CN105202954B - Radiator - Google Patents

Abstract

The invention discloses a kind of radiator, including：Upper pipe, standpipe and down tube, wherein, upper pipe is horizontally disposed with, and one end closing of upper pipe, the other end of upper pipe is provided with charging connector；Standpipe is connected with upper pipe；Down tube includes horizontally disposed lower outer pipe and with the lower inner tube being located in lower outer pipe, and leave thermal conductive gap between lower inner tube and lower outer pipe, lower outer pipe is connected with standpipe, and the two ends of down tube are provided with the passage that supplying hot water circulation is formed in the closeouts for being used for that thermal conductive gap to be blocked at two ends, lower inner tube；Thermal conductive gap between the inner chamber of upper pipe, the inner chamber of standpipe, and lower outer pipe and lower inner tube is surrounded in vacuum chamber, vacuum chamber jointly is filled with heat-conducting medium.The radiator that the present invention is provided, due to by the use of heat-conducting medium as heat transfer source, only descending and hot water is passed through in inner tube, heat-conducting medium can be quickly by the temperature absorption of hot water, and heat transfer efficiency is fast, and hot water is only needed by lower inner tube, and therefore, required hot water is less, less energy intensive.

Description

Radiator

Technical field

The present embodiments relate to Design of Mechanical Structure, more particularly to a kind of radiator.

Background technology

Radiator, be otherwise known as radiator.Using wall-hung boiler or boiler heat cycles water, then it is transferred to by tubing scattered Hot device, exports suitable temperature eventually through radiator, the temperature difference in forming chamber, and finally carrying out thermal cycle makes whole indoor temperature It is uniform to rise.

The traditional heat sinks that present market sale and family install are mainly by being filled with hot water to radiator internal cavity, And the heat of hot water is dispersed into room air by the conduction for the cavity wall for passing through radiator, so as to reach the purpose of heating.

But above-mentioned radiator of the prior art, due to needing constantly to be filled with into the internal cavity of radiator largely Hot water, to ensure that hot water can continue to contact with the cavity wall everywhere of radiator, and then ensure enough heat energy source not Disconnected to come out, therefore, the hot water required for the radiator of this kind of form is more, and the also phase such as electricity, coal required for manufacture hot water Should increase, thus easily cause power consumption it is more, be unfavorable for environmental protection.

The content of the invention

The present invention provides a kind of radiator, to solve drawbacks described above of the prior art, realizes the energy of reduction radiator Source is wasted, and keeps good radiating effect.

The present invention provides a kind of radiator, including：

Upper pipe, the upper pipe is horizontally disposed with, and one end closing of the upper pipe, the other end of the upper pipe is provided with inflation Mouth；

Standpipe, the standpipe is connected with the upper pipe；

Down tube, the down tube include horizontally disposed lower outer pipe and and with being located in lower inner tube in the lower outer pipe, and Thermal conductive gap is left between the lower inner tube and the lower outer pipe, the lower outer pipe is connected with the standpipe, the down tube Two ends, which are provided with, forms the logical of supplying hot water circulation in the closeouts for being used for that the thermal conductive gap to be blocked at two ends, the lower inner tube Road；

Between inner chamber, the inner chamber of the standpipe of the upper pipe, and the heat conduction between the lower outer pipe and lower inner tube Gap surrounds in vacuum chamber, the vacuum chamber and is filled with heat-conducting medium jointly.

Further, some first radiating pieces are provided with the standpipe lateral wall.

Further, first radiating piece is radiated rib.

Further, it has been also covered each by setting on the outside of deduction cap, the deduction cap on the outside of the upper pipe and the lower outer pipe There are some second fin.

Further, in the closeouts and offered and the lower inner tube phase along the axis direction of the closeouts The internal thread for being connected with heat supply pipeline is offered in the through hole of connection, the through hole.

Further, the closeouts include the first weld part welded together with the lower outer pipe and described lower interior The second weld part that pipe welds together, and for snapping onto the location division in the lower inner tube, first weld part with The lower outer pipe overlap joint welds together, and second weld part is together with the lower inner tube butt welding.

Further, one end outward flange away from second weld part offers first and fallen on first weld part Angle, welding groove is formed between first chamfering and the madial wall of the lower outer pipe.

Further, it is used for having second to fall with one end edge of the lower inner tube welding on second weld part Welding groove is formed between the end face of angle, second chamfering and the lower inner tube.

Further, one end of the upper pipe is welded with seal plug to form the sealed end of the upper pipe, the upper pipe The other end charging connector is welded with to form the inflation end of the upper pipe.

It is preferred that, the upper pipe, standpipe use mild steel integrally casting shaping, first radiating piece with the lower outer pipe For aluminium flake.

The radiator that the present invention is provided, due to being only passed through hot water in lower inner tube, i.e. single tube water flowing, upper pipe, standpipe and Gap between lower outer pipe and lower inner tube is connected to form heat transfer cavity, and the heat transfer cavity keeps vacuum state, passes through upper pipe Charging connector into heat transfer chamber body filling heat-conductive medium, heat-conducting medium its boiling point in the state of vacuum is relatively low, in lower inner tube The heat of hot water can pass to heat-conducting medium rapidly, and heat-conducting medium can quickly reach required temperature, be needed due to only descending in inner tube Hot water is passed through, required hot water amount is less, and then coal, the electric equal energy source used in required boiled hot water also greatly reduce, therefore, It is advantageous to save the energy, is conducive to environmental protection.

Brief description of the drawings

The front view for the radiator that Fig. 1 provides for one embodiment of the invention；

The right view for the radiator that Fig. 2 provides for one embodiment of the invention；

Fig. 3 removes the half sectional view after block for the radiator that one embodiment of the invention is provided；

Fig. 4 be Fig. 3 in be provided with charging connector upper pipe structural representation；

Fig. 5 is the structural representation of down tube in Fig. 3；

Fig. 6 be Fig. 3 in be provided with closeouts lower inner tube structural representation；

Fig. 7 is the structural representation of charging connector.

Reference：

Managed on 1-；2- standpipes；3- down tubes；

4- charging connectors；5- closeouts；The radiating pieces of 6- first；

7- deduction caps；The fin of 8- second；9- seal plugs；

301- lower outer pipes；Inner tube under 302-；501- through holes；

The weld parts of 502- first；The weld parts of 503- second；504- location divisions；

The chamferings of 505- first；The chamferings of 506- second；401- pedestals；

402- inner cores；403- internal core print seats；404-V V-shaped rings；

405- limited blocks；406- guide sleeves；407- pressure sections；

408- springs；409- sealing nuts.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The front view for the radiator that Fig. 1 provides for one embodiment of the invention；The radiating that Fig. 2 provides for one embodiment of the invention The right view of device；Fig. 3 removes the half sectional view after block for the radiator that one embodiment of the invention is provided；Fig. 4 is installation in Fig. 3 There is the structural representation of the upper pipe of charging connector；Fig. 5 is the structural representation of down tube in Fig. 3.It refer to 1~accompanying drawing of accompanying drawing 5, this reality Apply example and a kind of radiator, including upper pipe 1, standpipe 2 and down tube 3 are provided.

Wherein, upper pipe 1 is horizontally disposed with, and one end closing of upper pipe 1, the other end of upper pipe 1 is provided with charging connector；Standpipe 2 with Upper pipe 1 is connected；Down tube 3 includes horizontally disposed lower outer pipe 301 and with the lower inner tube 302 being located in lower outer pipe 301, and under Thermal conductive gap is left between inner tube 302 and lower outer pipe 301, lower outer pipe 301 is connected with standpipe 2, the two ends of down tube 3, which are provided with, to be used for The passage that supplying hot water circulation is formed in the closeouts 5 of thermal conductive gap, lower inner tube 302 is blocked at two ends；It is the inner chamber of upper pipe 1, vertical Thermal conductive gap between the inner chamber of pipe 2, and lower outer pipe 301 and lower inner tube 302 is surrounded jointly to be filled with vacuum chamber, vacuum chamber Heat-conducting medium.

It should be noted that heat-conducting medium is liquid form under a certain pressure, connect suddenly when there is more than 19 DEG C of thermal source Touch, heat-conducting medium being capable of instantaneously gasification cycle heat conduction.

It is preferred that, upper pipe 1, standpipe 2 and down tube 3 can be the low carbon steel pipe being made up of mild steel, and can integrally cast Type is caused, moulding process is simple, with easy heat radiation, corrosion resistant advantage.Standpipe 2 can be vertically set on pipe 1 and down tube 2 it Between, or can also slightly askew be arranged between pipe 1 and down tube 3.The cavity of vacuum for filling heat-conducting medium exists It is filled with before heat-conducting medium, vavuum pump can be connected by charging connector 4 and extract the air in cavity out, form the cavity of vacuum, In the environment of vacuum, the boiling point of heat-conducting medium is relatively low, therefore, when heat-conducting medium is even if touch can also after weaker thermal source Generate heat quickly, and transfer heat on the tube wall of radiator and be dispersed into outside air.

Lower inner tube 302 is inserted into lower outer pipe 301, and is mutually completely cut off with the vacuum cavity where heat-conducting medium, in this way, under Hot water in inner tube 302 will not be spilt into the cavity where heat-conducting medium, will not be mixed with heat-conducting medium and be influenceed heat conduction to be situated between The heat conductivility of matter, instantly inner tube 302 have hot water by when, heat-conducting medium is delivered to by the tube wall of lower inner tube 302 quickly On.

The radiator that the present embodiment is provided, due to being only passed through hot water in lower inner tube 302, i.e. single tube water flowing is upper pipe 1, vertical Gap between pipe 2 and lower outer pipe 301 and lower inner tube 302 is connected to form the cavity of vacuum, and the cavity of the vacuum is kept Vacuum state, by the charging connector of upper pipe 1 into heat transfer chamber body filling heat-conductive medium, because heat-conducting medium is in the state of vacuum Its boiling point is relatively low, and the heat of the hot water in lower inner tube 302 can pass to heat-conducting medium rapidly, and heat-conducting medium starts hot interior circulation, The temperature of the inside of radiator is quickly reached temperature by hot water, produce heat vortex interior circulation, reach the mesh of heating , need to be passed through hot water in inner tube 302 due to only descending, the water of required hot water is less, and then used in required boiled hot water Coal, electric equal energy source also greatly reduce, therefore, the radiator that the present embodiment is provided is conducive to saving the energy, is conducive to environmental protection.

Some first radiating piece parts 6 can be provided with the lateral wall of standpipe 2.It is preferred that, the first radiating piece 6 can be radiating Fin, for example, can be the aluminium sheet with excellent radiating effect, and can reduce the weight of whole radiator.Dissipated by first The setting of warmware 6 can be with increasing heat radiation area, in addition, can retain certain interval between each first radiating piece 6, to provide radiating Air flow passage, improve radiating effect.

In addition, some thermal vias (not shown)s can also be offered on the first radiating piece 6, so as to further strengthen Air circulation, and then strengthen radiating effect.

As depicted in figs. 1 and 2, the outside of upper pipe 1 and lower outer pipe 301 can also be covered each by outside deduction cap 7, deduction cap 7 Side can be provided with some second fin 8.Certain interval, and the second fin 8 can also be retained between each second fin 8 Can be set with the surface of deduction cap body in an acute angle, and can also with the outer surface identical bending curvature with upper pipe 1, Ensure aesthetics in appearance, also, be also prevented from scratch personnel, the setting of some second fin 8 equally also can be carried further High radiating effect.

Fig. 6 be Fig. 3 in be provided with closeouts lower inner tube structural representation.As shown in Figure 5 and Figure 6, in closeouts 5 Upper and along closeouts 5 axis directions can be offered to be offered in the through hole 501 being connected with lower inner tube 302, through hole 501 For the internal thread being connected with heat supply pipeline.Heat supply pipeline can be threadedly coupled with closeouts 5, and the hot water in heat supply pipeline passes through The through hole 501 of closeouts 5 is entered in lower inner tube 302, now, and closeouts 5 can both be used as isolation lower outer pipe 301 and lower inner tube 302 device, while the import and export of hydrothermal fluid are also served as, therefore, with simple in construction, lower-cost advantage.

Certainly, in the downward inner tube 302 injection hot water, can not also be by being arranged on the closure at the lower two ends of inner tube 302 Part 5, can open up hot water inlet and hot water outlet at the other positions of lower inner tube 302, and closeouts 5 can be by down tube 3 Two ends be entirely closed, and lower not connect between inner tube 302 and lower outer pipe 301.Here, the present embodiment is not limited specifically Determine the position of hot water inlet and hot water outlet.

The first weld part 502 that closeouts 5 can include welding together with lower outer pipe 301, it is welded on lower inner tube 302 The second weld part 503 together, and for snapping onto the location division 504 in lower inner tube 302, the first weld part 502 can be with The overlap joint of lower outer pipe 301 welds together, and the second weld part 503 can be together with the lower butt welding of inner tube 302.It is preferred that, the The external diameter of one weld part 502 is equal to the internal diameter of lower outer pipe 301, and the external diameter of the second weld part 503 can be equal to the outer of lower inner tube 302 Footpath.When processing, first the location division 504 of closeouts 5 can be inserted into lower inner tube 302, to realize the first of whole closeouts 5 Begin to position, prevent from producing skew during welding, cause the intensity after welding to reach desired effects, and the overall structure of influence is steady It is qualitative.The present embodiment by the way that closeouts 5 to be welded on to the two ends of down tube 3, the sealing after welding preferably, under can fully completely cutting off Outer tube 301 and lower inner tube 302, it is ensured that the performance of radiator is stable.

One end outward flange away from the second weld part 503 offers the first chamfering 505 on first weld part 502, and first falls Welding groove is formed between the madial wall of angle 505 and lower outer pipe 301.The end face of first weld part 502 can be with lower outer pipe 301 end Face is flushed, by opening up the first chamfering 505 on the first weld part 502 so that the first chamfering 505 and the inner side of lower outer pipe 301 Welding groove is formed between wall, welding groove can advantageously ensure that the depth of welding, improve the stability after welding, more enter one Step prevents the phenomenon of heat-conducting medium leakage inside radiator from occurring.

Accordingly, the end margin being used on the second weld part 503 with the welding of lower inner tube 302 can also offer second and fall Welding groove is formed between the end face of angle 506, the second chamfering 506 and lower inner tube 302.The effect of second chamfering 506 is fallen with first The effect at angle 505 is similar, here, the present embodiment is repeated no more.

One end of upper pipe 1 can form the sealed end of upper pipe 1, the other end welding of upper pipe 1 by welded seal plug 9 There is charging connector 4 to form the inflation end of upper pipe 1.Likewise, seal plug 9 and charging connector 4 in the form of welding all to be welded to On pipe 1, its processing technology is relatively simple, and the sealing effectiveness formed by weld seam is preferable.Certainly, on casting is whole pipe 1, When standpipe 2 and lower outer pipe 301, one end of upper pipe 1 can be directly cast as to the structure of closing, i.e. by seal plug 9 and upper pipe 1 integrally casting shaping, equally can also play sealed effect, be not especially limited in this present embodiment.

Fig. 7 is the structural representation of charging connector.As shown in fig. 7, charging connector 4 can include pedestal 401, inner core 402, inner core Seat 403, V-shaped ring 404, limited block 405, guide sleeve 406, pressure section 407 and spring 408.

Wherein, one end of pedestal 401 is connected with radiator, offers the inner chamber phase with radiator in pedestal 401 vertically The through hole of connection；Inner core 402 is coaxially disposed in the through hole of pedestal 401；Internal core print seat 403 is fixed in pedestal 401, inner core 402 It is slidedly arranged in internal core print seat 403, the inner surface formation supply stream of internal core print seat 403 and pedestal 401 passes through gap；V-shaped ring 404 is consolidated Surely it is sheathed on inner core 402 and one end away from radiator on internal core print seat 403, V-shaped ring 404 is radially pressed on In pedestal 401, the V-arrangement opening of V-shaped ring 404 deviates from radiator；Limited block 5 is fixed on inner core 402 and positioned at internal core print seat Close to one end of radiator on 403, the axial displacement for limiting inner core 402；Between between limited block 5 and V-shaped ring 404 Axial length away from more than internal core print seat 403.

Pressure section 407 may be integrally formed on inner core 402, and for supporting V-shaped ring 404, pressure section 407 is with being oriented to Can be with connecting spring 408 between set 406, spring 408 can be set in one away from radiator in the outside of inner core 402, pedestal 401 End can be bolted with sealing nut 409.Sealing nut 409 can mainly realize further sealing to charging connector.

Pedestal 401 can weld together with radiator, and to ensure the sealing of radiator, internal core print seat 403 can be with pedestal 401 interference fits, V-shaped ring 404 can be fixed by fluid sealant and is set on inner core 402 so that air-flow will not promote V-arrangement Sealing ring 404 is moved axially on inner core 402, and also ensures the excellent sealing between V-shaped ring 404 and inner core 402.Limit Position block 5 can be integrally formed with inner core 402, and can be located at the end of inner core 402, it is preferred that limited block 5 can be along inner core 402 radial direction stretches out the shoulder to be formed, when limited block 5 supports the end face of internal core print seat 403, can block in Glade plane space between core print seat 403 and inner core 402, clearance flow between ensureing air-flow only between internal core print seat 403 and pedestal 401 as far as possible It is dynamic.

It should be noted that above-mentioned V-shaped ring 404, refer on sealing ring that having opened up a circle on face at one end opens Mouthful, the cross section of the opening is V-shaped.V-shaped ring 404 can be made from silica gel or rubber.

The charging connector for the radiator that the present embodiment is provided, is fixed on radiator by a pedestal 401, and and radiator Internal cavities are connected, and internal core print seat 403 is set in pedestal 401, inner core 402 are slidably equipped with internal core print seat 403, internal core print seat 403 are fixed in pedestal 401, and inner core 402 can vertically move back and forth in internal core print seat 403, in internal core print seat 403 and pedestal 401 Between formed for airflow passage, V-shaped ring 404 due to fixation be set on inner core 402, and radially be pressed on base In seat 401, therefore, when without extraneous pressure, the interior bone of pedestal can be realized and sealed, limited block 5 and V-shaped ring Spacing between 404 is more than the axial length of the internal core print seat 403 so that inner core 402 can have certain axial movement empty Between, when evacuated, the inner air of radiator can promote V-shaped ring 404 to deform, V-shaped ring 404 and pedestal 401 Gap is produced between inwall so that air stream can be passed through when vacuumizing；After vacuum is exhausted, V-shaped ring 404 is extensive Multiple deformation, now, needs to fill heat-conducting medium to the inside of radiator again, can be by directly applying to inner core 402 towards close to scattered The thrust in the direction of hot device, because V-shaped ring 404 is fixedly connected with inner core 402, when by thrust, inner core 402 can drive Together axially movable, when V-shaped ring 404 supports internal core print seat 403, V-shaped ring 404 can not be after for V-shaped ring 404 Reforwarding is moved, but nevertheless suffers from axial thrust so that V-shaped ring 404 produces curve inwardly deformation, and then V-shaped ring Gap is also generated between 404 and pedestal 401 so that heat-conducting medium also can be by the gap, and passes through internal core print seat 403 and base Gap between seat 401 is flowed into the interior intracavitary of radiator.The charging connector for the radiator that the present embodiment is provided can disposably lead to Cross an inflation inlet and realize the disposable operation that heat-conducting medium is vacuumized and filled to radiator, be conducive to improving operation effect Rate.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although The present invention is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that：It still may be used To be modified to the technical scheme described in foregoing embodiments, or equivalent substitution is carried out to which part technical characteristic； And these modification or replace, do not make appropriate technical solution essence depart from various embodiments of the present invention technical scheme spirit and Scope.

Claims (10)

1. a kind of radiator, it is characterised in that including：

Upper pipe, the upper pipe is horizontally disposed with, and one end closing of the upper pipe, the other end of the upper pipe is provided with charging connector；

Standpipe, the standpipe is connected with the upper pipe；

Down tube, the down tube includes horizontally disposed lower outer pipe and with being located in lower inner tube in the lower outer pipe, and it is described under Thermal conductive gap is left between inner tube and the lower outer pipe, the lower outer pipe is connected with the standpipe, and the two ends of the down tube are set There is the passage that supplying hot water circulation is formed in the closeouts for blocking the thermal conductive gap at two ends, the lower inner tube；

Inner chamber, the inner chamber of the standpipe of the upper pipe, and the thermal conductive gap between the lower outer pipe and lower inner tube are common Heat-conducting medium is filled with surrounding in vacuum chamber, the vacuum chamber；

The charging connector includes pedestal, inner core, internal core print seat, V-shaped ring, limited block, guide sleeve, pressure section and spring；

Wherein, one end of the pedestal is connected with the upper pipe, offers the inner chamber with the upper pipe in the pedestal vertically The through hole being connected；The inner core is coaxially disposed in the through hole of the pedestal；The internal core print seat is fixed in the pedestal, institute State inner core to be slidedly arranged in the internal core print seat, the inner surface formation supply stream of the internal core print seat and the pedestal passes through gap；The V V-shaped ring fixed cover one end away from the upper pipe, the v-seal on the inner core and on the internal core print seat Ring is radially pressed in the pedestal, and the V-arrangement opening of the V-shaped ring deviates from the upper pipe；The limited block is fixed on Close to one end of the upper pipe on the inner core and on the internal core print seat, the axial displacement for limiting the inner core；Institute State the axial length that the spacing between limited block and the V-shaped ring is more than the internal core print seat.

2. radiator according to claim 1, it is characterised in that some first radiatings are provided with the standpipe lateral wall Part.

3. radiator according to claim 2, it is characterised in that first radiating piece is radiated rib.

4. radiator according to claim 1, it is characterised in that also cover respectively in the outside of the upper pipe and the lower outer pipe Deduction cap is stamped, the outside of the deduction cap is provided with some second fin.

5. radiator according to claim 1, it is characterised in that in the closeouts and along the axle of the closeouts Line direction offers the interior spiral shell offered in the through hole being connected with the lower inner tube, the through hole for being connected with heat supply pipeline Line.

6. radiator according to claim 5, it is characterised in that the closeouts include being welded on one with the lower outer pipe The first weld part risen, the second weld part welded together with the lower inner tube, and for snapping onto in the lower inner tube Location division, first weld part and the lower outer pipe overlap joint welds together, second weld part and the lower inner tube Butt welding is together.

7. radiator according to claim 6, it is characterised in that away from second weld part on first weld part One end outward flange offer the first chamfering, form welding groove between first chamfering and the madial wall of the lower outer pipe.

8. radiator according to claim 6, it is characterised in that be used to weld with the lower inner tube on second weld part One end edge connect has the second chamfering, and welding groove is formed between second chamfering and the end face of the lower inner tube.

9. radiator according to claim 1, it is characterised in that one end of the upper pipe is welded with seal plug to be formed The sealed end of the upper pipe, the other end of the upper pipe is welded with the charging connector to form the inflation end of the upper pipe.

10. radiator according to claim 2, it is characterised in that the upper pipe, standpipe use low-carbon with the lower outer pipe Steel integrally casting shaping, first radiating piece is aluminium flake.