CN217950199U - Energy-saving door and window with radiation-resistant fireproof low-E glass - Google Patents

Abstract

The application relates to an energy-saving door and window with radiation-resistant fireproof low-E glass, which is applied to the field of door and window structures and comprises a fixing frame, wherein an eave is arranged at the upper part of the fixing frame, the eave extends towards the outside, a rain collecting groove is formed in one side of the eave, which is back to the fixing frame, a cavity is formed in the fixing frame, a water inlet pipe is arranged in the cavity, the rain collecting groove is communicated with the water inlet pipe, one end, away from the eave, of the water inlet pipe is communicated with a rain collecting mechanism, the rain collecting mechanism is fixed on the fixing frame, and the rain collecting mechanism is arranged on one side, which is back to the eave, of the fixing frame; still include watering mechanism, watering mechanism is linked together with collection rain mechanism, and watering mechanism's delivery port sets up towards fixed frame middle part. This application has the effect of promotion door and window heat-proof quality ability.

Description

Energy-saving door and window with radiation-resistant fireproof low-E glass

Technical Field

The application relates to the technical field of door and window structures, in particular to an energy-saving door and window with radiation-resistant fireproof low-E glass.

Background

The doors and the windows are important components in a building enclosure structure system, the doors and the windows are divided into enclosure components or partition components according to different positions of the doors and the windows, the doors and the windows respectively have the functions of heat preservation, heat insulation, sound insulation, water resistance, fire resistance and the like according to different design requirements, and the shapes, the sizes, the proportions, the arrangements, the colors, the shapes and the like of the doors and the windows have great influence on the integral shape of a building.

Chinese patent with publication number CN214835883U discloses an energy-saving door and window with radiation-resistant and fireproof low-E glass, which comprises a glass plate and a window frame main body, wherein a placing groove is formed in the window frame main body, the glass plate is positioned in the placing groove, the glass plate is made of low-E glass, a connecting frame is placed in the placing groove, the connecting frame abuts against the glass plate, a fastening structure is arranged on the connecting frame, and heat insulation structures are arranged in the connecting frame and the window frame main body.

Aiming at the related technologies, the inventor finds that the energy-saving door and window with the radiation-resistant fireproof low-E glass reduces the indoor and outdoor heat exchange efficiency by means of a heat insulation system formed by tightly combining a glass plate and a window frame, and when the outdoor heat radiation is strong and the temperature is high, the heat can be transferred through the window frame, so that the energy consumption required by indoor refrigeration can be increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the energy consumption required by refrigeration is higher due to the fact that outdoor heat is transferred to the interior of a window frame, the application provides an energy-saving door and window with radiation-resistant fireproof low-E glass.

The application provides an energy-conserving door and window with radiation resistant fire prevention low-E glass adopts following technical scheme:

the energy-saving door and window with the radiation-resistant fireproof low-E glass comprises a fixed frame, wherein an eave is arranged at the upper part of the fixed frame and extends towards the outside, a rain collecting groove is formed in one side, back to the fixed frame, of the eave, a cavity is formed in the fixed frame, a water inlet pipe is arranged in the cavity, the rain collecting groove is communicated with the water inlet pipe, one end, away from the eave, of the water inlet pipe is communicated with a rain collecting mechanism, the rain collecting mechanism is fixed on the fixed frame, and the rain collecting mechanism is arranged on one side, back to the eave, of the fixed frame;

still include watering mechanism, watering mechanism with the rainwater collection mechanism is linked together, just watering mechanism's delivery port orientation fixed frame middle part sets up.

Through adopting above-mentioned technical scheme, the eave can shelter from sunshine, reduces fixed frame and receives sunshine heat radiation and heaies up, and then leads to the condition that the energy consumption increases indoor with heat transfer. The eaves is collected the rainwater through rain collecting groove to with the rainwater by the inlet tube converge in the rain collecting mechanism, can absorb the heat on the fixed frame when the rainwater flows in the cavity, further reduce the heat and convey to the indoor condition that leads to the required energy consumption of refrigeration to increase through fixed frame, and the rainwater accessible watering mechanism of saving in the rain collecting mechanism sprays and cools down to fixed frame and the window in the fixed frame, help reducing outdoor heat and convey to indoor possibility through fixed frame and window.

Optionally, the rain collecting mechanism comprises a rain collecting box and a filtering component, the rain collecting box is fixed to the fixed frame back to one side of the cornice, the water inlet pipe is far away from one end of the cornice is communicated to the rain collecting box, the watering mechanism is communicated with the rain collecting box, and the filtering component is detachably arranged in the rain collecting box.

Through adopting above-mentioned technical scheme, the rainwater is fallen and is collected in the rain collecting box along the inlet tube inflow rain collecting box in the rain collecting tank, and rain collecting box collects and stores the rainwater, and filter assembly then filters the rainwater for rainwater after filtering gets into watering mechanism and cools down fixed frame and window, can effectively reduce the impurity in the rainwater and adhere to on fixed frame or window and the condition that needs the clearance.

Optionally, the filtering component includes the lid, accomodates net and active carbon package, lid detachable lid is established on the rain collecting box, it connects to accomodate the net the lid is gone up, just it arranges in to accomodate the net in the rain collecting box, the active carbon package is located accomodate in the net, the inlet tube is kept away from the one end of cornice extends to accomodate in the net.

By adopting the technical scheme, on one hand, the storage net and the activated carbon bag can be placed in the rain collecting box by installing the box cover on the rain collecting box, so that the operation is convenient; on the other hand, when the rainwater let in the rainwater collection box through the inlet tube, impurities in the rainwater are filtered by the storage net and the activated carbon bag and are left in the storage net, and the possibility that the impurities in the rainwater enter the watering mechanism can be effectively reduced.

Optionally, the lid orientation one side of collection rain box is equipped with a plurality of installation hooks, accomodate to be equipped with on the periphery of net a plurality of with the lantern ring that the installation hook corresponds, lantern ring detachable cover is established on the installation hook.

Through adopting above-mentioned technical scheme, earlier place the active carbon package in accomodating the net, establish the lantern ring cover afterwards and can will accomodate net and active carbon package setting on the box cover on the installation hook, this structure makes accomodate net and active carbon package all can dismantle, and the dismouting is convenient, and this is convenient for change the filter effect of active carbon package in order to guarantee filtering component.

Optionally, the sprinkling mechanism includes spray set and drive assembly, spray set locates the eaves dorsad one side of collection rain gutter, drive assembly sets up on the fixed frame, just drive assembly with the inlet tube is linked together, drive assembly drive air is followed the inlet tube orientation is kept away from the direction of eaves flows.

Through adopting above-mentioned technical scheme, when outdoor temperature is higher, in drive assembly drive air got into the inlet pipe, the air injection collected the rain box back, pressure increase in the rain box, in the rainwater in the rain box of collection pushed away the inflow spray assembly by the air, spray assembly sprayed the rainwater and cooled down on fixed frame and window to reduce the heat transfer to the indoor condition that leads to the refrigeration energy consumption to increase.

Optionally, the driving assembly comprises a storage battery, an air pump and a plurality of solar panels, the solar panels are installed on one side of the fixing frame, which is opposite to the rain collecting box, the storage battery is fixed on one side of the fixing frame, which is opposite to the cornice, and the solar panels are electrically connected with the storage battery;

the air pump is installed fixed frame dorsad one side of solar cell panel, the gas outlet intercommunication of air pump has the connecting pipe, the connecting pipe intercommunication is in the cornice with on the inlet tube between the rainwater collection box, just the connecting pipe with the junction of inlet tube is equipped with the piece of opening and shutting, the shutoff of opening and shutting is in the connecting pipe is kept away from the one end of air pump, works as when the air pump starts, the shutoff of opening and shutting is in the connecting pipe with in the inlet tube between the cornice.

By adopting the technical scheme, the solar cell panel is fixed on the fixing frame, and solar light energy can be converted into electric energy and then stored in the storage battery through output direct current. The battery is the air pump circular telegram, and the outdoor air of air pump extraction pours into the inlet tube into through the connecting pipe to push away the rainwater and spray to spraying assembly in, this reducible extra energy resource consumption, in order to save energy. When the air pump did not start, the closure shutoff was between connecting pipe and inlet tube to reduce the rainwater and get into the possibility of air pump by the connecting pipe, when the air pump started, the closure was washed out to the air, and the closure shutoff of closure was in the inlet tube this moment, helped reducing the air and produced extravagant condition along inlet tube flow to rain collecting tank.

Optionally, the opening and closing piece comprises a torsion spring and a plugging piece, and the plugging piece is fixed at the communication position of the connecting pipe and the water inlet pipe through the torsion spring.

Through adopting above-mentioned technical scheme, the torsional spring supports the shutoff piece through self elasticity and pastes the one end of keeping away from the air pump at the connecting pipe to it gets into the connecting pipe to block the rainwater. When the air pump starts, the air impacts on the plugging sheet after being pressurized, so that the plugging sheet overcomes the elasticity of the torsion spring and rotates to the water inlet pipe to form plugging, and the possibility of waste caused by air circulation to the rain collecting groove is reduced.

Optionally, the spray assembly is including violently managing, outlet pipe and a plurality of shower nozzle, the outlet pipe intercommunication is in on the collection rain box, violently manage and fix the eaves dorsad one side of collection rain groove, the outlet pipe is kept away from the one end intercommunication of collection rain box is in violently manage on, a plurality of the even intercommunication of shower nozzle is in violently manage on, just the shower nozzle orientation fixed frame middle part sets up.

Through adopting above-mentioned technical scheme, in rainwater in the collection rain box let in the violently pipe along the outlet pipe, the rainwater was annotated and is violently managed the back, violently intraductal pressure increase, in the shower nozzle was gushed into to the rainwater under the water pressure effect, the rainwater passes through the shower nozzle afterwards and sprays towards fixed frame and window, violently manages in making the even injection shower nozzle of rainwater, this makes even spraying of rainwater on fixed frame and window, helps promoting the cooling effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the eave can shelter from sunshine, reduces fixed frame and window and receives sunshine thermal radiation and heaies up, and then leads to the condition that the energy consumption increases with heat transfer to indoor. The rain collecting mechanism comprises a rain collecting groove, a rain collecting mechanism, a water inlet pipe, a water spraying mechanism and a water spraying mechanism, wherein the rain collecting groove is arranged on the bottom of the rain collecting mechanism, the rain collecting groove is arranged on the top of the rain collecting mechanism, the water spraying mechanism is arranged on the bottom of the rain collecting mechanism, the rain collecting groove is arranged on the bottom of the rain collecting mechanism, the water spraying mechanism is arranged in the rain collecting groove, the water spraying mechanism is arranged in the rain collecting mechanism, the water spraying mechanism is arranged in the rain collecting groove, and the water spraying mechanism is used for spraying water to the rain collecting groove;

2. when the outdoor temperature is high, the driving assembly drives air to enter the water inlet pipe, after the air is injected into the rain collecting box, the pressure in the rain collecting box is increased, rainwater in the rain collecting box is pushed by the air to flow into the spraying assembly, and the spraying assembly sprays the rainwater on the fixing frame and the window to cool, so that the condition that the refrigerating energy consumption is increased due to the fact that heat is transferred to the indoor space is reduced;

3. the solar cell panel is fixed on the fixing frame, and can convert solar light energy into electric energy and store the electric energy into the storage battery through outputting direct current. The battery is the air pump circular telegram, and the outdoor air of air pump extraction pours into the inlet tube into through the connecting pipe to push away the rainwater and spray to spraying assembly in, this reducible extra energy resource consumption, in order to save energy. When the air pump did not start, the closure shutoff was between connecting pipe and inlet tube to reduce the rainwater and get into the possibility of air pump by the connecting pipe, when the air pump started, the closure was washed out to the air, and the closure shutoff of closure was in the inlet tube this moment, helped reducing the air and produced extravagant condition along inlet tube flow to rain collecting tank.

Drawings

Fig. 1 is a schematic view of the outdoor side of an energy-saving door window with radiation-resistant fireproof low-E glass in the embodiment of the present application.

Fig. 2 is a schematic view of the indoor-facing side of the energy-saving door/window with the radiation-resistant and fire-proof low-E glass in the embodiment of the present application.

Fig. 3 is a cross-sectional view of an energy-saving window and door with radiation-resistant and fire-proof low-E glass in the embodiment of the application.

Fig. 4 is an exploded view of a rain collection box in an embodiment of the present application.

FIG. 5 is a schematic sectional view of the connection part of the connection pipe and the water inlet pipe in the embodiment of the present application.

Reference numerals: 1. a window; 2. a fixing frame; 21. a cavity; 3. a cornice; 31. a rain collecting groove; 4. a water inlet pipe; 5. a rain collecting mechanism; 51. a rain collecting box; 52. a filter assembly; 521. a box cover; 522. a storage net; 523. an active carbon bag; 6. a watering mechanism; 61. a spray assembly; 611. a transverse tube; 612. a water outlet pipe; 613. a spray head; 62. a drive assembly; 621. a storage battery; 622. an air pump; 623. a solar panel; 7. mounting a hook; 8. a collar; 9. a connecting pipe; 10. opening and closing the piece; 101. a torsion spring; 102. a plugging sheet.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an energy-saving door window with radiation-resistant fireproof low-E glass. Referring to fig. 1, the window-type solar water heater comprises a fixing frame 2 fixed on a wall body, wherein a window 1 is installed in the fixing frame 2, and the glass of the window 1 is low-E glass, so that the window-type solar water heater has good heat insulation effect, light transmittance and radiation resistance, and can reduce the situations that the outdoor heat is transmitted to the indoor space to cause the increase of energy consumption required by refrigeration and cause fire. The fixing frame 2 is provided with the flying eave 3, the flying eave 3 is arranged above the window 1, the flying eave 3 extends towards the outdoor direction, and the fixing frame 2 and the window 1 can be shaded, so that the condition that heat is transmitted to the indoor space from the fixing frame 2 or the window 1 is reduced, and the possibility of increasing the energy consumption required by indoor refrigeration is reduced.

Referring to fig. 2 and 3, a rain collecting groove 31 is formed in the flying eave 3, rainwater falls on the flying eave 3 and then enters the rain collecting groove 31, a cavity 21 is formed in the fixed frame 2, a water inlet pipe 4 is embedded in the cavity 21, the water inlet pipe 4 is communicated with the rain collecting groove 31, one end, far away from the rain collecting groove 31, of the water inlet pipe 4 is communicated with a rain collecting mechanism 5, the rain collecting mechanism 5 is arranged on one side, back to the flying eave 3, of the fixed frame 2, namely the rainwater flows to the indoor rain collecting mechanism 5 through the water inlet pipe 4 and is collected, and when the rainwater flows in the cavity 21, heat on the fixed frame 2 can be absorbed. Still include the watering mechanism 6 that is linked together with collection rain mechanism 5, the delivery port of watering mechanism 6 sets up towards the direction of window 1, and rainwater accessible watering mechanism 6 among the collection rain mechanism 5 sprays to fixed frame 2 and window 1 on to cooling down fixed frame 2 and window 1, when recycling rainwater, reducible fixed frame 2 or window 1 receive the sunlight thermal radiation and convey the heat to the indoor condition that leads to the required energy consumption of refrigeration to increase.

Referring to fig. 4, the rain collecting mechanism 5 includes a rain collecting box 51 and a filter assembly 52, wherein the rain collecting box 51 is fixed on one side of the fixing frame 2 opposite to the cornice 3, the rain collecting box 51 is provided with an opening, the filter assembly 52 is detachably plugged at the opening of the rain collecting box 51, and the filter assembly 52 extends into the rain collecting box 51. Specifically, the filter assembly 52 includes a box cover 521, a receiving net 522 and an activated carbon bag 523, the receiving net 522 is fixed on a side wall of the box cover 521, the receiving net 522 has elasticity, and the activated carbon bag 523 is placed in the receiving net 522. Lid 521 detachable lid is established at the opening part of collection rain box 51, when lid 521 sets up on collection rain box 51, accomodate net 522 and active carbon package 523 and all arrange in collection rain box 51, and inlet tube 4 keeps away from the one end of cornice 3 and can extend to accomodate in the net 522, the rainwater is by inlet tube 4 inflow collection rain box 51 back in, accomodate net 522 and active carbon package 523 and all can filter the impurity in the rainwater, make the rainwater after the filtration spray to fixed frame 2 and window 1 on by watering mechanism 6, both reducible impurity adheres to the condition that leads to the heat-proof of window 1 to reduce on window 1, also have the possibility that reduces impurity and leads to fixed frame 2 and window 1 dirty.

Meanwhile, the storage net 522 is elastic, so that the activated carbon bag 523 can be put in or taken out of the storage net 522, when the activated carbon bag 523 is saturated and the filtering capacity for impurities is low, the box cover 521 is taken down to replace the activated carbon bag 523 immediately, the operation is convenient, and the filtering performance of the filtering component 52 can be ensured. For conveniently changing activated carbon package 523 or accomodating net 522, be equipped with a plurality of installation hooks 7 on the lateral wall of lid 521, the periphery of accomodating net 522 is equipped with a plurality of lantern rings 8 with installation hook 7 one-to-one, lantern ring 8 can overlap and establish in installation hook 7, this convenience is changed accomodating net 522, when lid 521 sets up on collection rain box 51, accomodate net 522 and fix on lid 521 through lantern ring 8 and installation hook 7 under the action of gravity to impurity in the rainwater filters.

Referring to fig. 1, watering mechanism 6 includes spray set 61 and drive assembly 62, and spray set 61 sets up in one side that cornice 3 collected rain groove 31 dorsad, and drive assembly 62 then sets up on fixed frame 2, and the rainwater in the rain collection box 51 receives the drive to flow in spray set 61, and then the rainwater is sprayed to fixed frame 2 and window 1 by spray set 61 and is cooled down to reduce the condition that heat transfer leads to the increase of refrigeration energy consumption indoor. Specifically, the spray assembly 61 includes a horizontal pipe 611, a water outlet pipe 612 and a plurality of spray nozzles 613, the horizontal pipe 611 is fixed on one side of the cornice 3 facing away from the rain collecting groove 31, the plurality of spray nozzles 613 are uniformly communicated with the horizontal pipe 611, and water outlets of the spray nozzles 613 face the direction of the window 1. One end of the water outlet pipe 612 is communicated with the horizontal pipe 611, the other end of the water outlet pipe 612 is communicated with the rain collecting box 51, rainwater in the rain collecting box 51 is driven by the driving assembly 62 to flow into the horizontal pipe 611 along the water outlet pipe 612, the rainwater is sprayed to the fixed frame 2 and the window 1 through the spray head 613 after the horizontal pipe 611 is full of the rainwater, the horizontal pipe 611 enables the rainwater to be uniformly injected into the spray head 613, and the rainwater is uniformly sprayed to the fixed frame 2 and the window 1, so that the effect of reducing the temperature is improved.

Referring to fig. 1 and 2, the driving assembly 62 includes a storage battery 621, an air pump 622, and a plurality of solar cell panels 623, wherein the plurality of solar cell panels 623 are fixed on one side of the fixing frame 2 facing outdoors, the storage battery 621 is fixed on one side of the fixing frame 2 facing away from the eave 3, and the solar cell panels 623 are electrically connected to the storage battery 621, that is, the solar cell panels 623 can convert solar energy into electric energy and charge the electric energy into the storage battery 621, so that the use of solar energy can reduce extra electric energy consumption to save energy. The air pump 622 is also installed on one side of the fixed frame 2, which faces away from the solar cell panel 623, the air inlet of the air pump 622 is arranged on one side of the fixed frame 2, which faces outdoors, the air outlet of the air pump 622 is communicated with the connecting pipe 9, and one end, far away from the air pump 622, of the connecting pipe 9 is communicated with the water inlet pipe 4. During operation, the storage battery 621 provides electric energy for the air pump 622, the air pump 622 pumps outside air and injects the air into the water inlet pipe 4, and the air generates thrust on rainwater after entering the rainwater collection box 51, so that the rainwater is pushed into the horizontal pipe 611 through the water outlet pipe 612 for spraying.

Referring to fig. 5, in order to reduce the situation that air is wasted when entering the rain collecting groove 31 along the water inlet pipe 4, one end of the connecting pipe 9 far away from the air pump 622 is rotatably connected with the opening and closing piece 10, the opening and closing piece 10 includes a torsion spring 101 and a plugging piece 102, and the plugging piece 102 is rotatably connected at one end of the connecting pipe 9 far away from the air pump 622 through the torsion spring 101. When the air pump 622 is not started, the opening and closing member 10 is closed at the communication position between the connection pipe 9 and the water inlet pipe 4, and the torsion spring 101 abuts the closing sheet 102 against one end of the connection pipe 9 far away from the air pump 622 through the self elasticity, so that the possibility that the air pump 622 is damaged due to the fact that rainwater flows to the air pump 622 from the connection pipe 9 can be reduced. When the air pump 622 is started, the air is pressurized and then impacts the blocking piece 102, so that the blocking piece 102 overcomes the elasticity of the torsion spring 101 and rotates to the water inlet pipe 4 to form blocking, and the possibility of waste caused by air flowing to the rain collecting groove 31 is reduced.

The implementation principle of the energy-saving door and window with the radiation-resistant fireproof low-E glass in the embodiment of the application is as follows: when raining, rainwater falls on the rainwater collection groove 31 of the cornice 3, then the rainwater flows into the rainwater collection box 51 along the water inlet pipe 4, and the filtering component 52 filters the rainwater. When outdoor heat radiation is strong, the cornice 3 can shield sunlight, the solar cell panel 623 converts solar energy into electric energy and charges the electric energy into the storage battery 621, the air pump 622 extracts air and charges the air into the connecting pipe 9, the air pushes the plugging sheet 102 open and then enters the rain collecting box 51, then rainwater in the rain collecting box 51 is pushed by the air and enters the transverse pipe 611 along the water outlet pipe 612, and when the transverse pipe 611 is filled with the rainwater, the rainwater is sprayed to the fixing frame 2 and the window 1 through the spray head 613 to cool.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Energy-conserving door and window with radiation resistance fire prevention low-E glass, including fixed frame (2), its characterized in that: the rain collecting device is characterized in that an eave (3) is arranged on the upper portion of the fixed frame (2), the eave (3) extends towards the outdoor, a rain collecting groove (31) is formed in one side, back to the fixed frame (2), of the eave (3), a cavity (21) is formed in the fixed frame (2), a water inlet pipe (4) is arranged in the cavity (21), the rain collecting groove (31) is communicated with the water inlet pipe (4), one end, far away from the eave (3), of the water inlet pipe (4) is communicated with a rain collecting mechanism (5), the rain collecting mechanism (5) is fixed on the fixed frame (2), and the rain collecting mechanism (5) is arranged on one side, back to the eave (3), of the fixed frame (2);

also comprises a water spraying mechanism (6), the water spraying mechanism (6) is communicated with the rain collecting mechanism (5), and the water outlet of the water spraying mechanism (6) faces the middle part of the fixed frame (2).

2. The energy-saving door and window with the radiation-resistant and fireproof low-E glass according to claim 1, characterized in that: rain collecting mechanism (5) are including collection rain box (51) and filtering component (52), collection rain box (51) are fixed frame (2) dorsad one side of eaves (3), inlet tube (4) are kept away from the one end intercommunication of eaves (3) are in on collection rain box (51), watering mechanism (6) with collection rain box (51) are linked together, filtering component (52) detachable sets up in collection rain box (51).

3. The energy-saving door and window with the radiation-resistant and fireproof low-E glass according to claim 2, wherein: the filtering component (52) comprises a box cover (521), a storage net (522) and an activated carbon bag (523), the box cover (521) is detachably covered on the rain collecting box (51), the storage net (522) is connected onto the box cover (521), the storage net (522) is arranged in the rain collecting box (51), the activated carbon bag (523) is arranged in the storage net (522), and the water inlet pipe (4) is far away from one end of the eave (3) and extends into the storage net (522).

4. The energy-saving door and window with the radiation-resistant and fireproof low-E glass according to claim 3, wherein: lid (521) orientation one side of collection rain box (51) is equipped with a plurality of installation hooks (7), accomodate and be equipped with on the periphery of net (522) a plurality of with lantern ring (8) that installation hook (7) correspond, lantern ring (8) detachable cover is established on installation hook (7).

5. The energy-saving door and window with radiation-resistant and fire-proof low-E glass as claimed in claim 2, wherein: sprinkling mechanism (6) are including spray set (61) and drive assembly (62), spray set (61) are located eaves (3) dorsad one side of rain collection groove (31), drive assembly (62) set up on fixed frame (2), just drive assembly (62) with inlet tube (4) are linked together, drive assembly (62) drive air is followed inlet tube (4) are towards keeping away from the direction of eaves (3) flows.

6. The energy-saving door and window with the radiation-resistant and fireproof low-E glass according to claim 5, wherein: the driving assembly (62) comprises a storage battery (621), an air pump (622) and a plurality of solar cell panels (623), the solar cell panels (623) are installed on one side, back to the rain collecting box (51), of the fixed frame (2), the storage battery (621) is fixed on one side, back to the eave (3), of the fixed frame (2), and the solar cell panels (623) are electrically connected with the storage battery (621);

air pump (622) is installed fixed frame (2) dorsad one side of solar cell panel (623), the gas outlet intercommunication of air pump (622) has connecting pipe (9), connecting pipe (9) intercommunication is in eave (3) with on inlet tube (4) between collection rain box (51), just connecting pipe (9) with the junction of inlet tube (4) is equipped with opening and shutting piece (10), opening and shutting piece (10) shutoff is in connecting pipe (9) is kept away from the one end of air pump (622), works as when air pump (622) starts, opening and shutting piece (10) shutoff is in connecting pipe (9) with in inlet tube (4) between eave (3).

7. The energy-saving door and window with the radiation-resistant and fireproof low-E glass of claim 6, wherein: the opening and closing piece (10) comprises a torsion spring (101) and a blocking piece (102), and the blocking piece (102) is fixed at the communication position of the connecting pipe (9) and the water inlet pipe (4) through the torsion spring (101).

8. The energy-saving door and window with radiation-resistant and fireproof low-E glass according to claim 5, wherein: spray set spare (61) is including violently managing (611), outlet pipe (612) and a plurality of shower nozzle (613), outlet pipe (612) intercommunication is in on the rainwater collection box (51), violently manage (611) and fix cornice (3) dorsad one side of rainwater collection groove (31), outlet pipe (612) are kept away from the one end intercommunication of rainwater collection box (51) is in violently manage (611), a plurality of shower nozzle (613) evenly communicate on violently managing (611), just shower nozzle (613) orientation fixed frame (2) middle part sets up.

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