” is welded / punched, the spring pushes the piston from the inside of the cylinder towards the coupling of the lamp indicated with the number “5” in figure 1; "7" indicates the groove for housing the cap, "10" indicates the hole for the locking pin; "8" indicates the part of the cap that will be inserted into the casing, "11" a groove where the rod of the pin "10" will pass, allowing it to be anchored, the "8" part of the cap is inserted inside the 'casing in correspondence with the groove “7”.

Points “6” and “9” indicate the sections of casing and cap respectively made with 5 mm thick ceramic walls; “12” is the fastening pin of the cap “9” and is shown in correspondence with the housing holes.

Figure 4 shows the body of the invention complete with its casing.

ANALYSIS OF THE RESULT ACHIEVED:

Further characteristics and advantages of the invention will become more evident in the light of the detailed description of a preferred embodiment (for small needs of hot water or steam such as a coffee machine) illustrated by way of non-limiting example with the help of merged drawing boards of which:

Figure 1 is a cross-section view of the body of the invention placed longitudinally, where "6" are the coils that make up the spiral made with a copper capillary tube having an internal diameter of 3 millimeters and an external diameter of 4 millimeters, as already described, the sizing of the components such as lamp and length of the spiral depend on the type of application and the speed with which you intend to heat and / or vaporize the water, also the internal diameter of the coils is determined by spacing the lamp one centimeter away from the spiral using the ring spacers "11" made of ceramic, while the tube will be wrapped around a rod having a diameter equal to the internal diameter that the spiral must have.

The water will be made to flow inside the coils indicated with "1" in figure 2, entering from the initial part "1" of figure 1; the thermal insulation "8" in figure 1 made for example of rock wool avoids the dispersion of heat.

The coils will be heated by radiation from a halogen lamp "7" which will transfer the heat by conduction to the water present inside them. In this example, the lamp will be of 500 watt cigarette type with R7S "5" connection placed inside the spiral. The temperature of the water inside the coils can be controlled by means of a special thermostat "9" placed on the last coils which will control the pump (or if necessary it will modulate the flow rate) and can modulate the lamp according to the required temperature, the position of the latter is determined by the fact that the water reaches the maximum temperature inside the last coils as its heat will increase from coil to coil.

To connect the lamp with the appropriate couplings, enclose the entire body of the invention by increasing the insulation from the external environment and to put it in safety, it will be housed inside a special enclosure made of ceramic illustrated in section in figure 3. internal diameter equal to the maximum external diameter of the body of the invention, including thermal insulation, of the walls "6" with a thickness of 5 millimeters and includes a cap "9" equipped with a coupling "5", for the lamp, made as described in description of the drawings with a wire "4" welded / punched, and a groove "8" that allows it to be inserted in the upper part of the casing having a groove "7" of tubular shape with a ceramic wall "6" and holes on the fund indicated with: "1"; "2"; “3” which are respectively the outlet holes of the inlet pipe, the outlet pipe and the thermostat cable

To anchor the cap "9" after having inserted it, insert the pin "12" in its housing "10" which will match the groove "11" of the cap "9"

By inserting the cap "9" of figure 3, the R7S couplings of the halogen lamp and the casing will match allowing the electrical connection of said lamp

Therefore, for any inspections, just remove the pin “12” and extract the cap “9” and pull out the body described in figure 1 or pull out only the lamp in case of breakage or if you want to use one of a different power.

The example provided in this description can be used in coffee machines or small sterilizers.

For greater needs of steam or hot water, a tube with a larger internal section must be used for the spiral, it is always preferable to use a tube with thin walls, in addition it will be necessary to use a more powerful halogen or incandescent resistance lamp but the shape, the arrangement of the various components, the materials used as well as the production process of the realization will remain unchanged, therefore the dimensions will change without leaving the domain of protection of the invention patent.

However, it is not recommended to use pipes with a diameter greater than a centimeter even with thin walls, it is rather recommended to hydraulically connect several heaters / steam generators (such as the one just described in the example) in parallel in order to obtain a higher quantity of hot water or steam or connect them in series to obtain higher temperatures.

The invention can be used to: replace normal boilers inside coffee machines, for small sterilizers, small steam generators, to vaporize medicinal principles For multiple fires needs of hot water or steam, more heaters / generators can be connected steam with parallel irradiation thus obtaining higher flow rates, as they can be hydraulically connected as modules.

From what has been described it is evident that the instrument according to the invention achieves the intended purposes.

The object of the invention is susceptible to numerous variables, all falling within the inventive concept expressed in the attached claims.

All the details can be replaced by other technically equivalent elements and the materials can be different according to the needs without going out of the scope of protection of the present invention.

Although the object has been described with particular reference to the attached figures, the reference numbers used in the description and in the claims are used to improve the intelligence and understanding of the invention and do not constitute any limitation to the scope of protection claimed

Claims (1)

CLAIMS Of the industrial invention entitled: Heater \ Radiation vaporizer 1) Device for heating a liquid and / or vaporization of a liquid comprising: a) A hollow cylindrical or prismatic body elongated to receive inside it, heat and / or vaporize the liquid, having thin walls, preferably 1 mm thick, more preferably less than 1 mm and an internal diameter preferably not more than 1 cm , more preferably with an internal diameter of between 3 and 5 millimeters b) An artificial radiant or light source to heat the elongated cylindrical or prismatic body c) Two spacer rings made of material having a low thermal conductivity d) A thermostat placed on the terminal part of the cylindrical or prismatic elongated body e) An insulating layer placed on the outside of the elongated cylindrical or prismatic body f) An enclosure which encloses all the components of the heater / steam generator and which allows the electrical connection of the radiant or artificial light source 2) Device according to claim 1, in which the heating and / or vaporization of the liquid inside the elongated cylindrical or prismatic hollow body are determined by the radiation provided by the radiant or artificial light source 3) Device according to claim 1, in which the cylindrical or prismatic elongated hollow body totally envelops the artificial light source through a multitude of coils enjoying all the radiation provided by said source. 4) Device according to claim 1, in which the elongated hollow cylindrical or prismatic body is bent in such a way as to form a cylindrical or spherical spiral which will allow, inside, the housing of the artificial light source; said cylindrical or hollow prismatic body can be chosen from: capillary tubes, small section tubes, quadrangular section tubes, rectangular section tubes 5) Device according to claim 1, in which the heat source is not in direct contact with the liquid and is not in direct contact with the elongated cylindrical or prismatic body containing the liquid itself 6) Device according to claim 1, in which the radiant or light source can be chosen from: halogen lamp, incandescent resistor 7) Device to heat and / or vaporize a liquid characterized by the fact that it does not have any accumulations of heated liquid or accumulations of steam to be heated in addition to that contained in the multitude of coils 8) Device according to claim 7, characterized by the fact that at the end of use it has no accumulated thermal energy other than that contained in the multitude of turns and which limits thermal waste to a minimum 9) Device according to claims 7 and 8, characterized in that it does not maintain continuous preheating as it provides instant heating and / or instant vaporization of the liquid 10) Heating and / or vaporizing device according to claims 1, 3, 4, 6 and 7 characterized in that it heats and / or vaporizes only the liquid contained within an elongated hollow cylindrical or prismatic body