CN114893098B - Intelligent window capable of being automatically closed in rainy days - Google Patents

Abstract

The application relates to an intelligent window of rainy day self-closing has been seted up the through-hole on the wall body, fixedly connected with window frame in the through-hole, a fixed casement of fixedly connected with in the window frame, still sliding connection has a movable casement in the window frame, the lateral wall groove has all been seted up on two pore walls of through-hole, the top groove has been seted up on the last pore wall of through-hole, all rotate on two cell walls of top groove and be connected with a revolving plate, install a plurality of torsional spring on the revolving plate, be equipped with a mounting panel in the top groove, the installation chamber has been seted up in the mounting panel, the cooperation groove has still been seted up on the mounting panel, installation chamber and cooperation groove intercommunication, fixedly connected with buckled plate in the mounting panel, the lower extreme fixedly connected with counter weight plate of buckled plate, counter weight plate slip grafting is in the cooperation groove, mounting panel and counter weight plate all overlap joint are on two revolving plates, be equipped with in one of them lateral wall groove and control revolving plate pivoted automatic control subassembly. The application has the effect of reducing damage to indoor articles caused by the fact that the window cannot be closed in time.

Description

Intelligent window capable of being automatically closed in rainy days

Technical Field

The application relates to the field of household equipment, in particular to an intelligent window capable of being automatically closed in rainy days.

Background

Common openable windows are classified into push-pull windows and casement windows, wherein the push-pull window mainly refers to a window in which a window sash is pushed and pulled in a horizontal direction. The push-pull window has the advantages of simple structure and small occupied space, thereby being widely used.

The common sliding window comprises a window frame, a fixed window sash and a movable window sash, wherein the fixed window sash is fixedly connected in the window frame, and the movable window sash is slidingly connected in the window frame; when the window is required to be opened, an operator pushes the movable window sash towards the direction close to the fixed window sash until the movable window sash is overlapped with the fixed window sash, and when the window is required to be closed, the movable window sash is pulled until the movable window sash and the fixed window sash are matched to plug the window frame.

When people go out, sometimes the window is selected to be opened, so that indoor air circulates to exchange air, but after sudden rain, people can not timely return to the home to close the window, so that rainwater drifts into the room, and the indoor articles can be damaged.

Disclosure of Invention

In order to reduce the condition that rainwater leads to indoor article to cause the damage, this application provides a rainy day self-closing's smart window.

The application provides an intelligent window of rainy day self-closing adopts following technical scheme:

the utility model provides an intelligent window of rainy day self-closing, the through-hole has been seted up on the wall body, fixedly connected with window frame in the through-hole, a fixed casement of fixedly connected with in the window frame, still sliding connection has a movable casement in the window frame, movable casement is followed the length direction slip of window frame, the lateral wall groove has all been seted up on two side pore walls of through-hole, the top groove with two the lateral wall groove all communicates, all rotate on two cell walls that the top groove is relative and be connected with a swivel plate, the length direction of swivel plate is followed the length direction of top groove sets up, two swivel plate cooperation is right the shutoff of top groove, install a plurality of torsional spring on the swivel plate, the lower surface parallel of swivel plate and window frame that makes that corresponds, be equipped with a mounting panel in the top groove, the length direction of mounting panel is followed the length direction of window frame sets up, set up the installation cavity in the upper surface of mounting panel, the mating groove has been seted up on the lower surface of mounting panel, the mating groove has one side wall groove and two, the counter weight groove and the same length of each side wall groove are connected with each other in the mounting panel, the counter weight groove and the two sets up in the mating groove, the counter weight groove.

Through adopting above-mentioned technical scheme, when automatic detection subassembly detects raining and movable casement is not closed, control assembly controls two revolving plates and rotates to the direction that keeps away from each other, the revolving plate rotates and promotes mounting panel and counter weight board and upwards move, when the revolving plate rotates to the state that the counter weight board is located between two revolving plates, automatic control assembly makes the revolving plate no longer rotate, the revolving plate still contacts with the mounting panel and supports the mounting panel this moment, the counter weight board falls outside the cooperation groove because of losing the support under the effect of self gravity, the counter weight board whereabouts makes the buckled plate extend and drive the buckled plate whereabouts, until the counter weight board falls on the lower pore wall of through-hole, because both ends of buckled plate all stretch into in corresponding lateral wall groove, make the buckled plate shelter from the window frame, the condition that the external rainwater gets into indoor because of unable in time closing the window has been reduced, thereby the possibility that the rainwater gets into indoor article and causes damage has been reduced. And the balancing weight is fixed the buckled plate, reduces the buckled plate and flutters along with the wind and lead to the buckled plate to shelter from the possibility that the window frame can not be carried out.

Optionally, one end of the rotating plate stretches into a side wall groove provided with an automatic control component, the automatic control component comprises an air cylinder, the air cylinder is connected with an air pump, the length direction of the air cylinder is along the height direction of the window frame, the air cylinder is located at the two lower sides of the rotating plate, a wind and rain sensor is installed outside the wall body, an infrared ranging sensor is installed in the side wall groove of the installation air cylinder, a controller is also installed in the side wall groove, and the air pump, the wind and rain sensor and the infrared ranging sensor are all electrically connected with the controller.

By adopting the technical scheme, after the wind and rain sensor senses rainwater, the wind and rain sensor transmits signals to the controller, the controller receives the signals and then controls the infrared ranging sensor to work, the infrared ranging sensor measures the distance between the infrared ranging sensor and the movable window sashes and transmits measured data to the controller, the controller judges the data after receiving the data, when the controller judges that the movable window sashes are not closed according to the data, the controller controls the air pump to work, the air pump enables the piston rod of the air cylinder to extend and push the two rotating plates to rotate in the direction away from each other until the counterweight plates drive the corrugated plates to fall to shield the window frames; when the controller judges that the movable window sashes are closed according to the data, the controller does not control the air pump to work.

Optionally, the weight plate and the matching groove are in interference fit.

Through adopting above-mentioned technical scheme, along with the use of rotating the board, the torsional spring on the rotating the board ages gradually, leads to the torsional spring can not support the rotating the board to rotating the board and can not support mounting panel and counter weight board, counter weight board and cooperation groove interference fit reduce the counter weight board because of self gravity drops the possibility outside the cooperation groove.

Optionally, fixedly connected with a plurality of ejector pin on the groove diapire of cooperation groove, set up on the mounting panel with the guiding hole that the ejector pin corresponds, the guiding hole with the installation cavity intercommunication, every the ejector pin all slides and peg graft in the guiding hole that corresponds, every the projection of ejector pin all is located on the projection of counter weight board.

Through adopting above-mentioned technical scheme, at the rotatory in-process that the commentaries on classics board upwards, the board promotes mounting panel and counter weight board upward movement, the mounting panel upward movement makes the ejector pin further insert in the guiding hole, along with the commentaries on classics board continue to rotate, the ejector pin inserts the installation cavity gradually, when the commentaries on classics board rotates to the balancing weight be located the position between two commentaries on classics boards, the ejector pin contacts with the counter weight board, along with the commentaries on classics board continues to rotate, the mounting panel continues to upwards move, the counter weight board moves outside the cooperation groove gradually because of the effect of ejector pin, the counter weight board breaks away from the mounting panel and whereabouts at last.

Optionally, a roller shutter assembly for resetting the corrugated plate and the balancing weight is arranged in the top groove.

Through adopting above-mentioned technical scheme, operating personnel can make the buckled plate and the counter weight board reset through rolling up curtain subassembly.

Optionally, the both ends of counter weight board all bulge in the mounting panel, the roller shutter subassembly is including installing two reel wheels in the top groove, every the reel wheel all with one of them one end of counter weight board corresponds, the equal fixedly connected with stay cord in both ends of counter weight board, every stay cord all twines on the reel wheel that corresponds, still rotate in the top groove and be connected with a driving pulley, every equal fixedly connected with driven pulley on the reel wheel, driving pulley has cup jointed a driving belt jointly with two on the driven pulley, still fixedly connected with drive in the top groove driving pulley pivoted driving motor, driving motor with the controller electricity is connected.

Through adopting above-mentioned technical scheme, when operating personnel need reset buckled plate and counter weight board, operating personnel control controller, controller control driving motor work, driving motor drive driving pulley rotates, driving pulley loops through driving belt and driven pulley with power transmission to on the rope winding wheel, thereby make rope winding wheel rotate with the stay cord winding to on the rope winding wheel, the stay cord winding is the upward movement of pulling counter weight board, the counter weight board promotes the buckled plate shrink, when controller control driving motor's output shaft rotates to fixed number of turns, the balancing weight is pegged graft in the cooperation groove, the buckled plate is located the installation intracavity, controller control air pump this moment, make the piston rod of cylinder withdraw, the torsional spring resumes deformation and pulling the commentaries on classics board and resumes initial position, at this moment controller no longer controls driving motor work, the balancing weight is because of gravity whereabouts, until balancing weight and mounting panel overlap joint again on the commentaries on classics board.

Optionally, a backing plate is fixedly connected to the lower end of the ejector rod, and the diameter of the backing plate is larger than that of the ejector rod.

Through adopting above-mentioned technical scheme, when the ejector pin promotes the counter weight board, backing plate and counter weight board contact, the backing plate has dispersed the stress of counter weight board and ejector pin cooperation department, has reduced the possibility that the counter weight board takes place to damage because of stress concentration.

Optionally, the corrugated plate is made of light-transmitting material.

Through adopting above-mentioned technical scheme, when making the buckled plate shelter from the window frame, external light can permeate the buckled plate and get into indoor, reduces indoor dim condition.

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

1. through setting up top cavity, lateral wall cavity, revolving plate, mounting panel, installation cavity, cooperation groove, buckled plate, counter weight board and automatic control subassembly, the buckled plate can shelter from the window frame when making raining, reduces external rainwater and gets into indoor the possibility that leads to indoor article damage;

2. through setting up wind and rain sensor, infrared range sensor, air pump and cylinder, when raining, can automatic control counter weight board whereabouts makes the buckled plate shelter from the window frame;

3. through setting up stay cord, batching sheave, driven pulley, driving belt and driving motor, make operating personnel can reset buckled plate and counter weight board.

Drawings

Fig. 1 is a cross-sectional view of the entire structure of a smart window according to embodiment 1 of the present application.

Fig. 2 is a cross-sectional view of the overall structure of the plugging assembly embodied in embodiment 1 of the present application.

Fig. 3 is a cross-sectional view showing a structure of a smart window portion in embodiment 1 of the present application.

Fig. 4 is an enlarged view showing the structure at a in fig. 3.

Fig. 5 is a sectional view showing a part of the structure of the driving member according to embodiment 1 of the present application.

Fig. 6 is a cross-sectional view of a smart window structure embodying embodiment 2 of the present application.

Reference numerals illustrate: 1. a through hole; 11. a sidewall groove; 12. a top groove; 2. a window frame; 21. fixing a window sash; 22. a movable window sash; 3. a plugging assembly; 31. a rotating plate; 32. a mounting plate; 321. a mating groove; 322. a mounting cavity; 323. a guide hole; 33. corrugated plates; 34. a weight plate; 35. a push rod; 36. a backing plate; 4. an automatic control assembly; 41. a cylinder; 42. an infrared ranging sensor; 5. a roller shutter assembly; 51. a pull rope; 52. a rope winding wheel; 53. a driving member; 531. a driving pulley; 532. a driven pulley; 533. a drive belt; 534. and driving the motor.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses an intelligent window capable of being automatically closed in rainy days.

Example 1

Referring to fig. 1, a wall body is provided with a through hole 1 communicated with a room, the window comprises a window frame 2 fixedly connected in the through hole 1, each outer side wall of the window frame 2 is fixedly connected with a hole wall corresponding to the through hole 1, a fixed window sash 21 is fixedly connected in the window frame 2, a movable window sash 22 is also connected in the window frame 2 in a sliding manner, and the movable window sash 22 can slide along the height direction of the window frame 2; the fixed window sash 21 and the movable window sash 22 are matched to seal the window frame 2.

Referring to fig. 2 and 3, two opposite side hole walls of the through hole 1 are respectively provided with a side wall groove 11, the length direction of the side wall groove 11 is along the height direction of the window frame 2, the upper hole wall of the through hole 1 is provided with a top groove 12, and the length direction of the top groove 12 is along the length direction of the window frame 2; the top groove 12 and the side wall grooves 11 are both located on the side of the window frame 2 away from the room, and both side wall grooves 11 communicate with the top groove 12. The top groove 12 is internally provided with a plugging component 3 for shielding the window frame 2, and the window frame 2 is also provided with an automatic control component 4 for controlling the plugging component 3 to work.

The automatic control component 4 comprises an air cylinder 41 fixedly connected in one side wall groove 11, the length direction of the air cylinder 41 is arranged along the height direction of the window frame 2, and in the initial state, the piston rod of the air cylinder 41 does not extend; the extension stroke of the piston rod of the cylinder 41 is d1, and the distance between the upper surface of the piston rod of the cylinder 41 and the bottom wall of the top groove 12 is d2, wherein d1 is larger than d2. A wind and rain sensor is installed on the outer wall of the wall body, an infrared ranging sensor 42 is installed in the side wall groove 11 of the installation cylinder 41, the infrared ranging sensor 42 measures the distance between the movable window sash 22 and the infrared ranging sensor 42, a controller is installed in the side wall groove 11 of the installation cylinder 41, and the wind and rain sensor, the infrared ranging sensor 42 and the air pump are all electrically connected with the controller.

The plugging assembly 3 comprises two hinged rotating plates 31 on two opposite groove walls of the top groove 12, the two rotating plates 31 are positioned at the notch of the top groove 12, the length direction of the rotating plates 31 is along the length direction of the window frame 2, the two rotating plates 31 are matched to plug the notch of the top groove 12, two ends of each rotating plate 31 extend into the corresponding side wall groove 11, and the air cylinder 41 is positioned below the two rotating plates 31; torsion springs are mounted on both the rotating plates 31, and the torsion springs make the corresponding rotating plates 31 parallel to the upper surface of the window frame 2.

The top groove 12 is provided with a mounting plate 32, the length direction of the mounting plate 32 is along the length direction of the window frame 2, and the length of the mounting plate 32 is smaller than the length of the top groove 12; the lower surface of mounting panel 32 has seted up the cooperation groove 321, has still seted up installation cavity 322 in the mounting panel 32, and the length direction in cooperation groove 321 and installation cavity 322 all sets up along the length direction of window frame 2, cooperation groove 321 and installation cavity 322 intercommunication, and cooperation groove 321 and installation cavity 322 all run through mounting panel 32.

The upper surface fixedly connected with of installation cavity 322 buckled plate 33, the length direction of buckled plate 33 sets up along the length direction of window frame 2, and the both sides of buckled plate 33 all stretch into corresponding lateral wall groove 11 in, and the length after the buckled plate 33 stretches is greater than the height of window frame 2. One end of the corrugated plate 33, which is far away from the upper surface of the installation cavity 322, is fixedly connected with a weight plate 34, the weight plate 34 is correspondingly arranged with the matching groove 321, the length direction of the weight plate 34 is arranged along the length direction of the corrugated plate 33, and both ends of the weight plate 34 are protruded out of the rotating plate 31.

In the initial state, two rotating plates 31 cooperate to block the top groove 12, the counterweight plates 34 are inserted into the cooperation grooves 321, the lower surfaces of the counterweight plates 34 are flush with the lower surfaces of the mounting plates 32, the counterweight plates 34 and the mounting plates 32 are all lapped on the rotating plates 31, the rotating plates 31 support the counterweight plates 34 and the mounting plates 32, the possibility that the counterweight plates 34 and the mounting plates 32 naturally fall down is reduced, and the corrugated plates 33 are in the contracted state.

When raining, the rain sensor senses rainwater and then transmits signals to the controller, the controller controls the infrared ranging sensor 42 to work, the infrared ranging sensor 42 transmits signals to the controller after ranging, and the controller identifies the value measured by the infrared ranging sensor 42; when the controller judges that the movable window sash 22 is closed, the controller does not control the air pump to work, and when the controller judges that the movable window sash 22 is not closed, the controller controls the air pump to work.

The air pump works to enable the piston rods of the air cylinders 41 to extend, so that the two rotating plates 31 are pushed to rotate in the directions away from each other, the corresponding torsion springs are deformed by the rotation of the rotating plates 31, the mounting plates 32 and the counterweight plates 34 are pushed upwards to move while the two rotating plates 31 rotate, when the rotating plates 31 rotate to be separated from the counterweight plates 34 and still contact with the mounting plates 32, the counterweight plates 34 automatically fall down due to self gravity, and meanwhile the counterweight plates 34 pull the corrugated plates 33 to extend and move downwards until the counterweight plates 34 fall onto the lower hole walls of the through holes 1.

Both sides of the corrugated plate 33 are located in the corresponding side wall grooves 11, and the corrugated plate 33 shields the window frame 2, so that the possibility that rainwater drifts indoors is reduced, and the damage to indoor articles is reduced. The counterweight plates 34 fix the corrugated plates 33, so that the condition that the corrugated plates 33 drift with wind to cause rainwater to float indoors is reduced; the material of buckled plate 33 is the printing opacity material, makes external light can permeate buckled plate 33 and get into indoor, reduces and shelter from the condition that window frame 2 leads to indoor dim because of buckled plate 33.

Referring to fig. 3, 4 and 5, in order to allow an operator to more conveniently retract the corrugated plate 33 and the weight into the mounting plate 32, the roller shutter assembly 5 is provided in the top slot 12; the roller shutter assembly 5 includes pull cords 51 fixedly attached to both ends of the weight plate 34, and the mounting plate 32 is located between the two pull cords 51. A rope winding wheel 52 is fixedly connected to the top groove 12 at positions corresponding to the pull ropes 51, each pull rope 51 is wound on the corresponding rope winding wheel 52, and the roller shutter assembly 5 further comprises a driving piece 53 for simultaneously driving the two rope winding wheels 52 to rotate.

The driving member 53 includes a driving pulley 531 rotatably connected in the top groove 12, the driving pulley 531 being located between the two rope reels 52, and an axial direction of the driving pulley 531 being arranged along an axial direction of the rope reels 52; each rope winding wheel 52 is fixedly connected with a driven belt pulley 532, the driven belt pulleys 532 are axially arranged along the rope winding wheels 52, a driving belt 533 is jointly sleeved on the driving belt pulley 531 and the two driven belt pulleys 532, and a driving motor 534 for driving the driving belt pulley 531 to rotate is fixedly connected in the top groove 12.

When the operator needs to reset the corrugated plate 33 and the counterweight 34, the operator controls the controller to control the output shaft of the driving motor 534 to reversely rotate for a fixed number of turns, and the driving motor 534 transmits power to the rope winding wheel 52 through the driving pulley 531, the driving belt 533 and the driven pulley 532, so that the pull rope 51 is gradually wound on the rope winding wheel 52; the rope 51 is wound around the rope reel 52 while pulling the weight plate 34 and the corrugated plate 33 upward.

When the weight plate 34 and the corrugated plate 33 are completely positioned in the mounting plate 32, the output shaft of the driving motor 534 continues to rotate, the controller continues to control the air pump to work, the piston rod of the air cylinder 41 is retracted, the torsion spring recovers to deform and pushes the rotating plate 31 to rotate to the initial position, the two rotating plates 31 are matched again to support the mounting plate 32 and the weight plate 34, and when the output shaft of the driving motor 534 rotates to a fixed circle number, the controller does not control the driving motor 534 to work any more.

The implementation principle of embodiment 1 of the present application is: when the wind and rain detector and the infrared ranging sensor transmit signals to the controller, the controller judges the state of the movable window sash 22, the controller controls the air pump to work, the air cylinder 41 pushes the two rotating plates 31 to rotate, the corresponding torsion springs deform after the rotating plates 31 rotate until the two rotating plates 31 are positioned on one side of the matching groove 321, the counterweight plate 34 drives the corrugated plate 33 to move downwards due to gravity, the corrugated plate 33 seals the window frame 2, and the pull rope 51 is pulled to move outwards of the rope winding wheel 52 when the counterweight plate 34 moves.

When the operator needs to pack up the corrugated plate 33, the driving motor 534 is controlled to work through the control assembly, the driving motor 534 drives the driving belt pulley 531, the driving belt 533, the driven belt pulley 532 and the rope winding wheel 52 to rotate in sequence, the pull rope 51 is wound on the corresponding rope winding wheel 52 until the output shaft of the driving motor 534 rotates for a fixed circle number, at this time, the corrugated plate 33 and the counterweight plate 34 are located in the mounting plate 32, the controller controls the air pump to work, the piston rod of the air cylinder 41 is retracted, the torsion spring is deformed in a recovery mode, and the rotating plate 31 is pushed to recover to the initial position.

Example 2

Referring to fig. 6, as the rotating plate 31 rotates continuously, the torsion spring on the rotating plate 31 ages gradually, so that the rotating plate 31 cannot support the mounting plate 32 and the weight plate 34 well, and the weight plate 34 may automatically fall out of the mounting plate 32 due to gravity; in order to solve the above-described problem, the present embodiment is based on embodiment 1 in which the weight plate 34 is interference-fitted with the fitting groove 321, thereby reducing the possibility that the weight plate 34 naturally falls down due to the inability of the rotating plate 31 to support the weight plate 34.

The upper surface of the top groove 12 is fixedly connected with a plurality of groups of ejector rods 35, the plurality of groups of ejector rods 35 are arranged along the length direction of the window frame 2, the number of the ejector rods 35 in each group is two, the two ejector rods 35 in each group are all arranged along the width direction of the window frame 2, the corrugated plate 33 is positioned between the two ejector rods 35 in each group, the projection of each ejector rod 35 is positioned on the projection of the counterweight plate 34, and in the embodiment, the ejector rods 35 in each group are arranged. Guide holes 323 are formed in positions of the mounting plate 32 corresponding to the ejector rods 35, each guide hole 323 is communicated with the mounting cavity 322, and each ejector rod 35 is inserted into the corresponding guide hole 323. A gap exists between the upper surface of the mounting plate 32 and the upper surface of the top groove 12, and the lower end of the ejector rod 35 is located in the guide hole 323.

When the controller controls the air pump to work so that the air cylinders 41 push the two rotating plates 31 to rotate, the rotating plates 31 push the mounting plates 32 to move upwards, the mounting plates 32 move to drive the counterweight plates 34 to move, and the mounting plates 32 move upwards so that the ejector rods 35 are gradually inserted into the guide holes 323; when the rotating plate 31 rotates until the weight plate 34 is located between the two rotating plates 31, as the rotating plate 31 continues to rotate, the rotating plate 31 pushes the mounting plate 32 to continue to move upwards, and the lower end of the ejector rod 35 pushes the weight plate 34 to move outwards of the matching groove 321 until the weight plate 34 is separated from the matching groove 321.

The counter weight plate 34 drops and drives the buckled plate 33 to extend, until the counter weight plate 34 drops on the lower pore wall of through-hole 1 to make buckled plate 33 expand and carry out the shutoff to window frame 2, in this process, the rotor plate 31 all the time contacts with mounting panel 32, and the support still leads mounting panel 32 when mounting panel 32 removes, reduces the possibility that mounting panel 32 takes place the skew. In order to reduce the damage of the weight plate 34 when the weight plate 34 is pushed by the ejector rod 35, a backing plate 36 is fixedly connected to the lower end of the ejector rod 35, the diameter of the backing plate 36 is larger than that of the ejector rod 35, and the backing plate 36 is made of rubber.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. An intelligent window capable of being automatically closed in rainy days is provided with a through hole (1) in a wall body, a window frame (2) is fixedly connected in the through hole (1), a fixed window sash (21) is fixedly connected in the window frame (2), a movable window sash (22) is further connected in the window frame (2) in a sliding mode, and the movable window sash (22) slides along the length direction of the window frame (2), and is characterized in that: the utility model discloses a window frame, including through-hole (1) and mounting plate (32), side wall groove (11) have all been seted up on two side pore walls of through-hole (1), top groove (12) have been seted up on the upper pore wall of through-hole (1) top groove (12) and two side wall groove (11) all communicate, all rotate on two cell walls that top groove (12) are relative and be connected with a revolving plate (31), the length direction of revolving plate (31) is followed the length direction setting of top groove (12), two revolving plate (31) cooperation is right top groove (12) shutoff, install a plurality of torsional spring on revolving plate (31), the torsional spring makes the revolving plate (31) that correspond parallel with the lower surface of window frame (2), be equipped with one mounting plate (32) in top groove (12), the length direction of mounting plate (32) is followed the length direction setting of window frame (2), install cavity (322) have been seted up on the lower surface of mounting plate (32) and have been seted up cooperation groove (321), 321 and length (322) and length (32) are crossed in the cooperation groove (322) and the length direction (32), the utility model discloses a weight plate, including mounting panel (32), mounting panel, connecting plate, wherein a buckled plate (33) is fixedly connected with in mounting panel (32), the both ends of buckled plate (33) respectively stretch into one in lateral wall groove (11), the lower extreme fixedly connected with of buckled plate (33) counter weight board (34), counter weight board (34) slip grafting is in mating groove (321), counter weight board (34) with be interference fit in mating groove (321), fixedly connected with a plurality of ejector pin (35) on the groove diapire of mating groove (321), set up on mounting panel (32) with guide hole (323) that ejector pin (35) correspond, guide hole (323) with installation cavity (322) intercommunication, every ejector pin (35) all slip grafting in corresponding guide hole (323), the projection of every ejector pin (35) all is located on the projection of counter weight board (34). The mounting plate (32) and the counterweight plates (34) are respectively lapped on the two rotating plates (31), and an automatic control assembly (4) for controlling the rotating plates (31) to rotate is arranged in one side wall groove (11).

2. A rainy day self-closing smart window as defined in claim 1, wherein: one end of the rotating plate (31) stretches into a side wall groove (11) provided with an automatic control component (4), the automatic control component (4) comprises an air cylinder (41), the air cylinder (41) is connected with an air pump, the length direction of the air cylinder (41) is along the height direction of the window frame (2), the air cylinder (41) is located two below the rotating plate (31), a wind and rain sensor is installed outside the wall body, an infrared ranging sensor (42) is installed in the side wall groove (11) of the installation air cylinder (41), a controller is further installed in the side wall groove (11), and the air pump, the wind and rain sensor and the infrared ranging sensor (42) are all electrically connected with the controller.

3. A rainy day self-closing smart window as defined in claim 2, wherein: a rolling curtain component (5) for resetting the corrugated plate (33) and the balancing weight is arranged in the top groove (12).

4. A rainy day self-closing smart window according to claim 3, wherein: both ends of counter weight board (34) all protrude in mounting panel (32), rolling up curtain subassembly (5) including installing two reel wheels (52) in top groove (12), every reel wheel (52) all with one of them one end of counter weight board (34) corresponds, both ends of counter weight board (34) all fixedly connected with stay cord (51), every stay cord (51) all twines on corresponding reel wheel (52), still rotate in top groove (12) and be connected with a driving pulley (531), every all fixedly connected with driven pulley (532) on reel wheel (52), driving pulley (531) cup jointed a driving belt (533) jointly with two on driven pulley (532), still fixedly connected with in top groove (12) drive driving motor (534) that driving pulley (531) rotated, driving motor (534) with the controller electricity is connected.

5. A rainy day self-closing smart window as defined in claim 1, wherein: the lower end of the ejector rod (35) is fixedly connected with a base plate (36), and the diameter of the base plate (36) is larger than that of the ejector rod (35).

6. A rainy day self-closing smart window as defined in claim 1, wherein: the corrugated plate (33) is made of a light-transmitting material and is made of a corrugated plate (33).