CN203797940U - Low-power heating and high-power heat supplying energy-saving type heat supplying device - Google Patents

Low-power heating and high-power heat supplying energy-saving type heat supplying device Download PDF

Info

Publication number
CN203797940U
CN203797940U CN201420015786.XU CN201420015786U CN203797940U CN 203797940 U CN203797940 U CN 203797940U CN 201420015786 U CN201420015786 U CN 201420015786U CN 203797940 U CN203797940 U CN 203797940U
Authority
CN
China
Prior art keywords
power
heat
low
heat supplying
heating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420015786.XU
Other languages
Chinese (zh)
Inventor
李祥龙
李韵奇
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN201420015786.XU priority Critical patent/CN203797940U/en
Application granted granted Critical
Publication of CN203797940U publication Critical patent/CN203797940U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Greenhouses (AREA)

Abstract

The utility model provides a low-power heating and high-power heat supplying energy-saving type heat supplying device. The low-power heating and high-power heat supplying energy-saving type heat supplying device is characterized in that the inner side of a box body is provided with an insulating layer, and a heat storage ball layer and an electric heater inside the box body are vertically or transversely arranged; a heat supplying channel or the front section of the heat supplying channel is formed by a gap between oil storage balls, the air outlet of the heat supplying channel is formed in the upper portion of the box body or one side of the box body, and the air inlet is formed in the bottom of the box body. According to the low-power heating and high-power heat supplying energy-saving type heat supplying device, heating power can be effectively reduced, the requirements for large supplied heat and high heat supplying speed in the industrial and agricultural production and life can be met, the low-power heating and high-power heat supplying energy-saving type heat supplying device has the power utilization peak load shifting function, and power utilization cost can be saved. High-power heating and low-power heat releasing reverse to the low-power heating and high-power heat supplying can be carried out, the low-power heating and high-power heat supplying energy-saving type heat supplying device can be applied to the power utilization peak load shifting, and the power utilization cost is saved.

Description

Low-power heats the economizing type heating plant of high-power heat supply
Technical field
the utility model relates to heat supply process field, especially electrical heating heating plant.
Background technology
publication number is the patent application of CN2482650, a kind of static heat storing type electric heater is proposed, it is at many heating rods of the interior vertical array of a case 1, the both sides of this heating rod 2 paste to build has the high temperature resistant limit to reach the heat storage brick body of 1600 ℃, so that heat is stored, the top of case is provided with air outlet, and by its openings of sizes of movable airdoor control or close, the bottom of case is provided with air inlet.Can make full use of the valley electricity heating that price is low, heat is stored, while needing, open air door, heat is emitted, to room air heating, can save the electricity charge.
in its tangible industrial and agricultural production and people's household electricity, often there is the situation that electrical network can not be loaded.Or main line electrical network can not be loaded or user's oneself distribution capacity is inadequate.And distribution extending capacity reformation is invested greatly, add 315 kilowatts of basic charge as per installed capacities that above large commercial power is added in two electricity prices processed, cause enterprise's electricity charge expense burden very large, it is almost nil that enterprise carries out high-power distribution transformation possibility, causes in producing and living, adopting the clean energy---electric energy.As:
1, in Tea Production, comprehensively do green grass or young crops.The oolong tea producing region of latitude more than the middle part of Fujian Province, adopts direct electrical heating
heat supply, throwing leaf amount is the comprehensive greening machine of 180 kilograms of left and right, the configuration of separate unit peak power will be 20 kilowatts of left and right.Completing a green grass or young crops, to do blue or green process time long, and production efficiency is lower, so each Enterprise Integrated green making machine quantity is equipped with very greatly, and it is all upper and lower at 20-30 platform that general medium-scale tea enterprise is equipped with quantity.As Wuyishan City tea, there are 60 of comprehensive greening machines in enterprise, the tea of scale is looked forward to like this, and only comprehensive greening machine electrical heating electric power configures just more than 1300 kilowatts, and its supply transformer capacity only has 200 kilowatts, use electrical heating to do green grass or young crops, carry out large-scale redevelopment to distribution.Distribution large-scale redevelopment involves investment, and many factors such as electricity price that large capacity of power distribution improves, also have the capacity limit of whole electrical network etc.
7.5 ten thousand left and right of tealeaves comprehensive greening machine recoverable amount, the north of Fujian Province, also increase progressively in the speedup with 3000-4000 platform every year.If the north of Fujian Province adopts direct Electric heating transformation, 20 kilowatts of every comprehensive greening machine heating powers, 1,500,000 kilowatts of distribution transformation general powers, be equivalent to install additional the distribution transformer of 3000 500 kilowatts, enterprise's distribution extending capacity reformation is made an investment in more than 700,000,000 yuan, and it is annual more than 4.6 hundred million yuan that 315 kilowatts of above distribution are added basic charge as per installed capacity.Need 1,500,000 kilowatts of newly-increased electricity capacities, be equivalent to nuclear power generating sets generated energy of Ningde nuclear power station.So directly electrical heating transformation is extremely unpractical.The north of Fujian Province Tea Production is comprehensively done blue or green link just have to rest on " braziers " for heat age, and blue or green bucket is made in " braziers " heat supply green-making enviroment anoxic, the inspiration of a large amount of charcoal ash, affects tea leaf quality.
whole nation latitude needs to make charcoal the comprehensive greening machine for oolong tea recoverable amount of transformation 200,000 more than the middle part of Fujian Province
platform.Adopt direct Electric heating transformation, distribution transformation general power is more than 4,000,000 kilowatts, enterprise's distribution extending capacity reformation investment is more than 18.69 hundred million yuan, 315 kilowatts of above distribution are added basic charge as per installed capacity, need every year the pay this extra electricity charge more than 12.3 hundred million yuan, need 4,000,000 kilowatts of newly-increased electricity capacities, be equivalent to three nuclear power generating sets generated energy of Ningde nuclear power station.
2, the heat supply of the withering mediation dryer in black tea manufacture.15 meters to 20 meters long large-scale withering troughs, adopt direct electrical heating, 40 kilowatts to 60 kilowatts of every heating powers.There are ten thousand of large-scale withering trough 10-15 in main black tea producing region, the whole nation, adopt direct electrical heating to burn bavin or burn coal transformation, newly-increased distribution capacity is more than 6,000,000 kilowatts, enterprise is in distribution dilatation, increase investment more than 2,800,000,000,315 kilowatts of above distribution are added basic charge as per installed capacity, need every year the pay this extra electricity charge more than 18.4 hundred million yuan.Need 600 kilowatts of newly-increased electricity capacities, be equivalent to 4 nuclear power generating sets generated energy of Ningde nuclear power station.Directly electrical heating transformation is extremely unpractical.Present nationwide, large-scale black tea withering trough is to burn bavin or burn coal substantially.Black tea withers and burns bavin is very serious to the destruction of forest.It is very large that primary processing of tea dryer directly uses electrical heating heating power.The dryer heating power of moderate-yield is generally at 70-80 kilowatt.
3,, at northern China rural primary and secondary school, the problem of distribution capacity deficiency exists in a large number.For energy-saving and emission-reduction, northern country middle and primary schools heating policy is that the heating of promotion construction safety energy-conserving environment protection power equipment is main at present, but the existing distribution capacity in rural primary and secondary school school is generally not enough, adopt direct electrical heating heat supply, need a large amount of funds to carry out extending capacity reformation to distribution, the in the situation that of the general shortage of various places education funds, this is also unpractical.
the heating field of this situation is also a lot, does not exemplify one by one.
in these heat supply heating fields, in fact there is very worth researching and analysing of a kind of rule, that is exactly all not require on the time distributes to carry out continuous heat supply.As the north of Fujian Province Tea Production is comprehensively done blue or green heat supply, in the blue or green process of tens hours do, only need to be in the high-power heat supply in hours more than starting, do that in blue or green process, to have eight or nine hours be not need high-power heat supply; In the heat supply heating of northern country middle and primary schools, only require heat supply heating in 7,8 hours that go to school in classroom, tens hours after school, classroom is not need to continue heat supply heating.The tune heat supply of withering in dryer heat supply and black tea manufacture does not need heat supply when not producing night.
from above analysis, we propose a kind of brand-new " low-power heats the economizing type electrical heating heat supply of high-power heat supply " principle.This brand-new electrical heating heat supply principle, also never people proposed, and we are also progressively groping the middle clear concept that just forms, and are singly that patent application scheme has just been revised many times, just being able to gradually perfectly, is undoubtedly the initiative technological invention of electrical heating heating field.According to above-mentioned principle, can develop a kind of go out " low-power heats the economizing type heating plant of high-power heat supply ", just can substantially not change under the prerequisite of existing distribution capacity, the electrical heating heat supply that solves above-mentioned field this stubborn problem that heats.
but above-mentioned disclosed technical scheme is to meet specification requirement in above-mentioned application, has three large technology barriers:
the one, the static heat storing type electric heater of this structure, heat storage brick heat accumulation is pasted in employing in heating rod both sides, heat storage capacity is little, available heat exchange area is very little, it is static self start type hot-fluid rising heat supply, heating power is very little, very slow for thermal velocity, for domestic heating still can, can not meet that heating load in industrial and agricultural production is large, the requirement of the fireballing heat supply heating of heat supply.
the 2nd, the heat supply air outlet structure described in public technology scheme, in industrial and agricultural production in casing under high-temperature heat-storage situation, the very high 400-600 degree Celsius that reaches of air outlet temperature, need expensive insulation material to produce air port and air door, cause production cost very high, as we have used space flight type high-temperature-resistant thermal-insulation coating in tea machine, heating plant air door and air outlet will be with high-temperature resistant coating more than 15 kilograms, and production cost is too high cannot be applied in production reality.
the 3rd, with these expensive insulation materials, produce air port and air door, through our actual tests, use after certain hour wearing and tearing, there is the problem that sealing property is bad, gas leakage is run heat affecting for thermal control, in tealeaves comprehensive greening machine, heat is run in gas leakage can comprehensively do blue or green process for destruction tealeaves.In other application gas leakage, running heat also causes equipment later maintenance cost very high.
Summary of the invention
the purpose of this utility model is to provide a kind of low-power that overcomes above-mentioned technology crux that can meet the heat supply heating requirement of above-mentioned field and heats the economizing type heating plant of high-power heat supply.
the technical scheme adopting is:
1, the low-power of vertical structure heats the economizing type heating plant of high-power heat supply, it is characterized in that: box inside arranges thermal insulation separation thermosphere, in described casing, heat accumulation ball layer and electric heater are vertical or transversely arranged, heat accumulation sphere gap forms the leading portion of heat donor passage or heat donor passage, the air outlet of described heat donor passage is arranged on described casing top or described casing top one side, and air inlet is arranged on described bottom half.
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and described heat donor passage leading portion is heat accumulation sphere gap, and back segment is by the U-shaped heat donor passage that arranges in casing and two sections of outer heat donor passages form.Due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in lower temperature state.The formation of described U-shaped heat donor passage is diversified, the U-shaped heat supply pipeline as described in connecting as arranged inside and outside casing etc.A kind of the simplest structure of special proposition: the inner side at described thermal insulation separation thermosphere inner bag arranges dividing plate, and itself and thermal insulation separation thermosphere inner bag surface form a section of U-shaped heat donor passage; By the outer heat donor passage arranging of described casing, formed another section of described U-shaped heat donor passage; The top of the described dividing plate arranging in the inner side of described thermal insulation separation thermosphere inner bag is heat accumulation ball isolating metal net.
low-power at said structure heats in the economizing type heating plant of high-power heat supply:
the air outlet of described heat donor passage or described air inlet arrange hot air flow control device;
described casing comprises main box, casing top case lid, or comprises main box, casing top case lid, heat supply air-out oral area case lid;
described casing is arranged on base; Heat accumulation ball support bracket described in described base device.
2, the low-power of horizontal type structure heats the economizing type heating plant of high-power heat supply, it is characterized in that: box inside arranges thermal insulation separation thermosphere, and in described casing, heat accumulation ball layer and electric heater are vertical or transversely arranged; Described heat accumulation sphere gap forms the leading portion of heat donor passage or heat donor passage, and the air outlet of described heat donor passage is arranged on described casing top or described casing top one side, and air inlet is arranged on described bottom half.
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and described heat donor passage leading portion is heat accumulation sphere gap, and back segment is by the U-shaped heat donor passage that is arranged in casing and two sections of outer heat donor passages form.Due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in lower temperature state.The formation of described U-shaped heat donor passage is diversified, the U-shaped heat supply pipeline as described in connecting as arranged inside and outside casing etc.A kind of the simplest structure of special proposition: the inner side at described thermal insulation separation thermosphere inner bag arranges dividing plate, and itself and thermal insulation separation thermosphere inner bag surface form a section of U-shaped heat donor passage; By the outer heat donor passage arranging of described casing, formed another section of described U-shaped heat donor passage; The top of the described dividing plate arranging in the inner side of described thermal insulation separation thermosphere inner bag is heat accumulation ball isolating metal net.
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and the air outlet of described heat donor passage or air inlet arrange hot air flow control device.Large-scale low-power in this structure heats in the heating plant of high-power heat supply, for realizing heat exchange equilibrium, some thermal currents can be set in described casing and adjust plate.
low-power in above-mentioned two kinds of structures heats in the heating plant of high-power heat supply, and described thermal insulation separation thermosphere adopts double-decker, be outwards high temperature resistant heat insulation fibrous material, is inwardly metal inner tube or aluminate cement and closed perlite concrete slab.In rear a kind of thermal insulation separation thermosphere structure, can save metal inner tube, avoid complete machine to form heat bridge, also can reduce the temperature with high temperature resistant heat insulation fibrous material thermal insulation layer contact-making surface.
the low-power of above-mentioned two kinds of structures heats in the heating plant of high-power heat supply, for increasing heat exchange area, improving rate of heat exchange, described heat accumulation ball adopts heat accumulation ball or the flat-shaped heat accumulation ball of single perforate or many perforates, and single perforate, many perforates heat accumulation ball and flat-shaped heat accumulation ball all have larger specific area, heat accumulation ball center thermal inertia district is little, rate of heat exchange is fast premium properties.
above-mentioned low-power heats the economizing type heating plant of high-power heat supply, in use as long as form air negative pressure district at air outlet, or forms air higher-pressure region at air intake oral area, just can high-power quick heat supply.
low-power provided by the utility model heats the economizing type heating plant of high-power heat supply, has overcome three large technical disadvantages of disclosed technical scheme:
the one, adopt a large amount of heat accumulation ball heat accumulations, particularly adopt perforate heat accumulation ball or flat-shaped heat accumulation ball heat accumulation, there is very large heat exchange area, can meet the requirement that in industrial and agricultural production, heating load is large, the fireballing heat supply of heat supply heats.As being 1.2 centimetres of flat-shaped heat accumulation ball heat accumulations at tea machine for hankering adopting tens thousand of diameters, the available heat exchange area that heat accumulation ball surface forms can reach tens of square metres, and considerably beyond the heat exchange area of heat storage brick, thereby rate of heat exchange is very fast.
in the heat supply application at the north of Fujian Province tealeaves comprehensive greening machine, configure a said apparatus, with 6 hours heat accumulation 24 kilowatt hours of the power preheating heat accumulations of 4 kilowatts, in the heat supply of a hour working time, during heat supply, heating power is 4 kilowatts, its heat capacity of electrical heating heating plant of the high-power heat supply of this low-power heating batch (-type) is equivalent to one 28 kilowatts high-power direct electrical heating heating plants, compares with 28 kilowatts of heating powers, and this tealeaves comprehensive greening machine heating power has reduced by 85.7%.So just can substantially not change existing distribution capacity and use clean energy resource electric energy in comprehensively doing blue or green production.Can be society and save great amount of investment, economic results in society are very remarkable.
in northern China rural primary and secondary school heat supply heating, for energy-saving and emission-reduction, it is main advocating and building the heating of safety energy-conserving environment protection power equipment, but the existing distribution capacity in rural primary and secondary school school is generally not enough, adopt direct electrical heating heat supply, needing a large amount of funds to carry out extending capacity reformation to distribution, the in the situation that of the general shortage of various places education funds, is unpractical.Adopt the electrical heating heating plant of the high-power heat supply of low-power provided by the present invention heating batch (-type), classes are over not heating time section carry out small power electric heating heat accumulation, the heat supply that just can carry out relatively high power with small power electric heating in time for school section heats.As carried out smaller power electrical heating heat accumulation in 16 hours after school, in 7,8 hours of going to school, carry out relatively high power heat supply heating, to the requirement of distribution capacity, can reduce by 2/3rds.
the confession of the withering mediation dryer in black tea manufacture is hankered, and utilizes unproductive period to preheat, and can effectively reduce heating power equally.
the 2nd, arrange by casing and the U heat donor passage that forms of two sections of outer heat donor passages, due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in low-temperature condition.In industrial and agricultural production in casing under high-temperature heat-storage situation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in low-temperature condition, do not need expensive insulation material to produce air port and air door, can greatly reduce the production cost of equipment.
the 3rd, arrange by casing and the U heat donor passage that forms of two sections of outer heat donor passages, due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in low-temperature condition; In industrial and agricultural production in casing under high-temperature heat-storage situation, be positioned at heat donor passage outside casing and heat supply air outlet temperature in low-temperature condition, do not need expensive high-temperature-resistant thermal-insulation coating to produce air port and air door, and silica gel and the rubber of the resistance to general high temperature of can useful life longevity good good seal performance are produced air port and air door, avoid the air outlet and the air door that use high-temperature-resistant thermal-insulation coating to make, use after certain hour wearing and tearing, occur that sealing property is bad, hot problem is run in gas leakage.Greatly alleviated the pressure of equipment operation later maintenance.
special needs to be pointed out is:
the low-power of said structure heats the economizing type heating plant of high-power heat supply, separated due to heat accumulation heating and heat supply are carried out, and has the function of electricity consumption peak load shifting, can be when electricity price low ebb heat accumulation, be conducive to using electricity wisely cost.
the low-power of said structure heats the economizing type heating plant of high-power heat supply, also can antikinesis, carry out then small-power heat release operation of high-power heating, and mainly apply to electricity consumption peak load shifting, be used in the heating fields such as family expenses, office, place of business, be conducive to using electricity wisely cost.
Accompanying drawing explanation
fig. 1 and 2 is the economizing type heating plant stereogram that the low-power of vertical structure heats high-power heat supply;
fig. 3 be a kind of low-power of vertical structure heat high-power heat supply economizing type heating plant along the axial cut away view of heat supply air outlet;
fig. 4 be the low-power of another kind of vertical structure heat high-power heat supply economizing type heating plant along the axial cut away view of heat supply air outlet.
fig. 5 is the economizing type heating plant structural representation that a kind of low-power of large-size horizontal structure heats high-power heat supply.
in figure, 1,5,6 are box component (wherein 1 is main box, the 5th, casing top case lid, the 6th, the case lid of heat supply air-out oral area, heat supply air-out oral area case lid is selective device feature, some types can not install), 2 are arranged on the thermal insulation separation thermosphere of box inside, the 3rd, electric heater, the 4th, heat accumulation ball, the 7th, fixing sector, the 8th, rotating sector, the 9th, bimetallic element, the 10th, the heat accumulation ball support bracket of device on cabinet base, the 11st, cabinet base, the 12nd, the air outlet of heat donor passage, the 13rd, air inlet, the 14th, thermal current is adjusted plate, the 15th, heat accumulation ball isolating metal net, the 16th, thermal insulation separation thermosphere inner bag, the 17th, the dividing plate arranging in the inner side of thermal insulation separation thermosphere inner bag, itself and thermal insulation separation thermosphere inner bag surface form a section of U-shaped heat donor passage, the 18th, by the U-shaped heat donor passage that is arranged in casing and two sections of outer heat donor passages form, 19 are arranged on the heat donor passage outside casing.
The specific embodiment
the low-power of the vertical structure as shown in accompanying drawing 1,2,3,4 heats the economizing type heating plant of high-power heat supply, its technical characterictic is: box inside arranges thermal insulation separation thermosphere (2), and in described casing, heat accumulation ball (4) layer and electric heater (3) are vertical or transversely arranged; Described heat accumulation sphere gap forms the leading portion of heat donor passage or heat donor passage, and the air outlet of described heat donor passage (12) is arranged on described casing top or described casing top one side, and air inlet (13) is arranged on described bottom half.
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and described heat donor passage leading portion is heat accumulation ball (4) gap, and back segment is by the U-shaped heat donor passage (18) that is arranged in described casing and two sections of outer heat donor passages form.Due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage (19) outside casing and heat supply air outlet (12) temperature in lower temperature state.The formation of described U-shaped heat donor passage (18) is diversified, the U-shaped heat supply pipeline as described in connecting as arranged inside and outside casing etc.A kind of the simplest structure of special proposition: in the inner side of described thermal insulation separation thermosphere (2) inner bag (16), dividing plate (17) is set, itself and thermal insulation separation thermosphere (2) inner bag (16) surface form a section of described U-shaped heat donor passage (18); The heat donor passage (19) arranging outside described casing forms another section of described U-shaped heat donor passage (18); The top of the described dividing plate (17) arranging in the inner side of described thermal insulation separation thermosphere (2) inner bag (16) is heat accumulation ball isolating metal net (15).
low-power at said structure heats in the economizing type heating plant of high-power heat supply:
the air outlet of described heat donor passage (12) or described air inlet (13) arrange hot air flow control device.
described casing, according to different types, can adopt two kinds of structures, and a kind of is to comprise main box (1), casing top case lid (5); Another kind is to comprise main box (1), casing top case lid (5), heat supply air-out oral area case lid (6).
described casing is arranged on base (11); Described base (11) installs described heat accumulation ball (4) support bracket (10).
the large-scale low-power of horizontal type structure as shown in Figure 5 heats the economizing type heating plant of high-power heat supply, its technical characterictic is: box inside arranges thermal insulation separation thermosphere (2), and in described casing, heat accumulation ball (4) layer and electric heater (3) are vertical or transversely arranged; Described heat accumulation ball (4) gap forms the leading portion of heat donor passage or heat donor passage, and the air outlet of described heat donor passage (12) is arranged on described casing top or described casing one side, and air inlet (13) is arranged on described bottom half.
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and described heat donor passage leading portion is heat accumulation sphere gap, and back segment is by the U-shaped heat donor passage (18) forming with two sections of outer heat donor passages in described casing.Due to thermal current rising principle, while not taking out hot blast at heat accumulation, be positioned at heat donor passage (19) outside casing and heat supply air outlet (12) temperature in lower temperature state.The formation of described U-shaped heat donor passage (18) is diversified, the U-shaped heat supply pipeline as described in connecting as arranged inside and outside casing etc.A kind of the simplest structure of special proposition: in the inner side of described thermal insulation separation thermosphere (2) inner bag (16), dividing plate (17) is set, itself and thermal insulation separation thermosphere (2) inner bag (16) surface form a section of described U-shaped heat donor passage (18); The heat donor passage (19) arranging outside described casing forms another section of described U-shaped heat donor passage (18); The top of the described dividing plate (17) arranging in the inner side of described thermal insulation separation thermosphere (2) inner bag (16) is heat accumulation ball isolating metal net (15).
low-power at said structure heats in the economizing type heating plant of high-power heat supply, and the air outlet of described heat donor passage (12) or described air inlet (13) arrange hot air flow control device.
large-scale low-power in this structure heats in the economizing type heating plant of high-power heat supply, for realizing heat exchange equilibrium, some thermal currents can be set in described casing and adjust plate (14).
low-power in above-mentioned two kinds of structures heats in the economizing type heating plant of high-power heat supply, and described casing adopts sheet metal processing; Described electric heater (3) is high temperature resistant dry combustion method electric heating tube; Described thermal insulation separation thermosphere (2) adopts double-decker, be outwards high temperature resistant heat insulation fibrous material, is inwardly metal inner tube or aluminate cement and closed perlite concrete slab.In rear a kind of thermal insulation separation thermosphere (2) structure, can save metal inner tube cost-saving, also can avoid complete machine to form heat bridge, also can reduce the temperature with high temperature resistant heat insulation fibrous material thermal insulation layer contact-making surface.
low-power in above-mentioned two kinds of structures heats in the economizing type heating plant of high-power heat supply, and described hot air flow control device can adopt following structure: bimetal means is at air outlet, and during variations in temperature, bimetal leaf is crooked and change air outlet area; Or be biparting shape blade construction, a slice sector (7) is fixing, and another sheet sector (8) can rotate under bimetallic element drives.Rotating sector (8) is fixed on supporting seat, bimetallic element is nested on the connecting rod that one end is welded on supporting seat, one end device of connecting rod is on bearing, bearing is fixed by supporting seat, during variations in temperature, bimetallic element drives sector (8) rotation, controls air outlet area.Certainly, hot air flow control device can also adopt valve, metal louvres turnover panel etc. structure, no matter adopts which kind of structure, all falls into protection domain of the present utility model.
the low-power of above-mentioned two kinds of structures heats in the economizing type heating plant of high-power heat supply, for increasing heat exchange area, improving rate of heat exchange, described heat accumulation ball (4) adopts porous heat accumulation ball the most suitable, has large specific area, central hot inertia district is little, heat exchange area is large, rate of heat exchange is fast premium properties.But this heat accumulation ball production cost is higher, adopts flat-shaped heat accumulation ball, also there is larger specific area, heat accumulation ball center thermal inertia district is little, rate of heat exchange is fast premium properties, and production cost obviously reduces.Take the heat accumulation ball (4) of that shape and structure all to fall into protection domain of the present utility model.

Claims (8)

1. low-power heats the economizing type heating plant of high-power heat supply, it is characterized in that: box inside arranges thermal insulation separation thermosphere (2), and in described casing, heat accumulation ball (4) layer and electric heater (3) are vertical or transversely arranged; Described heat accumulation ball (4) gap form heat donor passage or described heat accumulation ball (4) gap forms the leading portion of heat donor passage, the back segment of described heat donor passage by the U-shaped heat donor passage (18) that is arranged in described casing and two sections of outer heat donor passages form, the air outlet of described heat donor passage (12) is arranged on described casing top or described casing top one side, and air inlet (13) is arranged on described bottom half.
2. low-power according to claim 1 heats the economizing type heating plant of high-power heat supply, it is characterized in that: the structure of described U-shaped heat donor passage (18) is: in the inner side of described thermal insulation separation thermosphere (2) inner bag (16), dividing plate (17) is set, itself and thermal insulation separation thermosphere (2) inner bag (16) surface form a section of described U-shaped heat donor passage (18); The heat donor passage (19) arranging outside described casing forms another section of described U-shaped heat donor passage (18); The top of the described dividing plate (17) that the inner side of described thermal insulation separation thermosphere (2) inner bag (16) arranges is heat accumulation ball isolating metal net (15).
3. low-power according to claim 1 heats the economizing type heating plant of high-power heat supply, it is characterized in that: air outlet (12) or described air inlet (13) at described heat donor passage arrange hot air flow controller.
4. low-power according to claim 3 heats the economizing type heating plant of high-power heat supply, it is characterized in that: described hot air flow control device adopts following structure: bimetal means is at air outlet, during variations in temperature, bimetal leaf is crooked and control air outlet area; Or be biparting shape blade construction, a slice sector (7) is fixing, and another sheet sector (8) can rotate under bimetallic element drives, and during variations in temperature, bimetallic element drives sector (8) rotation, controls air outlet area.
5. according to the low-power described in claim 1 or 3, heat the economizing type heating plant of high-power heat supply, it is characterized in that: described casing comprises main box (1), casing top case lid (5); Or comprise main box (1), casing top case lid (5), air-out oral area case lid (6).
6. low-power according to claim 5 heats the economizing type heating plant of high-power heat supply, it is characterized in that: described main box (1) is arranged on base (11); Described base (11) installs described heat accumulation ball (4) support bracket (10).
7. according to the low-power described in claim 1 or 3, heat the economizing type heating plant of high-power heat supply, it is characterized in that: some thermal currents are set in described casing and adjust plate (14).
8. according to the low-power described in claim 1 or 3, heat the economizing type heating plant of high-power heat supply, it is characterized in that: described heat accumulation ball (4) is porous heat accumulation ball or flat-shaped heat accumulation ball.
CN201420015786.XU 2013-07-25 2014-01-12 Low-power heating and high-power heat supplying energy-saving type heat supplying device Expired - Fee Related CN203797940U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420015786.XU CN203797940U (en) 2013-07-25 2014-01-12 Low-power heating and high-power heat supplying energy-saving type heat supplying device

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
CN201320447076 2013-07-25
CN201320447076.X 2013-07-25
CN201420015786.XU CN203797940U (en) 2013-07-25 2014-01-12 Low-power heating and high-power heat supplying energy-saving type heat supplying device

Publications (1)

Publication Number Publication Date
CN203797940U true CN203797940U (en) 2014-08-27

Family

ID=51380145

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420015786.XU Expired - Fee Related CN203797940U (en) 2013-07-25 2014-01-12 Low-power heating and high-power heat supplying energy-saving type heat supplying device

Country Status (1)

Country Link
CN (1) CN203797940U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105202595A (en) * 2015-09-17 2015-12-30 李祥龙 Heat-island type energy-saving electric cooker having throw-frying function

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105202595A (en) * 2015-09-17 2015-12-30 李祥龙 Heat-island type energy-saving electric cooker having throw-frying function

Similar Documents

Publication Publication Date Title
CN207350892U (en) One kind is provided multiple forms of energy to complement each other application system
CN204901906U (en) Millet ferroelectric phase becomes heat -retaining formula and adopts warm water system
CN102434929A (en) Energy-saving dual-temperature air-conditioning system coupling solar energy, natural cold energy and off-peak electricity
CN106594853A (en) Adjustable phase change heat storage floor based on heat storage heating pipes
CN106767073A (en) A kind of energy-accumulating solid module and electric heating energy-accumulating solid device
CN205897308U (en) Central heating system based on distributing type heating heat -retaining technique
CN105240898A (en) Phase-change heat storage heater
CN102679410A (en) Novel efficient gas cooking appliance integrated with heat pipe, heat-insulation bushing and temperature-difference power generation
CN205784770U (en) A kind of domestic electric heating regenerative heat exchanger
CN203262165U (en) Oolong tea comprehensive green-making machine with electric energy or solar energy heat supply
CN203797940U (en) Low-power heating and high-power heat supplying energy-saving type heat supplying device
CN103791613A (en) Low-power-heating and high-power-heat-supplying economical heat supplying device
CN207299129U (en) High-temperature phase change heat accumulation energy storage heat-exchange system
CN206469332U (en) A kind of adjustable type phase-transition heat-storage floor based on heat-storage heating pipe
CN101625161B (en) Double heat absorption combined solar energy air heater
CN104295450A (en) Ground tower furnace type renewable energy heating and refrigerating power generation device
CN205191703U (en) Phase -change thermal's room heater
CN202371823U (en) Energy-saving and dual-temperature air-conditioning system for solar energy, natural cold energy and low-ebb electric coupling
CN202613513U (en) Novel efficient gas cooking appliance integrating heat pipe, heat insulation bushing with temperature difference generating sheets
CN207123067U (en) A kind of phase-transition heat-storage electric boiler
CN108240675A (en) A kind of coal changes TV university capacity low temperature phase change heat reservoir and central heating system
CN207584862U (en) A kind of paddy electricity heat accumulating and heating device
CN206739623U (en) A kind of energy storage boiler
CN208108245U (en) A kind of coal changes TV university capacity low temperature phase change heat reservoir and central heating system
CN202254390U (en) Solar energy high-temperature solid heat collecting system

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140827

Termination date: 20160112