CN204081123U - Bionic intelligent external envelope structure - Google Patents

Abstract

The utility model discloses bionic intelligent external envelope structure, comprise hollow concrete stripping and slicing and insulation layer; Insulation layer comprises the first adiabator layer and the second adiabator layer, and hollow concrete stripping and slicing is arranged at the outermost of peripheral structure, and the inner side of hollow concrete stripping and slicing is disposed with the first adiabator layer and the second adiabator layer; The heat-conducting layer for being distributed by insulation layer heat is provided with between first adiabator layer and the second adiabator layer; The power set that described heat-conducting layer comprises capillary tube group, is positioned at the fluid media (medium) for heat conduction of capillary tube group inside and flows in capillary tube group for drive fluid medium.The utility model is with Normal concrete small hollow block, and sandwich continuous is connected with the capillary tube group of the regenerative resource circulating system, and fills and presents light heat insulation material at its external surface, makes the thermal insulation system that thermal property meets design standard for energy efficiency of buildings.Achieve the self-heat preservation heat insulation effect of body of wall peripheral structure.

Description

Bionic intelligent external envelope structure

Technical field

The utility model relates to interior temperature control field, specifically, is related specifically to a kind of bionic intelligent external envelope structure.

Background technology

For the space enclosing structure of building, complete the hot cold flow of indoor and outdoor at it and exchange controlling functions simultaneously, need to reduce its huge energy-output ratio to greatest extent.Peripheral structure is energy-conservation mainly by improving its thermal property, reach the outer heat of isolating chamber in summer and enter indoor, prevent winter indoor heat from releasing outdoor, make Indoor environment temperature as far as possible close to comfort temperature, to reduce the equipment energy consumptions such as air-conditioning, reach energy-conservation object.

The thermal property improving peripheral structure reduces one of most important measure of building energy consumption.The energy loss of buildings exterior-protected structure is mainly from three parts: exterior wall, door and window and roof.Main development direction after architectural exterior-protecting construction power-saving technology is, develops efficient, economic insulation, heat-barrier material and practicable constructing technology, improves the insulation of space enclosing structure, heat-proof quality and airtight performance.

For the Insulation of traditional peripheral structure, owing to excessively paying close attention to requirement during extreme meteorological condition state every year, peripheral structure is made to obtain too high heat-insulating property; In the season in spring and autumn that outdoor weather condition is comparatively suitable for, peripheral structure should have certain delivered heat ability, and the heat that indoor mankind's activity is accumulated can be transferred to outdoor in time, thus avoids interior temperature too high.And excessive insulation limits distributing of indoor heat, make to create the energy consumption that originally should not produce at transition season.Therefore, close at indoor and outdoor temperature, wish that building envelope has good heat dispersion, make indoor environment temperature directly can maintain the comfortable time period by the natural cooling and heating source of outdoor, can by changing the recirculated water operating mode of the circulating system, until stop circulation, the means making peripheral structure be returned to conventional keeping warm mode achieve the goal.

Utility model content

The technical problem that the utility model actual needs solves is: for deficiency of the prior art, a kind of bionic intelligent external envelope structure is provided, the plastic capillary group of hollow is implanted among buildings exterior-protected structure, by regulating the fluid media (medium) flowed in capillary tube group to control by the heating load of outdoor to indoor conduction, reach the effect controlling indoor thermal environment.

The technical problem that the utility model solves can realize by the following technical solutions:

Bionic intelligent external envelope structure, mainly comprises hollow concrete stripping and slicing and insulation layer; Described insulation layer comprises the first adiabator layer and the second adiabator layer, and described hollow concrete stripping and slicing is arranged at the outermost of peripheral structure, and the inner side of hollow concrete stripping and slicing is disposed with the first adiabator layer and the second adiabator layer; It is characterized in that: between described first adiabator layer and the second adiabator layer, be provided with the heat-conducting layer for being distributed by insulation layer heat.

Further, the described heat-conducting layer power set that comprise capillary tube group, be positioned at the fluid media (medium) for heat conduction of capillary tube group inside and flow in capillary tube group for drive fluid medium.

Further, the two ends port of described capillary tube group has fast plug, between capillary tube group or capillary tube group be connected with quick between power set.

Further, described heat-conducting layer also comprises the natural cooling source and regenerative resource collector that are communicated with capillary tube group, for reducing or raise the temperature of fluid media (medium) in capillary tube group.

Further, anti-icing fluid is added with in the fluid media (medium) in described capillary tube group.

Further, between described insulation layer and heat-conducting layer, be embedded with metallic film, for increasing temperature homogeneity and the exchange capability of heat of heat-conducting layer.

Compared with prior art, the beneficial effects of the utility model are as follows:

With Normal concrete small hollow block, sandwich continuous is connected with the capillary tube group of the regenerative resource circulating system, and fill and present light heat insulation material at its external surface, make the thermal insulation system that thermal property meets design standard for energy efficiency of buildings, achieve the self-heat preservation heat insulation effect of body of wall peripheral structure.While this system comparatively preferably resolves the various drawback of outer heat preservation system, due to heat insulation impervious effect significantly, with the building body same life-span, construct convenient and tecnical regulations is supporting and cost-saving, have very large marketing prospect.

Accompanying drawing explanation

Fig. 1 is the structural representation of bionic intelligent external envelope structure described in the utility model.

Number in the figure illustrates: hollow concrete stripping and slicing 1, first adiabator layer 2, the fast plug in top 3, capillary tube group 4, bottom fast plug 5, second adiabator layer 6.

Detailed description of the invention

The technological means realized for making the utility model, creation characteristic, reaching object and effect is easy to understand, below in conjunction with detailed description of the invention, setting forth the utility model further.

See Fig. 1, bionic intelligent external envelope structure described in the utility model, comprises peripheral structure, and described peripheral structure has hollow concrete stripping and slicing 1 and insulation layer; Described insulation layer comprises the first adiabator layer 2 and the second adiabator layer 6, and described hollow concrete stripping and slicing 1 is arranged at the outermost of peripheral structure, and the inner side of hollow concrete stripping and slicing 1 is disposed with the first adiabator layer 2 and the second adiabator layer 6; The heat-conducting layer for being distributed by insulation layer heat is provided with between described first adiabator layer 2 and the second adiabator layer 6.

Described heat-conducting layer is embedded in insulation layer, they power set comprising capillary tube group 4, be positioned at the fluid media (medium) for heat conduction of capillary tube group 4 inside and flow in capillary tube group 4 for drive fluid medium, by adopting said structure, form the sheet material with fluid media (medium) microcirculation passage of finished product.

The two ends port of described capillary tube group 4 has the fast plug 5 of the fast plug in top 3 and bottom respectively, for between capillary tube group 4 or capillary tube group 4 be connected with quick between power set, by adopting said structure design, capillary tube mats is connected to become can the system of circulation cycle fluid media (medium).

Described heat-conducting layer also comprises the natural cooling source and regenerative resource collector that are communicated with capillary tube group 4, as underground buried tube, solar energy collector, cooling tower, surface water, fire water box, rain dirty recovery, waste heat etc.,

For reducing or raise the temperature of fluid media (medium) in capillary tube group 4.

In addition, lower than the region of 0 degree, in the fluid media (medium) in described capillary tube group 4, anti-icing fluid may be added with for outside temperature.

It is pointed out that and be embedded with metallic film between insulation layer and heat-conducting layer, for increasing temperature homogeneity and the exchange capability of heat of heat-conducting layer.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and manual just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (4)

1. bionic intelligent external envelope structure, mainly comprises hollow concrete stripping and slicing and insulation layer; Described insulation layer comprises the first adiabator layer and the second adiabator layer, and described hollow concrete stripping and slicing is arranged at the outermost of peripheral structure, and the inner side of hollow concrete stripping and slicing is disposed with the first adiabator layer and the second adiabator layer; It is characterized in that: between described first adiabator layer and the second adiabator layer, be provided with the heat-conducting layer for being distributed by insulation layer heat; The power set that described heat-conducting layer comprises capillary tube group, is positioned at the fluid media (medium) for heat conduction of capillary tube group inside and flows in capillary tube group for drive fluid medium; The two ends port of described capillary tube group has fast plug, between capillary tube group or capillary tube group be connected with quick between power set.

2. bionic intelligent external envelope structure according to claim 1, is characterized in that: described heat-conducting layer also comprises the natural cooling source and regenerative resource collector that are communicated with capillary tube group, for reducing or raise the temperature of fluid media (medium) in capillary tube group.

3. bionic intelligent external envelope structure according to claim 1, is characterized in that: be added with anti-icing fluid in the fluid media (medium) in described capillary tube group.

4. bionic intelligent external envelope structure according to claim 1, is characterized in that: be embedded with metallic film between described insulation layer and heat-conducting layer, for increasing temperature homogeneity and the exchange capability of heat of heat-conducting layer.