CN205481695U - Energy -conserving heating device of hypervelocity - Google Patents

Abstract

The utility model discloses an energy -conserving heating device of hypervelocity, including a heating nest of tubes, an inner tube, an upper end cover and a bottom end cover. The heating nest of tubes contains a quartz capsule, a superconductive coating of nanometer of locating the quartz capsule lateral surface, and two electrodes of locating the quartz capsule outer peripheral edges. The inner tube holds to be located in the quartz capsule to define out a runner jointly with the quartz capsule. Quartz capsule and inner tube top are located to the upper end cap seal, have plural apopore and last lockhole. Quartz capsule and inner tube bottom are located to the lower extreme cap seal, have plural blasthole and lower lockhole. After adopting above -mentioned technical scheme, the superconductive coating of nanometer of circular telegram can produce high temperature fast to carry out the transient heating to the fluid in the runner of flowing through, reach the benefit of rapid heating.

Description

Ultrahigh speed energy-saving heating apparatus

Technical field

This utility model about the technical field of a kind of heater, particularly a kind of ultrahigh speed energy-saving heating apparatus.

Background technology

Hot-water supply device (such as water heater or boiler) is the most extensively used by general family or industry, and There is provided as hot water.Common hot-water supply device, distinguishes with the energy；It is broadly divided into electric energy or petrochemical industry energy. Wherein, electric energy is to utilize resistance heat pipe to produce heat, makes water temperature improve, such as common electric heater.And stone Change can be then to utilize heating chamber burning petrochemical material, and produced heat is delivered to aqueduct, in making aqueduct Water temperature improve.But, above two mode of heating, all there is the efficiency of heating surface low, the big grade of energy loss lacks Lose.

Additionally, electric heater utilizes electricity to drive heater and water Direct Contact Heating, therefore once maintain improper or have During fault, often there is the risk of electric leakage, cause the danger of user water.

Utility model content

Because the problems referred to above, the purpose of this utility model, i.e. by design isolation water, the electricity of structure, carry For user one safety and instantaneous hungry heater, meet the user demand to quickly heating.

For reaching above-mentioned purpose, the utility model proposes a kind of ultrahigh speed energy-saving heating apparatus, comprising: one Add heat pipe heat, comprise a quartz ampoule, a nano superconductive coating and two electrodes；This nano superconductive coating is arranged In quartz ampoule outer surface, quickly produce high temperature in order to be energized；Electrode is respectively arranged at quartz ampoule two end periphery Edge, and abut with nano superconductive coating；

One inner tube, for hollow tubular body, is located in this quartz ampoule, inside inner tube lateral surface and this quartz ampoule Face, defines a runner jointly；

One upper end cover, coupling quartz ampoule is arranged with inner tube top end opening, has plural apopore and locks with plural number Hole；Each apopore is formed running through runner top, the end upper end cover, and connection runner is with outside；Upper lockhole system Top, the end are run through upper end cover and are formed, and outside corresponding quartz ampoule；

One bottom end cover, joins this quartz ampoule and arranges with inner tube bottom end opening, has plural blasthole and locks under plural number Hole；Each blasthole system to should runner, top, the end are run through bottom end cover and are formed, to connect runner with outside；Respectively This lower lockhole coupling respectively on this lockhole top, the end run through this bottom end cover and formed.

It is also preferred that the left respectively this electrode is annular metal sheet.

It is also preferred that the left this adds heat pipe heat outer peripheral edge is arranged with an outer tube, and this outer tube top and bottom ends further

Abut with this upper end cover and this bottom end cover respectively.

Further improving, nano superconductive coating is material with carbon element.

Further improving, upper end cover has electric open-work at least further, upper electric open-work system pushes up,

The end, is run through upper end cover and is formed, and is positioned at outside quartz ampoule.

Further improving, bottom end cover has the most electrically open-work further, lower electric open-work system top,

The end, is run through bottom end cover and is formed, and is positioned at outside quartz ampoule.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of ultrahigh speed energy-saving heating apparatus embodiment one.

Fig. 2 is the generalized section of Fig. 1.

Fig. 3 is the decomposing schematic representation of Fig. 2.

Fig. 4 is the partial schematic diagram of Fig. 3.

Fig. 5 is the intention of ultrahigh speed energy-saving heating apparatus embodiment two.

Fig. 6 is the schematic diagram of ultrahigh speed energy-saving heating apparatus embodiment three.

Fig. 7 is the schematic diagram of ultrahigh speed energy-saving heating apparatus embodiment four.

Wherein: 100, ultrahigh speed energy-saving heating apparatus；10, heat pipe heat is added；12, quartz ampoule；14, receive Rice superconducting coating；18, runner；162, electrode；164, electrode；20, inner tube；30, outer tube；30’、 Outer housing；40, upper end cover；40 ', upper end cover；42, apopore；44, upper lockhole；46, upper the most saturating Hole；50, bottom end cover；50 ', bottom end cover；52, blasthole；54, lower lockhole；56, lower electric open-work； A, external power source；B, sensor；C, locking bolt；D1, coil pipe；D2, oil supply loop；W1, aqua storage tank； W2, back with water inlet line；W3, water supply line；W4, discharge opening；W6, hot-water return；P1, pump；P2, pressure Power valve.

Detailed description of the invention

Hereinafter refer to relevant figure and further illustrate ultrahigh speed energy-saving heating apparatus embodiment of the present utility model. For ease of understanding the embodiment of utility model, following identical parts all uses same-sign to indicate explanation.

Refer to shown in Fig. 1 to Fig. 4, ultrahigh speed energy-saving heating apparatus 100 of the present utility model, comprise one and add Heat pipe heat 10, one inner tube 20, outer tube 30, upper end cover 40 and a bottom end cover 50, wherein；

The described heat pipe heat 10 that adds includes quartz ampoule 12, nano superconductive coating 14 and two electrodes 162,164. Quartz ampoule 12 is a hollow tubular body.Nano superconductive coating 14 is arranged at quartz ampoule 12 outer surface, in order to logical Electricity and quickly produce high temperature；During enforcement, nano superconductive coating 14 is material with carbon element.Electrode 162,164 is respectively Quartz ampoule 12 2 end outer peripheral edge is set, and abuts with nano superconductive coating 14, it is provided that external power source A (power supply Line) connect, bridge joint external power source A is to nano superconductive coating 14.Certainly electrode 162,164 can also use Annular metal sheet form, in order to prevent the risk of electric arc.

Said inner tube 20 is hollow tubular body, is located in quartz ampoule 12, and inner tube 20 lateral surface is with quartzy Pipe 12 medial surface, defines a runner 18 jointly.Through the caliber of runner 18 limit quartz ampoule 12, in order to The usefulness of coupling nano superconductive coating 14, limit fluid flows through the flow in quartz ampoule 12.

Described outer tube 30 set is held in the mouth in quartz ampoule 12 outer peripheral edge, and in order to protect quartz ampoule 12, nano superconductive is coated with The components such as layer 14 and each electrode 162,164, and the thermal source that can completely cut off nano superconductive coating 14 generation is excessive. Additionally in implementation process, outer tube 30 also can omit on demand.

Described upper end cover 40 mates quartz ampoule 12, inner tube 20, outer tube 30 top end opening, in order to seal stone English pipe 12, inner tube 20, the top end opening cross section of outer tube 30.Upper end cover 40 have plural apopore 42, Upper lockhole 44 and upper electric open-work 46.Corresponding runner 18 position of each apopore 42 (between quartz ampoule 12 with Between inner tube 20), top, the end, run through upper end cover 40 and formed, and connection runner 18 is with outside.Each upper lockhole 44 And each electric open-work 46, top, the end run through upper end cover 40 and formed, and its position is between quartz ampoule 12 and outer housing Between pipe 30.During enforcement, each electric open-work 46 is to provide external power source A (power line) or sensor B Stretch through, also can the most optionally omit.

Described bottom end cover 50 mate quartz ampoule 12, inner tube 20, outer tube 30 bottom end opening lock set, in order to close Envelope quartz ampoule 12, inner tube 20, the cross section of outer tube 30 bottom end opening.Bottom end cover 5 has plural blasthole 52, lower lockhole 54 and lower electric open-work 56.Corresponding runner 18 position of each blasthole 52 is (between quartz ampoule Between 12 and inner tube 20), top, the end, run through bottom end cover 50 and formed, to connect runner 18 with outside.Under each Lockhole 54 and each lower electric open-work 56 be top, the end run through bottom end cover 50 and formed, its position is between quartz ampoule 12 And between outer tube 30.During enforcement, each lower electric open-work 56 provides external power source A (power line) or passes Sensor B stretches through, and the most optionally omits.It addition, each upper and lower lockhole 44,54 coupling, and provide lock Bolt C stretches through, and lock upper and lower end cap 40,50.

Above-mentioned is each portion component of a preferred embodiment ultrahigh speed energy-saving heating apparatus provided by the utility model And the introduction of assembling mode, embodiment start feature the most of the present utility model is described below.

First, external power source A (power line) can stretch through via upper (under or) electrically open-work 46 (56), enters In outer tube 30, and be connected with each electrode 162,164, and respectively go out, blasthole 42,52 respectively with feed flow Pipeline connects, and allows the liquid in feed flow pipeline flow through the runner 18 adding heat pipe heat 10.Drive through electric current and arrange Nano superconductive coating 14 outside quartz ampoule 12 so that it is quickly produce high temperature, and flow through in quartz ampoule 12 Liquid heat, reach the purpose quickly adding hot liquid.

Illustrated from above-mentioned start, of the present utility model add heat pipe heat 10, quartz ampoule 12 separate water, electricity, To stop the considerable safety secret worries such as electric leakage.And through nano superconductive coating 14 as quartz ampoule 12 outer surface Thermo electric material, there is splendid heating efficiency.From experiment information, the water of one liter can be in power consumption Under 3500W (watt), in 90 seconds, it is heated to boiling point.

Refering to Fig. 5, this utility model ultrahigh speed energy-saving heating apparatus the second embodiment, technical scheme is implemented on Hot water supply system, it includes plural number ultrahigh speed energy-saving heating apparatus 100, at least aqua storage tank W1, a dish Pipe D1, an oil supply loop D2, back with water inlet line W2, water supply line W3, a discharge opening W4, and a pump P1, wherein；

Each ultrahigh speed energy-saving heating apparatus 100, coil pipe D1 and pump P1 in this programme, according to design requirement one by one Being serially connected with on oil supply loop D2, and make coil pipe D1 be placed in aqua storage tank W1, aqua storage tank W1 divides the most again It is not connected with back with water inlet line W2, water supply line W3 and discharge opening W4.

Said pump P1 drives cycle stock flowing in oil supply loop D2, sequentially flows through this programme each ultrahigh speed joint Energy heater 100, by each ultrahigh speed energy-saving heating apparatus 100 mode of heating one by one, echelon heating fuel feeding Cycle stock in the D2 of loop, when making the cycle stock after heating flow through coil pipe D1, can with in aqua storage tank W1 Water storage carry out heat exchange, and heat the water storage in aqua storage tank W1, use the hot water needed for generation, and pass through Water supply line W3 carries.It addition, can pass through back with water inlet line W2 to supplement the water storage in aqua storage tank W1.Or pass through Discharge opening W4 lets out except the water storage in aqua storage tank W1.

Control for convenience and the safety of system, can (stone in each ultrahigh speed energy-saving heating apparatus 100 on demand Between English pipe 12 and outer housing 30) and aqua storage tank W1 in, sensor B (as shown in Figure 3) is set.This sensing Device B can be temperature detector or pressure transducer, obtains ultrahigh speed energy-saving heating apparatus 100, water storage through sensor Groove W1, the temperature of oil supply loop D2 or pressure information, it is provided that user can visually or provide back-end controller conduct Signal source (not shown), it is ensured that system is in the temperature of a safety and start under pressure.

Refering to Fig. 6, the 3rd embodiment of ultrahigh speed energy-saving heating apparatus, this creation is implemented on another kind of hot water Supply system, it includes that plural number ultrahigh speed energy-saving heating apparatus 100, at least aqua storage tank W1, a hot water return Road W6, back with water inlet line W2, water supply line W3 mono-discharge opening W4 and pressure valve P2, wherein； Each ultrahigh speed energy-saving heating apparatus 100, hot water storgae W5 and pump P1, be serially connected with hot-water return W6 the most one by one On, and back with water inlet line W2, water supply line W3 and pressure valve P2, then it is connected with aqua storage tank W1.

Water storage in above-mentioned aqua storage tank W1, by hot-water return W6 after drawing via pump P1, sequentially flows through each super High-speed and energy-saving heater 100, through each ultrahigh speed energy-saving heating apparatus 100, echelon heat hot water loop W6 In water storage, make the water storage after heating be back to aqua storage tank W1 once again, the most repeatedly, with the aqua storage tank W1 that heats up In water storage arrive a default temperature, facilitate the user can be by the water intaking end (not shown) on water supply line W3 Obtain the hot water in aqua storage tank W1.

It addition, in order to avoid the hypertonia in aqua storage tank W1, can pass through the pressure valve connecting aqua storage tank W1 P2, the in good time pressure in regulation aqua storage tank W1.

Refer to shown in Fig. 7, the 4th embodiment of the present utility model, according to the demand implemented, can be by plural number Add heat pipe heat 10 (containing inner tube 20) and share a upper end cover 40 ', a bottom end cover 50 ' and an outer housing 30 ' the most in fact Impose on majority and add assembling and the use of heat pipe heat 10 (containing inner tube 20).

The above explanation, better embodiment the most of the present utility model, it is intended that this practicality clear and definite is new The feature of type, is not limited to the scope of this utility model embodiment, general technology in the art The impartial change that personnel are made according to the technical solution of the utility model, and known to those skilled in that art Change, the scope that this utility model is contained must be belonged to.

Claims (6)

1. a ultrahigh speed energy-saving heating apparatus, comprising:

One adds heat pipe heat, comprises a quartz ampoule, a nano superconductive coating and two electrodes；This nano superconductive coating sets Put at this quartz ampoule outer surface, quickly produce high temperature in order to be energized；Each electrode is respectively arranged at quartz ampoule two End outer peripheral edge, and abut with nano superconductive coating；

One inner tube, for hollow tubular body, is located in quartz ampoule, and inner tube lateral surface and quartz ampoule medial surface, altogether With defining a runner；

One upper end cover, coupling quartz ampoule is arranged with inner tube top end opening, has plural apopore and lockhole on plural number； Each apopore is to be formed should run through runner top, the end upper end cover, and connection runner is with outside；Each upper lockhole is Top, the end are run through this upper end cover and are formed, and to should be outside quartz ampoule；

One bottom end cover, coupling quartz ampoule is arranged with inner tube bottom end opening, has plural blasthole and lockhole under plural number； Each blasthole be to should runner, top, the end are run through this bottom end cover and are formed, to connect runner with outside；Under each Lockhole coupling respectively on this lockhole top, the end run through this bottom end cover and formed.

2. ultrahigh speed energy-saving heating apparatus as claimed in claim 1, described electrode is annular metal sheet.

3. ultrahigh speed energy-saving heating apparatus as claimed in claim 2, described in add heat pipe heat outer peripheral edge and be arranged with outside one Vestlet, and this outer tube top and bottom ends abuts with this upper end cover and this bottom end cover respectively.

4. the ultrahigh speed energy-saving heating apparatus as according to any one of claims 1 to 3, described nano superconductive Coating is material with carbon element.

5. the ultrahigh speed energy-saving heating apparatus as according to any one of claims 1 to 3, described upper end cover has Having electric open-work at least, upper electric open-work is top, the end to run through this upper end cover and formed, and is positioned at quartz ampoule Outside.

6. the ultrahigh speed energy-saving heating apparatus as according to any one of claims 1 to 3 item, described bottom end cover has The most electric open-work, lower electric open-work is top, the end to run through this bottom end cover and formed, and be positioned at outside quartz ampoule Side.