CN114224154A

CN114224154A - Window shielding mechanism for preventing sunshine dazzling in learning process

Info

Publication number: CN114224154A
Application number: CN202111581438.XA
Authority: CN
Inventors: 俞尹婷; 蔡梦斐; 陈敏华
Original assignee: Shaoxing City Keqiao District Jianhu High School
Current assignee: Shaoxing City Keqiao District Jianhu High School
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-03-25

Abstract

The invention provides a window shielding mechanism for preventing sunshine dazzling in the learning process, which relates to the field of learning tools and comprises a window frame, wherein the top of the front side of the window frame is connected with a slide bar, the slide bar is in sliding fit with a plurality of hooks, the front side of the window frame is provided with a curtain, and the lower end of each hook is connected with the top of the curtain. This a window that is used for preventing sunshine dazzling in learning process shelters from mechanism, and based on the photosensitive resistor along with the light intensity increase and resistance value reduces the principle, through motor, string, heating module, the cooperation of heat conduction pole, to the interior alcohol heating of stainless steel pipe for slider and touch switch contact, thereby make the driving lever expand the (window) curtain. Therefore, the effect of automatically pulling the curtain to shield sunlight is realized. And then the compression tank, the electronic valve and the glass windows are matched to release ozone in the closed space of the two glass windows, so that the shading effect is enhanced. Thereby avoiding the students from being interfered by the sunlight when studying in the classroom.

Description

Window shielding mechanism for preventing sunshine dazzling in learning process

Technical Field

The invention relates to the technical field of learning tools, in particular to a window shielding mechanism for preventing sunshine dazzling in the learning process.

Background

Students often interfere with students leaning on the window during the teacher's learning process as follows: first, sunlight shines through the window onto the face, very dazzling. Secondly, sunlight shines on the blackboard through the window, and the handwriting on the blackboard can not be seen clearly at partial angles. The students leaning on the window need to pull the curtain, which is very troublesome. For this reason, a certain new type of device is required to cope with this situation.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a window shielding mechanism for preventing sunshine dazzling in the learning process, and solves the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a window shelters from mechanism for preventing sunshine dazzling among the learning process, includes the window frame, the positive top of window frame is connected with the slide bar, and slide bar sliding fit has a plurality of couples, the window frame openly is equipped with the (window) curtain, and the couple lower extreme is connected with the (window) curtain top, is equipped with two glass windows in the window frame, window frame back top is inlayed and is had horizontal storehouse, and the spout has been seted up at window frame top, and spout sliding fit has the driving lever, and the driving lever upper end extends to the window frame openly, driving lever lower extreme and horizontal storehouse sliding fit, the fixed side of (window) curtain is connected with the window frame, is located the couple that the fixed side of (window) curtain was located most and contacts in the driving lever, be equipped with the drive assembly who impels the driving lever to remove in the horizontal storehouse.

Preferably, the rear end of the transverse bin is close to the fixed side of the curtain, a motor is arranged in the rear end of the transverse bin, a control module I is arranged above the motor, a photosensitive resistor module and a heating module are arranged in the front end of the transverse bin, a fixed ring is arranged on one side of the heating module, a thin rope is connected to a motor transmission shaft, one end, away from the motor, of the thin rope penetrates through the fixed ring to be connected with the lower end of a driving lever, and a rubber band is connected between the lower end of the driving lever and the inner wall of the rear end of the transverse bin.

Preferably, the transverse bin is transparent corresponding to the photosensitive resistor module area, when sunlight penetrates through the transparent area and irradiates on the photosensitive resistor module, the resistance value of the photosensitive resistor module is reduced along with the increase of the sunlight, when the resistance is reduced to a preset value, the control module controls the motor to wind the string, the string drags the shifting rod to move, and the shifting rod drives the hook to enable the curtain to be unfolded.

Preferably, the window frame openly is equipped with perpendicular storehouse, erects the storehouse and is located horizontal storehouse front end below, erect both ends confined nonrust steel pipe about being equipped with in the storehouse, nonrust steel pipe sliding fit has the slider, has annotated alcohol in the nonrust steel pipe, erects to be equipped with the singlechip in the storehouse, and nonrust steel pipe inner wall top is equipped with touch switch, touch switch and singlechip electric connection, heating module bottom is connected with the heat conduction pole, and the heat conduction pole lower extreme passes and erects the storehouse and stretch into in the nonrust steel pipe.

Preferably, alcohol accounts for two-thirds of the volume of the stainless steel pipe, when the resistance value of the photosensitive resistor module is reduced along with the increase of sunlight, the heating module starts to heat and heat, the heat conducting rod transfers the temperature to the alcohol, the alcohol is heated and rises to push the sliding block to move towards the touch switch, the single chip microcomputer transfers a signal to the control module I after the sliding block is touched with the touch switch, and the control module I controls the motor to work.

Preferably, a sealing coating is coated between the edges of the two glass windows and the window frame, and a gap exists between the two glass windows, wherein the gap distance is centimeter.

Preferably, the inside vacuum in gap, the inboard bottom of window frame just is located the clearance and has seted up the recess, is equipped with pressure measuring module and control module two in the recess, and fixed mounting has the compression jar in the recess, and compression jar one end is equipped with the air pump, and the air pump is connected with the electronic valve, control module two respectively with pressure measuring module, electronic valve and air pump electric connection, the storage has ozone in the compression jar.

(III) advantageous effects

The invention provides a window shielding mechanism for preventing sunshine dazzling in the learning process. The method has the following beneficial effects:

1. this a window that is used for preventing sunshine dazzling in learning process shelters from mechanism, and based on the photosensitive resistor along with the light intensity increase and resistance value reduces the principle, through motor, string, heating module, the cooperation of heat conduction pole, to the interior alcohol heating of stainless steel pipe for slider and touch switch contact, thereby make the driving lever expand the (window) curtain. Therefore, the effect of automatically pulling the curtain to shield sunlight is realized. And then the compression tank, the electronic valve and the glass windows are matched to release ozone in the closed space of the two glass windows, so that the shading effect is enhanced. Thereby avoiding the students from being interfered by the sunlight when studying in the classroom.

Drawings

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

FIG. 2 is a schematic view of another angle of the structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at A according to the present invention;

FIG. 4 is a partial view of the window frame construction of the present invention;

FIG. 5 is a side view of the internal structure of the horizontal warehouse according to the present invention;

FIG. 6 is a view showing the inner structure of the horizontal bin on the other side;

FIG. 7 is a schematic view of the internal structure of the vertical silo of the present invention;

fig. 8 is a partial view of another angle of the window frame structure of the present invention.

In the figure: 1 window frame, 2 slide bars, 3 hooks, 4 glass windows, 5 transverse bins, 51 motors, 52 strings, 53 fixing rings, 54 rubber bands, 55 control modules I, 6 vertical bins, 61 stainless steel pipes, 611 alcohol, 62 heat conducting rods, 63 sliders, 64 touch switches, 7 deflector rods, 8 photosensitive resistor modules, 9 heating modules, 10 chutes, 11 grooves, 12 pressure measuring modules, 13 control modules II, 14 compression tanks, 15 electronic valves and 16 curtains.

Detailed Description

The embodiment of the invention provides a window shielding mechanism for preventing sunshine dazzling in a learning process, which comprises a window frame 1, wherein a sliding rod 2 is welded at the top of the front side of the window frame 1, as shown in figures 1-8. The slide bar 2 is slidably fitted with a plurality of hooks 3. The front of the window frame 1 is provided with a curtain 16, and the lower end of the hook 3 is fixedly arranged with the top of the curtain 16.

Two glass windows 4 are fixedly arranged in the window frame 1, a transverse bin 5 is fixedly embedded at the top of the back of the window frame 1, and a sliding groove 10 is formed in the top of the window frame 1. The sliding groove 10 is in sliding fit with a deflector rod 7, the upper end of the deflector rod 7 extends to the front side of the window frame 1, and the lower end of the deflector rod 7 is in sliding fit with the transverse bin 5. The lower end of the deflector rod 7 extends into the transverse bin 5. The fixed side of the curtain 16 is fixedly bonded with the window frame 1, and the hook 3 positioned at the most fixed side of the curtain 16 is contacted with the deflector rod 7. A driving component for pushing the deflector rod 7 to move is arranged in the transverse bin 5.

The rear end of the transverse bin 5 is close to the fixed side of the curtain 16, a motor 51 is welded in the rear end of the transverse bin 5, and a first control module 55 is arranged above the motor 51. The first control module 55 is welded with the inner wall of the transverse bin 5.

A photoresistor module 8 and a heating module 9 are fixedly arranged in the front end of the transverse bin 5. A fixing ring 53 is welded on one side of the heating module 9, a string 52 is fixedly bound on a transmission shaft of the motor 51, and one end, far away from the motor 51, of the string 52 penetrates through the fixing ring 53 and is fixedly bound with the lower end of the shifting rod 7. A rubber band 54 is fixedly bound between the lower end of the shift lever 7 and the inner wall of the rear end of the transverse bin 5. The rubber band 54 plays a role of dragging the deflector rod 7 to reset.

The transverse bin 5 is made of transparent plastic, and the area of the transverse bin 5 corresponding to the photoresistor module 8 is transparent. Other areas are painted for shading. During operation, sunshine penetrates through the transparent area and irradiates on the photosensitive resistor module 8, and the resistance value of the photosensitive resistor module 8 is reduced along with the increase of the sunshine. When the resistance is reduced to a preset value, the first control module 55 controls the motor 51 to wind the string 52, the string 52 drags the shift lever 7 to move, and the shift lever 7 drives the hook 3 to unfold the curtain 16, so that the curtain can shield the sunlight.

The front surface of the window frame 1 is fixedly provided with a vertical bin 6, and the vertical bin 6 is positioned below the front end of the transverse bin 5. A stainless steel tube 61 with the upper end and the lower end being closed is fixedly arranged in the vertical bin 6, a sliding block 63 is in sliding fit with the stainless steel tube 61, and alcohol 611 is injected into the stainless steel tube 61. The stainless steel tube 61 is matched with the alcohol 611 through the slide block 63 to form the alcohol thermometer.

Erect storehouse 6 internal fixed mounting and have the singlechip, stainless steel pipe 61 inner wall top fixed mounting has touch switch 64, touch switch 64 and singlechip electric connection. The bottom of the heating module 9 is fixedly provided with a heat conducting rod 62, and the lower end of the heat conducting rod 62 penetrates through the vertical bin 6 and extends into the stainless steel pipe 61.

The alcohol 611 occupies two thirds of the volume of the stainless steel pipe 61. When the solar photovoltaic power generation device works, the resistance value of the photosensitive resistor module 8 is reduced along with the increase of sunlight. The resistance value decreases and the current passing through increases, and when the current increases to a certain extent, the heater module 9 starts operating. The heating module 9 heats and raises the temperature, the heat conducting rod 62 transfers the temperature to the alcohol 611, the alcohol 611 is heated and rises to push the sliding block 63 to move towards the touch switch 64, the single chip microcomputer transfers the signal to the first control module 55 after the sliding block 63 touches the touch switch 64, and the first control module 55 controls the motor 51 to work.

When the light is weakened, the resistance value is increased, the heating module 9 is not operated, and the slider 63 slides down and is not in contact with the touch switch 64. When the control module I55 receives the signal to signal the motor 51 to stop working, the rubber band 54 pulls the shift lever 7 back to the original position.

The transverse bin 5 and the vertical bin 6 are both fixedly provided with batteries, and the principle can be realized because the voltage is not changed.

A sealing coating is coated between the edges of the two glass windows 4 and the window frame 1. A gap of 1 cm is present between the two glazings 4.

The gap is internally vacuum, a groove 11 is formed in the bottom of the inner side of the window frame 1 and in the gap, and a pressure measuring module 12 and a second control module 13 are fixedly mounted in the groove 11. A compression tank 14 is fixedly arranged in the groove 11, an air pump is fixedly arranged at one end of the compression tank 14, and an electronic valve 15 is fixedly arranged on the air pump. The second control module 13 is electrically connected with the pressure measuring module 12, the electronic valve 15 and the air pump respectively, and ozone is stored in the compression tank 14.

The second control module 13 is in telecommunication connection with the first control module 55, when the first control module 55 starts the motor 51, a signal is transmitted to the second control module 13, the second control module 13 opens the electronic valve 15, and the air pump discharges ozone. Since ozone turns blue, it can serve the purpose of blocking the penetration of sunlight when ozone fills the entire gap.

The pressure measuring module 12 is used for detecting whether the gap is in vacuum or not, the pressure value is unchanged in a vacuum environment, when the sealing between the window 4 and the frame fails, the pressure value changes, the second control module 13 controls the electronic valve 15 to be locked, and at the moment, even if the motor 51 works, the electronic valve 15 cannot be opened. Thereby avoiding ozone leakage.

To sum up, the window shielding mechanism for preventing sunshine dazzling in the learning process heats the alcohol 611 in the stainless steel pipe 61 through the cooperation of the motor 51, the string 52, the heating module 9 and the heat conducting rod 62 based on the principle that the resistance value of the photoresistor decreases along with the increase of the light intensity, so that the sliding block 63 is in contact with the touch switch 64, and the shift lever 7 is enabled to unfold the curtain 16. Therefore, the effect of automatically pulling the curtain to shield sunlight is realized. Then, the compression tank 14 and the electronic valve 15 are matched with the glass windows 4, and ozone is released in the closed space of the two glass windows 4, so that the shading effect is enhanced. Thereby avoiding the students from being interfered by the sunlight when studying in the classroom.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a window that is arranged in learning process to prevent sunshine dazzling shelters from mechanism which characterized in that: comprises a window frame (1), a slide bar (2) is connected with the top of the front surface of the window frame (1), a plurality of hooks (3) are matched with the slide bar (2) in a sliding way, the front of the window frame (1) is provided with a curtain (16), the lower end of the hook (3) is connected with the top of the curtain (16), two glass windows (4) are arranged in the window frame (1), the top of the back of the window frame (1) is embedded with a transverse bin (5), the top of the window frame (1) is provided with a sliding chute (10), the sliding chute (10) is in sliding fit with a deflector rod (7), the upper end of the deflector rod (7) extends to the front of the window frame (1), the lower end of the deflector rod (7) is in sliding fit with the transverse bin (5), the fixed side of the curtain (16) is connected with the window frame (1), the hook (3) positioned at the most part of the fixed side of the curtain (16) is contacted with the deflector rod (7), and a driving component for pushing the shifting rod (7) to move is arranged in the transverse bin (5).

2. The sun-glare proof window covering mechanism for use during learning of claim 1, wherein: violently storehouse (5) rear end is close to curtain (16) fixed side, is equipped with motor (51) in the horizontal storehouse (5) rear end, and motor (51) top is equipped with control module (55), be equipped with photo resistance module (8) and heating module (9) in horizontal storehouse (5) front end, heating module (9) one side is equipped with solid fixed ring (53), and motor (51) transmission shaft is connected with string (52), and motor (51) one end is kept away from in string (52) passes solid fixed ring (53) and is connected with driving lever (7) lower extreme, be connected with rubber band (54) between driving lever (7) lower extreme and horizontal storehouse (5) rear end inner wall.

3. The sun-glare proof window covering mechanism for learning use according to claim 2, wherein: the transverse bin (5) is transparent corresponding to the region of the photoresistor module (8), when sunlight penetrates through the transparent region and irradiates on the photoresistor module (8), the resistance value of the photoresistor module (8) is reduced along with the increase of the sunlight, when the resistance value is reduced to a preset value, the control module I (55) controls the motor (51) to wind the string (52), the string (52) drags the shifting rod (7) to move, and the shifting rod (7) drives the hook (3) to enable the curtain (16) to be unfolded.

4. A sun-glare proof window covering mechanism for use during learning according to claim 3, wherein: window frame (1) openly is equipped with perpendicular storehouse (6), erects storehouse (6) and is located horizontal storehouse (5) front end below, both ends confined stainless steel pipe (61) about being equipped with in perpendicular storehouse (6), sliding fit has slider (63) in stainless steel pipe (61), and it has alcohol (611) to annotate in stainless steel pipe (61), erects the storehouse and is equipped with the singlechip in (6), and stainless steel pipe (61) inner wall top is equipped with touch switch (64), touch switch (64) and singlechip electric connection, heating module (9) bottom is connected with heat conduction pole (62), and heat conduction pole (62) lower extreme passes and erects storehouse (6) and stretch into in stainless steel pipe (61).

5. The sun-glare proof window covering mechanism for learning use according to claim 4, wherein: alcohol (611) account for two-thirds of stainless steel pipe (61) volume, when photo resistance module (8) resistance reinforcing and reducing along with sunshine, heating module (9) begin to heat the intensification, heat conduction pole (62) give alcohol (611) with the temperature transfer, alcohol (611) are heated and rise and promote slider (63) and move towards touch switch (64), slider (63) and touch switch (64) back singlechip give control module (55) with the signal transmission, control module (55) control motor (51) work.

6. The sun-glare proof window covering mechanism for use during learning of claim 1, wherein: and a sealing coating is coated between the edges of the two glass windows (4) and the window frame (1), a gap exists between the two glass windows (4), and the gap distance is 1 cm.

7. The sun-glare proof window covering mechanism for use during learning of claim 6, wherein: the inside vacuum in gap, window frame (1) inboard bottom just is located the clearance and has seted up recess (11), is equipped with pressure measuring module (12) and control module two (13) in recess (11), and fixed mounting has compression jar (14) in recess (11), and compression jar (14) one end is equipped with the air pump, and the air pump is connected with electronic valve (15), control module two (13) respectively with pressure measuring module (12), electronic valve (15) and air pump electric connection, be stored with ozone in compression jar (14).