CN104197438A - Thermal insulation module radiant heating and cooling ground and ventilation air conditioner system - Google Patents

Abstract

The invention relates to a thermal insulation module radiant heating and cooling ground and a ventilation air conditioner system. The ground is composed of a leveling layer, a polypropylene fiber waterproof roll layer, a prefabricated combined thermal insulation module body, a floor heating pipeline, a main air inlet pipe, a branch air inlet pipe, a main exhaust pipe, a dampproof heat conduction layer, a bonding cushion layer, ground veneer or a wood floor and the ventilation air conditioner system from bottom to top in sequence. The ventilation air conditioner system is composed of a fresh air supplying pipeline system, a ground dehumidification exhaust system and an indoor exhaust pipeline system, and has the advantages of air filtering, waste heat recycling, dehumanization performing and ventilation air conditioning. The ground radiant heating and cooling can be achieved at the tail end of the floor heating, and the problems that when cooling is carried out in summer, the ground is prone to moisture condensation and damp, the cold air sinks and deposits in the floor and cannot be released to the indoor space, and the comfort level is low are solved; an air coiler pipe equipment system is removed, installing cost is saved, the effects that the PM2.5 is purified and filtered out, and people can breathe clean and fresh air without opening a window can be achieved, carbon emission is low, and energy is saved.

Description

Heat preservation module radiant heating cooling ground and ventilation and air conditioning system

Technical field

The present invention relates to a kind of various heat preservation module radiant heating cooling ground and ventilation and air conditioning systems that water is cold/heat source of take that are applicable to, relate in particular to the construction method of a kind of heat preservation module radiant heating cooling ground and ventilation and air conditioning system.

Background technology

Because existing " radiant heating cooling heat preservation module " is in order to the fortifying fibre cement pressure plate poor thermal conductivity as accumulation of heat protection binder course, heat up slowly, cause heating effect not good, and, manufacture craft is relatively still more complicated, cost is also higher, another kind of build at the construction field (site) minimum thermal conductivity that one deck 35mm is thick more than 0.065W/ (m.K), volume dry density is that the foam cement of 150-250kg/m3 is as the technique way of floor heating heat insulation layer, not only need through natural curing, and, still need on foam cement heat insulation layer, break the thick pea gravel concrete of 50mm, exist technique loaded down with trivial details, labour intensity is large, duration is longer, increase ground face thickness and load, thermal insulation is poor, intensification is slow, cost is high, and the defect such as site operation dust pollution is larger.

Especially, because above-mentioned all technique ways are all without waterproof and dampproof layer and dehumidifying anti-condensation system, so, all be only applicable to radiant heating ground, while how to utilize radiant heating ground end hot-water heating coil system in the winter time, walk low-temperature hot-water heating, can when summer, walk again the cold water cooling after air source heat pump or water resource heat pump or other operation of air conditioning systems refrigeration, be a great problem of puzzlement floor heating circle always.

Summary of the invention

For above-mentioned deficiency, on the basis of the existing patented technologies such as " Combined floor heating heat preservation modules " that " the radiant heating cooling heat preservation module " that the present invention is 201220700296.4 by be ZL200810097309.1 in the patent No. " novel ground radiation air-conditioning ground surface ", application number and application number are 201220557999.6, improved, a kind of heat preservation module radiant heating cooling ground and ventilation and air conditioning system are provided; The present invention from bottom to top successively by screed-coat 1, polypropylene fiber waterproof coiled material layer 1-1, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', bonding bed course 6 and ground decoration panel 7 or timber floor and ventilation and air conditioning system form; Described precast combined heat preservation module body 2, consists of adiabatic heat-insulation module 2-1 and waterproof operative connection layer 2-2; The upper surface of described adiabatic heat-insulation module 2-1, comprise that the surface of groove 2-3 is all wiped with the thick waterproof operative connection of one deck 3～6 layer 2-2; Described waterproof operative connection layer 2-2 consists of waterproof heat conduction adhesive mortar 2-2A and glass fiber reticular cloth 2-2B; Described waterproof operative connection layer 2-2 not only improved resistance to compression, fire prevention and the adiabatic performance of this heat preservation module, and can play binder course effect good and ground veneer material bonding; Ground veneer material bonding fastness and cracking resistance, anti-hollowing, waterproof and dampproof, withstand voltage, adiabatic heat-insulation and heat conduction heating effect have been guaranteed.

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD the bidirectional flow recuperation of heat ventilation and air conditioning system forming;

Described new wind air supply duct system, consists of air purifier 31, heat exchange recover 32, ajutage 34, air outlet 35, heat exchange recover 36, air outlet 37 and air-supply main 38 to indoor air outlet successively from outdoor air inlet;

Described ground dehumidifying exhaust system be by air inlet 39, air intake standpipe 310,, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", air draft bend pipe 311, discharge hose 312, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe only return valve 313 ', air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319 form;

The pipe-line system of the directly outwards air draft that described indoor exhaust wind pipe-line system consists of return air inlet 320, air draft main 321, air draft main motor-driven valve 322, exhaust blower 318 and exhaust outlet 319 and by air exhaust branch pipe 323, air exhaust branch pipe straight-through valve 323 ', heat exchange recover 36, air exhaust branch pipe threeway 314 ' and 314, return air heat recovery channel system two parts of forming of air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319 form;

The present invention walks low-temperature hot-water heating while utilizing radiant heating ground end hot-water heating coil system in the winter time, can when summer, walk again the cold water cooling after air source heat pump or water resource heat pump or other operation of air conditioning systems refrigeration, and there are following two kinds of air conditioner operational modes:

One, air conditioner pattern, this pattern can be divided into again following two kinds:

1, indoor changes in temperature air draught air conditioning mode, in winter severe cold season or heat in summer sky, for avoiding causing air conditioning energy consumption to strengthen into new wind, especially in the time of just start, and the air purifier 31 of not opening of taking enters new wind from open air, just the circularly purifying of room air filters the pattern of air conditioner;

This pattern is by Intelligent electronic control system or manual-lock air purifier 31 and air draft main motor-driven valve 322, open the built-in pressure fan of air outlet 35, the interior exhaust blower of air inlet 39 and exhaust blower 318, now, under the wind-force effect of exhaust blower, make room air, from air inlet 39, enter, by air intake standpipe 310 and air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, send in the heat exchange exhaust duct 32-2 of heat exchange recover 32, via air exhaust branch pipe 313, air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319, in floor when just starting shooting, hot gas and moisture or cold air drain into outdoor, can play dehumidifying, accelerate the regulating action of room air, and the humiture value that produces dewfall condensed water of avoiding presetting by temperature and humidity controller is controlled exhaust blower opening and closing automatically.Simultaneously, under the effect of the built-in pressure fan wind-force of air outlet 35, room air flows into from air outlet 37, through heat exchange recover 36 and heat exchange recover 32, the cold air or the heating installation that in grounding heat coil tube, flow into heat exchange recover 32 are sent into indoor by pressure fan 35 air outlets, to indoor when carrying out auxiliary heating cooling air conditioner, also room air is played the effect of good sterilization, high-efficient purification filtration, and, also guaranteed that indoor changes in temperature air does not outwards run off, really reached energy-conservation, high-efficiency air-condition, purify air and comfortable object.

2, fresh air conditioner pattern:

This pattern is by when entering indoor new wind and carry out PM2.5 purification filtering, also indoor foul atmosphere is drained into outdoor after heat exchange recover fully reclaims airborne waste heat, thereby reduce the energy consumption of air conditioner, promoted air conditioner effect, and reached not open a window and also can breathe clean ozone, healthy comfortable object.

This pattern is by Intelligent electronic control system or manual-lock air draft main motor-driven valve 322 and the built-in pressure fan of air outlet 35; Open air purifier 31, air exhaust branch pipe straight-through valve 323 ', exhaust blower 318 and the interior exhaust blower of air inlet 39, now, new wind enters new wind air supply duct after purifying, and after flow through respectively heat exchange recover 32 and heat exchange recover 36 through cold and hot exchange, waste heat in air draft or low-temperature receiver are fully reclaimed, through the built-in pressure fan of air outlet 35 and air outlet 37, send indoor room to respectively, and play the effect of auxiliary heating cooling.Simultaneously, under exhaust blower air draft effect, return air divides two-way, a road from air inlet 39, air intake standpipe 310, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 and exhaust outlet 319 drain into open air; Another route return air inlet 320 enters, through air draft main 321, air exhaust branch pipe 323, carry out after heat exchange through heat exchange recover 36, flow through air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 and exhaust outlet 319 drains into outdoorly, promoted air conditioner effect.

Two, non-heating cooling air conditioner in season pattern

This pattern be by Intelligent electronic control system or the built-in pressure fan of manual-lock air outlet 35, the interior exhaust blower of air inlet 39, air exhaust branch pipe straight-through valve 323 '; Open air purifier 31, air draft main motor-driven valve 322 and exhaust blower 318, now, new wind enters new wind air supply duct after purifying, and respectively by heat exchange recover 32 and heat exchange recover 36, through air outlet 35 and air outlet 37, sends into indoor.Simultaneously, under exhaust blower 318 air draft effects, indoor foul smell is entered by return air inlet 320, harmful foul smells such as the formaldehyde directly indoor furniture etc. being discharged through air draft main 321 and exhaust outlet 319, radon drain into outdoor, to reach PM2.5 purification filtering, do not open a window and can breathe clean ozone yet, simultaneously, avoid the various pollutions such as outdoor dust, vehicle exhaust and noise, reach healthy comfortable object.

Also solved well summer during cooling, alluvial that the easy dewfall in ground is got damp and cold air sinks, in floor, discharges the problems such as " the cool top of foot is hot ", the comfort level come less than the interior space be not good; And, saved air-coil supply air system equipment & installation cost, and it is prefabricated to realize batch production, on-the-spot dry method assembling.

In addition,, because terrestrial surface radiation cooling area of dissipation is large, requiring cooling leaving water temperature is 13 ℃-17 ℃, low 4 ℃-7 ℃ compared with 10 ℃ of left and right of the leaving water temperature of air-coil cooling, thereby, the Energy Efficiency Ratio (COP) of air source heat pump or water resource heat pump is highly improved, good energy-conserving effect.

In order to reach above-mentioned purpose, technical solution of the present invention is:

The embodiment of the present invention one, it from bottom to top successively by screed-coat 1, polypropylene fiber waterproof coiled material layer 1-1, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', bonding bed course 6 and ground decoration panel 7 or timber floor and ventilation and air conditioning system form; Described precast combined heat preservation module body 2, consists of adiabatic heat-insulation module 2-1 and waterproof operative connection layer 2-2; The upper surface of described adiabatic heat-insulation module 2-1, comprise that the surface of groove 2-3 is all wiped with the thick waterproof operative connection of one deck 3～6 layer 2-2; Described waterproof operative connection layer 2-2 consists of waterproof heat conduction adhesive mortar 2-2A and glass fiber reticular cloth 2-2B; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

The embodiment of the present invention two, it from bottom to top successively by water-proof leveling layer 1, rubber and plastic heat preservation and soundproof pad 1-2, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', timber floor 8 or bonding bed course and ground decoration panel and ventilation and air conditioning system formation; Described precast combined heat preservation module body 2, consists of adiabatic heat-insulation module 2-1 and waterproof operative connection layer 2-2; The upper surface of described adiabatic heat-insulation module 2-1, comprise that the surface of groove 2-3 is all wiped with the thick waterproof operative connection of one deck 3～6 layer 2-2; Described waterproof operative connection layer 2-2 consists of waterproof heat conduction adhesive mortar 2-2A and glass fiber reticular cloth 2-2B; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module; Described moistureproof heat-conducting layer 4 ' for be laid on floor heating pipeline 3, air intake main 5, air intake arm 5 ' and air draft main 5 " on 0.02mm～0.4mm thick aluminum foil or aluminium sheet.

Described waterproof heat conduction adhesive mortar 2-2A, to adopt to be by weight percentage: PO42.5 Portland cement: quartz sand (70-100 order): graphite powder (200 order): binding type high molecular nanometer rubber powder: hydroxypropyl methyl cellulose ether: silane waterproof powder=30～40%: 50～65%: 3～8%: 2～3%: 0.2～0.6%: the dry powder and mortar form is stirred in 0.2～0.4% preparation, and by water: dry powder and mortar=0.20～0.25: 1 weight ratio stirs and forms.

The embodiment of the present invention three, it from bottom to top successively by water-proof leveling layer 1, rubber and plastic heat preservation and soundproof pad 1-2, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', timber floor 8 or bonding bed course and ground decoration panel and ventilation and air conditioning system formation;

Described precast combined heat preservation module body 2 is on the adiabatic heat-insulation module 2-1 of groove 2-3, to paste the thick moistureproof heat conduction aluminium foil 2-2 ' of one deck 0.02mm～0.2mm and form being prefabricated with; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described moistureproof heat-conducting layer 4 ' for be laid on floor heating pipeline 3, air intake main 5, air intake arm 5 ' and air draft main 5 " on 0.02mm～0.4mm thick aluminum foil or aluminium sheet.

The embodiment of the present invention four, it is from bottom to top successively by ground layer or screed-coat 1, polypropylene fiber waterproof coiled material layer 1-1, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air draft main 5 ", moistureproof heat-conducting layer 4 ', bonding bed course 6 and ground decoration panel 7 or timber floor and ventilation and air conditioning system form; Described air intake main 5 and air draft main 5 are " with air intake arm 5 ' two ends UNICOM;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

Described precast combined heat preservation module body 2 is by adiabatic heat-insulation module 2-1 with on adiabatic heat-insulation module groove 2-3, to be inlaid with the U-shaped heat conduction aluminum lath 2-2 on band heat conduction limit, both sides " to be formed; Described adiabatic heat-insulation module 2-1 comprises bearing type adiabatic heat-insulation module and standard adiabatic heat-insulation module;

Described U-shaped heat conduction aluminum lath 2-2 ", be make with the thick aluminium sheet of 0.2mm～1.0mm upper young to greatly fixing bar with the heat conduction of the wide heat conduction of 30mm～90mm limit 2-2A in the both sides of circular arc with ground heating pipes external diameter, bottom.

Described precast combined heat preservation module body 2, for lay the precast combined heat preservation module of form for " single tube parallel type ", by prefabricated thermal insulation module body 2-11,2-21,2-H, 2-H ' and stage casing straight trough type prefabricated thermal insulation module body 2Z and the edge band 2L of two terminal circle arc, combined; Described prefabricated thermal insulation module body 2-H, 2-H ' are the heat preservation modules that is exclusively used in inflection place of floor heating pipeline.

Described precast combined heat preservation module body 2, for lay the precast combined heat preservation module of form for " two-tube parallel type ", by prefabricated thermal insulation module body 2-31, the 2-32 of two terminal circle arc and stage casing straight trough type prefabricated thermal insulation module body 2Z and edge band 2L, formed; Described prefabricated thermal insulation module body 2-31,2-32 are that two ends, left and right are a pair of, it is to be the horizontal elongated straight trough 25 of 200mm or 150mm, longitudinal straight trough 25 of a track pitch right-hand member limit 50～100mm by spacing that the upper surface floor heating pipe groove of described prefabricated thermal insulation module body 2-31 is laid ", and left and right is respectively with horizontal elongated straight trough with tangentially intersect in length and breadth curved bend groove 5-1, the 5-2 formation of UNICOM to straight trough; Described curved bend groove 5-2 is 1/2nd of described curved bend groove 5-1; Described longitudinal straight trough 25 " two ends to tangentially intersecting connection position with curved bend groove 5-2.

Described new wind air supply duct system, consists of air purifier 31, heat exchange recover 32, ajutage 34, air outlet 35, heat exchange recover 36, air outlet 37 and air-supply main 38 to indoor air outlet successively from outdoor air inlet;

Described heat exchange recover 32, consists of heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, and described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is mended core 32-4 through heat exchange air intake sleeve pipe 32-1 top and is connected with air exhaust branch pipe 313; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway mouth of pipe 32-5 and air draft bend pipe 311, and upper and lower both sides are preset with respectively interface 32-6,32-6 ' and the 32-7 joining with heat exchange recover 36, ajutage 34 and air-supply main 38;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

Described indoor exhaust wind pipe-line system, the pipe-line system of the directly outwards air draft being formed by return air inlet 320, air draft main 321, air draft main motor-driven valve 322, exhaust blower 318 and exhaust outlet 319 and by air exhaust branch pipe 323, air exhaust branch pipe straight-through valve 323 ', heat exchange recover 36, air exhaust branch pipe threeway 314 ' and 314, return air heat recovery channel system two parts of forming of air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319 form;

Described air exhaust branch pipe 317 two ends are connected with air exhaust branch pipe threeway 316 and air draft main motor-driven valve 322 front ends respectively.

Described ground dehumidifying exhaust system be by air inlet 39, air intake standpipe 310,, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", air draft bend pipe 311, discharge hose 312, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe only return valve 313 ', air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319 form;

Described air inlet 39, is built-in with net sheet, air door and exhaust blower.

Described new wind air supply duct system, from outdoor air inlet to indoor air outlet successively by new wind air inlet 31 ', blast pipe return only valve 31A, air purifier 31B, new blower fan 31 ", heat exchange recover 32, ajutage 34, air outlet 35, heat exchange recover 36, air outlet 37 and air-supply main 38 form.

Described indoor exhaust wind pipe-line system is by return air inlet 320, air draft main 321, exhaust blower 318, return air duct straight-through valve 3H, return air duct 3H ', air draft main straight-through valve 322 ' and the indoor room that forms of exhaust outlet 319 is in line and straight gyrus pipe-line system, and by air exhaust branch pipe 323, air exhaust branch pipe straight-through valve 323 ', heat exchange recover 36, air exhaust branch pipe threeway 314 ' and 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ', return air heat recovery channel system two parts of exhaust blower 318 ' and exhaust outlet 319 ' form form;

Described air purifier 31B is for being built-in with electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or for being built-in with triple effective filters.

Described ventilation and air conditioning system is the bidirectional flow recuperation of heat ventilation and air conditioning system without furred ceiling pipeline consisting of fresh air conditioner system, recuperation of heat ventilation and air conditioning system and ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG;

Described fresh air conditioner system, by indoor air inlet 325, heat exchange recover 32 ', ajutage 34, new wind air-intaker 34A, air purifier 35B and air guide hole 35A form.

Described heat exchange recover 32 ', by heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, formed, described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is connected with exhaust duct 313A through heat exchange air intake sleeve pipe 32-1 upper end threeway top ports 32-4; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway top ports 32-5 and air draft bend pipe 311, and upper and lower both sides are preset with respectively interface 32-6 and the 32-7 joining with indoor air inlet 325 and ajutage 34;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

Recuperation of heat ventilation and air conditioning system, consists of heat exchange air intake sleeve pipe 36 '-1, heat exchange exhaust duct 36 '-2 and sleeve outer wall thermal insulating 36 '-3 that are placed in sleeve pipe, and described heat exchange exhaust duct 36 '-2 are made by Φ 50mm～Φ 100mm metal tube; Smoke exhaust 36 ' a that core 36 '-A and kitchen are mended through heat exchange air intake sleeve pipe 36 '-1 one end in one end, described heat exchange exhaust duct 36 '-2 joins; And being provided with four-way near mending core 36 '-A mono-side, this four-way mouth of pipe 36 '-B is the interface joining for the new wind air outlet 37-A with bedroom or parlor; Described heat exchange exhaust duct 36 '-2 are mended core mouth 36 '-B ' through this four-way and are joined with the return air fan 36 ' b of kitchen or toilet; The exhaust outlet 319A that the other end of described heat exchange exhaust duct 36 '-2 is mended on core 36 '-C and window or exterior wall through the other end threeway of heat exchange air intake sleeve pipe 36 '-1 joins; The another port 36 '-D that mends core mouth 36 '-C near threeway be for window or exterior wall on the new wind interface that joins of air purifier 35B '.

Described ventilation and air conditioning system, by indoor air inlet 325 ', the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline of new wind air-intaker 34A ', control valve 34AF, heat exchange recover 32 ", ajutage 34, recuperation of heat purifying fresh air rack 35B ", ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG formation.

Described ground dehumidifying exhaust system be by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ' or 32 ", exhaust duct 313A or 313A ' and exhaust outlet 313B or 313B ' formation;

Described air inlet 39 ' be built-in with small silent exhaust blower;

Described exhaust outlet 313B is built-in with small silent exhaust blower.

Described ventilation and air conditioning system is by the indoor air-conditioning system that is arranged at parlor and bedroom, ground dehumidifying exhaust system, window formula fresh air purifying blower fan 31C and be installed in kitchen or the recuperation of heat ventilation and air conditioning system 36 of toilet ' and the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline that forms of feigned column JZ and decorating cabinet JG;

Described indoor air-conditioning system, by indoor air inlet 325, heat exchange recover 32 ', ajutage 34 and air outlet 35C form the above ventilation and air conditioning system in floor and by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', air draft main 5 ", auxiliary heating cooling pipe-line system two parts formation in the floor that forms of ajutage 5B-1, control valve 5B-2, air-supply three-way pipe 34S and air outlet 35C;

Described ground dehumidifying exhaust system be by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ', exhaust duct 313A and exhaust outlet 313B form;

Described air inlet 39 ' be built-in with screen pack and small silent exhaust blower;

Described exhaust outlet 313B is built-in with screen pack and small silent exhaust blower.

Described ventilation and air conditioning system is the recuperation of heat ventilation and air conditioning system forming by being arranged at indoor air-conditioning system, ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG;

Described indoor air-conditioning system, by indoor air inlet 325 ', new wind air-intaker 34A ', control valve 34AF, heat exchange recover 32 ", the above ventilation and air conditioning system in floor of ajutage 34 and air purifier 35X ' formations and by air inlet 39a, enter air draft threeway 39b, air intake standpipe control valve 310a, air intake standpipe 310b, air intake main 5, air intake arm 5 ', air draft main 5 ", auxiliary heating cooling pipe-line system two parts formation in the floor that forms of ajutage 5B-1, control valve 5B-2, blow three-way pipe 34S and air purifier 35X ';

Described ground dehumidifying exhaust system is by air inlet 39a, enter air draft threeway 39b, control valve 39c, only return valve 39d, exhaust outlet 39e, air intake standpipe control valve 310a, air intake standpipe 310b, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ", exhaust duct 313A ' and exhaust outlet 313B ' formation;

Described air inlet 39a is built-in with small silent exhaust blower;

Described exhaust outlet 313B ' is built-in with small silent exhaust blower and returns only valve.

Described heat exchange recover 32 ", by heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, formed, described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is connected with exhaust duct 313A ' through right angle, heat exchange air intake sleeve pipe 32-1 upper end four-way port 32-4 '; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway top ports 32-5 and air draft bend pipe 311, described heat exchange air intake sleeve pipe 32-1 upper end right angle four-way port 32-6 ' and 32-6 " respectively with indoor air inlet 325 ' join with control valve 34AF; Described heat exchange air intake sleeve pipe 32-1 lower end threeway side ports 32-7 and ajutage 34 join;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic tube or metal tube to assemble.

Described air intake main 5, air intake arm 5 ' and air draft main 5 " all adopt 25mm * 80mm or 30mm * 80-180mm or 40mm * 120-200mm rectangular metal or plastic bilateral airduct 5A and 5B; described bilateral airduct 5A is the enter/air draft ventilation shaft for dehumidifying and strengthening conducting heat; two ends respectively with air intake standpipe 310 ' be connected with discharge hose 312, and in the side towards grounding heat coil tube, be preset with the air vent 33-1 of Φ 15mm～Φ 30mm; Described bilateral airduct 5B, be exclusively used in by floor cold/heating installation is sent into indoorly, plays the effect of auxiliary heating cooling, the two ends of described bilateral airduct 5B respectively with air intake standpipe 310 ' be connected with ajutage 5B-1.

Described air intake main 5, air intake arm 5 ' and air draft main 5 "; comprise the bilateral airduct 5A and the 5B that adopt two 25mm * 40mm or 30mm * 60-80mm or 40mm * 60-100mm metal or plastic rectangular tube to be put together, described bilateral airduct 5A is preset with the air vent 33-1 of Φ 15mm～Φ 30mm towards a side of grounding heat coil tube.

Described ventilation and air conditioning system, by air inlet 31 ' a, air intake standpipe 310A, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", air draft standpipe 32A, new wind intake stack 371, exhaust duct 372, heat exchanging ventilator controller 35H, return air inlet 312a, backwind tube 312a ', new wind ajutage 313a, air outlet 314a, false beam JL and feigned column JZ form; The Exchange of apparent heat that described heat exchanging ventilator controller 35H is air cleaner or full heat exchange ventilation controller, described heat exchanging ventilator controller 35H both can be arranged in furred ceiling, also can be mounted on interior wall.

Accompanying drawing explanation

Fig. 1 is the perspective schematic view of example one of the present invention;

Fig. 2 is the perspective schematic view of a kind of precast combined heat preservation module body 2 involved in the present invention;

Fig. 3 is the perspective schematic view of the precast combined heat preservation module body 2 of another kind involved in the present invention;

Fig. 4 is the sectional drawing along the 1-1 line of Fig. 3, is the sectional drawing of the precast combined heat preservation module body 2 of another kind involved in the present invention;

Fig. 5 is the perspective schematic view of example two of the present invention;

Fig. 6 is the perspective schematic view of example three of the present invention;

Fig. 7 is the perspective schematic view of the precast combined heat preservation module body 2 of another kind involved in the present invention;

Fig. 8 is the sectional drawing of example four of the present invention;

Fig. 9 is the perspective schematic view of the precast combined heat preservation module body 2 of another kind involved in the present invention;

Figure 10 is the perspective schematic view of a kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 11 be involved in the present invention be a kind of partial top view of ventilation and air conditioning system embodiment;

Figure 12 is to be the perspective schematic view of a kind of heat exchange recover 32 embodiments involved in the present invention;

Figure 13 is to be the perspective schematic view of a kind of heat exchange recover 36 embodiments involved in the present invention;

Figure 14 be involved in the present invention be the partial top view of another kind of ventilation and air conditioning system embodiment;

Figure 15 be involved in the present invention be a kind of plane of ventilation and air conditioning system embodiment;

Figure 16 is the A view in Figure 15, is the perspective schematic view of another kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 17 is the perspective schematic view of another kind of heat exchange recover 32 ' embodiment involved in the present invention;

Figure 18 is to be the perspective schematic view of another kind of heat exchange recover 36 ' embodiment involved in the present invention;

Figure 19 is the A view in Figure 15, is the perspective schematic view of another kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 20 is the B view in Figure 15, is the perspective schematic view of another kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 21 is the C view in Figure 15, is the perspective schematic view of another kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 22 is the another kind of heat exchange recover 32 " perspective schematic view of embodiment involved in the present invention;

Figure 23 is air intake main 5, air draft main 5 involved in the present invention " and the perspective schematic view of air intake arm 5 ' embodiment;

Figure 24 is the perspective schematic view of another kind of ventilation and air conditioning system embodiment involved in the present invention;

Figure 25 is involved in the present invention entering/air draft main 5 and 5 " and air intake arm 5 ' the perspective schematic view of another kind of embodiment.

The specific embodiment

For clearer expression the present invention, with reference to the accompanying drawings embodiments of the present invention are further described.

The embodiment of the present invention one, as shown in Figure 1, it is characterized in that, it from bottom to top successively by screed-coat 1, polypropylene fiber waterproof coiled material layer 1-1, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', bonding bed course 6 and ground decoration panel 7 or timber floor and ventilation and air conditioning system form; Described precast combined heat preservation module body 2, as shown in Figure 1 to 4, consists of adiabatic heat-insulation module 2-1 and waterproof operative connection layer 2-2; The upper surface of described adiabatic heat-insulation module 2-1, comprise that the surface of groove 2-3 is all wiped with the thick waterproof operative connection of one deck 3～6 layer 2-2; Described waterproof operative connection layer 2-2 consists of waterproof heat conduction adhesive mortar 2-2A and glass fiber reticular cloth 2-2B; Described waterproof operative connection layer 2-2 not only improved resistance to compression, fire prevention and the adiabatic performance of this heat preservation module, and can play binder course effect good and ground veneer material bonding; Ground veneer material bonding fastness and cracking resistance, anti-hollowing, waterproof and dampproof, withstand voltage, adiabatic heat-insulation and heat conduction heating effect have been guaranteed; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

At the described precast combined heat preservation module body 2 shown in Fig. 1, for lay the precast combined heat preservation module of form for " single tube parallel type ", by prefabricated thermal insulation module body 2-11,2-21,2-H, 2-H ' and stage casing straight trough type prefabricated thermal insulation module body 2Z and the edge band 2L of two terminal circle arc, combined; Described prefabricated thermal insulation module body 2-H, 2-H ' are the heat preservation modules that is exclusively used in inflection place of floor heating pipeline.

At the upper surface of the described prefabricated thermal insulation module body 2-11 shown in Fig. 1 floor heating pipe groove, laying is by spacing, to be the horizontal elongated straight trough 25 of 200mm or 150mm, elongated longitudinal straight trough 25 of one track pitch right-hand member limit 30mm～100mm ', and tangentially curved bend groove 5-1, the 5-2 of crossing UNICOM form with horizontal straight trough; Described curved bend groove 5-2 is 1/2nd of described curved bend groove 5-1.

At the upper surface of the described prefabricated thermal insulation module body 2-21 shown in Fig. 1 floor heating pipe groove, laying is by spacing, to be the horizontal elongated straight trough 25 of 200mm or 150mm, and forms with the curved bend groove 5-1 that horizontal elongated straight trough tangentially intersects UNICOM.

The embodiment of the present invention two, as shown in Figure 5, it is characterized in that, from bottom to top successively by water-proof leveling layer 1, rubber and plastic heat preservation and soundproof pad 1-2, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', timber floor 8 or bonding bed course and ground decoration panel and ventilation and air conditioning system formation; Described precast combined heat preservation module body 2, as shown in Figure 2 to 4, consists of adiabatic heat-insulation module 2-1 and waterproof operative connection layer 2-2; The upper surface of described adiabatic heat-insulation module 2-1, comprise that the surface of groove 2-3 is all wiped with the thick waterproof operative connection of one deck 3～6 layer 2-2; Described waterproof operative connection layer 2-2 consists of waterproof heat conduction adhesive mortar 2-2A and glass fiber reticular cloth 2-2B; Described waterproof operative connection layer 2-2 not only improved resistance to compression, fire prevention and the adiabatic performance of this heat preservation module, and can play binder course effect good and ground veneer material bonding; Ground veneer material bonding fastness and cracking resistance, anti-hollowing, waterproof and dampproof, withstand voltage, adiabatic heat-insulation and heat conduction heating effect have been guaranteed; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described ventilation and air conditioning system is the bidirectional flow recuperation of heat ventilation and air conditioning system without furred ceiling pipeline consisting of fresh air conditioner system, recuperation of heat ventilation and air conditioning system and ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG.

At the described precast combined heat preservation module body 2 shown in Fig. 5, for lay the precast combined heat preservation module of form for " two-tube parallel type ", by prefabricated thermal insulation module body 2-31, the 2-32 of two terminal circle arc and stage casing straight trough type prefabricated thermal insulation module body 2Z and edge band 2L, formed; Described prefabricated thermal insulation module body 2-31,2-32 are that two ends, left and right are a pair of, it is to be the horizontal elongated straight trough 25 of 200mm or 150mm, longitudinal straight trough 25 of a track pitch right-hand member limit 50～100mm by spacing that the upper surface floor heating pipe groove of described prefabricated thermal insulation module body 2-31 is laid ", and left and right is respectively with horizontal elongated straight trough with tangentially intersect in length and breadth curved bend groove 5-1, the 5-2 formation of UNICOM to straight trough; Described curved bend groove 5-2 is 1/2nd of described curved bend groove 5-1; Described longitudinal straight trough 25 " two ends to tangentially intersecting connection position with curved bend groove 5-2.

At the upper surface of the described prefabricated thermal insulation module body 2-32 shown in Fig. 5 floor heating pipe groove, laying is to be the horizontal elongated straight trough 25 of 150mm or 200mm, longitudinal straight trough 25 of two track pitch left end limit 50mm～100mm by spacing ", and left and right forms with the curved bend groove 5-2 that tangentially intersects UNICOM to straight trough and horizontal elongated straight trough in length and breadth respectively; Described longitudinal straight trough 25 " one end to edges of boards, the other end is to tangentially intersecting connection position with curved bend groove 5-2.

At the described waterproof heat conduction adhesive mortar 2-2A shown in Fig. 2 and Fig. 4, to adopt to be by weight percentage: PO42.5 Portland cement: quartz sand (70-100 order): graphite powder (200 order): binding type high molecular nanometer rubber powder: hydroxypropyl methyl cellulose ether: silane waterproof powder=30～40%: 50～65%: 3～8%: 2～3%: 0.2～0.6%: the dry powder and mortar form is stirred in 0.2～0.4% preparation, and by water: dry powder and mortar=0.20～0.25: 1 weight ratio stirs and forms;

Described graphite powder, for phosphorus content reaches 99.9% above thermal conductivity factor up to the high-quality graphite powder of 151W/ (mK), described graphite powder is mixed in waterproof heat conduction bonding mortar and not only to be substituted aluminium foil and work to strengthen heat conduction, and, also increased the viscosity of waterproof heat conduction bonding mortar.

The embodiment of the present invention three, as shown in Figure 6, it is characterized in that, from bottom to top successively by water-proof leveling layer 1, rubber and plastic heat preservation and soundproof pad 1-2, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air intake arm 5 ', air draft main 5 ", moistureproof heat-conducting layer 4 ', timber floor 8 or bonding bed course and ground decoration panel and ventilation and air conditioning system formation;

Described precast combined heat preservation module body 2 as shown in Figure 7, is on the adiabatic heat-insulation module 2-1 of groove 2-3, to paste the thick moistureproof heat conduction aluminium foil 2-2 ' of one deck 0.02mm～0.2mm and form being prefabricated with; Described adiabatic heat-insulation module 2-1 comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module.

At the described precast combined heat preservation module body 2 shown in Fig. 6, for lay the precast combined heat preservation module of form for " inflection type ", by the prefabricated thermal insulation module body 2-31 of straight trough type prefabricated thermal insulation module body 2Z, circular arc, 90 degree arc corners shape prefabricated thermal insulation module body 2-4 and 2-4 ', groined type prefabricated thermal insulation module body 2-5 and edge band 2L, formed; Described 90 degree arc corners shape prefabricated thermal insulation module body 2-4 and 2-4 ' are that left and right is positive and negative a pair of; It is the heat preservation module that is exclusively used in floor heating pipeline " inflection type layout ".

The upper surface floor heating pipe groove of described 90 degree arc corners shape prefabricated thermal insulation module body 2-4, the 2-4 ' shown in Fig. 6 lay be by 3 roads or 2 track pitches be the equally spaced longitudinal elongated straight trough 25 intersecting vertically of 150mm or 200mm and horizontal elongated straight trough 25 ', what respectively upper and lower 3 roads or 2 roads are intersected vertically tangentially intersects the curved bend groove 5-2 of UNICOM to straight trough in length and breadth, and two ends form to the curved bend groove 5-2 of edges of boards.

The embodiment of the present invention four, as shown in Figure 8, it is characterized in that, from bottom to top successively by ground layer or screed-coat 1, polypropylene fiber waterproof coiled material layer 1-1, precast combined heat preservation module body 2, floor heating pipeline 3, air intake main 5, air draft main 5 ", moistureproof heat-conducting layer 4 ', bonding bed course 6 and ground decoration panel 7 or timber floor and ventilation and air conditioning system form; As shown in Figure 1, described air intake main 5 and air draft main 5 are " with air intake arm 5 ' two ends UNICOM;

Described precast combined heat preservation module body 2 as shown in Figure 9, is by adiabatic heat-insulation module 2-1 with on adiabatic heat-insulation module groove 2-3, to be inlaid with the U-shaped heat conduction aluminum lath 2-2 on band heat conduction limit, both sides " to be formed; Described adiabatic heat-insulation module 2-1 comprises bearing type adiabatic heat-insulation module and standard adiabatic heat-insulation module;

Described floor heating pipeline 3 lays and fixes the U-shaped heat conduction aluminum lath 2-2 at precast combined heat preservation module body 2 " groove in;

Described moistureproof heat-conducting layer 4 ' be that employing environment-friendly type water-repellent paint and combination type heat insulating module body 2 are bonding, this water-repellent paint, not only as bonding agent, also can play good moisture-proof role, to strengthen the moistureproof durability of combination type heat insulating module body 2;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

At the described U-shaped heat conduction aluminum lath 2-2 shown in Fig. 9 "; be make with the thick aluminium sheet of 0.2mm～1.0mm upper young to greatly fixing bar with the heat conduction of the wide heat conduction of 30mm～90mm limit 2-2A in the both sides of circular arc with ground heating pipes external diameter, bottom; when this U-shaped heat conduction aluminum lath plays conductive force, also can play good fixing effect to ground heating pipes.

At the groove 2-3 of the described standard adiabatic heat-insulation module shown in Fig. 2, Fig. 3, Fig. 7 and Fig. 9 and described bearing type adiabatic heat-insulation module, be that elongated spacing is 150mm or 200mm, the section configuration of described groove 2-3 is to play the bottleneck circular arc bottom shape that fixes heating tube effect.

At Fig. 3, be connected anchorage support seat 1A with being preset with in the described bearing type adiabatic heat-insulation module 2-1 shown in Fig. 4; Described connection anchorage support seat 1A is rectangle, or be circular, be to fill with the hard rubber piece 1A-2 that high-strength polymer bonding mortar 1A-1 and thermal conductivity factor are only 0.15W/ (mK), or only with pea gravel concrete, fill and form, its distribute spacing is 100mm～600mm; Concrete spacing need be determined according to the quantity of load-bearing force request and installation anchor point; Described connection anchorage support seat 1A, has strengthened resistance to compression and the bearing capacity of this heat preservation module, and therefore, this heat preservation module is best suited for the ground that bearing load is larger, as hall or passageway or parlor etc.

The described adiabatic heat-insulation module 2-1 shown in Fig. 7 and Fig. 9 be thick with 20mm～60mm, long * wide for the compression strength of 600mm～1800mm * 600mm be that more than 150KPa extruded polystyrene warming plate (XPS plate) or polyurethane sheet or molding polyphenylene heat insulation slab (EPS plate) are made.

At the described precast combined heat preservation module body 2 shown in Fig. 6 and Fig. 8, be included in and for " single tube parallel type " or " two-tube parallel type ", lay the precast combined heat preservation module of form shown in Fig. 1 or Fig. 5; Meanwhile, at the described precast combined heat preservation module body 2 shown in Fig. 1, Fig. 5 and Fig. 9, be also included within and for " inflection type ", lay the precast combined heat preservation module of form shown in Fig. 6.

" the Combined floor heating heat preservation module " that is 201320468364.3 with application number in " single tube parallel type " or " two-tube parallel type " or " inflection type " combining form of mating formation of the described precast combined heat preservation module body 2 shown in Fig. 1, Fig. 5, Fig. 6 and Fig. 8 is corresponding identical.

Two ends and water collecting and diversifying device interface 3-A at the described floor heating pipeline 3 shown in Fig. 1, Fig. 5, Fig. 6 and Fig. 8 join.

At the described moistureproof heat-conducting layer 4 shown in Fig. 1, Fig. 5, Fig. 6 and Fig. 8 ' for being laid on 0.02mm～0.4mm thick aluminum foil or the aluminium sheet on precast combined heat preservation module body 2, this protection against the tide heat-conducting layer both can play the effect of strengthening heat conduction, also there is certain moisture-proof function, can stop moisture to be directly delivered to timber floor 8, or be promptly delivered to ground decoration panel 7 by bonding bed course 6, prevent the generation of timber floor or damping of ground floor dewfall, metaboly, meanwhile, strengthened the compression strength of heat preservation module body; Also can play the protective effect to floor heating pipe line 3 and heat preservation module body; and in groove 2-3 and upper and lower moistureproof heat-conducting layer 4 ' and precast combined heat preservation module body 2 between form cavity ventilation shaft 33 and air-permeable layer; when this cavity ventilation shaft 33 and air-permeable layer play very important dehumidifying hinge channeling in dehumidifying air-conditioning system; also accelerate the outside conduction of cold and hot matchmaker in floor heating pipeline, and then improved ground radiation heating cooling and air-conditioning effect.

At the described bonding bed course 6 shown in Fig. 1 and Fig. 8, by the thick bonding mortar of 10～30mm or special bonding agent or cement mortar or pea gravel concrete and one deck, play galvanized steel wire netting sheet or the nylon grid cloth of resistance to compression anti-crack function or strengthen glass fiber reticular cloth and form.

At the described ground decoration panel 7 shown in Fig. 1 and Fig. 8, be stone material or floor tile or vitrified tile.

In the described new wind air supply duct system shown in Fig. 1, Fig. 8, Figure 10 and Figure 11, from outdoor air inlet, to indoor air outlet, by air purifier 31, heat exchange recover 32, ajutage 34, air outlet 35, heat exchange recover 36, air outlet 37 and air-supply main 38, formed successively;

Described air purifier 31 is for being built-in with electrostatic precipitation sterilization, electronic air cleaner capable of releasing negative ion or being built-in with the air purifier of active carbon high-efficiency filtering and purifying device, or for being built-in with the pressure fan of triple or twofold filter; Or combined by fresh air purifying case and the new blower fan of triple PM2.5 filtration equipment for clarifying; Described air purifier or new blower fan can be chosen to be box type fan or central self-balancing blower fan or pipeline fan according to the needs of house type and the laying of air-supply pipe-line system;

Described air outlet 35, for being built-in with low power silent blower fan, only, for the use of single room indoor air circulation or air-supply at night, now, is not opened air purifier 31, can finely play energy-conserving action.

At Fig. 1, Fig. 8, described ground dehumidifying exhaust system shown in Figure 10 and Figure 11 is by air inlet 39, air intake standpipe 310, , air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", air draft bend pipe 311, discharge hose 312, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe return only valve 313 ', air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319 form,

Described air inlet 39, is built-in with net sheet, air door and exhaust blower.

At Fig. 1, Fig. 8, described indoor exhaust wind pipe-line system shown in Figure 10 and Figure 11 is by return air inlet 320, air draft main 321, air draft main motor-driven valve 322, the directly outside pipe-line system of air draft and by air exhaust branch pipe 323 that exhaust blower 318 and exhaust outlet 319 forms, air exhaust branch pipe straight-through valve 323 ', heat exchange recover 36, air exhaust branch pipe threeway 314 ' and 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317, return air heat recovery channel system two parts that exhaust blower 318 and exhaust outlet 319 form form,

Described air exhaust branch pipe 317 two ends are connected with air exhaust branch pipe threeway 316 and air draft main motor-driven valve 322 front ends respectively.

At the described heat exchange recover 32 shown in Fig. 1, Fig. 8, Figure 10 and Figure 12, heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, consist of, described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is mended core 32-4 through heat exchange air intake sleeve pipe 32-1 top and is connected with air exhaust branch pipe 313; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway mouth of pipe 32-5 and air draft bend pipe 311, and upper and lower both sides are preset with respectively interface 32-6,32-6 ' and the 32-7 joining with heat exchange recover 36, ajutage 34 and air-supply main 38; Described heat exchanger 32 can, according to room area size, decoration and the actual needs ventilating, arrange one or more; Can be located at the place, corner in room, also can be located at 1/3～1/2 position of metope;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

At the described heat exchange recover 36 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 13, heat exchange air intake sleeve pipe 36-1, the heat exchange exhaust duct 36-2 and the sleeve outer wall thermal insulating 36-3 that are placed in sleeve pipe, consist of, described heat exchange exhaust duct 36-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 36-2 left end is mended core 36-4 through the threeway of heat exchange air intake sleeve pipe 36-1 left end top and is connected with air exhaust branch pipe threeway 314, and is provided with at left end the docking port 36-5 being connected with heat exchange recover 32 interface 32-6; Described heat exchange exhaust duct 36-2 right-hand member is through heat exchange air intake sleeve pipe 36-1 right-hand member three through hole 36-6 and air exhaust branch pipe straight-through valve 323 ' join, and is provided with and the joining docking port 36-7 of air outlet 37; Described heat exchanger 36 can arrange one or more according to room area size;

Described heat exchange air intake sleeve pipe 36-1, is assembled by Φ 110mm～Φ 300mm plastic round tube or metal circular tube.

At the described ventilation and air conditioning system shown in Fig. 1, Fig. 8, Figure 10 and Figure 11, there are following two kinds of air conditioner operational modes:

One, air conditioner pattern, this pattern can be divided into again following two kinds:

1, indoor changes in temperature air draught air conditioning mode, in winter severe cold season or heat in summer sky, for avoiding causing air conditioning energy consumption to strengthen into new wind, especially in the time of just start, and the air purifier 31 of not opening of taking enters new wind from open air, just the circularly purifying of room air filters the pattern of air conditioner;

This pattern is by Intelligent electronic control system or manual-lock air purifier 31 and air draft main motor-driven valve 322, open the built-in pressure fan of air outlet 35, the interior exhaust blower of air inlet 39 and exhaust blower 318, now, under the wind-force effect of exhaust blower, make room air, from air inlet 39, enter, by air intake standpipe 310 and air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, send in the heat exchange exhaust duct 32-2 of heat exchange recover 32, via air exhaust branch pipe 313, air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317, exhaust blower 318 and exhaust outlet 319, in floor when just starting shooting, hot gas and moisture or cold air drain into outdoor, can play dehumidifying, accelerate the regulating action of room air, and the humiture value that produces dewfall condensed water of avoiding presetting by temperature and humidity controller is controlled exhaust blower opening and closing automatically.Simultaneously, under the effect of the built-in pressure fan wind-force of air outlet 35, room air flows into from air outlet 37, through heat exchange recover 36 and heat exchange recover 32, the cold air or the heating installation that in grounding heat coil tube, flow into heat exchange recover 32 are sent into indoor by pressure fan 35 air outlets, to indoor when carrying out auxiliary heating cooling air conditioner, also room air is played the effect of good sterilization, high-efficient purification filtration, and, also guaranteed that indoor changes in temperature air does not outwards run off, really reached energy-conservation, high-efficiency air-condition, purify air and comfortable object.

2, fresh air conditioner pattern:

This pattern is by when entering indoor new wind and carry out PM2.5 purification filtering, also indoor foul atmosphere is drained into outdoor after heat exchange recover fully reclaims airborne waste heat, thereby reduce the energy consumption of air conditioner, and reach not open a window and also can breathe clean ozone, healthy comfortable object.

This pattern is by Intelligent electronic control system or manual-lock air draft main motor-driven valve 322 and the built-in pressure fan of air outlet 35; Open air purifier 31, air exhaust branch pipe straight-through valve 323 ', exhaust blower 318 and the interior exhaust blower of air inlet 39, now, new wind enters new wind air supply duct after purifying, and after flow through respectively heat exchange recover 32 and heat exchange recover 36 through cold and hot exchange, waste heat in air draft or low-temperature receiver are fully reclaimed, through the built-in pressure fan of air outlet 35 and air outlet 37, send indoor room to respectively, and play the effect of auxiliary heating cooling.Simultaneously, under exhaust blower air draft effect, return air divides two-way, a road from air inlet 39, air intake standpipe 310, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 and exhaust outlet 319 drain into open air; Another route return air inlet 320 enters, through air draft main 321, air exhaust branch pipe 323, carry out after heat exchange through heat exchange recover 36, the air exhaust branch pipe threeway 314 of flowing through, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 and exhaust outlet 319 drain into outdoor.

Two, non-heating cooling air conditioner in season pattern

This pattern be by Intelligent electronic control system or the built-in pressure fan of manual-lock air outlet 35, the interior exhaust blower of air inlet 39, air exhaust branch pipe straight-through valve 323 '; Open air purifier 31, air draft main motor-driven valve 322 and exhaust blower 318, now, new wind enters new wind air supply duct after purifying, and respectively by heat exchange recover 32 and heat exchange recover 36, through air outlet 35 and air outlet 37, sends into indoor.Simultaneously, under exhaust blower 318 air draft effects, indoor foul smell is entered by return air inlet 320, harmful foul smells such as the formaldehyde directly indoor furniture etc. being discharged through air draft main 321 and exhaust outlet 319, radon drain into outdoor, to reach PM2.5 purification filtering, do not open a window and can breathe clean ozone, healthy comfortable object yet.

In the described new wind air supply duct system shown in Fig. 1, Fig. 8, Figure 10 and Figure 14, from outdoor air inlet to indoor air outlet successively by new wind air inlet 31 ', blast pipe return only valve 31A, air purifier 31B, new blower fan 31 ", heat exchange recover 32, ajutage 34, air outlet 35, heat exchange recover 36, air outlet 37 and air-supply main 38 form;

At Fig. 1, Fig. 8, described ground dehumidifying exhaust system shown in Figure 10 and Figure 14 is by air inlet 39, air intake standpipe 310, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32, air exhaust branch pipe 313, air exhaust branch pipe return only valve 313 ', air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ', exhaust blower 318 ' and exhaust outlet 319 ' formation, described air inlet 39, is built-in with net sheet, air door and exhaust blower,

At Fig. 1, Fig. 8, described indoor exhaust wind pipe-line system shown in Figure 10 and Figure 14 is by return air inlet 320, air draft main 321, exhaust blower 318, return air duct straight-through valve 3H, return air duct 3H ', air draft main straight-through valve 322 ' and the indoor room that forms of exhaust outlet 319 is in line and straight gyrus pipe-line system, and by air exhaust branch pipe 323, air exhaust branch pipe straight-through valve 323 ', heat exchange recover 36, air exhaust branch pipe threeway 314 ' and 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ', exhaust blower 318 ' and return air heat recovery channel system two parts of exhaust outlet 319 ' formation form,

Described air purifier 31B is for being built-in with electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or for being built-in with triple effective filters.

At the described air-supply main 38 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14, are the air-supply mains for other room air-supply; To be formed by air supply duct 38-1 and pipeline outer wall insulating tube 38-2; Described air supply duct 38-1 adopts plastic tube or the metal tube of Φ 110mm～Φ 300mm circle or rectangle to make.

At the described heat exchange exhaust duct 32-2 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14, also can pass from heat exchange air intake sleeve pipe 32-1 side, be arranged on heat exchange recover 36 belows, and dock with the air exhaust branch pipe 313 that is arranged on heat exchange recover 36 belows.

At the described air exhaust branch pipe 313 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14, by exhaust duct and outer insulating tube, formed, described air exhaust branch pipe 313 and the air exhaust branch pipe joining with it return valve 313 only ', air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe 315 ', the air exhaust branch pipe in the ground dehumidifying exhaust system such as air exhaust branch pipe threeway 316 and air exhaust branch pipe 317 all can be arranged on heat exchange recover 36 belows, and dock with the heat exchange exhaust duct 32-2 that is arranged on heat exchange recover 36 belows.

The described air exhaust branch pipe 315 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14 ', be to adopt the plastic tube of Φ 50mm～Φ 110mm circle or rectangle or the air exhaust branch pipe for adjacent room or kitchen, toilet and ground dehumidifying air draft that metal tube is made;

At the described air draft main 321 shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14, be to adopt the circle of Φ 110mm～Φ 300mm or the plastic tube of rectangle or metal tube or aluminium foil extruded polystyrene hvac duct to make.

At the described return air inlet shown in Fig. 1, Fig. 8, Figure 10, Figure 11 and Figure 14, both the side of furred ceiling sunk panel can be installed, also can be located at vertically downward furred ceiling end face, the quantity of described return air inlet and exhaust air rate size, be according to room area size and not the needs of chummery exhaust air rate arrange;

At the described ventilation and air conditioning system shown in Fig. 1, Fig. 8, Figure 10 and Figure 14, there are following two kinds of air conditioner operational modes:

One, air conditioner pattern, this pattern can be divided into again following two kinds:

1, indoor changes in temperature air draught air conditioning mode, in winter severe cold season or heat in summer sky, for avoiding causing air conditioning energy consumption to strengthen into new wind, especially in the time of just start, and take a kind ofly from open air, do not enter new wind, just the circularly purifying of room air filters the pattern of air conditioner;

This pattern be by Intelligent electronic control system or manual-lock air draft main straight-through valve 322 ' and air exhaust branch pipe straight-through valve 323 ', open air purifier 31B, new blower fan 31 ", air outlet 35 and 37, exhaust blower 318 ' and the interior exhaust blower of air inlet 39, now, under the wind-force effect of exhaust blower, make room air, from air inlet 39, enter, by air intake standpipe 311 and air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, sends in the heat exchange exhaust duct 32-2 of heat exchange recover 32, via air exhaust branch pipe 313, air exhaust branch pipe threeway 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ', exhaust blower 318 ' and exhaust outlet 319 ', in the floor when just starting shooting, hot gas and moisture or cold air drain into outdoorly, can play dehumidifying, accelerate the regulating action of room air, and the humiture value that produces dewfall condensed water of avoiding presetting by temperature and humidity controller is controlled exhaust blower opening and closing automatically.Simultaneously, at new blower fan 31, " and under the wind-force effect of exhaust blower 318; room air flows into from return air inlet 320; through air draft main 321, exhaust blower 318, return air duct straight-through valve 3H, return air duct 3H ', air purifier 31B, new blower fan 31 ", heat exchange recover 32 and 36, ajutage 34, air outlet 35 and 37 and air-supply main 38, will send into room through the indoor cleaning air of air purifier 31B purified treatment; And through heat exchange recover 32, the cold air in grounding heat coil tube or heating installation are sent into indoor; To indoor when assisting cooling heating-ventilation-air-conditioning, also room air is played the effect of good sterilization, high-efficient purification filtration, and, also guaranteed that indoor changes in temperature air does not outwards run off, really reach energy-conservation, high-efficiency air-condition, purify air and comfortable object.

2, fresh air conditioner pattern:

This pattern is by when entering indoor new wind and carry out PM2.5 purification filtering, also indoor foul atmosphere is drained into outdoor after heat exchange recover fully reclaims airborne waste heat, thereby reduce the energy consumption of air conditioner, and reach not open a window and also can breathe clean ozone, healthy comfortable object.

This pattern be by Intelligent electronic control system or manual-lock air draft main straight-through valve 322 ', return air duct straight-through valve 3H and exhaust blower 318; Open air purifier 31B, new blower fan 31 ", air outlet 35A and 37, air exhaust branch pipe straight-through valve 323 ', exhaust blower 318 ' and interior exhaust blower of air inlet 39; now; new wind is by new wind air inlet 31 ' inflows; through air purifier 31B and heat exchange recover 32, in the new wind after filtration, purification is processed and floor, air-conditioning is sent into indoor through air outlet 35, air outlet 36 and the main 38 of blowing respectively; Simultaneously, under exhaust blower air draft effect, return air divides two-way, one tunnel from air inlet 39, air intake standpipe 310, air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, heat exchange recover 32, air exhaust branch pipe 313, wind arm threeway 314, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ' and exhaust outlet 319 ' drain into open air; Another route return air inlet 320 enters, through air draft main 321, air exhaust branch pipe 323, carry out after heat exchange through heat exchange recover 36, the air exhaust branch pipe threeway 314 of flowing through, air exhaust branch pipe 315, air exhaust branch pipe threeway 316, air exhaust branch pipe 317 ' and exhaust outlet 319 ' drain into outdoor.

Two, non-heating cooling air conditioner in season pattern

This pattern be by Intelligent electronic control system or manual-lock air exhaust branch pipe straight-through valve 323 ', return air duct straight-through valve 3H, exhaust blower 318 ' and interior exhaust blower of air inlet 39; Open air purifier 31B, new blower fan 31 ", air outlet 35 and 37, air draft main straight-through valve 322 ' and exhaust blower 318; now; new wind is by new wind air inlet 31 ' inflows; through air purifier 31B and heat exchange recover 32, after filtration, purification is processed new wind respectively through air outlet 35 and 37 and the main 38 of blowing send into indoor; Meanwhile, under exhaust blower 318 air draft effects, indoor foul smell is entered by return air inlet 320, through air draft main 321 and exhaust outlet 319, directly indoor harmful foul smell is drained into outdoor, to reach PM2.5 purification filtering, do not open a window and can breathe clean ozone yet, avoided outdoor noise pollution; Healthy comfortable.

At the described ventilation and air conditioning system shown in Fig. 5, Figure 15 and Figure 16, it is the bidirectional flow recuperation of heat ventilation and air conditioning system without furred ceiling pipeline being formed by fresh air conditioner system, recuperation of heat ventilation and air conditioning system and ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG.

Described fresh air conditioner system, by indoor air inlet 325, heat exchange recover 32 ', ajutage 34, new wind air-intaker 34A, air purifier 35B and air guide hole 35A form;

Described indoor air inlet 325, is built-in with primary efficient filter screen sheet, can be set to as required the exhaust blower with air door, when only needing indoor air circulation, can open air door, opens exhaust blower and directly to air guide hole 35A, blows;

Described air purifier 35B is for having electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or for being built-in with the pressure fan of triple high efficiency filters or double medium air filtration device, or combine with fresh air purifying case and the new blower fan with triple PM2.5 purification filterings or double medium air filtration device, or only for being built-in with the fresh air purifying case of triple high efficiency filters or double medium air filtration device;

Described ground dehumidifying exhaust system be by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ', exhaust duct 313A and exhaust outlet 313B form;

Described air inlet 39 ' be built-in with small silent exhaust blower;

Described exhaust outlet 313B is built-in with small silent exhaust blower;

Described new wind air-intaker 34A is built-in with Electric air valve or manual air-valve, only, when need enter new wind, just opens new wind air-intaker 34A.

The described heat exchange recover 32 shown in Fig. 5 and Figure 15～Figure 17 ', heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, consist of, described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is connected with exhaust duct 313A through heat exchange air intake sleeve pipe 32-1 upper end threeway top ports 32-4; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway top ports 32-5 and air draft bend pipe 311, and upper and lower both sides are preset with respectively interface 32-6 and the 32-7 joining with indoor air inlet 325 and ajutage 34; Described heat exchanger 32 ' can, according to room area size, decoration and the actual needs ventilating, one or more be set; Can be located at the place, corner in room, also can be located at 1/3～1/2 position of metope;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

At the recuperation of heat ventilation and air conditioning system shown in Figure 15 and Figure 18, heat exchange air intake sleeve pipe 36 '-1, heat exchange exhaust duct 36 '-2 and sleeve outer wall thermal insulating 36 '-3 that are placed in sleeve pipe, consist of, described heat exchange exhaust duct 36 '-2 are made by Φ 50mm～Φ 100mm metal tube; Smoke exhaust 36 ' a that core 36 '-A and kitchen are mended through heat exchange air intake sleeve pipe 36 '-1 one end in one end, described heat exchange exhaust duct 36 '-2 joins; And being provided with four-way near mending core 36 '-A mono-side, this four-way mouth of pipe 36 '-B is the interface joining for the new wind air outlet 37-A with bedroom or parlor; Described heat exchange exhaust duct 36 '-2 are mended core mouth 36 '-B ' through this four-way and are joined with the return air fan 36 ' b of kitchen or toilet; The exhaust outlet 319A that the other end of described heat exchange exhaust duct 36 '-2 is mended on core 36 '-C and window or exterior wall through the other end threeway of heat exchange air intake sleeve pipe 36 '-1 joins; The another port 36 '-D that mends core mouth 36 '-C near threeway be for window or exterior wall on the new wind interface that joins of air purifier 35B '.

At the described ventilation and air conditioning system shown in Fig. 5 and Figure 15～Figure 18, there are following two kinds of air conditioner operational modes:

One, the air conditioner pattern of season of summer and winter, this pattern can be divided into again following two kinds:

1, indoor changes in temperature air draught air conditioning mode, in winter severe cold season or heat in summer sky, for avoiding causing air conditioning energy consumption to strengthen into new wind, especially when just start, and take a kind ofly from open air, do not enter new wind, just the circularly purifying of room air filters the pattern of air conditioner;

This pattern is by return air fan 36 ' b and the air purifier 35B ' of Intelligent electronic control system or the new wind air-intaker of manual-lock 34A, kitchen or toilet, open indoor air inlet 325, air purifier 35B, enter/exhaust outlet 39 ' and built-in exhaust blower of 313B, now, under the wind-force effect of air purifier 35B or indoor air inlet 325 inner blowers, indoor foul smell is entered from indoor air inlet 325, through heat exchange recover 32 ', ajutage 34, air purifier 35B and air guide hole 35A send into indoorly, and the air-conditioning in grounding heat coil tube is being sent into indoor, to indoor when carrying out auxiliary heating cooling air conditioner, also indoor foul smell is played the effect of good sterilization, high-efficient purification filtration, and, also guaranteed that indoor changes in temperature air does not outwards run off, really reach energy-conservation, high-efficiency air-condition, purify air and comfortable object, simultaneously, enter/exhaust outlet 39 ' and 313B under the wind-force effect of exhaust blower, indoor foul smell is from air inlet 39 ' enter, by air intake standpipe 310 ', air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, send into heat exchange recover 32 ' heat exchange exhaust duct 32-2 in, via exhaust duct 313A and exhaust outlet 313B, drain into outdoor, in floor when just starting shooting, hot gas and moisture or cold air drain into outdoor, can play the regulating action that dehumidifies and accelerate room air, and avoiding of presetting by the temperature and humidity controller humiture value that produces dewfall condensed water automatically control into/exhaust outlet 39 ' and 313B in the opening and closing of exhaust blower.

2, fresh air conditioner pattern:

This pattern is by when entering indoor new wind and carry out PM2.5 purification filtering, also indoor foul atmosphere is drained into outdoor after heat exchange recover fully reclaims airborne waste heat, thereby reduce the energy consumption of air conditioner, and reach not open a window and also can breathe clean ozone, healthy comfortable object.

This pattern is by Intelligent electronic control system or manual-lock or crack indoor air inlet 325; Open the return air fan 36 ' b of new wind air-intaker 34A, air purifier 35B and 35B ', kitchen or toilet and enter/exhaust outlet 39 ' and built-in exhaust blower of 313B, now, under the wind-force effect of air purifier 35B, new wind and room air flow into from new wind air-intaker 34A and indoor air inlet 325 respectively, through heat exchange recover 32 ' and air purifier 35B, after purified treatment, in new wind and indoor foul smell and floor, air-conditioning is sent into indoor through ajutage 34 and air guide hole 35A after filtration; Simultaneously, enter/exhaust outlet 39 ' and the wind-force effect of the built-in exhaust blower of 313B under, indoor foul smell is from air inlet 39 ' enter, by air intake standpipe 310 ', air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after; through discharge hose 312, air draft bend pipe 311; send into heat exchange recover 32 ' heat exchange exhaust duct 32-2 in; the indoor foul smell by after cold and hot exchange is reclaimed, drains into outdoor via exhaust duct 313A and exhaust outlet 313B.In addition, under the wind-force effect of the return air fan 36 ' b of smoke exhaust 36 ' a and kitchen or toilet, indoor toilets and kitchen fume and foul smell through heat exchange exhaust duct 36 '-2 and recuperation of heat ventilation and air conditioning system 36 ' carry out after heat exchange, through exhaust outlet 319A, drain into outdoor, simultaneously, the new wind of another part is by after air purifier 35B ' purified treatment, after recuperation of heat ventilation and air conditioning system 36 ' cold and hot exchange, from air-supply interface 36 '-B and new wind air outlet 37-A, send into bedroom or parlor, and form new wind from bedroom and parlor flows to, under the return air fan 36 ' b of kitchen or toilet air draft effect, the indoor foul atmosphere that is flow into kitchen and toilet by bedroom and parlor is drained into outdoor bidirectional flow recuperation of heat ventilation and air conditioning system

Two, non-heating cooling air conditioner in season pattern

This pattern is by Intelligent electronic control system or manual-lock indoor air inlet 325 and enter/exhaust outlet 39 ' and built-in exhaust blower of 313B, open the return air fan 36 ' b of new wind air-intaker 34A, air purifier 35B and 35B ' and kitchen or toilet, now, under the wind-force effect of air purifier 35B, new wind flows into from new wind air-intaker 34A, after air purifier 35B filtration, purification is processed, new wind is sent into indoor from air outlet 35A, simultaneously, under the wind-force effect of the return air fan 36 ' b of smoke exhaust 36 ' a and kitchen or toilet, indoor toilets and kitchen fume and foul smell drain into outdoor through heat exchange exhaust duct 36 '-2 and exhaust outlet 319A, in addition, the new wind of another part is by after air purifier 36B ' purified treatment, from recuperation of heat ventilation and air conditioning system 36 ' air-supply interface 36 '-B and new wind air outlet 37-A send into bedroom or parlor, and form new wind from bedroom and parlor flows to, under the return air fan 36 ' b of kitchen and toilet air draft effect, the indoor foul atmosphere that is flow into kitchen and toilet by bedroom and parlor is drained into outdoor, to reach PM2.5 purification filtering, do not open a window and can breathe clean ozone yet, healthy comfortable object.

The described ventilation and air conditioning system going out at Figure 15 and Figure 19, by indoor air inlet 325 ', the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline of new wind air-intaker 34A ', control valve 34AF, heat exchange recover 32 ", ajutage 34, recuperation of heat purifying fresh air rack 35B ", ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG formation;

Described recuperation of heat purifying fresh air rack 35B " for being built-in with multiple filtration, electrostatic precipitation sterilization, electronic air cleaning function capable of releasing negative ion and sending and heat recovery function; described recuperation of heat purifying fresh air rack 35B " also has by exhaust duct 35B "-1 and will drain into outdoor air-exhausting function after the waste heat recovery in room air; or only for being built-in with multiple PM2.5 high-efficient purification filter, and there is supply and exhaust and heat recovery function;

Described ground dehumidifying exhaust system be by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ", exhaust duct 313A ' and exhaust outlet 313B ' formation.

At the described ventilation and air conditioning system shown in Figure 15, Figure 17, Figure 18 and Figure 20, be by the indoor air-conditioning system that is arranged at parlor and bedroom, ground dehumidifying exhaust system, window formula fresh air purifying blower fan 31C and be installed in kitchen or the recuperation of heat ventilation and air conditioning system 36 of toilet ' and the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline that forms of feigned column JZ and decorating cabinet JG; New wind is sent into parlor and bedroom after processing by window formula fresh air purifying blower fan 31C filtration, purification, and form new wind from parlor and bedroom flows to, under the return air fan 36 ' b of kitchen or toilet air draft effect, the indoor foul atmosphere that is flow into kitchen or toilet by parlor and bedroom is drained into outdoor, with reach do not open a window yet can ventilation, breathe new wind action.

Described indoor air-conditioning system, by indoor air inlet 325, heat exchange recover 32 ', ajutage 34 and air outlet 35C form the above ventilation and air conditioning system in floor and by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', air draft main 5 ", auxiliary heating cooling pipe-line system two parts formation in the floor that forms of ajutage 5B-1, control valve 5B-2, air-supply three-way pipe 34S and air outlet 35C;

Described indoor air inlet 325, be built-in with primary efficient filter screen sheet and exhaust blower, when only needing indoor air circulation, can open built-in exhaust blower, directly to air outlet 35C, blow, and under this wind-force effect, impel indoor air circulation circulation, simultaneously by heat exchange recover 32 ' in cold/heating installation sends, and promotes ground cooling heating and air conditioner effect;

Described window formula fresh air purifying blower fan 31C is the electronic air cleaner that is arranged on the plasma generator device that is built-in with PM2.5 high efficiency filter+have virus killing effect on window, or there is electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or only for being built-in with the new blower fan of triple high efficiency filters; Described window formula fresh air purifying blower fan 31C also comprises the new wind self-balancing of employing window formula air-intaker;

Described ground dehumidifying exhaust system be by air inlet 39 ', air intake standpipe 310 ', air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ', exhaust duct 313A and exhaust outlet 313B form;

Described air inlet 39 ' be built-in with screen pack and small silent exhaust blower;

Described exhaust outlet 313B is built-in with screen pack and small silent exhaust blower.

At the described ventilation and air conditioning system shown in Figure 15 and Figure 21, it is the recuperation of heat ventilation and air conditioning system forming by being arranged at indoor air-conditioning system, ground dehumidifying exhaust system and feigned column JZ and decorating cabinet JG;

Described indoor air-conditioning system, by indoor air inlet 325 ', new wind air-intaker 34A ', control valve 34AF, heat exchange recover 32 ", the above ventilation and air conditioning system in floor of ajutage 34 and air purifier 35X ' formations and by air inlet 39a, enter air draft threeway 39b, air intake standpipe control valve 310a, air intake standpipe 310b, air intake main 5, air intake arm 5 ', air draft main 5 ", auxiliary heating cooling pipe-line system two parts formation in the floor that forms of ajutage 5B-1, control valve 5B-2, blow three-way pipe 34S and air purifier 35X ';

Described indoor air outlet 325 ', be built-in with primary efficient filter screen sheet and air door, when only needing indoor air circulation, can open air door, under the effect of air purifier 35X ' wind-force, impel indoor air circulation circulation, simultaneously by heat exchange recover 32 " in air-conditioning send; promote ground cooling heating and air conditioner effect, and make room air be purified processing through air purifier 35X ';

Described air purifier 35X ' by the direct shell of the round concentric reducer of plastics, be placed in PM2.5 high efficiency particulate air in shell or medium air filtration net and quiet blower fan and form, described air purifier 35X ' comprises adopting to have electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or combine with fresh air purifying case and the new blower fan with triple PM2.5 filtration equipment for clarifying.

Described ground dehumidifying exhaust system is by air inlet 39a, enter air draft threeway 39b, control valve 39c, only return valve 39d, exhaust outlet 39e, air intake standpipe control valve 310a, air intake standpipe 310b, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", discharge hose 312, air draft bend pipe 311, heat exchange recover 32 ", exhaust duct 313A ' and exhaust outlet 313B ' formation;

Described air inlet 39a is built-in with small silent exhaust blower;

Described exhaust outlet 313B ' is built-in with small silent exhaust blower and returns only valve.

At the described heat exchange recover 32 shown in Figure 19, Figure 21 and Figure 22 "; heat exchange air intake sleeve pipe 32-1, the heat exchange exhaust duct 32-2 and the sleeve outer wall thermal insulating 32-3 that are placed in sleeve pipe, consist of, described heat exchange exhaust duct 32-2 is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct 32-2 upper end is connected with exhaust duct 313A ' through right angle, heat exchange air intake sleeve pipe 32-1 upper end four-way port 32-4 '; Described heat exchange exhaust duct 32-2 lower end joins through heat exchange air intake sleeve pipe 32-1 lower end threeway top ports 32-5 and air draft bend pipe 311, described heat exchange air intake sleeve pipe 32-1 upper end right angle four-way port 32-6 ' and 32-6 " respectively with indoor air inlet 325 ' join with control valve 34AF; Described heat exchange air intake sleeve pipe 32-1 lower end threeway side ports 32-7 and ajutage 34 join; Described heat exchange recover 32 " can, according to room area size, decoration and the actual needs ventilating, arrange one or more; Can be located at the place, corner in room, also can be located at 1/3～1/2 position of metope;

Described heat exchange air intake sleeve pipe 32-1 adopts Φ 110mm～Φ 300mm plastic tube or metal tube to assemble.

The described air intake main 5 shown in Figure 20, Figure 21 and Figure 23, air intake arm 5 ' and air draft main 5 " all adopt 25mm * 80mm or 30mm * 80-180mm or 40mm * 120-200mm rectangular metal or plastic bilateral airduct 5A and 5B; described bilateral airduct 5A is the enter/air draft ventilation shaft for dehumidifying and strengthening conducting heat; two ends respectively with air intake standpipe 310 ' be connected with discharge hose 312, and in the side towards grounding heat coil tube, be preset with the air vent 33-1 of Φ 15mm～Φ 30mm; Described bilateral airduct 5B, be exclusively used in by floor cold/heating installation is sent into indoorly, plays the effect of auxiliary heating cooling, the two ends of described bilateral airduct 5B respectively with air intake standpipe 310 ' be connected with ajutage 5B-1.

The described air intake main 5 shown in Figure 20, Figure 21 and Figure 23, air intake arm 5 ' and air draft main 5 "; comprise the bilateral airduct 5A and the 5B that adopt two 25mm * 40mm or 30mm * 60-80mm or 40mm * 60-100mm metal or plastic rectangular tube to be put together, described bilateral airduct 5A is preset with the air vent 33-1 of Φ 15mm～Φ 30mm towards a side of grounding heat coil tube.

At the described ventilation and air conditioning system shown in Figure 15 and Figure 21, there are following two kinds of air conditioner operational modes:

One, the air conditioner pattern of season of summer and winter, this pattern can be divided into again following two kinds:

1, indoor changes in temperature air draught air conditioning mode, in winter severe cold season or heat in summer sky, for avoiding causing air conditioning energy consumption to strengthen into new wind, especially when just start, and take a kind ofly from open air, do not enter new wind, just the circularly purifying of room air filters the pattern of air conditioner;

This pattern is by Intelligent electronic control system or manual-lock control valve 39c and 34AF, open air purifier 35X ', air intake standpipe control valve 310a, control valve 5B-2, enter/exhaust outlet 39a and the built-in exhaust blower of 313B ', now, under the wind-force effect of air purifier 35X ', the indoor foul smell of a part is from indoor air outlet 325 ' enter, through heat exchange recover 32 ", ajutage 34, air purifier 35X ' send into indoorly, and the air-conditioning in grounding heat coil tube is being sent into indoor, to indoor when carrying out auxiliary heating cooling air conditioner, also indoor foul smell is played the effect of good sterilization, high-efficient purification filtration, and, also guaranteed that indoor changes in temperature air does not outwards run off, really reach energy-conservation, high-efficiency air-condition, purify air and comfortable object, simultaneously, under the wind-force effect of enter/exhaust outlet 39a and the interior exhaust blower of 313B ' and air purifier 35X ', the indoor foul smell of another part enters from air inlet 39a, by air intake standpipe 310b, one tunnel through air intake main 5 and air intake arm 5 ' the air vent 33-1 of metal rectangle bilateral processed airduct 5A, branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, send into heat exchange recover 32 " heat exchange exhaust duct 32-2 in, via exhaust duct 313A ' and exhaust outlet 313B ', drain into outdoor, in floor when just starting shooting, hot gas and moisture or cold air drain into outdoor, can play the regulating action that dehumidifies and accelerate room air, and avoiding of presetting by the temperature and humidity controller humiture value that produces dewfall condensed water is controlled automatically into the opening and closing of/exhaust outlet 39a and the interior exhaust blower of 313B ', another road through air intake main 5, air intake arm 5 ' and air draft main 5 " metal rectangle bilateral processed airduct 5B, ajutage 5B-1 and air-supply three-way pipe 34S, and after air purifier 35X ' purified treatment, the cold air in floor or heating installation are delivered to indoor, can play the effect of good auxiliary heating cooling.

2, fresh air conditioner pattern:

This pattern is by when entering indoor new wind and carry out PM2.5 purification filtering, also indoor foul atmosphere is drained into outdoor after heat exchange recover fully reclaims airborne waste heat, thereby reduce the energy consumption of air conditioner, and reach not open a window and also can breathe clean ozone, healthy comfortable object.

This pattern is by Intelligent electronic control system or manual-lock volume damper 39c, open air purifier 35X ', air intake standpipe control valve 310a, control valve 5B-2 and 34AF, enter/exhaust outlet 39a and the built-in exhaust blower of 313B ', now, under the wind-force effect of air purifier 35X ', when new wind enters from new wind air-intaker 34A ', the indoor foul smell of a part is also from indoor air outlet 325 ' enter, through heat exchange recover 32 ", ajutage 34, air purifier 35X ' send into indoorly, and the air-conditioning in grounding heat coil tube sent into indoor; To indoor, when carrying out auxiliary heating cooling air conditioner, also the waste heat in air draft well can be recycled; New wind and indoor foul smell are played to the effect that good sterilization, high-efficient purification are filtered, and reaching does not window also can breathe clean new wind, energy-conservation, high-efficiency air-condition, the object purifying air;

Simultaneously, under the wind-force effect of enter/exhaust outlet 39a and the interior exhaust blower of 313B ' and air purifier 35X ', the indoor foul smell of another part enters from air inlet 39a, by air intake standpipe 310b, one tunnel through air intake main 5 and air intake arm 5 ' the air vent 33-1 of metal rectangle bilateral processed airduct 5A, branch to cavity ventilation shaft 33 and precast combined heat preservation module body 2 and moistureproof heat-conducting layer 4 ' between, and collect air draft main 5 " after, through discharge hose 312, air draft bend pipe 311, send into heat exchange recover 32 " heat exchange exhaust duct 32-2 in, via exhaust duct 313A ' and exhaust outlet 313B ', drain into outdoor, can play the regulating action that dehumidifies and accelerate room air, and avoiding of presetting by the temperature and humidity controller humiture value that produces dewfall is controlled automatically into the opening and closing of/exhaust outlet 39a and the interior exhaust blower of 313B ', another road through air intake main 5, air intake arm 5 ' and air draft main 5 " bilateral airduct 5B, ajutage 5B-1 and air-supply three-way pipe 34S, and after air purifier 35X ' purified treatment, the cold air in floor or heating installation are delivered to indoor, can play the effect of good auxiliary heating cooling.

Two, non-heating cooling air conditioner in season pattern

This pattern be by Intelligent electronic control system or manual-lock air intake standpipe control valve 310a, indoor air inlet 325 ', control valve 5B-2 and the built-in exhaust blower of exhaust outlet 313B '; Open exhaust blower, control valve 39c in control valve 34AF, air purifier 35X ', air inlet 39a, now, under the wind-force effect of air purifier 35X ', new wind is from the 34A ' inflow of new wind air-intaker, by heat exchange recover 32 ", ajutage 34, after air purifier 35X ' filtration, purification is processed, send into indoor; Meanwhile, in air inlet 39a, under the wind-force effect of exhaust blower, indoor foul smell directly drains into outdoor by exhaust outlet 39e, to reach not open a window, also can breathe clean fresh new wind, healthy comfortable object.This ventilation and air conditioning system takes up room less, and easy construction is applicable to be arranged on the cubicle without window, as bedroom, toilet and kitchen.

At the described ventilation and air conditioning system shown in Figure 15, be only the plane of making in order to show multiple multi-form ventilation and air conditioning system, but preferential in actual design engineering what adopt is can fine recycling and from window, enter the described ventilation and air conditioning system of new wind at the air exhaust waste heat shown in Figure 15, Figure 17, Figure 18 and Figure 20～Figure 22.

At the described ventilation and air conditioning system shown in Fig. 6 and Figure 24, by air inlet 31 ' a, air intake standpipe 310A, air intake main 5, air intake arm 5 ', cavity ventilation shaft 33, air draft main 5 ", air draft standpipe 32A, new wind intake stack 371, exhaust duct 372, heat exchanging ventilator controller 35H, return air inlet 312a, backwind tube 312a ', new wind ajutage 313a, air outlet 314a, false beam JL and feigned column JZ form; The Exchange of apparent heat that described heat exchanging ventilator controller 35H is air cleaner or full heat exchange ventilation controller, described heat exchanging ventilator controller 35H both can be arranged in furred ceiling, also can be mounted on interior wall.

The operation principle of described dehumidifying air-conditioning system is, under the effect of Exchange of apparent heat ventilation equipment controller 35H, indoor a part of foul smell flows into air intake standpipe 310A from air inlet 31 ' a, and through air intake main 5, air intake arm 5 ', branch to cavity ventilation shaft 33, through air draft main 5 ", air draft standpipe 32A, return air is to Exchange of apparent heat ventilation equipment controller 35H, through carrying out heat exchange with new wind, after return air residual heat reclaims, through exhaust duct 372, be discharged to outdoor, and carry out regulating floor temperature and humidity by temperature and humidity controller, reach dehumidification and temperature adjustment object, simultaneously, the more indoor foul smell of another part, by return air inlet 312a and backwind tube 312a ', return air is to Exchange of apparent heat ventilation equipment controller 35H, through carrying out heat exchange with new wind, after return air residual heat reclaims, through exhaust duct 372, be discharged to outdoor, meanwhile, outdoor new wind is through new wind intake stack 371, send in Exchange of apparent heat ventilation equipment controller 35H, carry out after heat exchange preheating with indoor return air, through new wind ajutage 313a and air outlet 314a, new wind after preheating is sent into indoor, reach the object that regulates room air.

Described air inlet 31 ' a and air draft standpipe 34A, return air inlet 312a and backwind tube 312a ', and new wind ajutage 313a and air outlet 314a, can arrange one or more according to room area size and room number.

Described air intake standpipe 310,310 ', 310a and 310A adopt Φ 50mm～Φ 110mm plastic tube or metal tube.

The described air intake main 5 shown in Fig. 1, Fig. 5, Fig. 6, Fig. 8, Figure 10, Figure 16, Figure 19 and Figure 25, air intake arm 5 ' and air draft main 5 " all adopt 25 * 40 30 * 60 or rectangular plastic wire casing or the tubing of 40 * 60-100mm make, and at rectangular plastic wire casing or tubing side, be preset with the air vent 33-1 of Φ 15mm～Φ 30mm.

Spacing at the described air vent 33-1 shown in Figure 22 and Figure 24 is 150mm or 200mm, and with the corresponding UNICOM of cavity ventilation shaft 33.

Described false beam JL, feigned column JZ, decorating cabinet JG and local furred ceiling sunk panel JD, the molding decorative plate being all prefabricated in the factory with aluminum veneer or plastics, forms by Assembling.

The present invention is not limited only to above several disclosed specific embodiment, and the technical scheme of the equal replacement of any employing in this area or equivalent transformation mode all should fall into protection scope of the present invention.

Claims (24)

1. a heat preservation module radiant heating cooling ground and ventilation and air conditioning system, it is characterized in that, it from bottom to top successively by screed-coat (1), polypropylene fiber waterproof coiled material layer (1-1), precast combined heat preservation module body (2), floor heating pipeline (3), air intake main (5), air intake arm (5 '), air draft main (5 "), moistureproof heat-conducting layer (4 '), bonding bed course (6) and ground decoration panel (7) or timber floor and ventilation and air conditioning system form; Described precast combined heat preservation module body (2), consists of adiabatic heat-insulation module (2-1) and waterproof operative connection layer (2-2); The upper surface of described adiabatic heat-insulation module (2-1), comprise that the surface of groove (2-3) is all wiped with the thick waterproof operative connection of one deck 3～6 layer (2-2); Described waterproof operative connection layer (2-2) consists of waterproof heat conduction adhesive mortar (2-2A) and glass fiber reticular cloth (2-2B); Described adiabatic heat-insulation module (2-1) comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam (JL), feigned column (JZ), decorating cabinet (JG) and local furred ceiling sunk panel (JD) the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

2. a heat preservation module radiant heating cooling ground and ventilation and air conditioning system, it is characterized in that, from bottom to top successively by water-proof leveling layer (1), rubber and plastic heat preservation and soundproof pad (1-2), precast combined heat preservation module body (2), floor heating pipeline (3), air intake main (5), air intake arm (5 '), air draft main (5 "), moistureproof heat-conducting layer (4 '), timber floor (8) or bonding bed course and ground decoration panel and ventilation and air conditioning system formation; Described precast combined heat preservation module body (2), consists of adiabatic heat-insulation module (2-1) and waterproof operative connection layer (2-2); The upper surface of described adiabatic heat-insulation module (2-1), comprise that the surface of groove (2-3) is all wiped with the thick waterproof operative connection of one deck 3～6 layer (2-2); Described waterproof operative connection layer (2-2) consists of waterproof heat conduction adhesive mortar (2-2A) and glass fiber reticular cloth (2-2B); Described adiabatic heat-insulation module (2-1) comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module;

Described moistureproof heat-conducting layer (4 ') is for being laid on floor heating pipeline 3, air intake main (5), air intake arm (5 ') and air draft main (0.02mm～0.4mm thick aluminum foil or aluminium sheet on 5 ").

3. heat preservation module radiant heating cooling ground as claimed in claim 1 or 2 and ventilation and air conditioning system, it is characterized in that, described waterproof heat conduction adhesive mortar (2-2A), to adopt to be by weight percentage: PO42.5 Portland cement: quartz sand (70-100 order): graphite powder (200 order): binding type high molecular nanometer rubber powder: hydroxypropyl methyl cellulose ether: silane waterproof powder=30～40%: 50～65%: 3～8%: 2～3%: 0.2～0.6%: the dry powder and mortar forming is stirred in 0.2～0.4% preparation, and by water: dry powder and mortar=0.20～0.25: 1 weight ratio stirs and forms.

4. a heat preservation module radiant heating cooling ground and ventilation and air conditioning system, it is characterized in that, from bottom to top successively by water-proof leveling layer (1), rubber and plastic heat preservation and soundproof pad (1-2), precast combined heat preservation module body (2), floor heating pipeline (3), air intake main (5), air intake arm (5 '), air draft main (5 "), moistureproof heat-conducting layer (4 '), timber floor (8) or bonding bed course and ground decoration panel and ventilation and air conditioning system formation; Described precast combined heat preservation module body (2 ') is at the upper one deck thick moistureproof heat conduction aluminium foil of 0.02mm～0.2mm (2-2 ') of pasting of the adiabatic heat-insulation module (2-1) that is prefabricated with groove (2-3); Described adiabatic heat-insulation module (2-1) comprises standard adiabatic heat-insulation module and bearing type adiabatic heat-insulation module; Described moistureproof heat-conducting layer (4 ') is for being laid on floor heating pipeline (3), air intake main (5), air intake arm (5 ') and air draft main (0.02mm～0.4mm thick aluminum foil or aluminium sheet on 5 ").

5. a heat preservation module radiant heating cooling ground and ventilation and air conditioning system, it is characterized in that, from bottom to top successively by ground layer or screed-coat (1), polypropylene fiber waterproof coiled material layer (1-1), precast combined heat preservation module body (2), floor heating pipeline (3), air intake main (5), air draft main (5 "), moistureproof heat-conducting layer (4 '), bonding bed course (6) and ground decoration panel (7) or timber floor and ventilation and air conditioning system form; Described air intake main (5) and air draft main (5 ") and air intake arm (5 ') two ends UNICOM;

Described ventilation and air conditioning system is to decorate by new wind air supply duct system, ground dehumidifying exhaust system and indoor exhaust wind pipe-line system and false beam (JL), feigned column (JZ), decorating cabinet (JG) and local furred ceiling sunk panel (JD) the bidirectional flow recuperation of heat ventilation and air conditioning system forming.

6. described precast combined heat preservation module body as claimed in claim 5 (2), is characterized in that, is the U-shaped heat conduction aluminum lath (2-2 ") that is inlaid with band heat conduction limit, both sides on the groove (2-3) of adiabatic heat-insulation module (2-1); (2-2 ") is make with the thick aluminium sheet of 0.2mm～1.0mm upper young to greatly fixing bar with the heat conduction on the wide heat conduction of 30mm～90mm limit (2-2A) in the both sides of circular arc with ground heating pipes external diameter, bottom to described U-shaped heat conduction aluminum lath.

7. heat preservation module radiant heating cooling ground and the ventilation and air conditioning system as described in claim 1 or 2 or 4 or 5, it is characterized in that, described precast combined heat preservation module body (2), for lay the precast combined heat preservation module of form for " single tube parallel type ", by the prefabricated thermal insulation module body (2-11,2-21,2-H, 2-H ') of two terminal circle arc and stage casing straight trough type prefabricated thermal insulation module body (2Z) and edge band (2L), combined; Described prefabricated thermal insulation module body (2-H, 2-H ') is the heat preservation module that is exclusively used in inflection place of floor heating pipeline.

8. heat preservation module radiant heating cooling ground and the ventilation and air conditioning system as described in claim 1 or 2 or 4 or 5, it is characterized in that, described precast combined heat preservation module body (2), for lay the precast combined heat preservation module of form for " two-tube parallel type ", by the prefabricated thermal insulation module body (2-31,2-32) of two terminal circle arc and stage casing straight trough type prefabricated thermal insulation module body (2Z) and edge band (2L), formed; Described prefabricated thermal insulation module body (2-31,2-32) is that two ends, left and right are a pair of, the upper surface floor heating pipe groove of described prefabricated thermal insulation module body (2-31) lay be by spacing be the horizontal elongated straight trough (25) of 200mm or 150mm, longitudinal straight trough of a track pitch right-hand member limit 50～100mm (25 "), and left and right is respectively with horizontal elongated straight trough with tangentially intersect in length and breadth curved bend groove (5-1, the 5-2) formation of UNICOM to straight trough; Described curved bend groove (5-2) is 1/2nd of described curved bend groove (5-1); (two ends of 25 ") are to tangentially intersecting connection position with curved bend groove (5-2) for described longitudinal straight trough.

9. the new wind air supply duct system as described in claim 1 or 5, it is characterized in that, from outdoor air inlet, to indoor air outlet, by air purifier (31), heat exchange recover (32), ajutage (34), air outlet (35), heat exchange recover (36), air outlet (37) and air-supply main (38), formed successively;

Described heat exchange recover (32), by heat exchange air intake sleeve pipe (32-1), be placed in heat exchange exhaust duct (32-2) in sleeve pipe and sleeve outer wall thermal insulating (32-3) forms, described heat exchange exhaust duct (32-2) is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct (32-2) upper end is mended core (32-4) through heat exchange air intake sleeve pipe (32-1) top and is connected with air exhaust branch pipe (313); Described heat exchange exhaust duct (32-2) lower end joins through heat exchange air intake sleeve pipe (32-1) the lower end threeway mouth of pipe (32-5) and air draft bend pipe (311), and upper and lower both sides are preset with respectively the interface (32-6,32-6 ′ 32-7) joining with heat exchange recover (36), ajutage (34) and air-supply main (38);

Described heat exchange air intake sleeve pipe (32-1) adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

10. the indoor exhaust wind pipe-line system as described in claim 1 or 5, it is characterized in that, by return air inlet (320), air draft main (321), air draft main motor-driven valve (322), the directly outside pipe-line system of air draft and by air exhaust branch pipe (323) that exhaust blower (318) and exhaust outlet (319) form, air exhaust branch pipe straight-through valve (323 '), heat exchange recover 36, air exhaust branch pipe threeway (314 ', 314), air exhaust branch pipe (315), air exhaust branch pipe threeway (316), air exhaust branch pipe (317), return air heat recovery channel system two parts that exhaust blower (318) and exhaust outlet (319) form form,

Described air exhaust branch pipe (317) two ends are connected with air exhaust branch pipe threeway (316) and air draft main motor-driven valve (322) front end respectively.

11. ground as described in claim 1 or 5 dehumidifying exhaust systems, it is characterized in that, by air inlet (39), air intake standpipe (310), air intake main (5), air intake arm (5 '), cavity ventilation shaft (33), air draft main (5 "), air draft bend pipe (311), discharge hose (312), heat exchange recover (32), air exhaust branch pipe (313), air exhaust branch pipe returns only valve (313 '), air exhaust branch pipe threeway (314), air exhaust branch pipe (315), air exhaust branch pipe (315 '), air exhaust branch pipe threeway (316), air exhaust branch pipe (317), exhaust blower (318) and exhaust outlet (319) form,

Described air inlet (39), is built-in with net sheet, air door and exhaust blower.

12. new wind air supply duct systems as described in claim 1 or 5, it is characterized in that, from outdoor air inlet, to indoor air outlet, by new wind air inlet (31 '), blast pipe, return only valve (31A), air purifier (31B), new blower fan (31 "), heat exchange recover (32), ajutage (34), air outlet (35), heat exchange recover (36), air outlet (37) and air-supply main (38) formation successively.

13. indoor exhaust wind pipe-line systems as described in claim 1 or 5, it is characterized in that, by return air inlet (320), air draft main (321), exhaust blower (318), return air duct straight-through valve (3H), return air duct (3H '), in line and the straight gyrus pipe-line system of indoor room that air draft main straight-through valve (322 ') and exhaust outlet (319) form, and by air exhaust branch pipe (323), air exhaust branch pipe straight-through valve (323 '), heat exchange recover (36), air exhaust branch pipe threeway (314 ', 314), air exhaust branch pipe (315), air exhaust branch pipe threeway (316), air exhaust branch pipe (317 '), return air heat recovery channel system two parts that exhaust blower (318 ') and exhaust outlet (319 ') form form,

Described air purifier (31B) is for being built-in with electrostatic precipitation sterilization, flushing-free, electronic air cleaner capable of releasing negative ion, or for being built-in with triple effective filters.

14. heat preservation module radiant heating cooling ground as claimed in claim 2 and ventilation and air conditioning systems, it is characterized in that, described ventilation and air conditioning system is the bidirectional flow recuperation of heat ventilation and air conditioning system without furred ceiling pipeline by fresh air conditioner system, recuperation of heat ventilation and air conditioning system and ground dehumidifying exhaust system and feigned column (JZ) and decorating cabinet (JG) formation;

Described fresh air conditioner system, consists of indoor air inlet (325), heat exchange recover (32 '), ajutage (34), new wind air-intaker (34A), air purifier (35B) and air guide hole (35A).

15. heat preservation module radiant heating cooling ground as claimed in claim 2 and ventilation and air conditioning systems, it is characterized in that, described ventilation and air conditioning system, described ventilation and air conditioning system, the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline being formed by indoor air inlet (325 '), new wind air-intaker (34A '), control valve (34AF), heat exchange recover (32 "), ajutage (34), recuperation of heat purifying fresh air rack (35B "), ground dehumidifying exhaust system and feigned column (JZ) and decorating cabinet (JG).

16. ground as described in claims 14 or 15 dehumidifying exhaust systems, it is characterized in that, be to consist of air inlet (39 '), air intake standpipe (310 '), air intake main (5), air intake arm (5 '), cavity ventilation shaft (33), air draft main (5 "), discharge hose (312), air draft bend pipe (311), heat exchange recover (32 ', 32 "), exhaust duct (313A, 313A ') and exhaust outlet (313B, 313B ');

Described air inlet (39 ') is built-in with small silent exhaust blower;

Described exhaust outlet (313B) is built-in with small silent exhaust blower.

17. heat preservation module radiant heating cooling ground as claimed in claim 2 and ventilation and air conditioning systems, it is characterized in that, described ventilation and air conditioning system is by the indoor air-conditioning system that is arranged at parlor and bedroom, ground dehumidifying exhaust system, window formula fresh air purifying blower fan (31C) and be installed in kitchen or the recuperation of heat ventilation and air conditioning system without furred ceiling pipeline of the recuperation of heat ventilation and air conditioning system of toilet (36 ') and feigned column (JZ) and decorating cabinet (JG) formation;

Described indoor air-conditioning system, by indoor air inlet (325), heat exchange recover (32 '), ajutage (34) and air outlet (35C) the formation above ventilation and air conditioning system in floor with by air inlet (39 '), air intake standpipe (310 '), air intake main (5), air intake arm (5 '), air draft main, (in the floor that 5 "), ajutage (5B-1), control valve (5B-2), air-supply three-way pipe (34S) and air outlet (35C) form, auxiliary heating cooling pipe-line system two parts form;

Described ground dehumidifying exhaust system is that (5 "), discharge hose (312), air draft bend pipe (311), heat exchange recover (32 '), exhaust duct (313A) and exhaust outlet (313B) form by air inlet (39 '), air intake standpipe (310 '), air intake main (5), air intake arm (5 '), cavity ventilation shaft (33), air draft main;

Described air inlet (39 ') is built-in with screen pack and small silent exhaust blower;

Described exhaust outlet (313B) is built-in with screen pack and small silent exhaust blower.

18. heat exchange recovers (32 ') as described in claim 14 or 17, it is characterized in that, it is by heat exchange air intake sleeve pipe (32-1), is placed in heat exchange exhaust duct (32-2) and sleeve outer wall thermal insulating (32-3) formation in sleeve pipe, and described heat exchange exhaust duct (32-2) is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct (32-2) upper end is connected with exhaust duct (313A) through heat exchange air intake sleeve pipe (32-1) upper end threeway top ports (32-4); Described heat exchange exhaust duct (32-2) lower end joins through heat exchange air intake sleeve pipe (32-1) lower end threeway top ports (32-5) and air draft bend pipe (311), and upper and lower both sides are preset with respectively the interface (32-6,32-7) joining with indoor air inlet (325) and ajutage (34);

Described heat exchange air intake sleeve pipe (32-1) adopts Φ 110mm～Φ 300mm plastic round tube or metal circular tube to assemble.

19. recuperation of heat ventilation and air conditioning systems as described in claim 14 or 17, it is characterized in that, it is by heat exchange air intake sleeve pipe (36 '-1), is placed in heat exchange exhaust duct (36 '-2) and sleeve outer wall thermal insulating (36 '-3) formation in sleeve pipe, and described heat exchange exhaust duct (36 '-2) is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct (36 '-2) one end through heat exchange air intake sleeve pipe (36 '-1) one end mend core (36 '-A) and kitchen smoke exhaust (36 ' a) join; And being provided with four-way near mending core (36 '-A) side, this four-way mouth of pipe (36 '-B) is the interface joining for the new wind air outlet (37-A) with bedroom or parlor; Described heat exchange exhaust duct (36 '-2) is mended core mouth (36 '-B ') through this four-way and is joined with the return air fan (36 ' b) of kitchen or toilet; The other end of described heat exchange exhaust duct (36 '-2) is mended core (36 '-C) through the other end threeway of heat exchange air intake sleeve pipe (36 '-1) and is joined with the exhaust outlet (319A) on window or exterior wall; The another port (36 '-D) of mending core mouth (36 '-C) near threeway be for window or exterior wall on the new wind interface that joins of air purifier (35B ').

20. heat preservation module radiant heating cooling ground as claimed in claim 2 and ventilation and air conditioning systems, it is characterized in that, described ventilation and air conditioning system is by being arranged at indoor air-conditioning system, ground dehumidifying exhaust system and feigned column (JZ) the recuperation of heat ventilation and air conditioning system with decorating cabinet (JG) formation;

Described indoor air-conditioning system, by indoor air inlet (325 '), new wind air-intaker (34A '), control valve (34AF), heat exchange recover (32 "), ajutage (34), and the above ventilation and air conditioning system in floor that forms of air purifier (35X ') and by air inlet (39a), enter air draft threeway (39b), air intake standpipe control valve (310a), air intake standpipe (310b), air intake main (5), air intake arm (5 '), air draft main (5 "), ajutage (5B-1), control valve (5B-2), in the floor that air-supply three-way pipe (34S) and air purifier (35X ') form, auxiliary heating cooling pipe-line system two parts form,

Described ground dehumidifying exhaust system is by air inlet (39a), enter air draft threeway (39b), control valve (39c), only return valve (39d), exhaust outlet (39e), air intake standpipe control valve (310a), air intake standpipe (310b), air intake main (5), air intake arm (5 '), cavity ventilation shaft (33), air draft main (5 "), discharge hose (312), air draft bend pipe (311), heat exchange recover (32 "), exhaust duct (313A ') and exhaust outlet (313B ') form;

Described air inlet (39a) is built-in with small silent exhaust blower;

Described exhaust outlet (313B ') is built-in with small silent exhaust blower and returns only valve.

21. ventilation and air conditioning systems as described in claim 15 or 20, it is characterized in that, described heat exchange recover (32 "); by heat exchange air intake sleeve pipe (32-1), be placed in heat exchange exhaust duct (32-2) in sleeve pipe and sleeve outer wall thermal insulating (32-3) forms, described heat exchange exhaust duct (32-2) is made by Φ 50mm～Φ 100mm metal tube; Described heat exchange exhaust duct (32-2) upper end is connected with exhaust duct (313A ') through heat exchange air intake sleeve pipe (32-1) right angle, upper end four-way port (32-4 '); Described heat exchange exhaust duct (32-2) lower end joins through heat exchange air intake sleeve pipe (32-1) lower end threeway top ports (32-5) and air draft bend pipe (311), described heat exchange air intake sleeve pipe (32-1) right angle, upper end four-way port (32-6 ', 32-6 ") joins with indoor air inlet (325 ') and control valve (34AF) respectively; Described heat exchange air intake sleeve pipe (32-1) lower end threeway side ports (32-7) is joined with ajutage (34);

Described heat exchange air intake sleeve pipe (32-1) adopts Φ 110mm～Φ 300mm plastic tube or metal tube to assemble.

22. ventilation and air conditioning systems as described in claim 17 or 20, it is characterized in that, described air intake main (5), air intake arm (5 ') and air draft main (5 ") all adopt 25mm * 80mm or 30mm * 80-180mm or 40mm * 120-200mm rectangular metal or plastic bilateral airduct (5A, 5B); described bilateral airduct (5A) is the enter/air draft ventilation shaft for dehumidifying and strengthening conducting heat; two ends are connected with discharge hose (312) with air intake standpipe (310 ') respectively, and in the side towards grounding heat coil tube, are preset with the air vent (33-1) of Φ 15mm～Φ 30mm; Described bilateral airduct (5B), be exclusively used in by floor cold/heating installation is sent into indoorly, plays the effect of auxiliary heating cooling, the two ends of described bilateral airduct (5B) are connected with ajutage (5B-1) with air intake standpipe (310 ') respectively.

23. ventilation and air conditioning systems as described in claim 17 or 20, it is characterized in that, described air intake main (5), air intake arm (5 ') and air draft main (5 "); comprise the bilateral airduct (5A, 5B) that two 25mm * 40mm of employing or 30mm * 60-80mm or 40mm * 60-100mm metal or plastic rectangular tube are put together, described bilateral airduct (5A) is preset with the air vent (33-1) of Φ 15mm～Φ 30mm towards a side of grounding heat coil tube.

24. heat preservation module radiant heating cooling ground as claimed in claim 4 and ventilation and air conditioning systems, it is characterized in that, described ventilation and air conditioning system, by air inlet (31 ' a), air intake standpipe (310A), air intake main (5), air intake arm (5 '), cavity ventilation shaft (33), air draft main (5 "), air draft standpipe (32A), new wind intake stack (371), exhaust duct (372), heat exchanging ventilator controller (35H), return air inlet (312a), backwind tube (312a '), new wind ajutage (313a), air outlet (314a), false beam (JL) and feigned column (JZ) form, the Exchange of apparent heat that described heat exchanging ventilator controller (35H) is air cleaner or full heat exchange ventilation controller, described heat exchanging ventilator controller (35H) both can be arranged in furred ceiling, also can be mounted on interior wall.