CN112727326A - Energy-saving heat-preservation intelligent window with external louver sunshade windows - Google Patents

Abstract

The invention provides an energy-saving heat-insulating intelligent window with an external louver sunshade window, wherein a sealing heat-insulating pad is arranged between the upper end surface and two side surfaces of a frame and one side end part of an aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and a building wall; a sealing heat-insulating pad is arranged between the lower end surface of the auxiliary frame arranged below the frame and one side end part of the aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and the wall of the building; and a wedge-shaped drainage plate is arranged between the end part of one side of the L-shaped connecting piece and the heat insulation layer above the L-shaped connecting piece. Various heat insulation structures block and/or divide gaps, heat transfer from indoor to outdoor is reduced, and the blades can improve incident light or reduce incident light, so that heat entering the indoor is adjusted.

Description

Energy-saving heat-preservation intelligent window with external louver sunshade windows

Technical Field

The invention belongs to the technical field of energy conservation and heat preservation of windows, and particularly relates to an energy-saving heat-preservation intelligent window with an external louver sunshade window.

Background

The window comprises a frame 12 and a window sash 13, wherein the window sash is hinged in the frame through hardware, glass 14 is arranged in the window sash, the frame is installed as shown in figure 1, the upper end and two sides of the frame are fixed on a wall 7 on the outer side of a window opening of a building through L-shaped connecting pieces 4, the lower end of the frame is fixed on the wall on the outer side of the window opening of the building through auxiliary frames 16 and L-shaped connecting pieces, the outer side surface of each L-shaped connecting piece is in contact with an insulating layer 1, one end of each L-shaped connecting piece is connected with the frame and the auxiliary frame through bolts, and the other end of each L-shaped connecting piece is fixed on.

The above structure has the following problems: 1. the window mounting structure does not well design heat preservation and insulation, so that indoor heat is dissipated to the outside at various gaps; 2. the frame comprises an outer frame, a connecting piece and an inner frame, cavities are formed among the outer frame, the inner frame and the outer frame and the window sashes, and when the temperature difference between the indoor space and the outdoor space is large in winter, the heat in the house is easily conducted to the outdoor space through the adjacent cavities, so that the heat is unnecessarily dissipated, and the energy is wasted; 3. vertical sun-shading shutters can be further arranged on the inner side of the intelligent window, and the sun-shading shutters have the defects that the opening and closing of the window are inconvenient, the window is easy to shake, the replacement and the maintenance are inconvenient, and the rotating angle of the blades is small.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an energy-saving and heat-insulating intelligent window with an external louver sunshade window. This intelligence window utilizes multiple structures such as sealed heat insulating mattress to carry out indoor and outdoor effective isolation, has blockked up, cut apart the cavity, gap between inside, frame and the casement of frame, and blade rotation angle is big and be convenient for install and maintain.

The technical scheme adopted by the invention is as follows:

the utility model provides an energy-conserving heat preservation intelligence window with external tripe sunshade window, includes frame, casement and L type connecting piece, its characterized in that: a sealing heat-insulating pad is arranged between the upper end face and the two side faces of the frame and one side end part of the aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and the wall of the building; a sealing heat-insulating pad is arranged between the lower end surface of the auxiliary frame arranged below the frame and one side end part of the aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and the wall of the building; and a wedge-shaped drainage plate is arranged between the end part of one side of the L-shaped connecting piece and the heat insulation layer above the L-shaped connecting piece.

The surface of the other side end part of the L-shaped connecting piece at the upper end of the frame is provided with a waterproof breathable film, one end of the waterproof breathable film extends to the wall of the building beside the other side end part of the L-shaped connecting piece, and the other end of the waterproof breathable film extends to the surface of the outer side of the frame through the upper end surface of the wedge-shaped drainage plate;

preferably, the surfaces of the L-shaped connecting pieces at two sides of the frame are provided with waterproof breathable films, and two ends of each waterproof breathable film respectively extend to the surface of the outer side of the frame and the building wall beside the end part at the other side of each L-shaped connecting piece;

preferably, one end of a waterproof breathable film is arranged in the plastering layer at the upper end and two sides of the building window hole, and the other end of the waterproof breathable film extends to a position between the heat preservation layer and the frame beside the window hole;

preferably, the surface of the L-shaped connecting piece below the auxiliary frame is provided with a waterproof breathable film, and two ends of the waterproof breathable film respectively extend to the surface of the outer side of the auxiliary frame and the building wall beside the end part at the other side of the L-shaped connecting piece;

preferably, one end of the waterproof breathable film is arranged in the plastering layer at the lower end of the building window hole, and the other end of the waterproof breathable film extends to a position between the auxiliary frame and the frame through the inner side surface of the auxiliary frame beside the window hole.

The frame comprises an outer frame, connecting pieces and an inner frame, the outer frame and the inner frame are fixedly connected with each other through the connecting pieces, at least one partition plate is integrally arranged on the inner side surface of each connecting piece, and the partition plates of the two connecting pieces divide cavities among the outer frame, the inner frame and the two connecting pieces into circuitous channels; nylon reinforcing ribs are arranged in the cavities among the edge outer frame, the edge inner frame and the two connecting pieces.

Preferably, two partition plates are arranged on the inner side surface of one connecting piece close to the outer side of the outer frame and the inner frame at intervals, two partition plates are arranged on the inner side surface of the other connecting piece at intervals and located between the two partition plates close to the outer connecting piece, a gap is reserved between the tail end of each partition plate and the inner side surface of the adjacent connecting piece, and a baffle is arranged on the partition plate at each gap;

preferably, the nylon reinforcing ribs are arranged between the two partition plates arranged on the other connecting piece, the heat insulation pad is arranged between the partition plate close to the edge outer frame and the edge outer frame, and the heat insulation pad is arranged between the partition plate close to the edge inner frame and the edge inner frame.

The inner frame is provided with a side outer frame and a side inner frame, the side outer frame is provided with a side inner frame, the side inner frame is provided with a side outer frame, the side inner frame is provided with a side inner frame, the side inner frame is provided with a;

furthermore, a clamping plate is arranged between the extending edge of the edge outer frame in the frame and the edge inner frame, and the clamping plate is provided with an inclined sealing strip which is aligned with a convex part arranged on a connecting piece of the window sash close to the frame;

preferably, the inner side of the clamping plate is provided with a short baffle, the clamping plate on the outer side of the short baffle is provided with a long baffle, and the oblique sealing strip is embedded between the short baffle and the long baffle;

preferably, the clamping plate on the outer side of the long baffle is provided with another long baffle, a T-shaped sealing strip is arranged between the two long baffles, and the T-shaped sealing strip abuts against the outer frame of the closed window sash.

Furthermore, the outer side end of the clamping plate is provided with a clamping hook which is clamped in a clamp arranged in alignment with the edge outer frame extension plate of the frame; the end of the inner side of the clamping plate is provided with a convex edge, and the convex edge is clamped in a buckle arranged in an alignment mode of an inner frame of the frame.

The window sash comprises a sash outer frame, a connecting piece, glass and a sash inner frame, wherein the sash outer frame is connected with the sash inner frame through the connecting piece, a metal plate is arranged between the glass and the sash outer frame and the sash inner frame, and a heat insulation pad is arranged between the connecting piece close to the glass and the metal plate and is used for filling and/or separating a cavity at the metal plate; an arc-shaped partition plate is arranged on the outer side close to the surface of the connecting piece of the glass and extends into the cavity of the outer frame of the fan;

preferably, the surface of the partition plate is provided with a filling strip.

Furthermore, nylon reinforcing ribs are arranged in the cavity of the inner fan frame, two opposite side surfaces of the nylon reinforcing ribs are embedded with or embedded with base plates, and each base plate is provided with at least one hollow protruding part; and the surface of each substrate facing the inside of the nylon reinforcing rib is provided with at least one integrated wedge-shaped fixing part.

The inner side surface of the outer side end of the edge outer frame is provided with a groove, a frame is arranged in the groove, a plurality of blades are arranged in the frame from top to bottom, and the blades are driven by a driving module arranged in the edge outer frame to rotate;

preferably, the outer side surfaces of the side plates arranged at two sides of the frame are provided with embedded buckles, the embedded buckles are embedded in the aligned vertical frames, the side plates at two sides are provided with a plurality of shaft seats at intervals from top to bottom, each shaft seat is rotatably provided with a rotating shaft, the end parts of the rotating shafts of the side plates at two sides, which extend out of the side plates, are connected with two ends of the aligned blade rotating shaft, and the end part of the rotating shaft of any side plate, which is positioned in the vertical frame, is provided with a driven gear which is connected with the driving module;

preferably, the upper end and the lower end of each blade are respectively provided with a sealing strip towards the outer side and a sealing strip towards the inner side, the sealing strip at the upper end of the uppermost blade can press the sealing strip at the upper end of the frame in an alignment mode when the blade is reset, the sealing strip at the lower end of the lowermost blade can press the sealing strip at the lower end of the frame in an alignment mode when the blade is reset, and the sealing strips at the lower ends and the sealing strips at the upper ends of the two adjacent blades can be mutually pressed and connected when.

And moreover, a light sensor is arranged on the outer side of the frame, the frame or the inner side of the frame, the output end of the light sensor is connected with a control module, and the control module is connected with the control end of the driving module.

The invention has the advantages and positive effects that:

1. in this intelligence window, L type connecting piece and frame, attach one side tip department that the frame is connected and be provided with sealed heat insulating mattress, L type connecting piece and building wall connection's opposite side tip department are provided with sealed heat insulating mattress, L type connecting piece shanghai is provided with and is located outdoor waterproof ventilated membrane, the frame, attach the frame inboard and be provided with and be located indoor waterproof ventilated membrane, the frame, attach the frame and still be provided with sealed glue, through above-mentioned various structures, with the frame, attach frame and heat preservation, the gap jam between the building window hole, avoid thermal scattering and disappearing in this gap, and it is better to drain the water performance.

2. In the intelligent window, nylon reinforcing ribs are arranged in two cavities of the outer frame and the inner frame, the nylon reinforcing ribs not only play a role in strengthening the integral structure and avoiding the risk of excessive softening of the aluminum alloy section in fire, but also play a role in filling the cavity space and blocking heat conduction and heat radiation, hollow convex parts arranged on the nylon reinforcing ribs are poor thermal conductors and further divide the cavity space, further reducing the heat loss, a plurality of partition plates arranged on a connecting piece between the outer frame and the inner frame and baffles on the partition plates divide the cavity at the position into circuitous channels, nylon reinforcing ribs are arranged in the nylon reinforcing ribs, the convex parts, the partition plates and two heat insulation pads arranged at the connecting piece position are matched with each other, the outer frame, the connecting piece and the inner frame are divided in the air, and the blocking is realized, and the heat conduction is reduced, The radiation mode is lost, and the strength of the whole frame in a high-temperature environment is improved.

3. In this intelligence window, clamp the board outside end card in the buckle that the limit frame extends the limit, clamp the inboard end card of board in the buckle of limit inside casing, clamp the board and set up two long baffles and a short baffle of mutual interval towards the surface of casement, set up T style of calligraphy sealing strip and oblique sealing strip in it respectively, and support respectively on the fan frame and the bulge of casement after the casement is closed, both realized sealed between frame and the casement from this, still fill and cut apart the cavity of this department, the heat has been reduced and has been here in the conduction, radiation mode's scattering and disappearing, better heat preservation has than prior art, thermal-insulated, sealed effect.

4. In the intelligent window, the heat insulation pad is arranged between the connecting piece and the metal plate, the heat insulation pad fills and/or separates a cavity at the metal plate, the arc-shaped partition plate integrally arranged on the connecting piece extends into the cavity between the fan outer frame and the glass, the outer side surface and the inner side surface of the partition plate are respectively provided with the filling strips, the partition plate is used for separation, and the filling strips are used for filling; meanwhile, the heat insulation strips in the cavities between the connecting pieces, and the nylon reinforcing ribs and the protruding parts between the fan inner frames also fill and divide the aligned cavities, so that the loss of heat in a conduction and radiation mode at the positions is reduced; through the added structure and the mutual matching, the heat loss of the window sash is reduced, and the heat insulation capability is improved.

5. In this intelligence window, the limit frame outside in the frame of window is provided with horizontal frame and mullion, at the embedded frame of recess that horizontal frame and mullion set up, the pivot and the blade pivot both ends that the curb plate of frame both sides set up are connected, and arbitrary one side pivot is provided with driven gear, and driven gear passes through the motor driving gear connection that chain and the horizontal frame of limit frame set up, and every blade can form holistic dustproof through the sealing strip of adorning each other when reseing. During the use, light sensor controls the rotation of motor according to measured data, makes the angle that the blade was opened accord with the needs when needing more sunshine in early morning, makes the blade shelter from or close when noon highlight is stronger to make the light inlet volume of whole day can adjust, can be the biggest with heat induction indoor, overall structure is the modularization moreover, be convenient for installation, change.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the lower end of the frame of FIG. 1, shown attached to the frame;

FIG. 3 is an enlarged schematic view at the upper end of the bezel of FIG. 1;

FIG. 4 is an enlarged schematic view at both sides of the bezel of FIG. 1;

FIG. 5 is an enlarged top view at the blade of FIG. 1;

FIG. 6 is a schematic view of the vane of FIG. 1 when closed;

FIG. 7 is a state view of the early morning of FIG. 1 with the vanes open;

FIG. 8 is an enlarged schematic view of adjacent vanes being reset closed;

fig. 9 is an enlarged cross-sectional view of the interior of the bezel, the interior of the sash, and the insulation therebetween of fig. 1.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

An energy-saving heat-preservation intelligent window with an external louver sunshade window is shown in figures 1-4 and comprises a frame 12 and an L-shaped connecting piece 3, and the innovation of the invention is as follows: a sealing and heat insulating pad 4 is arranged between the upper end face and the two side faces of the frame and one side end part (the horizontal part in fig. 3 and the vertical part in fig. 4) of the aligned L-shaped connecting piece, and a sealing and heat insulating pad 6 is arranged between the other side end (the vertical part in fig. 3 and the horizontal part in fig. 4) of the L-shaped connecting piece and the wall of the building. A sealing and heat insulating pad 4 is arranged between the lower end surface of the auxiliary frame arranged below the frame and one side end (the transverse part in figure 2) of the aligned L-shaped connecting piece, and a sealing and heat insulating pad 6 is arranged between the other side end (the vertical part in figure 2) of the L-shaped connecting piece and the wall of the building.

A wedge-shaped drainage plate 5 is arranged between the end part of one side of the L-shaped connecting piece above the upper end of the frame and the heat preservation layer above the L-shaped connecting piece.

The surface of the other side end part of the L-shaped connecting piece at the upper end of the frame is provided with a waterproof breathable film 2, as shown in figure 3, the upper end of the waterproof breathable film extends to the wall of the building at the side of the other side end part of the L-shaped connecting piece, and the lower end of the waterproof breathable film extends to the surface of the outer side of the frame through the upper end surface of the wedge-shaped drain board. The surfaces of the L-shaped connecting pieces at the two sides of the frame are provided with waterproof breathable films 2, and as shown in figure 4, the right end and the left end of each waterproof breathable film respectively extend to the surface outside the frame and the building wall at the side of the end part at the other side of the L-shaped connecting piece. The waterproof and breathable membrane is covered together with the expansion bolts 8 on the L-shaped connecting piece.

One end of a waterproof breathable film 9 is arranged in the plastering layer 10 at the upper end and two sides of the building window hole as shown in figure 3, and the other end of the waterproof breathable film extends to a position between the heat preservation layer and the frame at the side of the window hole through the space between the building window hole and the plastering layer.

And a sealant 11 is arranged between the outer waterproof breathable films at the upper end and the two sides of the frame and the heat preservation layer at the side, and a sealant is arranged between the inner side surfaces at the upper end and the two sides of the frame and the window hole plastering layer at the side.

The surface of the L-shaped connecting piece below the auxiliary frame is provided with a waterproof breathable film 2 as shown in figure 2, and the left end and the right end of the waterproof breathable film respectively extend to the surface outside the auxiliary frame and the building wall at the side of the other end part of the L-shaped connecting piece.

The right end of a waterproof breathable film 15 is arranged in a plastering layer at the lower end of the building window hole, and the left end of the waterproof breathable film extends to a position between the auxiliary frame and the side frame through the inner side surface of the auxiliary frame beside the window hole.

The outer side surface of the auxiliary frame is provided with a sealing heat insulation pad 20, the outer side surface of the sealing heat insulation pad is provided with the right vertical end part of a flashing 17, and the left end part of the flashing extends to the outer side of the heat insulation layer through the surface of the lateral heat insulation layer 1; waterproof expansion cotton 19 is arranged between the inner surface of the flashing at the lower end of the outer side of the auxiliary frame and the waterproof breathable film at the position where the flashing is coated on the end part of one side of the L-shaped connecting piece and the sealed heat insulation pad. An expansion sealing adhesive tape 18 is arranged between the flashing and the upper end surface of the insulating layer of the side, and a sealant is arranged between the surface of the waterproof breathable film on the inner side of the auxiliary frame and the plastering layer of the window hole of the side. Sealed heat insulating mattress and the vertical tip in apron flashing right side of this department with the frame lower extreme with attach the seam cover between the frame, the frame with attach the sealed glue of reinjection between the gap between the frame, all place the nylon strengthening rib in attaching a plurality of cavities of frame, can strengthen holistic mechanical strength, can also block up and cut apart in order to reduce thermal transmission with the unprecedented.

The heat preservation and insulation structure at the frame and the window sash is as follows:

1. heat preservation and insulation structure inside frame

As shown in fig. 9, the frame includes an outer frame 39, a connecting member 56, and an inner frame 78, the outer frame and the inner frame are fixedly connected to each other by the connecting members at two fasteners 80, at least one partition plate 82 is integrally disposed on the inner side surface of each connecting member, the partition plates of the two connecting members divide a cavity 84 between the outer frame and the inner frame and the two connecting members into circuitous channels, and nylon reinforcing ribs 46 are disposed in the cavities between the outer frame and the inner frame and the two connecting members.

The inner side surface of one connecting piece of limit frame and limit inside casing near the outside is provided with two division boards at interval, and the inner side surface of another connecting piece is provided with two division boards at interval, and these two division boards are located and lean on between the two division boards that outside connecting piece was established, and the terminal of every division board all remains the clearance with the connecting piece inner side surface that is close to. A baffle 83 is provided on the divider plate at each gap. A nylon reinforcing rib is arranged between the two partition plates arranged on the other connecting piece.

A heat insulation pad 81 is arranged between the partition board close to the edge outer frame and the edge outer frame, and a heat insulation pad is arranged between the partition board close to the edge inner frame and the edge inner frame.

The hollow cavities 45 and 79 of the outer frame and the inner frame are both provided with nylon reinforcing ribs 46, the surfaces of two opposite sides in the nylon reinforcing ribs are embedded with or embedded with base plates 44, and each base plate is provided with at least one hollow protruding part 41. Each base plate is provided with at least one integral wedge-shaped fixing portion 42 on the surface facing the inside of the nylon reinforcing ribs. The protruding parts on two sides of the nylon reinforcing ribs at the cavities of the edge outer frame and the edge inner frame are two, and the wedge-shaped fixing parts are three.

When the external louver 86 is arranged on the side frame, the nylon reinforcing ribs 43 are arranged in the cavity 21 of the side frame aligned with the external louver, the base plates 44 are embedded or buried on the surfaces of two opposite sides in the nylon reinforcing ribs, and at least one hollow protruding part 41 is integrally arranged on each base plate. Each base plate is provided with at least one integral wedge-shaped fixing portion 42 on the surface facing the inside of the nylon reinforcing ribs. The bulges at two sides of the nylon reinforcing rib in the cavity of the edge outer frame aligned with the external louver are all one, and the wedge-shaped fixing part is one.

The base plate, the protruding part and the wedge-shaped fixing part are all made of nylon materials, are poor thermal conductors and are high in mechanical strength and durable.

2. Heat preservation and insulation structure at gap between frame and window sash

As shown in fig. 9, when the window sash is closed, the extending edge 77 of the inner sash frame 73 is pressed on the edge inner frame, a gap 74 between the edge frame and the window sash is provided with a hardware 75 for hinging the edge frame and the window sash, the window sash is provided with a protruding part 54 facing the edge frame, and a clamping plate 88 is arranged between the extending edge 49 of the edge outer frame 39 in the edge frame and the edge inner frame 78 and is provided with an oblique sealing strip 87 aligned with the protruding part.

Two spaced baffles are arranged on the clamping plate, and an oblique sealing strip is arranged between the two baffles. The concrete structure is as follows: the inboard short baffle 89 that is provided with of clamping board, be provided with long baffle 53 on the clamping board in the short baffle outside, inlay between short baffle and the long baffle and establish oblique sealing strip.

The connecting piece 11 between the outer frame of the fan and the inner frame of the fan in the window sash is provided with a convex part which is larger than the convex part in the prior art, so that the area of mutual contact with the oblique sealing strip can be increased, and the end surface of the convex part aligned with the oblique sealing strip is arranged to be in the same shape with the surface inclination direction of the oblique sealing strip. After the sash is closed, the projection abuts against and deforms the angled bead.

The clamping plate on the outer side of the long baffle 53 is provided with another long baffle 50, a T-shaped sealing strip 51 is arranged between the two long baffles, and the T-shaped sealing strip is abutted on a clamping buckle 55 for aligning the outer frame of the closed sash. The vertical section of the T-shaped sealing strip is embedded between the two long baffles, and the transverse section 52 of the T-shaped sealing strip is pressed on the end faces, facing the window sash, of the two long baffles.

The outer end of the clamping plate is provided with a clamping hook 47 which is clamped in a clamping buckle 48 which is arranged in an alignment way on the outer frame extending plate of the frame. The end of the inner side of the clamping plate is provided with a convex edge 90 which is clamped in a buckle 76 which is arranged in the edge inner frame of the frame in an aligned mode. The clamping plate is provided with a convex section, and the outer end of the convex section abuts against a buckle 85 of the edge outer frame.

The clamping plate and the baffle plate can be made of nylon materials, rubber materials, plastic materials and the like, are poor thermal conductors, and are resistant to corrosion and durable. The heat preservation and insulation principle of the structures is to fill and divide the cavity as much as possible, and reduce the channels for heat transmission in conduction and radiation modes, such as: the clamping plate, the long baffle, the short baffle, the protruding section, the T-shaped sealing strip, the oblique sealing strip and the protruding part both fill the space in the cavity 30 and divide the space.

3. Heat preservation and insulation structure inside window sash

As shown in fig. 9, the window sash comprises a sash outer frame 57, a connecting piece 11, a glass 14 and a sash inner frame 73, wherein the sash outer frame is connected with the sash inner frame through the connecting piece, a metal plate 68 is arranged between the glass and the sash outer frame and the sash inner frame, and a heat insulation pad 66 is arranged between the connecting piece arranged between the glass and the sash inner frame and the metal plate and close to the glass and provided with a buckle strip 69, and the heat insulation pad is used for filling and/or separating a cavity 67 at the metal plate.

The outer side of the surface of the connecting piece close to the glass is provided with a bending plate 65 which is integrated with the connecting piece and is provided with an integrated arc-shaped division plate 64 which extends into the cavity 63 of the outer frame of the fan.

The outer end of the partition board is provided with a hook 59 which is clamped in a buckle 60 arranged in an aligned way of the outer frame of the fan. Baffles 58 and 61 with intervals are respectively arranged on the outer side surface and the inner side surface of the partition plate, and a filler strip 62 is arranged between the baffles on the same side surface.

The cavity 72 of the fan inner frame is internally provided with nylon reinforcing ribs 46, two opposite sides of the nylon reinforcing ribs are embedded with or embedded with base plates 44, each base plate is provided with at least one hollow protruding part 41, and the surface of each base plate facing the inside of the nylon reinforcing ribs is provided with at least one wedge-shaped fixing part 42. One projection on each substrate and one wedge-shaped anchor on each substrate. The heat insulation strips 71 are arranged in the cavity 70 between the outer fan frame, the inner fan frame and the two connecting pieces. The base plate, the convex part and the wedge-shaped fixing part are all made of nylon materials, are not only poor thermal conductors, but also high in mechanical strength and durable.

In the above-mentioned 1, 2, 3 structures, the thermal-insulated principle of heat preservation is filled and is cut apart everywhere cavity as far as, reduces the heat with the passageway of conduction, radiation mode transmission, and the nylon strengthening rib not only plays the effect that blocks, packs, can also be the intensity of guaranteeing the aluminum alloy ex-trusions at high temperature. The nylon is polyamide, commonly called nylon 66.

The structure of the blind is as shown in fig. 1, 5-8, a groove is arranged on the inner side surface of the outer side end of the edge frame of the frame, a frame 23 is arranged in the groove, a plurality of blades 24 are arranged in the frame from top to bottom, and the blades are driven by a driving module 25 arranged in the edge frame to rotate.

The inner side surfaces of the upper and lower ends of the outer frame are provided with horizontal frames 22, the inner side surfaces of both sides of the outer frame are provided with vertical frames 26, and grooves are provided in the horizontal and vertical frames.

The outer side surfaces of the side plates 30 arranged on two sides of the frame are provided with embedded buckles 34 which are embedded in the aligned vertical frames, the side plates on the two sides are provided with a plurality of shaft seats 29 from top to bottom at intervals, a rotating shaft 27 is rotationally arranged in each shaft seat, the end parts of the rotating shafts of the side plates on the two sides, which extend out of the side plates, are connected with two ends of a blade rotating shaft 31 aligned, and the end part of the rotating shaft of any side plate in the vertical frame is provided with a driven gear 28 which is connected with a driving module.

The upper end and the lower end of each blade are respectively provided with an outward-facing sealing strip 37 and an inward-facing sealing strip, the sealing strip at the upper end of the uppermost blade can press the sealing strip at the upper end of the frame when the blade is reset, the sealing strip at the lower end of the lowermost blade can press the sealing strip at the lower end of the frame when the blade is reset, and the sealing strips at the lower ends and the sealing strips at the upper ends of the two adjacent blades can be mutually pressed and connected when the blade is reset.

The upper end of the frame, the lower end of the frame, the upper end of the blade and the lower end of the blade are provided with clamping grooves 38 and 40, and sealing strips are arranged in the clamping grooves. And the light sensor is arranged on the outer side of the frame, on the frame or on the inner side of the frame, the output end of the light sensor is connected with the control module, and the control module is connected with the control end of the driving module.

The driving module comprises a motor, the motor is arranged at the end part of one side of the outermost cavity 21 of the edge outer frame, the motor can be of a modularized embedded structure, the installation and the disassembly are convenient, an opening is reserved on the modularized bottom plate, and a chain is convenient to penetrate. A driving gear 35 is arranged on a motor shaft and drives all driven gears to rotate through a chain 36. In order to ensure the close contact between the chain and the driven gears, a pressing structure can be arranged on the shaft seat in the vertical frame, two pressing plates are arranged on two sides of the shaft seat, and the chain is pressed on the outer edge of each driven gear by the pressing plates.

Both sides have vertical mounting panel 33 structure between frame upper end and the lower extreme, set up a plurality of blade pivots from last to down between two mounting panels, and the tip of every blade pivot stretches out to the mounting panel outside. After the blade rotating shaft is pulled out, the aligned blade can be taken out. The section of the blade rotating shaft between the mounting plates can be square or other non-circular shapes, so that the blade rotating shaft can drive the blades to rotate, and the sections of the parts and the end parts of the blade rotating shaft in the openings of the mounting plates can be circular.

The vertical height of frame appearance slightly is greater than the height between two horizontal frames but is less than the height between two recesses of horizontal frame, and in the frame upper end inserted counterpoint recess, the lower extreme just in time was located the top of counterpoint recess, loosens the frame, and the frame lower extreme falls into the recess, accomplishes the installation of frame upper end and lower extreme.

During the installation, can be at driven gear and compress tightly the plate and sheathe in the chain, then stretch out the chain both ends from the curb plate upper end, inlay the curb plate again and adorn in the mullion of homonymy, then with in the horizontal frame of frame upper end and lower extreme, the both ends of every blade pivot stretch out to the mounting panel outside and be connected well through having internal screw thread turnbuckle 32 with the pivot of counterpointing, twine the chain on the driving gear of motor and with chain both ends reciprocal anchorage again, the vertical position of adjustment motor makes the chain rise tightly and fix with positioning bolt for the motor.

The use process of the shutter is as follows:

the light sensor controls the rotation of the motor according to the measured data.

When more sunlight is needed in the early morning, the motor rotates to enable the blades to rotate clockwise or anticlockwise to form an upward angle, and more sunlight is emitted into a room as far as possible.

When strong light is generated in the noon and the afternoon, the motor rotates to enable the blades to form a pressing angle or be closed, and the sunlight entering the room is reduced.

The gaps are blocked and/or divided through the various heat insulation structures, so that the heat transfer from indoor to outdoor is reduced, and the incident light can be increased or reduced through the blades, so that the heat entering the indoor is regulated.

Claims (10)

1. The utility model provides an energy-conserving heat preservation intelligence window with external tripe sunshade window, includes frame, casement and L type connecting piece, its characterized in that: a sealing heat-insulating pad is arranged between the upper end face and the two side faces of the frame and one side end part of the aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and the wall of the building; a sealing heat-insulating pad is arranged between the lower end surface of the auxiliary frame arranged below the frame and one side end part of the aligned L-shaped connecting piece, and a sealing heat-insulating pad is arranged between the other side end of the L-shaped connecting piece and the wall of the building; a wedge-shaped drainage plate is arranged between the end part of one side of the L-shaped connecting piece and the upper heat-insulating layer; a shutter is arranged at the outer side end of the frame.

2. The energy-saving heat-preservation intelligent window with the external louver sunshade windows as claimed in claim 2, is characterized in that: the surface of the other side end part of the L-shaped connecting piece at the upper end of the frame is provided with a waterproof breathable film, one end of the waterproof breathable film extends to the wall of the building beside the other side end part of the L-shaped connecting piece, and the other end of the waterproof breathable film extends to the surface of the outer side of the frame through the upper end surface of the wedge-shaped drainage plate;

preferably, the surfaces of the L-shaped connecting pieces at two sides of the frame are provided with waterproof breathable films, and two ends of each waterproof breathable film respectively extend to the surface of the outer side of the frame and the building wall beside the end part at the other side of each L-shaped connecting piece;

preferably, one end of a waterproof breathable film is arranged in the plastering layer at the upper end and two sides of the building window hole, and the other end of the waterproof breathable film extends to a position between the heat preservation layer and the frame beside the window hole;

preferably, the surface of the L-shaped connecting piece below the auxiliary frame is provided with a waterproof breathable film, and two ends of the waterproof breathable film respectively extend to the surface of the outer side of the auxiliary frame and the building wall beside the end part at the other side of the L-shaped connecting piece;

preferably, one end of the waterproof breathable film is arranged in the plastering layer at the lower end of the building window hole, and the other end of the waterproof breathable film extends to a position between the auxiliary frame and the frame through the inner side surface of the auxiliary frame beside the window hole.

3. The energy-saving heat-preservation intelligent window with the external louver sunshade windows as claimed in claim 2, is characterized in that: the frame comprises an outer frame, connecting pieces and an inner frame, the outer frame and the inner frame are fixedly connected with each other through the connecting pieces, at least one partition plate is integrally arranged on the inner side surface of each connecting piece, and the partition plates of the two connecting pieces divide cavities among the outer frame, the inner frame and the two connecting pieces into circuitous channels; nylon reinforcing ribs are arranged in the cavities among the edge outer frame, the edge inner frame and the two connecting pieces.

Preferably, two partition plates are arranged on the inner side surface of one connecting piece close to the outer side of the outer frame and the inner frame at intervals, two partition plates are arranged on the inner side surface of the other connecting piece at intervals and located between the two partition plates close to the outer connecting piece, a gap is reserved between the tail end of each partition plate and the inner side surface of the adjacent connecting piece, and a baffle is arranged on the partition plate at each gap;

preferably, the nylon reinforcing ribs are arranged between the two partition plates arranged on the other connecting piece, the heat insulation pad is arranged between the partition plate close to the edge outer frame and the edge outer frame, and the heat insulation pad is arranged between the partition plate close to the edge inner frame and the edge inner frame.

4. The energy-saving heat-preservation intelligent window with the external louver sunshade windows as claimed in claim 3, is characterized in that: the cavity of limit frame and limit inside casing all is provided with the nylon strengthening rib in, and relative both sides are inlayed on the surface in this nylon strengthening rib and are established or have buried the base plate underground, are provided with integrative at least one hollow bulge on every base plate, and every base plate is provided with integrative at least one wedge fixed part towards the inside on the surface of nylon strengthening rib.

5. The energy-saving and heat-insulating intelligent window with the external louver sunshade windows as claimed in claim 3 or 4, wherein: a clamping plate is arranged between the extending edge of the edge outer frame in the frame and the edge inner frame, and an inclined sealing strip which is aligned with a convex part arranged on a connecting piece of the window sash close to the frame is arranged on the clamping plate;

preferably, the inner side of the clamping plate is provided with a short baffle, the clamping plate on the outer side of the short baffle is provided with a long baffle, and the oblique sealing strip is embedded between the short baffle and the long baffle;

preferably, the clamping plate on the outer side of the long baffle is provided with another long baffle, a T-shaped sealing strip is arranged between the two long baffles, and the T-shaped sealing strip abuts against the outer frame of the closed window sash.

6. The energy-saving heat-preservation intelligent window with the external louver sunshade windows as claimed in claim 5, is characterized in that: the outer side end of the clamping plate is provided with a clamping hook which is clamped in a clamp arranged in an alignment way of the edge frame extending plate of the frame; the end of the inner side of the clamping plate is provided with a convex edge, and the convex edge is clamped in a buckle arranged in an alignment mode of an inner frame of the frame.

7. The energy-saving heat-preservation intelligent window with the external louver sunshade windows as claimed in claim 6, is characterized in that: the window sash comprises a sash outer frame, a connecting piece, glass and a sash inner frame, wherein the sash outer frame is connected with the sash inner frame through the connecting piece, a metal plate is arranged between the glass and the sash outer frame as well as between the glass and the sash inner frame, and a heat insulation pad is arranged between the connecting piece close to the glass and the metal plate and is used for filling and/or separating a cavity at the metal plate; an arc-shaped partition plate is arranged on the outer side close to the surface of the connecting piece of the glass and extends into the cavity of the outer frame of the fan;

preferably, the surface of the partition plate is provided with a filling strip.

8. The energy-saving and heat-insulating intelligent window with the external louver sunshade windows as claimed in claim 7, is characterized in that: nylon reinforcing ribs are arranged in the cavity of the inner fan frame, two opposite side surfaces of the nylon reinforcing ribs are embedded with or embedded with base plates, and each base plate is provided with at least one hollow protruding part; and the surface of each substrate facing the inside of the nylon reinforcing rib is provided with at least one integrated wedge-shaped fixing part.

9. The energy-saving and heat-insulating intelligent window with the external louver sunshade windows as claimed in claim 5, 6 or 7, wherein: the louver comprises blades, wherein a groove is formed in the inner side surface of the outer side end of the edge outer frame, a frame is arranged in the groove, a plurality of blades are arranged in the frame from top to bottom, and the plurality of blades are driven by a driving module arranged in the edge outer frame to rotate;

preferably, the outer side surfaces of the side plates arranged at two sides of the frame are provided with embedded buckles, the embedded buckles are embedded in the aligned vertical frames, the side plates at two sides are provided with a plurality of shaft seats at intervals from top to bottom, each shaft seat is rotatably provided with a rotating shaft, the end parts of the rotating shafts of the side plates at two sides, which extend out of the side plates, are connected with two ends of the aligned blade rotating shaft, and the end part of the rotating shaft of any side plate, which is positioned in the vertical frame, is provided with a driven gear which is connected with the driving module;

preferably, the upper end and the lower end of each blade are respectively provided with a sealing strip towards the outer side and a sealing strip towards the inner side, the sealing strip at the upper end of the uppermost blade can press the sealing strip at the upper end of the frame in an alignment mode when the blade is reset, the sealing strip at the lower end of the lowermost blade can press the sealing strip at the lower end of the frame in an alignment mode when the blade is reset, and the sealing strips at the lower ends and the sealing strips at the upper ends of the two adjacent blades can be mutually pressed and connected when.

10. The energy-saving and heat-insulating intelligent window with the external louver sunshade windows as claimed in claim 9, is characterized in that: and the light sensor is arranged on the outer side of the frame, on the frame or on the inner side of the frame, the output end of the light sensor is connected with the control module, and the control module is connected with the control end of the driving module.

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