CN207635442U - Radiating device for central heating - Google Patents

Abstract

The utility model is related to a kind of radiating device for central heating, including heat-dissipating pipe, the heat-dissipating pipe is two or two or more and is arranged side by side, and be connected to heat-dissipating pipe inject circulation medium into heat-dissipating pipe enter pipe, and the discharge pipe for circulation medium outflow in heat-dissipating pipe is connected to heat-dissipating pipe；The blow mechanism for blowing the heat that heat-dissipating pipe gives off outward, and the clamping mechanism for being assemblied in blow mechanism between heat-dissipating pipe are provided between adjacent heat radiation pipe.Radiator is discharged by discharge pipe by entering in heat-dissipating pipe into pipe in fluid media (medium)；Circulation medium passes through during heat-dissipating pipe, is radiated outside by heat-dissipating pipe, due to the setting of blow mechanism, can accelerate the diffusion of heat-dissipating pipe outside heat around, strengthen heat dissipation effect.

Description

Radiating device for central heating

Technical field

The utility model is related to a kind of radiating device for central heating.

Background technology

Radiating device for central heating is the heat entrained by heat medium water when the higher heat medium water of temperature flows through in heating system radiating tube Amount is constantly transmitted to the lower object of temperature by heating system radiating tube, to realize that the temperature difference of thermal energy is transmitted.Current heating dissipates The problem of thermal is due to structure design, heat medium water cannot quickly be spread by heat-dissipating pipe institute radiations heat energy, lead to radiator heat Radiation velocity is low.

Utility model content

In view of the above technical problems, the purpose of this utility model is to provide a kind of reasonable in design, can accelerate heat To the radiating device for central heating of external radiation.

The technical scheme for implementing the utility model is as follows：

Radiating device for central heating, including heat-dissipating pipe, the heat-dissipating pipe be two or two or more be arranged side by side, and with heat dissipation Pipe is connected to the entrance pipe that circulation medium is injected into heat-dissipating pipe, and the row flowed out for circulation medium in heat-dissipating pipe is connected to heat-dissipating pipe Outlet pipe；

The blow mechanism for blowing the heat that heat-dissipating pipe gives off outward is provided between adjacent heat radiation pipe, and being used for will Blow mechanism is assemblied in the clamping mechanism between heat-dissipating pipe.

Further, when the heat-dissipating pipe is three or three or more, be layering state above and below heat-dissipating pipe arrangement form, Retain interval between the heat-dissipating pipe of upper and lower interlayer, every layer includes one or more heat-dissipating pipe.

Further, keeping parallelism between adjacent heat radiation pipe.

Further, the heat-dissipating pipe is the medium channel that inside is flat.

Further, the blow mechanism is the axial flow blower between adjacent heat radiation pipe.

Further, the clamping mechanism includes the first deck being stuck on heat-dissipating pipe, the second deck, the first card Seat is respectively provided on the second deck and is adapted card slot heat-dissipating pipe to be caught in heat dissipation tube outer surface, in the first deck and the Mounting platform is provided between two decks, the blow mechanism is assemblied on mounting platform.

Further, after first deck, the second deck are stuck on corresponding heat-dissipating pipe, the both ends difference one of mounting platform One corresponding withstand on the first deck, forms limit on the second deck.

Above-mentioned technical proposal is used, fluid media (medium) is discharged by discharge pipe and is dissipated by entering in heat-dissipating pipe into pipe Thermal；Circulation medium passes through during heat-dissipating pipe, is radiated outside by heat-dissipating pipe, can due to the setting of blow mechanism Accelerate the diffusion of heat-dissipating pipe outside heat around, strengthens heat dissipation effect.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model；

Fig. 2 is the dimensional structure diagram that top section heat-dissipating pipe is removed in Fig. 1；

Fig. 3 is the assembly dimensional structure diagram of deck and mounting platform in the utility model；

Fig. 4 is the planar structure schematic diagram of Fig. 3；

Fig. 5 is the dimensional structure diagram of deck in the utility model；

Fig. 6 is the planar structure schematic diagram of Fig. 5；

In figure：1 is heat-dissipating pipe, and 2 be gear block, and 3 is enter pipe, and 4 be discharge pipe, and 5 be mounting hole, and 6 be axial flow blower, 7 It is the second deck for the first deck, 8,9 be card slot, and 10 be mounting platform, and 11 be holding section, and 12 be accommodating space.

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer The technical solution of the utility model embodiment is clearly and completely described in the attached drawing of type embodiment.Obviously, described Embodiment is a part of the embodiment of the utility model, instead of all the embodiments.Based on described the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of without creative work, all belongs to In the range of the utility model protection.

As shown in Fig. 1-6, radiating device for central heating, including heat-dissipating pipe 1, heat-dissipating pipe are two or two or more and are arranged side by side, Here heat-dissipating pipe arrangement can be arranged side by side to form one layer just like under type, the arrangement of single layer, i.e. more heat-dissipating pipes, phase Retain interval between adjacent heat-dissipating pipe.The arrangement of multilayer, on the basis of single layer, superposing type is arranged, to increase the number of plies, The specific number of plies is set as needed, the heat-dissipating pipe group arranged as shown two superimposed in the application.Upper layer and lower layer it Between formed interval, i.e., left and right neighbouring heat-dissipating pipe between do not contact.Heat-dissipating pipe in the application uses straight tube, adjacent to dissipate Keeping parallelism between heat pipe, is also arranged bending shape by heat-dissipating pipe, to increase stroke of the circulation medium in heat-dissipating pipe, while Increase the swept area of radiator.Heat-dissipating pipe is the medium channel that inside is flat, naturally it is also possible to be round or rectangular etc. Deng.Heat-dissipating pipe peripheral surface can be round or flat or rectangular etc. in the projection of its axis direction.

And it forms arranged crosswise with heat-dissipating pipe and injects the tubular into pipe 3, and with radiating of circulation medium into heat-dissipating pipe The discharge pipe 4 flowed out for circulation medium in heat-dissipating pipe at arranged crosswise；The both ends of heat-dissipating pipe are respectively at into pipe and discharge pipe； Branched pipe corresponding with heat-dissipating pipe quantity can be fixedly welded on into pipe (discharge pipe), one end and the entrance of branched pipe are managed (discharge pipe) is connected to, and the other end stretches into heat-dissipating pipe (branched pipe carries out welding formation sealing after stretching into heat-dissipating pipe), is passed through in this way Enter in different heat-dissipating pipes by the water conservancy diversion of respective branch pipe into the circulation medium in pipe, again by corresponding branched pipe Concentration flows back into discharge pipe.Entirety is formed by welding manner into pipe, branched pipe and heat-dissipating pipe.

The blow mechanism for blowing the heat that heat-dissipating pipe gives off outward is provided between adjacent heat radiation pipe, in the application Blow mechanism is the axial flow blower 6 between adjacent heat radiation pipe.The blowing direction of axial flow blower can be with the axis of heat-dissipating pipe Direction is consistent, and axial flow blower can also be formed to the installation of certain angle, axial flow blower is made to be blown towards the outside of radiator Wind.

And the clamping mechanism for being assemblied in blow mechanism between heat-dissipating pipe, clamping mechanism include being stuck in heat dissipation The first deck 7, the second deck 8 on pipe are respectively provided on first deck, the second deck and are adapted with will with heat dissipation tube outer surface The card slot 9 that heat-dissipating pipe is caught in is provided with mounting platform 10 between the first deck and the second deck, is offered on mounting platform For axial flow blower assembly mounting hole 5, the axial line of mounting hole can be consistent with the axial line of heat-dissipating pipe, make axial flow blower along The axis direction of heat-dissipating pipe is blown, and can also generate certain angle, axial flow blower is made to blow outwardly, with specific reference to needs It is selected.Blow mechanism is assemblied on mounting platform.It, can be on the axis direction of heat-dissipating pipe when the length of tube that radiates is longer Arrange multigroup axial flow blower.After first deck, the second deck are stuck on corresponding heat-dissipating pipe, the both ends difference one of mounting platform is a pair of That answers withstands on the first deck, forms limit on the second deck.Due to using upper and lower two groups of heat-dissipating pipes, the shape of deck in the present embodiment Formula is arranged to have holding section 11 up and down, and card slot is set to the lateral surface of holding section, is formed between two holding sections flat for installing The accommodating space 12 that end portion is inserted into, after assembly in place, the end face of mounting platform is withstood on deck, can be fixed on deck Be arranged (integrated molding) to mounting platform side formed gear gear block 2, it is ensured that mounting platform without departing from deck.Using The deck of this spline structure, the openings of sizes of card slot can be less than the half of the peripheral surface of heat-dissipating pipe, i.e. card slot may enclose scattered Less than half of heat pipe peripheral surface.And when using single layer radiation tube structure with heat, the opening needs of card slot do the adjustment adapted to, that is, block The opening of slot surrounds more than half of heat-dissipating pipe peripheral surface, to block heat-dissipating pipe by card slot, deck is avoided to be detached from heat-dissipating pipe.

The course of work of the application is：Supply and return water temperature is 80 DEG C and 60 DEG C, and hot water is carried out through flowing through heat-dissipating pipe into pipe Heat dissipation, to transfer heat to outside, is then discharged by discharge pipe.In order to strengthen heat dissipation effect, added between heat-dissipating pipe Axial flow blower is diffused the heat that heat-dissipating pipe gives off.

Heat-dissipating pipe in the utility model uses steel material, and price is cheaply very than casting aluminium material and copper aluminum composite material More, performance is also more stable.

Wind turbine and deck use heat distortion temperature in 80 degree or more of heat-resisting plastic or aluminium, it is avoided to be become by heat Shape.

By adding axial flow blower, experiments verify that, under supply and return water temperature unanimous circumstances, heat dissipation effect is common 2-3 times of steel heating installation are 1-2 times of Copper-Aluminum compound and cast aluminium heat sink.Due to steel heating installation price more It is low, even if in the case where adding minisize axial-flow wind turbine, the price and Copper-Aluminum compound of single group steel heating system radiating tube, cast aluminium heating The single group price of pipe is similar, but heat dissipation performance is more preferable, cost performance higher.Meanwhile by adding wind turbine heat radiation device Environmental protection and energy saving, realize the efficient utilization of the energy.

Claims (7)

1. radiating device for central heating, including heat-dissipating pipe, which is characterized in that the heat-dissipating pipe is arranged side by side for two or two or more, And it is connected to heat-dissipating pipe and injects being connected to for Jie that circulates in heat-dissipating pipe into pipe, and with heat-dissipating pipe for circulation medium into heat-dissipating pipe The discharge pipe that mass flow goes out；

The blow mechanism for blowing the heat that heat-dissipating pipe gives off outward is provided between adjacent heat radiation pipe, and for that will blow Mechanism is assemblied in the clamping mechanism between heat-dissipating pipe.

2. radiating device for central heating as described in claim 1, which is characterized in that when the heat-dissipating pipe is three or three or more, Heat-dissipating pipe arrangement form is layering state up and down, retains interval between the heat-dissipating pipe of upper and lower interlayer, every layer include one with On heat-dissipating pipe.

3. radiating device for central heating as described in claim 1, which is characterized in that keeping parallelism between adjacent heat radiation pipe.

4. radiating device for central heating as described in claim 1, which is characterized in that the heat-dissipating pipe is that the medium that inside is flat is logical Road.

5. the radiating device for central heating as described in any one of claim 1-4, which is characterized in that the blow mechanism be in Axial flow blower between adjacent heat radiation pipe.

6. the radiating device for central heating as described in any one of claim 1-4, which is characterized in that the clamping mechanism includes point The first deck, the second deck not being stuck on heat-dissipating pipe, are respectively provided on the first deck, the second deck and the tube outer surface phase that radiates The card slot heat-dissipating pipe to be caught in is adapted to, mounting platform, the blow mechanism are provided between the first deck and the second deck It is assemblied on mounting platform.

7. radiating device for central heating as claimed in claim 6, which is characterized in that first deck, the second deck are stuck in correspondence After on heat-dissipating pipe, the both ends of mounting platform withstand on the first deck, form limit on the second deck correspondingly respectively.