CA3054764A1 - An energy conservation house with energy-saving curtain wall, decorative wall, and plastered wall - Google Patents

Abstract

An energy-saving house has a casement window and an external wall or a roof surface provided with a number of heat insulation plates. The combined heat insulation plates provide the same heat insulation level as that of a brick wall or an external concrete wall provided with an insulation layer. An insulation structure covers all parts of the house. A curtain wall is formed by directly connecting or laying wall blocks. A plate-type insulation structure can be replaced by a film-type insulation structure. The house exhibits significant heat insulation and energy-saving performance.

Description

Description An Energy Conservation House With Energy-saving Curtain Wall, Decorative Wall, and Plastered Wall Field of Techniques 100011 This energy conservation house with energy-saving curtain wall, decorative wall, and plastered wall pertains to the construction industry.
Background Techniques 100021 1) With modern buildings, consumption of energy includes lighting, heating, air-conditioning, cooking, television, etc., among which the consumption of heating and air-conditioning takes more than half. At the same time, buildings in fashion mostly use curtain walls, whose rate of heat--loss is several times that of brick walls. If this type of buildings are constructed too much, energy shortage will soon occur. As a consequence, energy conservation of building has come to a point of urgency.
100031 The roof of building, if exposed to the sun, can be over-heated in summer. For this the technology of roof insulation 17as been well-developed: with insulation layer, water-proof layer, etc. installed onto the roof.
100041 In the past, insulation of external wall relied on thickness of brick wall or tamped wall, which is not feasible with modern buildings for reasons of weight. and saving of materials. So solid brick wall or tamped wall are being phased out.
Currently there are mainly three types of external insulation: 1. Insulation layer added outside of the wal 1 ; 2. Insulation layer in the wall ; 3. Insula.ti on layer inside of the wall. If the insulation layer is set outside of the wall, a protection layer has to be installed onto the insulation layer, and, as the latter is always soft or bubbled material, its appearance and firmness always cannot be ensured. If the insulation layer is set inside of the wall, the same problem exists. If the insulation layer is set in the wall, the . .

Face-brick Techniques (patent no. ZL201520107548.X) can be applied, and the problems of insulation, appearance, and firmness can be Lffectively solved.
[0005] Insulation of floor is similar to that of roof, also needing installation of insulation layer, water-proof layer, etc. The floor needs to be put on trusses, so that people and furniture can be loaded on it.
[00061 As far as insulation is concerned, the door and window of a building take a role as important as the external wall, because the area of doors and windows always takes approximately half of the total area of external wall. Ordinary wooden doors, metal doors, hollow-glass windows, etc. all have heat transmission coefficients much higher thaninsulatedexternal brick wall or cement wall, forming a bottle-neck to the over-all insulation. To boost insulation of doors and windows to the same level as the latter is a challenging problem. Only when this problem is well-solved, can insulation of doors and windows match that of Face-brick external wall, roof, and floor, and realize high insulation of house in the real sense, at the same time realizing a. low construction cost, making the technique applicable for general use. On the contrary, if there exist such a bottle-neck in the whole enclosure of the building, no matter how high insulation performance other parts have, that for the whole building can never be perfected.
Meantime, if insulation is solely pursued without consideration of construction cost, although the aim is attainable, its general application is not possible. In the walk of construction, none of the above challenges and problems is solved yet.
1000712)Modern curtain walls include glass curtain wall, stone curtain wall, ceramic curtain wall, metal curtain wall, and curtain wall of other materials. The advantage of these curtain walls is their beauty and grand style, which have become a feature of modern cities. Their disadvantage is the high building cost, and poor insulation performance. Modern framed glass curtaii, wall mostly use hollow glass, whose insulation performance, in comparison with single-layer glass, flan be increased for a number of times, but is still far from that of insulated brick wall or cement wall, because its metal frames transmit heat too fast, even if thermal broken-bridges are added, the problem cannot be essentially solved. Talon glass curtain wall does not use frames, but its techniques do not support multiple-addition of hollow glass, thus also can not provide the desired insulation performance.
[0008] With stone curtain wall, the stone panels can be mounted through different.
techniques, but mostly through the "short-groove" connection: short grooves are made on the upper and lower sides of the stone panel, then metal plates are used to fix their positions. This technique and the current "back bolt" connection, 'thorough groove"
connection all rely on high-strength metal frames to support the great weight of stone panels. These frames and the connecting gadgets between them and the panels consume a lot of metal materials, forming the huge building cost. If insulation material is filled between the stone panels and the external wall, its insulation performance can be boosted but is limited, as the mecal frames connect everywhere to increase heat transmission, and the metal frames have to be connected to the house frame in such a strong way as to make thermal broken-bridge difficult to be added.
[0009] Ceramic curtain wall and metal curtain wall also have the disadvantage with cost and insulation performance, similar to that of stone curtain wall.
100101 If problems in these two aspects are solved, that' s to say, if their construction costs are greatly decreased and their insulation performance is boosted to a large extent--then construction of curtain walls will be sustainable, fund and energy will be saved tremendously.
[0011]3)With decorative wall, decorating materials like tiles are glued to the external wall. With plastered wall, cement, sands, paint, etc. are added to the external wall.
These two types of wall have low construction costs, but not high insulation performances.
In comparison with high-insulation house, their insulation functions are far behind.
If the Face-brick Techniques mentioned in Vie above text are combined with these two types of walls, there would occur a problem of proport ; on between brick-wall appearance and decorati ye wall, plastered wall appearance: the amount of walls with the face-brick appearance is limited, so the former can only replace the latter in a certain range, restraining application of the Face brick Techniques. This is also a problem needing solution.
Teclaiical Solutions 100121 By means of boosting door and window insulation to a great or even unlimited extent, the bottle-neck problem of house insulation can be solved and the aims of high insulation can be attained; Through structural improvement of all types of curtain walls, decorative walls, and plastered walls, their insulation performance can be made controllable to will, and their features in appearance and feasibility of construction cost can be maintained: By renovation of already-buil t houses in comparatively easy ways, general use of high-insulation house can be realized. The details of these three aspects are as below:
[0013] 1) High-insulation House:
100141 A) Thermal insulation of buildings shall be done from the whole so as to greatly cut their heal transmission (their heat traAsmission coefficient can be far below 0.2w;
ill' = k).
[0015] B) On the basis of current techniques, insulation of doors and windows can be done per the following method:
[00161 a)As in figures 1, 2, thick glass panel 1 has the same shape and area of the door or window; holes 2 shall be made near the edges of glass panel 1; holes 3 shall be made at the positions of pivot; hole 4 be made at the position of handle; hole 5 at the position of lock.
[00171 b)Make two or more glass panels with the same shape, area, and holes as in a).
At the same time, make air-holes near the positions of upper and lower pivots (except with the outer-most glass panel, on which there shall be no air-hole).
[0018] c)On glass panels and near the edges, bar 6 of low insulation material and square cross-section (which can be made from glass or wood etc.) shall be stuck, and on bar 6 bolt holes 7 shall be made.
[0019] d)Assemble all the glass panels directly with bolts 8 put through the holes near the edges. Bolt 8 shall pass through holes 2 and 7 (in the figure bar 6 and bolt 8 are enlarged for purpose of clarity) ; Bolt head 9 shall be put on the outer side of the door or window, bolt nut 10 shall he put on the inner side; Insulating covers 11, 12 shall be respectively put on bolt head 9, nut 10; If necessary, the cover can he glued to be made firm. When bolts 8 are tightened, it shall clamp bars 6 at the edges, forming the sides of the door or window as well as the cavities between the panels.
The panels shall be thick enough to ensure firmness of the door or window (including structural strength and anti-burglary functions). The number of glass panels and the distances between them shall ensure that insulation of the door or window be boosted to the desired [0020] e)Mount parts of hinge at the position of pivot on the door or window panels:
Mount parts of lock at its corresponding position.
100211 f)Seal the seams between the glass panels with sealant. Then fill the cavities between glass panels with inert gas via the air-holes, and seal the holes. If the door or window does not need to be transparent and inert gas is not to be used, insulation plate or fiber etc. can be filled between the glass panels.
[00221 g) Manufac ture and install a door or window frame matching the door Or window panel.
As in figures 3,4, door or window panel I can be well put into frame 2when being closed.
In frame 2 there shall he a. resisting surface 3. On surface 2 there shall be a. sealing rubber bar 4, so as to make the door or window sealed at all sides when being closed.
10023111)Mount parts of hinge at the position of pivot on the door or window frame; Mount parts of lock at its corresponding position.
[0024] i)Install the door or window on the frame.
[00251 j) All the steel or iron products used above shall be galvanized or be stainless steel. (this is also applicable to the text below. For convenience, it would not be reiterated).
100261 0 Features of the above door and window: a)The door or window is made of multiple layers of glass panel, which are assembled with bolts put near the edges clamping the bars (of glass or wood etc.) between the panels to form the sides and cavities, and to avoid heat-transmitting bridges; b)Distances between the glass panels and number of the panels' layers can be selected freely without affection to the structural strength; OThrough control of the distances between glass panels and number of the panels' layers any desired insulation level can be attained.
[0027] D) Key joints for realization of the above functions of door or window:
[00281a) Connection of fasteners: Thickness of the above door or window can be increased freely. With the increment of thickness, the multiple layers of door or window' s panels may be easier to dislocate. To avoid this problem, fasteners must be installed. As in figures 5,6,7,8, bolts 1, 2(see the top view in figure 5) can be set at positions on the door or window panel where fastening needs to be done; These bolts shall clamp the innermost glass panel 3 and fastening plate 4. On the outermost glass panel another fastening plate 7 shall be installed (in the same way as plate 4). A bolt hole at the left end of fastening plate 4 shall be made. At the same time, holes shall be made oil glass panels 5,6, etc. at the same position as the hole in plate 4, and with the same size. Then put bolt 47 through glass panel 5,6, and respectively fasten the two ends of bolt 47 into fastening plate 4 and 7. On the upper part of plate 7 a connecting hole for bolt 47 shall be made (see the back view in figure 6). On the lower part of plate 7, metal plates 7a, 7b shall be set. In both of these plates holes shall be made in the horizontal direction, through which a connecting metal bar 7c. shall be assembled.
Metal bar 7c can turn in the holes of metal plates 7a, and 7b. On one end of metal bar 7e, there shall be made a metal ring Td; on the other end there shall be a resisting piece fixed to the bar through methods like welding so that metal bar 7c won' t slip horizontally. On the innermost glass panel 3 there shall be installed another fastening plate 8 (see the side view in figure 7), on which there shall be set metal plates 8a, Sb (see the top view in figure 8). In both metal plates Sa, and 8b holes shall be made in the horizontal direction, through which a connecting metal bar 8c shall he assembled.
Structure of metal bar Sc is the same as 7c. On metal bar Sd there is the metal ring Scl. Bolt 87 connects rings 8d and 7d (see the side view in figure 7).
[0029] By turning of metal bars Sc and 7c, the direction of metal rings 8d and 7d can be adjusted so as to enable bolt 87 pass them. Then fix metal rings 8d and 7d onto bolt 57 with nuts at. each side of the metal rings. When the nuts touching mental ring Sc!
on bolt 87 are turned, the distance between fastening plate 8 and 7 can be expanded or reduced, thus the positions of every layer can be finely adjusted or fixed in the vertical direction, and dislocation or deformation from gravity or other reasons can be avoided. On the side of every glass panel grooves shall be made along bolts 87 and 47 (the bars clamped by the glass panels shall be thick enough at these positions, so when the grooves are made they won' t penetrate into the cavities between the glass panels. On glass panel 5 and 6 there shall be no groove made along bolt 47).
The cross section of the grooves shall be shaped with a narrow opening but wider bottom, and with a. depth enough to totally hold the bolts. Then embed rubber bars into the grooves to seal bolts 87 and 47. The innermost glass panel 3 can be thicker than other glass panels, so as to increase strength and save material.
100301 b)Connection of hinge: As in figures 9,10, fastening plate I (see the top view in figure 9) can be installed onto the innermost panel of door or window in the same way as with fasteners. On fastening plate 1 there shall be a cylinder a, which can be connected the door frame or window frame. Cylinder a shall extend downward to form one body with the lower fastening plate 2 (see the back view in figure 10). Metal plates al, a2, hl, b2 (see the back view in figure 10), each of which has a hole, shall be installed onto the door frame or window frame. Then insert bolt c into the hole of metal plate al, insert bolt d into the hole of metal plate hi. In metal plate e there are screw holes a3 and b3. Turn bolts c and d so that they respectively enter holes a3 and b3. Then go on turning the bolts to let them respectively pass through nuts a4 and b4, as well as the holes of metal plates a2 and b2. Then add nuts a5, b5 onto the ends of bolts c and d. When the door or window is being connected to the frame, hole b6 in metal plate e shall be aligned with cylinder a on fastening plate 1. Then turn bolts c and d so as to move metal plate e, till hole b6 is fastened around cylinder a.
When both the upper and lower hinges of the door or window arc connected, the vertical position of door or window can be finely adjusted by turning bolts c, d (and the corresponding bolts of the other hinge). When all the adjustments are done, on bolts c and d the nuts a4, a5, b4, b5 shall be turned tight. So do nuts of the other hinge. If the noise from turning pivot needs to be reduced, a bearing can be installed at the posi Lion of hole b6 in metal plate e, by a bearing box. Then put the bearing around cylinder a (cylinder a shall pass through both the bearing and metal plate e).
[0031] If two fasteners or two hinges are installed at one side of the door panel or window panel, their positions can be set in symmetry and opposite to each other, as shown in figures 11,12: a. is the upper fastener, h the lower Fastener; al is the upper hinge, bl the lower hinge. If there are both fasteners and hinges on a side, the two hinges shall be put at a farther distance from middle of the side than the fasteners.
The number of fasteners on each side depends on the weight and thickness of the door or window; but on a vertical side the number cannot be less than one. If the door or window is heavy, the number of hinges can be greater than two.
100321 c) Sealing with door frame or window frame: As in figures 13,14, sealing rubber bar 1 is installed on base 2. Cylindrical rail 3, spring 4, moving block 5 are set on base 2. Screw 6 is installed on the top of rail 3 to prevent moving block 5 from leaving the rail. In block 5 there are sliding holes 7 which can slide up or down in the range of rail 3. The lower part of sealing rubber bar 1 is imbedded in base top S.
Base top 8 is connected to moving block 5 with screw 9 and screw hole 5a in block 5. By the strength of spring 4, base top 8 is always pushed upward and tightly presses rubber bar 1 on the door or window panel, making well sealing effects. At the same time, base

2 shall be installed into box 10 made of low heat-transmitting materials like glass or wood.
Box 10 shall be wide enough to give good insulation. At the four sides of door or window frame, boxes 10 shall be connected to form one body, and base tops S shall also be connected one after another (without break), so that the thorough sealing effect can be attained. Rail 3, spring 4, and moving block 5 can be continuously set along the sealing line (length of which has no limit), thus any length of base top 8 and sealing rubber bar 1 can be installed with assurance of simultaneous sealing or opening. At the mouth of box 10 the gap between the brim and sealing rubber bar 1 shall be very small. When the door or window is being closed, spring 4 shall be strong enough (and rubber bar 1 shall be elastic enough) so that rubber bar I will be tightly pressed on the door or window panel and spread sideways to totally fill the gap. When the door or wind is being opened, rubber bar 1 shall restore its shape and the gap. In the place where the base tops are connected, double screw holes 5b and Sc can be made in moving block 5 to connect the two base tops. If the noise from sliding metals on rail

3 needs to be reduced when the door or window is being closed or opened, the position of sliding may be polished, or glass sheath may be put on rail 3, then assemble spring 4, moving block 5, etc. on it.
=
[0033] E) Besides glass, the above door or window panel can be made of other low heat-transmission and high strength materials (this is also applicable to glass curtain wall and glass roof). This kind of door and window, when used together with insulated roof, insulated floor, and Face-brick external wall, can make the insulating structures cover every part of the house and reach the aim of high insulation. However, as far as appearance is concerned, if the external wall is only of face-brick, it' s not feasible with modern buildings. Only when the insulation performance of all types of curtain wall, decorative wall, and plastered wall are boosted to the same level as Face-brick wall, and costs of construction are greatly reduced¨can high insulation house be put to general use. What follows are ways for solving these problems.
100341 2) Insulated Curtain Walls, Decorative Wall, and Plastered Wall 100351 A) Glass curtain wall : The above mentioned insulated door and window can freely add hollow glass and freely select. distances between glass panels, hence its insulation level can reach or surpass insulated brick wall. Regarding this, as in figures 15,16 , glass wall block 1 and 2 can be assembled in the same way as door or window panels, and with a thickness of around 20 cm (or more), so that they can be laid on the floor without need of installing frames. Furthermore, bigger glass wall block 3 which has the same height as a storey and bigger glass wall block 4 which is higher than the storey can be assembled. When glass wall block 1, 2, 3 are laid between the floors, corresponding techniques of talon glass curtain wall (like cable, connecting rod) can be applied to further increase their safety. If bigger glass wall block 4 is installed outside the floor, pre-embedded pieces 5 and 6 can be set to sunport and fix the glass external 100361 Glass curtain walls constructed in this way (especially when the class wall is totally installed outside the floor) can not only completely solve the problem of thermal insulation, but give an appearance not second to the traditional glass curtain wall.
And their strength and durability can beat the latter. As for their weight, as indicated in figure 3, the innermost glass panel is thicker, other panels can be thinner, and the use of metal is greatly reduced, thence, the total weight is similar to that of framed glass curtain wall.
[0037] The amount of glass used in this kind of insulated glass curtain wall is more than talon glass curtain wall, hut they are self-supporting structures and the stronger materials for talon glass curtain wall can be mostly saved (the cable and connecting rod are used as a safety measure to prevent. the glass blocks from falling, but not to fix their positions), thus the cost will not rise but fall. The amount of glass used is also more than framed glass curtain wall, but the expensive frames of the latter are saved, thus the cost can be considerably reduced.
[0038] B) Stone curtain wall: As per figures 17,18, stone panel l' s connector 2 is directly embedded in external wall 3 (see the side view in figure 17).
External wall 3 must be thick enough and strong enough, may be made by laying bricks 4 or concrete blocks 5. Connector 2' s parts a and b are pre-embedded in the joint of bricks (see the side view in figure 17 and back view in figure 18. The front half of parts a and b are vertical metal plates with a hole in them; their hind half are horizontal metal plales which can he embedded in the bricks). The two ends of part c can slide in the holes of a. and b. The screw thread on part c shall match that of turning nut d. Tuning nut d is connected to part h and Can -rotate. Tts resisting piece e can prevent it from leaving part b. Insert the two ends of part c respectively into a and b, then turn d to lot it pass through d. Parts al, hi, el, and nut dl are respective the same as a, b, c, and d, but imbedded in the lower layers of brick joint. Insert the two ends of cl respectively into al and bl, then turn dl to let it pass through di. On parts f and fl there is screw thread and they respectively have bolt heads d2 and d3. Bolt heads d2 and d3 pass through the holes in part 3 and can rotate; their resisting piece el can prevent them from leaving part c. Parts rand fl respectively pass through the two fixed nuts d22 and d33 connected to part g, and also pass through the guiding holes in the bottom of part g (when bolt heads d2 and d3 are turned, nuts d22 and d33 can make part g move up or down). The lower ends of f and fl are inserted into the corresponding holes in cl. The length of f and fl &Lail be bigger than the distance between the upper and lower brick joints where the pre-embedded pieces are fixed. F

and fl are set at the two sides of c and cl' s midline so that when c and ci are moved horizontally, they will be prevented by f and fl from leaving the holes a, b, and bl. The length of c and cl shall enable them to have extra parts beyond the holes at one side while on the other side they have been moved to the limit.
[0039] The above parts need to he pre-embedded while the external wal 1 is being built.
In the later stage for installation of the stone. panels, metal plate gl, which has two bolts fll and f22, shall be connected to part g by inserting bolts fll and f22 through part g' s horizontal guiding holes hi, h2, and its turning nuts d4, d5 in the back (which have the same structure as d, dl). Then metal plate gl can be moved left and right by turning nuts d, dl, be moved up and down by turning bolt heads d2, d3, be moved outward and inward by turning nuts d4, d5. The outer part of this metal plate can be made into a right angle and form a step-shape, so as to hook the stone panel via the short groove at. its side. As the metal plate can be moved 3-dimentionally, and can be finely adjusted by turning the bolt nuts or heads, the stone panel can he precisely instal led in the desirc.cl position.
[0040] A stone panel can be fixed with four step-shaped metal plates. After these four metal plates are installed, when fine adjustment is to be made, extended or transmission sleeves and spanners need to be used for turning the bolt nuts or heads on metal plates at the lower and inner positions.
100411 Each of the above stone panels is directly installed onto the pro embedded pieces of the brick or cement external wall, sparing the huge metal frames, saving a great deal of materials, and can lower construction cost to a large extent. At the same time, the distance between the stone panel and external wall is shortened, which can improve strength and service life.
[0042] On the inner side of brick or cement wall, as per the Face-brick Techniques, a.
cavity can be sot, in which insulating fibers can be filled, and metal pieces can be added to connect the innermost face brick. This technique is the same as in the Face-brick External Wall but in an opposite direction: The face brick is put on the inner side.
For convenience, in the following text it will be called Face-brick Internal Wall Technique.
[0043] By virtue of this face-brick internal wall, insulation of stone curtain wall can completely meet the requirements. At the same time, the face-brick internal wall can directly be put to use in interior decoration.

[0044] C) With ceramic curtain wall and metal curtain wall, the installations are still easier than stone curtain wall due to their plasticity. Short grooves can be made on the sides of ceramic panel and metal panel (or on their inner side near the edges).
Then they can be directly installed onto the pre-embedded pieces of the brick or cement wall. At the same time, insulation layer and face-brick can be installed per the Face-brick internal wall technique.
[0045] D) Insulation of decorative wall and plastered wall can also be done completely in accordance with the Face-brick internal wall technique: A cavity can be set inside the external wall, in which insulation fibers are filled, and metal pieces are used to connect the innermost face-brick. Through this way, the problem of proportion between brick-wall appearance and decorative wall, plastered wall appearance can be totally solved: Its face-brick is set in the inner side, so won' t affect the decoration or plastering of external wall, thus the proportion of its use won' t he limited in any way. At the same time, the face-brick internal wall can be put to use in interior decoration. When a new decorative wall or plastered wall is being built, the Bolt type or Steel Bar type of Face-brick Techniques can be selected at will, so that the connection of external wall and face-brick can be done in a best way. When using the Face-brick internal wall technique to add an insulation layer onto a decorative wall or plastered wall that has already been built, the Bolt type is more convenient, and some adjustments need to be done: As in figures 19, 20, 21, on external wall 1 holes 2 and 3 can be made in the oblique direction (see the sectional view in figure 19 and the back view in figure 20) ; alternatively, grooves can be made in place of the holes. One end of steel bar

4 can be bent. to make ring a, whose connecting point shall be welded; the other end can he bent to make a hook shape (or any other shape which can effectively prevent the steel bar from loosening. And cast pieces, etc. can be used instead of steel bars) and be inserted into hole 2. Use the same way to make steel bar 5 (including ring al) and insert it into hole 3. Then fill holes 2 and 3 with mortar, making rings a and al overlap.
Make holes 6 and 7, which shall respectively have the same shape, size, and direction as holes 2 and 3. Then respectively insert steel bars S and 9 (which are the same as steel bars 4 and 5 and have rings a2 and a3) into holes 6 and 7, fill holes 6 and 7 with mortar, making rings a2 and a3 overlap. After the mortar in holes 2, 3, 6, and 7 has set, insert bolt 10 (or a rod with head) into rings a and al. Then onto bolt 10 add steel bar 11 (or a cast piece, etc.) through the hole of steel bar 11 (see the back view in figure 20 and the top view in figure 21). Then push bolt 10 to enter and pass rings a2, a3, and put a nut to its end (or put a fixing piece to the end of the rod with head).
[0046] In the later stage for laying face-brick, steel bar 11 can be moved up and down and be smoothly embedded into the joints of face-briek, completing a firm connection.
[0047] When newly building high-insulation decorative walls and plastered walls, if the construction costs need to be lowered to a great extent till they become lower than un-insulated single walls of same materials, it can be done that after the decorative walls or plastered walls are built, all the interior plastering and decoration be spared, and proper insulation and decoration be completed through selection of suitable materials and installation methods. See the details in the part of Concrete Implementation Methods.
[00481 3) Insulation of Houses Already Built [00491 When doing high-insulation and decoration on all types of houses that are already built, the multiple-layer and freely-controllable insulation structure described in the previous text (Technical Solutions-I) can be applied, and suitable materials can be selected for direct installation onto the original wall, roof, floor, door, window, etc. so that the desired insulation aims and cost control can be attained. See the details in the part of Concrete Implementation Methods.
Brief Description of Drawings [0050] Figures 1,2are Door or Window Panel; Figures 3,4 are Door or Window Frame; Figure is top view in the connection of fastener; Figure 6 is back view in the connection of fastener; Figure 7 is side view in the connection of fastener; Figure 8 is top view in the connection of fastener; Figure 9 is top view in the connection of hinge; Figure is hack view in the connection of hinge; Figures 11,12 are positions of fasteners or hinges in symmetry and opposite; Figures 13,14 are sealing with door frame or frame; Figures 15,16 are insulated glass curtain wall; Figure 17 is side view of insulated stone curtain wall; Figure 1S is back view of insulated curtain wall; Figure 19 is section of insulated decorative wall and plastered wall; Figure 20 is back view of insulated decorative wall and plastered wall; Figure 21 is top view of insulated decorative wall and plastered wall's connector; Figure 22 is face-brick external wall connected by brick; Figure 23 is section of air filter: Figure 24 is top view of air filter; Figure 25 is front view of air filter; Figure 26 is transitional room for frequently-used door; Figure 27 is back view of adjustment device for hinge;
Figure 28 is side view of adjustment device for hinge; Figure 29 is minor panel of door or window; Figure 30 is supporting pieces of insulated glass curtain wall; Figure 31 is section of joint for up and down insulated glass walls; Figure 32 is connection of anti-burglary rod; Figure 33 is side view of movable reflective membrane' s installation device; Figure 34 is front view of movable reflective membrane's installation device;
Figure :35 is back view of movable reflective membrane's installation device;
Figure 36 is bottom view of movable reflective membrane' s installation device;
Figure 37 is section of movable reflective membrane' s installation device; Figure 38 is front view of movable reflective membrane's installation device; Figure 39 is side view of cable or rod' s connection; Figure 40 is top view of cable or rod' s connection;
Figures 40, 41 are assemblage of thin-glass wall block; Figures 43, 44 are installation of air bag;
Figures 45,46 are front view of suspended wall block; Figure 47 is side view of suspended wall block; Figure 48 is front view of suspended inflated membrane structure;
Figure 49 is side view of suspended inflated membrane structure; Figure 50 is pressure air bag; Figure 51 is back view of inverted inflated membrane structure; Figure 52 is side view of inverted inflated membrane structure; Figure 53 is inner flexible air bag; Figure 541s sliding rod of flexible air bag; Figure 55 is alignment of connectors for insulated stone curtain wall, ceramic curtain wall, and metal curtain wall; Figure 56 is extended sleeve; Figure 57 is back view of transmission sleeve; Figure 58 is side view of transmission sleeve; Figure 59 is side view of transmission spanner; Figure 60 is back view of transmission spanner; Figure 61 is front view of double extended sleeves; Figure 62 is top view of double extended sleeves; Figure 63 is horizontal double transmission spanner; Figure 64 is back view of vertical double transmission spanner;
Figure 66 is front view of vertical double transmission spanner; Figure 66 is section of spanner' s fastener; Figures 67,68 is installation of turning nut and bolt head; Figure 69 is front view of face-brick internal wall' s connection; Figure 70 is side view of face-brick internal wall's connection; Figure 71 is front view of face-brick internal wall's connection; Figure 72 is side view of face-brick internal wall's connection.
Concrete Implementation Methods [0051] 1) Implementation of the Insulated House:
[00521A) For thermal insulation of the roof, if the roof is flat, a common way is to firstly install a water-proofing and sealing layer on the roof to ensure that it would not leak water or air; then a ventilating layer is set above the water-proofing and sealing layer to let out the expanded air when heated and also let out the water in case water enter it; then an insulation layer (which can be of various materials) is set above the ventilating layer; On top of the insulation laver is set a water-proofing and protective layer.
100531 Another common way is to firstly install a water-proofing and sealing layer on the roof to ensure that it would not leak water or air; then on top of the water-proofing and sealing layer an insulation layer (which needs to be of non-water-absorbing materials) is directly installed; then an air-permeable protective layer is set above the insulation layer.
[0054] These techniques of roof-insulation have been in use for many years.
Their main purpose is to prevent too high temperature from the roof' s exposure to the sun in summer and to avoid quick loss of heat. in winter. They prove very effective, the thicker insulation layer, the better effect. Materials of the insulation layer must not be inflammable or explosive, and a reflective layer should be installed on the insulation layer to prevent heat radiation and further boost the insulation (all the insulation layers mentioned in the following text must also meet these two conditions.
For convenience, they would not be reiterated one by one).
[0055] For slanted roofs, the insulation layer can be installed under the roof. Thanks to protection of the roof, the insulation layered would not be directly exposed to the sun and not wetted by rain. Therefore the ventilating layer, water-proofing layer, and protective layer mentioned above can be spared (but the sealing layer at the bottom cannot be omitted), and can be of various materials. The insulation layer needs to cover the whole of the roof' s under-layer. If the roof has strong enough supports, the insulation layer can be directly installed on them, otherwise supports need to be set up beforehand.
[0056] B) As the walls are vertical, the insulation materials cannot be laid as on the roof, increasing difficulty of installation. At the same time, modern buildings are comparatively tall, if the insulation materials are instal led outside the wall there can be caused potential dangers, nor can the visual effects be ideal. If the conventional insulation materials are installed inside the wall, although the potential dangers are decreased, the protective layer' s strength, performance, and visual effects are still big problems.
[0057] If the insulation layer is installed in the wall, then the above problems of safety, strength, performance, visual effects, etc. can all be solved. Yet when the insulation layer is set in the wall, there must be a cavity, and if the wall has a big area the -cavity' s strength and seismic resistance are also problems that must be solved. The techniques of Face-brick External Wall mentioned earlier can provide well solutions for them. Further, these techniques can freely adjust width of the cavity and thickness of the insulation layer, making the external wall reach any needed thermal insulation performance. When applying these Face-brick External Wall techniques, under extreme weather conditions and temperature differences, the house' s frame may form a disadvantageous thermal bridge. At this time, a reinforcing insulation layer needs to be installed at positions of the frame. As this installation is for part and small areas, it can be duly done through interior design.
100581 When applying the Face-brick External Wall techniques for insulation, the techniques can be extended as follows:
100591a) With the type of Bolt Connection, for every certain height when the concrete blocks are being laid, a thinner block can be laid which height shall be just a little bigger than a layer of face-brick (alternatively a number of layers by bricks can be laid, which height shall be just a little bigger than a layer of face-brick);
At the same time, the bolt shall be pre-embedded directly at the thinner layer, thus it can be avoided to use longer bolt at bigger blocks, and the material can be saved, strength raised.
100601b) With the type of Bolt Connection, around the bolt can be put a sheath of low heat conductivity coefficient and of enough strength and hardness (which can be made of glass etc. Dimension of the sheath shall make it exactly fit the bolt without gap.
The thicker sheath wall, the better insulation). Then a loop of steel bar can be put around the sheath, forming a thermal broken-bridge to further reduce heat conductivity.
100611c) Widen the face brick to around 20cA so that it can be independently laid with enough strength and not needing to be connected to the inner wall (but the top and bottom of the bricks need to be connected to the house's floor or frame, and it shall be avoided to make too high a wall at the lobby etc. without connection or away fr...Jm the house frame. With items d, e, f below, it's the same). In this way the total width of the external wall is bigger, but the heat conductivity of metal connectors is prevented (although the amount of heat transferred by them is not much), further boosting the insulating performance.
100621d) Use concrete blocks for both inner and outer wythes, and spare the connection between them. In this way the outer wy the needs to be decorated, hut the cost of building will be reduced and the speed of construction will be raised. For buildings not needing visual effects of real bricks, this method has an advantage.
100631e) Use hollow bricks around 20cm wide for both inner and outer wythes, and spare the connection between therm If the visual effect of bricks is to be used, the outer wythe does not need to be decorated: If other visual effects are to be used, the outer wythe still needs decoration. In districts where hollow bricks are of low price, this method also has an advantage.
100641f) Use concrete blocks to lay the outer wythe, and bricks of enough dimension to independently lay the inner wythe, sparing connection of the two wythes.
Under certain conditions, this method is feasible (For instance, if the interior decoration needs brick effects, this method is advantageous over that of d).
100651g) Use hollow bricks for both inner and outer wythes (if the house is not tall, technically solid bricks can also be used. But they consume more material and are heavier), one of which can have smaller width. Use metal connectors to tie the inner and outer wythes, reaching enough strength. Alternatively, bricks can be used to directly connect the inner and outer wythes as illustrated in figure 22: In the figure brick 1, 2, 3, 4,5 have the same dimensions; Brick 5 is laid crosswise to connect the inner and outer wythes; At the two ends of brick 5, half bricks 6,7 are laid. To make the construction simpler and more convenient, brick 8 can be produced specifically for crosswise connection; Length of brick 8 is equal to that of brick 5 plus 6, 7(including the joints). When laying brick 5 or 8, their amount shall not be too high (for each square meter one or two of them are enough) because too many crosswise bricks will increase heat conductivity; Also, their amount shall not be too low, so as to ensure the strength.
[00661h) Use thin concrete block to replace face-brick, and connect it to the main wythe ulu.ough bolt etc. With the structure of Face-brick External Wall, decoration needs to be done on this thin concrete block; With the structure of Face-brick Internal Wall, decoration also needs to be done on it. However, besides providing well protection to the insulation layer between the inner and outer wythes, and making the external wall strong enough, this thin concrete block can further reduce the cost of building and the lower its weight. If it is used for thermal insulating renovation on already-built decorative wall, plastered wall, stone curtain wall, ceramic curtain wall, metal curtain wall, etc, the connection method in Technical Solutions-2D (figures 19,20,21) can be applied.
[00671'11e face-brick external wall, all sorts of brick walls, and concrete block walls, etc, which have cavities, will form a breathing mechanism: When the wall is heated, air will be expelled from inside, when cooled air will be sucked in. To prevent vapor from being sucked into the wall to affect insulating effects, the wall can be sealed with only a number of air-filtering pipes set inside the house: As in figures 23,24,25, air-filtering pipe 1 is slightly-slanted (about 5 ) and fixed to a base (seethe section in figure 23); At the lower part of air-filtering pipe 1 is set stainless steel net 2 (which can have multiple layers put at a distance to each other); At the upper part of this pipe is lime channel 3; At the lover part of lime channel 3 is stopping plate 4 which can prevent the time from slipping downward; In lime channel 3 is put unslaked lime whose height shall not surpass that of stopping plate 4; At top of channel 3 is set transparent glass 5 (or other transparent materials) for observation of the lime, and it can be taken off when the lime needs to be changed. If the air-filtering pipe needs to be extended, its route can be set to and fro with each segment near to each other (see the top view in figure 24). At the same time, the pipe's part of lime channel can be set horizontal and the number of stopping plates 4 can be reduced; The pipe's part with stainless steel nets still needs to be set slant, which can have a Z-shape (see the front view in figure 25) or a spiral shape, so that its channel can continually descend to prevent blocking of water drainage when the vapor condenses. The pipe's part with stainless nets needs to be made of metal and set in a container of cold water for the vapor to condense; The top end of the pipe shall be connected to the inside of the wall; The bottom end of the pipe shall go through the cold water container and then meet a funnel and drainage pipe (it cannot be directly connected to the drainage pipe so as to prevent damp air of drainage pipe from being sucked in). After the unslaked lime becomes powder, it shall be changed for new unslaked lime. Other moisture-absorbing materials can also be used instead of unslaked lime. In addition, basin with lime or other moisture-absorbing materials can be put in the wall cavity near the drainage and inspection hole and be changed at fixed period.
100681 Besides the face-brick external wall, the insulation house can also use various types of curtain walls (glass curtain wall, stone curtain wall, ceramic curtain wall, metal curtain wall, and curtain walls of other materials), as well as insulated decorative wall, plastered wall, etc. Besides the above conventional insulated roofs, the insulated house can still use roofs of multiple glass panels (see details at Implementation Methods of Insulated Glass Curtain Wall-A in the following text), or roofs of other low-thermal-conductivity materials with same structure as the glass panels.
[0069] C) With installation of the door or window, if the conventional wood door, glass door, metal door, aluminium alloy window, glass window, etc. are used, none of them can attain a high enough insulation level. Then the controllable multiple-layer glass door and window (which glass shall have treatments with low heat-radiation membrane etc. All the glass walls and glass roofs in the following text need to have this sort of treatments; At places where there are special requirements of view, movable reflective membrane can be used instead)described earlier (Technical Solutions-1) or door and window of other low-thermal-conductivity materials with same structure and technical principles as the multiple-layer glass must be used to achieve the same thermal performance as the insulated roofs and external walls.
100701 The fasteners for reinforcement at sides of the door, window, and external wall etc's glass panels or panels by other low-thermal-conductivity materials can be made of metal or other materials with high strength.
[00711 Between the glass panel and the bolt or other metal connectors there shall be set a gasket. to prevent the glass from being harmed (this shall apply with all glass panels in the following text. For convenience, they would not be reiterated).
100721 This type of door and window uses thick glass and firm installation, thus its strength and anti-burglary function can be much higher than conventional doors and windows, and its service life won't be shorter than them.
[0073]At places of exit, entrance, etc. where the door is frequently opened and close, a transitional room can be set as in figure 26: Doors 1,2 are normally closed;
When door 1 is opened door 2 is closed, when door 2 is opened door 1 is closed, so heat conductivity by the air can be gieatly reduced.
[0074] In the hinge connection of door frame or window frame (see figures 9,10), the frame's metal plate e can be vertically adjusted. If it needs to be made adjustable in the left-right direction, it can be done as in the back view of figure 27:
Metal plates 1,2,3,4 with smooth holes can be horizontally pre-embedded or installed;
Beforehand, threaded metal rod 5 shall be put in the holes of metal plates 1,2, and threaded metal rod 6 shall be put in the holes of metal plates 2,4; On metal rod 5 shall be set vertical holes al,b1; on metal rod 6 be set vertical holes a2,b2. The rest of connection is the very same as in figures 9,1O In i r ,.....gare 27, by turning the horizontal bolt nuts on metal rods 5,6, metal plate e can be adjusted in the left-right direction.
If it needs to be made adjustable in the inward-outward direction at the same time, metal plates 1,2,3,4 in figure 27 can all be set with the same structure as in the side view of figure 28: Bolts 7a, 7b are embedded or installed up and down at the frame; By turning the nuts on them, metal plate 7 can be adjusted in the inward-outward direction.
Besides, metal plates 2,4 in figure 27 can be set at the right side of holes bl,b2, while metal rods 5,6 are extended rightward to go through the holes in metal plates 2,4 (In this way metal plate e needs to be extended in many cases, otherwise it cannot pass the position of metal plates 2,4 to reach the connector of the door or window panel.
If metal plate e is not extended, then the connector of the door or window panel needs to be extended to reach metal plate e. When extending the connector of the door or window panel, if it is very long, the pivot on the connector shall be set in a pair rather than just one; at the same time, metal plate e of the door or window fame shall also be set in a pair so as to clamp the connector enabling it to support independently and greatly reduce the stress on the door or window panel. When using this connection of pivots-in-pair, for door or window whose pivots are set vertically, it's horizontal length on the door or window panel can be set very big to support very wide door Of window; for window whose pivots are set horizontally, its performance for safety is also higher than single pivot). The cross-section of metal plate e can be a L-shape, "[" shape, or a square shape, etc, whose bending strengths are much higher than a flat plate.
[00751 If the door or window is set at the inner side of the house, when the sealing device of the door or window's frame is installed (see Technical Solutions-1Dc, and figures 13,14 ), the door or window's panel will be moved inwards and may cause a visual effect of being sunk. If it is needed to make it flush, a minor panel can be added on the outmost panel: As in figure 29, door or window panel l's minor panel 2 is flush with frame 3 when the door or window is closed; Between minor panel 2 and door or window panel I is set bai-shaped matelial 4 which is Giamped by ben 5, Cavity G eau have air-holes at the upper and lower parts of its inner side which holes shall be connected to other cavities. If the door or window is set at the outer side of the house, when the sealing device of the door or window' s frame is installed with the device concealed under the external wall' s surface rather than bulging out, the door or window's panel will also be moved inwards and may cause a visual effect of being sunk. If it is needed to make it flush, a minor panel can he added on the outmost panel in the same way.
100761 When the door or window is closed, the gap between the door or window panel and the frame may infiltrate water in rainy days. On all doors or windows opening outward and inward, at the bottom of their frames water-collecting channels and drainage tubes shall be set, which channels and tubes are connected to the drain-pipes in the house or are directly connected to outside the wall.
[00771D) Insulation of the floor at the lowest storey of the insulated house can be clone with reference to the insulation of the roof, and as per this solution:
a)Install the water-proofing and sealing layer at the bottom; Kay the insulating layer of non-water-absorbing materials on top of the water-proofing and sealing layer;
If other insulating materials are used, a water-proofing layer needs to be set on the insulating layer; c)Set joists above the insulating layerandthewater-proofing layer with a space under the joists to form a ventilating layer with outlet; d)Install the floor on top of the joists.
100781 Insulation of floor needs only to be done at the lowest storey of the house. If the house has multiple levels of basement, and the soil around the basement is dry, then there is no need to do insulation on floor of the lowest basement or on its walls.
If the house's basement is used as a garage without insulation, then on the first floor above ground insulation needs to be done.
100791 E.) Determination of thickness with the roof, external wall, door, window, and floor: According to different climatic conditions, the house's planned insulation level (or heat transmission coefficient), and choice of materials at each part, the structure and thickness of materials (not just those for the insulating layer) shall be determined.
Due to different heat conductivity coefficients of different materials, when there are multiple materials for choice, determination of material shall be done before that of thickness; When the material has been decided on, preliminarily detemine its thickness according to requirements of insulation; Then do theoretical calculations and actual tests to ensure that the heat transmission coefficients of every location are similar or matching each other without forming a bottle-neck. At the same time, the exposure to heat at different locations of tholtouse need to be thoroughly examined (for instance, the roof is directly exposed to the sun, its requirements on insulation is higher than that of the external wall; The part of external wall near the stove also has a higher requirements on insulation than other parts), and adjustments shall be done accordingly.
[00801 F) As the insulated house is tightly sealed, its rooms in which people live and its public areas must be ventilated at fixed time everyday by opening the door and window.
It shall be avoided to save a little energy of temperature adjustment by bringing stale air or potential danger. The rooms where nobody lives shall have the windows closed and the movable reflective membrane spread so that they would not affect insulation of the whole building. Ventilation of the stair case etc. shall be done by connection to the public area of lobby etc. rather than directly opening to the outside;
Small rooms shall keep air-circulation with the public area (louver for ventilation can be set). Ventilation of kitchen, toilet can be done with direct opening to outside, but its internal wall and door must have an insulating layer (this insulating layer can have a lower level than the external wall because the ventilation of kitchen needs to be done only when cooking is being done, and that of the toilet needs not to be done at too high a speed, resulting in temperatures of these rooms different from that of outside. This insulating layer shall be set on the basis of temperature in the rooms), and its performance shall match that of the whole building predetermined.
100811 In very cold or hot areas (or areas with fickle whether), there must be adequate anti-cold or anti-heat equipment in the insulated house in case the door, window, roof, etc. of the house get damaged and frostbite, heatstroke, or other dangers be caused.
In areas of milder climate the preparation must also be done in cold and hot seasons.
[008212) Implementation Methods of Insulated Glass Curtain Wall [00831A) When the glass wall is installed outside the house's frame, if the frame is reinforced concrete, supports need to be pre-embedded. As in figure 30, supports 1,2,3,4 can be pre-embedded in the frame at the floor-level of a storey; supports

5,6,7,8 can be pre-embedded at in the frame at the ceiling-level, of a storey. Supports 1 and 2, 3 and 4, 5 and 6, 7 and.8 are respectively close to each other forming pairs to increase the strength (suppose one support in a pair is damaged, the other must. be able to bear the whole weight). On each support there is thread, and the length of the support shall surpass thickness of the glass wall, so that bolt nuts can be installed. At the side of glass wall 9 there are fasteners (see figures 5,6,7,8 for their specific structure) to prevent the multiple layers of glass panel from dislocation and deformation. Glass wall 9 shall be installed on top of supports 1,2,3,4 and below supports 5,6,7,8; Then install the gasket and bolt onto the thread of the support. Between glass wall 9 and supports 5,6,7,8 there shall be left a space as an expansion joint. Top of this expansion joint and top of the glass uall must be fully covered behind the bolt nut and gasket.
All the supports must bear the weight of the glass wall above them and at the same time fix the position of glass wall below them. The part of the support that contact the glass wall shall have a rectangular cross section which should be level to increase the area of contact with the glass wall; The part of the support beyond the glass wall shall have a circular cross section so that the thread and bolt nut can be set. If the glass wall has such a great weight that two pairs of supports are not enough to bear it, then the number of supports shall be increase for the same glass wall.
[0084] If the above supports 1,2,3,4 and 5,6,7,8 cannot be well aligned horizontally when being pre-embedded, then each support shall be made vertically adjustable: Two vertical threaded holes can be made in the support at the part of contact with the glass wall; Then turn two vertical bolts (the bolt head facing upward) into the threaded holes respectively, and turn the bolt heads to align them to the same level for the same storey;
Then tighten the bolt nut at the lower end of the bolt; Lastly put a rectangular metal box-cover onto the two bolts (thickness and width of the box-cover shall be adequate to bear the glass wall and reduce the load per unit area) ; at the same time increase diameter of the horizontal bolt nut and its gasket to prevent the glass wall from moving Off the bolt and gasket' s covering range.
[0085] Between two horizontal glass walls there shall be set an expansion joint also.
The gap between two horizontally or vertically neighboring glass walls shall be sealed.
At places where there are people passing or staying tempered glass needs to be used.
[00861 The joint between an upper and a lower glass wall can have the section as in figure 31: The inner sides 1,2 of an upper and a lower glass wall are level; The outer sides 3,4 of them are beveled. In this way rain can be prevented from entering into the wall or inside the house. At where the supports are installed, the glass block above the joint shall have its outer side 3 filed flat, so that the support can pass through the channel made by the filing (the channel can also be made by directly moldag etc.. which can form the same shape), and every layer of the glass wall can be put on the support;
At this position, the glass wall under the joint should not have its outer side 4 beveled, but keep the original shape (which section is of a right angle), so as to prevent the bolt nut and gasket on the support from not contacting the glass wall or not haying a big enough contact area to make a strong enough cover and fixation. At the position of support sealing must be done by sealant to make good water-proofing. Each layer of glass (except the outermost layer) with the glass wall shall have a small hole at the upper and lower ends for filling inert gas and to be closed. In case water enters the glass wall causing vapor, it can be expelled through the hole also. The holes of every layer shall be aligned so that they can be blocked or opened at the same time (All the glass walls and roofs in the following text shall have this kind of air-hole.
The door and window shall also have air-holes set in this way. ) 100871 Anti-burglary devices shall be installed inside the glass wall at positions where necessary. In figures 1, 2, the length of bolt S can be extended and an extra bolt nut can be set at its inner side; Then this bolt, can be connected to the anti-burglary rod fixed at. the house frame. Connection of the anti-burglary rod can be done as in figure 32: The two ends of anti-burglary rod I are looped with the ends welded; Ring a of anti-burglaryrocll is connected to bolt 2 of the glass wall through bolt nut a4 (Between ring a and bolt 2 there shall be set an insulating sheath; At the two sides of ring a there shall be set insulating rings a2, a3 respectively; The insulating sheath and insulating ring can be made of glass or other materials with low heat conductivity coefficient and with certain hardness and strength; The thicker material, the better insulation: But diameter of the insulating sheath must be smaller than that of bolt nut al, so that even if insulating ring a3 is broken and has fallen off, ring a of anti-burglary rod I won't move off bolt 2 for a bigger diameter than that of bolt nut al). On bolt 3 there is set bolt head 4 and thick. metal gasket 5; Anti-burglary rod l's ring b is put around bolt 3 and fixed with bolt nut 6; Bolt 3 is inserted into the holes of metal plates 7,8; Metal plates 7,8 are fixed to the house frame or floor; Bolt nut 9 is put outside metal plate S. When bolt nut 9 is turned tight (at this time bolt head 4 needs to be fixed with a wrench etc.), anti-burglary rod 1 will be pulled tight (it shall not be pulled too tight and harm the glass). When being actually installed, anti-burglary rod 1 needs to be installed to bolt 3 first; Then bolt 3 shall be put into holes 7,8; Then the glass wall shall be installed; Lastly anti-burglary rod I shall be connected to bolt 2.
100881 At bolt 2's end there shall be set a pin to prevent bon nut al from falling off the bolt if the bolt head outside the wall is turned; At the same time, a stopping block shall be set on the house's frame or floor to prevent anti-burglary rod 1 from turning together with bolt 2 (If bolts 2,3 are set very near to the house frame or floor, this can also prevent anti-burglary rod 1 from continuously turning). If the force from anti-burglary rod 1 onto the glass wall needs to be made more even, the rod can be set in a symmetrical pair (with a shape like turnbuckle). In addition, for better visual effects, position of metal plates 7,8 needs to be accurate; Dimensions of anti-burglary rod 1, bolt 2,3 need to be uniform. After the above connectors have been installed, insulating caps need to be installed on bolt 2 and its nut al (see Technical Solutions-lBd and figure 2). As on bolt 2 there are added many components, on its nut a4 an insulating cap cannot be installed; then an insulating ring can be put around it beforehand.
[00891 If steel structure is used for the house frame, the above pre-embedded components of glass wall can be directly installed on the steel structure, and the rest of installation is just the same. As the insulation layer is set outside the house, the disadvantage of steel structure's insulation can be eliminated.

100901 The above glass wail can also be horizontally or obliquely installed at the roof for skylight. Meanwhile, the supporting structure must be strong (being able to bear the total weight of roof and the maximum possible rain and snow loads, wind load, earthquake impact, etc. ; It must also meet requirements of planned performances with rust-proofing, corrosion resistance, and aging resistance. All the roof supporting structures in the following text must be the same as these) Its specifics vary according to the specific shapes and structures of different buildings. Also, movable reflective membranes need to be installed to prevent a disadvantageous greenhouse effect or heat radiation. Installation of the movable reflective membranes can be done as per figures 33, 34, 35, 36, 37, 38: Pivots 1, 2 are respectively installed at the two sides of the glass pane I (see side view in figure 33) ; Between the pivots there is guiderail 3;
Reflective membrane 4 covers the total area between pivots 1,2; At the two sides of reflective membrane 4 there are multiple connectors 5 to connect it to guiderail 3 (see front view in figure 34, in which the view is enlarged for clearer display) ; In connector 5 there are pulleys a, b, c, d and al, bl, cl, dl (see the back view in figure 35, which is enlarged for clearer display), which can slide along guiderail 3; One end of reflective membrane 4 is connected to pulling strip 6 (see the side view in figure 33), whose length equals that of membrane 4; On the pulling strip there are also connectors 5 to prevent it from leaving guiderail :3. When spreading the reflective membrane, turn pivot 2 by electric motor or manually, so the pulling strip would be scrolled around the two ends of pivot 2 pulling membrane 4 along guiderail 3; When moving off the reflective membrane, turn pivot 1 by electric motor or manually, so membrane 4 would be pulled back along guiderail 3 and scrolled around pivot 1. At the two ends of guiderail 3 are set oblique panels 7,8 (see the upward view in figure 36 and the section in figure 37) on which there are pulleys; Iii the space between oblique panels 7 and 8 only the reflective membrane and tho pulling strip can pass; The pulleys on the oblique panels can push connector 5 outwards and upwards, so as to guide them to guiderail 3. When pivots 1,2 have been installed, there must be set a shell which can support the total weight of them, and should be installed as close to the wall as possible. Connector Sand its pulleys need to be made of light materials like plastic etc., with minimized dimensions on the condition of keeping adequate strength; The pulleys of connector 5 shall he totally covered under its shell to prevent the connector from being intertwined to each other.
Through this Connection With Pivots, as long as the material of the reflective membrane is light enough, it can cover a rather big width (This width is mainly limited by pivots 1,2: If pivots 1,2 are two wide, the installation would not be convenient);
There is almost no limit to the length which this reflective membrane can cover.
100911Ifa reflective membrane of very big width needs to be installed, it can be done as in the front view of figure 38: Ring 9 for pulling cable is set on connector 5; Pivots 1,2 and oblique panels 7,8 in the Connection With Pivots are omitted so that reflective membrane 4 and pulling strip 6 can be moved along guiderail 3 by pulling the cable in ring 9: The cable can be pulled with electric motor or manually. When the reflective membrane or pulling strip is moved to the limit, they will be folded; thus they shall be made of materials not easy to leave folding marks. The middle section of the pulling cable is connected to the joint of the reflective membrane and the pulling strip so that it can be moved in either direction to make the reflective membrane spread or fold.
When being pulled, the cables along both the guiderails at the two sides can be rolled together to realize synchronous operation. This type of Connection With Folding needs to occupy a certain area after the reflective membrane is folded; If it is necessary to avoid its occupation at the roof, guiderail 3 can be extended downward or upward along the inner side of external wall, so as to move the folded reflective membrane to the inner side of wall. If the distance between two connectors 5 along guiderail 3 is made greater, it can also reduce the occupied area by the reflective membrane on the roof.
10092111e above reflective membrane installed by Connection With Pivots and Connection With Folding can be applied on the roof as well as other positions.
[00931 For the purpose of drainage, the roof usually needs to have a slope, and between the glass panels there shall be well overlapping or sealing.
[0094] If the visual effect of conventional framed glass curtain wall needs to be made on the above glass curtain wall (and on all the other glass curtain walls mentioned in the text below), holes can be made in tha outermost glass panel and metal bars can be installed at the holes (The different thermal expansion coefficients of different materials and firmness of installation need to be fully Considered. For materials with different thermal expansion coefficients, expansion joints shall be set; For firmness of installation, bolts and nuts shall be used for connection). This method can also be used for other visual effects (including using whole metal panels to make the visual effect of metal curtain wall. When doing this, it must be prevented that dark face panels absorb the sunray and get overheated, for which an isolating layer shall be set).
p00954 Thick glass and firm installation are applied on this type of glass curtain wall, whose strength is not second to any other glass curtain walls, yet with a much longer service life.
100961 B) If the glass wall is installed between the floors, it is not advantageous for insulation of the whole house. However, in comparison to the above installation method which puts the glass wall outside the house frame, this way of putting them between the floors can use glass walls of smaller dimension, and also spare the fasteners at the glass wall's sides. Under many circumstances (e. g. in areas not too cold or too hot) this way has the feasibility for use. Now, as dimension of the glass wall block can be smaller than the distance between the floors, the glass wall blocks can be laid one upon anther (According to dimensions of different wall blocks, one layer or multiple layers can be laid. The smaller wall block, the less advantageous insulation) ; Meanwhile, each wall block shall be connected by bolt to a pulling cable or pulling rod.
As the position of pulling cable or pulling rod can be set very near to this bolt, their connection can be done as per figures 39, 40: Two rings a, b are set at the two ends of connecting rod 1; Holes al, bl and U-shaped bolt 3 are set on connector 2 (see the top view in figure 40, which is enlarged for clearer display). After the position of pulling cable or pulling rod 4 is precisely adjusted, put bolt, 3 through holes al, lii, and turn the bolt nuts onto it; Then connect ring b of connector 1 onto bolt 3; Lastly tighten all the nuts on bolt 3. The connection of the pulling cable or pulling rod and the floor can be done by embedded parts in the floor, which embedded parts can be 4 metal plates with holes and can make 2-dimensional adjustments like the hinge of door or window (see Technical Solutions-Bb and figure 10, also Implementation of the Insulated House-C
and figure 27), so that the position of pulling cable or rod can be adjusted in the outward-inward and left-right directions. In addition to the wall seams with structural sealant, the pulling cable or rod shall be able to prevent the wall block from falling off and hold its total weight; As lung as this aim can reached, the pulling cable or needs not to be set too thick or too tight.
100971 The strength of this type of glass curtain wall is also not second to any other glass curtain walls, yet with a much longer service life.
[0098] When the glass wall is continuously laid in the horizontal direction, an expansion joint shall be set at every curtain distance. In the vertical direction, the structure and materials of the house, as well as climatic conditions shall be examined before deciding whether to set expansion joint. If the block-laying joint has a curtain thickness and elastic structural silicone adhesive is used, it can bring a curtain function of expansion joint. If the expansion of house frame is greater than that of the wall, then more detailed calculations and experiments need to be done.
[00991 The gap between two glass blocks and that between glass block and floor need to be sealed. At places where there are people passing or staying tempered glass needs to be used.
101001 Motionless glass walls (whether they are installed outside or between the floor) usually won' t be shaken or impacted like the door or window. In this case the house needs only to set a layer of thick glass on the outside at its ground floor (for anti-burglary purpose), and other storeys of the house need only to seta layer of thick glass at the inner side; at the same time, all the other layers can have the thickness of glass greatly reduced while keeping thickness of the bars clamped between the glass panels unchanged. In this way the weight of the glass wall can be minimized without reducing its whole strength and insulating performance. In a house possible to get impact to the inside of room at the ground floor, a layer of thick glass can also be set at -the inner side. In an area with strong wind or at the higher storeys of a building, if the outmost layer of glass is of thin anti big glass panel, calculations of wind load and experiments need to be done in emphasis, so as to prevent the glass from damage by the wind; If the wind is too strong, glass of corresponding thickness and strength must be used (All the external walls with thin glass in the .following text shall be the same as this). When the glass wall block is horizontally or obliquely installed at the roof, the bottom layer of glass cannot have a reduced thickness; The intermediate layers of glass can have thickness reduced; At places where it is possible to be impacted by hail etc. or have loads of rain or snow, the top layer of glass also must have corresponding thickness and strength (this also fits all the roofs in the following text and roofs of other materials).
101011C) For the glass wall installed outside the house frame, if it is desired to omit the fasteners at its sides, the pre-embedded suppor Ls at the floor under the glass wall need to be set stronger; at the same time, each of the four bolts at the four corners of every wall block needs to be connected to the anti-burglary rod. The anti-burglary rods shall be able to hold the total weight of the wall block and provide the dual functions of preventing burglary and increasing structural safety. At storeys above the ground floor, if there is no impact of external forces or strong wind, all the glass except that of the door or window can be set as thin tempered glass, cancelling thick glass.
101021 The whole glass external wall has the function of light transmitting.
Awindow set in the internal wall is needed only when there is no door in the wall and ventilation is desired.
Rica" For the glass wall laid between the floors, at storeys above the ground floor, if there is no impact of external forces or strong wind, all the glass except that of the door or window can also be thin glass. Assemblage of the wall block of thin glass between the floors can be done as per figures 41,42: The bigger dimension of glass panel 1 (as long as it is not greater than the distance between the floors), the better insulation; The smaller dimension of the glass panel, the better strength; On side 2 there are stopping bars 3,4,5which can be glued at every certain distance by structural adhesive to fix positions of glass panels 6 of each layer; Then glue together two adjacent sides and one glass panel: Next glue other glass panels; Finally glue the other two sides. Near the top and bottom of each glass panel (except the outermost panel) there shall be set an air-hole respectively for filling inert gas, or removing vapor incase water eniers the cavity, -..: If the wall block is smaller, dimension of the air-hole shall be proportionally smaller, and colorless sealing material shall be used on the hole, so that the visual effect would not he affected.
p01041 This type of glass wall laid between the floors needs not to use bolt, pulling cable, pulling rod, etc., thus the probability of its falling off is increased. However, if tempered glass is completely used where people may pass or stay and railing or protective net is installed inside the room near the glass external wall (For thin glass wall installed outside the house frame, the railing or protective net must also be installed), the problem of safety can be solved.
101051 The strength and expected service life of this type of glass curtain wall by laid blocks are similar to those of framed glass curtain wall.
p31061 The advantage of the above glass walls installed outside the house frame and between the floors is that the cost of building will be reduced further and to a great extent, even lower than that of decorative wall or plastered wall; At the same time, its visual effects won't be second to any other curtain walls. With another advantage of thermal insulation in addition, it is possible to gain popularity.

[0107] For a conventional glass curtain wall already built, if renovation for the high insulation needs to be done, the thin glass curtain wall can be laid inside the original glass curtain wall and at the edge of the floor. As the weight of the whole wall is increased, calculation shall be done on the building's structure and the foundation's loads; If necessary, reinforcement shall be done.
[0108]The wall block of thin glass can also be used for internal partition wall. At this time, the number of glass layers can be reduced, and smaller glass wall blocks can be laid at the lower part of wall, bigger glass wall blocks laid at the upper part of wall. This type of partition wall has a limited strength, yet has many advantages in terms of low cost, light weight, thermal insulation, sound insulation, attractive appearance, fast construction, etc.
(01091 In areas with extreme temperature difference from inside to outside of a house, if the glass wall is installed between the floors, an insulating layer can be set inside the house at locations of the house's structural frame, so that the effect of thermal bridge can be well reduced; However, the best way is to install the glass wall outside the house's frame, or to install a short and narrow wall outside the house's frame, which short and narrow wall shall have the same structure as the glass wall and completely cover the house's frame. At the middle part of these short and narrow wall there can beset two or more holes for connection (a ring-shaped bar shall beset around the hole to prevent the inert gas in the cavity from leakage, also to ensure strength at the hole's location), and these holes for connection shall be put onto the bolts pre-embedded or installed at the house's frame: Then, at the end of the bolt shall be installed gasket, bolt nut, and insulating cap.
[01101 The above thin-glass wall block can also be horizontally or obliquely installed at the roof for skylight. However, as a block of thin-glass, besides completely using tempered glass, the block yet needs to be installed on a fairly dense supporting structure. If it is needed to install a big-size glued glass block onto a comparatively sparse supporting structure, the bottom laver of glass must be replaced by thick tempered glass, the intermediate layers can be thinner, the top layer's thickness shall depend on the possible impact it may receive and the loads of rain, snow, and wind.
pomp) In areas with great temperature change, if thick glass is used for the above insulated glass curtain wall, roof, door, and window, the change of temperature will have a negative effect on the sealant: The difference of air pressure may break the sealant; if thin glass is used for the above insulated glass curtain wall, etc., the change of temperature will have a negative effect on the glass: The difference of air pressure may damage the glass. If these happen (in many areas they may), the air-holes of every glass panel (including the air-holes in the short and narrow walls installed outside the house frame. During installation of the short and narrow wall, its air-hole shall be connected to inside the house by ageing-resistant and not-easy-to break tube) shall be connected to air-bags. The air-bag can be nut at a convenient place and connected to the air-hole facing the inside of room or to the tube connected to the outside of. room. At the position of the air-hole facing the inside of room a round tube can be glued using structural adhesive; Then put the air-bag's tube onto the tube of the air-hole tightly. When the inert gas in the glass cavity is heated and expelled, the air-bag will be expanded; When the glass cavity is cooled and sucks the gas, the air-bag will shrink. If there are many air-holes on the wall, the air-bag's tube can have branches. The air-bag and tube should be sealed to prevent leakage of the gas.
[0112] To save space, the air-bag can be put in a. hollow partition wall. The glass partition wall described in Implementation Methods of Insulated Glass Curtain Wall-C
can do the job; As in figures 43,44, vertical opening 2 is made at the inner side of glass block L Size of air-bag 3 matches that of glass block i and is smaller than the cavity of block 1, thus air-bag 3 can be put into the cavity through opening 2 andwon't damage the glass when it is expanded; At the back of. air-bag 3 are set vertical supporting bars to prevent it from drooping. Wheitinstalling, put air-bag 3 into the cavity through opening 2, at the same time let the other end of air-bag 3's tube 4 Pass through the hole of cover 5; Then close opening 2 with cover 5. The hole of cover 5 needs to have a diameter greater than that of tube 4, so that air of block I itself can pass through it. Cover5 needs to be made of light materials like plastic, and needs to have a fastener for conveniently removing or putting the cover so that observation or replacement of air-bag 3 can be done. For good visual effects of the glass wall, tube 4 can have a small diameter and be installed along the block seams; meanwhile glass block I
can be - made of ground glass, patterned glass, etc., or air-bag 3 can be made of transparent materials.
[0113] The air-bags and air tubes need to be inspected at fixed periods to avoid blockage or leakage.
[0114] If insulating panels not permeable by water or vapor are used in the cavity of the above insulated glass curtain wall, roof, door, and window at locations where transparency is not required, and the insulating panels are fully filled in the cavity, then the air-hole, air tube, air-bag, etc. can all be omitted; at the same time, the cavity does not need to have multiple layers and all the intermediate layers of glass can be spared. But this method is based on the loss of glass's transparency, thus its range of application is limited.
[01151 For the breathing mechanism of face-brick external wall, all sorts of brick walls, and concrete block walls, etc. with cavities described in Implementation of the Insulated House-B, their air-hole can also be connected to the above air-bag.
But in areas with great temperature change and strong sLiriray, the amount of air expelled by their cavity may be enormous. If the air-bag cannot hold the expelled air, then the air-filtering pipe still needs to be use, and moisture-absorbing materials shall be put in the cavity.
[0116] When filling inert gas to the cavities of glass in every layer of the glass curtain wall, roof, door, and window, the gas-filling tube shall be inserted to reach the bottom, and holes shall be set on the tube at the position of each layer' s cavity, so that the gas-filling can be done simultaneously at every layer. If different layers need to be wi tit different gases, the air-holes of the panels need to be set separately, and ring-shaped bars shall be set around the holes to prevent the gases in the cavities from mixing. Meanwhile, around the bolt holes where every layer of glass panels are connected by the bolts, the same ring-shaped bars must also be installed at each layer.
101171 E) Besides glass, the insulated glass curtain wall, roof, door, and window can also use other materials with low heat conductivity coefficients (For instance, in areas not too cold, acrylic can be used; In places where transparency is not needed, ordinary plastic panels can be used; With materials of limited service time, replacement can be done periodically). In addition to the assemblage methods by bolts or adhesive as described earlier, other methods like welding and direct molding can also be applied, so that the structure with any layers of panel and any distance between the panels can be formed to reach any insulating level.
[0118] For walls made by light or soft materials, their installation can be done in the way of suspension as per figures 45, 46, 47: In the front view of figure 45 and the enlarged side view of figure 17, threaded connectors 1,2 are pre-embedded or installed at the upper part outside the lower house frame (or floor) ; Threaded connectors 3, 4 are pre-embedded or installed at the lower part outside the upper house frame (or floor);
According to the weight of wall block and the dimension of connector, there May be set multiple connectors on the same wall block. If the floor or frame is thick, the connectors on them can be aligned vertically, otherwise they can be staggered (see the vertically aligned connectors 1,3 in figure 47. If the floor or frame is thinner, connectors 1,3 can be vertically staggered so that they can be moved nearer to the middle and make the embedment stronger). In the wall block there are set holes

6,7,8,9 (see the front view in figure 45), whose positions correspond to those of connectors 1,2,3,4.
When pre-embedding or installing connectors 1,2,3,4, a model withexacLly the same hole positions as those of holes 6,7,8,9 need to be used, so that when wall block 5 is being installed in a later stage, it can be directly put onto the connectors from inside the room (handles shall be set at the upper and lower end of the inner side of wall block 5); Then install gasket, bolt nut, and insulating cap at the end of the connectors;
When wall block 5 is to be replaced, it can also be directly pulled out in the room.
101191 Connectors 1,2,3,4's part outside wall block 5 shall have the shape of a spherical cap 5a (whose bottom faces the wall block and is dented. See the enlarged side view in figure 47); Then the connectors enter wall block 5, and gaskets, bolt nuts etc. are installed from inside. Meanwhile, wall block 5's holes 0,7,8,9 shall have a convex 51), which shall be pushed to the spherical cap of the connector, so that the rain cannot flow along the connectors to holes of wall block 5. On the other hand, at the roots of holes 6,7,8,9's convexes, a groove Sc shall be set, so that the rain flowing along the outer surface of wall block 5 cannot enter the holes.
101201 In addition to the above connectors, insulating block 10 (see the front view in figure 46) also needs to be installed at the outside of house frame or floor.
The structure and materials of insulating block 10 are the same as wall block 5;
This insulating block shall cover the distance between the upper and lower wall blocks, and shall extend upward and downward for a. little at the position of wall block 5's connectors so that. it can cover the pre-embedded connectors (see the enlarged side view in figure 47). Insulating 10 can be connected by connectors 11,12 (see the front view in figure 40) pre-embedded or installed at the outside of frame (or floor).
Positions of connectors 11,12 shall correspond to the holes in insulating block 10;
therefore, a model of insulating block 10 also needs to be used to fix the connectors' positions when pre-embedding or installing therm When installing block 10, it can be put onto connectors 11,12; Then gasket, bolt nut, and water-proofing cap 10a (see the enlarged side view in figure 47) can be installed. When water-proofing cap 10a is turned tight, it shall enter the corresponding groove 10b in insulating block 10, so that the rain cannot enter the hole of the insulating block. If insulating block 10 has a big area, there can be set multiple connecting holes in it; meanwhile, multiple connectors shall be set in the house frame or floor.
101211 In figures 45,46,47, between wall block 5 and its neighboring wall blocks there shall be set a small gap, along which gap there shall be set multiple tiny cylinders at the inner side of wall; Then a removable sealing elastic rubber strip with two rows of tiny holes can be pressed onto the tiny cylinders to be fixed (each of these cylinders shall have a head thicker than its root, and each of the holes shall have the opposite dimensions of inner diameter, so that the sealing strip can be installed more firmly), thus the gap between the wall blocks can be sealed. Above and below the wall block, between the wall block and the house frame or floor, there shall also be set a small gap, along which gap there shall be set multiple tiny cylinders (there can be two rows, up and down, with the same shape as above) at the inner side of wall; Then a removable sealing elastic rubber strip with tiny holes (of same shape as above) can be pressed onto the tiny cylinders to be fixed, thus the gap above and below the wall blocks can be sealed. If the gap between two neighboring wall blocks is comparatively big, a vertical blocking strip shall beset at each of the twc) wall blocks' sides.
This blocking strip shall have the same height as the wall block, and can be installed by a groove in the wall block, which groove shall have across section shaped with a narrow opening but wider bottom. On a same wall block, the distance from its left blocking strip to the face panel shall be different from that on the right side, so that between each two neighboring wall blocks there will be two blocking strips, one before the other.
When the wall blocks are being installed, the blocking strips should be able to pass each other by virtue of their elasticity; otherwise their thickness shall be reduced.
The main function of the blocking strips is to prevent the rain, thus it would be sufficient if their thickness surpass half of the gap between the wall blocks.
If the gap between two insulating blocks 10 is comparatively big, the same blocking strip can also be installed.
1131221 Wall block 5, insulating block 10, as well as insulating block 10's extended part covering the pre-embedded connectors shall all have a drainage groove set at the top.
This drainage groove shall be set along the inner edge and edge of the two sides, bending outward along the latter, so as to let the rain flow to the outer side. At the same time, wall block 5, insulating block 10, and insulating block 10's extended part covering the pre-embedded connectors also need to have a vertical drainage groove set at each of their two sides. This drainage groove shall be set along the inner edge, connecting the groove at the top, bending outward with an obtuse angle at the side's bottom and with a brim set at the groove's bottom, so as to let the collected rain flow to the outside. The depth of the drainage groove at wall block 5 and insulating block 10's sides shall be greater than that of the groove for installation of the above blocking strip. The bottom of wall block 5 and insulating block 10 shall have an angle to level, so that their inner part will be higher than the outer part, preventing the rain from flowing inward. Besides, if gas is filled in wall block 5 and insulating block 10, then their air-holes must be connected to air-bags; When the wall block and insulating block are being replaced, water can be filled to expel the inert gas from the older blocks into the new ones. If the cavities are filled with insulating materials not permeable by water or vapor, then thc air-holes, air-tubes, and air-bags can be omitted.
[0123] Installation and removal of the above wall block 5 and insulating block 10 are much simplified in comparison to conventional methods with scaffold and framework, and they are stronger; Furthermore, installation and decoration of the external wall can both be done from inside the room, greatly improving the speed of construction. There is no limit to the height of building for this way of construction, but all the people working at the edge of the floor must be securely protected by safety belt, and the range of work on the ground must be isolated.
[0124] For roofs made by light or soft materials, the above Installation by Suspension can be changed to Horizontal or Oblique Installation: Connecting rods pointing upward or obliquely upward can be installed to the frame of roof; Then the above wall block can he horizontally or obliquely put onto the connecting rods; Next install the gasket, bolt nut., and insulating cap at the end of the connecting rod. The horizontally or obliquely laid wall block (for convenience, it will be called the Roof Block in the following text) should have a convex set at the position of each connecting hole' s upper side, and the root of this convex should be set with a groove, so as to prevent the rain from entering the connecting hole. Between two roof blocks a small gap shall be set; At the same time, multiple tiny cylinders (whose head is thicker than root) shall be set along the gap between two roof blocks, and a removable sealing elastic strip with two rows of tiny holes (whose inner diameter shall be bigger at the upper part than the lower part, corresponding to the cylinder) shall be press onto the cylinders for sealing of the gap. Meanwhile, a drainage groove shall be set on each roof block along the gap; The contact surface of the sealing elastic strip and roof block shall be inclined toward the drainage groove. Between every two neighboring roof blocks water conduits connecting the drainage grooves shall be set (cross section of the water conduit shall be the same as that of the drainage groove, which can be a U-shape or V-shape. The water conduit can be welded or glued to the drainage grooves at its two ends. To get a smooth surface of the water conduit and drainage's connection, a dent of same cross section as the water conduit's outer contour can be set in the drainage groove and then the end of the water conduit can be put into the dent), and the rain would eventually be drained to the gutter of roof or to outside the cave. For better drainage, the roof shall not be set completely level, but have a certain slope. For roofs with parapet, the roof shall be put above the gutter, which needs to have an adequate volume and be connected to enough down spouts so as to prevent heavy rain or snow from spilling. For roofs without parapet, the roof shall be put above the top of external wall and go beyond it for drainage. For roofs with other shapes and structures, the specifics shall be determined accordingly.
[0125] If gas is filled in the cavities of the above roof block, each layer of its cavities also need to be connected to air-bags through air-holes; If materials not permeable by water and vapor is filled in its cavities, the air-holes, air-tubes, air bags can also be omitted.
[0126] Installation of the above roof block can be done from inside the room, the constructors needing not to climb to the roof: At the floor of the top storey the roof block can be lifted (or hung by temporary rig), then moved to the position of connecting rods, next laid down to be put onto the connecting rods; Afterwards all the subsequent installation work can be continued. The last roof block shall be installed at the highest position and have a smaller dimension so that the gap between it and the neighboring roof blocks would be bigger for convenience of installation. At the bottom of this last roof block there shall be set horizontal slots in which plates can be inserted to fix insulating materials put in the gap around this block. The gasket, bolt nut, and insulating cap can be installed to the end of the connecting rod through the gap (If the gasket, bolt nut, etc. fall to the roof by accident, the roof block must be removed to fetch them, so that any potential danger can be avoided); Next the water conduit can be put to position and welded or glued; Then a wide sealing strip with multiple pulling strings and dents (the pulling strings and dents need to be set near the connecting holes in the sealing strip) shall be pulled by the strings and installed to the tiny cylinders set along the two sides of the gap (when adjusting position of the sealing strip, a bar can be put into the dents. For convenience with the sealing strip's installation, the tiny cylinder can have a smaller diameter at the top, bigger one at the middle part, and be tapered at the lower part): Lastly, insulting sheets without dust or packed loose insulating materials shall be put into the gap around this roof block, and the plates by light materials of plastic etc. at the bottom shall be inserted to the slots (a fastener should be set on the plate to prevent it from slipping out), hence the insulating materials would not fall.
101271 This way of installation from inside the room can make construction of the roof more convenient. With multiple-storey buildings' courtyard, lobby, etc., if the courtyard has a roof, the lobby is directly connected to the roof, and the supporting structure of the roof can bear the weight of people, then installation of the roof at these locations can be more suitably done from above the roof (When installing, all the constructors must be protected by safety belts and multiple layers of safety net must be set underneath); If the supporting structure of the roof cannot bear the weight of people, then a platform needs to be built under the roof.
[01281 'Fhe above way or roof installation can also be changed to Installation by Inverted Hanging: Connecting rods pointing downward or obliquely downward can be installed to the frame of roof; The root of the connecting rods can be set in the shape of a spherical cap (whose bottom faces downward and is dented); Then lift the above roof block vertically or obliquely, letting the connecting rods enter its connecting holes, and letting the convex at the upper side of the connecting hole touch the spherical cap at the root of the connecting rod so that the rain won't be able to flow along the connecting rod into the connecting hole; Next install the gasket, bolt nut, and insulating cap at the end of the connecting rod. The connecting rods must be able to bear the whole weight of the roof block and be set in pairs near its sides (if one connecting rod in a pair fails, the other must be able to bear the whole weight for thud). The last roof block also shall have a smaller dimension and be installed at the highest position by the same installation method as that of the roof block described above; Yet the gap around this roof block can be set smaller, because the gasket, bolt nut, etc. do not need to be installed on top of the roof block through the gap. This Installation by Inverted Hanging can make the roof bloA's installation and removal more suitably done from inside the room; Also, except for the roof at the building's courtyard and the roof directly connected by the lobby, the installation and removal can be conveniently done at any other places.
10129] If acrylic, ordinary plastic, etc. are used to produce the above wall block, roof block, door and window (these materials must not be of types that release hazardous substances, and must fully meet requirements of fireproofing. All the i oducts used indoors in the following text shall be the same as these; For convenience, it would not be reinstated), they will have very light weight, very low cost, and abundant colors.
Moreover, their structural strength and insulating function will not be second to other materials at all; But their service life is limited (usually not more than 10 years, and shorter on the roof). If these materials are used for the external wall and roof, the above ways of Installation by Suspension, Horizontal or Oblique Installation, and Installation by Inverted Hanging can be applied, so that their change would be much easier to do. Meanwhile, at the edge of floors of the second storey and above, protective railing or net. must be installed; And the roof block, wall block, insulating block, door and window must be changed at fixed periods. In addition, all the materials shall have the producing time and service time molded at a uniform conspicuous place (like the lower edge of roof block, the inner face of the wall block' s two sides, the upper edge of the insula.ting block) ; At the same time, inspection HMS I be done at fixed periods on the service time of the materials as well as their transparency, color, and strength, so that any danger by the aging of material's can be prevented. If the above maintenance work cannot be ensured, then the materials can only be use for a short term or temporarily, and must be removed in time. On the other hand, as they can be easily melted and have a limited anti-burglary function, anti-burglary nets need to installed at the house' s locations where they are required (the protective net and anti-burglar-, net can be combined to one) ; Also, anti-burglary door and window need to be installed where required.
[0130] For installation of hinges on their door and window (see Technical Solutions-1Db, and figures 9,10), holes can be set at the inner side of door and window and bolt nuts can be embedded in the holes. Then fastening plates 1,2 in figures 9,10 can be fixed to the door and window through the bolts. Fastening plate 1 or 2 can be set very long, and cylinder a can be set in a symmetrical pair at the two sides of the fastening plate;
At the same time, two symmetrical metal plates e can be set on the door frame or window frame to clamp the two cylinders a, so that fastening plates 1,2 can support very wide door or window needing not to increase the thickness of door or window panel.
Connection of door lock, window latch, etc. can also be done through embedding bolt nuts.

[0131] If the above wall block, roof block, door and window, etc. produced by acrylic, ordinary plastic, etc. are used for thermal insulating renovation on houses already built, except for the addition of anti-burglary door and window installed at places where necessary, their installation and removal are very convenient, and the thermal insulating function can be not second to any other insulated houses;
Furtaermore, due to the cover and protection of the original building, the service life can be prolonged.
The cost of this renovation is very low and it can bring good effects to interior decoration (During their service life, acrylic, ordinary plastic, etc. have an advantage in terms of optical performance, color, plasticity, etc.). Except for the door and window, the house can have very thin cavity walls for its wall block and roof block. The whole building needs only to have the wall block suspended at the inner side of external wall, have the roof block laid on a rack under the sloped roof, have the roof block reversely hung under the level roof, have the same block reversely hunger under the lowest floor (which block has the same structure and materials as the roof block. For convenience, it will be called the Floor Block in the following text), and have the door and window changed to this type of insulated door and window (or have uhis type of insulated door and window added to the original door and window).
in comparison to a new building using these materials, in the thermal renovation of a building already built, the water drainage groove, the blocking strip to prevent rain, etc. can be spared, but the sealing elastic strip must be kept. In its installation by suspension, or installation by inverted hanging, etc, chemical bolt or welding can be used; In the installation by laying, chemical bolt and welding can also be used to fix position of the roof block etc. The chemical bolt can fix the connecting rod through bolt nut (The connecting rod can be set in a L-shape; And at its lower pai a hole can beset to be put round the chemical bolt); Then the connecting holes of the wall block, roof block etc. can be put onto the connecting rods and Lite rods shall go through the holes; Next the gaskets, bolt nuts, insulating caps can be installed at the end of the connecting rods.
101321 Two neighboring L-shaped connecting rods can be combined to one U-shaped connecting rod with a hole set at the bottom, sharing the same chemical bolt.
It shall be prevented to make the chemical bolt enter the house's structural frame; If the width of the external wall's frame is big, the chemical bolt can be set farer away from the wall' s edge, and the connecting hole in the wall block can be set at a corresponding position. In the installation by inverted hanging, if the roof and floor are cast-in-situ reinforced concrete panels, holes can be made in them, and bolts can go through the holes and be connected to horizontal light steel bars underneath (When a hole is being drilled on the floor, the space for bolt nut shall be made, so that the bolt nut would not bulge above the ground to make it unlevel); Meanwhile, light connecting rods pointing downwards shall be connected to the horizontal light steel bars by loops at their top ends, which loops are put around the horizontal bars; Then the connecting holes of roof block or floor block can be connected to the horizontal' bars with the light connecting rods going through them (at the low ends of the light connecting rods there shall be set light bolt nuts etc. to prevent the blocks' falling).
When holes are being drilled in the concrete panels, devices like steel bar detector must be used to avoid position of the steel bars. Before bolts are put into the external wall, devices like steel bar scanner must be used to see if there are electric cables, water pipes etc. inside (Positions of connecting holes in the wall blocks can be set inanumber of types, so that if there are facilities in the wall, a corresponding type can be used to avoid them). At the same time, when making holes in the external wall or reinforced concrete panel, the workers must wear insulating gloves; After the holes have been made and before installation, devices like electricity-detecting pen must be used to ensure the safety.
[0133] If very light materials like plastic membrane are used to make blocks for thermal insulating renovation with the wall, roof, door and window of houses already built, their installation and removal are more convenient than blocks by the above acrylic or plastic etc. panels. If an insulating panel is filled in the cavity of the plastic membrane, thickness of the cavity's wall needs only to make it strong enough forbearing of the insulating panel' s weight, and the insulating panel needs to have a certain rigidity to keep the needed shape; If gas is filled in the cavity of the plastic membrane, thickness of the ca\,ity' s wall needs only to prevent leakage of gas, and the shape would be determined after the gas is filled. By filling gas the cost would be lower than filling solid materials but the insulating effect and visual effect won' t be reduced.
For the wall block Ii lied with gas, its structure and installation need to be adjusted as follows:
In figures 48, 49, at the block' s upper side a ribbed rigid hollow panel 1 (see the front view in figure 48 and the side view in figure 49. This ribbed panel shall be made of light materials like plastic) can be used, so membrane 3 won't droop under connecting rods 2; Meanwhile, air-tube 1 can be set in ribbed panel 1 and cross all layers of cavities (If different gases are filled in different layers, their air-tubes need to be separately set); In the wall block, every layer of cavity can be divided to shapes of parallel long bars; And all the parallel long bars can be connected to one general long bar perpendicular to them; This general long bar can be connected to air-pipe 4.
The parallel bars shall not be connected to each other. Besides, the connecting holes of this soft wall block shall be set in ribbed panel 1; The connecting rods installed on the original wall shall reach the top of wall, so that this soft wall block can also reach the top.
101341 If there is a wide structural beam at the top of original wall, or there are electric cable, water pipe, etc, in the wall, then a L-shaped connecting rod with a long bottom side can be used, on which bottom side two bolt holes can be set for connection to the wall, so that the bolts need not to enter the structural beam and can avoid other facilities in the wall; Also the connecting rod's turning can be prevented. In the gap between ribbed panel 1 at the top of the soft wall block and the original ceiling materials like sponge can be filled. The sponge should not totally seal the gap, but leave a certain space for the small amount of air at the original wall to expand or shrink when the temperature changes.
[01351 Sealing for the gap between two neighboring soft wall blocks can be done through a zip. Sealing strips can be set at the two ends of the soft wall block where they reach the partition walls; At the back of the sealing strip a double sided adhesive tape can be used to stick it to the partition wall. At the bottom of the soft wall block where it reaches the floor, it can also be stuck to the floor in the same way.
Decorative fringes can be set at the zip and sealing strip.
[01361 At the inner side of the soft wall block there shall be set a reflective membrane to prevent thermal radiation. At. the outer side of the soft wall block there can be set multiple colors, frames, patterns, ete so as to bring good interior visual effects.
Where necessary, it can also be set transparent. Besides, this soft wall block can easily apply (Effused lights and make different atmospheres.
[0137] When the soft wall block has been installed in place, gas can be filled into it.
Different gases need to be connected to different air-tubes. When the gas is filled, the other end of the air-tube needs to be connected to an air-bag, which can be set as the pressure air-bag in figure 50: At the top of air-bag 1 there are multiple weight bags 2. Weight bag 2 is filled with water and can be opened or closed by the threaded lid 3 (similar to a soybean milk bag for breakfast). The weight bags are beside each other and cover the whole top of the air-bag. When the soft wall block has been connected to the air-bag, the water-filled bags' weight shall be able to prevent the air-bag from being expanded in cold weather, and shall prevent the air-bag, soft wall block, air-tnbe, etc. from being broken by the expanded air in hot weather and a too heavy weight of the bags. By virtue of the water-filled bags' weight (which is alright to be kept at a constant reasonable value), every cavity in the soft wall block can be kept expanded all the time. As a single pressure air-bag cannot have too big a height, multiple pressure air-bags can be placed side by side, or one layer above another in a rack. Around the air-bag a number of vertical bars can be set to confine the air-bag in the range of the vertical bars when it rises with gas filled or descends with gas expelled, so they won't tilt or roll. If the bottom of the air-bag is set as a rigid plate, its position can be further fixed.
poom With soft roof block or floor block made of very light materials like plastic membrane, filled with gas, and inversely hung under the house's roof or floor, their structure and installation shall be adjusted as follows: As per figures 51,52, at the two sides of horizontal light steel bar I can be set hooks 2 (see the back view in figure 51 and the side view in figure 52): Ribbed rigid hollow panel 3 (whose materials are the same as the above ribbed rigid hollow panel of wall block) is hung between the light steel bars; At the same time, ribbed panel 3 shall be set at every curtain distance along; soft roof block or floor block 4, so that it mpn'L droop. On every soft roof block or floor block shall be set. air-tube 5 which crosses all layers of their cavities (air-tube 5 can be set on just one of the ribbed panel 3s). Like with the soft wall block, if different gases are filled in different layers of the roof or floor block, their air-tubes need to be separately set. In this roof or floor block, every layer of cavity can be divided to shapes of parallel long bars, with the same structure as the soft wall block. All the air-tubes need to be connected to the pressure air-bags.
[0139] Sealing for the gap between two neighboring soft roof blocks or floor blocks can be done through a zip. Sealing strips can be set at where they reach the external walls mid be stack to the inner side of external wells in the same way as with the above soft wall block. Decorative fringes can be set at the zip and sealing strip. If the house's roof or floor is an air-tight structure, the roof block or floor block under them shall not be fully sealed, but with a small number of holes set in the sealing strip for the air above to expand or shrink when the temperature changes. At the same time, reflective membrane, multiple colors, frames, lighting effects, etc. shall be set in the same ways as with the above soft wall block.
[0140] Insulation of door needs only to be done on doors in external wall or other doors directly connected to outside. Inmost cases the original door needs not to be replaced.

What's needed is just to set up L-shaped connectors at the back of the original door and then install the above membrane insulating block (i.e. the above soft wall block, soft roof block, etc.). If the door is easy to be bumped, materials like foamed panel can be filled in the membrane insulating block instead to provide better performance against the impact than gas. The L-shaped connectors can be set near both the top and bottom of the door, so that the membrane insulating block can be better fixed.
At the end of the 1-shaped connector there shall be set an insulating cap, so that it can both do insulation and buffer occasional bumping. On the membrane insulating block, a void shall set at the position of door lock and handle for operation; If necessary, the void can be set as a. hole with a removable insulating plug. For insulation of window, usually the original window also needs not to be replaced. Whaes needed is just to install the above membrane insulating block. A frame can be set on the inner face of the wall along the original window's sides, with the top side of the frame connected to the wall.
The L-shaped connectors shall be set near both the top and bottom of the frame and the membrane insulating block shall be installed in the same way as with the door described above. When fully opening the window, the frame can be pushed or pulled up to an angle greater than 90 degrees). The frame needs only to support weight of the frame, thus it can be set light. Its connection to the external wall shall be strong enough (Two or more bar-shapedconnectors can be fixed to the wall above thewindowthrough chemical bolts. At the lower end of the bar-shaped connectors a horizontal hole can be set;
Meanwhile, holes shall be set at the top side of the frame, which holes shall match holes of the bar-shaped connectors and be connected to them, forming a.
structure of hinge). Al. the lower side of the frame can be set a handle, and a void for operation can be set on the membrane insulating block in the same way as the door described above.
If the hinge structure is vertically set at the 1c4t or right side of the frame, the frame needs to be set stronger to avoid deformation.
[0141] The above gas-filled membrane insulating blocks are all connected Co pressure air-bags. lf the pressure air-bags need to be spared, each cavity in the membrane insulating block can be set as an inner flexible air-bag: As in figure 53 (section), cavity 1 is separated into multiple air-bags 2; Wall 3 of air-bag 2 is softer than wall 4, so that when the air-bag is cooled and shrink, wall 3 will be folded but wall 4 will remain rigid. In a same layer, air-bags 2 can be connected to each other through a small hole set at the end of every air-bag, so that filling of gas can be easily done. If different_ gases are filled into the membrane insulating block's different layers of cavities, the layers cannot be connected to each other. Filling of gas usually needs to be done on site, so that during transportation, the volume of the membrane insulating blocks can be minimized. The amount of filled gas must not let the inner flexible bags explode by the gas's expansion under the highest temperature of the area where they are used, and must also avoid their deformation at the lowest temperature in the area.
At the same time, the wall of the air-bag shall be strong enough enabling it to compress the air accordingly. With this membrane insulating block suspended at the wall, for convenience of its expansion and shrinkage in the direction perpendicular to the wall, sliding rods can be added to the ribbedhollowpanel at its top: As in figure 54, membrane insulating block l's Jibbed hollow panel 2 has a number of sliding rods 3 underneath;
Face membrane 4 (the layer of membrane farthest to the wall) is fixed at one end of sliding rod 3; Other layers of membranes 5,6,7,8,etc.can freely slide along sliding rod 3 by way of the holes at their top end. If face membrane 4 is not level enough, a number of ribs can be set to form a frame or mesh supporting it, which can he rolled into a cylinder for transportation.
[0142] If it is needed to spare the sliding rods at the top of the membrane insulating block suspended on the wall, the inner flexible air-bag can be changed to inflexible compressed air-bag: Divide each layer of cavity in the membrane insulating block into small air-bags, in which air-bags the air is filled at the lowest temperature of the area where the membrane insulating block is used, or is filled and compressed to the same density as at that lowest temperature; Then seal the air-bags. These air-bags must not be connected and open to each other (even at the same layer of cavity).
The smaller volume of the air-bag, the bigger ratio of the air-bag's wall thickness to its volume, thence the better ability of the air-bag to compress the air and the lower possibility of its breakage. The air-bag's wall thickness, volume, and air density shall be set according to the conditions of the area where it is used, so that the air filled at the lowest temperature of that area won't be able to break or deform the air-bag when the tempt:nature rises to the highest Lemperatute of the area while the air is compressed into the same volume.
[01431 For convenience of transportation with the membrane insulating block of compressed air-bags, the work of air-fill rig and sealing can be done on site:
The air-bags can be set in the shape of long bars which are connected to the side or other surfaces of the membrane insulating block; Air-holes shall be set at the membrane insulating block's side or other surfaces; Then the air shall be fully filled into the air-bags with a. pressure corresponding to the temperature of the construction site, and shall be sealed.

[0144] This membrane insulating block of compressed air-bags can also be used at the roof, floor, door, and window.
[0145] The membrane insulating blocks can have various types, but the membrane structure of any layer and any distance between the layers will remain. Among the types, those with external pressure air-bags have the advantage of saving materials; those with inner flexible air-bags come second in this aspect; Those with inner insulation panels have the advantage of stable shape; those with inner compressed air-bags come next in this respect. Each type has its features, advantages, disadvantages, and suitable scope of appl lea on.
[0146] The above soft wail block, roof block, floor block, door, and window all use membranes instead of panels, thus they have the overwhelming advantage in terms of weight and cost while keeping the ability to reach any level of thermal insulation.
Also, they can provide good effects with interior decoration. Therefore, the membrane insulating blocks can play an important role in the popularization of high insulation buildings.
[0147] When newly building a house, if it is needed to save cost, the above membrane insulating blocks can be used to completely or partly replace the permanent insulating facili ties. Then, connectors for the membrane insula.ting blocks can be pre-embedded during construction of the house.
[0148] If the membrane insulating blocks are not to be used in houses already built, insulating panels may take their place. But. when the insulating panels are directly installed in the house without being put in the membrane blocks, their Ifla ter ial and appearance need to meet higher standards than the insulating panels for filling, thus the cost will be raised, and renovation of appearance would be far less convenient than changing of membranes. Yes for some houses with certain requirements, this way of directly using insulating panels can also be applied. Then, sealing between the panels ica y be done through concave and convex channels (one side concave, the other side convex, so that they can seal when pushed together).
101491 When doing al.1 the above types of thermal insulating renovation on houses already built, it should be avoided to do each user' s area separately. The renovation should be done together, so that materials and labor won' t be wasted for insulation of partition walls.
101501 If glass is directly moulded into the above wall block, roof block, door, and window, they are weightier than acrylic, and ordinary plastics. But their weight can be greatly reduced by making the inner layers of glass much thinner. For these glass blocks, the above installation by suspension, horizontal or oblique installation, installation by inverted hanging, etc. can also be applied; and the protective railing and net, the same sealing and drainage methods therein can be applied as well.
By this means, a lot of labor and materials can be spared during their assemblage and installation, lowering the cost of house construction to a. large extent (If mass production of the glass blocks is done, their cost inay be lower than the assembled thin glass wait block and roof block described earlier in Implementation Methods of Insulated Glass Curtain Wall-C), yet their insulating performance, strength, and appearance won' t be second to the other materials and installation methods described above, and can be put to permanent use. This type of glass wall block, roof block, door, and window may be 'note popular.
101511 To reduce the weight of glass wall block, roof block, door and window as much as possible, it can be done to combine the ways of directly moulding, welding, gluing, etc. (for example, the sides inay be produced by directly moulding; then the ultrathin inner glass layers can be installed to the sides by welding or gluing). As the door and window may he shaken, each of their layers must be able to withstand the impact and vibration.
[01521 The glass µa,11 block, roof block, door and window produced by directly moulding and welding etc. can avoiding deformation by virtue of their sides that are made as one body. At the same time, the wall block and roof block can apply the installation by suspension, horizontal or oblique installation, installation by inverted hanging, etc. Therefore, the fasteners described earlier (in Technical Solutions-1N, and figures 5, 6, 7,S) can be spared.
[0153] The hinges on the door and window (see Technical Solutions-1Db, and figures 9,10), the door lock, the window latch, etc. can be firstly fixed to the door and window panels by bolts, gaskets, bolt nuts etc., then the door and window can be produced by welding etc. Fastening plates I of. 2 can be set very long, and two cylinders in symmetry can be set at the two sides of the fastening plates, which cylinders can be both connected to the door or window frame, so that fastening plates 1 and 2 can support very wide door and window.
[0154] If the above glass wall block, roof block, door and window produced by directly moulding etc. are used for thermal insulation of houses already built, their installation and removal are rather convenient, and the insulating performance can be not second to any other insulated houses: Furthermore, they can he put to permanent use. At the same time, their face panels of thick glass can make installation of anti-burglary door and window unnecessary. However, they can be weighty. Thus it' s better to combine them with the above acrylic, ordinary plastics, etc., and be mainly used for the door and window.
[01551 F) When glass wall blocks are installed between the floors, the outside of house frame needs to be decorated. For this, bolts can be pre-embedded at the corresponding positions in the concrete frame (the head of bolt can be buried inwardly in the concrete), so that the insulated short and narrow walls, and decorative panels can be installed with convenience. it shall be avoided to put many chemical bolts into the concrete frame.
if the frame is of steel structure, the bolts shall also be installed beforehand.
[0156] In areas of mild Climate, if the desired insulating levels can be attained without insulation of the house frame, then the short and narrow walls can be omitted.
For the decoration, connectors of decorative panels can be fixed to the pre-embedded or pre--installed bolts. This method can bring convenience to installation of metal decorative panels, as the connectors can be easily welded to the back of the panels.
If panels of stone or ceramic etc. are to be installed, the pre-embedded pieces in figures 17, 18 (Technical Solutions-2B) can be buried in the concrete frame or installed on the steel structure beforehand. If it is for low-rise buildings, the decoration can be done with tiles of ceramic etc. stuck to the house frame, omitting the pre-embedded pieces.
[0157] Decoration of the house frame needs to be done before installation of the glass wall blocks, so that it can be more convenient to convey their materials and to install.
[015S] 3) Implementation of Stone, Ceramic, Metal, etc. Curtain Walls:
[01591A) Bearing of these curtain walls must be dore by main walls of high strength, especialh in the case of stone curtain walls, which are usually quite heavy.
If the metal, etc, curtain walls are much lighter, the requirements on strength of the hearing mains walls can be lowered. Whethci hollow bricks or light concrete blocks can be laid to reach the needed strengths must be determined by their specific dimensions and by testing.
[01601 When building walls of bricks or concrete blocks, among the bricks or concrete blocks of greater thickness can be laid ones of smaller thickness at every curtain height, while parts a, b, and parts al, bl in figures 17, 18 can be respectively buried in the smaller ones' joints. These bricks or concrete blocks of smaller thickness can have several layers put together with a total thickness to allow metal plate gl move up or down fully; At the same time, the position of these bricks or concrete blocks of smaller thickness need to correspond to the size of stone face panel (or panel of other materials); They can be laid along the face panels' horizontal joints and extend up and down. Furthermore, while laving these bricks or concrete blocks of smaller thickness, connectors of the Face-brick Internal Wall can be pre-embedded at the other side of the main wall; And every item of the Face-brick External Wall's extended techniques (see Implementation of the Insulated House-1B) can be applied, so that the materials can be further saved, or the thermal insulation can be further improved.
Although the face bricks are set at the inner side in this case, the techniques' implementationwon't be affected.
[0161] B) Every face panel can be fixed by 4 step-shaped metal plates.
Positions and installation. order of these metal plates can be as follows: In figure 55, metal plates gl, g2 under face panel I can be installed near the outside, metal plates g3, g4 above thepanelcanbe installed nearer to the middle; Then install face panel 2's metal plates g5, g6 near the outside, and g7, 0 nearer to the middle. And so forth. By this means, it can be avoided that connectors of the upper layer impede work of on the lower layer when the bolt nuts and bolt heads are being adjusted.
101621 Step-shaped metal plate gl' s two bolts fll, f22 (see figures 17, 18) shall be set close to the metal plate in the vortical direction, and the upper sides of the two bolt heads shall be set horizontal, so that their supporting area to metal plate gl can be maximized. The part of bolts fll, f22' s shaft near their bolt heads shall have a section of a square or pentagon etc.., and this part shall enter a matching hole in metal gl, so that its turning in metal plate gl can be prevented. The length of the bolts' part with a square (or pentagon etc. ) section shall equal the thickness of metal plate gl. If the former is greater, gaskets can be added whea installing the bolt nuts.
[01631 During installation of the face panels, extended sleeves or transmission sleeves, transmission spanners need to be uscd for ad jus talent of bolt nuts and bolt heads located at the lower layer or at the inner side.
101641 As in figure 56, extended sleeve I shall have a shaft. 2 long enough to reach the 1)01 t nuts and bolt. heads at the lower layer.
101651 The transmission sleeve can have a structure as follows: In figures 57, 58, gear 1 is fixed to the lower end of metal bar 2 by pivot a (see the back view in figure 57) ;

Gear 3 is fixed to the upper part of metal bar 2 by pivot b; Gears 1, 3 are connected by chain 4; Rotating disc 5 is fixed to gear 3; Sleeve 6 is fixed to gear 1 (see the side view in figure 58); Handle 7 is set at. the upper part of metal bar 2.
101661 When operating the transmission sleeve, one hand of the operator can hold handle

7, the other hand hold rotating disc 5, then turn rotating disc 5. If the part of bolt shaft beyond a bold nut is long, then a sleeve 6 long enough needs to be assembled for the work, so as to avoid that the sleeve cannot reach the bolt nut or that it be pushed out when the bolt nut is being turned.
[0167] if the space between the curtain wall's face panel and the main wall is not wide enough to hold the transmission sleeve, then a transmission spanner of the following structure can be used: In figures 59, 60, hollow gear 1 has groove a at the back (see the side view in figure 59), which groove is fixed to the lower end of metal bar 2 by the semicircular connectors b and bl (see the side view in figure 59 and the back view in figure 60. In figure 60, part of groove a is cut off so that the structure beyond can be seen). Semicircular connector b is one fixed part of metal bar 2, semicircular bl is an added member. Gear 1 can rotate at the lower end of metal bar 2.
Hollow metal disc c is installed on gear 1, which metal disc can be put around the bolt nut or bolt head to make them llUjh Gear 3 is fixed to the upper part of metal bar 2 by pivot d.
Gears 1, 3 are connected by chain 4. Rotating disc 5 is fixed to gear 3.
Handle 6 is set at the upper part of metal bar 2.
101681 This transmission spanner can also have a sleeve assembled at its metal disc c, which sleeve can be set in a opposite direction to that of sleeve 6 in figure 58, so operation of the transmission sleeve can be made more convenient: Rotating disc 5 can turn and push sleeve 6 forward at the same time.
101691 If it is needed to reduce the noise made by this transmission spanner's sliding of metal at its hollow gear l's groove, a bearing can be installed (This can also he applied with the other transmission spanners in the following text).
[017011:fit is needed to turn two bolt nuts or bolt heads of the face panel's connectors at the same time, double extended sleeves, double transmission sleeves (or spanners) can be used. Compared to single sleeve (and spanner), double sleeves (and spanners) can speed up the operation. However, for Some fine adjustment, the former still needs to be used.
10171111te double extended sleeves can turn vertical bolt heads. Their structure can be as per figures 61, 62: Rotating shafts 1,2 have gears a, b and sleeves 3,4 assembled at their lower ends (see the front view in figure 61 and the top view in figure 62);

Rotating shaft 5 has gear c assembled at its lower end and handle 6 at its upper end.
When handle 6 is turned, gear c can make gears d, e, and a, b turn at the same time, resulting in the turning of sleeves 3,4. If the bolt heads have strong resistance, the ratio of gear a and b's diameter to that of gear c can be increased; and the length of hand 6 can be extended, with a horizontal bar of corresponding length set at the upper side of frame 7. As the distance between the double sleeves is not easy to be set adjustable, the distance between the bolt nuts needs to be set uniform during production, or a. number of types with different distances between the bolt nuts can be set.
[01721 The horizontal double transmission spanners can turn bolt nuts in the outward-inward direction (the bolts perpendicular to the wall). Their structure can be as per figure 63: Hollow gears 1, 2 each have a groove at the back (the same as the single transmission spanner in 59, 60), which groove is fixed to the lower end of metal bar 3 by semicircular connectors; Hollow gears 1, 2 can turn at the lower ends of metal bar 3. On each of hollow gears 1 and 2 is installed a hollow metal disc which can be put around the bolt nut to make it turn. Gear 4 is fixed to the upper part of metal bar 3 by pivot. Gears 1, 2, 4 are connected by chain 5. Rotating disc. 6 is fixed to gear 4. Handle 7 is set at the upper end of metal bal. 3. When rotating disc 6 is turned, gears I, 2 will turn at the same time. If the bolt nuts have strong resistance, the ratio of gear 1 and 2's diameter to that of gear 4 can be increased; and the diameter of rotating disc_ 6 can be made bigger.
[0173]The vertical double transmission spanners can turn horizontal bolt nuts.
Their structure can be as per figures 64, 65: Hollow gears i, 2 each have a groove at the back (the same as the single transmission spanner in 59, 60). Hollow gear l's groove is fixed to the lower end of metal bar 3 by semicircular connectors: Hollow gear 2's groove is fixed to the middle part of metal bar 3 by semicircular connectors b, double rails bl, and pulling rod b2 (see the back view in figure 64). Gears 1, 2 can turn on metal bar 3. With the up-and-down moving of pulling rod b2, semicircular connectors b can be made to move along rails bl, thus the distance between hollow gears 1 and 2 can be adjusted to fit the various distances between the bolt nuts (these variations of distances are caused by the different thicknesses of bricks and joints). On each of hollow gears 1 and 2 is installed a hollow metal disc c, which can be put around the bolt nut to make it turn. Gear 4 is fixed to the upper part of metal bar 3 by pivot d. Pivot d can move along double rails dl, and is connected to connecting rod 5. The other end of col-meeting rod 5 is connected to turning rod 6 (see the back view in figure 64 and the front view in figure 65). Gears 1, 2, 1 are connected by chain 7.
[0174] When turning rod 6 is turned to be perpendicular to metal bar 3, groove 6a at each end of rod 6 shall fully push chain 7 apart so that gear 2 breaks away from the chain and can be moved up-and-down; At the same time, the turning rod' s fastener S shall be put against metal bar 3 so that the turning rod won' t be able to move back; and stopping piece 8a shall prevent the turning rod from continuing to turn. When gear 2 has been pulled to the position of its corresponding bolt nut and put around it, release fastener

8 and rotate turning rod 6 to a position parallel to metal bar 3; Then push fastener 8 onto stopping piece 81) to be fastened. When turning rod 6 is parallel to metal bar 3, pivot d is pushed to the high-most position; When turning 6 is perpendicular to metal bar 3, pivot d is pulled to the low-most position. A different position of connecting point between connecting rod 5 and turning rod 6 can make pivot d move along rails dl for a different distance. This distance shall equal the needed descending distance of pivot d to let turning rod 6 fully push aside chain 7 and let chain 7 never break away from gears 1, 4. Rotating disc 9 is fixed on gear 4 (In the front view of figure 65, half of rotating disc 9 is cut off so that the structure beyond can be seen).
Handle is set at the upper end of metal bar 3. When rotating disc 9 is turned, gears 1, 2 can be made to turn at the same time. If the bolt nuts have strong resistance, the ratio of gear 1 and 2' s diameter to that of gear 4 can be increased; and the diameter of rotating disc 9 can be made bigger.
[0175] Fastener S's section is in Figure 66: Spring 1 can make the fastener' s stopping plate 2 push downward; When pressing plate 3 and fixed plate 4 are squeezed together by hand, stopping plate 2 will rise. Fixing plate 4 is connected to turning rod 5.
[0176] The double sleeves can turn horizontal bolt nuts, and can be set in the same way as double spanners. But they usually do not need to be used.
[017711:n addition, when the turning bodt. nuts d, dl, d4, d5 and turning bolt heads d2, d3 in figures 17, 18 are to be installed, the following can be done: In figures 67, 68, the bigger end 1 of turning bolt nut or head d has a cross section of a polygon, which can fit into the sleeve or spanner; The smaller end 2 has a cross section of a circle, which can be put into fixing piece 3's hole and be turned in the hole.
Grooves 4, 5 are made in smaller end 2, which grooves are rather deep, but not deeper than the turning nut' s thickness of wall to make holes, nor so deep as to affect the strength of bolt shaft at the turning head. At the same time, the turning nut' s thickness of wall or the turning head' s diameter at smaller end 2 need to be big enough, so as to avoid that grooves 4, 5 cannot be made deep enough. Grooves 4 and 5 are parallel to each other, with a square cross section for welding piece 6 to be inserted.
When fabricating, insert smaller end 2 of turning bolt nut or head d through the hole of fixing piece 3: then put gasket 7 onto smaller end 2; next insert welding piece 6 into grooves 4, 5; finally fix welding piece 6 to gasket 7 and smaller end 2 at the same Lime by welding at positions 6a, 6b, 6c (For safety, it shall be avoided to do mere welding without making the above grooves for insertion; Also, welding piece 6 and gasket 7 shall be made by materials easy to weld). Gasket 7, welding piece 6, grooves 4, 5, etc, can effectively prevent the turning bolt nut or head from breaking off the connecting pieces. Thickness of gasket 7 shall make turning bolt nut or head d well connected to fixing piece 3 without leaving a gap; Meanwhile, diameter of the hole in fixing piece 3 shall exactly match that of the smaller end of turning bolt nut or head, so that they won't be shaky and can make the curtain wall's face panel precisely install in position.
(01781 In figure 18, fixed bolt nuts d22 and d33 cannot be replaced by threaded holes in part g (unless the whole of part g is made by the same material and technology as the bolt nuts) because threaded holes in ordinary steel have a strength lower than bolt nuts, if the threaded holes are damaged in use, it would be difficult to change. When installing fixed bolt nuts d22, d33, a frame with same shape as the bolt nuts and with half their height can be set at the corresponding position on part g; Then put the bolt nut and the other frame which has a hole to let part for fl pass; Finally weld together the two frames at their sides.
[01791C) When the curtain wall's face panels have been installed to position, the gap between two adjacent panels shall be sealed, so as to prevent rain from going to the inside and rust the metal connectors.
[01801 The strength and service life of this type of cur Lain wall won' t be second to any other types of curtain wall.
[01811D) On traditional stone, ceramic, metal, etc. curtain walls alt eady built, if renovation for high insulation needs to he done, a cavity, insulating layer, and inner wall can be set behind the original wall. Metal connectors can be installed with reference to what's described earlier in Technical Solutions-20 (figures 19, 20, 21).
If the original wall is strong enough and materials of the inner wall to be installed are light, chemical bolts can be used ins- de the room for installation of the connectors.

If the materials of inner wall are very light (even if the inner wall collapses there won't be danger), expansion bolts can also be used for connection of the connectors.
When the chemical bolts or expansion bolts are being installed, position of the house frame shall be avoided, and devices like steel-bar scanner shall be used to avoid the facilities in the wall. Connection of the chemical bolts or expansion bolts can be done as per figures 69, TO, 71, 72: At one side of connector I can be set hole 2 (see the front view in figure 69), at the other side can be set hole 3 (see the front view in figure 69 and side view in figure 70); When the chemical or expansion blot has been installed, hole 2 can be put around it, so that connector 1 can be fixed onto the wall;
Install two connectors 1, then bolt 4 can be fixed through holes 3. In the middle of connector 5 can also be set hole 6 (see the front view- in figure 71), and at the two ends be set holes 7, 8 (see the front view in figure 71 and side view in figure 72);
Then connector 5 can be fixed onto the wall by hole 6 and a chemical or expansion bolt;
Next fix bolt 9 through holes 7, 8. If connector 5 and bolt 9 are long, two holes 6 can be set on connector 5.
[0182] Meanwhile, every item of the Face-brick External Wall's extended techniques described earlier (see Implementation of the Insulated House-1B) can be applied, and the direction shall be reversed (the face-brick shall be set at the inner side), so that the insulation can be further boosted, the weight can be decreased, and the construction simplified. On the whole, as the wall's overall weight will be increased, calculations on the house's structure and the foundation's load need to be done, and reinforcement shall be made for the structure and foundation if necessary.
101831a light steel frames and gypsum panels are used for the inner wall, the strength will be greatly decreased, and the cost has no advantage. But it will be lighter than inner walls of many other materials (excluding inner wall of thin light concrete); then it can be applied on houses with limited strength of structure and foundation.
1018414) Implementation of the Insulated Decorative Wall and Plastered Wall:
When newly building a house with insulated decorative wall and plastered wall, as the weight of the face materials is lighter than that of stone curtain wall, the Face-brick External Wall's extended techniques described earlier (see Implementation of the Insulated House-1B) can be applied with more convenience, and the direction shall be reversed.
After the external wall, inner wall, and insulating layer have been built and installed, the work of sticking decorative ceramic tiles, plastering, etc. can start on the external wall of light concrete (or other materials). If the external wall has the Bolt-type Connection with the inner wall, then the work of building the inner wall and installing the insulating layer can be started after the external wall arid the external decoration have be completed.
[01851 If thermal insulating renovation on already-built decorative walls and plastered walls is being done, the methods described earlier (see Implementation of Stone, Ceramic, Metal, etc. Curtain Walls-D) can be fully applied.
101861 5) Construction Cost and Economic Benefits of High-insulation House:
The high-insulation house (including its door, window, curtain wall, decorative wall, plastered wall, etc. ) built with the above techniques has an insulating layer added at its external wall, floor, etc., which insulating layer's cost is not high;
The Face-brick External Wall has the hollow face bricks added, whose cost is also rather low; The stone, ceramic, metal, etc. curtain walls can spare the huge metal frames, thus the cost can be lowered greatly; The door, window, and glass curtain wall apply multiple-layer glasses, greatly reducing the amount of metal for use, thus the cost can also be lowered to a large extent; The insulation by membranes instead of panels can decrease the cost for many folds and make the general use of high-insulation house jusL one step away. In conclusion, Lime construcLion cosL of the high-insulaLion house would not rise, but, fall to a quite big extent. On the other hand, it can greatly reduce the need of air-conditioning and heating, cutting a lot of expenditure for users, saving considerable energy for the society (with general use, the energy it can save each year is equal to multiple Limes what' s yearly generated by the Three Gorges Power Station), contributing what it could for the development of economy and society.

Claims (18)

Claims

1. An energy conservation house whose door, window, external wall, and roof have multiple layers of glass panel or other panels with low heat conductivity materials; The panels are assembled or moulded together with the distance between them adjustable and the whole thermal insulating performance reaching the same level as brick wall or concrete wall that. has insulating layer; At the same time, its roof, floor, and external wall respectively apply the current insulating structures or face-brick external wall structures, so that the whole house is covered under the insulating structures and can reach any level of insulating performance with feasible construction cost; Its insulating structure's thickness and materials can make the thermal transmission coefficient far below 0.2w/m2.cndot.k; Its curtain walls use structures directly connected or laid in place of traditional curtain walls' frames; Its decorative and plastered walls have double wythes connected by bolts and steel bars.

2. With the energy conservation house stated in claim 1, between its panels of door, window, external wall, and roof there arc bars of low heat conductivity, which bars are directly clamped by the panels to form their sides and form the cavity between the panels, avoiding the effect of thermal bridge; The cavity is sealed and filled with gas or insulating materials.

3. With the energy conservation house stated in claim 1, at the sides of the multiple panels of its door, window, external wall, and roof there are fastener of metal bars or high-strength materials to prevent the multiple panels from dislocation or deformation.

4. With the energy conservation house stated in claim 1, at its door, window, external %van, and roof the exposed metal parts have thermal insulating covers.

5. With the energy conservation house stated in claim 1, at its door, window, external wall, and roof the panels' cavities filled with gas have air-holes, which are connected to air-bags in areas with great temperature changes; At its brick or concrete block external wall's cavity, the air-holes are connected to air-filtering pipes with moisture-absorbing materials and condensing devices, or are connected to air-bags.

6. With the energy conservation house stated in claim 1, its door frame or window frame has multiple rails and sealing surfaces; There is no limit to the length of the sealing surface, and the scaling and opening of all the sealing surfaces ean be done simultaneously.

7. With the energy conservation house stated in claim 1, the wall blocks' panels assembled by bolts and made of glass or other low heat conductivity materials are installed outside the house frame, or laid between the house's floors, sparing a great deal of metal frames, supporting parts, and costs.

8. With the energy conservation house stated in claim 1, the wall blocks' panels assembled by bolts and made of glass or other low heat conductivity materials are horizontally or obliquely installed at the roof, forming the insulated skylight or roof.

9. With the energy conservation house stated in claim 1, the movable reflective membrane is installed on rails, and can be opened and closed at the roof horizontally or in a slanting direction; At the end of the rail there is an oblique guiding surface to make the connectors of the reflective membrane run onto the rail.

10. With the energy conservation house stated in claim 1, the multiple layers of glass panel or other panels with low heat conductivity materials are assembled by structural adhesive to become blocks for laying, or are manufactured by welding, directly moulding etc. to become laying blocks; The thermal insulating performance of these blocks can reach any level; Then, the blocks are laid between the house's floors to become the external wall, are installed at the top of house to become the roof, or installed inside the room to become partition wall.

11. With the energy conservation house stated in claim 1, the multiple layers of glass panel or other panels of low heat conductivity materials are assembled by directly moulding, welding, gluing, etc. to become blocks for suspension; The thermal insulating performance of these blocks can reach any level; Then, the blocks are installed at the outside of the house's frame or floor to become the external wall, are installed at corresponding positions of the house to become the door, window, and roof, or are installed anywhere to become the insulating layer; The blocks can be directly installed to the outside of the house's frame or floor with the workers staying inside the room; The blocks can be sealed at the external wall and roof by removable sealing elastic strip; The rain can be drained by drainage grooves on them and by water conduits; Thus the installation and change of them are more convenient.

12. With the energy conservation house stated in claim 1, the membrane insulating structure using membranes instead of panels can be installed on houses already built or on new houses by suspension, inverted hanging, or laying;
Meanwhile, the membrane insulating structure can keep expanded by way of pressure air-bag, inner flexible bag, foamed panel, rib, etc.

13. With the energy conservation house stated in claim 1, the stone, ceramic, metal, etc. curtain walls' face panels are directly fixed to the main wall by connectors adjustable 3-dimentionally, sparing the huge metal frames and costs.

14. With the energy conservation house stated in claim 1, the stone, ceramic, metal, etc. curtain walls have an inner wall and an insulating layer installed behind the main wall, thus their thermal insulating performance can be raised to any level.

15. With the energy conservation house stated in claim 1, the stone, ceramic, metal, etc. curtain walls' connectors for face. panel have bolt nuts that can be turned on the bolts to precisely adjust their positions; At the same time, the bolt nuts and bolt heads are operated by sleeves or spanners driven with gears and chains.

16. With the energy conservation house stated in claim 1, the techniques of Face-brick External Wall are used inversely: The face bricks are set inside the room, the concrete blocks set at the outside, forming the techniques of Face-brick Internal Wall.

17. With the energy conservation house stated in claim 1, there are the Face-brick External Wall's extended techniques: Combination of thick and thin concrete blocks are made in the main wall, so that the length of bolts can be shortened to save the material; A sheath of low heat conductivity is put on the bolt to further retard heat transfer; Width of the face-brick is increased to spare the connection of the inner and outer wythes; Concrete blocks are used for both the inner and outer wythes, sparing their connection; Hollow bricks are used for both the inner and outer wythes, sparing their connection; Bricks are used for the inner wythe, concrete blocks used for the outer wythe, sparing their connection; Bricks are used for both the inner and outer wythes and their connection is done by bricks; Thin concrete blocks are used in place of the face-bricks, keeping the connection of the inner and outer wythes.

18. With the energy conservation house stated in claim 1, when the inner wall is to be added for the wall already built, the connectors can be buried by holes-drilling and grooves-making, or by installation of chemical bolts and expansion bolts;
At the same time, structures of face-bricks, light concrete blocks, light steel frames with gypsum panels can be applied on the inner wall.