EP3412977B1 - Strahlendes modul zur formung eines strahlungskörpers - Google Patents
Strahlendes modul zur formung eines strahlungskörpers Download PDFInfo
- Publication number
- EP3412977B1 EP3412977B1 EP18173805.5A EP18173805A EP3412977B1 EP 3412977 B1 EP3412977 B1 EP 3412977B1 EP 18173805 A EP18173805 A EP 18173805A EP 3412977 B1 EP3412977 B1 EP 3412977B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- hollow body
- radiant
- holes
- module
- sides
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Links
- 239000012530 fluid Substances 0.000 claims description 27
- 238000007789 sealing Methods 0.000 claims description 10
- 238000007599 discharging Methods 0.000 claims description 7
- 125000006850 spacer group Chemical group 0.000 claims description 6
- 230000015572 biosynthetic process Effects 0.000 description 5
- 239000000463 material Substances 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- 238000003466 welding Methods 0.000 description 3
- 230000033001 locomotion Effects 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000037237 body shape Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 239000006185 dispersion Substances 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 230000000284 resting effect Effects 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
- F24D19/06—Casings, cover lids or ornamental panels, for radiators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H3/00—Air heaters
- F24H3/002—Air heaters using electric energy supply
- F24H3/004—Air heaters using electric energy supply with a closed circuit for a heat transfer liquid
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H3/00—Air heaters
- F24H3/02—Air heaters with forced circulation
- F24H3/04—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element
- F24H3/0405—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H3/00—Air heaters
- F24H3/02—Air heaters with forced circulation
- F24H3/04—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element
- F24H3/0405—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between
- F24H3/0411—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between for domestic or space-heating systems
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D1/00—Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators
- F28D1/02—Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid
- F28D1/04—Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits
- F28D1/053—Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight
- F28D1/0535—Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight the conduits having a non-circular cross-section
- F28D1/05358—Assemblies of conduits connected side by side or with individual headers, e.g. section type radiators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F3/00—Plate-like or laminated elements; Assemblies of plate-like or laminated elements
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D2220/00—Components of central heating installations excluding heat sources
- F24D2220/20—Heat consumers
- F24D2220/2009—Radiators
- F24D2220/2018—Column radiators having vertically extending tubes
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D21/00—Heat-exchange apparatus not covered by any of the groups F28D1/00 - F28D20/00
- F28D2021/0019—Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for
- F28D2021/0035—Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for for domestic or space heating, e.g. heating radiators
Definitions
- This invention relates to a radiant module for the formation of a radiant body.
- the invention relates to a radiant module as defined in the preamble of claim 1, and as illustrated in US 3 942 587 A .
- a radiant body is a known apparatus which, positioned inside a confined space or inside room, is designed to increase or maintain a predetermined temperature in the room.
- the radiant bodies comprise, usually, a plurality of modules side by side (the number depending on the total size of the radiant body and the desired operating capacity) and connected to each other in a sealed fashion.
- a heat carrier fluid heated to a predetermined temperature by a thermal energy source, such as, for example, a boiler, flows inside the modules of the radiant body.
- the radiant body therefore forms part of a water circuit in which the heat carrier fluid circulates.
- the current hydraulic circuits comprise a thermal energy source, such as, for example a boiler, which heats the heat carrier fluid, which is then made to circulate in the radiant body.
- a thermal energy source such as, for example a boiler
- the heat carrier fluid is water and the circulation of the heat carrier fluid is actuated thanks to the use of a pump.
- the modules can be connected permanently, by welding, or coupled to each other during assembly through a connection element and a plurality of seals.
- the connecting elements are tubular conduits which also act as conduits for supplying and discharging the heat carrier fluid.
- the first constraint relates to the shape of the modules of the radiant body: This restraint derives from the fact that the exchange surface between the heat carrier fluid and air is not determined according to predetermined directions, but occurs freely depending on the current flows of the air present in the room.
- the second constraint concerns the structure of the modules of the radiant body. This constraint derives from the fact that, even though the use of material with a high coefficient of heat exchange would improve the performance of the radiant body, the latter, in to obtain a high thermal efficiency, could reach temperatures which are too high, with high operating costs and possible wear of the radiant body in a short time.
- the aim of this invention is to provide a module for a radiant body which overcomes the above-mentioned drawbacks.
- a further aim of this invention is to provide a module for the formation of a radiant body which can increase the performance in terms of heat exchange.
- Another aim of this invention is to provide a module for the formation of a radiant body which is able to modify and improve the external design independently of the thermal efficiency and the heat exchange surface area.
- Another aim of this invention is to provide a module for the formation of a radiant body wherein the choice of the materials of the module is independent of the safety problems of the rooms in which it is applied.
- the reference numeral 1 denotes in its entirety a radiant module according to the invention and which can be used for the formation of a radiant body 5 designed to increase or maintain a predetermined temperature in the room in which it is positioned.
- the radiant module 1 comprises a first hollow body 3.
- the first hollow body 3 is defined by a front wall 301, a rear wall 302, two sides 303, a top end 304 having a pair of holes 308 made on the corresponding sides 303 and a bottom end 305 having a pair of holes 308 made on the corresponding sides 303.
- This first hollow body 3 defines the component, in use, for the passage of a heat carrier fluid.
- the radiant module 1 comprises a second hollow body 2 or cover casing inside of which is entirely contained the first hollow body 3.
- the second hollow body 2 has a front wall 201, a rear wall 202, two sides 203, a top 204, having an air discharge section B and a pair of holes 4 made on the corresponding sides 203 and a bottom 210 having an air intake section A and a pair of holes 4 made on the corresponding sides 203.
- the second hollow body 2 is configured for generating an inner zone which is able to define a channel C2 for controlled flow of the air from the intake section A of the bottom towards the discharge section B of the top 204.
- each module 1 has a first hollow body 3 with the function of a radiant element (the heat carrier fluid passes through this element), whilst the second hollow body 2 acts as a convertor of air from the bottom upwards (as described in more detail below) with a "flue" effect so that the low temperature air flows from the bottom and the heated air flows from the top.
- the radiant module 1 allows three axes of extension to be identified:
- an embodiment of the first hollow body 3 comprises a upper chamfer 306 which connects the front wall 301 to the top end 304 and a lower chamfer 306' which connects the front wall 301 to the bottom end 305.
- the first hollow body 3 comprises four vertices 307.
- the first hollow body 3 defines an inner surface 3A, represented by the sum of the surfaces facing the inner volume of the first hollow body 3, an outer surface 3B represented by the sum of the surfaces facing towards the second hollow body 2, and a thickness p3.
- the first hollow body 3 has a pair of passage holes 308 made on its opposite sides 303 and in the upper part defining the first top end 304, and in such a way as to be opposite and coaxial with each other.
- the first hollow body 3 also has two other passage holes 308, which are made on its opposite sides 303 in the lower part, defining the second bottom end 305, and in such a way as to be opposite and coaxial with each other (see also Figures 4A and 4B ).
- passage holes 308 are configured for being coupled with the supply conduit 501 and with a discharge conduit 502 of the heat carrier fluid.
- the first hollow body 3 comprises, at the passage holes 308, a corresponding seat for housing the seals (not illustrated) of the two supply 501 and discharge 502 conduits.
- the first hollow body 3 has a substantially parallelepiped shape.
- the first hollow body 3 has a substantially tubular shape folded back on itself in such a way as to form a coil which increases the heat exchange surface (not illustrated).
- the first hollow body 3 comprises a material with a high coefficient of heat exchange in such a way as to increase the heat exchange efficiency without running the risks of the high temperatures which can be reached (thanks to the cover of the second hollow body 2).
- the second hollow body 2 comprises a front wall 201, a rear wall 202, two sides 203, a top 204 and a bottom 210.
- the bottom 210 of the second hollow body 2 has an inlet section A which is larger than the discharge section B of the top 204 for drawing in the air from the room and forcing it to flow into the flow canal of C2 identified by the respective walls of the first 3 and second 2 hollow body in the direction F which proceeds from the intake section A to the discharge section B.
- the bottom 210 is fully open in such a way as to obtain an intake section A as large as possible.
- the second hollow body 2 comprises a chamfer 205 which connects the front wall 201 to the top 204.
- the module 1 comprises six vertices 206.
- the second hollow body 2 has the pair of passage holes 4 made on the corresponding opposite sides 203 in the upper part defining the top 204, and in such a way as to be opposite and coaxial with each other.
- the second hollow body 2 also has two other passage holes 4 made on the corresponding opposite sides 203 in the lower part, defining the base 210, and in such a way as to be opposite and coaxial with each other.
- first 3 and the second 2 hollow body have the two pairs of holes 308, 4 made on the corresponding top end 304, top 204 and bottom end 305, bottom 210 positioned, with the module 1 assembled, coaxial with each other to define a corresponding single through channel which can be engaged by the supply conduits 501 and discharge conduits 502 of the heat carrier fluid.
- the two pairs of holes 4 of the second hollow body 2 have a diameter D4 greater than the diameter D308 of the corresponding two pairs of holes 308 of the first hollow body 3 (see Figure 2C ).
- This feature makes it possible to always verify the sealed closing zones (and the seals, as described in more detail below) of the first hollow body 3 when engaged by the supply and discharge conduits of the heat carrier fluid.
- the second hollow body 2 comprises a material with a low coefficient of heat exchange in such a way as to reduce the thermal losses.
- the second hollow body 2 may also be made of wood.
- the second hollow body 2 defines an inner surface 2A, represented by the sum of the surfaces facing the inner volume of the second hollow body 2, an outer surface 2B represented by the sum of the surfaces facing towards the outside of the radiant module 1, and a thickness p2.
- the second hollow body 2 comprises an intake section A and a discharge section B of the air.
- the intake section A is greater than the discharge section B in such a way as to favour the "flue” effect, which makes it possible to draw in cold air from the base of the radiant module 1 and covey it upwards towards the discharge section B.
- the intake section A has a surface extension equal to that of the entire bottom 210 of the second hollow body 2. According to another embodiment, the intake section A is less than the surface of the bottom 210 of the second radiant body 2.
- the discharge section B is identified by slots 207, substantially rectangular in shape but with half circles instead of the short sides, made on the head 204.
- the maximum direction of extension of the slot 207 corresponds to the transversal extension L module 1.
- the intake section B is identified by a plurality of circular slots.
- the first hollow body 3 and the second hollow body 2 are associated at least at one point and are integral with each other.
- the outer surface of the rear wall 302 of the first hollow body 3 is constrained with the inner surface of the rear wall 202 of the second hollow body 2.
- the surface of the rear wall 302 of the first hollow body 3 is less than the surface of the rear wall 202 of the second hollow body 2.
- the first hollow body 3 could be hung from the head 204 of the second hollow body 2 in such a way as to have a greater heat exchange surface.
- the first hollow body 3 and the second hollow body 2 are connected in such a way as to identify an inner chamber C characterised by a volume equal to the difference between the volume of the second hollow body 2 and the volume of the first hollow body 3.
- the inner chamber C comprises an intake zone C1, represented by the portion of the inner chamber C close to the intake section A of the second hollow body 2 and to the bottom 305 of the first hollow body 3.
- intake zone C1 the air is drawn in due to the "flue” effect and it continues towards the flow channel C2.
- the rear wall 302 of the first hollow body 3 is associated with and positioned in contact with the rear wall 202 of the second hollow body 2.
- the flow channel C2 is identified by the gap between the respective front walls 301, 201) and the sides 303, 203 of the first 3 and second 2 hollow body.
- the flow channel C2 has a longitudinal extension calculated along a direction parallel to the axis of longitudinal extension V of the module 1, which identifies the length I of the flow channel C2 and a transversal extension, which identifies, with the extension in depth, an air flow section C'.
- the length I of the flow channel C2 is equal to the dimension of the first hollow body 3 calculated along the longitudinal extension V of the module 1.
- the flow channel C2 is identified by the dimensional differences of the two hollow bodies 2, 3 calculated along the axes of extension T and L (depth and dimension transversal).
- the flow channel C2 has a cross section C' substantially in the shape of a "U".
- the section C' comprises a portion made between the front walls 201 and 301 of the first hollow body 3 and the second hollow body 2, and two portions, symmetrical with respect to a transversal axis of the radiant module 1, made between the two sides 203 and 303 of the first hollow body 3 and the second hollow body 2.
- the length I of the flow channel C2 is equal to the size of the first hollow body 3 along its longitudinal extension.
- the inner chamber C comprises a discharge zone C3 represented by the portion of the inner chamber C close to the discharge section B of the second hollow body 2 and to the head 304 of the first hollow body 3.
- the thickness p2 of the second hollow body 2 is greater than the thickness p3 of the first hollow body 3, which must reasonably be smaller to increase the heat exchange between the air and the heat carrier fluid.
- the invention also provides a radiant body 5 obtained with a plurality of radiant modules 1 according to the invention.
- Figure 5 illustrates the radiant body 5, comprising a plurality of radiant modules 1.
- each radiant module 1 is connected with the others by a conduit (single piece) for supplying 501 heat carrier fluid and by a conduit (single piece) for discharging 502 heat carrier fluid.
- the supply conduit 501 passes through the passage holes 4 of the radiant module 1 and through the passage holes 308 of the first hollow body 3.
- the supply conduit 501 comprises a plurality of holes (visible in Figure 7 ) positioned at the portion of the conduit positioned inside the inner volume of the first hollow body 3.
- the holes on the supply conduit 501 are at least one for each of the radiant modules 1 and allow a hydraulic connection between the supply conduit 501 and the inner volume of the first hollow body 3.
- the discharge conduit 502 passes through the passage holes 4 of the radiant module 1 and through the passage holes 308 (having seals on each hole 308) of the first hollow body 3.
- the discharge conduit 502 comprises a plurality of holes located at the portion of conduit inside the inner volume of the first hollow body 3.
- the passage holes on the discharge conduit are at least one for each of the radiant modules 1 and allow a hydraulic connection between the discharge conduit 502 and the inner volume of the first hollow body 3.
- the radiant body 5 comprises a plurality of hydraulic sealing elements between the supply conduit 501 and the discharge conduit 502 and the first hollow body 3 of the radiant module 1.
- these sealing elements comprise sealing bushes 400 which act, in use, also as spacers between preceding and successive modules 1.
- Each bushing 400 is formed by two tubular elements 400A positioned in a coaxial manner inside each other (see Figure 6 ).
- each bushing 400 is shaped at the two open ends with a corresponding annular recess 400C.
- each bushing 400 is slightly smaller than the diameter D4 of the holes 4 of the second body 2, whilst the internal diameter D400N of each bushing 400 (defining the through channel of the bushing 400) is slightly smaller than the diameter D308 of the holes 308 of the first body 3 in such a way as to coup[le with the supply and discharge conduits 501 and 502, whilst the outer surface of each bushing 400 engages the hole 4 of the second body 2 and comes into contact on the outer walls of the first body 3.
- a sealing ring 400B is positioned at each annular recess 400C of each bushing 400.
- each sealing ring 400C is interposed and in contact with the end recess 400C of the bushing 400, the outer wall of the first body 3 and the outer surface of the supply or discharge conduit 501 or 502.
- each bushing 400 has the double function of a spacer between modules 1 before and after each other and of fluid sealing element, as it keeps (thanks to the sealing rings) each first body 3 and the supply and discharging conduits 501 and 502 (in which the fluid flows) insulated by the corresponding second bodies 2.
- the radiant body 5 also comprises a fixing unit, for constraining the radiant body 5 to a supporting wall.
- the radiant body 5 is resting on a treadable surface and comprises a plurality of spacers which allow the air to enter from below, keeping the second hollow body 2 raised with respect to a treadable surface.
- the preset aims are achieved thanks to a radiant module structured in this way.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
- Cooling Or The Like Of Electrical Apparatus (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Claims (14)
- Strahlendes Modul (1), umfassend einen ersten Hohlkörper (3), definiert durch eine Frontwand (301), eine Rückwand (302), zwei Seiten (303), ein erstes oberseitiges Ende (304), aufweisend ein Paar Löcher (308), die an den entsprechenden Seiten (303) ausgebildet sind, und ein unterseitiges Ende (305), aufweisend ein Paar Löcher (308), die an den entsprechenden Seiten (303) ausgebildet sind, wobei der erste Hohlkörper (3) in Verwendung die Komponente für das Durchströmen eines Wärmeträgerfluids definiert, dadurch gekennzeichnet, dass es einen zweiten Hohlkörper (2) oder ein Abdeckgehäuse umfasst, in dem der erste Hohlkörper (3) in vollem Umfang enthalten ist, wobei der zweite Hohlkörper (2) eine Frontwand (201), eine Rückwand (202), zwei Seiten (203), eine Oberseite (204), aufweisend einen Luftablassabschnitt (B) und ein Paar Löcher (4) aufweist, die an den entsprechenden Seiten (203) ausgebildet sind, und eine Unterseite (210), aufweisend einen Lufteinlassabschnitt (A) und ein Paar Löcher (4), die an den entsprechenden Seiten (203) ausgebildet sind, wobei der zweite Hohlkörper (2) ausgelegt ist, um eine innere Zone zu erzeugen, die in der Lage ist, einen Kanal (C2) für die kontrollierte Strömung der Luft von dem Einlassabschnitt (A) der Unterseite hinführend zum Ablassabschnitt (B) der Oberseite (204) zu generieren.
- Strahlendes Modul nach Anspruch 1, wobei die Unterseite (210) des zweiten Hohlkörpers (2) einen Einlassabschnitt (A) aufweist, der breiter als der Auslassabschnitt (B) der Oberseite (204) ist, um die Luft aus dem Raum anzusaugen und zu forcieren, in den Strömungskanal (C2) zu strömen, identifiziert durch die jeweiligen Wände des ersten (3) und des zweiten (2) Hohlkörpers, in die Richtung (F), die von dem Einlassabschnitt (A) zum Auslassabschnitt (B) führt.
- Strahlendes Modul nach Anspruch 1 oder 2, wobei die Rückwand (302) des ersten Hohlkörpers (3) mit der Rückwand (202) des zweiten Hohlkörpers (2) verbunden und in Kontakt mit dieser positioniert ist und wobei der erste Strömungskanal (C2) durch den Spalt zwischen den jeweiligen Frontwänden (301, 201) und den Seiten (303, 203) des ersten (3) und zweiten (2) Hohlkörpers identifiziert ist.
- Strahlendes Modul nach einem der vorhergehenden Ansprüche, wobei der Strömungskanal (C2) eine Längsausdehnung aufweist, berechnet entlang einer Richtung, die parallel zur Längsausdehnungsachse (V) des Moduls (1) verläuft, die die Länge (I) des Strömungskanals (C2) und einen Luftströmungsabschnitt (C') identifiziert, wobei die Länge (I) gleich dem Abmessung des ersten Hohlkörpers (3) ist, berechnet entlang der Längsausdehnung (V) des Moduls (1).
- Strahlendes Modul nach einem der vorhergehenden Ansprüche, wobei der erste Hohlkörper (3) ein Paar Durchgangslöcher (308) aufweist, die an dessen entgegengesetzten Seiten (303) ausgebildet sind und im oberseitigen Teil, definierend das erste oberseitige Ende (304), und sodass sie gegenständig und koaxial zueinander angeordnet sind, und wobei die anderen zwei Durchgangslöcher (308) an entgegengesetzten Seiten (303) des ersten Hohlkörpers (3) im unteren Teil ausgebildet sind, definierend das erste unterseitige Ende (305), und sodass sie gegenständig und koaxial zueinander angeordnet sind.
- Strahlendes Modul nach einem der vorhergehenden Ansprüche, wobei der zweite Hohlkörper (2) ein Paar Durchgangslöcher (4) aufweist, die an den entgegengesetzten Seiten (203) im oberseitigen Teil ausgebildet sind, definierend die Oberseite (204), und sodass sie gegenständig und koaxial zueinander angeordnet sind, und wobei die anderen zwei Durchgangslöcher (4) an den entgegengesetzten Seiten (203) des zweiten Hohlkörpers (2) im unteren Teil ausgebildet sind, definierend die Basis (210), und sodass sie gegenständig und koaxial zueinander angeordnet sind.
- Strahlendes Modul nach Anspruch 5 oder 6, wobei der erste (3) und der zweite (2) Hohlkörper zwei Paare Löcher (308, 4) aufweisen, ausgebildet an den entsprechenden oberseitigen Enden (304, 204) und am unterseitigen Ende (305, 210) positioniert, mit dem zusammengebauten Modul (1), koaxial zueinander, um einen entsprechenden einzelnen Durchführungskanal zu definieren.
- Strahlendes Modul nach einem der vorhergehenden Ansprüche, wobei das Paar an Löchern (308) an den entsprechenden Seiten (303) des ersten Hohlelements (3) einen Durchmesser (0308) aufweist, der kleiner als der Durchmesser (04) des Paars an Löchern (4) an den entsprechenden Seiten (202) des zweiten Hohlkörpers (2) ist.
- Strahlendes Modul nach einem der vorhergehenden Ansprüche, wobei die Unterseite (210) des zweiten Hohlkörpers (2) vollständig offen ist, sodass der Einlassabschnitt (A) definiert wird, während die Oberseite (204) des zweiten Hohlkörpers (2) mindestens einen Schlitz (207) umfasst, sodass der Auslassabschnitt (B) identifiziert wird.
- Strahlungskörper, umfassend ein System zur Zuführung des Wärmeträgerfluids, ein System zum Ablassen des Wärmeträgerfluids und mindestens ein strahlendes Modul (1) nach den Ansprüchen 1 bis 9.
- Strahlungskörper nach Anspruch 10, umfassend eine Vielzahl an strahlenden Modulen (1), die nebeneinander positioniert sind.
- Strahlungskörper nach Anspruch 10 oder 11, wobei das Zuführungssystem ein einzelnes rohrförmiges Zuführungselement (501) ist, das das strahlende Modul (1) schneidet und durch zwei Paare von Durchgangslöchern (308, 4) eines jeden strahlenden Moduls (1) führt, die koaxial zueinander positioniert sind.
- Strahlungskörper nach Anspruch 10 oder 11 oder 12, wobei das Ablasssystem ein einzelnes rohrförmiges Element (502) ist, das parallel zum einzelnen rohrförmigen Zuführungselement (502) positioniert ist, schneidend ein jedes strahlende Modul (1) und führend durch die anderen zwei Paare von Durchgangslöchern (308, 4) eines jeden strahlenden Moduls (1), die koaxial zueinander angeordnet sind.
- Strahlungskörper nach einem der Ansprüche 10 bis 13, umfassend eine Vielzahl an Abstands- und Dichtungsbuchsen (400) für die Fluide, wobei eine jede Buchse (400) koaxial mit dem Zuführungssystem (501) und dem Ablasssystem (502) verbunden und teilweise in einem jeden zweiten Hohlkörper (2) von zwei aufeinanderfolgenden Modulen (1) untergebracht ist, die nebeneinander platziert sind, wobei eine jede Buchse (400) ausgelegt ist, um die Module (1) voneinander beabstandet zu halten und die Dichtung zwischen den Löchern (308) des ersten Hohlkörpers (3) und dem Ablasssystem (502) und dem Zuführungssystem (501) zu erzielen.
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PL18173805T PL3412977T3 (pl) | 2017-06-06 | 2018-05-23 | Moduł promieniujący do tworzenia korpusu promieniującego |
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IT102017000061757A IT201700061757A1 (it) | 2017-06-06 | 2017-06-06 | Modulo radiante per la formazione di un corpo radiante. |
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EP3412977A1 EP3412977A1 (de) | 2018-12-12 |
EP3412977B1 true EP3412977B1 (de) | 2019-07-10 |
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EP18173805.5A Active EP3412977B1 (de) | 2017-06-06 | 2018-05-23 | Strahlendes modul zur formung eines strahlungskörpers |
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EP (1) | EP3412977B1 (de) |
IT (1) | IT201700061757A1 (de) |
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US3942587A (en) * | 1972-03-13 | 1976-03-09 | Swiss Aluminium Ltd. | Heat convector for use in buildings |
ES549578A1 (es) * | 1985-12-04 | 1987-11-01 | Del Blanco Lombas Felix | Perfeccionamientos en la fabricacion de elementos para ra- diadores convectores de calefaccion |
RU18847U1 (ru) * | 2001-02-20 | 2001-07-20 | Открытое акционерное общество "Механический завод" | Радиатор водяного отопления |
RU2227875C2 (ru) * | 2002-04-30 | 2004-04-27 | Оренбургский государственный университет | Радиатор |
RU80216U1 (ru) * | 2008-09-09 | 2009-01-27 | Общество с ограниченной ответственностью "Сунержа" | Радиатор для обогрева помещений |
ITUD20120051A1 (it) * | 2012-03-23 | 2013-09-24 | Longhi Appliances S R L Con Un Ico Socio De | Dispositivo di riscaldamento |
RU2550229C1 (ru) * | 2014-06-17 | 2015-05-10 | ООО "Эффективные Тепловые Системы" | Теплообменная панель |
EP2975353A1 (de) * | 2014-07-16 | 2016-01-20 | Casale SA | Rohrbündelwärmetauscher |
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2017
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RU2018118084A3 (de) | 2021-06-18 |
PL3412977T3 (pl) | 2020-01-31 |
IT201700061757A1 (it) | 2018-12-06 |
RU2018118084A (ru) | 2019-11-20 |
RU2751055C2 (ru) | 2021-07-07 |
EP3412977A1 (de) | 2018-12-12 |
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