CN204040382U - Ground geothermal board and apply the geothermal heating system of this geothermal board - Google Patents

Abstract

The utility model is about ground geothermal board and the geothermal heating system applying this geothermal board, more particularly, there is the light and heat utilizing far infrared lamp to send heat and the circulating air feature of warming oneself, compared with traditional mode utilizing fossil fuel to warm oneself, it is the environmental type product not producing carbon dioxide; Compared with traditional mode utilizing electric heating floor heating, the generation that electromagnetic wave, electrical equipment accident and fire etc. are dangerous can be reduced; Because utilizing far infrared rays to carry out sterilization repeatedly to air, the generation of geothermal board inside configuration microorganism can be reduced to greatest extent, can application life be improved thus; Buffer structure portion also can concentrate external force to the impact of geothermal board, and buffer structure portion can concentrate external force for noise between the impact of geothermal board effective lower layer.

Description

Ground geothermal board and apply the geothermal heating system of this geothermal board

Technical field

The utility model is about ground geothermal board and the geothermal heating system applying this geothermal board, more precisely, it is the light and heat utilizing far infrared lamp to send, air is carried out to the heating system of heat cycles, coming compared with the mode of heating with utilizing fossil fuel in the past, is the Green Product not producing carbon dioxide; Compared with utilizing the heating system of electric geothermal board, not only can reduce the generation of electromagnetic wave, electrical equipment accident and fire in the past; Far infrared rays also can be utilized to carry out sterilization repeatedly to air, and farthest can be reduced in the generation of microorganism in geothermal board internals, to keep clean, improve application life; Buffer structure portion also can concentrate external force to the impact of geothermal board, effective lower layer compartment noise.

Background technology

In order to provide comfortable environment of living to people, in building, all have heating system.In order to keep temperature suitable in building, widely use ground heating system in recent years, as below as described in patent document, ground heating system be in the past bury underground on ground heat conduction pipeline or, repave floor heating pipeline after ground paving is laid heat-barrier material, also have one to be the direct-fired iron wire floor of electricity consumption and geothermal board.In addition, geothermal system in the past also will be set up vibration-absorptive material knot in addition and formed (reducing noise portion) and carry out lower layer compartment noise problem.

(patent document)

No. 10-2007-0054842nd, issued patents (2007.05.30. announcement) " ground heating system ".

But ground heating system in the past lays heat-barrier material on the ground, lay liquid flow pipeline in the above, cover conduit with concrete, its complex structure, member replacing is also inconvenient, greatly reduces economic benefit.In addition, utilize the heating system that fossil fuel etc. allows water circulate in the catheter, not only greatly reduce heating efficiency, and do not reach environmental requirement.Geothermal system in the past carrys out lower layer compartment noise problem because also setting up vibration-absorptive material deck (reduce noise portion) in addition, such that ground heating system structure becomes complicated, volume becomes larger, also greatly reduces practicality.

Utility model content

The utility model is the solution proposed for the problems referred to above.

The object of the utility model for seeking environmental protection and economic benefit, lower layer compartment noise and the ground geothermal board invented and the geothermal heating system applying this geothermal board.

1, the utility model utilizes air to substitute water to carry out heat cycles, over the ground in hot plate structure the 1st, the 2nd passage fix upper-lower height, high temperature air is transferred to upper strata, the metal ground heating floor of bonding high thermoconductivity in the above, comparatively speaking, available low electricity starts far infrared lamp and heats air, the ground geothermal board of increasing economic efficiency thus and the geothermal heating system applying this geothermal board.

2, the purpose of this utility model is that the light and heat utilizing far infrared rays fluorescent tube to send carries out heat cycles to air, and coming compared with the mode of heating with utilizing fossil fuel in the past, is the Green Product not producing carbon dioxide; Compared with electric hot plate heating system in the past, the dangerous ground geothermal board occurred such as electromagnetic wave, electrical equipment accident and fire and the geothermal heating system applying this geothermal board can be reduced.

3, the object of the utility model, can install and use on existing building ground, be permanently fixed without the need to concrete, without the need to changing floor structure of building, the replacing of component also very easy ground geothermal board and apply the geothermal heating system of this geothermal board.

4, the object of the utility model, that the 1st, the 2nd passage over the ground in hot plate structure is formed by the continuous bending and un of extending direction, the subregion of geothermal board inside configuration can not be concentrated on by the air heated, dispersed, and can homogeneous heating upper strata geothermal board ground geothermal board and apply the geothermal heating system of this geothermal board.

5, the object of the utility model, utilize far infrared rays fluorescent tube to carry out heat cycles to air, air can sterilizing repeatedly, reduce the generation of microorganism in hot plate structure to greatest extent, can retentively hot plate clean and improve the ground geothermal board of durability and apply the geothermal heating system of this geothermal board

6, the object of the utility model, the all around fixed intervals to buffer part, the several grid of projection, bottom skeleton, the 1st geothermal board forms contact position, form buffer part at the position that load is concentrated, can reduce the ground geothermal board of noise transmission earthward and the geothermal heating system applying this geothermal board.

Below, the purpose of this utility model is embodied by example.

1, according to example described in the utility model, the utility model product geothermal board can directly be bonded on building floor, forms the 1st flaggy of geothermal board underclad portion, sets certain intervals, arrange the 2nd flaggy with the 1st laminate; Between the 1st flaggy and the 2nd flaggy, connect each interval of the 1st flaggy and the 2nd flaggy, to bend continuously by length direction and repeatedly and the fan portion formed and keel portion form the 3rd flaggy.

2, according to another example described in the utility model, the 1st flaggy of the geothermal board of the utility model product comprises the jut below the downward Embedded Division in top and the 1st flaggy of the 1st flaggy.

3, according to another example described in the utility model, 3rd flaggy comprises the end bend forming acclivitous 1st rake and above-mentioned 1st rake after the 2nd rake end starts complications and forms the 2nd downward-sloping rake, above-mentioned 1st rake and the 2nd rake are formed continuously along the 3rd flaggy, and the 1st rake of the 3rd flaggy upper end that is connected with the 2nd rake forms the scallop of swelling repeatedly; The lower end that 1st rake is connected with the 2nd rake forms the keel portion of projection repeatedly by length direction.

4, according to another citing described in the utility model, in the geothermal board of the utility model product, above-mentioned scallop is connected with the 2nd flaggy, and above-mentioned keel portion is connected with the 1st flaggy, and above-mentioned geothermal board is surrounded by the 1st rake and the 2nd rake and the 1st flaggy; Be communicated with the 2nd flaggy that the 1st portion of UNICOM of the relative two panels of above-mentioned geothermal board and the 1st rake, the 2nd rake and the 2nd portion of UNICOM surround to be concatenated to form by length direction.

5, according to another example described in the utility model, buffer part every evenly, repeats with grid pattern between left and right, and the 1st plate bottom the keel portion of above-mentioned 3rd flaggy forms contact position, the circular cone point of end forming curves shape.

6, according to another example described in the utility model, to be the 3rd flaggy formed at the more than one side contact of the 1st flaggy and the 2nd flaggy this product geothermal board, geothermal board is connected and embeds the jut of acceptance division of another plate, above-mentioned 3rd flaggy and the 1st flaggy are formed in the 2nd flaggy side and swell, therefore, the space occupied by the 3rd plate flaggy between the 1st flaggy and the 2nd flaggy is also comprised; With when being connected above-mentioned geothermal board and other geothermal board, comprise the acceptance division that jut is inserted into.

7, according to another example described in the utility model, this geothermal board is connected by multiple veneer to form.System comprises the geothermal board structural member of contact on building floor, and the 1st in structural member, the 2nd passage are connected and form air moving passage, be connected to air moving passage and add hot air and to the air circulation portion etc. of the 1st, the 2nd passage delivery cycle air.1st access opening of the 1st access opening and another geothermal board that the structure of geothermal board system comprises a geothermal board is connected and the 1st passage formed; With the 2nd passage that the 2nd access opening of a geothermal board and the 2nd access opening of another geothermal board are connected and are formed.

8, according to another example described in the utility model, above-mentioned air moving passage comprises in above-mentioned air circulation portion by the air heated, to the 1st, the 2nd passage air fed air feed path, be positioned at above-mentioned air feed path, and the air circulation duct of the air heat circulation portions that the air after heating is transmitted to the 1st, the 2nd passage.Air circulation portion comprises by light and heating and the heating part of heating, be arranged on a certain distance from heating part and the air moving passage air heated in heating part being transplanted on the 1st, the 2nd passage and the pressurization part that air is flowed.

9, according to another example described in the utility model, above-mentioned heating part uses can heat by emitting far-infrared far infrared lamp.

10, according to another example described in the utility model, the utility model product also comprises can test the temperature pick up of geothermal board structure temperature and the temperature controller of operating system, and pressurization part uses hair-dryer.

The utility model is combined with following formation by aforesaid example, can draw following effect in use.

The utility model is the economic benefit of seeking environment-friendly type, and has the noise result of lower layer compartment.

1, the utility model replaces water to carry out heat cycles with air, and the 1st, the 2nd passage upper-lower height regularly in hot plate structure part, high temperature air is to the metal sheet of upper strata moving contact pyroconductivity excellence thus, utilization can be heated air with the far infrared lamp that the electric energy of relatively small amount starts, and has the effect that can improve economy benefit.

2, the utility model is the light and heat utilizing far infrared lamp to send, and to the heating system of air heat circulation, coming compared with the mode of heating with traditional fossil fuel that utilizes, is the Green Product not producing carbon dioxide; Compared with traditional heating system utilizing electric heating floor, there is the effect that can reduce electromagnetic wave, electrical equipment accident and fire and occur.

3, the utility model product can be directly installed on ground, and come permanent fixing without the need to concrete, therefore without the need to changing floor structure of building, the replacement of component is also very easy to.

4, the 1st in local hot plate structure, the 2nd passage are concatenated to form continuously by length direction, are therefore not only concentrated on geothermal board inside configuration by the air heated, but are uniformly dispersed, and have the effect of the upper deck panels of homogeneous heating geothermal board structure.

5, this geothermal board utilizes far infrared lamp to add hot air, and because ground air is repeatedly by far infrared rays sterilizing, in geothermal board structure, maximization degree reduces the generation of microorganism, retentively the clean of hot plate also can improve durability.

6, the utility model is that buffer portion is evenly arranged at interval, all around, formation grid-like repeats, the first flaggy bottom keel portion forms contact position, therefore forms buffer part at the position that load is concentrated, and can alleviate the effect of transmission ground noise.

Accompanying drawing explanation

Fig. 1 is the geothermal board inclined-plane schematic diagram of example described in the utility model product;

Fig. 2 is that the geothermal board of example described in the utility model product decomposes inclined-plane schematic diagram;

Fig. 3 is the geothermal board schematic cross-section of example described in the utility model product;

Fig. 4 is the inclined-plane schematic diagram of the geothermal board of example described in the utility model product;

Fig. 5 is the reference diagram in order to key diagram 4 junction plate process;

Fig. 6 is the geothermal board system inclined-plane schematic diagram of another example described in the utility model product;

Fig. 7 is the geothermal board system decomposition oblique view of Fig. 6;

Fig. 8 is the reference diagram for key diagram 6 geothermal board working state of system.

Description of reference numerals

10: flaggy 11: the 1 flaggy 13: the 2 flaggy

15: the 3 flaggy 16: the 1 interconnecting part 17: the 2 interconnecting parts

18: jut 19: acceptance division 11: buffer part

151: the 1 rake 152: the 2 rakes 153: scallop

154: keel portion

20: geothermal board structure 21: the 1 passage 22: the 2 passage

30: air transfer passage 31: air feed path 32: air recovery approach

40: closure 50: air circulation portion 51: heating part

52: pressurization part 60: temperature pick up 70: temperature controller

Detailed description of the invention

Below to ground land used hot plate and the detailed description of geothermal heating system of applying this geothermal board with reference to accompanying drawing.The content of same structure all represents with same symbol wherever in the drawings.Without special definition, terms all in this explanation is identical with the term that the technician of the world knowledge had in the utility model technical field understands.If with the term used in this explanation have conflict time, with in this explanation use definition be as the criterion.In whole manual, mention certain part when " comprising " content of certain inscape, be not the inscape getting rid of other as namely represented without special explanation, but mean the inscape perhaps also comprising other.

Fig. 1 is the inclined-plane schematic diagram of the geothermal board of example described in the utility model product, Fig. 2 is the decomposition inclined-plane schematic diagram of the geothermal board of example described in the utility model product, Fig. 3 is the schematic cross-section of the geothermal board of the utility model product exemplary citing, Fig. 4 is the inclined-plane schematic diagram of the geothermal board of another example described in the utility model product, Fig. 5 is the reference diagram in order to key diagram 4 junction plate process, Fig. 6 is the geothermal board system inclined-plane schematic diagram of the utility model product example described in another, Fig. 7 is the geothermal board system decomposition inclined-plane schematic diagram of Fig. 6, Fig. 8 is the reference diagram for key diagram 6 geothermal board system operating state.

One, by example described in the utility model product, geothermal board utilizes Fig. 1 to Fig. 3 with reference to explanation, geothermal board (10) directly contacts building floor, comprise the lower plywood forming geothermal board (10) the 1st flaggy (11) and with a certain distance from the 1st flaggy (11) and formed geothermal board upper surface portion the 2nd flaggy (13), to be positioned between the 1st flaggy (11) and the 2nd flaggy (13) and the 3rd flaggy (15) according to length direction tortuous formation continuous print fan portion (153) and keel portion (154) be continuously connected separately.

1, above-mentioned 1st flaggy (11) directly contacts building floor, and forms the lower plywood of geothermal board (10), and it comprises buffer part (111).1st flaggy (11) has certain shape, adopts rectangle light sheet more rightly.This is to balancedly be arranged on ground.1st flaggy (11) makes by fixing material, preferably adopts the metal (such as aluminium, stainless steel, photo zincography etc.) with stronger intensity and better heat conductivity to make.

2, above-mentioned buffer part (111) is that the top of the 1st flaggy (11) of geothermal board embeds downwards, forms the structure at abutment below the 1st flaggy (11).Buffer part (111) certain intervals below the 1st flaggy (11) forms several abutment.As Fig. 1 to form the contact position of grid shape according to certain intervals in all around.Preferably below the keel portion (154) of above-mentioned 3rd flaggy (15), the 1st flaggy (11) at position is upper forms contact position.

3, above-mentioned buffer part (111) forms certain shape, but preferably at the circular cone point of end forming curves state.Buffer part (111) can be concentrated and pass on the load of geothermal board (10) to alleviate noise.Principle about this respect describes in detail below.

4, above-mentioned 2nd flaggy (13) has certain distance from the 1st flaggy (11).3rd flaggy (15) is positioned at the upper flaggy forming geothermal board (10) after between the 1st flaggy (11) and the 2nd flaggy (13).2nd flaggy (13) has certain shape, most preferably uses rectangular light sheet.This is balancedly arranged on again on the 3rd flaggy (15) in order to the 2nd flaggy (13) is parallel.2nd flaggy (13) is that material makes on request, but preferably uses the metal (such as aluminium, stainless steel, photo zincography etc.) with high strength and high thermoconductivity to make.

5, above-mentioned 3rd flaggy (15) is positioned between the 1st flaggy (11) and the 2nd flaggy (13), connect the 1st flaggy (11) and the 2nd flaggy (13) respectively, form fan portion (153) and keel portion (154) according to length direction is repeatedly tortuous, it comprises the 1st rake (151), the 2nd rake (152), fan portion (153), keel portion (154).3rd flaggy (15) has certain shape, preferably uses rectangular light sheet to be bent to form.Material will make by regulation material, preferably uses the metal (such as aluminium, stainless steel, photo zincography etc.) with high strength and high thermoconductivity to manufacture.

6, above-mentioned 1st rake (151) is formed at the end bend of the 2nd rake (152) and is inclined upwardly, and above-mentioned 2nd rake (152) is formed downward-sloping at the end bend of the 1st rake (151).The 1st above-mentioned rake (151) and the 2nd rake (152) are formed in length direction continuous bend, upper 1st rake (151) of the 3rd flaggy (15) and the 2nd rake (152) be connected upper end formed protuberance scallop (153), be associated at the 1st rake (151) and the 2nd rake (152) the keel position (154) that lower end forms projection mutually, and formed to length direction continuous bend.

7, above-mentioned scallop (153) is connected with the 2nd flaggy (13), keel portion (154) is connected with the 1st flaggy (11), and above-mentioned geothermal board (10) is surrounded by the 1st rake (151) and the 2nd rake (152) and the 1st flaggy (11); The 1st portion of UNICOM (16) and the 1st rake (151), the 2nd rake (152) and the 2nd flaggy (13) that are communicated with the relative two panels (side, front and back) of above-mentioned geothermal board (10) surrounded, and the 2nd portion of UNICOM (17) being communicated with the relative two panels of above-mentioned geothermal board (10) is concatenated to form continuously at length direction.Geothermal board (10) comprises the 1st flaggy (11), the 2nd flaggy (13), the 3rd flaggy (15) described in above, integration is made by multiple manufacturing procedures such as casting, welding, plasticity, there is manufacture simple and easy, the feature that can reduce costs.As mentioned above, the forward and backward and/or left and right connection on building floor of the geothermal board (10) with said structure spreads out and forms geothermal board system.To this content after will describe in detail.

Two, (10') another example described in the utility model, illustrate illustratively hot plate of the present utility model with reference to Fig. 4 and Fig. 5.Geothermal board the 3rd flaggy (15') is (10') except forming contact position (18) and acceptance division (19) at the 1st flaggy (11') and the 2nd flaggy (13') more than one side contact, in addition, (10') content is identical for the geothermal board illustrated with reference to Fig. 1 with Fig. 3, therefore, only illustrate about contact portion (18) and acceptance division (19) content below.

1, above-mentioned contact portion (18) is formed from the 3rd flaggy (15') at the 1st flaggy (11') and the 2nd flaggy (13') more than one side contact, connect geothermal board (10') time be embedded in another geothermal board acceptance division (10') (19).

2, above-mentioned acceptance division (19) the 3rd flaggy (15') is at the 1st flaggy (11') and the 2nd flaggy (13') side contact, the space occupied by the 3rd flaggy (15') between the 1st flaggy (11') and the 2nd flaggy (13'), connect geothermal board (10') time be embedded in another geothermal board contact position (10').(10') install in order to above-mentioned geothermal board and use on the ground, (10') geothermal board is connected to spread out and form geothermal board system in forward and backward and left and right direction.(10') geothermal board is formed by contact position (18) and acceptance division (19), shown in Fig. 5, by the contact position of geothermal board (10a'), ((10') 18 acceptance divisions (19b) a) embedding another geothermal board (10b') to connect very like a cork geothermal board.

Three, another example described in the utility model, geothermal board system illustrates with reference to Fig. 1 and Fig. 8, and above-mentioned geothermal board system is connected by multiple geothermal board (10) and is formed.System comprises the in the geothermal board structural member (20) and above-mentioned geothermal board structural member (20) and the space of building between inner layer wall (100) and geothermal board structure (20) contacted on building bottom surface the 1st, 2nd passage (21, 22) be connected and form air moving passage (30), the closure (40) at the upper position of occluded air movable passageway (30), be positioned at air moving passage (30) to add after hot air to the 1st, 2nd passage (21, 22) and circulating air movable passageway (30) transfer air air circulation portion (50), the temperature pick up of test geothermal board structure (20) upper temp, the temperature controller (60) etc. of control system.After above-mentioned geothermal board system is installed user above, flooring leather etc. or sheet material (300) use this product.

1, above-mentioned geothermal board structure (20) is connected by multiple geothermal board (10) all around and is formed and be arranged on building floor (200).The 2nd passage (22) that the 1st passage (21) that 1st access opening (16) of the 1st access opening (16) and another geothermal board (10) that system comprises geothermal board (10) is connected and is formed is connected with the 2nd access opening (17) of another geothermal board (10) with the 2nd access opening (17) of geothermal board (10) and is formed.1st passage (21) and the 2nd passage (22) of above-mentioned geothermal board structural member (20) are connected to form continuously at length direction.

2, above-mentioned air moving passage (30) is that geothermal board structure (20) and the space of building between inner layer wall (100) are connected with the 2nd passage (22) with the 1st passage (21) of geothermal board structure (20), forms the movable passageway of air.Air moving passage (30) comprises air circulation portion (50).The upper end of air moving passage (30) is closed portion (40) and closes.Air moving passage (30) comprise supplied by the 1st passage (21) and the 2nd passage (22) by the air that air circulation portion (50) heat air feed path (31), also comprise the air recovery approach (32) air by the 1st passage (21) and the 2nd passage (22) being transplanted on air circulation portion (50) heating part (51).

3, above-mentioned closure (40) and above-mentioned building floor (200) keep a determining deviation, close the upper part of above-mentioned air moving passage (30).There is certain material and shape, more wish the rectangular sheet material shape with stronger intensity and the more metal of good thermal conductivity.In addition, wish that the upper plane of above-mentioned closure (40) keeps concordant with the upper plane of above-mentioned geothermal board structure (20).

4, above-mentioned air circulation portion (50) is positioned at above-mentioned air moving passage (30), for adding hot air, the 1st, 2 passages (21,22) and the loop structure of air moving passage (30), comprise heating part (51) and pressurization part (52).

5, above-mentioned heating part (51) utilize light and heat to add the structure of hot air, can utilize can be emitting far-infrared far infrared lamp.Above-mentioned pressurization part (52) and above-mentioned heating part (51) keep a determining deviation, make the air that heats from above-mentioned heating part (51) above-mentioned geothermal board structure (20) the 1st, circulation 2 passages (21,22) and air moving passage (30), it is the structure promoting air flowing, hair-dryer can be used, the devices such as fan.Said temperature sensor measures the upper strata temperature of above-mentioned geothermal board structure (20), and this information is sent to temperature controller (60).

Below utilize above-mentioned geothermal board system so that the principle of noise between heating and lower layer to be described.

First check heating principle: when user operates temperature controller (60), temperature controller (60) is according to temperature sensor measurement temperature.When this temperature does not reach the temperature of user's setting, start heating part (51) and pressurization part (52), to be flowed into by air feed path (31) by the air that heats in heating part (51) after the first segment of the 1st passage and the 2nd passage (21,22) from another joint discharge.Be fed to heating part (51) again from another joint discharge air to circulate.Namely the hot air that adds flowing into the 1st passage and the 2nd passage (21,22) passes to the upward position of geothermal board structure (20) to implement heating.This heating floor system is circulating system air being substituted water, 1st passage and the 2nd passage (21,22) maintain certain height downwards, and the high temperature air of the inside moves up metal 2nd flaggy (13) of contact heat conductien excellent performance.Because utilizing the electricity of relatively low electricity to start far infrared lamp to add hot air, therefore economy can be improved.Can utilize the light and heat that far infrared fluorescent tube sends in addition, heat cycles air is warmed oneself, and compared with the mode utilizing fossil fuel to warm oneself, is the environmental type product not producing carbon dioxide with tradition; Compare traditional electric hot plate heating mode, the generation that electromagnetic wave, electrical equipment accident, fire etc. are dangerous can be reduced.This ground heating system is in geothermal board structure (20), 1st passage (21), the 2nd passage (22) are concatenated to form continuously by length direction, therefore have and not only concentrated on geothermal board structure (20) inside by the air heated, but dispersion carrys out the effect of the flaggy above of homogeneous heating geothermal board structure (20) equably.

The utility model utilizes far infrared lamp to add hot air in addition, and therefore air is repeatedly by far infrared rays sterilizing, at utmost reduces the generation of microorganism in geothermal board structure (20), can retentively hot plate clean and improve application life.The utility model product can be directly installed on ground, and come permanent fixing without the need to concrete, therefore without the need to changing floor structure of building, the replacement of component is also very easy to.

Can noise between reduction layer when utilizing heating floor system, its principle is human body when beating on the ground of not installing this product, and human body weight can pass to whole ground, produces noise in lower floor., when after installing this product, human body is beated, the buffer part (111) that weight first passes to small size passes to ground again, and therefore, large noise can not occur the ground bottom.The utility model is that buffer part (11) sets at interval, all around in addition, form several lattice space, 1st flaggy (11) of the bottom, keel portion (154) of the 3rd flaggy (15) forms contact position, therefore, human body is when beating, weight is along with the 1st, 2 rakes (151,152) keel portion (154) is passed to, the keel portion (154) that load is concentrated forms buffer part (111), can alleviate the noise passing on ground.

As mentioned above, applicant illustrates and of the present utility modelly multiplely shows citing, but this exemplary citing just exemplary citing in statement technological thought of the present utility model.To the statement of technological thought of the present utility model, no matter which type of is out of shape or revises all should be interpreted as belonging to protection domain of the present utility model.

Claims (10)

1. a ground geothermal board, is characterized in that, geothermal board comprises the 1st flaggy forming orlop plate portion; With the 2nd flaggy of the 1st flaggy tool certain intervals; Connect separately between the 1st flaggy and the 2nd flaggy, and be concatenated to form the 3rd flaggy in fan portion and keel portion by the continuous complications of length direction.

2. geothermal board according to claim 1, is characterized in that, described 1st flaggy comprise the 1st flaggy on to face down the buffer part of Embedded Division and the 1st flaggy lower protrusion.

3. geothermal board according to claim 2, is characterized in that, described 3rd flaggy comprises the 2nd rake after end complications, forms acclivitous 1st rake; The end complications of described 1st rake form the 2nd downward-sloping rake; Described 1st rake and the 2nd rake are formed continuously according to the 3rd flaggy; 1st rake of the 3rd flaggy is connected with the 2nd rake, and the keel position that length direction forms projection is pressed in fan position and the lower end of upper end formation projection.

4. geothermal board according to claim 3, is characterized in that, described fan position is connected with the 2nd flaggy, and keel position is connected with the 1st flaggy, and described geothermal board is surrounded by the 1st rake and the 2nd rake and the 1st flaggy; Be communicated with the 1st interconnecting part and the 1st rake of the relative two panels of described geothermal board, the 2nd interconnecting part that the 2nd rake and the 2nd flaggy surround, be concatenated to form by length direction.

5. geothermal board according to claim 4, it is characterized in that, described buffer part repeats to arrange every the trellised mode of fixed range shape with multiple between left and right, and the 1st flaggy bottom the keel portion of described 3rd flaggy forms contact position, and end forms the circular cone point of curved surface state.

6. the geothermal board according to claim 2 or 5, is characterized in that, ground heating system comprises the 3rd flaggy and formed at the 1st flaggy and the more than one side contact of the 2nd flaggy, is embedded into the acceptance division of another geothermal board when connecting geothermal board; Contact at the 1st flaggy and the 2nd flaggy side at described 3rd flaggy, taken up space by the 3rd flaggy between the 1st flaggy and the 2nd flaggy, be embedded in the acceptance division of another geothermal board jut when connecting geothermal board.

7. according to the geothermal heating system that the arbitrary described geothermal board of claim 1-6 is formed, it is characterized in that, described geothermal heating system comprises and is arranged on the geothermal board structural member on building floor and the 1st, the 2nd passage in structural member is connected and forms air moving passage, and is positioned at air moving passage and heats air and to the air circulation portion etc. of the 1st, the 2nd channel cycle conveying air; The 1st passage that 1st access opening of the 1st access opening and another geothermal board that geothermal board structural member comprises a geothermal board is connected and is formed, and the 2nd access opening of a geothermal board and the 2nd access opening of another geothermal board are connected and form the 2nd passage.

8. geothermal heating system according to claim 7, it is characterized in that, described air transfer passage, comprise the air feed path will supplied to the 1st, the 2nd passage by the air heated according to described air circulation portion, and by the 1st, the 2nd passage by the air recovery approach in air air supply circulating-heating portion; Described air circulation portion comprise by the heating part that can send light and heat, be arranged on a certain distance from heating part and the air heated in heating part is transported to described 1st, the 2nd passage and makes air move circulation, make the pressurization part that air flows.

9. geothermal heating system according to claim 8, is characterized in that, described heating part is the far infrared lamp that can send far infrared rays.

10. geothermal heating system according to claim 9, is characterized in that, the ground heating system of described geothermal board, comprises the temperature pick up of test geothermal board structure temperature and the temperature controller of control operation system; Described pressurization part is hair-dryer.