CN203744371U - Building foundation type sand and soil heat storage self-heating system - Google Patents

Abstract

A building foundation type sand and soil heat storageself-heating system comprises a house foundation, enclosures and a foundation type sand and soil heat storage self-heating system body, wherein the foundation type sand and soil heat storage self-heating system body comprises a foundation type sand and soil heat storage device, a hot air channel, a cold air channel, hot air shutters and cold air shutters; and the foundation type sand and soil heat storage device comprises a heat storage body, a heat exchange tube embedded in the heat storage body and air diffusers at two ends of the heat exchange tube. The system has the characteristics of low heat storage cost, large heat storage capacity, high heat exchange efficiency, capability of avoiding energy consumption in a heating process, good heating power regulating performance and the like, has the advantages of simple structure, safety, reliability, high stability, wide adaptability and the like and is a relatively ideal sand and soil heat storage self-heating system using new energy resources such as wind energy, solar energy and the like for heating for single-story or multi-story buildings in the northern area.

Description

A kind of building lot formula sandy soil heat accumulation self-heating system

Technical field

The utility model relates to Heating, Ventilation and Air Conditioning (HVAC) Technology field, is specifically related to a kind of thermal storage heating system of utilizing building lot sandy soil to carry out heat accumulation and can heat voluntarily.

Background technology

Because the new forms of energy of showing as confession taking wind energy, solar energy exist intermittence and noncontinuity, and new forms of energy price is on the high side compared with traditional energy, therefore, in new forms of energy building heating technology, develops thermal storage heating technology cheaply and becomes to attach most importance to.In low cost thermal storage heating technology, choose the integrated self-heating technology of cheap heat accumulating development architecture extremely important, from current published document, the heat accumulating of designing and constructing with architecture-integral is mainly cobble and concrete, for the resident of part Plain, loess plateau, desert area, obtain cobble and concrete material long distance to be transported to the required cost in residence also higher.And taking soil cheap, convenient and that draw materials nearby, husky as main heat accumulating and carry out the heat-storage technology of architecture-integral design and construction and voluntarily heating technology also do not have.Retrieve published documents and materials, representational article has the Master degree candidate of Dalian University of Technology paper " hot air type solar energy floor heat reservoir Thermal Properties " in 2013, study a kind of floor concrete thermal storage heating system, and the dynamic mathematical models of having set up, thermal current humidity and flow velocity is studied systematic function.

Patent searching document, has a technology and the art of this patent comparatively similar.This technology is the utility model patent technology of " the farm dwelling solar energy heating device " of having authorized, its number of patent application is 2009201010823, this technology is taking air as heat transfer medium, to be arranged on underground cobble as heat-storage medium, have active and passive type heat supply mode concurrently, its method is to be arranged on UNICOM between two underground cobble heat accumulation tanks, mainly carry out passive type heating by low-temp radiating, it is filled heating system is by pump, underground hot-air to be extracted out, is transported in the first and second warm air curtain radiators and heats.In these technology, obviously exist following problem:

1. heat accumulating is not easy to obtain.Select cobble to do heat accumulating, although cobble is cheap, for the areas such as Plain, desert, loess Gao Yuan, cobble is not easy to obtain, and will pass through long-distance transportation, and cost is higher; And do heat accumulating with concrete, and while needing large capacity heat accumulation, heat accumulation need be large by the scale of construction, and its cost is higher.

2. to store hot property poor for deep layer thermal store.Above-mentioned technology heats to room by low temperature floor radiation, this technology more easily passes in room by radiation thermal store top layer heat, but for the heat of thermal store deep layer, need first pass to floor surface, room conducts heat again, and therefore deep layer heat is difficult for passing in room.

3. exothermic process poor controllability.In the time that the sun just sets, outdoor environment temperature is high, and the heating power needing is little, but now the heat in thermal store is more, and its heat transfer power is larger on the contrary; And in the time of the late into the night or morning, outdoor environment temperature is low, the heating power needing is large, but now the heat in thermal store is less, and its heat transfer power contravariant is little, and therefore the heat transfer power controllability of this mode is less, and with need to not the mating of room.

4. consumed energy in heating process.In the time that Low Temperature Radiant Floor Heating mode can not meet the heating power requirement in room, this technology starts air exhauster the hot-air in thermal store is delivered directly in room, now needing to consume extra energy is room heating, the installation cost of the system of raising and heating operation cost.

5. need the larger temperature difference effectively to heat.Although Low Temperature Radiant Floor Heating technology is low compared with common radiator heating temperature, heating power that also need to could be higher when higher than 20 DEG C of room temperatures, the power that heats when temperature is lower obviously declines, and can not effectively ensure indoor warm temperature.

Summary of the invention

The purpose of this utility model is to improve building self heat energy power, reduction heating temperature, and reduces heat accumulation cost.

The utility model provides a kind of building lot formula sandy soil heat accumulation self-heating system, it comprises house foundation and enclosure wall 3, also comprise ground formula sandy soil heat accumulation self-heating system, two relative or adjacent enclosure wall 3 inner sides, have the first dividing plate 7 and second partition 21 with enclosure wall 3 at a distance of the place of 1cm～50cm, the first dividing plate 7 forms hot blast air channel 6 with the space that enclosure wall 3 surrounds, second partition 21 forms cold wind air channel 16 with the space that enclosure wall 3 surrounds, offer fresh air inlet 1 forming on the enclosure wall 3 in hot blast air channel 6 or top floor 18, in each fresh air inlet 1, be provided with valve or baffle plate 2, offer exhaust vent 14 forming on the enclosure wall 3 in cold wind air channel 16 or top floor 18, in each exhaust vent 14, be provided with valve or baffle plate 15, offer hot blast shutter 5 at first dividing plate 7 in composition hot blast air channel 6, every house above near roof, second partition 21 in composition cold wind air channel 16, every house offers cold wind shutter 17 near the place on ground, the surrounding in hot blast air channel 6 and the first dividing plate 7 for top, floor 18 or enclosure wall 3 are closed, the surrounding in cold wind air channel 16 and second partition 21 for top, floor 18 or enclosure wall 3 are closed, in house foundation within surrounding enclosure wall 3, be equipped with warming plate 13, at house earth surface layer below 8, within surrounding enclosure wall 3, the above space of warming plate 13 is provided with ground formula sandy soil heat-storing device, described ground formula sandy soil heat-storing device is by thermal store 11, heat exchanger tube 12, the upper air diffuser 9 and the lower air diffuser 10 that are arranged on heat exchanger tube 12 two ends form, thermal store 11 is trapped among heat exchanger tube 12 tightly, around upper air diffuser 9 and lower air diffuser 10, wherein going up air diffuser 9 is connected with the lower end in hot blast air channel 6, lower air diffuser 10 is connected with the lower end in cold wind air channel 16.

the beneficial effects of the utility model are:

1, the heat accumulating wide material sources that the utility model is selected and cheap.The heat accumulating that the present invention selects is husky, soil, rubble or its mixture, and these heat accumulatings are all easy to obtain on land Anywhere, also do not need long-distance transportation, and therefore wide material sources and cost are very low.

2, the utility model construction cost is low.Heat reservoir and heating system have been carried out integrated design by the present invention, and be built on structure foundation, enclosure wall with interior, below ground floor, avoid the construction of again digging pit beyond building, and reconstruct the cost of thermal store; Utilize thermal store as building part ground, reduced thermal store and building lot and repeated construction cost; Utilize the heat insulation and moisture preventive measure of building self to thermal store insulation and moistureproof, reduced insulation and the moistureproof cost of thermal store; That utilizes thermal store stores heat exchanger as heating end, has reduced building the cost of building heating end is installed separately; Thermal store and heating space near distance, reduced construction and the installation cost of heating network; In sum, the more free-standing heat reservoir cost of construction cost of the present invention is low.

3, the utility model operating cost is low.The present invention can realize passive type heating, in completely not catabiotic situation, realizes the target of thermal store to building heating, and operating cost is low.

4, the utility model heat storage capacity is large.Arrange the perpendicular side of Tube Sheet of Heat Exchanger of the technology of the present invention, can make deep layer thermal store also can realize the good hot property of storing, therefore can carry out large scale of construction heat accumulation, according to building heating energy consumption demand, design the thermal store of the large scale of construction, the stability that has improved solar heating architecture indoor temperature, has also improved solar energy fraction.

5, the utility model manifold trunk adopts whole process design, and the flow resistance of thermal air current in the time of any one vertical Tube Sheet of Heat Exchanger equates, prevents that the mass flow discrepancy in Tube Sheet of Heat Exchanger is even, makes whole heat accumulatings can efficiently charge and discharge equably heat.

6, in the utility model heating process, heat transfer area is large, heating temperature is low.The energy that thermal store of the present invention stores may cross that ground floor and ventilating duct dividing plate are simultaneously to room heating within doors, and heating heat transfer area is large; The energy that thermal store of the present invention stores is in by heat conduction and radiant heating, also can be by a large amount of Tube Sheet of Heat Exchanger and cold-hot wind hundred time, window and convection channel that ventilating duct forms be carried out heat transfer free convection heating, ways of heating is various, heating heat transfer area is large, and discharge as much as possible the low temperature heat energy in thermal store, lower temperature heating can be realized, the new forms of energy such as solar thermal collection system, the heat pump heating system thermal efficiency under cold climate condition in the winter time can be significantly improved.

Brief description of the drawings

Fig. 1 is the sectional side view of building lot formula sandy soil heat accumulation self-heating system of the present utility model, Fig. 2 is building lot formula sandy soil heat accumulation self-heating system heating schematic diagram, Fig. 3 is transversely arranged heat exchanger tube system schematic, Fig. 4 is board-like air diffuser schematic diagram, Fig. 5 is vertical setting of types pipe diffuser schematic diagram, Fig. 6 is two horizontally-arranged pipe diffuser schematic diagrames, Fig. 7 is single horizontally-arranged pipe diffuser schematic diagram, Fig. 8 is H type pipe diffuser schematic diagram, Fig. 9 is screw type heat exchanger tube schematic diagram, Figure 10 is a few font heat exchanger tube schematic diagrames, Figure 11 is multi-storey building heating schematic diagram.

Detailed description of the invention

Embodiment 1

As Fig. 1, shown in Figure 11, a kind of building lot formula sandy soil heat accumulation self-heating system, it comprises house foundation and enclosure wall 3, also comprise ground formula sandy soil heat accumulation self-heating system, two relative or adjacent enclosure wall 3 inner sides, have the first dividing plate 7 and second partition 21 with enclosure wall 3 at a distance of the place of 1cm～50cm, the first dividing plate 7 forms hot blast air channel 6 with the space that enclosure wall 3 surrounds, second partition 21 forms cold wind air channel 16 with the space that enclosure wall 3 surrounds, offer fresh air inlet 1 forming on the enclosure wall 3 in hot blast air channel 6 or top floor 18, in each fresh air inlet 1, be provided with the first valve or baffle plate 2, offer exhaust vent 14 forming on the enclosure wall 3 in cold wind air channel 16 or top floor 18, in each exhaust vent 14, be provided with the second valve or baffle plate 15, offer hot blast shutter 5 at first dividing plate 7 in composition hot blast air channel 6, every house above near roof, second partition 21 in composition cold wind air channel 16, every house offers cold wind shutter 17 near the place on ground, the surrounding in hot blast air channel 6 and the first dividing plate 7 for top, floor 18 or enclosure wall 3 are closed, the surrounding in cold wind air channel 16 and second partition 21 for top, floor 18 or enclosure wall 3 are closed, in house foundation within surrounding enclosure wall 3, be equipped with the second warming plate 13, at house earth surface layer below 8, within surrounding enclosure wall 3, the second above space of warming plate 13 is provided with ground formula sandy soil heat-storing device, described ground formula sandy soil heat-storing device is by thermal store 11, heat exchanger tube 12, the upper air diffuser 9 and the lower air diffuser 10 that are arranged on heat exchanger tube 12 two ends form, thermal store 11 is trapped among heat exchanger tube 12 tightly, around upper air diffuser 9 and lower air diffuser 10, wherein going up air diffuser 9 is connected with the lower end in hot blast air channel 6, lower air diffuser 10 is connected with the lower end in cold wind air channel 16.

As shown in Figure 1, underground thermal store 11 is to be made up of the fine grained of non-setting heat accumulating or setting heat accumulating, its material is by one of soil, fine sand, rubble, concrete, five kinds of materials of phase-change heat-storage material or taking these five kinds of materials as main body, mixes other heat accumulating compositions.

As shown in Figure 1, Figure 3, heat exchanger tube 12 or horizontal positioned, or vertically place, if horizontal positioned, its placement angle is between 0 ± 35 °; If vertically placed, its placement angle is between 90 ± 35 °; Any two heat exchanger tubes 12 or parallel installation, or non-parallel installation, if non-parallel installation, any angle is between the two between 0 ± 35 °.

As shown in Fig. 1, Fig. 3, Fig. 9, Figure 10, the shape of heat exchanger tube 12 be linear pattern, screw type, one of subtype, four kinds of shapes of a few font, the diameter of heat exchanger tube 12 is between the cm of 1cm～20, the spacing of heat exchanger tube 12 is between the cm of 3cm～50, heat exchanger tube 12 is to be made up of one of plastics, rubber, glass, copper, aluminium, iron, steel, eight kinds of materials of concrete, and wall thickness is between the mm of 0.1mm～30.

As shown in Figure 1, Figure 3, upper air diffuser 9 and lower air diffuser 10 or horizontal positioned, vertically place, upper air diffuser 9 and the corresponding relation of lower air diffuser 10 or parallel, or not parallel, if not parallel installation, both angles are between 0 ± 35 °, if the two all level installation, its placement angle is between 0 ± 35 °, if at right angle setting, its placement angle is between 90 ± 35 °.

As shown in Fig. 1, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, upper air diffuser 9 and lower air diffuser 10 are if tubulose, its shape is one of vertical row type, single horizontal-type, two horizontal-type, H type, ring-like five kinds of shapes, and its diameter is between 1～10 times of its joining heat exchanger tube 12 diameters; If tabular, the spacing of two plates is between the cm of 1cm～50, and upper air diffuser 9 and lower air diffuser 10 are to be made up of one of plastics, rubber, glass, copper, aluminium, iron, steel, concrete, nine kinds of materials of brick, and wall thickness is between the mm of 0.1mm～300.

As shown in Figure 1 and Figure 2, hot blast shutter 5 and cold wind shutter 17 are one of circular, square, triangle, four kinds of shapes of polygon, area is between 10 square centimeters to 3 square metres, and the hot blast shutter 5 of offering respectively on first dividing plate 7 in every house and second partition 21 and cold wind shutter 17 quantity are between 1～10.

As shown in Figure 1, shown in Figure 11, fresh air inlet 1 and exhaust vent 14 are one of circular, square, triangle, four kinds of shapes of polygon, single fresh air inlet 1 and exhaust vent 14 areas are between 10 square centimeters to 1 square metre, and the fresh air inlet 1 arranging in every house and the quantity of exhaust vent 14 are between 1～20.

As shown in figure 11, hot blast air vent 19 and cold wind air vent 20 are one of circular, square, triangle, four kinds of shapes of polygon, and single hot blast air vent 19 and cold wind air vent 20 areas are between 10 square centimeters to 1 square metre.

As shown in Figure 1, shown in Figure 11, this house is 7 layers of following building, in house, all enclosure wall 3 outsides outwardly are all equipped with warming plate 3, on floor 18 between every two houses, offering respectively 1～15 hot blast air vent 19 and cold wind air vent 20 up and down, hot blast air vent 19 is connected with hot blast air channel 6, and cold wind air vent 20 is connected with cold wind air channel 16.

As shown in Figure 1 and Figure 2, as shown in Figure 1, heating working method as shown in Figure 2 for its heat accumulation working method.The embodiment of the present invention 1 heat accumulation working method is, open the first valve or baffle plate 2, open the second valve or baffle plate 15, close hot blast shutter 5 and cold wind shutter 17, the hot blast being provided by heating plant moves downwards from hot blast air channel 6, enter the upper air diffuser 9 being connected with hot blast air channel 6, by entering heat exchanger tube 12 after upper air diffuser 9 average mark diffusing amounts, enter again lower air diffuser 10 through the cooled cold air of heat exchanger tube 12 heat exchange, after collecting, lower air diffuser 10 enters cold wind air channel 16, flow into exhaust vent 14 from cold wind air channel 16 again, flow back to heating plant through exhaust vent 14.

The working method of embodiment 1 direct-furnish hot blast of the present utility model as shown in Figure 1, open the first valve or baffle plate 2, open the second valve or baffle plate 15, open hot blast shutter 5 and cold wind shutter 17, the hot blast being provided by heating plant enters hot blast air channel 6 from fresh air inlet 1, then enters room via hot blast air channel 6 from hot blast shutter 5, then flows into cold wind air channel 16 from cold wind shutter 17, flow into exhaust vent 14 from cold wind air channel 16 again, flow back to heating plant through exhaust vent 14.

The thermal store of embodiment 1 of the present utility model heats working method as Fig. 1 to room, shown in Fig. 2, close the first valve or baffle plate 2, close the second valve or baffle plate 15, prevent that cold air from entering in indoor or thermal store 11, when outdoor environment temperature higher, the heating power that building needs hour, close hot blast shutter 5 and cold wind shutter 17, heat in underground thermal store 11 heats the air in heat exchanger tube 12 after conducting heat, hot-air moves upward and enters air diffuser 9, and enter in hot blast air channel 6 through upper air diffuser 9, hot air ground floor 8 and dividing plate 7, ground floor 8 and dividing plate 7 by radiation and heat conduction to indoor heating, in the time that the heating power that outdoor environment temperature is lower, building needs is larger, adjust the aperture of hot blast shutter 5 and cold wind shutter 17 according to the size of required heating power, allow the cold air of indoor bottom form from cold wind shutter 17, through cold wind air channel 16, air diffuser 10, heat exchanger tube 12, upper air diffuser 9, hot blast air channel 6, hot blast shutter 5, arrive the air circulation duct on indoor top, the heat in underground thermal store is reached indoor continuously.

Embodiment 2

On the basis of embodiment 1, by 12 horizontal positioned of the heat exchanger tube in Fig. 1, Fig. 2, as shown in Figure 3, connect respectively air diffuser 9 and lower air diffuser 10 at heat exchanger tube 12 two ends, wherein go up air diffuser 9 and be connected with hot blast air channel 6, lower air diffuser 10 is connected with cold wind air channel 16 and exhaust vent 14.It should be noted that: this mode that keeps flat heat exchanger tube, vertically places air diffuser, simple in structure, easy for installation, air flow resistance is little, but be unfavorable for the thermal store layer heat transfer earthward of lower floor, therefore less to heat transfer power within doors by ground floor, therefore total heat transfer power of system is less, and the underground thermal store temperature needing is higher.

Embodiment 3

On the basis of embodiment 1 and embodiment 2, change the upper air diffuser 9 in Fig. 2, Fig. 3 and lower air diffuser 10 into board-like air diffuser as shown in Figure 4.It should be noted that: board-like air diffuser flow resistance is little, and diffusing is confluxed effective, but construction technology is more complicated, and construction cost is higher, and its general effect is better.

Embodiment 4

On the basis of embodiment 1 and embodiment 2, change the upper air diffuser 9 in Fig. 2, Fig. 3 and lower air diffuser 10 into vertical row type pipe diffuser as shown in Figure 5.It should be noted that: vertical row type pipe diffuser is easy for installation, and diffusing is confluxed effective, its general effect is also better.

Embodiment 5

On the basis of embodiment 1 and embodiment 2, change the upper air diffuser 9 in Fig. 2, Fig. 3 and lower air diffuser 10 into two horizontal-type air diffusers as shown in Figure 6.It should be noted that: two horizontal-type air diffusers are installed also more convenient, and diffusing is confluxed effective, and its general effect is also better.

Embodiment 6

On the basis of embodiment 1 and embodiment 2, change the upper air diffuser 9 in Fig. 2, Fig. 3 and lower air diffuser 10 into single horizontal-type air diffuser as shown in Figure 7.It should be noted that: single horizontal-type air diffuser is installed also more convenient, and diffusing is confluxed effective, and its general effect is also better.

Embodiment 7

On the basis of embodiment 1 and embodiment 2, change the upper air diffuser 9 in Fig. 2, Fig. 3 and lower air diffuser 10 into H type air diffuser as shown in Figure 8.It should be noted that: H type air diffuser complex process, cost is higher, but each heat exchanger tube flow resistance equates completely, therefore air mass flow also equates, good effect of heat exchange.

Embodiment 8

On the basis of embodiment 1～embodiment 7, change the heat exchanger tube in Fig. 2, Fig. 3 12 into spiral type pipe as shown in Figure 9.It should be noted that: although spiral type pipe and thermal store contact area are large, heat exchange efficiency is high, spiral type pipe manufacturing process complexity, mounting process is also complicated, and cost is also higher.

Embodiment 9

On the basis of embodiment 1～embodiment 7, change the heat exchanger tube in Fig. 2, Fig. 3 12 into a few font helix tubes as shown in figure 10.It should be noted that: although a few font spiral and thermal store contact area are large, heat exchange efficiency is high, a few font helix tube manufacturing process complexity, mounting process is also complicated, and cost is also higher.

Embodiment 10

On the basis of embodiment 1～embodiment 9, by Fig. 1, Fig. 2, single story building in Fig. 3 changes tier building into, as shown in figure 11, maximum building storey can be from 1 layer to 7 layers, on every floor 18 between two-layer, offer hot blast air vent 19 and cold wind air vent 20, be arranged in the thermal store 11 of building bottom by conducting heat the air heat of heat exchanger tube 10, hot-air rises along hot blast air channel 6, enter respectively each room by hot blast shutter 5, cold air in each room enters in cold wind air channel 16 by cold wind shutter 17, pool together again and enter in lower air diffuser 10, enter heat exchanger tube 12 from lower air diffuser 10, again after heat exchanger tube 12 enters and collects in air diffuser 9, enter in hot blast air channel 6, the air-flow that formation circulates, by continuous the heat in thermal store 11 automatic transport in each room.It should be noted that: the automatic thermal storage heating of tier building, to 2 layers of above room, can not pass through ground floor radiant heating, can only rely on thermal current heating, therefore exchange heat pipe 12 heat exchange power requirements high, need heat exchanger tube 12 to have enough heat exchange areas, and need thermal store 11 to have enough quantity of heat storage.

Embodiment 11

Above-described embodiment 1～embodiment 11 can be by multiple possible mode modular design, in protection domain of the present utility model.

Claims (9)

1. a building lot formula sandy soil heat accumulation self-heating system, it comprises house foundation and enclosure wall (3), also comprise ground formula sandy soil heat accumulation self-heating system, it is characterized in that: in two relative or adjacent enclosure walls (3) inner side, have the first dividing plate (7) and second partition (21) with enclosure wall (3) at a distance of the place of 1cm～50cm, the first dividing plate (7) forms hot blast air channel (6) with the space that enclosure wall (3) surrounds, second partition (21) forms cold wind air channel (16) with the space that enclosure wall (3) surrounds, form hot blast air channel (6) enclosure wall (3) or top floor (18) on offer fresh air inlet (1), in each fresh air inlet (1), be provided with valve or baffle plate (2), form cold wind air channel (16) enclosure wall (3) or top floor (18) on offer exhaust vent (14), in each exhaust vent (14), be provided with valve or baffle plate (15), the first dividing plate (7) in every composition hot blast air channel, house (6) offers hot blast shutter (5) near the top on roof, second partition (21) in every composition cold wind air channel, house (16) offers cold wind shutter (17) near the place on ground, the surrounding in hot blast air channel (6) and the first dividing plate (7) for top, floor (18) or enclosure wall (3) are closed, the surrounding in cold wind air channel (16) and second partition for top (21), floor (18) or enclosure wall (3) are closed, in house foundation within surrounding enclosure wall (3), be equipped with warming plate (13), below house earth surface layer (8), within surrounding enclosure wall (3), the above space of warming plate (13) is provided with ground formula sandy soil heat-storing device, described ground formula sandy soil heat-storing device is by thermal store (11), heat exchanger tube (12), the upper air diffuser (9) and the lower air diffuser (10) that are arranged on heat exchanger tube (12) two ends form, thermal store (11) is trapped among heat exchanger tube (12) tightly, upper air diffuser (9) and lower air diffuser (10) are around, wherein going up air diffuser (9) is connected with the lower end in hot blast air channel (6), lower air diffuser (10) is connected with the lower end in cold wind air channel (16).

2. building lot formula sandy soil heat accumulation self-heating system according to claim 1, is characterized in that: heat exchanger tube (12) or horizontal positioned, or vertically place, in the time of horizontal positioned, its placement angle is between 0 ± 35 °; In the time of vertical placement, its placement angle is between 90 ± 35 °; Any two heat exchanger tubes (12) or parallel installation, or non-parallel installation, in the time of non-parallel installation, any angle is between the two between 0 ± 35 °.

3. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: the shape of heat exchanger tube (12) is linear pattern, or screw type, or subtype, or several fonts, the diameter of heat exchanger tube (12) is between the cm of 1cm～20, and the spacing of heat exchanger tube (12) is between the cm of 3cm～50, and wall thickness is between the mm of 0.1mm～30.

4. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: upper air diffuser (9) and lower air diffuser (10) or horizontal positioned, vertically place, upper air diffuser (9) and lower air diffuser (10) corresponding relation or parallel, or not parallel, in the time of not parallel installation, both angles between 0 ± 35 °, the two all level install time, its placement angle is between 0 ± 35 °, in the time of at right angle setting, its placement angle is between 90 ± 35 °.

5. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: when upper air diffuser (9) and lower air diffuser (10) are tubulose, its shape is vertical row type, or single horizontal-type, or two horizontal-types, or H type, or ring-like, its diameter is between 1～10 times of its joining heat exchanger tube (12) diameter; When upper air diffuser (9) and lower air diffuser (10) are tabular, the spacing of two plates is between the cm of 1cm～50; Upper air diffuser (9) and lower air diffuser (10) wall thickness are between the mm of 0.1mm～300.

6. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: hot blast shutter (5) and cold wind shutter (17) are circular, or square, or triangle, or polygon, area is between 10 square centimeters to 3 square metres, and the hot blast shutter (5) of offering respectively on first dividing plate (7) in every house and second partition (21) and cold wind shutter (17) quantity are between 1～10.

7. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: fresh air inlet (1) and exhaust vent (14) are circular, or square, or triangle, or polygon, single fresh air inlet (1) and exhaust vent (14) area are between 10 square centimeters to 1 square metre, and the fresh air inlet (1) arranging in every house and the quantity of exhaust vent (14) are between 1～20.

8. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: hot blast air vent (19) and cold wind air vent (20) are circular, or square, or triangle, or polygon, single hot blast air vent (19) and cold wind air vent (20) area are between 10 square centimeters to 1 square metre.

9. building lot formula sandy soil heat accumulation self-heating system according to claim 1, it is characterized in that: this house is 7 layers of following building, in house, all enclosure wall (3) outsides outwardly are all equipped with warming plate (3), on floor (18) between every two houses, offering respectively 1～15 hot blast air vent (19) and cold wind air vent (20) up and down, hot blast air vent (19) is connected with hot blast air channel (6), and cold wind air vent (20) is connected with cold wind air channel (16).