阅读说明：本技术 一种根据传感器判断气象条件的装置及方法 (Device and method for judging meteorological conditions according to sensor ) 是由 夏俊荣 侯瑞钦 冯遵安 杨维娟 冯仰歌 于 2020-03-30 设计创作，主要内容包括：本发明公开了一种根据传感器判断气象条件的装置,包括窗户外框,所述窗户外框顶部一侧端面开设有固定槽,所述窗户外框顶部另一侧端面开设有限位槽,所述固定槽内部安装有电机,所述固定槽与限位槽的底端均开设有传动槽,所述传动槽内部侧端面开设有滑槽,所述窗户外框前端面靠近传动槽的位置处开设有连接孔,所述限位槽与传动槽内部嵌入安装有开窗机构,所述开窗机构包括转轴,转动杆,本发明通过设置传动槽、滑槽、连接孔、和开窗机构,带动窗户上边框和侧边框中部同时转动,使窗户顶部旋转移动,窗户中部受力同移动,保证了窗户开关更加的稳定牢固,使窗户开关时不会因为受力不足卡住,达到窗户开关稳定快速的效果。(The invention discloses a device for judging meteorological conditions according to a sensor, which comprises a window outer frame, wherein one side end face of the top of the window outer frame is provided with a fixed groove, the other side end face of the top of the window outer frame is provided with a limit groove, a motor is arranged in the fixed groove, the bottom ends of the fixed groove and the limit groove are both provided with transmission grooves, the side end face inside the transmission grooves is provided with a sliding groove, the front end face of the window outer frame close to the transmission grooves is provided with a connecting hole, the limit groove and the transmission grooves are internally embedded with a window opening mechanism, the window opening mechanism comprises a rotating shaft and a rotating rod, the invention drives the middle parts of an upper frame and a side frame of a window to simultaneously rotate by arranging the transmission grooves, the sliding grooves, the connecting holes and the window opening mechanism, so that the top of the window rotates and the middle part of the window is simultaneously stressed, the window is ensured to be more stable and firm, and the window can not be blocked due to insufficient stress when being opened and closed, reach the stable quick effect of window switch.)

1. An apparatus for determining weather conditions from sensors, comprising: the window frame comprises a window frame (1), wherein a fixed groove (2) is formed in one side end face of the top of the window frame (1), a limiting groove (3) is formed in the other side end face of the top of the window frame (1), a motor (4) is installed inside the fixed groove (2), transmission grooves (5) are formed in the bottom ends of the fixed groove (2) and the limiting groove (3), a sliding groove (6) is formed in the side end face inside the transmission groove (5), a connecting hole (7) is formed in the position, close to the transmission groove (5), of the front end face of the window frame (1), and a window opening mechanism (8) is installed inside the limiting groove (3) and the transmission groove (5) in an embedded mode;

the windowing mechanism (8) comprises a rotating shaft (801), a rotating rod (802), a conveyor belt (803), a gear (804), a toothed plate (805), a sliding rod (806), a supporting rod (807) and a limiting rod (808);

pivot (801) are installed in the inside rotation of spacing groove (3), the inboard bottom of transmission groove (5) is rotated and is installed dwang (802), the outer terminal surface cover of pivot (801) and dwang (802) is equipped with conveyer belt (803), a pot head of dwang (802) is equipped with gear (804), the outer terminal surface meshing of gear (804) is connected with pinion rack (805), pinion rack (805) side end face welding has slide bar (806), pinion rack (805) side end bottom is rotated and is installed bracing piece (807), bracing piece (807) mid-portion is rotated and is installed gag lever post (808).

2. The device for determining meteorological conditions according to the sensor, as claimed in claim 1, wherein one end of the rotating shaft (801) is rotatably installed inside the motor (4), the sliding rod (806) is slidably installed inside the sliding chute (6), and the supporting rod (807) is rotatably installed at the position close to the connecting hole (7) at the bottom of the side end of the toothed plate (805).

3. The device for judging weather conditions according to the sensor is characterized in that the end part of the bottom end of the upper frame (9) is symmetrically provided with a side frame (10), the bottom end of the side frame (10) is provided with a lower frame (11), and the surfaces of the upper frame (9), the side frame (10) and the lower frame (11) are provided with a safety detection mechanism (12);

the safety detection mechanism (12) comprises an upper arc plate (1201), a lower arc plate (1202), a draining plate (1203), a first mounting groove (1204), a temperature and humidity sensor (1205), a second mounting groove (1206), a rainwater sensor (1207), a third mounting groove (1208), a pressure type wind speed sensor (1209), a fourth mounting groove (1210) and a hot wire type wind speed sensor (1211);

an upper arc plate (1201) is arranged at the bottom end of the upper frame (9), a lower arc plate (1202) is arranged at the top end of the lower frame (11), a draining plate (1203) is arranged at the bottom end of the lower frame (11), a first mounting groove (1204) is arranged on the front end surface of the upper frame (9), a temperature and humidity sensor (1205) is embedded in the first mounting groove (1204), a second mounting groove (1206) is formed in the front end face of the lower frame (11), a rainwater sensor (1207) is embedded and mounted in the second mounting groove (1206), a third mounting groove (1208) is formed in the front end face of the side frame (10), a pressure type wind speed sensor (1209) is embedded and mounted in the third mounting groove (1208), the rear end face of the side frame (10) is provided with a fourth mounting groove (1210), and a hot-wire type wind speed sensor (1211) is embedded in the fourth mounting groove (1210).

4. The device for determining meteorological conditions according to the sensor, as claimed in claim 3, wherein the upper frame (9), the side frames (10) and the lower frame (11) are embedded with glass, and the edges of the glass are glued with sealing strips.

5. The device for judging weather conditions according to the sensor, as claimed in claim 1, wherein a clamping mechanism (13) is mounted on the rear end face of the lower frame (11), and the clamping mechanism (13) comprises a mounting seat (1301), a handle (1302), a fixing round hole (1303), a pressing rod (1304), a first spring (1305), a connecting groove (1306), a stopper rod (1307), a clamping hole (1308), a baffle (1309), a second spring (1310), a clamping groove (1311) and a stopper (1312);

a mounting seat (1301) is mounted on the rear end face of the lower frame (11), a handle (1302) is mounted on the side end face of the mounting seat (1301), one end part of the handle (1302) and the middle part of the mounting seat (1301) are both provided with a fixing round hole (1303), a pressing rod (1304) is embedded in the fixing round hole (1303), a first spring (1305) is sleeved on the outer end face of the pressing rod (1304), the bottom end of the lower frame (11) is provided with a connecting groove (1306), a stop lever (1307) is clamped inside the connecting groove (1306), the top of the baffle rod (1307) is provided with a clamping hole (1308), the middle part of the baffle rod (1307) is welded with a baffle plate (1309), a second spring (1310) is welded between the baffle plate (1309) and the lower frame (11), a clamping groove (1311) is formed in the top end of the inner side of the window outer frame (1), and a stop block (1312) is mounted inside the clamping groove (1311).

6. The weather sensor-based weather condition detecting device as claimed in claim 5, wherein the latch hole (1308) is aligned with the pressing rod (1304), the top end of the inside of the latch hole (1308) is a parallel slope with one end of the pressing rod (1304), the end surface of the stopper (1312) is a parallel slope with the bottom end surface of the stopper rod (1307), and the heights of the four slopes are all equal.

7. The method for the device for determining weather conditions according to the sensor as claimed in any one of the claims 1 to 6, comprising a receiving module, a weather forecast data module, a data analysis module and a driving module;

the weather forecast data module and the data analysis module are both connected with the receiving module, and the data analysis module is connected with the driving module;

the driving module is connected with the motor (4), and the temperature and humidity sensor (1205), the rainwater sensor (1207), the pressure type wind speed sensor (1209) and the hot-wire type wind speed sensor (1211) are connected with the receiving module.

8. The method of determining weather conditions from sensors of claim 7, comprising the weather detection determination of:

and (3) judging rainfall conditions: the method comprises the steps that humidity in air is detected through a temperature and humidity sensor (1205) under a windowing condition, rainwater in the air is detected through a rainwater sensor (1207), a detection result is transmitted to a receiving module, a data analysis module analyzes and judges according to the humidity, the rainwater and weather forecast data, and transmits a window closing signal to a driving module;

judging the strong wind condition: the wind speed in the vertical direction in the environment is detected through a pressure type wind speed sensor (1209), the wind speed in the horizontal direction in the environment is constantly detected through a hot wire type wind speed sensor (1211), wind speed data are transmitted to a receiving module, and a data analysis module analyzes and judges according to the wind speed data and transmits a window closing signal to a driving module.

9. The method of determining weather conditions from sensors of claim 7, wherein the rainfall conditions determination method is as follows:

the rainfall judgment is mainly based on three aspects of a rainwater sensor (1207), a temperature and humidity sensor (1205) and local meteorological data;

under the condition of windowing, if a signal is output by a rainwater sensor (1207) on the front end surface of a lower window frame (11), but a temperature and humidity sensor (1205) on the front end surface of an upper window frame (9) does not detect change, and meanwhile, according to the fact that rainfall does not exist in a local area forecasted by a weather forecast data module, the temporary washing operation can be judged, and the window is not closed;

if rainwater sensor (1207) of terminal surface have signal output before window lower frame (11), temperature and humidity sensor (1205) of terminal surface have data change before frame (9) on the window simultaneously, the local meteorological data of contrast meteorological forecast data module forecast has precipitation, temperature and humidity sensor (1205) numerical value under temperature and humidity sensor (1205) and the precipitation condition need contrast this moment, if the two is close then judge that this product is located precipitation, but the rainfall is little, then the window is closed to the part, it guarantees indoor ventilation to remain the gap.

If rain sensor (1207) of terminal surface show precipitation before window lower frame (11), humiture sensor (1205) show humidity and are close to the precipitation humidity that local meteorological data shows simultaneously, and the local meteorological data of meteorological forecast data module forecast has precipitation, then judge that the rainwater is great, have the rainwater simultaneously and float into indoor danger, then should close the window completely.

10. The method of determining weather conditions from sensors of claim 7, wherein the gale condition determination is as follows:

judging the strong wind condition: the damage of the weather condition of strong wind to indoor users mainly comprises blowing off the indoor displayed articles and damaging windows;

the pressure type wind speed sensor (1209) on the front end surface of the side frame (10) needs to measure the wind speed vertical to the window, the hot-wire type wind speed sensor (1211) on the rear end surface of the side frame (10) needs to measure the wind speed parallel to the window, and the pressure type wind speed sensor and the hot-wire type wind speed sensor both can damage indoor articles under the condition of high wind speed;

partially closing the window if the wind speed detected by the pressure type wind speed sensor (1209) and the wind speed detected by the hot wire type wind speed sensor (1211) exceed a wind speed for blowing the object down in the window opening condition;

closing the window if the wind speed detected by the pressure type wind speed sensor (1209) exceeds the wind speed to which the object is blown and the wind speed detected by the hot wire type wind speed sensor (1211) exceeds the wind speed to which the object is blown;

if the wind speed detected by the pressure type wind speed sensor (1209) does not reach the wind speed at which the object is blown, and the wind speed detected by the hot wire type wind speed sensor (1211) does not reach the wind speed at which the object is blown, the window is not closed.

Technical Field

The invention relates to the technical field of meteorological detection, in particular to a device and a method for judging meteorological conditions according to a sensor.

Background

Weather forecast is to predict the state of earth atmosphere at a certain place in the future by using modern scientific technology, people are predicted to schedule work and life correspondingly from the beginning, the weather forecast of the present day is mainly to collect a large amount of data and then to determine future air changes by using the current knowledge of atmospheric process, the weather forecast always has certain errors due to the disorder of atmospheric process and the fact that the atmospheric process is not finally and thoroughly understood by the science of the present day, and in daily life, the weather condition of the next day is determined according to the weather forecast,

but the meteorological detection device that uses at present is after the empty gas detection to window position department, and it is unstable when control window opens, and the atress is not enough when the window transmission is opened, leads to the window to close and opens the trouble, and the easy is opening and closing the window in-process, appears pausing, makes the switch window appear interrupting.

Disclosure of Invention

The invention provides a device and a method for judging weather conditions according to a sensor, which can effectively solve the problems that the existing weather detection device is unstable when a window is controlled to be opened after detecting air at the position of the window, the stress is insufficient when the window is driven to be opened, the window is difficult to close and open, and the window is easy to pause in the process of opening and closing the window, so that the window is opened and closed.

In order to achieve the purpose, the invention provides the following technical scheme: a device for judging meteorological conditions according to a sensor comprises a window outer frame, wherein a fixed groove is formed in one side end face of the top of the window outer frame, a limiting groove is formed in the other side end face of the top of the window outer frame, a motor is arranged in the fixed groove, transmission grooves are formed in the bottom ends of the fixed groove and the limiting groove, a sliding groove is formed in the side end face of the inner portion of the transmission groove, a connecting hole is formed in the position, close to the transmission groove, of the front end face of the window outer frame,

the window opening mechanism is embedded in the limiting groove and the transmission groove and comprises a rotating shaft, a rotating rod, a conveying belt, a gear, a toothed plate, a sliding rod, a supporting rod and a limiting rod;

the utility model discloses a rack, including the rack, the rack is connected with the rack.

Preferably, the one end of the rotating shaft is rotatably installed inside the motor, the sliding rod is slidably installed inside the sliding groove, and the supporting rod is rotatably installed at a position, close to the connecting hole, of the bottom of the side end of the toothed plate.

Preferably, the bottom end of the upper frame is symmetrically provided with side frames, the bottom end of each side frame is provided with a lower frame, and the surfaces of the upper frame, the side frames and the lower frame are all provided with safety detection mechanisms;

the safety detection mechanism comprises an upper arc plate, a lower arc plate, a draining plate, a first mounting groove, a temperature and humidity sensor, a second mounting groove, a rainwater sensor, a third mounting groove, a pressure type wind speed sensor, a fourth mounting groove and a hot wire type wind speed sensor;

the utility model discloses a rain-proof wind power generation device, including last frame, lower frame, rainwater sensor, temperature and humidity sensor, last frame, lower frame, upper arc plate is installed to the bottom of last frame, lower arc plate is installed on the top of lower frame, the draining plate is installed to the bottom of lower frame, first mounting groove has been seted up to the preceding terminal surface of last frame, temperature and humidity sensor is installed in the inside embedding of first mounting groove, the second mounting groove has been seted up to the preceding terminal surface of lower frame, rainwater sensor is installed in the inside embedding of second mounting groove, the third mounting groove has been seted up to the preceding terminal surface of side frame, pressure type air velocity transducer is installed in the inside embedding of third mounting groove, the fourth mounting groove has been seted up to the rear end face of side frame, hot line type air velocity transducer is installed in the inside embedding of fourth mounting groove.

Preferably, glass is embedded and installed between the upper frame, the side frame and the lower frame, and sealing strips are glued to the edge portions of the glass.

Preferably, the rear end face of the lower frame is provided with a clamping mechanism, and the clamping mechanism comprises a mounting seat, a handle, a fixing round hole, a pressing rod, a first spring, a connecting groove, a stop lever, a clamping hole, a baffle, a second spring, a clamping groove and a stop block;

the utility model discloses a window frame, including lower frame, mount pad, handle, fixed round hole, link rod, baffle, second spring, draw-in groove internally mounted has the dog to be installed to lower frame rear end face, the handle is installed to the side end face of mount pad, fixed round hole has all been seted up at a handle tip and mount pad middle part, the inside embedding of fixed round hole is installed and is pressed the depression bar, the outer terminal surface cover of pressing the depression bar is equipped with first spring, the spread groove has been seted up to the lower frame bottom, the inside joint of spread groove has a grade pole, the joint hole has been seted up at grade pole top, the welding of grade pole middle part has the baffle, the welding has the second spring between baffle and the lower frame, the draw-in groove has been seted up on the inboard top of window frame, draw-in groove internally mounted has the dog.

Preferably, the clamping hole is aligned with the pressing rod, the top end of the inner side of the clamping hole and one end of the pressing rod are parallel slope surfaces, one end surface of the stop block and the bottom end surface of the stop rod are parallel slope surfaces, and the heights of the four slopes are equal.

Preferably, the system comprises a receiving module, a weather forecast data module, a data analysis module and a driving module;

the weather forecast data module and the data analysis module are both connected with the receiving module, and the data analysis module is connected with the driving module;

the driving module is connected with the motor, and the temperature and humidity sensor, the rainwater sensor, the pressure type wind speed sensor and the hot wire type wind speed sensor are all connected with the receiving module.

Preferably, the method comprises the following weather detection judgment:

and (3) judging rainfall conditions: the system comprises a temperature and humidity sensor, a rainwater sensor, a receiving module, a data analysis module, a window closing signal transmission module and a driving module, wherein the temperature and humidity sensor is used for detecting the humidity in air under a window opening condition, the rainwater sensor is used for detecting the rainwater in the air, the detection result is transmitted to the receiving module, and the data analysis module is used for analyzing and judging according to the humidity, the rainwater and weather forecast data and transmitting the window closing signal to the driving module;

judging the strong wind condition: the wind speed sensor is used for detecting the wind speed in the vertical direction in the environment, the hot wire type wind speed sensor is used for insisting on detecting the wind speed in the horizontal direction in the environment, the wind speed data are transmitted to the receiving module, and the data analysis module is used for analyzing and judging according to the wind speed data and transmitting a window closing signal to the driving module.

Preferably, the rainfall condition judging method comprises the following steps:

the rainfall judgment is mainly based on three aspects of a rain sensor, a temperature and humidity sensor and local meteorological data;

under the condition of opening the window, if the rain sensor on the front end surface of the lower frame of the window outputs signals, but the temperature and humidity sensor on the front end surface of the upper frame of the window does not detect changes, and meanwhile, the rainfall does not exist in the local area forecasted by the weather forecast data module, the temporary washing operation can be judged, and the window is not closed;

if the rainwater sensor of terminal surface has signal output before the frame under the window, the temperature and humidity sensor of terminal surface has data change before the frame on the window simultaneously, and the local meteorological data of contrast meteorological forecast data module forecast has precipitation, needs temperature and humidity sensor and the temperature and humidity sensor numerical value under the precipitation condition to contrast this moment, if the two is close then judges this product place position precipitation, but the rainfall is not big, then the window is closed to the part, remains the gap and guarantees indoor ventilation.

Preferably, if the rain sensor of terminal surface shows precipitation before the window lower frame, humiture sensor shows that humidity is close to the precipitation humidity that local meteorological data shows simultaneously, and the local meteorological data of meteorological forecast data module forecast has precipitation, then judges that the rainwater is great, has the rainwater simultaneously and drifts into indoor danger, then should close the window completely.

The strong wind condition judgment method comprises the following steps:

judging the strong wind condition: the damage of the weather condition of strong wind to indoor users mainly comprises blowing off the indoor displayed articles and damaging windows;

the pressure type wind speed sensor on the front end surface of the side frame needs to measure the wind speed perpendicular to the window, the hot wire type wind speed sensor on the rear end surface of the side frame needs to measure the wind speed parallel to the window, and the pressure type wind speed sensor and the hot wire type wind speed sensor both can damage indoor articles under the condition of high wind speed;

partially closing the window if the wind speed detected by the pressure type wind speed sensor and the wind speed detected by the hot wire type wind speed sensor exceed the wind speed for blowing the object down under the condition of opening the window;

if the wind speed detected by the pressure type wind speed sensor exceeds the wind speed blowing the object, and the wind speed detected by the hot wire type wind speed sensor exceeds the wind speed blowing the object, closing the window;

if the wind speed detected by the pressure type wind speed sensor does not reach the wind speed blowing the object, and the wind speed detected by the hot wire type wind speed sensor does not reach the wind speed blowing the object, the window is not closed.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through setting up driving groove, spout, connecting hole and windowing mechanism, drive frame and side frame middle part rotate simultaneously on the window, make window top rotary motion, window middle part atress is with removing, has guaranteed window switch more stable firm, can not block because the atress is not enough when making window switch, reaches the stable quick effect of window switch.

2. Through setting up frame, lower frame, side frame and safety inspection mechanism, detect window surrounding environment, be convenient for master the rainfall condition to through last arc board, lower arc board and waterlogging caused by excessive rainfall board, beat the rainwater on the window when raining and carry out the waterlogging caused by excessive rainfall, make the quick drainage of window, reduce window and sensor element's damage.

3. Through setting up mount pad, handle, fixed round hole, pressing rod, first spring, spread groove, shelves pole, joint hole, baffle, second spring, draw-in groove and dog, automatic joint locking when the window is closed presses when the pressing rod can contact the locking when the window is opened, and presses the posture that the pole is located handle one end and accords with the people and hold the handle, makes the locking of window switch more convenient.

4. Through setting up receiving module, data analysis module, drive module, temperature and humidity sensor, rainwater sensor and weather forecast data module, carry out accurate detection to humidity, rainwater in the window surrounding environment, be fit for the meteorological prediction of minizone to make the instruction whether close the window behind the data analysis, conveniently in time close the window before raining, reduce the rainwater and get into the room.

5. Through setting up third mounting groove, fourth mounting groove, pressure type air velocity transducer and hot wire type air velocity transducer, the convenience is detected perpendicular and horizontal wind speed around the window, closes the window when the wind speed is great, prevents that wind from blowing into indoorly, makes indoor object fall down the damage, reduces economic loss.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic cross-sectional structural view of the present invention;

FIG. 3 is a schematic view of the structure of the windowing mechanism according to the invention;

FIG. 4 is a schematic side view of the present invention;

FIG. 5 is a schematic view of a card slot configuration of the present invention;

FIG. 6 is an enlarged view of area A of FIG. 4 according to the present invention;

FIG. 7 is a flow chart of a method of the present invention;

reference numbers in the figures: 1. a window outer frame; 2. fixing grooves; 3. a limiting groove; 4. a motor; 5. a transmission groove; 6. a chute; 7. connecting holes;

8. a window opening mechanism: 801. a rotating shaft; 802. rotating the rod; 803. a conveyor belt; 804. a gear; 805. a toothed plate; 806. a slide bar; 807. a support bar; 808. a limiting rod;

9. an upper frame; 10. a side frame; 11. a lower frame;

12. safety detection mechanism: 1201. an upper arc plate; 1202. a lower arc plate; 1203. a draining board; 1204. a first mounting groove; 1205. a temperature and humidity sensor; 1206. a second mounting groove; 1207. a rain sensor; 1208. a third mounting groove; 1209. a pressure type wind speed sensor; 1210. a fourth mounting groove; 1211. a hot-wire type wind speed sensor;

13. a clamping mechanism: 1301. a mounting seat; 1302. a handle; 1303. fixing the round hole; 1304. a pressing lever; 1305. a first spring; 1306. connecting grooves; 1307. a gear lever; 1308. a clamping hole; 1309. a baffle plate; 1310. a second spring; 1311. a card slot; 1312. and a stop block.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1: as shown in fig. 1-6, the present invention provides a technical solution, a device for determining meteorological conditions according to a sensor, including a window frame 1, a fixed slot 2 is provided on one side end surface of the top of the window frame 1, a limit slot 3 is provided on the other side end surface of the top of the window frame 1, a motor 4 is installed inside the fixed slot 2, transmission slots 5 are provided at the bottom ends of the fixed slot 2 and the limit slot 3, a sliding slot 6 is provided on the side end surface inside the transmission slot 5, a connection hole 7 is provided at a position of the front end surface of the window frame 1 near the transmission slot 5, and a window opening mechanism 8 is installed inside the limit slot 3 and the transmission slot 5;

the windowing mechanism 8 comprises a rotating shaft 801, a rotating rod 802, a conveying belt 803, a gear 804, a toothed plate 805, a sliding rod 806, a supporting rod 807 and a limiting rod 808;

the inside rotation of spacing groove 3 installs pivot 801, and the inboard bottom of transmission groove 5 rotates and installs dwang 802, and pivot 801 and the outer terminal surface cover of dwang 802 are equipped with conveyer belt 803, and a dwang 802 tip cover is equipped with gear 804, and the terminal surface meshing is connected with pinion rack 805 outside gear 804, and pinion rack 805 side end face welding has slide bar 806, and pinion rack 805 side end bottom rotates installs bracing piece 807, and the rotation of bracing piece 807 middle part installs gag lever post 808.

One end of the rotating shaft 801 is rotatably installed inside the motor 4, the sliding rod 806 is slidably installed inside the sliding chute 6, and the supporting rod 807 is rotatably installed at a position near the connecting hole 7 at the bottom of the side end of the toothed plate 805.

Side frames 10 are symmetrically arranged at the end part of the bottom end of the upper frame 9, a lower frame 11 is arranged at the bottom end of the side frame 10, and safety detection mechanisms 12 are arranged on the surfaces of the upper frame 9, the side frames 10 and the lower frame 11;

the safety detection mechanism 12 comprises an upper arc plate 1201, a lower arc plate 1202, a draining plate 1203, a first mounting groove 1204, a temperature and humidity sensor 1205, a second mounting groove 1206, a rainwater sensor 1207, a third mounting groove 1208, a pressure type wind speed sensor 1209, a fourth mounting groove 1210 and a hot-wire type wind speed sensor 1211;

last arc 1201 is installed to the bottom of going up frame 9, lower arc 1202 is installed on the top of lower frame 11, draining plate 1203 is installed to the bottom of lower frame 11, first mounting groove 1204 has been seted up to the preceding terminal surface of going up frame 9, temperature and humidity sensor 1205 is installed in the inside embedding of first mounting groove 1204, second mounting groove 1206 has been seted up to the preceding terminal surface of lower frame 11, rain sensor 1207 is installed in the inside embedding of second mounting groove 1206, third mounting groove 1208 has been seted up to the preceding terminal surface of side frame 10, pressure type air velocity transducer 1209 is installed in the inside embedding of third mounting groove 1208, fourth mounting groove 1210 has been seted up to the rear end of side frame 10, hot-wire type air velocity transducer 1211 is installed in the inside embedding of fourth mounting groove 1210.

Glass is embedded and installed among the upper frame 9, the side frames 10 and the lower frame 11, and sealing strips are glued on the edges of the glass.

The clamping mechanism 13 is installed on the rear end face of the lower frame 11, and the clamping mechanism 13 comprises an installation base 1301, a handle 1302, a fixing round hole 1303, a pressing rod 1304, a first spring 1305, a connecting groove 1306, a stop rod 1307, a clamping hole 1308, a baffle 1309, a second spring 1310, a clamping groove 1311 and a stop 1312;

mount pad 1301 is installed to lower frame 11 rear end face, handle 1302 is installed to the side end face of mount pad 1301, fixed round hole 1303 has all been seted up with mount pad 1301 middle part to handle 1302 one end, fixed round hole 1303 inside embedding installs press pole 1304, the outer terminal surface cover of press pole 1304 is equipped with first spring 1305, connecting groove 1306 has been seted up to lower frame 11 bottom, the inside joint of connecting groove 1306 has shelves pole 1307, the joint hole 1308 has been seted up at shelves pole 1307 top, the welding has baffle 1309 in the middle part of shelves pole 1307, the welding has second spring 1310 between baffle 1309 and the lower frame 11, draw-in groove 1311 has been seted up on the inboard top of window frame 1, draw-in groove 1311 internally mounted has dog 1312.

The clamping hole 1308 is aligned with the pressing rod 1304, the top end of the inner side of the clamping hole 1308 is a parallel slope surface with one end of the pressing rod 1304, one end surface of the stop 1312 is a parallel slope surface with the bottom end surface of the stop 1307, the heights of the four slopes are equal, and the height of the slope is 2 CM.

Example 2: as shown in FIG. 6, the present invention provides a method for determining weather conditions based on sensors, the method comprising a receiving module, a weather forecast data module, a data analysis module and a driving module;

the meteorological forecast data module and the data analysis module are both connected with the receiving module, and the data analysis module is connected with the driving module;

the average humidity of air is 50% in sunny days, the rainfall in light rain is 2.5mm/h, and the wind speed for easily blowing down objects is 8.0m/s

The driving module is connected with the motor 4, and the temperature and humidity sensor 1205, the rainwater sensor 1207, the pressure type wind speed sensor 1209 and the hot-line type wind speed sensor 1211 are connected with the receiving module.

The method comprises the following weather detection and judgment:

and (3) judging rainfall conditions: the method comprises the steps that humidity in air is detected through a temperature and humidity sensor 1205 under a windowing condition, rainwater in the air is detected through a rainwater sensor 1207, a detection result is transmitted to a receiving module, a data analysis module analyzes and judges according to the humidity, the rainwater and weather forecast data, and transmits a window closing signal to a driving module;

judging the strong wind condition: the wind speed in the vertical direction in the environment is detected through the pressure type wind speed sensor 1209, the wind speed in the horizontal direction in the environment is detected through the hot wire type wind speed sensor 1211, the wind speed data are transmitted to the receiving module, and the data analysis module analyzes and judges according to the wind speed data and transmits a window closing signal to the driving module.

The rainfall condition judgment method comprises the following steps:

the rainfall judgment is mainly based on three aspects of a rainwater sensor 1207, a temperature and humidity sensor 1205 and local meteorological data;

under the condition of opening the window, if the rain sensor 1207 on the front end surface of the lower window frame 11 detects that the rainfall of the rain exceeds 2.5mm/h, a rainfall signal is sent, but the temperature and humidity sensor 1205 on the front end surface of the upper window frame 9 does not detect that the humidity is more than 50 percent, and does not send a signal, and meanwhile, according to the fact that no rainfall exists in the local area forecasted by the weather forecast data module, the temporary washing operation can be judged, and the window is not closed;

if the rainfall amount that the terminal surface was detected to the rainwater sensor 1207 before the window lower frame 11 exceeded 2.5mm/h, send the precipitation signal, the humiture sensor 1205 of terminal surface was detected to humidity more than 50% before the window upper frame 9 simultaneously, send the humidity increase signal, there is precipitation to contrast the local meteorological data of meteorological forecast data module forecast, need contrast humiture sensor 1205 and the humiture sensor 1205 numerical value under the precipitation condition this moment, if the two numerical value difference is less than 5 then judge this product place and have precipitation, but the rainfall amount is not big, then the window is closed to the part, it guarantees indoor ventilation to remain the gap.

If the rainfall amount of the rainwater detected by the rainwater sensor 1207 on the front end surface of the lower window frame 11 exceeds 2.5mm/h, a rainfall signal is sent, meanwhile, the humidity detected by the temperature and humidity sensor 1205 is greater than 50%, a humidity increasing signal is sent, and the local meteorological data forecasted by the meteorological forecast data module has rainfall, so that the rainwater is judged to be large, meanwhile, the rainwater is in danger of floating into the room, and the window is required to be completely closed.

The strong wind condition judgment method comprises the following steps:

judging the strong wind condition: the damage of the weather condition of strong wind to indoor users mainly comprises blowing off the indoor displayed articles and damaging windows;

the pressure type wind speed sensor 1209 on the front end surface of the side frame 10 needs to measure the wind speed perpendicular to the window, and the hot-wire type wind speed sensor 1211 on the rear end surface of the side frame 10 needs to measure the wind speed parallel to the window, both of which can damage indoor articles under the condition of high wind speed;

in the windowing condition, if the wind speed detected by the pressure type wind speed sensor 1209 and the wind speed detected by the hot wire type wind speed sensor 1211 both exceed 8.0m/s, the window is partially closed;

if the wind speed detected by the pressure type wind speed sensor 1209 exceeds 8.0m/s and the wind speed detected by the hot wire type wind speed sensor 1211 exceeds 8.0m/s, the window is closed;

if the wind speed detected by the pressure type wind speed sensor 1209 does not reach 8.0m/s and the wind speed detected by the hot wire type wind speed sensor 1211 does not reach 8.0m/s, the window is not closed.

The working principle and the using process of the invention are as follows: when the window is opened, the temperature and humidity sensor 1205 in the first mounting groove 1204 is used for detecting the humidity in the surrounding environment, the rainwater sensor 1207 in the second mounting groove 1206 is used for detecting the rainwater, the receiving module is used for receiving the data transmitted by the weather forecast data module at the same time, and the receiving module is used for transmitting the received model to the data analysis module;

if the rainfall detected by the rain sensor 1207 exceeds 2.5mm/h, but the temperature and humidity sensor 1205 does not detect changes, and meanwhile, no rainfall is present in the local area according to the forecast of the weather forecast data module, the temporary washing operation can be judged, and the window is not closed;

if the rainfall amount detected by the rain sensor 1207 exceeds 2.5mm/h, meanwhile, the humidity detected by the temperature and humidity sensor 1205 exceeds 50%, the local meteorological data forecasted by the meteorological forecast data module has precipitation, at this time, the temperature and humidity sensor 1205 and the value of the temperature and humidity sensor 1205 under the precipitation condition need to be compared, if the difference between the two values is less than 5, the position of the product is judged to have precipitation, but the precipitation amount is not large, the data analysis module transmits a signal to the driving module, the driving module transmits a driving signal to the motor 4, the motor 4 drives the circumference 801 to rotate for a quarter of a circle, the rotating shaft 801 drives the conveyor belt 803, the rotating rod 802 and the gear 804 to rotate, the gear 804 drives the toothed plate 805 to move downwards, the toothed plate 805 drives the supporting rod 807 to move downwards, so that the top and the middle of the window are stressed simultaneously, the window is partially closed, and gaps are reserved to ensure indoor ventilation;

if the rain sensor 1207 on the front end face of the lower window frame 11 detects that the precipitation amount exceeds 2.5mm/h, and the temperature and humidity sensor 1205 detects that the humidity exceeds 50%, and the local weather data forecasted by the weather forecast data module has precipitation, it is determined that the rain is large, and at the same time, there is a danger that the rain will flow into the room, the data analysis module transmits a signal to the driving module, the driving module transmits a driving signal to the motor 4, the motor 4 drives the circumference 801 to rotate half a circle, the rotating shaft 801 drives the conveyor belt 803, the rotating shaft 802 and the gear 804 to rotate, the gear 804 drives the toothed plate 805 to move downwards, the toothed plate 805 drives the support rod 807 to move downwards, so that the top and the middle of the window are stressed simultaneously, the window should be closed completely, the rain hits the window, the rain is guided to the bottom of the draining plate 1203 to drain away through the drainage of the upper arc plate 1201, the lower arc plate 1202 and the draining plate 1203, and accumulation of the rain at the edge of the window is reduced, reducing damage to windows and sensor elements;

when the window is closed, the stop lever 1308 at the bottom end of the lower window frame 11 is in contact with the stop 1312, the stop lever 1308 moves upwards, the second spring 1310 contracts, the stop lever 1308 is clamped and fixed with the stop 1312, the second spring 1310 extends, when the window is opened, the handle 1302 is held, the thumb is used for pressing the pressing rod 1304, the pressing rod 1304 is in contact with the slope surface at the top end of the clamping hole 1308, the stop lever 1308 is driven to move upwards, the first spring 1305 and the second spring 1310 both contract, the stop lever 1308 is separated from the stop 1312, then the window is pushed outwards, the window can be opened, the window can be conveniently opened, the window can be automatically clamped and unlocked when being opened and closed, and the window opening and closing are more convenient;

when the wind speed around the window is detected, if the wind speed detected by the pressure type wind speed sensor 1209 and the wind speed detected by the hot wire type wind speed sensor 1211 both exceed 8.0m/s, the window is partially closed;

if the wind speed detected by the pressure type wind speed sensor 1209 exceeds 8.0m/s and the wind speed detected by the hot wire type wind speed sensor 1211 exceeds 8.0m/s, the window is closed;

if the wind speed detected by the pressure type wind speed sensor 1209 does not reach 8.0m/s and the wind speed detected by the hot wire type wind speed sensor 1211 does not reach 8.0m/s, the window is not closed.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.