CN108507002A - Solid electric heat storage radiator and heating equipment - Google Patents

Abstract

The present invention provides a kind of solid electric heat storage radiators, are formed by bond above and below multilayer gitter brick group；Gitter brick group is equipped with air duct unit；Multi-layer air channel unit connects up and down successively constitutes air duct；Two opposite side walls in air duct are curved surface, other two opposite side wall is plane；The intermediate position internal diameter in air duct is less than air inlet end face internal diameter；Heating tube and multiple long direction eddy generators are equipped in air duct.Solid electric heat storage radiator provided by the invention, curved-surface structure accelerate wind free convection speed inside air duct, improve radiating efficiency, long direction eddy generator can greatly generate vortex, augmentation of heat transfer.The present invention also provides a kind of heating equipments, including shell, and solid electric heat storage radiator, solar energy radiator and the electric energy storage device being respectively arranged in shell；Solar energy radiator connects solar thermal collector；Electric energy storage device connects solar panel.Heating equipment provided by the invention utilizes different energy source heatings, efficiently utilizes solar energy, environmentally protective.

Description

Solid electric heat storage radiator and heating equipment

Technical field

The invention belongs to green energy resource heating equipment technical fields, are to be related to a kind of solid electric heat storage to dissipate more specifically Hot device, and the heating equipment with the solid electric heat storage radiator.

Background technology

As economy constantly develops, the idea of environment protecting and power-saving has accounted for critical role under construction.In recent years the whole nation is each Gradually promulgate that the file for banning coal-burning boiler, the heating new paragon such as electric energy, air energy, geothermal energy gradually heat up in area.

Solid electric heat storage radiator heats gitter brick by electric heating tube, and working condition carries out for night trough-electricity Accumulation of heat, when peak electricity on daytime, carry out heat release.Heat release form has：Free convection inside radiator, external radiation, external free convection. Radiator internal convection realizes that air duct is arranged on two layers of gitter brick by air duct, and the section in air duct in the prior art is square The heat dissipation effect of shape, air duct is poor, and when brick temperature drop is to 300 DEG C or so, gitter brick heat cannot discharge well.

In addition, existing green energy resource heating equipment mostly uses greatly electric heating on the market, power consumption is big, costly.

Invention content

The purpose of the present invention is to provide a kind of solid electric heat storage radiators, are dissipated with solving air duct existing in the prior art The technical problem of thermal effect difference.

To achieve the above object, the technical solution adopted by the present invention is：A kind of solid electric heat storage radiator is provided, by multilayer Bond forms gitter brick group up and down；The gitter brick group includes two pieces of gitter bricks, and the gitter brick is equipped with groove, two grooves It is connected to each other and constitutes air duct unit；Multi-layer air channel unit connects up and down successively constitutes air duct；Two opposite side walls in the air duct Other two opposite side wall for curved surface, air duct is plane, and the plane connects successively with the curved surface；The air duct into The internal diameter of wind end face is equal to the internal diameter of outlet air end face, and the internal diameter at the intermediate position in air duct is less than the internal diameter of air inlet end face；The wind Heating tube is equipped in road；The side wall in the air duct is equipped with multiple long direction eddy generators.

Further, the long direction eddy generator is equipped with multigroup in the horizontal direction, and every group of long direction eddy generator is vertically square To equipped with multiple；

The level interval of two adjacent groups long direction eddy generator is identical as the neighbouring spacing of two long direction eddy generators； Horizontally adjacent long direction eddy generator is staggered.

Further, the gitter brick surface is equipped with equadag coating.

Further, the air outlet in the air duct is connected with multiple shuttle-type ventilator.

The advantageous effect of solid electric heat storage radiator provided by the invention is：Compared with prior art, solid of the present invention Two opposite side walls of electric heat storage radiator, air duct are curved surface, other two opposite side wall in air duct is plane, curved surface knot Structure accelerates the speed of wind free convection inside air duct, enhances the effect of free convection, improves the radiating efficiency of gitter brick, It, also can good heat release when the internal temperature of gitter brick is relatively low；Long direction eddy generator can greatly generate vortex, improve The concertedness in the speed occasion temperature field in air duct destroys boundary layer, augmentation of heat transfer.

It is another object of the present invention to provide a kind of heating equipments, to solve heating equipment existing in the prior art Big, the costly technical problem of power consumption.

To achieve the above object, the technical solution adopted by the present invention is：A kind of heating equipment, including shell are provided, and Solid electric heat storage radiator, solar energy radiator and the electric energy storage device being respectively arranged in the shell；

The solid electric heat storage radiator is above-mentioned fixation electric heat storage radiator；

The solar energy radiator is connected with solar thermal collector；The solar thermal collector is set to hull outside；

The electric energy storage device is connected with solar panel；The solar panel is set to hull outside.

Further, the solar thermal collector includes holder, fixed motor on the bracket and the motor The connected speed reducer of output shaft, the shaft connected with the output shaft of the speed reducer, the U-shaped speculum being connect with the shaft, The heat collecting chamber being set to inside the U-shaped speculum, and it is fixed on the focus lamp at the top of the heat collecting chamber；It is set on the holder It is useful for the controller for controlling the motor and speed reducer operating.

Further, the solar energy radiator includes multiple heat dissipation elements, and is looped around around the heat dissipation element Heat exchanger tube；The heat exchanger tube is connect with the heat collecting chamber.

Further, the electric energy storage device includes accumulator, and the control cabinet being electrically connected with the accumulator；The shell External wall is equipped with real time temperature and the accumulator being electrically connected with the control cabinet for showing the solar energy radiator The control panel of electricity；The control panel is equipped with the control button for controlling the solar energy radiator start and stop.

Further, it is respectively equipped with temperature sensor on the solid electric heat storage radiator and the solar energy radiator.

Further, it is dissipated in solid electric heat storage on the inner wall of the close solid electric heat storage radiator of the shell, in shell Thermal insulation board is respectively equipped between hot device and solar energy radiator, in shell between solar energy radiator and electric energy storage device and hides heat Plate.

The advantageous effect of heating equipment provided by the invention is：Compared with prior art, heating equipment of the present invention, solid Electric heat storage radiator is main heat-releasing apparatus, carries out accumulation of heat in night trough-electricity, and when peak electricity on daytime carries out heat release, the sun For energy radiator as supplemental heat source, the heat release in night trough-electricity and solid electric heat storage radiator quantity of heat storage deficiency on daytime removes this Except, when required thermic load is little within warm season initial stage and latter stage room, solar energy radiator heat release can be only used, to save Electric quantity consumption.Electric energy storage device can be converted solar energy into electrical energy and be stored, the auxiliary electricity consumption as solid electric heat storage radiator. The heating equipment of the present invention utilizes different energy source heatings, efficiently utilizes solar energy, environmentally protective.

Description of the drawings

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to embodiment or description of the prior art Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description be only the present invention some Embodiment for those of ordinary skill in the art without having to pay creative labor, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is the structural schematic diagram of solid electric heat storage radiator provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the gitter brick group of solid electric heat storage radiator provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the long direction eddy generator of solid electric heat storage radiator provided in an embodiment of the present invention；

Fig. 4 is the distribution schematic diagram of the long direction eddy generator of solid electric heat storage radiator provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of the shuttle-type ventilator of solid electric heat storage radiator provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of heating equipment provided in an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of the solar thermal collector of heating equipment provided in an embodiment of the present invention.

In figure：10, gitter brick group；11, gitter brick；12, air duct unit；13, air duct；14, heating tube；15, longitudinal Vortex is sent out Raw device；16, shuttle-type ventilator；20, shell；21, thermal insulation board；22, insulation board；23, temperature display panel；30, solar energy radiator； 31, heat dissipation element；32, heat exchanger tube；41, holder；42, motor；43, speed reducer；44, shaft；45, U-shaped speculum；46, thermal-arrest Room；47, focus lamp；48, controller；50, electric energy storage device；51, accumulator；52, control cabinet；53, control panel；60, solar energy Solar panel.

Specific implementation mode

In order to make technical problems, technical solutions and advantages to be solved be more clearly understood, tie below Accompanying drawings and embodiments are closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only To explain the present invention, it is not intended to limit the present invention.

It should be noted that when element is referred to as " being fixed on " or " being set to " another element, it can be directly another On one element or it is connected on another element.When an element is known as " being connected to " another element, it can To be directly to another element or be indirectly connected on another element.

It is to be appreciated that term " length ", " width ", "upper", "lower", "front", "rear", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "top", "bottom" "inner", "outside" is that orientation based on ... shown in the drawings or position are closed System, is merely for convenience of description of the present invention and simplification of the description, not indicating or implying the indicated device or element must have Specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the present invention, " multiple ", " several " be meant that two or Two or more, unless otherwise specifically defined.

Also referring to Fig. 1 and Fig. 2, now solid electric heat storage radiator provided by the invention is illustrated.The solid Electric heat storage radiator is formed by about 10 bond of multilayer gitter brick group；Gitter brick group 10 includes two pieces of gitter bricks being oppositely arranged 11, gitter brick 11 is equipped with groove, and two grooves, which are connected to each other, constitutes air duct unit 12；Multi-layer air channel unit 12 connects up and down successively Constitute air duct 13；Two opposite side walls in air duct 13 are curved surface, and refering to Fig. 6, other two opposite side wall in air duct 13 is Plane, plane connect successively with curved surface；The radius of curvature of curved surface is 2.14.The internal diameter of the air inlet end face in air duct 13 is equal to outlet air end The internal diameter in face, the internal diameter at the intermediate position in air duct 13 are less than the internal diameter of air inlet end face；Heating tube 14 is equipped in air duct 13；Air duct 13 Side wall be equipped with multiple long direction eddy generators 15.

Solid electric heat storage radiator provided by the invention, compared with prior art, two opposite side walls in air duct 13 are Curved surface, other two opposite side wall are plane, and curved-surface structure accelerates the speed of 13 inside wind free convection of air duct, enhances The effect of free convection improves the radiating efficiency of gitter brick 11, when the internal temperature of gitter brick 11 is relatively low, can also put well Heat；Long direction eddy generator 15 can greatly generate vortex, destroy boundary layer, augmentation of heat transfer.

Specifically, heating tube 14 is resistance alloys heater strip, and the temperature of accumulation of heat can be improved, store more heats.Add Heat pipe 14 is spirally distributed in air duct 13.

Further, referring to Fig. 4, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention Formula, long direction eddy generator 15 are equipped with multigroup, every group of long direction eddy generator along moving towards vertical direction i.e. horizontal direction with air duct 13 15 along the vertical direction equipped with multiple；The level interval of two adjacent groups long direction eddy generator 15 is sent out with two neighbouring longitudinal Vortexes The spacing of raw device 15 is identical；In addition, horizontally adjacent long direction eddy generator 15 is staggered.Long direction eddy generator 15 can make wind Air-flow in road 13 generates Secondary Flow enhanced heat exchange, improves the concertedness of the velocity field and temperature field in air duct 13, accelerates accumulation of heat 11 internal heat dissipating of brick；Multiple long direction eddy generators 15 are staggered so that it is evenly distributed in air duct 13, to ensure accumulation of heat It each position of brick 11 can rapid cooling.

Further, it is two symmetrically arranged right angles three that the long direction eddy generator 15 in 13 flat sidewall of air duct, which is arranged, Angle blade piece, as shown in figure 3, the long direction eddy generator 15 being arranged on 13 curved surface sidewall of air duct is single right angle trigonometry fin.Directly Angle triangle fin is made of iron plate, is fixed on 13 side wall of air duct using high-temperature plastic.

Further, a kind of specific implementation mode as solid electric heat storage radiator provided by the invention, gitter brick 11 Surface is equipped with equadag coating, and equadag coating can enhance the heat loss through radiation between gitter brick 11.

Further, Fig. 5 and Fig. 6 is please referred to, a kind of specific reality as solid electric heat storage radiator provided by the invention Mode is applied, the air outlet in air duct 13 is connected with multiple shuttle-type ventilator 16.Two opposite side walls in air duct 13 are curved surface, are caused The wind speed of center is big in air duct 13, and the wind speed at air outlet is small, shuttle-type ventilator 16 is arranged at air outlet, by going out Air port drives shuttle-type ventilator 16 to rotate with the hot pressing that 13 internal temperature differential of air duct is formed, and to increase the wind speed at air outlet, adds Strong heat dissipation.Shuttle-type ventilator 16 is not necessarily to external power supply, and use is environmentally protective.

Referring to Fig. 6, existing illustrate heating equipment provided by the invention.The heating equipment includes shell 20, with And it is respectively arranged at solid electric heat storage radiator, solar energy radiator 30 and electric energy storage device 50 in shell 20；The solid Electric heat storage radiator is the fixation electric heat storage radiator of above structure.

Solar energy radiator 30 is connected with solar thermal collector；Solar thermal collector is set to outside shell 20；

Electric energy storage device 50 is connected with solar panel 60；Solar panel 60 is set to outside shell 20.

Heating equipment provided by the invention, compared with prior art, solid electric heat storage radiator are that the heating equipment is main Heat-releasing apparatus, carry out accumulation of heat in night trough-electricity, when peak electricity on daytime carries out heat release, and solar energy radiator 30 is as supplement Heat source, the heat release in night trough-electricity and solid electric heat storage radiator quantity of heat storage deficiency on daytime, in addition to this, at warm season initial stage With when required thermic load is little in latter stage room, 30 heat release of solar energy radiator can be only used, to save electric quantity consumption.Storing up electricity is set Standby 50 can convert solar energy into electrical energy and store, the auxiliary electricity consumption as solid electric heat storage radiator.The heating of the present invention The different energy source heating of equipment utilization efficiently utilizes solar energy, environmentally protective.

Further, referring to Fig. 6, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention Formula, shell 20 are fin structure, and the lower part of shell 20 is equipped with air inlet, and top is equipped with air outlet.In solid electricity in shell 20 Thermal insulation board 21 and insulation board 22 are equipped between accumulation of heat radiator and solar energy radiator 30, shell 20 is interior in solar energy radiator 30 Thermal insulation board 21 and insulation board 22 also are provided between electric energy storage device 50, on the side wall of the close solid electric heat storage radiator of shell 22 It also is provided with thermal insulation board 21 and insulation board 22.Thermal insulation board 21 is aerogel blanket thermal insulation board, good heat-insulation effect.Insulation board 22 is that aluminium is zinc-plated Steel plate, can effectively intercept heat scatter and disappear outward.

Further, referring to Fig. 6, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention It is respectively equipped with temperature sensor on formula, solid electric heat storage radiator and solar energy radiator 30.20 outer wall of shell is equipped with temperature Display board 23, temperature display panel 23 are electrically connected with the temperature sensor being fixed on solid electric heat storage radiator, temperature display panel 23 real time temperature for showing solid electric heat storage radiator.

Further, referring to Fig. 7, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention Formula, solar thermal collector includes holder 41, the motor 42 that is fixed on holder 41, the speed reducer being connected with the output shaft of motor 42 43, with the output shaft of speed reducer 43 be connected shaft 44, connect with shaft 44 U-shaped speculum 45, be set to U-shaped speculum 45 Internal heat collecting chamber 46, and it is fixed on the focus lamp 47 at 46 top of heat collecting chamber；Holder 41 be equipped with for control motor 42 and The controller 48 that speed reducer 43 operates.

Specifically, the course of work of solar thermal collector is as follows：Motor 42 and speed reducer 43 drive shaft 44 to rotate, shaft 44 drive U-shaped speculum 45 around fixed spot wobble, and with reflected sunlight, focus lamp 47 will by processes such as reflection, focusing, absorptions Solar energy collecting is in heat collecting chamber 46.Controller 48 realizes the real-time tracing to the sun by trace routine.Solar thermal collector Luminous energy can be made to be converted into thermal energy, greatly improve heat-collecting temperature.

Further, referring to Fig. 6, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention Formula, solar energy radiator 30 include multiple heat dissipation elements 31, and the heat exchanger tube 32 being looped around around heat dissipation element 31；Heat exchanger tube 32 connect with heat collecting chamber 46.The shell of heat dissipation element 31 is copper alloy fin, and surface is coated with equadag coating, in heat dissipation element 31 Portion is full of paraffin-alum low-temperature heat accumulating material, and the mass ratio of paraffin and alum is 6:4, it radiates under the mass ratio The latent heat of phase change of element 31 is maximum.Heat exchanger tube 32 uses the efficient internal and external threads heat exchanger tube of copper alloy, and heat exchange efficiency is high, high temperature resistant.

Further, referring to Fig. 6, a kind of specific embodiment party as solid electric heat storage radiator provided by the invention Formula, electric energy storage device 50 include accumulator 51, and the control cabinet 52 being electrically connected with accumulator 51.20 outer wall of shell is equipped with and control The control panel 53 of real time temperature and accumulator 51 electricity of the electrical connection of case 52 processed for showing solar energy radiator 30；Control plane Plate 53 is electrically connected with the temperature sensor being arranged on solar energy radiator 30；Control panel 53 is equipped with for controlling solar energy The control button of 30 start and stop of radiator.Accumulator 51 is the auxiliary electricity consumption of the heating equipment, when showing electric power storage on control panel 53 The electricity in pond 51 is less than 30%, and control cabinet 52 automatically cuts off accumulator 51 and powers for solid electric heat storage radiator.

Further, solar panel 60 is made of the cadmium telluride photovoltaic material that 4 μm are smeared on simple glass, so that Glass is conductive, generates electricity, and does not interfere with the daylighting requirement of glass again, and use is environmentally protective.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (10)

1. solid electric heat storage radiator, it is characterised in that：It is formed by bond above and below multilayer gitter brick group；The gitter brick group includes Two pieces of gitter bricks, the gitter brick are equipped with groove, and two grooves, which are connected to each other, constitutes air duct unit；Multi-layer air channel unit successively on Under connect constitute air duct；Two opposite side walls in the air duct are curved surface, other two opposite side wall in air duct is plane, The plane connects successively with the curved surface；The internal diameter of the air inlet end face in the air duct is equal to the internal diameter of outlet air end face, air duct The internal diameter at intermediate position is less than the internal diameter of air inlet end face；Heating tube is equipped in the air duct；The side wall in the air duct is equipped with more A long direction eddy generator.

2. solid electric heat storage radiator as described in claim 1, it is characterised in that：The long direction eddy generator is in the horizontal direction Equipped with multigroup, every group of long direction eddy generator is equipped with multiple along the vertical direction；

The level interval of two adjacent groups long direction eddy generator is identical as the neighbouring spacing of two long direction eddy generators；

Horizontally adjacent long direction eddy generator is staggered.

3. solid electric heat storage radiator as described in claim 1, it is characterised in that：The gitter brick surface is applied equipped with graphite Layer.

4. solid electric heat storage radiator as described in claim 1, it is characterised in that：The air outlet in the air duct is connected with multiple Shuttle-type ventilator.

5. a kind of heating equipment, it is characterised in that：Including shell, and the solid electric heat storage being respectively arranged in the shell dissipates Hot device, solar energy radiator and electric energy storage device；

The solid electric heat storage radiator is the fixation electric heat storage radiator described in any one of claim 1-4；

The solar energy radiator is connected with solar thermal collector；The solar thermal collector is set to hull outside；

The electric energy storage device is connected with solar panel；The solar panel is set to hull outside.

6. heating equipment as claimed in claim 5, it is characterised in that：The solar thermal collector includes holder, is fixed on institute State the motor on holder, the speed reducer being connected with the output shaft of the motor, the shaft being connected with the output shaft of the speed reducer, The U-shaped speculum being connect with the shaft, the heat collecting chamber being set to inside the U-shaped speculum, and it is fixed on the thermal-arrest The focus lamp in ceiling portion；The holder is equipped with the controller for controlling the motor and speed reducer operating.

7. heating equipment as claimed in claim 6, it is characterised in that：The solar energy radiator includes multiple heat dissipation elements, And it is looped around the heat exchanger tube around the heat dissipation element；The heat exchanger tube is connect with the heat collecting chamber.

8. heating equipment as claimed in claim 5, it is characterised in that：The electric energy storage device includes accumulator, and with it is described The control cabinet of accumulator electrical connection；The housing exterior walls, which are equipped with, to be electrically connected with the control cabinet for showing that the solar energy dissipates The control panel of the real time temperature of hot device and the accumulator electric-quantity；The control panel is equipped with for controlling the solar energy The control button of radiator start and stop.

9. heating equipment as claimed in claim 8, it is characterised in that：The solid electric heat storage radiator and the solar energy dissipate It is respectively equipped with temperature sensor on hot device.

10. heating equipment as claimed in claim 5, it is characterised in that：The close solid electric heat storage radiator of the shell On inner wall, in shell between solid electric heat storage radiator and solar energy radiator, in shell in solar energy radiator and storing up electricity Thermal insulation board and insulation board are respectively equipped between equipment.