CN110331791A - A kind of heat insulation layer mechanism used for building exterior wall - Google Patents

A kind of heat insulation layer mechanism used for building exterior wall Download PDF

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Publication number
CN110331791A
CN110331791A CN201910619664.9A CN201910619664A CN110331791A CN 110331791 A CN110331791 A CN 110331791A CN 201910619664 A CN201910619664 A CN 201910619664A CN 110331791 A CN110331791 A CN 110331791A
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CN
China
Prior art keywords
fixed strip
plate
fixed
strip
gear
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Granted
Application number
CN201910619664.9A
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Chinese (zh)
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CN110331791B (en
Inventor
李明海
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yueyang Zhibo Construction Engineering Co.,Ltd.
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Wenzhou City A Construction Co Ltd
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Priority to CN201711418601.4A priority Critical patent/CN108457388B/en
Priority to CN201910619664.9A priority patent/CN110331791B/en
Publication of CN110331791A publication Critical patent/CN110331791A/en
Application granted granted Critical
Publication of CN110331791B publication Critical patent/CN110331791B/en
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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/74Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
    • E04B1/76Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
    • E04B1/762Exterior insulation of exterior walls
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/74Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
    • E04B1/76Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
    • E04B1/762Exterior insulation of exterior walls
    • E04B1/7645Exterior insulation of exterior walls with ventilation means for the insulation
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/74Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
    • E04B1/76Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
    • E04B1/7654Heat, sound or noise insulation, absorption, or reflection . Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only comprising an insulating layer, disposed between two longitudinal supporting elements, e.g. to insulate ceilings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater

Abstract

The invention belongs to insulated wall technical fields, more particularly to a kind of heat insulation layer mechanism used for building exterior wall, it includes enclosure wall, wall, fin, transition zone, every radiating layer, handle, float plate, second arc strip, third gear, first Fixing shrink ring, 4th gear, second ring, 5th gear, first annular groove, conducting bar slot, wherein can be stretched by the manual adjustment thickness of heat preservation mechanism of staff realizes the different heat insulation and preservation effects of flexible heat preservation mechanism, different conditions can also be adjusted come itself to the variation of ambient temperature using the first arc strip and the second arc strip simultaneously, rainwater is set to wash away fin to cool down wall from the outflow of the second hole, slide damper can also be made in the case where not blocking exhaust outlet B, the air between fin and transition zone is set to generate flowing, and then cool down to wall;The configuration of the present invention is simple has preferable practical function.

Description

A kind of heat insulation layer mechanism used for building exterior wall
Technical field
The invention belongs to insulated wall technical fields, more particularly to a kind of heat insulation layer mechanism used for building exterior wall.
Background technique
The insulated wall overwhelming majority traditional at present is all in the outside of wall plus one layer of heat-insulating heat-preserving material, although traditional Insulated wall can play certain thermal insulation function really, but traditional insulated wall can not be accomplished according to extraneous weather Situation to carry out certain adjusting to the heat preservation of insulated wall, vaporous according to extraneous day in order to which traditional insulated wall may be implemented Condition is adjusted to carry out certain heat preservation, or even also be can be carried out certain cooling in the case where hot weather and adjusted, so just needing Design a kind of insulated wall of adjustable base insulating layer.
The present invention design a kind of heat insulation layer mechanism used for building exterior wall solve the problems, such as it is as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of heat insulation layer mechanism used for building exterior wall, it is It is realized using following technical scheme.
A kind of heat insulation layer mechanism used for building exterior wall, it is characterised in that: it includes enclosure wall, wall, fin, the first fixation Item, transition zone are fixed every radiating layer, the first arc strip, slide damper, float plate, the second fixed plate, the second fixed strip, third Item, rib rod aperture, rib bar, rectangular channel, the second arc strip, arc-shaped slot, floating lever, the first hole, the second hole, air inlet A, exhaust outlet A, air inlet B, exhaust outlet B, sliding groove are wherein equipped with enclosure wall on the upper metope of wall;Fin is mounted on wall side;Rib Piece side is successively uniformly equipped with the first fixed strip, the second fixed strip and third fixed strip;First fixed strip, the second fixed strip and Third fixed strip is vertically-mounted;A rectangular channel is provided on the side of the upper end of first fixed strip and third fixed strip;Second It symmetrically opens there are two rectangular channel the two sides of the upper end of fixed strip;A rectangular channel and the first fixed strip on second fixed strip On rectangular channel it is corresponding, another rectangular channel is corresponding with the rectangular channel on third fixed strip;It is equipped in each rectangular channel One the second arc strip.
Institute between the structure installed between first fixed strip and the second fixed strip and third fixed strip and the second fixed strip The structure of installation is identical;For the structure installed between the first fixed strip and the second fixed strip;It is solid that float plate is mounted on first Determine between item and the second fixed strip and is located at the rectangle groove location of the first fixed strip and the second fixed strip;One end of float plate with First fixed strip is in contact, and the other end is in contact with the second fixed strip;One end of second fixed plate is mounted on the first fixed strip, The other end is mounted on the second fixed strip;Second fixed strip is located at the downside of float plate;Multiple are equably provided in float plate One hole is equably equipped with multiple floating levers on the lower face of float plate;An arc is provided in the both ends plate face of float plate Card slot;Multiple second holes are equably provided in second fixed plate;Each floating lever is inserted into corresponding second hole;Each Second arc strip is matched with corresponding arc-shaped slot;Float plate slides between the first fixed strip and the second fixed strip;Two Flexible heat preservation mechanism is mounted between the first fixed strip and the second fixed strip in a manner of being arranged above and below and is located at the second fixed plate Downside;There is gap between flexible heat preservation mechanism and fin;Gap is no more than 2 centimetres;The side of flexible heat preservation mechanism and the One fixed strip matches, and the other side is matched with the second fixed strip.
Transition zone is mounted on by the first fixed strip, the second fixed strip and third fixed strip;Transition is mounted on every radiating layer On layer;It equably opens there are four exhaust outlet B the upside of transition zone;Sliding there are two symmetrically being opened in the two side walls of exhaust outlet B Slot;It equably opens there are four air inlet B the downside of transition zone.
A sliding channel is constituted by two sliding grooves and exhaust outlet B;Slide damper is mounted in sliding channel;First One end of arc strip is mounted on the groove face of the sliding groove of upside, and the other end is mounted on slide damper;Slide damper is logical The first arc strip is crossed to slide in sliding channel.
It equably opens there are four air inlet B the downside of transition zone;Exhaust outlet there are four equably being opened every the upside of radiating layer A;Air inlet A there are four equably being opened every the downside of radiating layer;Each air inlet A is communicated with corresponding air inlet B;Each Exhaust outlet A is communicated with corresponding exhaust outlet B.
The density of float plate is less than the density of water.
Above-mentioned first arc strip and the second arc strip are made of memory metal.
Flexible heat preservation mechanism installation site is located in the vertical direction between exhaust outlet B and air inlet B.
As the further improvement of this technology, the width of above-mentioned slide damper is greater than the width of exhaust outlet B.
As the further improvement of this technology, the deformation temperature of above-mentioned first arc strip and the second arc strip is at 5 degrees Celsius To between 10 degrees Celsius, it is bent less than 5 degree Celsius of first arc strip and the second arc strip;After 10 degrees Celsius, the first arc Item and the second arc strip are straightened.
As the further improvement of this technology, above-mentioned first fixed strip, the second fixed strip and third fixed strip inner hollow And hollow space is added with thermal insulation material.
As the further improvement of this technology, the knot installed between the first fixed strip and the second fixed strip described above The structure installed between structure and third fixed strip and the second fixed strip is identical;For between the first fixed strip and the second fixed strip The structure installed, it further includes handle, the first fixed plate, first gear, handle axle, first axle, second gear, first shaft hole A, first shaft hole B, third gear, are wherein provided with first shaft hole A in float plate;A first shaft hole B is provided in second fixed plate; Enclosure wall is connected on the metope of the second fixed strip symmetrically installation, and there are two the first fixed plates;Two the first fixed plates are relative to Two fixed strips are symmetrical;The mechanism installed in two the first fixed plates is identical;For any one the first fixed plate;Handle axle One end is installed on the first fixing plate, and the other end is equipped with handle;First gear is mounted on the periphery of handle axle, the first tooth Wheel is between handle and the first fixed plate;First axle one end is across the first fixed plate, first shaft hole A, first shaft hole B and two Flexible heat preservation mechanism, the other end are equipped with second gear;Second gear is meshed with first gear;Two third gears are mounted on On the periphery of first axle, two third gears are located in corresponding two flexible heat preservation mechanisms;One end of third gear With cone tooth.
For the flexible heat preservation mechanism installed between the first fixed strip and the second fixed strip, it includes telescoping mechanism, One plate, expansion plate, the second plate, first shaft hole B, first shaft hole C, wherein the second plate is mounted on transition zone;The side of second plate It is connected with the first fixed strip, the other side is connected with the second fixed strip;The side of expansion plate is installed on the second plate, the other side First plate is installed;First plate is slided between the first fixed strip and the second fixed strip by expansion plate;Is provided in expansion plate One axis hole C and first shaft hole D;Telescoping mechanism is located in flexible heat preservation mechanism;Telescoping mechanism respectively with the first plate and the second plate phase Cooperation;First shaft hole A, first shaft hole B, first shaft hole C and first shaft hole D are coaxial.
Two flexible heat preservation mechanisms that first axle installs in the upper and lower order across the first fixed strip and the second fixed strip, and The respective first shaft hole C and first shaft hole D in two flexible heat preservation mechanisms;Two third gears that first axle is distributed up and down It is matched respectively with respective telescoping mechanism in two flexible heat preservation mechanisms being distributed up and down.
As the further improvement of this technology, above-mentioned telescoping mechanism includes cone tooth, third axis, the first ring, the first fixed ring Set, conducting bar, the 4th gear, the second ring set, the second Fixing shrink ring, the second ring, third Fixing shrink ring, the 5th gear, third axis, Three fixed plates, the first annular groove, the second annular groove, third axis hole, conducting bar slot, wherein third axis is mounted on by two third fixed plates On second plate;Two third fixed plates are located at the two sides of first axle;5th gear is mounted on the periphery of third axis;5th tooth One end of wheel has cone tooth;Cone tooth on 5th gear is meshed with the cone tooth on corresponding third gear;First Fixing shrink ring Installation is on the first panel;The first annular groove is provided in first Fixing shrink ring;Third Fixing shrink ring is installed on the second plate;Third is fixed There is screw thread on the inner headed face of ring set;First ring is installed, the other end has screw thread on the periphery of one end of the second axis;Second Symmetrically there are two conducting bars for installation on the periphery of axis;Second axis has threaded one end and is mounted on the by thread fiting mode In three Fixing shrink rings;The other end of second axis is located in the first Fixing shrink ring;First ring is located in the first annular groove;Second fixed ring Set installation is on the second plate;Third Fixing shrink ring is located in the second Fixing shrink ring;Second Fixing shrink ring is connected with the face of the second plate On be provided with the second annular groove;One end of second ring set is equipped with the second ring, and the other end is equipped with the 4th gear;Second ring is located at second In annular groove;4th gear middle position is provided with third axis hole;Conducting bar slot there are two symmetrically being opened on the inner headed face of third axis hole;The Four gears are nested on the periphery of third axis;Two conducting bars are located in two conducting bar slots.
As the further improvement of this technology, added with guarantor in space composed by above-mentioned first plate, expansion plate and the second plate Adiabator.
As the further improvement of this technology, the side of above-mentioned wall is equably provided with multiple rib rod aperture;Fin side is equal Multiple rib bars are installed evenly;Rib bar is inserted into rib rod aperture.
It is above-mentioned upper and lower as what is installed between the first fixed strip and the second fixed strip as the further improvement of this technology Two flexible heat preservation mechanism alternatives of arrangement are the quantity of flexible heat preservation mechanism according to the height of building, are adjusted on demand.
Fin is mounted on wall by rib bar in the present invention, then fin is fixed, in addition the effect of rib bar facilitates Wall it is thermally conductive.
Second arc strip is matched with corresponding arc-shaped slot;Float plate is provided with multiple first holes;Second fixed plate is provided with Multiple second holes;Floating lever in float plate is inserted into the second hole;Float plate slides on the first fixed strip and the second fixed strip Between effect be: on the one hand, when ambient temperature be lower than 5 degrees Celsius when, the second arc strip is bent at such a temperature, and then second Arc strip generates position-limiting action to float plate, in this way when encountering rainy day, rainwater is flowed into from the first hole and is not easy from the It is flowed out in two holes, so that cooling effect will not be generated to fin;On the other hand, when ambient temperature is greater than 10 degrees Celsius, second Arc strip is straightened at such a temperature, and then the second arc strip no longer limits float plate, and when encountering rainy day, rainwater is from first Be flowed into hole in the second fixed plate, when rainwater is run up to it is a certain amount of when, under the buoyancy of water, float plate floats, floating lever from It is detached from second hole, rainwater can be flowed out from the second hole at this time, and the water of outflow, which washes away fin, can lower the temperature of fin, in this way may be used To play certain cooling effect to wall.
Each air inlet A is communicated with corresponding air inlet B;The work that each exhaust outlet A is communicated with corresponding exhaust outlet B With being using stack effect, air can enter the gap between flexible heat preservation mechanism and fin through air inlet A and air inlet B In, it is then discharged from exhaust outlet A and exhaust outlet B again, the air flowed in this way can generate certain cooling effect to fin.
A sliding channel is constituted by two sliding grooves and exhaust outlet B;Slide damper is mounted in sliding channel;First One end of arc strip is mounted on the groove face of the sliding groove of upside, and the other end is mounted on slide damper;Slide damper is logical Crossing the effect that the first arc strip slides in sliding channel is: on the one hand, when ambient temperature is lower than 5 degrees Celsius, the first arc Item is bent at such a temperature, and then slide damper blocks exhaust outlet B, and air can not be discharged from exhaust outlet B, and stretch Warming machine In gap between structure and fin air will not output flowing, and then can not to fin generate cooling effect;On the other hand, when outer When boundary's temperature is greater than 10 degrees Celsius, the first arc strip is straightened at such a temperature, and then slide damper can not block exhaust outlet B, So air can enter in the gap between flexible heat preservation mechanism and fin through air inlet A and air inlet B, then again from row It is discharged in air port A and exhaust outlet B, the air flowed in this way can generate certain cooling effect to fin.
One end of handle axle is equipped with handle, and the other end is installed on the first fixing plate;First gear is mounted on handle axle Periphery on;One end of first axle is equipped with second gear;Third gear is mounted on the periphery of first axle, first gear It is meshed with the second gear;So staff can drive first gear to rotate by pivotal handle;First gear can be through Second gear drives first axle rotation, and first axle can drive third gear to rotate.
On the second plate by two third fixed plate installations, the 5th gear is mounted on third axis third axis, then the Five gears are fixed;Cone tooth on third gear is meshed with the cone tooth on the 5th gear, then third gear can drive The rotation of five gears;One end of second ring set is equipped with the 4th gear, and the other end is equipped with the second ring, and the second ring is located at the second annular groove In, then the second ring can slide rotation in the second annular groove, the 4th gear is fixed and the 4th gear can surround the second ring Axis rotation;Third gear is meshed with the 4th gear, then third gear can drive the 4th gear to rotate;Third axis Symmetrically there are two conducting bars, the 4th gear to be nested on the periphery of third axis for installation on periphery, and two conducting bars are located at conducting bar In slot, then the 4th gear can drive third axis to rotate and not influence the axial movement of third axis;The installation of first Fixing shrink ring On the first panel, it is provided with the first annular groove in the first Fixing shrink ring, the first ring is installed on third axis, the first ring is located at the first annular groove In, then the first ring can slide rotation in the first annular groove, the axial movement of third axis can pass through the first annulus dynamic first Fixing shrink ring is mobile, and then drives the first plate mobile;Third Fixing shrink ring is installed on the first panel, and one end of third axis passes through spiral shell The mode of line cooperation is mounted in third Fixing shrink ring, then the rotation of third axis can be threadedly engaged lower axis movement.
In flexible heat preservation mechanism, added with thermal insulation material in space composed by the first plate, expansion plate and the second plate, then Thermal insulation material can make flexible heat preservation mechanism play preferable heat insulation and preservation effect;Second plate is mounted on transition zone, the second plate Side be connected with the first fixed strip, the other side is connected with the second fixed strip;So the second plate is fixed;The one of expansion plate Side is installed on the second plate, and the other side is equipped with the first plate;First plate slides on the first fixed strip and second by expansion plate and consolidates Determine between item, then the sliding of the first plate can make the gap between the first plate and the second plate generate variation, and then changes heat preservation The density degree of material increases the air capacity in thermal insulation material, to adjust the heat insulation and preservation effect of flexible heat preservation mechanism.
When being in the season of hot weather, staff can adjust the thickness of flexible heat preservation mechanism by pivotal handle Degree, and then adjust the heat insulation and preservation effect of flexible heat preservation mechanism.When needing to reduce the thickness of flexible heat preservation mechanism, Ke Yitong Pivotal handle is crossed to drive first gear to rotate, first gear drives first axle to rotate through second gear, and first axle drives third Gear rotation;Third gear drives the rotation of third axis through the 5th gear, the 4th gear;Being rotated in for third axis is fixed with third Make the direction axial rotary of third axial direction third Fixing shrink ring mobile under being threadedly engaged of ring set;Third axis is through the first Fixing shrink ring Drive the first plate mobile to the direction of the second plate, expansion plate is compressed, and then reduces the gap between the first plate and the second plate, The heat insulation and preservation effect of flexible heat preservation mechanism facilitates the heat dissipation of wall also with reduction in this way.
When being in the season of weather cold, staff can adjust the thickness of flexible heat preservation mechanism by pivotal handle Degree, and then adjust the heat insulation and preservation effect of flexible heat preservation mechanism.When needing to increase the thickness of flexible heat preservation mechanism, Ke Yitong Pivotal handle is crossed to drive first gear to rotate, first gear drives first axle to rotate through second gear, and first axle drives third Gear rotation;Third gear drives the rotation of third axis through the 5th gear, the 4th gear;Being rotated in for third axis is fixed with third The direction axial rotary for making third axially deviate from third Fixing shrink ring under being threadedly engaged of ring set is mobile;Third axis is fixed through first Ring set drives the first plate to away from the movement of the direction of the second plate, and expansion plate is unfolded, and then is made between the first plate and the second plate Gap increases, and the heat insulation and preservation effect for the heat preservation mechanism that stretches facilitates the heat preservation of wall also with increase in this way.
Relative to traditional heat preservation wall technology, can be stretched by the manual adjustment thickness of heat preservation mechanism of the present invention is realized The different heat insulation and preservation effects of flexible heat preservation mechanism, while can also be using the first arc strip and the second arc strip to ambient temperature Variation come itself adjust different conditions, allow rainwater from the second hole outflow wash away fin come to wall cool down, can also make Slide damper makes the air between fin and transition zone generate flowing in the case where not blocking exhaust outlet B, and then drops to wall Temperature;The configuration of the present invention is simple has preferable practical function.
Detailed description of the invention
Fig. 1 is heat insulation layer mechanism (-) schematic diagram.
Fig. 2 is heat insulation layer mechanism perspective diagram.
Fig. 3 is heat insulation layer mechanism (two) schematic diagram.
Fig. 4 is heat insulation layer mechanism section (-) schematic diagram.
Fig. 5 is heat insulation layer mechanism section (-) partial enlargement diagram.
Fig. 6 is heat insulation layer mechanism section (two) schematic diagram.
Fig. 7 is heat insulation layer mechanism section (two) partial enlargement diagram.
Fig. 8 is heat insulation layer mechanism section (three) schematic diagram.
Fig. 9 is heat insulation layer mechanism section (three) partial enlargement diagram.
Figure 10 is heat insulation layer mechanism section (four) schematic diagram.
Figure 11 is heat insulation layer mechanism section (four) partial enlargement diagram.
Figure 12 is wall body structure schematic diagram.
Figure 13 is rib structure schematic diagram.
Figure 14 is the first fixed strip perspective diagram.
Figure 15 is the first fixed strip partial enlargement diagram.
Figure 16 is the first arc strip scheme of installation on the first fixed strip.
Figure 17 is the second fixed strip enlarged fragmentary perspective schematic diagram.
Figure 18 is the first arc strip scheme of installation on the second fixed strip.
Figure 19 is float plate scheme of installation.
Figure 20 is float plate diagrammatic cross-section.
Figure 21 is the second fixed plate perspective diagram.
Figure 22 is flexible heat preservation mechanism schematic diagram.
Figure 23 is every radiating layer scheme of installation.
Figure 24 is every radiation layer structure diagram.
Figure 25 is transition layer structure schematic diagram.
Figure 26 is transition layer structure diagrammatic cross-section.
Figure 27 is the second arc strip scheme of installation.
Figure 28 is first gear scheme of installation.
Figure 29 is installed gear distribution schematic diagram in first axle.
Figure 30 is flexible heat preservation mechanism diagrammatic cross-section.
Figure 31 is flexible heat preservation mechanism schematic section elevation.
Figure 32 is telescoping mechanism schematic diagram.
Figure 33 is telescoping mechanism diagrammatic cross-section.
Figure 34 is the 5th gear scheme of installation.
Figure 35 is the first Fixing shrink ring diagrammatic cross-section.
Figure 36 is the second Fixing shrink ring structural schematic diagram.
Figure 37 is the 4th gear scheme of installation.
Figure 38 is the 4th gear structure schematic diagram.
Figure 39 is conducting bar scheme of installation.
Figure label title: 1, enclosure wall;2, wall;3, fin;4, the first fixed strip;5, transition zone;6, every radiating layer;7, First plate;8, expansion plate;9, the second plate;10, telescoping mechanism;11, the first arc strip;12, slide damper;13, handle;14, One fixed plate;15, first gear;16, handle axle;17, first axle;18, second gear;19, float plate;20, the second fixed plate; 21, the second fixed strip;22, third fixed strip;23, rib rod aperture;24, rib bar;25, stretch heat preservation mechanism;26, rectangular channel;27, Two arc strips;28, arc-shaped slot;29, floating lever;30, the first hole;31, first shaft hole A;32, the second hole;33, air inlet A; 34, exhaust outlet A;35, air inlet B;36, exhaust outlet B;37, sliding groove;38, third gear;39, tooth is bored;40, third axis;41, First ring;42, the first Fixing shrink ring;43, conducting bar;44, the 4th gear;45, the second ring set;46, the second Fixing shrink ring;47, Two rings;48, third Fixing shrink ring;49, the 5th gear;50, third axis;51, third fixed plate;52, the first annular groove;53, second Annular groove;54, third axis hole;55, conducting bar slot;56, first shaft hole B;57, first shaft hole C;58, first shaft hole D.
Specific embodiment
As shown in Figure 1, it include enclosure wall 1, wall 2, fin 3, the first fixed strip 4, transition zone 5, every radiating layer 6, first Arc strip 11, slide damper 12, float plate 19, the second fixed plate 20, the second fixed strip 21, third fixed strip 22, rib rod aperture 23, Rib bar 24, rectangular channel 26, the second arc strip 27, arc-shaped slot 28, floating lever 29, the first hole 30, the second hole 32, air inlet A33, Exhaust outlet A34, air inlet B35, exhaust outlet B36, sliding groove 37 are wherein pacified on the upper metope of wall 2 as shown in Figure 1,2,3, 4 Equipped with enclosure wall 1;Fin 3 is mounted on 2 side of wall;As shown in Figure 13,14, it is solid that 3 side of fin is successively uniformly equipped with first Determine item 4, the second fixed strip 21 and third fixed strip 22;First fixed strip 4, the second fixed strip 21 and third fixed strip 22 are pacified vertically Dress;As shown in Figure 14,15, a rectangular channel 26 is provided on the side of the upper end of the first fixed strip 4 and third fixed strip 22;Such as Figure 14, shown in 16, the two sides of the upper end of the second fixed strip 21 symmetrically open that there are two rectangular channels 26;On second fixed strip 21 One rectangular channel 26 is corresponding with the rectangular channel 26 on the first fixed strip 4, on another rectangular channel 26 and third fixed strip 22 Rectangular channel 26 is corresponding;As shown in Figure 15,17, second arc strip 27 is installed in each rectangular channel 26.
As shown in Fig. 2,8,10,11, the structure and third installed between the first fixed strip 4 and the second fixed strip 21 are fixed The structure installed between item 22 and the second fixed strip 21 is identical;For being pacified between the first fixed strip 4 and the second fixed strip 21 The structure of dress;As shown in Fig. 9,19, float plate 19, which is mounted between the first fixed strip 4 and the second fixed strip 21 and is located at first, to be consolidated At 26 position of rectangular channel for determining item 4 and the second fixed strip 21;One end of float plate 19 is in contact with the first fixed strip 4, the other end It is in contact with the second fixed strip 21;One end of second fixed plate 20 is mounted on the first fixed strip 4, and it is solid that the other end is mounted on second Determine on item 21;Second fixed strip 21 is located at the downside of float plate 19;As shown in figure 20, multiple are equably provided in float plate 19 One hole 30 is equably equipped with multiple floating levers 29 on the lower face of float plate 19;It is provided in the both ends plate face of float plate 19 One arc-shaped slot 28;As shown in figure 21, multiple second holes 32 are equably provided in the second fixed plate 20;As shown in Fig. 9,19, Each floating lever 29 is inserted into corresponding second hole 32;Each second arc strip 27 matches with corresponding arc-shaped slot 28 It closes;Float plate 19 slides between the first fixed strip 4 and the second fixed strip 21;As shown in Figure 10, two flexible heat preservation mechanisms 25 The downside of the second fixed plate 20 is mounted between the first fixed strip 4 and the second fixed strip 21 and is located in a manner of being arranged above and below; As shown in Figure 4,5, stretching has gap between heat preservation mechanism 25 and fin 3;Gap is no more than 2 centimetres;As shown in Figure 10, it stretches The side of heat preservation mechanism 25 is matched with the first fixed strip 4, and the other side is matched with the second fixed strip 21.
As shown in fig. 6, transition zone 5 is mounted on by the first fixed strip 4, the second fixed strip 21 and third fixed strip 22;Such as Fig. 1, it shown in 23, is mounted on transition zone 5 every radiating layer 6;As shown in Figure 25,26, there are four the upside of transition zone 5 is equably opened Exhaust outlet B36;Sliding groove 37 there are two symmetrically being opened in the two side walls of exhaust outlet B36;The downside of transition zone 5 is equably provided with Four air inlet B35.
As shown in Fig. 7,26,27, a sliding channel is constituted by two sliding grooves 37 and exhaust outlet B36;Slide damper 12 are mounted in sliding channel;One end of first arc strip 11 is mounted on the groove face of the sliding groove 37 of upside, the other end It is mounted on slide damper 12;Slide damper 12 is slided in sliding channel by the first arc strip 11.
As shown in figure 25, the downside of transition zone 5 is equably opened there are four air inlet B35;As shown in figure 24, every radiating layer 6 Upside equably open there are four exhaust outlet A34;Air inlet A33 there are four equably being opened every the downside of radiating layer 6;As Figure 23, 24, shown in 25, each air inlet A33 is communicated with corresponding air inlet B35;Each exhaust outlet A34 and corresponding exhaust outlet B36 is communicated.
As shown in figure 20, the density of float plate 19 is less than the density of water.
As shown in Figure 16,18,27, above-mentioned first arc strip 11 and the second arc strip 27 are made of memory metal.
As shown in Fig. 2,10, flexible 25 installation site of heat preservation mechanism is located at exhaust outlet B36 and air inlet in the vertical direction Between B35.
As shown in Figure 26,27, the width of above-mentioned slide damper 12 is greater than the width of exhaust outlet B36.
As shown in Figure 16,18,27, the deformation temperature of above-mentioned first arc strip 11 and the second arc strip 27 is arrived at 5 degrees Celsius Between 10 degrees Celsius, it is bent less than 5 degree Celsius of first arc strip 11 and the second arc strip 27;After 10 degrees Celsius, the first arc Shape item 11 and the second arc strip 27 are straightened.
As shown in figure 14, above-mentioned first fixed strip 4, the second fixed strip 21 and 22 inner hollow of third fixed strip and hollow portion Divide added with thermal insulation material.
The structure installed between the first fixed strip 4 and the second fixed strip 21 described above as shown in Fig. 2,4,7 and The structure installed between three fixed strips 22 and the second fixed strip 21 is identical;For the first fixed strip 4 and the second fixed strip 21 it Between the structure installed, it further includes handle 13, the first fixed plate 14, first gear 15, handle axle 16, first axle 17, second Gear 18, first shaft hole A31, first shaft hole B56, third gear 38 are wherein provided with first axle in float plate 19 as shown in figure 20 Hole A31;As shown in figure 21, a first shaft hole B56 is provided in the second fixed plate 20;As shown in Fig. 2,4,7, enclosure wall 1 is connected with Symmetrically there are two the first fixed plates 14 for installation on the metope of second fixed strip 21;Two the first fixed plates 14 are solid relative to second It is symmetrical to determine item 21;The mechanism installed in two the first fixed plates 14 is identical;For any one the first fixed plate 14;As Fig. 7, Shown in 28, one end of handle axle 16 is mounted in the first fixed plate 14, and the other end is equipped with handle 13;First gear 15 is mounted on On the periphery of handle axle 16, first gear 15 is located between handle 13 and the first fixed plate 14;As shown in Figure 10,28,29, the One axis, 17 one end passes through the first fixed plate 14, first shaft hole A31, first shaft hole B56 and two flexible heat preservation mechanisms 25, the other end Second gear 18 is installed;As shown in figure 28, second gear 18 is meshed with first gear 15;As shown in Figure 29,32, two Three gears 38 are mounted on the periphery of first axle 17, and two third gears 38 are located at corresponding two flexible heat preservation mechanisms In 25;One end of third gear 38 has cone tooth 39.
As shown in Figure 10,22, for the flexible heat preservation mechanism installed between the first fixed strip 4 and the second fixed strip 21 25, it includes telescoping mechanism 10, the first plate 7, expansion plate 8, the second plate 9, first shaft hole B56, first shaft hole C57, as Fig. 5,10, Shown in 22, wherein the second plate 9 is mounted on transition zone 5;The side of second plate 9 is connected with the first fixed strip 4, the other side and the Two fixed strips 21 are connected;The side of expansion plate 8 is mounted on the second plate 9, and the other side is equipped with the first plate 7;First plate 7 passes through Expansion plate 8 slides between the first fixed strip 4 and the second fixed strip 21;As shown in Figure 30,31, first axle is provided in expansion plate 8 Hole C57 and first shaft hole D58;Telescoping mechanism 10 is located in flexible heat preservation mechanism 25;Telescoping mechanism 10 respectively with the first plate 7 and Two plates 9 match;As shown in Figure 20,21,31, first shaft hole A31, first shaft hole B56, first shaft hole C57 and first shaft hole D58 is coaxial.
As shown in Figure 10,11,29, first axle 17 is arranged above and below peace across the first fixed strip 4 and the second fixed strip 21 Two flexible heat preservation mechanisms 25 of dress, and pass through respective first shaft hole C57 and first shaft hole in two flexible heat preservation mechanisms 25 D58;Two third gears 38 that about 17 first axle is distributed respectively in two flexible heat preservation mechanisms 25 being distributed up and down respectively Telescoping mechanism 10 match.
As shown in figure 32, above-mentioned telescoping mechanism 10 include cone tooth 39, third axis 50, the first ring 41, the first Fixing shrink ring 42, Conducting bar 43, the 4th gear 44, the second ring set 45, the second Fixing shrink ring 46, the second ring 47, third Fixing shrink ring 48, the 5th gear 49, third axis 50, third fixed plate 51, the first annular groove 52, the second annular groove 53, third axis hole 54, conducting bar slot 55, such as Figure 32,34 Shown, wherein third axis 50 is mounted on the second plate 9 by two third fixed plates 51;Two third fixed plates 51 are located at first The two sides of axis 17;5th gear 49 is mounted on the periphery of third axis 50;One end of 5th gear 49 has cone tooth 39;5th Cone tooth 39 on gear 49 is meshed with the cone tooth 39 on corresponding third gear 38;As shown in Fig. 5,33,35, the first fixed ring Set 42 is mounted on the first plate 7;The first annular groove 52 is provided in first Fixing shrink ring 42;As shown in Fig. 5,33,39, third fixed ring Set 48 is mounted on the second plate 9;There is screw thread on the inner headed face of third Fixing shrink ring 48;As shown in Figure 33,39, the one of the second axis First ring 41 is installed, the other end has screw thread on the periphery at end;Symmetrically there are two lead for installation on the periphery of second axis Item 43;Second axis has threaded one end and is mounted in third Fixing shrink ring 48 by thread fiting mode;Second axis it is another End is located in the first Fixing shrink ring 42;First ring 41 is located in the first annular groove 52;As shown in Figure 33,36, the second Fixing shrink ring 46 It is mounted on the second plate 9;Third Fixing shrink ring 48 is located in the second Fixing shrink ring 46;Second Fixing shrink ring 46 is connected with the second plate The second annular groove 53 is provided on 9 face;As shown in Figure 33,37, one end of the second ring set 45 is equipped with the second ring 47, other end installation There is the 4th gear 44;Second ring 47 is located in the second annular groove 53;As shown in figure 38,44 middle position of the 4th gear is provided with third axis Hole 54;Conducting bar slot 55 there are two symmetrically being opened on the inner headed face of third axis hole 54;As shown in figure 33, the 4th gear 44 is nested in On the periphery of three axis 50;Two conducting bars 43 are located in two conducting bar slots 55.
As shown in figure 22, added with thermal insulation material in space composed by above-mentioned first plate 7, expansion plate 8 and the second plate 9.
As shown in Figure 12,13, the side of above-mentioned wall 2 is equably provided with multiple rib rod aperture 23;Equably pacify 3 side of fin Equipped with multiple rib bars 24;Rib bar 24 is inserted into rib rod aperture 23.
As shown in Figure 10, above-mentioned as two to be arranged above and below installed between the first fixed strip 4 and the second fixed strip 21 A 25 alternative of flexible heat preservation mechanism is the quantity of flexible heat preservation mechanism 25 according to the height of building, is adjusted on demand.
As shown in Fig. 1,12,13, fin 3 is mounted on wall 2 by rib bar 24 in the present invention, then fin 3 is fixed, In addition the effect of rib bar 24 facilitates the thermally conductive of wall 2.
As shown in Fig. 9,20,21, the second arc strip 27 is matched with corresponding arc-shaped slot 28;Float plate 19 is provided with multiple First hole 30;Second fixed plate 20 is provided with multiple second holes 32;Floating lever 29 in float plate 19 is inserted into the second hole 32;It is floating The effect that movable plate 19 slides between the first fixed strip 4 and the second fixed strip 21 is: on the one hand, when ambient temperature is Celsius lower than 5 When spending, the second arc strip 27 is bent at such a temperature, so the second arc strip 27 to float plate 19 generate position-limiting action, in this way when When encountering rainy day, it is not easy to flow out from the second hole 32 from rainwater is flowed into the first hole 30, so that fin 3 will not be generated Cooling effect;On the other hand, when ambient temperature is greater than 10 degrees Celsius, the second arc strip 27 is straightened at such a temperature, Jin Er Two arc strips 27 no longer limit float plate 19, and when encountering rainy day, rainwater is flowed into the second fixed plate from the first hole 30 On 20, when rainwater is run up to it is a certain amount of when, under the buoyancy of water, float plate 19 floats, and floating lever 29 is detached from from the second hole 32, Rainwater can be flowed out from the second hole 32 at this time, and the water of outflow, which washes away fin 3, can lower the temperature of fin 3, in this way can be to wall 2 Play certain cooling effect.
As shown in figure 23, each air inlet A33 is communicated with corresponding air inlet B35;Each exhaust outlet A34 and corresponding The effect that communicates of exhaust outlet B36 be using stack effect, air can enter flexible through air inlet A33 and air inlet B35 In gap between heat preservation mechanism 25 and fin 3, then it is discharged from exhaust outlet A34 and exhaust outlet B36 again, the sky flowed in this way Gas can generate certain cooling effect to fin 3.
As shown in Figure 26,27, a sliding channel is constituted by two sliding grooves 37 and exhaust outlet B36;Slide damper 12 It is mounted in sliding channel;One end of first arc strip 11 is mounted on the groove face of the sliding groove 37 of upside, other end peace On slide damper 12;Slide damper 12 is by the effect that the first arc strip 11 slides in sliding channel: on the one hand, when When ambient temperature is lower than 5 degrees Celsius, the first arc strip 11 is bent at such a temperature, and then slide damper blocks exhaust outlet B36, Air can not be discharged from exhaust outlet B36, in the gap stretched between heat preservation mechanism 25 and fin 3 air will not output flow, And then cooling effect can not be generated to fin 3;On the other hand, when ambient temperature is greater than 10 degrees Celsius, the first arc strip 11 exists It is straightened at this temperature, and then slide damper can not block exhaust outlet B36, then air can be through air inlet A33 and air inlet B35 is entered in the gap between flexible heat preservation mechanism 25 and fin 3, is then arranged from exhaust outlet A34 and exhaust outlet B36 again Out, the air flowed in this way can generate certain cooling effect to fin 3.
As shown in fig. 7, one end of handle axle 16 is equipped with handle 13, the other end is mounted in the first fixed plate 14;First Gear 15 is mounted on the periphery of handle axle 16;One end of first axle 17 is equipped with second gear 18;Third gear 38 is installed On the periphery of first axle 17, first gear 15 is meshed with second gear 18;So staff passes through pivotal handle 13 First gear 15 can be driven to rotate;First gear 15 can drive first axle 17 to rotate through second gear 18, and first axle 17 can To drive third gear 38 to rotate.
As shown in figure 34, third axis 50 is mounted on the second plate 9 by two third fixed plates 51, the installation of the 5th gear 49 On third axis 50, then the 5th gear 49 is fixed;Cone tooth 39 on third gear 38 and the cone tooth 39 on the 5th gear 49 It is meshed, then third gear 38 can drive the 5th gear 49 to rotate;As shown in Figure 32,33, one end of the second ring set 45 is pacified Equipped with the 4th gear 44, the other end is equipped with the second ring 47, and the second ring 47 is located in the second annular groove 53, then the second ring 47 can be with Rotation is slided in the second annular groove 53, the 4th gear 44 is fixed and the 4th gear 44 can be revolved around the axis of the second ring 47 Turn;Third gear 38 is meshed with the 4th gear 44, then third gear 38 can drive the 4th gear 44 to rotate;Third axis 50 Periphery on symmetrically installation is there are two conducting bar 43, the 4th gear 44 is nested on the periphery of third axis 50, two conducting bars 43 are located in conducting bar slot 55, move then the 4th gear 44 can drive third axis 50 to rotate and not influence the axial of third axis 50 It is dynamic;First Fixing shrink ring 42 is mounted on the first plate 7, and the first annular groove 52 is provided in the first Fixing shrink ring 42, is pacified on third axis 50 Equipped with the first ring 41, the first ring 41 is located in the first annular groove 52, then the first ring 41 can slide rotation in the first annular groove 52, The axial movement of third axis 50 can drive the first Fixing shrink ring 42 mobile by the first ring 41, and then drive the first plate 7 mobile; Third Fixing shrink ring 48 is mounted on the first plate 7, and one end of third axis 50 is mounted on third by way of being threadedly engaged and fixes In ring set 48, then the rotation of third axis 50 can be threadedly engaged lower axis movement.
As shown in figure 22, in flexible heat preservation mechanism 25, in space composed by the first plate 7, expansion plate 8 and the second plate 9 Added with thermal insulation material, then thermal insulation material can make flexible heat preservation mechanism 25 play preferable heat insulation and preservation effect;As Fig. 5,10, Shown in 22, the second plate 9 is mounted on transition zone 5, and the side of the second plate 9 is connected with the first fixed strip 4, and the other side is solid with second Determine item 21 to be connected;So the second plate 9 is fixed;The side of expansion plate 8 is mounted on the second plate 9, and the other side is equipped with first Plate 7;First plate 7 is slided between the first fixed strip 4 and the second fixed strip 21 by expansion plate 8, then the sliding of the first plate 7 can So that the gap between the first plate 7 and the second plate 9 generates variation, and then change the density degree of thermal insulation material, increases heat preservation Air capacity in material, to adjust the heat insulation and preservation effect of flexible heat preservation mechanism 25.
Specific embodiment: when being in the season of hot weather, staff can be adjusted by pivotal handle 13 The thickness of flexible heat preservation mechanism 25, and then adjust the heat insulation and preservation effect of flexible heat preservation mechanism 25.When needing flexible Warming machine When the thickness of structure 25 reduces, first gear 15 can be driven to rotate by pivotal handle 13, first gear 15 is through second gear 18 drive first axle 17 to rotate, and first axle 17 drives third gear 38 to rotate;Third gear 38 is through the 5th gear 49, the 4th gear 44 drive the rotation of third axis 50;Third axis 50 be rotated in make under being threadedly engaged of third Fixing shrink ring 48 third axis 50 to The direction axial rotary of third Fixing shrink ring 48 is mobile;Third axis 50 drives the first plate 7 to the second plate 9 through the first Fixing shrink ring 42 Direction it is mobile, expansion plate 8 is compressed, and then reduces the gap between the first plate 7 and the second plate 9, flexible heat preservation mechanism 25 Heat insulation and preservation effect also with reduction, facilitate the heat dissipation of wall 2 in this way.
When being in the season of weather cold, staff can adjust flexible heat preservation mechanism 25 by pivotal handle 13 Thickness, and then adjust the heat insulation and preservation effect of flexible heat preservation mechanism 25.When needs increase the thickness of flexible heat preservation mechanism 25 When, first gear 15 can be driven to rotate by pivotal handle 13, first gear 15 drives first axle 17 through second gear 18 Rotation, first axle 17 drive third gear 38 to rotate;Third gear 38 drives third axis 50 through the 5th gear 49, the 4th gear 44 Rotation;Third axis 50 be rotated in make under being threadedly engaged of third Fixing shrink ring 48 third axis 50 to away from third fixed ring The direction axial rotary of set 48 is mobile;Third axis 50 drives the first plate 7 to the direction for deviating from the second plate 9 through the first Fixing shrink ring 42 Mobile, expansion plate 8 is unfolded, and then increases the gap between the first plate 7 and the second plate 9, and stretch the heat-insulated of heat preservation mechanism 25 Heat insulation effect facilitates the heat preservation of wall 2 also with increase in this way.
In conclusion the present invention can be stretched by manual adjustment, the thickness of heat preservation mechanism 25 realizes flexible heat preservation mechanism 25 different heat insulation and preservation effects, while the variation of the first arc strip 11 and the second arc strip 27 to ambient temperature can also be utilized Come itself and adjust different conditions, allows rainwater to wash away fin 3 to cool down wall 2 from the outflow of the second hole 32, can also make to slide Dynamic baffle 12 makes the air between fin 3 and transition zone 5 generate flowing in the case where not blocking exhaust outlet B36, and then to wall Body 2 cools down;The configuration of the present invention is simple has preferable practical function.

Claims (5)

1. a kind of heat insulation layer mechanism used for building exterior wall, it is characterised in that: it include enclosure wall, wall, fin, the first fixed strip, Transition zone, every radiating layer, the first arc strip, slide damper, float plate, the second fixed plate, the second fixed strip, third fixed strip, Rib rod aperture, rib bar, rectangular channel, the second arc strip, arc-shaped slot, floating lever, the first hole, the second hole, air inlet A, exhaust outlet A, Air inlet B, exhaust outlet B, sliding groove are wherein equipped with enclosure wall on the upper metope of wall;Fin is mounted on wall side;Fin Side is successively uniformly equipped with the first fixed strip, the second fixed strip and third fixed strip;First fixed strip, the second fixed strip and Three fixed strips are vertically-mounted;A rectangular channel is provided on the side of the upper end of first fixed strip and third fixed strip;Second is solid It symmetrically opens there are two rectangular channel the two sides for determining the upper end of item;On a rectangular channel and the first fixed strip on second fixed strip Rectangular channel it is corresponding, another rectangular channel is corresponding with the rectangular channel on third fixed strip;One is equipped in each rectangular channel A second arc strip;
It is installed between the structure installed between first fixed strip and the second fixed strip and third fixed strip and the second fixed strip Structure it is identical;For the structure installed between the first fixed strip and the second fixed strip;Float plate is mounted on the first fixed strip Between the second fixed strip and it is located at the rectangle groove location of the first fixed strip and the second fixed strip;One end of float plate and first Fixed strip is in contact, and the other end is in contact with the second fixed strip;One end of second fixed plate is mounted on the first fixed strip, another End is mounted on the second fixed strip;Second fixed strip is located at the downside of float plate;Multiple first holes are equably provided in float plate, Multiple floating levers are equably installed on the lower face of float plate;An arc-shaped slot is provided in the both ends plate face of float plate; Multiple second holes are equably provided in second fixed plate;Each floating lever is inserted into corresponding second hole;Each second Arc strip is matched with corresponding arc-shaped slot;Float plate slides between the first fixed strip and the second fixed strip;Two flexible Heat preservation mechanism is mounted between the first fixed strip and the second fixed strip in a manner of being arranged above and below and is located under the second fixed plate Side;There is gap between flexible heat preservation mechanism and fin;Gap is no more than 2 centimetres;The side of flexible heat preservation mechanism is consolidated with first Determine item to match, the other side is matched with the second fixed strip;
Transition zone is mounted on by the first fixed strip, the second fixed strip and third fixed strip;It is mounted on transition zone every radiating layer; It equably opens there are four exhaust outlet B the upside of transition zone;Sliding groove there are two symmetrically being opened in the two side walls of exhaust outlet B;It crosses It equably opens there are four air inlet B the downside for crossing layer;
A sliding channel is constituted by two sliding grooves and exhaust outlet B;Slide damper is mounted in sliding channel;First arc One end of item is mounted on the groove face of the sliding groove of upside, and the other end is mounted on slide damper;Slide damper passes through the One arc strip slides in sliding channel;
It equably opens there are four air inlet B the downside of transition zone;Exhaust outlet A there are four equably being opened every the upside of radiating layer;Every It equably opens there are four air inlet A the downside of radiating layer;Each air inlet A is communicated with corresponding air inlet B;Each air draft Mouth A is communicated with corresponding exhaust outlet B;
The density of float plate is less than the density of water;
Above-mentioned first arc strip and the second arc strip are made of memory metal;
Flexible heat preservation mechanism installation site is located in the vertical direction between exhaust outlet B and air inlet B;
The width of above-mentioned slide damper is greater than the width of exhaust outlet B;
The deformation temperature of above-mentioned first arc strip and the second arc strip is between 5 degrees Celsius to 10 degrees Celsius, less than 5 degree Celsius One arc strip and the bending of the second arc strip;After 10 degrees Celsius, the first arc strip and the second arc strip are straightened;
Above-mentioned first fixed strip, the second fixed strip and third fixed strip inner hollow and hollow space is added with thermal insulation material;
The side of above-mentioned wall is equably provided with multiple rib rod aperture;Fin side is equably equipped with multiple rib bars;The insertion of rib bar To rib rod aperture.
2. one kind according to claim 1 heat insulation layer mechanism used for building exterior wall, it is characterised in that: described above first The structure phase installed between the structure installed between fixed strip and the second fixed strip and third fixed strip and the second fixed strip Together;For the structure installed between the first fixed strip and the second fixed strip, it further includes handle, the first fixed plate, the first tooth Wheel, handle axle, first axle, second gear, first shaft hole A, first shaft hole B, third gear, are wherein provided with first axle in float plate Hole A;A first shaft hole B is provided in second fixed plate;Enclosure wall is connected on the metope of the second fixed strip and is symmetrically equipped with two A first fixed plate;Two the first fixed plates are symmetrical relative to the second fixed strip;The mechanism installed in two the first fixed plates It is identical;For any one the first fixed plate;On the first fixing plate, the other end is equipped with handle for one end installation of handle axle; First gear is mounted on the periphery of handle axle, and first gear is between handle and the first fixed plate;It wears first axle one end It crosses the first fixed plate, first shaft hole A, first shaft hole B and two flexible heat preservation mechanisms, the other end and second gear is installed;Second Gear is meshed with first gear;Two third gears are mounted on the periphery of first axle, and two third gears are located at In corresponding two flexible heat preservation mechanisms;One end of third gear has cone tooth;
For the flexible heat preservation mechanism installed between the first fixed strip and the second fixed strip, it include telescoping mechanism, the first plate, Expansion plate, the second plate, first shaft hole B, first shaft hole C, wherein the second plate is mounted on transition zone;The side of second plate and first Fixed strip is connected, and the other side is connected with the second fixed strip;On the second plate, the other side is equipped with for the side installation of expansion plate First plate;First plate is slided between the first fixed strip and the second fixed strip by expansion plate;First shaft hole C is provided in expansion plate With first shaft hole D;Telescoping mechanism is located in flexible heat preservation mechanism;Telescoping mechanism is matched with the first plate and the second plate respectively;The One axis hole A, first shaft hole B, first shaft hole C and first shaft hole D are coaxial;
Two flexible heat preservation mechanisms that first axle installs in the upper and lower order across the first fixed strip and the second fixed strip, and pass through Respective first shaft hole C and first shaft hole D in two flexible heat preservation mechanisms;Two third gears difference that first axle is distributed up and down It is matched with respective telescoping mechanism in two flexible heat preservation mechanisms being distributed up and down.
3. one kind according to claim 2 heat insulation layer mechanism used for building exterior wall, it is characterised in that: above-mentioned telescoping mechanism packet Include cone tooth, third axis, the first ring, the first Fixing shrink ring, conducting bar, the 4th gear, the second ring set, the second Fixing shrink ring, the second ring, Third Fixing shrink ring, the 5th gear, third axis, third fixed plate, the first annular groove, the second annular groove, third axis hole, conducting bar slot, Middle third axis is installed on the second plate by two third fixed plates;Two third fixed plates are located at the two sides of first axle;5th Gear is mounted on the periphery of third axis;One end of 5th gear has cone tooth;Cone tooth and corresponding on 5th gear Cone tooth on three gears is meshed;First Fixing shrink ring is installed on the first panel;The first annular groove is provided in first Fixing shrink ring;The Three Fixing shrink rings are installed on the second plate;There is screw thread on the inner headed face of third Fixing shrink ring;The periphery of one end of the second axis On the first ring is installed, the other end has screw thread;Symmetrically there are two conducting bars for installation on the periphery of second axis;Second axis has One end of screw thread is mounted in third Fixing shrink ring by thread fiting mode;The other end of second axis is located at the first Fixing shrink ring In;First ring is located in the first annular groove;Second Fixing shrink ring is installed on the second plate;Third Fixing shrink ring is located at the second fixed ring In set;Second Fixing shrink ring is connected on the face of the second plate and is provided with the second annular groove;One end of second ring set is equipped with the second ring, separately One end is equipped with the 4th gear;Second ring is located in the second annular groove;4th gear middle position is provided with third axis hole;Third axis hole Inner headed face on symmetrically open there are two conducting bar slot;4th gear is nested on the periphery of third axis;Two conducting bars distinguish position In two conducting bar slots.
4. one kind according to claim 2 heat insulation layer mechanism used for building exterior wall, it is characterised in that: above-mentioned first plate is stretched Added with thermal insulation material in space composed by contracting plate and the second plate.
5. one kind according to claim 1 heat insulation layer mechanism used for building exterior wall, it is characterised in that: above-mentioned solid as first Determining the flexible heat preservation mechanism alternative of two to be arranged above and below installed between item and the second fixed strip is flexible heat preservation mechanism Quantity according to the height of building, adjust on demand.
CN201910619664.9A 2017-12-25 2017-12-25 Heat preservation mechanism for building outer wall Active CN110331791B (en)

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CN201711418601.4A CN108457388B (en) 2017-12-25 2017-12-25 A kind of heat insulation layer mechanism that external wall uses
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EP0198864B1 (en) * 1984-10-18 1991-05-29 FANTINI, Jean Improvement of the thermal insulation of light constructions and swimming-pools and other water surfaces
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CN108457388B (en) 2019-07-23
CN110331791B (en) 2020-11-17

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