CN105953288A - Multifunctional green building with natural circulation floor heating function and indoor ventilation function - Google Patents

Abstract

The invention discloses a multifunctional green building with a natural circulation floor heating function and an indoor ventilation function. The multifunctional green building comprises a terrestrial heat circulation system and a hot air circulation system. The terrestrial heat circulation system comprises a solar panel, a heat collection water tank, a steam separator, a water supplementation tank and a capillary network. The hot air circulation system comprises a heat storage wall arranged on the face exposed to the sun, wherein the heat storage wall is used for replacing a traditional wall. A glass wall is installed on the outer side of the heat storage wall and a certain distance is formed between the glass wall and the heat storage wall. According to the multifunctional green building with the natural circulation floor heating function and the indoor ventilation function, after solar energy is converted into heat energy through the terrestrial heat circulation, self-circulation of heat is achieved by sufficiently using gravitational potential energy and siphonage, and the multifunctional green building is more environment-friendly; and meanwhile, the hot air circulation is set in an auxiliary manner, indoor air circulation is achieved according to the principle that hot air rises and cold air falls, hot air can enter indoor portions in winter, the room temperature rises, ventilation cooling can be achieved in summer, and human bodies can feel more comfortable.

Description

A kind of multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation

Technical field

The present invention relates to heating of house field, particularly relate to the multifunctional green building of a kind of indoor air-changing that warms up while there is Natural Circulation.

Background technology

Stepping up now with people's living standard, the environmental consciousness of people is more and more higher, and present stage heating of house carries out heating of house exactly with burning in boiler hot water and by floor heating or wall are warm, this by the way of burning takes heat, bigger to the damage ratio of environment.So being badly in need of now one, more environmental protection, and heating effect is good, heating of house that artificial body-sensing is the most comfortable and air circulation style.

Summary of the invention

It is an object of the invention to provide the multifunctional green building of a kind of indoor air-changing that warms up while there is Natural Circulation, solve present heating mode big for environment pollution, and indoor human body feels uncomfortable problem.

For solving above-mentioned technical problem, the present invention adopts the following technical scheme that

The multifunctional green building of a kind of indoor air-changing that warms up with having Natural Circulation of the present invention, circulates including thermal cycle and hot-air；Described thermal cycle includes:

The heat collection water tank connected with solar panels；

Being arranged at the steam-water separator above described heat collection water tank, described steam-water separator is connected with heat collection water tank by tedge；

Being arranged on the water supply tank between described steam-water separator and described heat collection water tank, the absolute altitude of described water supply tank is higher than heat collection water tank, and less than steam-water separator；

It is laid on the capillary bed under housing floor；The water inlet of described capillary bed is connected with described steam-water separator, and the outlet of capillary bed is connected with described heat collection water tank；

The circulation of described hot-air includes that the Heat Storing Wall being arranged on sunny slope is to substitute conventional wall；The outside of described Heat Storing Wall is provided with glass wall, keeps at a certain distance away between described glass wall and described Heat Storing Wall；The upper end of described glass wall offers the first opening, and the top and bottom of described Heat Storing Wall offer the second opening and the 3rd opening respectively, and the body of wall upper end of in the shade offers the 4th opening；Described first opening, the second opening and the 4th opening are provided with sealing lid.

Further, described tedge is obliquely installed, and is less than 75 ° with the angle of horizontal plane more than 45 °.

Further, described steam-water separator is connected and was arrived above water supply tank the first communicating pipe, and water supply tank lower end was connected with described heat collection water tank by the second communicating pipe.

Further, it is provided with check-valves between outlet and the heat collection water tank of described capillary bed.

Further, described capillary bed is provided with two water inlets, lays respectively at the two ends of housing floor, and is all connected with described steam-water separator.

Further, being additionally provided with the shower bath being connected with described steam-water separator in house, the absolute altitude on described shower bath top is less than steam-water separator.

Further, described glass wall is thick middle, the class convex lens structures that surrounding is thin.

Further, in house, middle position is provided with connection post, and described connection post is clear hollow structure, and described connection post is in communication with the outside up through roof from the bottom up in house；Described connection post is internal and top is provided with multiple daylighting minute surface, for being reflexed within doors by sunlight.

Further, described daylighting minute surface setting at an angle to each other, and the most down daylighting minute surface arranges the most intensive, for by sunlight reflection and be transferred in house everywhere.

Further, described connection post is double-decker, and the interlayer between bilayer is confined space, and does evacuation process.

Compared with prior art, the Advantageous Effects of the present invention is as follows:

The present invention makes full use of gravitional force after converting solar energy into heat energy by thermal cycle and siphonage realizes the self-loopa of heat, more environmental protection；Auxiliary arranges hot-air circulation simultaneously, utilizes the principle that hot-air rises, cold air declines, it is achieved indoor air circulation, can realize hot-air in the winter time and enter indoor, improve room temperature, can realize aeration-cooling in summer, make human body sensory the most comfortable.

Accompanying drawing explanation

The invention will be further described in explanation below in conjunction with the accompanying drawings.

Fig. 1 is that the present invention warms up the multifunctional green building structure schematic diagram of indoor air-changing with having Natural Circulation；

Description of reference numerals: 1, thermal cycle；101, solar panels；102, heat collection water tank；103, steam-water separator；104, tedge；105, water supply tank；106, capillary bed；107, the first communicating pipe；108, the second communicating pipe；109, check-valves；110, shower bath；

1, hot-air circulation；201, Heat Storing Wall；202, glass wall；203, the first opening；204, the second opening；205, the 3rd opening；206, the 4th opening；207, lid is sealed；

2, connection post；4, daylighting minute surface.

Detailed description of the invention

As it is shown in figure 1, the multifunctional green building of a kind of indoor air-changing that warms up while there is Natural Circulation, circulate 2 including thermal cycle 1 and hot-air.

Specifically, described thermal cycle 1 includes:

The heat collection water tank 102 connected with solar panels 101, solar panels absorb solar energy and improve the water temperature in heat collection water tank, reach nearly saturation temperature；

Being arranged at the steam-water separator 103 above described heat collection water tank 102, described steam-water separator 103 is connected with heat collection water tank 102 by tedge 104；After water temperature in heat collection water tank is raised to nearly saturation temperature, water rises along tedge, and along with the rising of position, static pressure declines, and aquiform stool occurs from vaporization phenomenon, produces a small amount of steam, becomes steam water interface, and steam water interface separates at steam-water separator；

Being arranged on the water supply tank 105 between described steam-water separator 103 and described heat collection water tank 102, the absolute altitude of described water supply tank 105 is higher than heat collection water tank 102, and less than steam-water separator 103；The steam water interface that tedge is risen up by steam-water separator isolates water and steam, and steam is communicated in water supply tank；

The capillary bed 106 being laid under housing floor；The water inlet of described capillary bed 106 is connected with described steam-water separator 103, and the outlet of capillary bed 106 is connected with described heat collection water tank 102, and isolated hot water is communicated in capillary bed by steam-water separator.

Described hot-air circulation 2 includes that the Heat Storing Wall 201 being arranged on sunny slope is to substitute conventional wall；The outside of described Heat Storing Wall 201 is provided with glass wall 202, keeps at a certain distance away between described glass wall 202 and described Heat Storing Wall 201；The upper end of described glass wall 202 offers the first opening 203, and the top and bottom of described Heat Storing Wall 201 offer the second opening 204 and the 3rd opening 205 respectively, and the body of wall upper end of in the shade offers the 4th opening 206；Described first opening the 203, second opening 204 and the 4th opening 206 are provided with sealing lid 207, seal the concrete employing of lid and can prevent the sealing lid (not shown) of PM2.5.Solar radiation heat is irradiated in Heat Storing Wall through glass wall, and the air of compartment is heated, and thermal current moves upward.Close the first opening and the 4th opening when of winter, then a heat part enters indoor by Heat Storing Wall conduction of heat, and a part is carried by thermal current, enters indoor from the second opening, and indoor cold air is then entered compartment by the 3rd opening, thus reaches the effect of heating.The when of summer, only close the second opening, solar radiation is on compartment, inner air is heated to be risen, outside via the first opening discharge chamber, the 3rd opening of Heat Storing Wall bottom constantly has colder air to enter compartment, and room pressure reduces, the cold air of in the shade the most constantly enters indoor by the 4th opening, forms aeration-cooling circulation.

Specifically in an embodiment, described tedge 104 is obliquely installed, and is 60 ° with the angle of horizontal plane, and the setting of inclination is more beneficial for water and occurs from vaporization phenomenon.

Described steam-water separator 103 is connected and was arrived above water supply tank 105 the first communicating pipe 107, and the steam separated coagulates formed in water entrance water supply tank in the first communicating pipe, or condensed in water supply tank；Water, by being connected with described heat collection water tank 102 the second communicating pipe 108, is supplemented back in heat collection water tank and recycles by water supply tank 105 lower end.

It is provided with check-valves 109 between outlet and the heat collection water tank 102 of described capillary bed 106, prevents the water in heat collection water tank from directly flowing backwards into capillary bed from outlet.

Described capillary bed 106 is provided with two water inlets, and capillary bed tiling is to each corner below floor, two water inlets lay respectively at the two ends of housing floor, and be all connected with described steam-water separator 103, make hot water flow into capillary bed ratio more uniform, do not have the situation that hot one end, one end is cold.

Described solar panels are arranged on the top in house, and described heat collection water tank, steam-water separator and water supply tank are arranged on the inside in house.

It can in addition contain be provided with the shower bath 110 being connected with described steam-water separator 103 in house, the absolute altitude on described shower bath 110 top be less than steam-water separator 103, make water under the pressure of gravitional force, automatic outletting.

Described glass wall 202 is thick middle, the class convex lens structures that surrounding is thin, strengthens spotlight effect.

Another specific embodiment, other features are same as described above, repeat no more, and in house, middle position is provided with connection post 3, and described connection post 3 is clear hollow structure, and described connection post 3 is in communication with the outside up through roof from the bottom up in house；Described connection post 3 is internal and top is provided with multiple daylighting minute surface 4, and for reflexing within doors by sunlight, the sunlight utilizing reflection to come in makes indoor temperature rise within doors, and the irradiation of sunlight makes to become clear within doors and closer to naturally allowing people's body and mind happy.

Described daylighting minute surface 4 setting at an angle to each other, sunlight after direct reflection directive within doors and lower section, so through direct reflection layer by layer, sunlight is by directive each corner within doors；Owing to sunlight is the thinnest, so the most down daylighting minute surface 4 arranges the most intensive, for by sunlight reflection and be transferred in house everywhere, to weaken along with the reduction of position.

Described connection post 3 is double-decker, and the interlayer between bilayer is confined space, and does evacuation process, makes the interior and extraneous generation heat exchange of connection post isolating chamber, and a permission sunlight shines.

The top of connection post arranges transparent rain shield, prevents rainwater from entering with other rubbish and connects inside post.

Embodiment described above is only that the optimal way to the present invention is described; not the scope of the present invention is defined; on the premise of designing spirit without departing from the present invention; various deformation that technical scheme is made by those of ordinary skill in the art and improvement, all should fall in the protection domain that claims of the present invention determines.

Claims (10)

1. the multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation, it is characterised in that: include thermal cycle (1) and hot-air circulation (2)；Described thermal cycle (1) including:

The heat collection water tank (102) connected with solar panels (101)；

Being arranged at the steam-water separator (103) of described heat collection water tank (102) top, described steam-water separator (103) is connected with heat collection water tank (102) by tedge (104)；

The water supply tank (105) being arranged between described steam-water separator (103) and described heat collection water tank (102), the absolute altitude of described water supply tank (105) is higher than heat collection water tank (102), and less than steam-water separator (103)；

The capillary bed (106) being laid under housing floor；The water inlet of described capillary bed (106) is connected with described steam-water separator (103), and the outlet of capillary bed (106) is connected with described heat collection water tank (102)；

Described hot-air circulation (2) includes that the Heat Storing Wall (201) being arranged on sunny slope substitutes conventional wall；The outside of described Heat Storing Wall (201) is provided with glass wall (202), keeps at a certain distance away between described glass wall (202) and described Heat Storing Wall (201)；The upper end of described glass wall (202) offers the first opening (203), and the top and bottom of described Heat Storing Wall (201) offer the second opening (204) and the 3rd opening (205) respectively, and the body of wall upper end of in the shade offers the 4th opening (206)；Described first opening (203), the second opening (204) and the 4th opening (206) are provided with sealing lid (207).

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterised in that: described tedge (104) is obliquely installed, and is less than 75 ° with the angle of horizontal plane more than 45 °.

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterized in that: described steam-water separator (103) is connected and arrived water supply tank (105) top the first communicating pipe (107), and water supply tank (105) lower end is by being connected with described heat collection water tank (102) the second communicating pipe (108).

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterised in that: it is provided with check-valves (109) between outlet and the heat collection water tank (102) of described capillary bed (106).

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterized in that: described capillary bed (106) is provided with two water inlets, lay respectively at the two ends of housing floor, and be all connected with described steam-water separator (103).

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterized in that: be additionally provided with the shower bath (110) being connected with described steam-water separator (103) in house, the absolute altitude on described shower bath (110) top is less than steam-water separator (103).

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterised in that: described glass wall (202) is thick middle, the class convex lens structures that surrounding is thin.

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 1, it is characterized in that: in house, middle position is provided with connection post (3), described connection post (3) is clear hollow structure, and described connection post (3) is in communication with the outside up through roof from the bottom up in house；Described connection post (3) is internal and top is provided with multiple daylighting minute surface (4), for being reflexed within doors by sunlight.

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 8, it is characterized in that: the setting at an angle to each other of described daylighting minute surface (4), and more the most down daylighting minute surface (4) arranges the most intensive, for by sunlight reflection and in being transferred to house everywhere.

The multifunctional green building of the indoor air-changing that warms up while there is Natural Circulation the most according to claim 8, it is characterised in that: described connection post (3) is double-decker, and the interlayer between bilayer is confined space, and does evacuation process.