CN106560658A - Radiator And Radiator Device - Google Patents

Abstract

The invention relates to a radiator (1,11) defining a front side (1a) and a rear side (1b) comprising a heating water duct system, within which heating water is able to be transported from a heating water inlet (3,15) to a heating water outlet (4,16). The heating water duct system comprises: heating segments (5,6,12,13,14) with respectively an internal cavity for receiving heating water, which in a ready-to-operate state of the radiator (1,11) are arranged over one another, viewed in gravitation direction, and which respectively have an inlet opening for the supply of heating water and an outlet opening for the removal of heating water; a connecting pipe (7,17,18), which connects the outlet opening of a first heating segment (5,12) with the inlet opening of a second heating segment (6,13); wherein the heating water inlet (3,15) is connected to the inlet opening of the first heating segment (5,12), and wherein the second heating segment (6,13) in the ready-to-operate state of the radiator (1,11), viewed in gravitation direction, is arranged above the first heating segment (5,12); said radiator (1,11) further comprises a heat insulating plate (24), mounted on the rear side (1b) of said radiator (1,11), comprising an elongated cavity (29) for receiving said connecting pipe (7,17) and facing said rear side of said radiator.

Description

Radiator and heat sink arrangement

Technical field

The present invention relates to a kind of radiator and heat sink arrangement with the radiation profiles for improving and energy efficiency.

Background technology

Radiator is generally used for heating the part of building or respectively to room heat supply, and generally has hot-water line Road system (hot water can circulate wherein).By the heat supply ductwork of building side so that using required hot water.More Definitely, hot water enters radiator by hot water inlet, to radiator heat supply, then by hot water outlet again from radiator from Open.

Because the density of hot water is reduced generally as temperature increases, so in gravity direction, traditional heat sinks Top is warmer than bottom.However, because structure-physical cause and/or comfort reason are (particularly when radiator is located at window Family lower section, if also radiator is located in wall or is laterally located in framework, such as in the framework of window opening), this Sometimes not desirably.

EP1243870A2 discloses a kind of radiator (1), and it has what is be connected with the inflow entrance (4) of the first radiator (2) Following current pipe (7), and with the return duct (8) being connected with the flow export of the second radiator (5).At least two radiator is vertical It is stacked.Whole hot water flow through at least two radiator.In the case of more than two radiator, the inflow of a radiator Mouth is connected to the flow export of previous radiator, and flow export is connected to the inflow entrance of next radiator so that Suo Youre Water flows through all radiators.

By radiator radiate heat radiate on all direction in spaces so that also can to being arranged in radiator back after wall with And corresponding wall upper notch heat supply.However, this heat supply to region on wall is generally not desirably, because for adding to wall The energy that heat is spent is unrenewable in the heating being actually needed to room.The energy efficiency of radiator is correspondingly reduced； And the area due to heat loss and radiating surface and temperature square proportionality, cause the homogeneity question for radiating.Cause This, the wall towards the focus on radiator is adversely heated.

It is therefore preferable that proposing a kind of radiator, it presents substantially homogeneous Temperature Distribution in its whole surface, right Further minimum heat losses of building surrounding layer and to the heat radiation and maximization of the inside of building space.

It is proposed that solution based on a kind of radiator or corresponding heat sink arrangement is proposed, it is due to effectively setting The thermal insulation of meter so that during operation can be with energy-efficient and low noise horizontal alignment in the portion for more leaning on radiator bottom Divide (see along gravity direction, compared with positioned at the part more leaned at the top of radiator) more strongly heat supply.

By the way that a series of confession hot arcs specified in claim are suitably connected, with reference to the selective isolation section for using, solution Determine this problem of the invention.

The content of the invention

In the first embodiment, the radiator that one kind defines front side (1a) and the back side (1b), including hot water are disclosed Pipe-line system, hot water can in the hot-water pipeline system from hot water inlet (3,15) be delivered to hot water outlet (4,16), institute Hot-water pipeline system is stated, including：For hot arc (5,6,12,13,14), respectively with for accommodating the inner chamber of hot water, the heat supply Section along gravity direction see radiator (1, arranged by self under preparation state 11), and have for connecing respectively Receive the entrance of hot water supply and for hot water exit；(7,17,18), it supplies hot arc at least one connecting tube by first (5,12) outlet supplies the entrance of hot arc (6,13) to be connected with second；Wherein, the hot water inlet (3,15) be connected to described One for hot arc (5, the entrance 12), and wherein, seeing along gravity direction, described second for hot arc (6,13) in the radiating Described first is disposed under the preparation state of device (1,11) on hot arc (5,12)；The radiator (1,11) is also wrapped Include installed in the radiator that (1, the 11) heat-insulating shield (24) on the back side (1b), the heat-insulating shield (24) includes described for accommodating At least one connecting tube (7,17,18) and the strip chamber (29) at the back side towards the radiator.

In this second embodiment, according to the radiator of first embodiment (1,11), wherein, see along gravity direction, institute Stating first supplies the entrance of hot arc (5,12) to be built at the described first upper end for supplying hot arc (5,12).

In the third embodiment, according to first or second embodiment radiator (1,11), wherein, along gravity direction See, described first for hot arc (5, the outlet 12) be built into described first for hot arc (5, at lower end 12).

In the 4th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, along gravity side To seeing, most leaned on top layout the confession hot arc (6, the outlet 13) be connected to the hot water outlet (4,16).

In the 5th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, along gravity side To seeing, described first for hot arc (5,12) be lowermost confession hot arc.

In the 6th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, the heat supply Section (5,6,12,13,14) has respectively flat rectangular shape.

In the 7th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), just with two For hot arc (5,6).

In the 8th embodiment, according to the radiator of the 7th embodiment (1,11), wherein, see along gravity direction, institute Stating second supplies the entrance of hot arc (6) to be built at the described second lower end for supplying hot arc (6)；And see along gravity direction, it is described Second supplies the outlet of hot arc (6) to be built at the described second upper end for supplying hot arc (6) and be connected to the hot water outlet (4).

In the 9th embodiment, according to the radiator of any one of the 5th to the 6th embodiment (1,11), just have There are three for hot arc (12,13,14).

In the tenth embodiment, according to the radiator of the 9th embodiment (1,11), wherein：See along gravity direction, institute Stating second supplies the entrance of hot arc (13) to be built at the described second upper end for supplying hot arc (13)；See along gravity direction, described Two supply the outlet of hot arc (13) to be built at the described second lower end for supplying hot arc (13)；See along gravity direction, the described 3rd supplies The entrance of hot arc (14) is built at the described 3rd lower end for supplying hot arc (14)；See along gravity direction, the described 3rd supplies hot arc (14) outlet is built at the described 3rd upper end for supplying hot arc (14) and is connected to the hot water outlet (16)；Another connection Pipe (18) supplies the outlet of hot arc (13) and the described 3rd to supply the entrance of hot arc (14) to be connected by described second.

In the 11st embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, the chamber (29) upwardly extend in the longitudinal direction side side of the heat-insulating shield (24).

In the 12nd embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, the company At least one of adapter (7,17) is accommodated in the single recess (28) in the heat-insulating shield (24).

In the 13rd embodiment, according to the radiator of any one of aforementioned embodiments (1,11), also include by cloth Put for by the radiator (1,11) at least one installation component (27) on wall (31), and the heat-insulating shield (24) have in the region of the installation component (27) and recess (26) is installed.

In the 14th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), wherein, it is described absolutely Hot plate (24) is configured to vacuum insulating panel or poly-isocyanurate (PIR) plate.

In the 15th embodiment, according to the radiator of any one of aforementioned embodiments (1,11), also including header board (2), the header board (2) cover at least in part on the front side (1a) radiator (1, the confession hot arc 11) (5, 6,12,13,14)。

In the 16th embodiment, according to the radiator of the 15th embodiment (1,11), wherein, the header board (2) With angled lateral margin (20).

In second aspect and first embodiment, a kind of heat sink arrangement, including according to the arbitrary of aforementioned embodiments Radiator (1,11), the radiator (1, in 11) being disposed in alcove (30), wherein, heat-insulating shield (24) is disposed in institute State between the back side (1b) of radiator (1,11) and tabernacle rear wall (32).

In the second embodiment of second aspect, according to second aspect and the heat sink arrangement of first embodiment, its In, containment member be arranged in the radiator (1, the side wall of the lateral margin of header board (2) 11) and the alcove (30) (33,34) it Between.

In the 3rd embodiment of second aspect, according to the radiator dress of the first and second embodiments of second aspect Put, also with the dismountable door (35) for partly closing the alcove (30).

In the 4th embodiment of second aspect, according to the heat sink arrangement of the 3rd embodiment of second aspect, its In, the welding protruded stigma (36) in the clamping bushing (38) that the door (35) passes through framework (37) is removably secured.

Description of the drawings

Fig. 1 is the front isometric view of the first embodiment of radiator；

Fig. 2 is the stereo rearview of the radiator in Fig. 1；

Fig. 3 is the enlarged detail of the region A in Fig. 2；

Fig. 4 is the enlarged detail of the region B in Fig. 2；

Fig. 5 is the enlarged detail of the region C in Fig. 2；

Fig. 6 is the schematic rear view of the second embodiment of radiator；

Fig. 7 is the three-dimensional exploded view of radiator；

Fig. 8 is the stereogram at the back side of the radiator of Fig. 7；

Fig. 9 is the detail drawing of the region D in Fig. 8；

Figure 10 is the front view of the radiator in Fig. 7；

Figure 11 is the sectional view of Figure 10 midplane B-B；

Figure 12 is the sectional view of Figure 10 midplane B-B, wherein with alcove；With

Figure 13 is mounted in alcove, radiator shown in the Fig. 7 with door stereogram.

Specific embodiment

Radiator of the invention has hot-water pipeline system, and in the hot-water pipeline system, hot water can be from hot water Entrance is transported to hot water outlet.The hot-water pipeline system of radiator includes：There is respectively the confession for accommodating the inner chamber of hot water Hot arc, it takes a fancy to lower arrangement in the preparation state lower edge gravity direction of radiator, and has respectively for receiving hot water The entrance of supply and the outlet for removing hot water.Additionally, hot-water pipeline system has connecting tube, it is by the first going out for hot arc Mouthful couple together for the entrance of hot arc with second.Hot water inlet is connected to the first entrance for supplying hot arc.In the beam worker of radiator Under making state, see along gravity direction, second is arranged in first on hot arc for hot arc.

" the preparation state " of radiator is understood herein as meaning that radiator is connected to live heat supply ductwork State, i.e. hot water inlet is connected with the supply pipeline of heat supply ductwork and hot water outlet and heat supply ductwork are returned Row pipeline connects.

Term " top ", " on ", " on " etc. and " bottom ", " under ", D score, " on " etc. (as long as no referring in addition) will join In examining gravity direction.

According to the present invention, therefore hot water is entered in radiator by hot water inlet.Because hot water inlet is connected to the first confession The entrance of hot arc, so first is initially heated for hot arc, and hot water is only being supplied to the second confession followed by connecting tube Hot arc (it is seen positioned at first on hot arc along gravity direction).By this way, therefore first can be arrived for hot arc heat supply Than second for the temperature that hot arc is higher.

In advantageous embodiment, see along gravity direction, first is constructed and supplies hot arc positioned at first for the entrance of hot arc Upper end.Therefore, hot water supply is carried out in the first upper area for hot arc.

In another advantageous embodiment, see along gravity direction, first for hot arc outlet be constructed positioned at first supply The lower end of hot arc.

In advantageous embodiment, see along gravity direction, the most outlet by the confession hot arc of top layout is connected to hot water Outlet.By this way, uppermost confession hot arc has minimum temperature in the middle of all confession hot arcs.

In another advantageous embodiment, see along gravity direction, first is minimum confession hot arc for hot arc.Therefore, institute Have and there is highest temperature for nethermost confession hot arc in the middle of hot arc.

In advantageous embodiment, there is respectively flat rectangular shape for hot arc.By this way, can have special Good heat radiation.

In advantageous embodiment, radiator also has header board, and the header board extends at least partly into all of heat supply Duan Shang, so as to produce visually unified impression.

Just have two it is for hot arc and just verified with three radiators for hot arc be particularly advantageous.Have Two radiators for hot arc are configured in the way of simple structure.Allow more accurately to set with three radiators for hot arc Determine Temperature Distribution.

When radiator just has two for hot arc, then see along gravity direction, second supplies the entrance of hot arc to be preferably Construct at the second lower end for hot arc, and see along gravity direction, second is that construction supplies hot arc second for the outlet of hot arc Upper end at and be connected to hot water outlet.

When radiator just has three for hot arc, then see along gravity direction, second supplies the entrance of hot arc to be preferably Construct at the second upper end for hot arc；See along gravity direction, second for hot arc outlet construction second under hot arc At end；See along gravity direction, the 3rd for hot arc entrance be built into the 3rd for hot arc lower end at；See along gravity direction, the Three are built at the 3rd upper end for hot arc and are connected to hot water outlet for the outlet of hot arc；And another connecting tube is by second Outlet for hot arc supplies the entrance of hot arc to be connected with the 3rd.

Fig. 1 to Fig. 5 illustrates radiator 1.Before radiator 1 and side front is served as by header board 2.Hot water can lead to Can be flowed away in the hot-water pipeline system of the inflow radiator 1 of overheated water inlet 3 and by hot water outlet 4 again.Therefore, in hot-water line In road system, hot water can be transported to hot water outlet 4 from hot water inlet 3.

Two are covered for hot arc 5 and 6 by header board 2.There is flat rectangular shape for each in hot arc 5 and 6 and have For accommodating the inner chamber of hot water.Each has the entrance for being used for receiving hot water supply for hot arc 5,6 and for going out that hot water leaves Mouthful.Under the preparation state of radiator 1 and in each figure of accompanying drawing, arranged by self for hot arc 5 and 6.

It is disposed in for the lower section of hot arc 6 for hot arc 5.Therefore, " first supplies hot arc " is constituted for hot arc 5, while for the structure of hot arc 6 Into " second supplies hot arc ".

First for hot arc 5 entrance be built into first for hot arc 5 upper end at and be connected for hot arc entrance 3.The One for hot arc 5 outlet be built into first for hot arc 5 lower end at and via connecting tube 7 and second for hot arc 6 entrance company Connect.Second for hot arc 6 entrance be built into second for hot arc 6 lower end at.Second for hot arc 6 outlet so that be built into Second at the upper end of hot arc 6 and with hot water outlet 4 for being connected.

Therefore the high-temperature-hot-water supplied via hot water inlet 3 supplies the entrance of hot arc 5 to flow into the first heat supply by first first The inner chamber of section 5, and therefore to for the heat supply of hot arc 5.Next, hot water supplies the outlet of hot arc 5 to flow into connecting tube 7 via first, and The entrance of hot arc 6 is supplied to flow into the second inner chamber for supplying hot arc 6 and therefore to for the heat supply of hot arc 6 from connecting tube 7 via second.Passing through During radiator 1, the temperature of hot water is gradually lowered by heat transfer.Finally, hot water (corresponding through cooling) again via Second for hot arc 6 outlet and hot water outlet 4 flow away.

See along gravity direction, first is located at more on the lower for hot arc 5 to the second for hot arc 6, and than positioned at more top Second be heated for hot arc 6 it is more.Therefore, radiator 1 has bottom (first confession warmer than top (second supplies hot arc 6) Hot arc 5).

Fig. 6 illustrates the schematic rear view of second embodiment.The radiator 11 for schematically showing is altogether with three confessions Hot arc 12,13 and 14.

For each in hot arc 12,13 and 14 can have flat rectangular shape (but as illustrated, the shape Nature can be directed to any expected mesh and change) and including for accommodating the inner chamber of hot water.Each has for hot arc 12,13 and 14 For receive hot water supply entrance and for hot water exit.Radiator 11 preparation state and accompanying drawing it is each In figure, arranged by self for hot arc 12,13 and 14.Here, it is lowermost confession hot arc for hot arc 12.It is adjacent for hot arc 13 Connect for hot arc 12.It is uppermost confession hot arc for hot arc 14.

Hot water can be flowed out by the inflow of hot water inlet 15 and again by hot water outlet 16.For hot arc 12 inflow entrance by structure Make and be connected at the upper end for hot arc 12 and with hot water inlet 15.Outlet for hot arc 12 is built at the lower end for hot arc 12 And be connected with the entrance for hot arc 13 via connecting tube 17.It is built at the upper end for hot arc 13 for the entrance of hot arc 13.For The outlet of hot arc 13 is further built at the lower end for hot arc 13 and connects with the entrance for hot arc 14 via another connecting tube 18 Connect.It is built at the lower end for hot arc 14 for the entrance of hot arc 14.Outlet for hot arc 14 is further built into for hot arc 14 Upper end at and be connected with hot water outlet 16.Therefore, " first supplies hot arc " is constituted for hot arc 12, for hot arc 13 " the second confession is constituted Hot arc " and constitute " the 3rd supplies hot arc " for hot arc 14.

Therefore, the high-temperature-hot-water supplied via hot water inlet 15 supplies the entrance of hot arc 12 to flow into the first confession by first first In the inner chamber of hot arc 12 and therefore to heating for hot arc 12.Next, hot water supplies the outlet of hot arc 12 to flow into connection via first Pipe 17 simultaneously supplies the entrance of hot arc 13 to flow in the second inner chamber for hot arc 13 and therefore to supplying hot arc from connecting tube 17 via second 13 heating.Immediately, hot water flows into another connecting tube 18 and via the 3rd entering for hot arc 14 via second for exporting for hot arc 13 Mouth is from the inner chamber of the 3rd heating tube 14 of inflow of connecting tube 18 and therefore heats for hot arc 14 to the 3rd.Through the phase of radiator 11 Between, the temperature of hot water is gradually lowered by heat transfer.Finally, hot water (corresponding through cooling) supplies hot arc via the 3rd again 14 outlet and hot water outlet 16 flow out.

See along gravity direction, first is located at more on the lower for hot arc 12 to the second for hot arc 13, and than positioned at more top Second be heated for hot arc 13 it is more.See along gravity direction, second is located at more on the lower for hot arc 13 to the three for hot arc 14, And be heated for hot arc 14 than the 3rd more.

Radiator of the invention 1 and 11 (referring to Fig. 7) also includes heat-insulating shield 24 (preferably with substantially long rectangle shape Shape), it is disposed in the back side 1b for hot arc 5 and 6.Heat-insulating shield has towards the chamber for hot arc 29.

By arranging heat-insulating shield for the hot arc back side, heat radiation in the direction of the wall is reduced.Therefore, increased radiating The energy efficiency of device.

In heat-insulating shield 24 towards the chamber 29 for hot arc lead to for hot arc 5, between 6 and insulation occur ventilation shaft, Can be circulated in the ventilation shaft by the air heated for hot arc.Therefore so that convection current is possibly realized.Therefore, with this side Formula, on the one hand, by heat-insulating shield 24 radiator 1 and 11 (is provided with thereon radiator 1,11) is blocked relative to wall 31；But On the other hand, also Convective Heating can be carried out at the back side for hot arc.

In a preferred embodiment, chamber 29 upwardly extends in the side of the longitudinal direction side of heat-insulating shield.Therefore, chamber 29 can have length Streaky shape.This causes the convection current in chamber can be with especially good.Therefore, the energy efficiency of radiator is increased with specific degrees.

In another advantageous embodiment, heat-insulating shield 24 also has the recess for accommodating above-mentioned connecting tube 7,17 and 18 28.By this way, hot water connector can be integrated in heat-insulating shield or heat-insulating shield is also able to make hot water connector exhausted Heat.So as to the energy efficiency of radiator increases again.

In another advantageous embodiment, at least one construction section 27 is disposed in for being used for heat supply on hot arc 5 and 6 Device 1 and 11 is installed on wall 31, and heat-insulating shield 24 has installation recess 26 in the region of construction section 27.By this way, Can have between wall 31 and radiator 1,11 and be fixedly connected.Meanwhile, recess 26 is installed and is allowed to：In other regions Heat-insulating shield 24 covers the back side 1b for hot arc 5 and 6 and increases energy efficiency whereby.

Heat-insulating shield 24 is configured to vacuum insulating panel or poly-isocyanurate (PIR) plate, has been verified to be particularly advantageous 's.

In another advantageous embodiment, radiator 1 and 11 also have be arranged in before the front side 1a for hot arc 5 and 6 Plate 2.The header board 2 advantageously has angled lateral margin 20.

The invention also discloses heat sink arrangement, it includes the radiator 1 and 11 being arranged in alcove 30, wherein, it is adiabatic Plate 24 is arranged between tabernacle rear wall 32 and the back side 1b for hot arc 5,6.

By being arranged so as to heat-insulating shield at the back side for hot arc, the heat radiation on the direction of tabernacle rear wall reduces.Therefore, dissipate The energy efficiency of hot device increases.

In advantageous embodiment, between the lateral margin of radiator header board and the side wall of alcove containment member is arranged. The receiving space 19 for containment member can be formed between angled lateral margin and the side of alcove.By the containment member, The reliable closure of achievable alcove 30.

In another advantageous embodiment, heat sink arrangement also has dismountable door (hatch) 35, and (it is partly closed Combine harmoniously tabernacle 30).The door can be easy to remove such that it is able in a straightforward manner to tieing up for hot arc 5,6 and/or hot water connector Repair, clean and/or installment work.

The door 35 has been removably secured by welding protruded stigma 36 (it is placed in the clamping bushing 38 of framework 37) Being verified can be particularly advantageous for fixing the door 35.

The present invention is explained also by the illustrative embodiments in each figure of accompanying drawing.There is shown with：

The radiator 1 and 11 illustrated in accompanying drawing has for hot arc, header board and heat-insulating shield.There can be long rectangle shape for hot arc Shape.At the back side for hot arc, the first hot water connector and the second hot water connector are disposed with.According to the installation of radiator 1 and 11 One in position, the first hot water connector or the second hot water connector is configured to hot water inlet, and correspondingly another Hot water connector is configured to hot water return part.

Additionally, totally two installation components are disposed in the back side for hot arc, it is used to be fixed in radiator 1 and 11 and is located at On the rear wall of radiator 1 and 11.

Heat-insulating shield is disposed in the back side for hot arc with rear between the walls.Heat-insulating shield equally has long rectangular shape, and And be sized to supply the size of hot arc so that the basic upper surface of heat-insulating shield covers the back side for hot arc.

Heat-insulating shield has the recess for accommodating the first hot water connector.Additionally, heat-insulating shield has towards (more accurate for hot arc Really say it is the back side for hot arc) chamber.The chamber upwardly extends in the side of the longitudinal direction side of heat-insulating shield, and causes heated air Can circulate.Finally, heat-insulating shield has respectively installation recess in the region of installation component.

Header board is arranged on the front side for hot arc and forms the closure of the room side of radiator 1 and 11.In edge side, the header board Extend to for beyond hot arc.The lateral margin of header board is angled.

Figure 12 and Figure 13 are illustrated in the arrangement of radiator 1 and 11 alcove on the wall.The alcove has tabernacle rear wall and Kan Cebi. Radiator 1 and 11 is placed in the spatial volume surrounded by tabernacle rear wall and Kan Cebi.Hot water connector and live heating tube Road system connection.The size of alcove and radiator 1 be mutually adapted so that leave between the lateral margin 20 of header board and tabernacle side wall it is little between Gap (if necessary).By the angled shape of lateral margin 20, between Kan Cebi and radiator 1 receiving space is additionally formed 19.The receiving space 19 is used to accommodate containment member (not shown).

Door (header board, opening) is received in the frame.The door is dismountable and partly closes alcove.The door is by putting It is detachably connected with framework in the welding protruded stigma clamped in bushing of framework.

Ending language

The term " including " for using in the claims is not excluded for other components or step.The art for using in the claims Language is not excluded for multiple when not indicating number.Although having been described in the present invention for illustration purpose, it is to be understood that, this A little details are for illustration purposes only, and those skilled in the art can make the model for varying without departing from the present invention to it Enclose.

Claims (20)

11), including hot-water pipeline system 1. one kind defines the radiator of front side (1a) and the back side (1b) (1, hot water can be From hot water inlet, (3, (4,16), the hot-water pipeline system includes 15) to be delivered to hot water outlet in the hot-water pipeline system：

- for hot arc (5,6,12,13,14), respectively with for accommodating the inner chamber of hot water, the confession hot arc radiator (1,11) Preparation state lower edge gravity direction seen and arranged by self and there is respectively the entrance for receiving hot water supply With for hot water exit；

- at least one connecting tube (7,17,18), its by first for hot arc (5, outlet 12) with second for hot arc (6, entering 13) Mouth connection；

Wherein, the hot water inlet (3,15) be connected to described first for hot arc (5, the entrance 12), also,

Characterized in that,

- see along gravity direction, described second for hot arc (6,13) the radiator (1, by cloth under preparation state 11) Put described first on hot arc (5,12)；

- the radiator (1,11) also include being arranged on the radiator (1, the 11) heat-insulating shield (24) of the back side (1b), it is described absolutely Hot plate (24) include for accommodating at least one connecting tube (7,17,18) and the back side towards the radiator length Bar shaped chamber (29).

2. radiator according to claim 1 (1,11), wherein, see along gravity direction, described first for hot arc (5,12) The entrance be built into described first for hot arc (5,12) upper end at.

3. radiator according to claim 1 and 2 (1,11), wherein, see along gravity direction, described first for hot arc (5, 12) the outlet is built at the described first lower end for supplying hot arc (5,12).

Radiator 4. according to any one of aforementioned claim (1,11), wherein, see along gravity direction, most by top The outlet of the confession hot arc (6,13) of arrangement is connected to the hot water outlet (4,16).

Radiator 5. according to any one of aforementioned claim (1,11), wherein, see along gravity direction, described first It is lowermost confession hot component for hot arc (5,12).

Radiator 6. according to any one of aforementioned claim (1,11), wherein, the confession hot component (5,6,12, 13,14) there is respectively flat rectangular shape.

7. radiator according to any one of aforementioned claim (1,11), just with two for hot component (5,6).

8. radiator according to claim 7 (1,11), wherein：

- see along gravity direction, described second supplies the entrance of hot component (6) to be built at the described second lower end for supplying hot arc (6)； And

- see along gravity direction, described second supplies the outlet of hot component (6) to be built at the described second upper end for supplying hot arc (6) And it is connected to the hot water outlet (4).

9. radiator according to any one of claim 1 to 6 (1,11), just with three for hot component (12, 13,14)。

10. radiator according to claim 9 (1,11), wherein：

- see along gravity direction, described second supplies the entrance of hot component (13) to be built into the described second upper end for supplying hot arc (13) Place；

- see along gravity direction, described second supplies the outlet of hot component (13) to be built into the described second lower end for supplying hot arc (13) Place；

- see along gravity direction, the described 3rd supplies the entrance of hot component (14) to be built into the described 3rd lower end for supplying hot arc (14) Place；

- see along gravity direction, the described 3rd supplies the outlet of hot component (14) to be built into the described 3rd upper end for supplying hot arc (14) Place is simultaneously connected to the hot water outlet (16)；

- another connecting tube (18) by described second for hot arc (13) the outlet and the described 3rd for hot arc (14) it is described enter Mouth connection.

11. radiators according to any one of aforementioned claim (1,11), wherein, the chamber (29) is in the thermal insulation The longitudinal direction side side of plate (24) upwardly extends.

12. radiators according to any one of aforementioned claim (1,11), wherein, the connecting tube (7,17) in At least one is accommodated in the independent recess (28) in the heat-insulating shield (24).

13. radiators according to any one of aforementioned claim (1,11), also including being arranged to described to dissipate Hot device (1,11) at least one installation component (27) on wall (31), and the heat-insulating shield (24) is in the installation structure Have in the region of part (27) and recess (26) is installed.

14. radiators according to any one of aforementioned claim (1,11), wherein, the heat-insulating shield (24) is constructed For vacuum insulating panel or poly-isocyanurate (PIR) plate.

15. radiators according to any one of aforementioned claim (1,11), also including header board (2), the header board (2) Cover the confession hot component (5,6,12,13,14) of the radiator (1,11) at least in part on the front side (1a).

16. radiators according to claim 15 (1,11), wherein, the header board (2) is with angled lateral margin (20).

A kind of 17. heat sink arrangements, including according to any one of aforementioned claim radiator (1,11), it is described dissipate Hot device (1, in 11) being disposed in alcove (30), wherein, heat-insulating shield (24) be disposed in the radiator (1, the back side 11) (1b) and tabernacle rear wall (32) between.

18. heat sink arrangements according to claim 17, wherein, containment member be disposed in the radiator (1,11) Between the lateral margin of header board (2) and the side wall (33,34) of the alcove (30).

19. heat sink arrangements according to claim 17 or 18, also with partly closing the removable of the alcove (30) Unload door (35).

20. heat sink arrangements according to claim 19, wherein, the clamping bushing that the door (35) passes through framework (37) (38) the welding protruded stigma (36) in is removably secured.