CN204963045U - Ventilation heat preservation module heating cooling ground and energy -conserving ventilation air conditioning system - Google Patents

Abstract

The utility model relates to a ventilation heat preservation module heating cooling ground and energy -conserving ventilation air conditioning system, include ventilation heat preservation module heating cooling ground, ventilation air conditioning system and heat preservation ventilation window, ventilation heat preservation module heating cooling ground, from bottom to top in proper order by expandability polyethylene bed course, ventilation heat preservation module body, the heating coil line constitute with dividing water collector, dehumidification heat dissipation blast pipe, dehumidification heat dissipation wind channel, dehumidification heat dissipation collection tuber pipe, air conditioner ground blast pipe, protection against the tide heat -conducting layer and timber apron, this heat preservation ventilation window comprises window, heat absorption reflection of light sunshade screen and cavity glass exterior window in ventilating, and it not only promotes the K value of window, moreover, ventilation air conditioning system utilizes heat preservation ventilation window as advancing to air exhaust the passageway, has reduced the air conditioner energy consumption, improve the air conditioner effect to it is dual -purpose to realize that a ground warms up terminal changes in temperature, and waste heat recovery utilizes, reduces installation and running cost, reaching air purification and handling, clean fresh air's purpose also can be breathed in the family of not windowing.

Description

Ventilating and thermal insulating module heating cooling ground and energy-saving ventilating air air-conditioning system

Technical field

The utility model relates to and is a kind ofly applicable to take water as the ventilating and thermal insulating module heating cooling ground and energy-saving ventilating air air-conditioning system of cold/heat source, particularly relate to the construction method of a kind of ventilating and thermal insulating module heating cooling ground and energy-saving ventilating air air-conditioning system various.

Background technology

At present, common buildings, especially existing building door and window due to air-tightness and heat insulating ability poor, door and window energy consumption accounts for 50% of building energy consumption, meanwhile, for haze is to the pollution of room air, need establish newly on exterior wall various enter air draft hole, set up fresh air purifying ventilating system, thus, cause the loss of indoor Cooling and Heat Source and the decline of exterior-wall heat insulation; Building energy consumption promotes further.And for ground heating system, in general be three points of products seven points installations, but as mentioned above, door and window energy consumption is too high, exterior wall reserved opening is many, heat loss is large, even if it is good again that ground heating system is installed, exterior-wall heat insulation is good again, also because door and window energy consumption is excessive, the exterior wall energy consumption that punches is too much, also be difficult to ensure heating temperature, especially air source heat pump system leaving water temperature only had to the water at low temperature of about 40 DEG C, although central heating water temperature is high, heating requirement can be met, but because energy consumption is excessive, cause operating cost high, carbon emission is large.

In addition, how to utilize radiant heating ground end hot-water heating coil system, walk through air source heat pump or earth source heat pump refrigerating device refrigeration water cooling when summer, and when solving cooling, ground easily condenses and gets damp, and cold air sinks alluvial in floor, discharges and comes less than space, the problems such as comfort level is not good are a great problems of puzzlement floor heating circle always.

And existing " heat preservation module radiant heating cooling ground and ventilation and air conditioning system " patented technology, owing to utilizing gap between floor heating pipeline external wall in conventional vacuum module groove and trench wall as the technological means such as heat dissipation wind channel that dehumidify, do not have the effect of ventilation dehumidifying heat radiation, therefore, an above-mentioned difficult problem is resolved not yet.

Summary of the invention

For above-mentioned deficiency, the utility model, by the basis of to be " the precast combined heat preservation module radiant heating cooling air-conditioning ground surface " of ZL201320468480.5 and the patent No. in the patent No. be existing patented technologies such as " heat preservation module radiant heating cooling ground and the ventilation and air conditioning system " of ZL201420434694.5 is improved, provides a kind of ventilating and thermal insulating module to heat cooling ground and energy-saving ventilating air air-conditioning system.

In order to reach above-mentioned purpose, technical solutions of the utility model are:

The utility model example one, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and heat preservation ventilating window 10; Described ventilating and thermal insulating module heating cooling ground, from bottom to top successively by ventilating and thermal insulating module body 1, floor heating pipeline 2 and water collecting and diversifying device 2 ', dehumidify dispel the heat ajutage 3, the heat dissipation wind channel 4 that dehumidifies, dehumidify dispel the heat duct set 3 ', air-conditioning ajutage 5, moistureproof heat-conducting layer 6, cracking-resistant cement mortar packed layer 7, tack coat 7 ' and ground decoration panel 8 form;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of recuperation of heat supply air system 9A, ground dehumidifying air-conditioning system 9B and air exhaust tube system 10-13.

The utility model example two, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and heat preservation ventilating window 10; Described ventilating and thermal insulating module heating cooling ground, from bottom to top successively by expandability polyethylene bedding 1D, ventilating and thermal insulating module body 1, floor heating pipeline 2 and water collecting and diversifying device 2 ', dehumidify dispel the heat ajutage 3, the heat dissipation wind channel 4 that dehumidifies, dehumidify dispel the heat duct set 3 ', air-conditioning ajutage 5, moistureproof heat-conducting layer 6 and timber floor 8 ' form;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of supply air system 9S and ground dehumidifying air-conditioning system 9B.

Described heat preservation ventilating window 10, is made up of window 10-1, heat absorption light reflective sunshading curtain 10 ' and double glazing exterior window 10-2 in ventilation to outdoor successively from indoor.

Described supply air system 9S, is made up of new wind intake stack 10-11, electronic air entering and returning mouth 10-JH, ajutage 9S1, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 '.;

Described new wind intake stack 10-11 is made up of air intake cover 10-114, Electric air valve 10-113, air purifier 115 and three-way pipe 10-116.

Described ground dehumidifying air-conditioning system 9B, by return exhaust outlet 9B1, return air standpipe 9B5, return air standpipe threeway 9B51, the backwind tube 9B52 that blows, dehumidifying heat radiation backwind tube 9B53, dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 ", air-to-air energy recovery pipe-line system 9P, air-conditioning ground ajutage 5, standpipe 51 of blowing, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 ' form;

Described air-to-air energy recovery pipe-line system 9P, is made up of electronic exhaust outlet 9P1, dehumidifying air draft threeway 9P2, exhaust blower 9P3 and exhaust duct 9P4 and exhaust hood 9P5.

The utility model example three, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and warming solar energy vent window 10T; Described ventilating and thermal insulating module heating cooling ground, is filled slurry 7A, moistureproof heat-conducting layer 6, basal plate 7-1, epoxy resin glue bonding layer 7-1A and ground decoration panel 8 formed by ventilating and thermal insulating module body 1, floor heating pipeline 2, water collecting and diversifying device 2 ', dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', air-conditioning ground ajutage 5, graphite heat conducting successively from bottom to top;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of recuperation of heat air supplying and exhausting system 9A and ground dehumidifying air-conditioning system 9B.

Described warming solar energy vent window 10T, is made up of window 10-1, heat absorption light reflective sunshading curtain 10 ', double glazing exterior window 10-2 and angle type solar module 10-3 in ventilation to outdoor successively from indoor;

In described ventilation, the top of window 10-1 is respectively equipped with the reserved opening 10-11 ' and discharge hose 10-13P2 ' that install new wind intake stack 10-11 and discharge hose 10-13P2;

The top of described double glazing exterior window 10-2 is provided with the reserved opening 10-112 ' and discharge hose 10-13P2 that are installed into wind pipeline 10-112 and discharge hose 10-13P2 ".

Described recuperation of heat air supplying and exhausting system 9A, is made up of new wind intake stack 10-11, electronic air entering and returning mouth 10-11A, ajutage 10-11B, heat exchange recover 9A1, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, air outlet 9A5 ' and 9A6 and air exhaust tube system 10-13;

Described new wind intake stack 10-11 is made up of air intake cover 10-114, intake stack 10-112, Electric air valve 10-113, air purifier 115 and three-way pipe 10-116;

Described air exhaust tube system 10-13, is made up of electronic exhaust outlet 10-13P, dehumidifying air draft threeway 10-13P3, exhaust blower 10-13PJ, discharge hose 10-13P2 and exhaust hood 10-13P1.

Described ground dehumidifying air-conditioning system 9B, by returning exhaust outlet 9B1, return air standpipe 9B5, dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 " or hot heat exchange exhaust duct 9A12, heat exchange recover 9A1, discharge duct 10-12 or air exhaust tube system 10-13, air-conditioning ground ajutage 5, standpipe 51 of blowing, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, dehumidifier 9A5 or air outlet 9A5 ' and air outlet 9A6 form.

Described heat exchange recover 9A1, by heat exchange air intake sleeve pipe 9A11, be placed in heat exchange exhaust duct 9A12 in sleeve pipe and sleeve outer wall thermal insulating 9A13 and form, the upper and lower two ends of described heat exchange exhaust duct 9A12 are through the heat exchange air intake sleeve pipe 9A11 upper and lower side threeway mouth of pipe 9A14 and 9A15, respectively with discharge duct 10-12 and dehumidify to dispel the heat and collects wind standpipe 3 " connect, or be connected with the duct set 3 ' that dispels the heat of dehumidifying with the air draft threeway 10-13P3 that dehumidifies respectively; Upper and lower two side ends is preset with interface 9A16 and 9A16 ' connected with ajutage and the threeway 9A2 that blows respectively;

Described heat exchange air intake sleeve pipe 9A11 adopts Φ 110mm ~ Φ 200mm plastic round tube or metal circular tube to assemble.

Described dehumidifying heat dissipation wind channel 4, is included on ventilation groove 1-12 and inlays U-shaped heat conduction aluminum lath 1-11 " or with aluminium foil or aluminium sheet or environment-friendly type soft graphite coiled material superconductor 1-11 ', or coating one deck water-repellent paint protective layer 1-12 '.

Described ventilating and thermal insulating module 1-1 is provided with 4 ~ 7 road grooves, wherein, the spacing of 3 ~ 4 road groove 1-11 is 200mm or 150mm, for laying floor heating pipeline 2, other 1 ~ 3 road is ventilation groove 1-12, is separately positioned between two groove 1-11, as the use of dehumidifying heat dissipation wind channel 4; Preferred spacing is as is illustrated by figs. 11 and 12 the ventilating and thermal insulating module of 150mm, 4 road groove 1-11 and 1 ~ 2 road ventilation groove 1-12.

Described two ends curved groove plate 1W1 and 1W2 is two ends, left and right a pair, the groove of described curved groove plate 1W1 by 4 ~ 7 road groove 1-11 and 1-12, and with two groove 1-11 tangentially the arc curved groove 1-111 of crossing UNICOM and half arc curved groove 1-112 form; Described half arc curved groove 1-112 is 1/2nd of described arc curved groove 1-111; Described arc curved groove 1-111 and half arc curved groove 1-112 is apart from left end edges of boards 5 ~ 20mm.

Described curved groove plate 1W12 groove is by 4 ~ 7 road groove 1-11 and 1-12, and with the two groove 1-11 tangentially arc curved groove 1-111 of crossing UNICOM and half arc curved groove 1-112, and longitudinal straight trough 1-11Z of a track pitch right-hand member limit 5 ~ 20mm is formed; Described half arc curved groove 1-112 is 1/2nd of described arc curved groove 1-111.

The utility model has the following advantages and beneficial effect:

Heat preservation ventilating window 10 in the utility model or warming solar energy vent window 10T not only promote K value and the soundproof effect of window well, and utilize the heat absorption light reflective sunshading curtain 10 ' be located in double-layer heat insulation vent window, sunlight heat is absorbed during winter, strengthen window heat preserving and supplying, sunshade in summer reflected sunlight, the effect of heat insulation and heat control, significantly reduce the heat loss of window, and ventilating system is entered exhaust outlet and be located on heat preservation ventilating window, avoid offering on the wall while air vent causes heat loss and thermal insulation to decline, also can by the waste heat in the exhaust duct of ventilating and thermal insulating cavity 10C or remaining cold, with in ventilating and thermal insulating cavity 10C cold/hot-air carries out cold and hot exchange and recycled further, thus, guarantee to realize a floor heating end both cooling and heating, reduce air conditioner to install and operating cost, low-carbon energy-saving, reach purification of air process, do not open a window and can breathe clean fresh air, healthy comfortable object yet, and more than all ground of described ventilation and air conditioning system 9 bright dew pipe section box-like collecting cabinet integration member SC1, SC2, SC3, SC4 and SC5 grouped together respectively, realize in factory, the air conditioner equipment in each integration member and intelligence control system and collecting cabinet prefabricate and install being integrated, Assembling, reach standardized production, install convenient, the duration is short, quality is good, the object of energy-conserving and environment-protective.

In addition, ventilating and thermal insulating module body, air-conditioning ground ajutage 5 and moistureproof heat-conducting layer is utilized, graphite heat conducting is adopted to fill slurry 7A by the new process of the space packing reality between the outer wall of floor heating pipeline 2 and groove, when not only solving cooling in summer well, ground easily condenses and gets damp with cold air sinking alluvial in floor, discharge less than the not good enough problem of the comfort level that the interior space is next, and, because dehumidifying heat dissipation wind channel 4 has acceleration thermolysis, add that graphite heat conducting fills the seamless quick conductive of slurry 7A, the thermal diffusivity of floor heating significantly promotes, the laying method of floor heating pipeline and form is made to become simpler, only adopt a kind of single tube parallel lay-up method can reach ground-heating radiation and heating effect, without the need to inflection type and two-tube parallel laying design and construct, make floor heating engineering design and construction more convenient, without the need to laying thick and heavy concrete cushion, adopt dry type paved stone material, or adopt epoxy resin or adhesive specially plaster application, make stone material, vitrified tile and tile floor paving process easier, frivolous, and save space, more improve the heating effect of floor heating, and solve the difference of height problem that dry floor heating boarding floor and wet method paving stone material or tile floor intersection formed unavoidably.

Having one is again, angle type solar module 10-3 in warming solar energy vent window 10T, both can a block assembly above single window, or several piece assembly serial or parallel connection or connection in series-parallel become one group from net electricity generation system, also upper and lower whole unit building even the angle type solar module 10-3 of entire building can be combined into a large grid-connected power station by connection in series-parallel, can realize solar building integrated well.

Accompanying drawing explanation

The perspective schematic view of a kind of embodiment of Fig. 1 involved by the utility model example one;

The plane of a kind of ventilating and thermal insulating module body 1 erection method of Fig. 2 involved by the utility model;

Fig. 3 is the sectional drawing of the 1-1 line along Fig. 1, is the sectional drawing of a kind of embodiment involved by the utility model example one;

The perspective schematic view of a kind of embodiment of Fig. 4 involved by the utility model example two;

Fig. 5 is the sectional drawing of the 1-1 line along Fig. 4, is the sectional drawing of a kind of embodiment involved by the utility model example two;

The perspective schematic view of a kind of embodiment of Fig. 6 involved by the utility model example three;

Fig. 7 is the sectional drawing of the 1-1 line along Fig. 6, is the sectional drawing of a kind of embodiment involved by the utility model example three;

Fig. 8 is longitudinal sectional drawing of a kind of embodiment involved by the utility model example three;

The perspective schematic view of a kind of embodiment of the standard straight frid 1Z of Fig. 9 involved by the utility model;

The perspective schematic view of the another kind of embodiment of the standard straight frid 1Z of Figure 10 involved by the utility model;

The perspective schematic view of the another kind of embodiment of the standard straight frid 1Z of Figure 11 involved by the utility model;

The alien invasion figure of a kind of embodiment of Figure 12 involved by the utility model example one;

Figure 13 is the sectional drawing of the 1-1 line along Figure 12, is longitudinal sectional drawing of a kind of embodiment involved by the utility model example one;

Figure 14 is the sectional drawing of the 2-2 line along Figure 12, is the transverse cross of a kind of embodiment involved by the utility model example one;

Figure 15 is the transverse cross of a kind of embodiment involved by the utility model example two;

Figure 16 is longitudinal sectional drawing of a kind of embodiment involved by the utility model example two;

Figure 17 is the transverse cross of a kind of embodiment involved by the utility model example three;

The perspective schematic view of a kind of heat exchange recover 9A1 of Figure 18 involved by the utility model;

Figure 19 is the sectional drawing of a kind of embodiment of heat exchange exhaust duct 9A12 involved by the utility model.

Detailed description of the invention

In order to clearer expression the present invention, with reference to the accompanying drawings embodiment of the present utility model is further described.

The utility model embodiment one, as shown in FIG. 1 to 3, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and heat preservation ventilating window 10; Described ventilating and thermal insulating module heating cooling ground, from bottom to top successively by ventilating and thermal insulating module body 1, floor heating pipeline 2 and water collecting and diversifying device 2 ', dehumidify dispel the heat ajutage 3, the heat dissipation wind channel 4 that dehumidifies, dehumidify dispel the heat duct set 3 ', air-conditioning ajutage 5, moistureproof heat-conducting layer 6, cracking-resistant cement mortar packed layer 7, tack coat 7 ' and ground decoration panel 8 form;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of recuperation of heat supply air system 9A, ground dehumidifying air-conditioning system 9B and air exhaust tube system 10-13.

The utility model embodiment two, as shown in Fig. 2, Fig. 4 and Fig. 5, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and heat preservation ventilating window 10; Described ventilating and thermal insulating module heating cooling ground, from bottom to top successively by expandability polyethylene bedding 1D, ventilating and thermal insulating module body 1, floor heating pipeline 2 and water collecting and diversifying device 2 ', dehumidify dispel the heat ajutage 3, the heat dissipation wind channel 4 that dehumidifies, dehumidify dispel the heat duct set 3 ', air-conditioning ajutage 5, moistureproof heat-conducting layer 6 and timber floor 8 ' form;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of supply air system 9S and ground dehumidifying air-conditioning system 9B.

The technical program simplicity of design, to install convenient, cost performance better, is preferred version.

The utility model embodiment three, as shown in Fig. 2 and Fig. 6 ~ Fig. 8, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system 9 and warming solar energy vent window 10T; Described ventilating and thermal insulating module heating cooling ground, is filled slurry 7A, moistureproof heat-conducting layer 6, basal plate 7-1, epoxy resin glue bonding layer 7-1A and ground decoration panel 8 formed by ventilating and thermal insulating module body 1, floor heating pipeline 2, water collecting and diversifying device 2 ', dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', air-conditioning ground ajutage 5, graphite heat conducting successively from bottom to top;

Described ventilating and thermal insulating module body 1, assembled by standard straight frid 1Z and two ends curved groove plate 1W1 and 1W2; Described standard straight frid 1Z is made up of ventilating and thermal insulating module 1-1 and heat-conducting layer 1-11 ';

Described ventilation and air conditioning system 9, is made up of recuperation of heat air supplying and exhausting system 9A and ground dehumidifying air-conditioning system 9B.

Described ventilating and thermal insulating module 1-1 shown in Fig. 2, Fig. 3, Fig. 5, Fig. 7 and Fig. 9 ~ Figure 11 is provided with 4 ~ 7 road grooves, wherein, the spacing of 3 ~ 4 road groove 1-11 is 200mm or 150mm, for laying floor heating pipeline 2, other 1 ~ 3 road is ventilation groove 1-12, be separately positioned between two groove 1-11, as the use of dehumidifying heat dissipation wind channel 4; Preferred spacing is as is illustrated by figs. 11 and 12 the ventilating and thermal insulating module of 150mm, 4 road groove 1-11 and 1 ~ 2 road ventilation groove 1-12.

Described basal plate 7-1 shown in Fig. 7 is the thick iron plate of 1 ~ 2mm, or the thick fortifying fibre cement pressure plate of 6 ~ 10mm or fortifying fibre calcium silicate board; Preferably not only thin, thermal conductivity but also good iron plate.

Described ground decoration panel 8 shown in Fig. 3 and Fig. 7, comprises floor tile or vitrified tile or marble.

Described epoxy resin glue bonding layer 7-1A shown in Fig. 7 is AB bicomponent environment-friendly type epoxide-resin glue.

Described heat-conducting layer 1-11 ' shown in Fig. 3, Fig. 5, Fig. 7, Fig. 9 and Figure 10, be make with the thick aluminium sheet of 0.2mm ~ 0.4mm suitable for reading wide 15 ~ 20mm, bottom circular arc diameter 16 ~ 21mm, the degree of depth 17 ~ 21mm both sides with the U-shaped heat conduction aluminum lath 1-11 of 10mm ~ 90mm wide heat conduction limit 1-11 ' A "; this U-shaped heat conduction aluminum lath length setting is 1200mm or 1500mm or 1800mm; this U-shaped heat conduction aluminum lath not only can play heat conduction protective effect, also can play good fixing effect to floor heating pipe line 2; Also can play to ventilating and thermal insulating module 1-1 the effect well strengthening ribs, ventilating and thermal insulating module 1-1 entire compression intensity can be strengthened.

Described heat-conducting layer 1-11 ' shown in Fig. 5, Fig. 7 and Figure 11, is use the aluminium foil or aluminium sheet or environment-friendly type soft graphite coiled material superconductor that 0.03mm ~ 0.4mm is thick, and is pasted onto on ventilating and thermal insulating module 1-1 by environment-friendlyadhesive adhesive.

Described dehumidifying heat dissipation wind channel 4 shown in Fig. 2, Fig. 3, Fig. 5, Fig. 7 and Fig. 9 ~ Figure 11; be included on ventilation groove 1-12 and inlay U-shaped heat conduction aluminum lath 1-11 " or with aluminium foil or aluminium sheet or environment-friendly type soft graphite coiled material superconductor 1-11 ', or coating one deck water-repellent paint protective layer 1-12 '.

Described graphite heat conducting shown in Fig. 7 fills slurry 7A, not only by closely knit for the fill gaps between the outer wall of floor heating pipeline 2 and groove, and, also the outer wall of moistureproof heat-conducting layer 6 and floor heating pipeline 2 and heat-conducting layer 1-11 ' can be bonded together; Solve groove space and form air heat insulation, and cause the heating agent in floor heating pipeline can not be rapidly to outer conduction, heat up slow disadvantage on ground, thus, ensure that floor heating heats up rapidly, the effect of low-carbon energy-saving.

Described two ends curved groove plate 1W1 and 1W2 shown in Fig. 2 is two ends, left and right a pair, the groove of described curved groove plate 1W1 by 4 ~ 7 road groove 1-11 and 1-12, and with two groove 1-11 tangentially the arc curved groove 1-111 of crossing UNICOM and half arc curved groove 1-112 form; Described half arc curved groove 1-112 is 1/2nd of described arc curved groove 1-111; Described arc curved groove 1-111 and half arc curved groove 1-112 is apart from left end edges of boards 5 ~ 20mm.

Described curved groove plate 1W12 groove shown in Fig. 2 is by 4 ~ 7 road groove 1-11 and 1-12, and with the two groove 1-11 tangentially arc curved groove 1-111 of crossing UNICOM and half arc curved groove 1-112, and longitudinal straight trough 1-11Z of a track pitch right-hand member limit 5 ~ 20mm is formed; Described half arc curved groove 1-112 is 1/2nd of described arc curved groove 1-111.

The upper surface of described two ends curved groove plate 1W1 and 1W2 shown in Fig. 2 is pasted with one deck 003 ~ 010mm thick aluminum foil, and in arc curved groove 1-111 and half arc curved groove 1-112, be inlaid with U-shaped bonding jumper or coating one deck graphite guide thermosphere.

The extruded polystyrene warming plate (XPS plate) of the ventilating and thermal insulating module of the ventilating and thermal insulating module body 1 shown in Fig. 2, Fig. 3, Fig. 5, Fig. 7 and Fig. 9 ~ Figure 11 to be thick with 25mm ~ 60mm, long × wide compression strength for 600mm ~ 1800mm × 600mm be more than 150KPa or molding polyphenylene heat insulation slab (EPS plate) or polyurethane thermal insulation board or phenolic-aldehyde heat-insulation board are made.

The described moistureproof heat-conducting layer 6 gone out at Fig. 3, Fig. 5 and Fig. 7 is the aluminium foil or environment-friendly type soft graphite coiled material superconductor that 0.02mm ~ 0.10mm is thick.

Described heat preservation ventilating window 10 shown in Fig. 1 and Figure 12 ~ Figure 14, is made up of window 10-1, heat absorption light reflective sunshading curtain 10 ' and double glazing exterior window 10-2 in ventilation to outdoor successively from indoor; One end or the two ends, left and right of described double glazing exterior window 10-2 are provided with bottom-hinged window 10-2A;

In described ventilation, the top of window 10-1 is provided with and installs new wind intake stack 10-11, exhaust hose 10-123 and exhaust blower 10-13P1 reserved opening 10-11 ', 10-12 ' and 10-13 '; In described ventilation, window 10-1 is at least provided with the casement window 10-14 or sliding window that a fan inwardly opens;

The top of described double glazing exterior window 10-2 is provided with the reserved opening 10-11 " and 10-13 " installing new wind intake stack 10-11 and air draft threeway 10-131;

Form the good ventilating and thermal insulating cavity 10C of closed adiabatic heat-insulation between window 10-1 and double glazing exterior window 10-2 double window in described ventilation, the K value of window can be promoted well; Described exterior decoration is incubated to divide into exhaust duct 10A with 10B and is separately connected with recuperation of heat supply air system 9A and ground dehumidifying air-conditioning system 9B with air exhaust tube system 10-13 by new wind intake stack 10-11; Form a complete energy-saving ventilating air air-conditioning system;

Described exterior decoration insulation intake stack 10A can connect with basement center air purifying, preheating pipe-line system, so, new wind is through primarily efficient filter, and through with underground cool in summer and warm in winter cold/after hot-air carries out cold and hot exchange, preheating or precooling, send into indoor through exterior decoration insulation intake stack 10A and new wind intake stack 10-11, greatly reduce room ventilation air conditioning energy consumption, and significantly reduce the operating cost of season of summer and winter air conditioner and purification of air, haze prevention and cure of air pollution.

Described heat preservation ventilating window 10 shown in Fig. 4, Figure 15 and Figure 16, is made up of window 10-1, heat absorption light reflective sunshading curtain 10 ' and double glazing exterior window 10-2 in ventilation to outdoor successively from indoor; One end or the two ends, left and right of described double glazing exterior window 10-2 are provided with bottom-hinged window 10-2A;

In described ventilation, the top of window 10-1 is respectively equipped with the reserved opening 10-11 ' and 9P4 ' that install new wind intake stack 10-11 and exhaust duct 9P4; In described ventilation, window 10-1 is at least provided with the casement window 10-14 or sliding window that a fan inwardly opens;

One end or two ends, left and right that the top of described double glazing exterior window 10-2 is provided with reserved opening 10-114 ' and 9P5 ', the described double glazing exterior window 10-2 being installed into fan housing 10-114 and exhaust hood 9P5 are provided with bottom-hinged window 10-2A.

Described warming solar energy vent window 10T shown in Fig. 6, Fig. 8 and Figure 17, is made up of window 10-1, heat absorption light reflective sunshading curtain 10 ', double glazing exterior window 10-2 and angle type solar module 10-3 in ventilation to outdoor successively from indoor;

In described ventilation, the top of window 10-1 is respectively equipped with the reserved opening 10-11 ' and discharge hose 10-13P2 ' that install new wind intake stack 10-11 and discharge hose 10-13P2; In described ventilation, window 10-1 is at least provided with the casement window 10-14 or sliding window that a fan inwardly opens;

The top of described double glazing exterior window 10-2 is provided with the reserved opening 10-112 ' and discharge hose 10-13P2 that are installed into wind pipeline 10-112 and discharge hose 10-13P2 ", one end or the two ends, left and right of described double glazing exterior window 10-2 are provided with bottom-hinged window 10-2A.

Described angle type solar module 10-3 shown in Fig. 8 and Figure 17, is made up of triangular support end plate 10T-1, end plate heat insulation layer 10T-1 ', L shape support bar 10T-2 and 10T-2 ', solar panel 10T-3, Z-type panel 10T-4 and terminal box 10T-5; The oblique gradient θ of described solar panel 10T-3 is set as 40 ° ~ 70 °.

Described double glazing exterior window 10-2 shown in Fig. 8 and Figure 12 ~ Figure 17 is two glass one chambeies or three glass two chamber medi-empty glass windows, and window frame material is plastic-steel or fiberglass or bridge-cut-off aluminum.

Described heat absorption light reflective sunshading curtain 10 ' shown in Fig. 1, Fig. 4, Fig. 6, Fig. 8, Figure 13 and Figure 16, point tow sides, front is the heat-absorbent surface in winter, and reverse side is reflective surface, for sunshade in summer reflected sunlight, heat insulation and heat control.But when without the need to sunshade of absorbing heat, namely need penetrating daylighting or window when ventilating, only need pull rope, be concealed in heat absorption light reflective sunshading curtain 10 ' is carried above window.

In the described ventilation shown in Fig. 4, Fig. 6, Fig. 8 and Figure 14 ~ Figure 17, form the good ventilating and thermal insulating cavity 10C of closed adiabatic heat-insulation between window 10-1 and double glazing exterior window 10-2 double window, the K value of window can be promoted well, and utilize the heat absorption light reflective sunshading curtain 10 be located in double-layer heat insulation vent window, sunlight heat is absorbed during winter, strengthen window heat preserving and supplying, sunshade reflected sunlight during summer, the effect of heat insulation and heat control, significantly reduce the heat loss of window, in addition, ventilating system being entered exhaust outlet is located on heat preservation ventilating window, avoid offering on the wall while air vent causes heat loss and thermal insulation to decline, also can by the waste heat in the exhaust duct of ventilating and thermal insulating cavity 10C or remaining cold, with in ventilating and thermal insulating cavity 10C cold/hot-air carries out cold and hot exchange and recycled further, and then guarantee to realize a floor heating end both cooling and heating, healthiness, the object of low-carbon energy-saving.

Described recuperation of heat supply air system 9A shown in Fig. 1, Figure 13 and Figure 14, is made up of new wind intake stack 10-11, air entering and returning mouth 10-11A, ajutage 10-11B, heat exchange recover 9A1, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, dehumidifier 9A5, air outlet 9A6 and discharge duct 10-12;

Described new wind intake stack 10-11 is made up of air inlet 10-111, intake stack 10-112 and Electric air valve 10-113.

Described discharge duct 10-12, is made up of exhaust hose 10-121, exhaust blower 10-122 and exhaust hose 10-123; Described exhaust hose 10-123 one end is communicated with air draft threeway 10-131; Waste gas after fully reclaiming through heat exchange recover 9A1 waste heat can be drained into exterior decoration insulation exhaust duct 10B by air draft threeway 10-131 by described discharge duct 10-12, and reaches the object of dehumidifying.

Described supply air system 9S shown in Fig. 4, Figure 15 and Figure 16, is made up of new wind intake stack 10-11, electronic air entering and returning mouth 10-JH, ajutage 9S1, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 '.;

Described new wind intake stack 10-11 is made up of air intake cover 10-114, Electric air valve 10-113, air purifier 115 and three-way pipe 10-116.

Described recuperation of heat air supplying and exhausting system 9A shown in Fig. 6, Fig. 8 and Figure 17, is made up of new wind intake stack 10-11, electronic air entering and returning mouth 10-11A, ajutage 10-11B, heat exchange recover 9A1, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, air outlet 9A5 ' and 9A6 and air exhaust tube system 10-13;

Described new wind intake stack 10-11 is made up of air intake cover 10-114, intake stack 10-112, Electric air valve 10-113, air purifier 115 and three-way pipe 10-116;

Described air exhaust tube system 10-13, is made up of electronic exhaust outlet 10-13P, dehumidifying air draft threeway 10-13P3, exhaust blower 10-13PJ, discharge hose 10-13P2 and exhaust hood 10-13P1.

Described ground dehumidifying air-conditioning system 9B shown in Fig. 1 and Figure 13, by returning exhaust outlet 9B1, return air standpipe 9B5, dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 ", heat exchange recover 9A1, discharge duct 10-12, air-conditioning ground ajutage 5, standpipe 51 of blowing, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, dehumidifier 9A5 and air outlet 9A6 form.

Described air exhaust tube system 10-13 shown in Fig. 1 and Figure 14, is made up of exhaust outlet 10-13P, exhaust blower 10-13P1, air draft threeway 10-131, exhaust duct 10-132, air draft bend pipe 10-133 and exhaust outlet 10-134; The preferred electric vent of described exhaust outlet 1-13P.

Described ground dehumidifying air-conditioning system 9B shown in Fig. 4 and Figure 16, by return exhaust outlet 9B1, return air standpipe 9B5, return air standpipe threeway 9B51, the backwind tube 9B52 that blows, dehumidifying heat radiation backwind tube 9B53, dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 ", air-to-air energy recovery pipe-line system 9P, air-conditioning ground ajutage 5, standpipe 51 of blowing, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 ' form;

Described air-to-air energy recovery pipe-line system 9P, is made up of electronic exhaust outlet 9P1, dehumidifying air draft threeway 9P2, exhaust blower 9P3 and exhaust duct 9P4 and exhaust hood 9P5;

Described exhaust duct 9P4 adopts the aluminium foil hose or metal tube that thermal conductivity is good; Described exhaust duct 9P4 is arranged on shelter above window, and indoor foul smell drains into outdoor carry out cold and hot exchange with ventilating and thermal insulating cavity 10C air in the way drained into outside window through exhaust duct 9P4 after; Reach the object of the heat recovery in indoor foul smell.

Described ground dehumidifying air-conditioning system 9B shown in Fig. 6 and Fig. 8, by return exhaust outlet 9B1, return air standpipe 9B5, dehumidifying heat radiation ajutage 3, dehumidifying heat dissipation wind channel 4, dehumidifying heat radiation duct set 3 ', heat exchange exhaust duct 9A12, heat exchange recover 9A1, air exhaust tube system 10-13, air-conditioning ground ajutage 5, standpipe 51 of blowing, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, air outlet 9A5 ' and air outlet 9A6 form.

At Fig. 1, Fig. 6, described air entering and returning mouth 10-11A shown in Fig. 8 and Figure 13, when only needing indoor air circulation, electronic air entering and returning mouth 10-11A can be opened, and close Electric air valve 10-113, under the effect of quiet blower fan 9A4 wind-force, by after heat exchange recover 9A1 waste heat recovery cold/heating installation and air-conditioning ground ajutage 5 in cold/heating installation, by air-supply threeway 9A2, and through air purifier 9A3 and dehumidifier 9A5, air outlet 9A6 sends into indoor, reaching does not window also can breathe clean air, and reach waste heat recovery, reduce air conditioner energy consumption, promote the object of ground heating cooling and air conditioner effect.But when season in spring and autumn without the need to heating, and cold supplying time, can open Electric air valve 10-113 and electronic air entering and returning mouth 10-11A, under suction function, new wind is in electronic air entering and returning mouth 10-11A flowed into chamber.

Described air purifier is that fresh air purifying case or employing have electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion.

Bright dew pipe section box-like collecting cabinet integration member SC1, SC2, SC3, SC4 and SC5 grouped together respectively more than all ground of the described ventilation and air conditioning system 9 shown in Fig. 4 and Figure 16, realize in factory, the air conditioner equipment in each integration member and intelligence control system and collecting cabinet prefabricate and install being integrated, Assembling; Reach standardized production, install convenient, the duration is short, quality is good, the object of energy-conserving and environment-protective.

Described dehumidifying heat radiation ajutage 3 shown in Fig. 1, Fig. 2, Fig. 4 and Fig. 6 and dehumidifying heat radiation duct set 3 ' are the rectangular tube of 20 ~ 30mm × 60 ~ 100mm or 35-40mm × 60-130mm, and offer the air vent 3K of Φ 10mm ~ Φ 30mm in the side corresponding to dehumidifying heat dissipation wind channel 4.

Described air-conditioning ground ajutage 5 shown in Fig. 1, Fig. 2, Fig. 4, Fig. 6, Fig. 8, Figure 13 and Figure 16 is rectangular tube or the two or more porous rectangular tube of 20 ~ 30mm × 60 ~ 100mm or 35-40mm × 60-130mm.

Described heat exchange recover 9A1 shown in Fig. 1, Fig. 6, Fig. 8, Figure 13 and Figure 18, by heat exchange air intake sleeve pipe 9A11, be placed in heat exchange exhaust duct 9A12 in sleeve pipe and sleeve outer wall thermal insulating 9A13 and form, the upper and lower two ends of described heat exchange exhaust duct 9A12 are through the heat exchange air intake sleeve pipe 9A11 upper and lower side threeway mouth of pipe 9A14 and 9A15, respectively with discharge duct 10-12 and dehumidify to dispel the heat and collects wind standpipe 3 " connect, or be connected with the duct set 3 ' that dispels the heat of dehumidifying with the air draft threeway 10-13P3 that dehumidifies respectively; Upper and lower two side ends is preset with interface 9A16 and 9A16 ' connected with ajutage and the threeway 9A2 that blows respectively;

Described heat exchange air intake sleeve pipe 9A11 adopts Φ 110mm ~ Φ 200mm plastic round tube or metal circular tube to assemble.

Described heat exchange exhaust duct 9A12 shown in Fig. 1 Fig. 6 and Figure 19 is that the circular aluminium foil hose of Φ 50mm ~ Φ 100mm or round metal tube or circular aluminum profile material tube are made with diameter.

Described quiet blower fan 9A4, exhaust blower 10-122 and exhaust blower 10-13P1 shown in Fig. 1, Fig. 4, Fig. 6, Fig. 8, Figure 13 ~ Figure 16, can according to the difference of room area size, room application and installation position, the quiet blower fan selecting exhaust air rate moderate or split type pipeline fan, or glass pane installing type ventilation fan, and comprise direct current blower fan or alternating current blower fan.

The electrical equipments such as described exhaust blower 10-13P1, exhaust blower 9P3 shown in Fig. 1, Fig. 4, Fig. 6, Fig. 8, Figure 13, Figure 14 and Figure 16, exhaust blower 10-13PJ, quiet blower fan 9A4, exhaust blower 10-122, Electric air valve 10-113, electric vent air purifier and dehumidifier all with can Real-Time Monitoring indoor temperature, humidity, VOC concentration, PM2.5, built in air mass sensor, can the indoor volatile organic compounds of real-time detection, the ventilating system intelligent controller that controller output signal directly controls the switch of blower fan is connected to form intelligentized electric-control system.

The main operational principle of the described ventilation and air conditioning system 9 shown in Fig. 1, Figure 13 and Figure 14 is:

Open Electric air valve 10-113, quiet blower fan 9A4 and exhaust blower 10-122, new wind is flowed into by new wind air inlet 10-111, can directly send into indoor by the air entering and returning mouth 10-11A opened, also air entering and returning mouth 10-11A can be closed, make new wind by ajutage 10-11B, and through heat exchange recover 9A1 and air purifier 9A3, by cold/heating installation in the new wind after waste heat recovery and the process of PM2.5 filtration, purification and floor after dehumidifier 9A5 dehumidifies, send into indoor by air outlet 9A6; Simultaneously, under quiet blower fan 9A4 and exhaust blower 10-122 effect, return air enters from return air inlet 9B1, point two-way after return air standpipe 9B5, one tunnel is through dehumidifying heat radiation ajutage 3, after branching to dehumidifying heat radiation air delivery duct 4, through dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 " and heat exchange recover 9A1; and by moisture in the floor after cold and hot exchange, waste heat recovery; drain into outdoor through discharge duct 10-12; reach dehumidifying, condensation, the generation of condensed water and the object of waste heat recovery when preventing cooling; Another road is through surrounding air-conditioning ground ajutage 5 and ground air-supply standpipe 51, air-supply threeway 9A2, air purifier 9B3 and quiet blower fan 9B4, by cold in the floor after filtration, purification process/heating installation after dehumidifier 9A5 dehumidifies, sent into by air outlet 9A6 indoor, good auxiliary heating cooling can be played, reduce air conditioner energy consumption; While improving the air conditioner effect on radiant heating cooling ground, reach heat recovery, purification of air process, do not open a window and can breathe clean fresh air, healthy comfortable object yet, and reach a floor heating end and realize both cooling and heating, low-carbon energy-saving, reduce air conditioner and install and the object of operating cost.

During air draft, open exhaust outlet 10-13P and exhaust blower 10-13P1, and be incubated by air exhaust tube system 10-13 and exterior decoration and drain into outdoor into exhaust duct 10B.

The main operational principle of the described ventilation and air conditioning system 9 shown in Fig. 4, Figure 15 and Figure 16 is:

1, when the season of summer and winter of cooling heating, for avoiding the loss causing air-conditioning because entering air draft as much as possible, be designed to not window, room air is only in indoor circulation.Now, Electric air valve 10-113 need be closed, under the effect of quiet blower fan 9A4 wind-force, room air enters from electronic air entering and returning mouth 10-JH, through ajutage 9S1, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 ' feeding indoor, simultaneously, under quiet blower fan 9A4 and exhaust blower 9P3 effect, return air is after return air inlet 9B1 and return air standpipe 9B5, divide two-way, one tunnel is through dehumidifying heat radiation ajutage 3, after branching to dehumidifying heat radiation air delivery duct 4, through dehumidifying heat radiation duct set 3 ', dehumidifying heat radiation collection wind standpipe 3 ", dehumidifying air draft threeway 9P2, exhaust blower 9P3, exhaust duct 9P4 and exhaust hood 9P5, will through carrying out cold and hot exchange with ventilating and thermal insulating cavity 10C air, in floor after waste heat recovery, moisture drains into outdoor, reach dehumidifying, prevent from condensing during cooling, the generation of condensed water and the object of waste heat recovery, another road is through surrounding air-conditioning ground ajutage 5 and ground air-supply standpipe 51, air-supply threeway 9B2, air purifier 9B3 and quiet blower fan 9B4, cold in floor after filtration, purification process/heating installation is indoor by air outlet 9A5 ' feeding, reach heat recovery, purification of air process, auxiliary heating cooling, reduction air conditioner energy consumption, improve the air conditioner effect on radiant heating cooling ground, and can realize not opening a window and also can breathe clean air, healthy comfortable object, and reach a floor heating end both cooling and heating, low-carbon energy-saving, reduce air conditioner and install and the object of operating cost.

When needs air draft, only need open electronic exhaust outlet 9P1 and exhaust blower 9P3, foul indoor air drains into outdoor after just carrying out cold and hot exchange, waste heat recovery by exhaust duct 9P4 and exhaust hood 9P5 and ventilating and thermal insulating cavity 10C air, reaches the object recycled further by the waste heat in room air.

2, when season in spring and autumn without the need to heating, and cold supplying time, only need close electronic air entering and returning mouth 10-JH, direct unlatching quiet blower fan 9A4 or exhaust blower 9P3, just new wind can be made by new wind intake stack 10-11, ajutage 9S1, air-supply threeway 9A2, air purifier 9A3, ajutage 9S2, quiet blower fan 9A4 and air outlet 9A5 ' feeding indoor, or make foul indoor air pass through the electronic exhaust outlet 9P1 opened, through dehumidifying air draft threeway 9P2, exhaust blower 9P3, exhaust duct 9P4 and exhaust hood 9P5 drains into outdoor, or the negative pressure only relying on toilet and other room air draft to produce, new wind is made to send into indoor by the electronic air entering and returning mouth 10-JH of new wind intake stack 10-11 and unlatching, do not open a window and can breathe clean air yet.

The main operational principle of the described ventilation and air conditioning system 9 shown in Fig. 6, Fig. 8 and Figure 17 is:

1, when the season of summer and winter of cooling heating, for avoiding the loss causing air-conditioning because entering air draft as much as possible, be designed to not window, room air is only in indoor circulation.Now, Electric air valve 10-113 need be closed, under the effect of quiet blower fan 9A4 wind-force, room air enters from electronic air entering and returning mouth 10-11A, through ajutage 10-11B and heat exchange recover 9A1, by with in heat exchange exhaust duct 9A12 cold/heating installation carries out heat exchange, after waste heat recovery cold/heating installation and air-conditioning ground ajutage 5 in cold/heating installation, by air-supply threeway 9A2, and send into indoor through air purifier 9A3 and air outlet 9A5 ' and 9A6, simultaneously, under quiet blower fan 9A4 and exhaust blower 10-13PJ effect, return air is after return air inlet 9B1 and return air standpipe 9B5, divide two-way, one tunnel is through dehumidifying heat radiation ajutage 3, after branching to dehumidifying heat radiation air delivery duct 4, through dehumidifying heat radiation duct set 3 ', heat exchange exhaust duct 9A12 and heat exchange recover 9A1, and will through cold and hot exchange, moisture in floor after waste heat recovery, outdoor is drained into through exhaust blower 10-13PJ, reach dehumidifying, prevent from condensing during cooling, the generation of condensed water and the object of waste heat recovery, another road is through surrounding air-conditioning ground ajutage 5 and ground air-supply standpipe 51, air-supply threeway 9B2, air purifier 9B3 and quiet blower fan 9B4, cold in floor after filtration, purification process/heating installation is sent into indoor by air outlet 9A5 ' and 9A6, reach heat recovery, purification of air process, auxiliary heating cooling, reduction air conditioner energy consumption, improve the air conditioner effect on radiant heating cooling ground, and can realize not opening a window and also can breathe clean air, healthy comfortable object, and reach a floor heating end both cooling and heating, low-carbon energy-saving, reduce air conditioner and install and the object of operating cost.

When needs air draft, only need open exhaust blower 10-13PJ, foul indoor air just by open electronic exhaust outlet 10-13P, drain into outdoor through dehumidifying air draft threeway 10-13P3, exhaust blower 10-13PJ, discharge hose 10-13P2 and exhaust hood 10-13P1.

2, when season in spring and autumn without the need to heating, and cold supplying time, only need close electronic air entering and returning mouth 10-11A, direct unlatching quiet blower fan 9A4 or exhaust blower 10-13PJ, just new wind can be made by new wind intake stack 10-11, ajutage 10-11B, heat exchange recover 9A1, air-supply threeway 9A2, air purifier 9A3, quiet blower fan 9A4, air outlet 9A5 ' and 9A6 sends into indoor, or make foul indoor air drain into outdoor by air exhaust tube system 10-13, or the negative pressure only relying on toilet and other room air draft to produce, new wind is made to send into indoor by the electronic air entering and returning mouth 10-11A of new wind intake stack 10-11 and unlatching, do not open a window and can breathe clean air yet.

The utility model is not limited only to above several disclosed specific embodiment, and any employing in this area is replaced on an equal basis or the technical scheme of equivalent transformation mode all should fall into protection domain of the present utility model.

Claims (14)

1. ventilating and thermal insulating module heating cooling ground and an energy-saving ventilating air air-conditioning system, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system (9) and heat preservation ventilating window (10); Described ventilating and thermal insulating module heating cooling ground, it is characterized in that, from bottom to top successively by ventilating and thermal insulating module body (1), floor heating pipeline (2) and water collecting and diversifying device (2 '), dehumidify dispel the heat ajutage (3), the heat dissipation wind channel (4) that dehumidifies, dehumidify dispel the heat duct set (3 '), air-conditioning ajutage (5), moistureproof heat-conducting layer (6), cracking-resistant cement mortar packed layer (7), tack coat (7 ') and ground decoration panel (8) form;

Described ventilating and thermal insulating module body (1), by standard straight frid (1Z) and two ends curved groove plate (1W1,1W2) assembled; Described standard straight frid (1Z) is made up of ventilating and thermal insulating module (1-1) and heat-conducting layer (1-11 ');

Described ventilation and air conditioning system (9), is made up of recuperation of heat supply air system (9A), ground dehumidifying air-conditioning system (9B) and air exhaust tube system (10-13);

Described heat preservation ventilating window (10) is connected with recuperation of heat supply air system (9A), ground dehumidifying air-conditioning system (9B) and air exhaust tube system (10-13), forms a complete energy-saving ventilating air air-conditioning system.

2. ventilating and thermal insulating module heating cooling ground and an energy-saving ventilating air air-conditioning system, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system (9) and heat preservation ventilating window (10); Described ventilating and thermal insulating module heating cooling ground, it is characterized in that, from bottom to top successively by expandability polyethylene bedding (1D), ventilating and thermal insulating module body (1), floor heating pipeline (2) and water collecting and diversifying device (2 '), dehumidify dispel the heat ajutage (3), the heat dissipation wind channel (4) that dehumidifies, dehumidify dispel the heat duct set (3 '), air-conditioning ajutage (5), moistureproof heat-conducting layer (6) and timber floor (8 ') form;

Described ventilating and thermal insulating module body (1), by standard straight frid (1Z) and two ends curved groove plate (1W1,1W2) assembled; Described standard straight frid (1Z) is made up of ventilating and thermal insulating module (1-1) and heat-conducting layer (1-11 ');

Described ventilation and air conditioning system 9, is made up of supply air system (9S) and ground dehumidifying air-conditioning system (9B).

3. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 2 and energy-saving ventilating air air-conditioning system, it is characterized in that, described supply air system (9S), is made up of new wind intake stack (10-11), electronic air entering and returning mouth (10-JH), ajutage (9S1), air-supply threeway (9A2), air purifier (9A3), ajutage (9S2), quiet blower fan (9A4) and air outlet (9A5 ').;

Described new wind intake stack (10-11), is made up of air intake cover (10-114), Electric air valve (10-113), air purifier (115) and three-way pipe (10-116).

4. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 2 and energy-saving ventilating air air-conditioning system, it is characterized in that, described ground dehumidifying air-conditioning system (9B), by returning exhaust outlet (9B1), return air standpipe (9B5), return air standpipe threeway (9B51), ground air-supply backwind tube (9B52), dehumidifying heat radiation backwind tube (9B53), dehumidifying heat radiation ajutage (3), dehumidifying heat dissipation wind channel (4), dehumidifying heat radiation duct set (3 '), dehumidifying heat radiation collection wind standpipe (3 "), air-to-air energy recovery pipe-line system (9P), air-conditioning ground ajutage (5), ground air-supply standpipe (51), air-supply threeway (9A2), air purifier (9A3), ajutage (9S2), quiet blower fan (9A4) and air outlet (9A5 ') are formed,

Described air-to-air energy recovery pipe-line system (9P), is made up of electronic exhaust outlet (9P1), dehumidifying air draft threeway (9P2), exhaust blower (9P3) and exhaust duct (9P4) and exhaust hood (9P5).

5. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 1 or 2 and energy-saving ventilating air air-conditioning system, it is characterized in that, described heat preservation ventilating window (10), is made up of window (10-1), heat absorption light reflective sunshading curtain (10 ') and double glazing exterior window (10-2) in ventilation to outdoor successively from indoor.

6. ventilating and thermal insulating module heating cooling ground and an energy-saving ventilating air air-conditioning system, comprises ventilating and thermal insulating module heating cooling ground, ventilation and air conditioning system (9) and warming solar energy vent window (10T); Described ventilating and thermal insulating module heating cooling ground, it is characterized in that, filled slurry (7A), moistureproof heat-conducting layer (6), basal plate (7-1), epoxy resin glue bonding layer (7-1A) and ground decoration panel (8) formed by ventilating and thermal insulating module body (1), floor heating pipeline (2), water collecting and diversifying device (2 '), dehumidifying heat radiation ajutage (3), dehumidifying heat dissipation wind channel (4), dehumidifying heat radiation duct set (3 '), air-conditioning ground ajutage (5), graphite heat conducting successively from bottom to top;

Described ventilating and thermal insulating module body (1), by standard straight frid (1Z) and two ends curved groove plate (1W1,1W2) assembled; Described standard straight frid (1Z) is made up of ventilating and thermal insulating module (1-1) and heat-conducting layer (1-11 ');

Described ventilation and air conditioning system (9), is made up of recuperation of heat supply air system (9A) and ground dehumidifying air-conditioning system (9B).

7. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described warming solar energy vent window (10T), is made up of window (10-1), heat absorption light reflective sunshading curtain (10 '), double glazing exterior window (10-2) and angle type solar module (10-3) in ventilation to outdoor successively from indoor;

In described ventilation, the top of window (10-1) is respectively equipped with the reserved opening (10-11 ') and discharge hose (10-13P2 ') of installing new wind intake stack (10-11) and discharge hose (10-13P2);

The top of described double glazing exterior window (10-2) is provided with the reserved opening (10-112 ') that is installed into wind pipeline (10-112) and discharge hose (10-13P2) and discharge hose (10-13P2 ").

8. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described recuperation of heat air supplying and exhausting system (9A), is made up of new wind intake stack (10-11), electronic air entering and returning mouth (10-11A), ajutage (10-11B), heat exchange recover (9A1), air-supply threeway (9A2), air purifier (9A3), quiet blower fan (9A4), air outlet (9A5 ', 9A6) and air exhaust tube system (10-13);

Described new wind intake stack (10-11) is made up of air intake cover (10-114), intake stack (10-112), Electric air valve (10-113), air purifier (115) and three-way pipe (10-116);

Described air exhaust tube system (10-13), is made up of electronic exhaust outlet (10-13P), dehumidifying air draft threeway (10-13P3), exhaust blower (10-13PJ), discharge hose (10-13P2) and exhaust hood (10-13P1).

9. a kind of ventilating and thermal insulating module heating cooling ground as described in claim 1 or 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described ground dehumidifying air-conditioning system (9B), by returning exhaust outlet (9B1), return air standpipe (9B5), dehumidifying heat radiation ajutage (3), dehumidifying heat dissipation wind channel (4), dehumidifying heat radiation duct set (3 '), dehumidifying heat radiation collection wind standpipe (3 ") or heat exchange exhaust duct (9A12), heat exchange recover (9A1), discharge duct (10-12) or air exhaust tube system (10-13), air-conditioning ground ajutage (5), ground air-supply standpipe (51), air-supply threeway (9A2), air purifier (9A3), quiet blower fan (9A4), dehumidifier (9A5) or air outlet (9A5 ') and air outlet (9A6) are formed.

10. a kind of ventilating and thermal insulating module heating cooling ground as claimed in claim 9 and energy-saving ventilating air air-conditioning system, it is characterized in that, described heat exchange recover (9A1), by heat exchange air intake sleeve pipe (9A11), be placed in the heat exchange exhaust duct (9A12) in sleeve pipe and sleeve outer wall thermal insulating (9A13) formation, described heat exchange exhaust duct (9A12) up and down two ends passes heat exchange air intake sleeve pipe (9A11) the upper and lower side threeway mouth of pipe (9A14, 9A15), dispel the heat with discharge duct (10-12) and dehumidifying respectively and collect wind standpipe (3 ") connect, or be connected with the duct set (3 ') that dispels the heat of dehumidifying with dehumidifying air draft threeway (10-13P3) respectively, upper and lower two side ends is preset with the interface (9A16,9A16 ') connected with ajutage and threeway (9A2) of blowing respectively,

Described heat exchange air intake sleeve pipe (9A11) adopts Φ 110mm ~ Φ 200mm plastic round tube or metal circular tube to assemble.

11. a kind of ventilating and thermal insulating module heating cooling ground as described in claim 1 or 2 or 6 and energy-saving ventilating air air-conditioning system; it is characterized in that; described dehumidifying heat dissipation wind channel (4); be included in and ventilation groove (1-12) inlay U-shaped heat conduction aluminum lath (1-11 ") or with aluminium foil or aluminium sheet or environment-friendly type soft graphite coiled material superconductor (1-11 '), or coating one deck water-repellent paint protective layer (1-12 ').

12. a kind of ventilating and thermal insulating module heating cooling ground as described in claim 1 or 2 or 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described ventilating and thermal insulating module (1-1) is provided with 4 ~ 7 road grooves, wherein, the spacing of 3 ~ 4 road grooves (1-11) is 200mm or 150mm, for laying floor heating pipeline (2), other 1 ~ 3 road is ventilation groove (1-12), is separately positioned between two grooves (1-11); Preferred distance is the ventilating and thermal insulating module of 150mm, 4 road grooves (1-11) and 1 ~ 2 road ventilation groove (1-12).

13. a kind of ventilating and thermal insulating module heating cooling ground as described in claim 1 or 2 or 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described two ends curved groove plate (1W1,1W2) are a pair, two ends, left and right, the groove of described curved groove plate (1W1) by 4 ~ 7 road grooves (1-11,1-12), and is formed with the arc curved groove (1-111) of the tangential crossing UNICOM of two grooves (1-11) and half arc curved groove (1-112); Described half arc curved groove (1-112) is 1/2nd of described arc curved groove (1-111); Described arc curved groove (1-111) and half arc curved groove (1-112) are apart from left end edges of boards 5 ~ 20mm.

14. a kind of ventilating and thermal insulating module heating cooling ground as described in claim 1 or 2 or 6 and energy-saving ventilating air air-conditioning system, it is characterized in that, described curved groove plate (1W12) groove is by 4 ~ 7 road grooves (1-11,1-12), with arc curved groove (1-111) and the half arc curved groove (1-112) of the tangential crossing UNICOM of two grooves (1-11), and longitudinal straight trough (1-11Z) of a track pitch right-hand member limit 5 ~ 20mm is formed; Described half arc curved groove (1-112) is 1/2nd of described arc curved groove (1-111).