CN204830162U - A radiation end equipment for plane radiation air conditioning system - Google Patents

Abstract

A radiation end equipment for plane radiation air conditioning system, including water supply main pipe (1), the return water person in charge (2) and gypsum radiation plate (3), its characterized in that, gypsum radiation plate (3) are including waterproof gypsum board (13), aluminium foil (14), plastics water pipeline and extrusion -molding insulation board (15), waterproof gypsum board (13) with between aluminium foil (14) aluminium foil (14) with between the plastics water pipeline plastics water pipeline with all closely bond compaction in order to form the integral type through glue between extrusion -molding insulation board (15) gypsum radiation plate (3). Compared with the prior art, the utility model beneficial effect be: the utility model discloses simple structure, economical and practical and energy saving and consumption reduction adopt quick modularization manufacturing technology to loop through glue with waterproof gypsum board, aluminium foil, plastics water pipeline and extrusion -molding insulation board and closely bond together the technological effect that compaction formed integral type gypsum radiation plate, the heat supply of realization radiation cooling.

Description

For the radiation tail end device of planar radiation air-conditioning system

Technical field

The utility model relates to air-conditioning system, particularly relates to the radiation tail end device for planar radiation air-conditioning system.

Background technology

In the technical field of planar radiation air-conditioning system, adopt the radiation tail end device ubiquity complicated construction technique of conventional gypsum material manufacture, construction quality is difficult to control, construction cost is high and can only carry out on-site consolidation and can not realize the technological deficiency such as modular manufacturing and radiation effect difference, be therefore badly in need of improving to eliminate existing technological deficiency the radiation tail end device for planar radiation air-conditioning system.

The patent No. is that the Chinese utility model patent of ZL201220557825.X discloses the heating gypsum radiation heat exchange plate of a kind of cooling, and it comprises plasterboard, metallic plate and water pipe line.Under described plasterboard is arranged on metallic plate; The one side of described metallic plate is preset with the groove for installing fixing water pipe, the another side covering and heat insulating layer of metallic plate, and metallic plate both sides are fixed on keel; The piping mode of described water pipe line can need to change according to design, and water pipe material can be metal also can be plastics.The beneficial effect of this utility model is: by adopting the structural design of plasterboard complexed metal plate, and make heat exchanger plates plate surface temperature more even, radiation effect is good, and plate surface not easily condenses.In addition, the area of gypsum radiation heat exchange plate, thickness, profile and coating material can need design according to user, are applicable to different architectural environments and interior decoration, can decorate well combine together with building ceiling.But this utility model adopts the structural design of plasterboard complexed metal plate, significantly add the weight of gypsum radiation heat exchange plate on the one hand, and then increasing difficulty of construction, construction cost also significantly improves thereupon, and can only carry out on-site consolidation and can not realize modular manufacturing.

The patent No. is that the Chinese utility model patent of ZL201220278592.X discloses the heating metal radiation heat exchanger plates of a kind of cooling, comprise and be evenly installed with lacunary metallic plate perhaps, be close to the sound-absorbing material of metal sheet surface, evenly be arranged in the copper pipe in metallic plate, and the aluminium alloy connecting plate of fixing copper pipe, the metallic plate back side is coated with heat-insulation layer.After the cold water of air-conditioning cold and heat supply or hot water flow to copper pipe, cold or heat are delivered to rapidly on the aluminium alloy connecting plate that fits tightly with copper pipe, and uniform distribution of temperature field, radiation effect is good.Metallic plate is evenly installed with many apertures, plate face covers skim sound-absorbing material.Such sound wave, through the aperture on metallic plate, will be absorbed by sound-absorbing material, play Noise Reduction.The furred ceiling be made up of metal radiant panel and metallic plate, plate surfacing, makes the appearance looks elegant of large area furred ceiling generous.But what this utility model adopted on the one hand is metal radiant panel, its surface easily condensation, this greatly can have influence on radiation effect.On the other hand, the water service pipe of this utility model adopts copper pipe, less economical, and this copper pipe and aluminium alloy connecting plate 4 fit tightly and fix the groove needing to have fixing copper pipe on the center line of aluminium alloy connecting plate 4, complicated construction technique, construction cost are high and can only carry out on-site consolidation and can not realize modular manufacturing.

The patent No. is that the Chinese utility model patent of ZL201220614462.9 discloses a kind of radiation heat transfer board component.According to the radiation heat transfer board component of this utility model, comprise metal radiant panel, heat exchanger components and outer cover, arrange nonmetallic heat conductive layer between metal radiant panel and heat exchanger components, nonmetallic heat conductive layer upper and lower surface contacts with heat exchanger components and metal radiant panel respectively.By being provided with nonmetallic heat conductive layer between metal radiant panel and heat exchanger components, by the heat transfer of nonmetallic heat conductive layer, the thermal resistance between metal radiant panel and heat exchanger components can be reduced, simultaneously, owing to being conducted heat by face, metal radiant panel can obtain comparatively uniform temperature field, therefore, suitably improve the low temperature (or suitably turning down the high temperature that inlet water temperature also can maintain radiant panel surface when heating condition) that chilled water inlet water temperature also can maintain radiant panel surface when cooling condition, thus source pump operating efficiency can be improved.But what this utility model adopted is metal radiant panel, its surface easily condensation, this greatly can have influence on radiation effect.

Utility model content

In order to the technological deficiency that the radiation tail end device solving above-mentioned existing planar radiation air-conditioning system exists, the technical solution adopted in the utility model is as follows:

For the radiation tail end device of planar radiation air-conditioning system, comprise vibration means for main pipe for supplying water, backwater supervisor and gypsum radiant panel, described gypsum radiant panel comprises waterproof gypsum board, aluminium foil, plastics ventilating water pipe and plastic extrusion heated board, is all undertaken closely bonding and compacting described gypsum radiant panel to form an integral by glue between described waterproof gypsum board and described aluminium foil, between described aluminium foil and described plastics ventilating water pipe, between described plastics ventilating water pipe and described plastic extrusion heated board.

Preferably, the thickness of described waterproof gypsum board is 9.5mm.

In above-mentioned either a program preferably, the thickness of described waterproof gypsum board is 12mm.

In above-mentioned either a program preferably, the thickness of described aluminium foil is 0.05-0.15mm.

In above-mentioned either a program preferably, the diameter of described plastics ventilating water pipe is 10mm and adopts PE material.

In above-mentioned either a program preferably, described plastics ventilating water pipe diameter is 8mm and adopts PE material.

In above-mentioned either a program preferably, described plastics ventilating water pipe comprises water flowing supervisor and water flowing arm.

In above-mentioned either a program preferably, described water flowing arm adopts U-shaped coil pipe, and the spacing of each adjacent two pipes in described U-shaped coil pipe is 30-100mm.

In above-mentioned either a program preferably, described water flowing arm adopts U-shaped coil pipe, and the spacing of each adjacent two pipes in described U-shaped coil pipe is 75mm.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts polystyrene foam plate.

In above-mentioned either a program preferably, described polystyrene foam plate adopts EPS expansion polyphenyl plate.

In above-mentioned either a program preferably, described polystyrene foam plate adopts XPS extruded polystyrene board.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts polyurethane thermal insulation board.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts rock-wool heat insulation plate.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts phenolic-aldehyde heat-insulation board.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts the warming plate that any two kinds of plates in described polystyrene foam plate, described polyurethane thermal insulation board, described rock-wool heat insulation plate and described phenolic-aldehyde heat-insulation board and above combination are formed.

In above-mentioned either a program preferably, the fire-protection rating of described plastic extrusion heated board is A level.

In above-mentioned either a program preferably, the fire-protection rating of described plastic extrusion heated board is B1 level.

In above-mentioned either a program preferably, the lower surface of described plastic extrusion heated board is installed surface, and described installed surface is provided with line of cut.

In above-mentioned either a program preferably, the installed surface of described plastic extrusion heated board is provided with reserving installation hole center line, adopts tapping screw fixing in strict accordance with described reserving installation hole center line boring during construction.

In above-mentioned either a program preferably, the nominal length of described tapping screw is 8cm-15cm.

In above-mentioned either a program preferably, described plastic extrusion heated board adopts mold customization.

In above-mentioned either a program preferably, the overall dimensions of described gypsum radiant panel is set to 2400mm × 1200mm, along the line of cut on described plastic extrusion heated board, this plate is at least cut into 2400mm × 600mm, 1200mm × 1200mm, 1200mm × 600mm tri-kinds of dimensions.

In above-mentioned either a program preferably, sweat soldering is adopted to be connected between the water flowing supervisor of described plastics ventilating water pipe and water flowing arm.

In above-mentioned either a program preferably, three-way connection is adopted to be connected between the water flowing supervisor of described plastics ventilating water pipe and water flowing arm.

In above-mentioned either a program preferably, flexible pipe is adopted to be connected between the water flowing supervisor of described plastics ventilating water pipe and water flowing arm.

In above-mentioned either a program preferably, clip is adopted to be connected between the water flowing supervisor of described plastics ventilating water pipe and water flowing arm.

In above-mentioned either a program preferably, the thickness of described gypsum radiant panel is 3cm-7cm, is installed on furred ceiling, metope or ground.

In above-mentioned either a program preferably, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls between 7-20 DEG C.

In above-mentioned either a program preferably, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls at 16 DEG C.

In above-mentioned either a program preferably, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls between 25-45 DEG C.

In above-mentioned either a program preferably, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls at 35 DEG C.

In above-mentioned either a program preferably, described glue adopts fire-resistant Environment-friendlyglue glue.

In above-mentioned either a program preferably, described backwater supervisor is connected by three-limb tube part A between being responsible for the water flowing of described plastics ventilating water pipe.

In above-mentioned either a program preferably, described backwater supervisor is connected by three-limb tube part B between being responsible for the water flowing of described plastics ventilating water pipe.

In above-mentioned either a program preferably, described backwater supervisor is connected by four-way connecting tube between being responsible for the water flowing of described plastics ventilating water pipe.

In above-mentioned either a program preferably, described vibration means for main pipe for supplying water is connected by three-limb tube part B between being responsible for the water flowing of described plastics ventilating water pipe.

In above-mentioned either a program preferably, described vibration means for main pipe for supplying water is connected by four-way connecting tube between being responsible for the water flowing of described plastics ventilating water pipe.

In above-mentioned either a program preferably, one end of vibration means for main pipe for supplying water is provided with tight loop and pipe stopper C.

In above-mentioned either a program preferably, the water flowing of described plastics ventilating water pipe is responsible for one end and is provided with tight loop and pipe stopper D.

In above-mentioned either a program preferably, described vibration means for main pipe for supplying water and backwater supervisor adopt PE material.

In above-mentioned either a program preferably, the material of described three-limb tube part A adopts copper and comprises connector, tight loop and fastening bolt.

In above-mentioned either a program preferably, the material of described three-limb tube part B adopts copper and comprises connector, tight loop and fastening bolt.

In above-mentioned either a program preferably, the material of described four-way connecting tube adopts copper and comprises connector, tight loop and fastening bolt.

The utility model beneficial effect is compared with prior art: the utility model structure is simple, economical and practical and energy-saving and cost-reducing, adopt quick Modular Manufacturing Technology, by waterproof gypsum board, aluminium foil, plastics ventilating water pipe and plastic extrusion heated board are closely linked by glue technique for sticking successively and compacting forms gypsum radiant panel described in integral type, described waterproof gypsum board is close to the lower surface that aluminium foil forms monoblock type gypsum radiant panel, the heat in described plastics ventilating water pipe is made to increase its heat dissipation capacity to greatest extent by described aluminium foil and be dispersed in the surface of described waterproof gypsum board equably, thus form radiating surface and realize the object of radiant panel for cooling and heating.The utility model can need described waterproof gypsum board is carried out fly-cutting along line of cut or cuts according to installation when constructing, it is more convenient to install, and thoroughly solves the radiation tail end device complicated construction technique of the conventional gypsum material manufacture for planar radiation air-conditioning system simultaneously, construction quality is difficult to control, construction cost is high, can only on-site consolidation and can not realize the technological deficiency such as modular manufacturing, radiation effect difference.

Accompanying drawing explanation

Fig. 1 is the mounting connection structure schematic diagram according to radiation tail end device one preferred embodiment for planar radiation air-conditioning system of the present utility model;

Fig. 2 is the structural representation of the three-limb tube part A4 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 3 is the decomposition texture schematic diagram of the three-limb tube part A4 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 4 is the structural representation of the three-limb tube part B5 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 5 is the decomposition texture schematic diagram of the three-limb tube part B5 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 6 is the structural representation of the four-way connecting tube 6 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 7 is the decomposition texture schematic diagram of the four-way connecting tube 6 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 8 is the structural representation of the pipe stopper C7 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Fig. 9 is the decomposition texture schematic diagram of the pipe stopper C7 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 10 is the structural representation of the pipe stopper D8 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 11 is the decomposition texture schematic diagram of the pipe stopper D8 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 12 is the contour structures schematic diagram of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 13 is the side structure schematic diagram of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 14 is the part section structural representation of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 15 is the plastic extrusion heated board mould notching construction schematic diagram of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 16 is the scribe structure schematic diagram of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 17 is the reserving installation hole centerline structure schematic diagram of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 18 arranges schematic diagram according to the inside water-filled pipe of the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 of the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 19 is the structural representation once cut according to the first organization plan of gypsum radiant panel 3 embodiment illustrated in fig. 1 of the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 20 is the structural representation of the first the organization plan secondary cut of gypsum radiant panel 3 embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 21 is the contour structures schematic diagram of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 22 is the side structure schematic diagram of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 23 is the part section structural representation of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 24 is the plastic extrusion heated board mould notching construction schematic diagram of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 25 is the scribe structure schematic diagram of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 26 is the reserving installation hole centerline structure schematic diagram of the gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 according to the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 27 arranges schematic diagram according to the inside water-filled pipe of gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 of the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Figure 28 is the structural representation after cutting according to gypsum radiant panel 3 the second organization plan embodiment illustrated in fig. 1 of the radiation tail end device for planar radiation air-conditioning system of the present utility model;

Description of reference numerals:

1 vibration means for main pipe for supplying water; 2 backwater supervisors; 3 gypsum radiant panels; 4 three-limb tube part A; 5 three-limb tube part B; 6 four-way connecting tubes; 7 pipe stopper C; 8 pipe stopper D; 9 connectors; 10 tight loops; 11 fastening bolts; 12 reserved cutting grooves; 13 waterproof gypsum boards; 14 aluminium foils; 15 plastic extrusion heated boards; 16 reserving installation hole center lines; 17 water flowing supervisors; 18 water flowing arms; 19 cutting machines.

Detailed description of the invention

In order to understand the utility model better, below in conjunction with specific embodiment, the utility model is explained in detail, but, obviously can carry out different modification and remodeling to the utility model and not exceed the wider spirit and scope of the utility model of appended claims.Therefore, following examples have exemplary and hard-core implication.

Embodiment 1:

As shown in Fig. 1-Figure 28, for the radiation tail end device of planar radiation air-conditioning system, comprise vibration means for main pipe for supplying water 1, backwater supervisor 2 and gypsum radiant panel 3, described gypsum radiant panel 3 comprises waterproof gypsum board 13, aluminium foil 14, plastics ventilating water pipe and plastic extrusion heated board 15, between described waterproof gypsum board 13 and described aluminium foil 14, between described aluminium foil 14 and described plastics ventilating water pipe, all undertaken closely bonding and compacting described gypsum radiant panel 3 to form an integral by glue between described plastics ventilating water pipe and described plastic extrusion heated board 15, the described gypsum radiant panel 3 of this integral type increases the heat dissipation capacity of described plastics ventilating water pipe and makes heat radiation more even, heat in water is also passed to gypsum radiant panel 3 by described aluminium foil 14 by the logical cold water in described plastics ventilating water pipe inside or hot water, described plastics ventilating water pipe and air separate by described plastic extrusion heated board 15, prevent heat from outwards transmitting and cause hot loss of energy, described waterproof gypsum board 13 is close to the lower surface of described aluminium foil 14 gypsum radiant panel 3 described in formula as a whole, thus make the energy in described plastics ventilating water pipe can be dispersed in the surface of described waterproof gypsum board 13 equably by described aluminium foil 14, thus formation radiating surface, and then realize the technique effect of radiation cooling or heat supply, the thickness of waterproof gypsum board 13 is 9.5mm, the thickness of aluminium foil 14 is 0.05-0.15mm, the diameter of described plastics ventilating water pipe is 10mm and adopts PE material, described plastics ventilating water pipe comprises water flowing supervisor 17 and water flowing arm 18, water flowing arm 18 adopts U-shaped coil pipe, the spacing of each adjacent two pipes in described U-shaped coil pipe is 30-100mm, plastic extrusion heated board 15 adopts polystyrene foam plate, described polystyrene foam plate adopts EPS expansion polyphenyl plate, the fire-protection rating of plastic extrusion heated board 15 is A level, the lower surface of plastic extrusion heated board 15 is installed surface, described installed surface is provided with reserved cutting groove 12, the installed surface of plastic extrusion heated board 15 is provided with reserving installation hole center line 16, tapping screw is adopted to hole in strict accordance with reserving installation hole center line 16 during construction fixing, the nominal length of described tapping screw is 8cm-15cm, plastic extrusion heated board 15 adopts mold to customize, the overall dimensions of gypsum radiant panel 3 is set to 2400mm × 1200mm, along the reserved cutting groove 12 on plastic extrusion heated board 15, this plate is at least cut into 2400mm × 600mm, 1200mm × 1200mm, 1200mm × 600mm tri-kinds of dimensions, sweat soldering is adopted to be connected between the water flowing supervisor 17 of described plastics ventilating water pipe and water flowing arm 18, the thickness of gypsum radiant panel 3 is 3cm-7cm, be installed on furred ceiling, metope or ground, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls between 7-20 DEG C, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls between 25-45 DEG C, described glue adopts fire-resistant Environment-friendlyglue glue, backwater supervisor 2 is connected by three-limb tube part A4 or three-limb tube part B5 or four-way connecting tube 6 between being responsible for 17 with the water flowing of described plastics ventilating water pipe, vibration means for main pipe for supplying water 1 is connected by three-limb tube part B5 or four-way connecting tube 6 between being responsible for 17 with the water flowing of described plastics ventilating water pipe, one end of vibration means for main pipe for supplying water 1 is provided with tight loop 10 and pipe stopper C7, the water flowing of described plastics ventilating water pipe is responsible for 17 one end and is provided with tight loop 10 and pipe stopper D8, vibration means for main pipe for supplying water 1 and backwater supervisor 2 adopt PE material, three-limb tube part A4, the material of three-limb tube part B5 and four-way connecting tube 6 all adopts copper and comprises connector 9, tight loop 10 and fastening bolt 11.

Described waterproof gypsum board 13 adds quantitative waterproofing agent in gypsum core, makes gypsum itself have certain water resistance.Plasterboard is mainly used in engineering or decoration design for residence use, and itself is because good toughness (doing abnormal top to be suitable for), and price is relatively cheap, is the first-selected product of vast decoration great masters always.Plasterboard itself belongs to secondary crystallization product, and wherein contained water crystallization effectively can reach the effect of heat absorption, and therefore, its flameproof effect is more remarkable.In addition, because use blowing agent, space of suitably having arranged in gypsum, because of and serve the effect of sound insulation, sound-absorbing.The waterproof principle of described waterproof gypsum board 13 be gypsum core and mask paper all through damp-proof treatment, add silicone oil; And the handling principle of protection against the tide is coated principle, silicone oil has wrapped gypsum molecule.The classification of described waterproof gypsum board 13 comprises: common waterproof paper surface gypsum board and anchor point waterproof paper surface gypsum board; Wherein, common waterproof paper surface gypsum board is on the basis based on conventional paper surface gypsum board, a kind of new product of innovative development, not only be provided with all advantages of Thistle board, and some additives are increased in plasterboard plate core, make fire resistance period longer, thus play the effect intercepting propagation of flame, strive for the valuable time to escape.And anchor point waterproof gypsum board is on the basis based on traditional wet-strong paper surface gypsum board, a kind of new product of innovative development, not only be provided with all advantages of traditional wet-strong paper surface gypsum board, and solve artificial snap the line in traditional wet-strong paper surface gypsum board work progress and locate the difficult problem that the labour intensity brought is large, product is fragile, construction efficiency is low, construction quality can not ensure completely, achieve the upgrading of product.Described waterproof gypsum board 13 is for main raw material(s) with the plaster of paris and mask paper, the light-weight building thin plate that the appropriate fiber of admixture, starch, coagulant, blowing agent and water etc. are made, performance has following features: 1) low energy is efficient: the observable index cement producing the Thistle board of equal unit saves 78%, and small investment production capacity is large, operation is simple, is convenient to large-scale production.2) lightweight: make partition wall with Thistle board, weight is only 1/15 of condition of equivalent thickness brick wall, and 1/10 of blockwork, is conducive to structural seismic, and effectively can reduce basis and main structure body cost.3) insulation: in the plate core of Thistle board, about 60% is Minute pores, because the thermal conductivity factor of air is very little, therefore has good light thermal-insulation performance.4) fire protecting performance: because gypsum core itself does not fire, and a large amount of heat can be absorbed when meeting fire in the process of release water of constitution, postpone the rising of ambient temperature, therefore, Thistle board has good fire retardant performance; Detect through National Fire inspection center, Thistle board partition wall fire endurance can reach 4 hours.5) sound insulation value: the requirement that could meet sound insulation when its thickness of individual layer body of wall adopting single light material to form as Aerated Concrete, expanded pearlite rock beam etc. is very large, and Thistle board partition wall has unique cavity structure, has good sound insulation property.6) decoration functions: Thistle board surfacing, forms seamless surface by joint treatment between plate and plate, surface can directly be decorated.Thistle board has the performance can followed closely, can dig, can saw, can glue, for interior decoration, desirable decorative effect can be obtained, only need to tailor cutter and just can arbitrarily cut Thistle board, construct very convenient, do ornament materials with it and can greatly improve efficiency of construction.The inhabitation function of described waterproof gypsum board 13: because the porosity of plasterboard is comparatively large, and pore size distribution$ is suitable, so have higher permeability.When indoor humidity is higher, can moisture absorption; And when air oxygen detrition, portion of water can be released again, thus certain regulating action is played to indoor humidity, this function of Thistle board is called " breathing " function abroad, there is just because of plasterboard " breathing " performance of this uniqueness, can conditioning chamber humidity within the specific limits, make living conditions more comfortable.Thistle board is a kind of green material, and it adopts the plaster of paris and paper as raw material, not containing harmful asbestos (most calcium silicates class sheet material and cement fibrolite plate all adopt asbestos as the reinforcing material of sheet material).In addition, adopt Thistle board to make body of wall, can save space, the most I of thickness of wall body reaches 74mm, and can ensure sound insulation, the humidity resistance of body of wall.

Embodiment 2:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, the thickness of described waterproof gypsum board 13 is 12mm.

Embodiment 3:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described plastics ventilating water pipe diameter is 8mm and adopts PE material.

Embodiment 4:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described water flowing arm 18 adopts U-shaped coil pipe, and the spacing of each adjacent two pipes in described U-shaped coil pipe is 75mm.

Embodiment 5:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described polystyrene foam plate adopts XPS extruded polystyrene board.

Embodiment 6:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described plastic extrusion heated board 15 adopts polyurethane thermal insulation board.

Embodiment 7:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described plastic extrusion heated board 15 adopts rock-wool heat insulation plate.

Embodiment 8:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, described plastic extrusion heated board 15 adopts phenolic-aldehyde heat-insulation board.

Embodiment 9:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, the warming plate that described plastic extrusion heated board 15 adopts any two kinds of plates in described polystyrene foam plate, described polyurethane thermal insulation board, described rock-wool heat insulation plate and described phenolic-aldehyde heat-insulation board and above combination to be formed.

Embodiment 10:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, the fire-protection rating of described plastic extrusion heated board 15 is B1 level.

Embodiment 11:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, adopts three-way connection to be connected between the water flowing supervisor 17 of described plastics ventilating water pipe and water flowing arm 18.

Embodiment 12:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, adopts flexible pipe to be connected between the water flowing supervisor 17 of described plastics ventilating water pipe and water flowing arm 18.

Embodiment 13:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, adopts clip to be connected between the water flowing supervisor 17 of described plastics ventilating water pipe and water flowing arm 18.

Embodiment 14:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls at 16 DEG C.

Embodiment 15:

For the radiation tail end device of planar radiation air-conditioning system, similar to embodiment 1, difference is, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls at 35 DEG C.

Claims (43)

1. for the radiation tail end device of planar radiation air-conditioning system, comprise vibration means for main pipe for supplying water (1), backwater supervisor (2) and gypsum radiant panel (3), it is characterized in that, described gypsum radiant panel (3) comprises waterproof gypsum board (13), aluminium foil (14), plastics ventilating water pipe and plastic extrusion heated board (15), between described waterproof gypsum board (13) and described aluminium foil (14), between described aluminium foil (14) and described plastics ventilating water pipe, all undertaken closely bonding and compacting described gypsum radiant panel (3) to form an integral by glue between described plastics ventilating water pipe and described plastic extrusion heated board (15).

2., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the thickness of waterproof gypsum board (13) is 9.5mm.

3., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the thickness of waterproof gypsum board (13) is 12mm.

4., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the thickness of aluminium foil (14) is 0.05-0.15mm.

5. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the diameter of described plastics ventilating water pipe is 10mm and adopts PE material.

6. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, described plastics ventilating water pipe diameter is 8mm and adopts PE material.

7. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, described plastics ventilating water pipe comprises water flowing supervisor (17) and water flowing arm (18).

8. as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, water flowing arm (18) adopts U-shaped coil pipe, and the spacing of each adjacent two pipes in described U-shaped coil pipe is 30-100mm.

9. as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, water flowing arm (18) adopts U-shaped coil pipe, and the spacing of each adjacent two pipes in described U-shaped coil pipe is 75mm.

10. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, plastic extrusion heated board (15) adopts polystyrene foam plate.

11., as claimed in claim 10 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, described polystyrene foam plate adopts EPS expansion polyphenyl plate.

12., as claimed in claim 10 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, described polystyrene foam plate adopts XPS extruded polystyrene board.

13., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, plastic extrusion heated board (15) adopts polyurethane thermal insulation board.

14., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, plastic extrusion heated board (15) adopts rock-wool heat insulation plate.

15., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, plastic extrusion heated board (15) adopts phenolic-aldehyde heat-insulation board.

16. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, the fire-protection rating of plastic extrusion heated board (15) is A level.

17. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, the fire-protection rating of plastic extrusion heated board (15) is B1 level.

18. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, the lower surface of plastic extrusion heated board (15) is installed surface, and described installed surface is provided with reserved cutting groove (12).

19. as claimed in claim 18 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the installed surface of plastic extrusion heated board (15) is provided with reserving installation hole center line (16), adopts tapping screw fixing in strict accordance with reserving installation hole center line (16) boring during construction.

20. as claimed in claim 19 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, the nominal length of described tapping screw is 8cm-15cm.

21., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, plastic extrusion heated board (15) adopts mold customization.

22. as claimed in claim 18 for the radiation tail end device of planar radiation air-conditioning system, it is characterized in that, the overall dimensions of gypsum radiant panel (3) is set to 2400mm × 1200mm, along the reserved cutting groove (12) on plastic extrusion heated board (15), this plate is at least cut into 2400mm × 600mm, 1200mm × 1200mm, 1200mm × 600mm tri-kinds of dimensions.

23., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, adopt sweat soldering to be connected between water flowing supervisor (17) of described plastics ventilating water pipe and water flowing arm (18).

24., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, adopt three-way connection to be connected between water flowing supervisor (17) of described plastics ventilating water pipe and water flowing arm (18).

25., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, adopt flexible pipe to be connected between water flowing supervisor (17) of described plastics ventilating water pipe and water flowing arm (18).

26., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, adopt clip to be connected between water flowing supervisor (17) of described plastics ventilating water pipe and water flowing arm (18).

27. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, the thickness of gypsum radiant panel (3) is 3cm-7cm, is installed on furred ceiling, metope or ground.

28., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls between 7-20 DEG C.

29., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, in described plastics ventilating water pipe, the water temperature of the cold water radiation cooling of circulation controls at 16 DEG C.

30., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls between 25-45 DEG C.

31., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, in described plastics ventilating water pipe, the water temperature of hot-water radiant's heat supply of circulation controls at 35 DEG C.

32. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, described glue adopts fire-resistant Environment-friendlyglue glue.

33., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, backwater supervisor (2) and the water flowing of described plastics ventilating water pipe are responsible between (17) by three-limb tube part A(4) be connected.

34., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, backwater supervisor (2) and the water flowing of described plastics ventilating water pipe are responsible between (17) by three-limb tube part B(5) be connected.

35., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, backwater supervisor (2) and the water flowing of described plastics ventilating water pipe are responsible between (17) and are connected by four-way connecting tube (6).

36., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, vibration means for main pipe for supplying water (1) and the water flowing of described plastics ventilating water pipe are responsible between (17) by three-limb tube part B(5) be connected.

37., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, vibration means for main pipe for supplying water (1) and the water flowing of described plastics ventilating water pipe are responsible between (17) and are connected by four-way connecting tube (6).

38. as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, and it is characterized in that, one end of vibration means for main pipe for supplying water (1) is provided with tight loop (10) and pipe stopper C(7).

39., as claimed in claim 7 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, water flowing supervisor (17) one end of described plastics ventilating water pipe is provided with tight loop (10) and pipe stopper D(8).

40., as claimed in claim 1 for the radiation tail end device of planar radiation air-conditioning system, is characterized in that, vibration means for main pipe for supplying water (1) and backwater supervisor (2) adopt PE material.

41., as claimed in claim 33 for the radiation tail end devices of planar radiation air-conditioning system, is characterized in that, three-limb tube part A(4) material adopt copper and comprise connector (9), tight loop (10) and fastening bolt (11).

42. radiation tail end devices for planar radiation air-conditioning system as described in claim 34 or 36, is characterized in that, three-limb tube part B(5) material adopt copper and comprise connector (9), tight loop (10) and fastening bolt (11).

43. radiation tail end devices for planar radiation air-conditioning system as described in claim 35 or 37, is characterized in that, the material of four-way connecting tube (6) adopts copper and comprises connector (9), tight loop (10) and fastening bolt (11).