CN114815204B - Sunlight guiding irradiation device for smart home - Google Patents

Abstract

The application discloses a sunlight guiding irradiation device for intelligent home use, which comprises a collecting cover, wherein the top of the collecting cover is provided with a collecting component and an induction component, the induction component is arranged at the top of the collecting component, the collecting component comprises fixing rings, the fixing rings are symmetrically arranged, the two fixing rings are respectively arranged at the top of the collecting cover, sleeves are respectively inserted into the two fixing rings, one end of each sleeve, which is opposite, is provided with a first lens, the inside of each sleeve is fixedly connected with a crankshaft, the outer side wall of the collecting cover is provided with a driving component, the driving component is connected with the crankshaft, the induction component comprises an irradiation pipe, the irradiation pipe is arranged at the top of the first lens, the top of the irradiation pipe is provided with a convex lens, and the inside of the irradiation pipe is provided with a pressing plate.

Description

Sunlight guiding irradiation device for smart home

Technical Field

The application is applied to the background of intelligent home and the name is a sunlight guiding irradiation device for intelligent home.

Background

The intelligent home is embodied in an Internet of things manner under the influence of the Internet of things. The intelligent household is connected with various devices at home through the internet of things, multiple functions and means such as household appliance control, illumination control, curtain control, telephone remote control, indoor and outdoor remote control, anti-theft alarm, environment monitoring, heating ventilation control, infrared forwarding, programmable timing control and the like are provided, in order to achieve environment protection and energy saving, outdoor sunlight is guided to indoor irradiation by the sunlight guiding irradiation device, the indoor irradiation is led into by the existing sunlight guiding irradiation device after collecting sunlight through the sunlight collecting mechanism, an outer glass plate is arranged, sunlight is prevented from overflowing, sunlight is irradiated in the process, a certain angle exists between the collecting mechanism and the sunlight irradiation direction, so that a lighting position which cannot be directly irradiated by sunlight is always reserved in the collecting pot, lighting amount entering the collecting pot is reduced, meanwhile, the collecting mechanism can be influenced by external environment, a small amount of dust and impurities can be attached to the surface of the sunlight guiding irradiation device, the reflecting effect of the collecting pot is influenced, the sunlight guiding irradiation device for the intelligent household is necessary to provide, the lighting area can be increased, and the lighting effect is improved.

Disclosure of Invention

The application aims to provide a sunlight guiding irradiation device for intelligent home, which aims to solve the problems in the background technology.

In order to solve the technical problems, the application provides the following technical scheme: the utility model provides a sunshine guide irradiation device for smart home, includes the collection cover, the top of collecting the cover is provided with collection subassembly and response subassembly, response subassembly set up in collection subassembly top, collection subassembly includes solid fixed ring, gu fixed ring symmetry sets up, two gu fixed ring set up respectively in the top of collecting the cover, two gu fixed ring's inside has all been inserted and has been equipped with the sleeve pipe, two the relative one end of sleeve pipe is provided with first lens, one telescopic inside fixedly connected with bent axle, the lateral wall of collecting the cover is provided with drive assembly, drive assembly with the one end fixed connection of bent axle.

In one embodiment, the sensing assembly comprises an irradiation tube, the irradiation tube is mounted on the top of the first lens, the convex lens is mounted on the top of the irradiation tube, a pressing plate is arranged in the irradiation tube, springs are uniformly arranged between the bottom of the pressing plate and the bottom of the irradiation tube, and a sensing switch is mounted on the bottom of the pressing plate.

In one embodiment, the driving assembly comprises a fixed pipe, the fixed pipe is mounted on the outer side wall of the collecting cover, a fixed plate is fixedly connected to the outer side wall of the fixed pipe, a motor is mounted on the top of the fixed plate, a driving gear is mounted at the output end of the motor, a driven gear is arranged on one side of the fixed plate, the driving gear is meshed with the driven gear, and one end of the crankshaft is fixedly connected to one side of the driven gear.

In one embodiment, the inside of collecting the cover is provided with dust removal subassembly, dust removal subassembly includes the tray, the tray is located the inside of collecting the cover, pressure sensor is installed to the bottom of tray, the lateral wall of first lens is provided with the sealing washer.

In one embodiment, the inside of the collecting cover is provided with a groove, the tray is located inside the groove, and the top of the tray and the top of the groove are both provided with rubber layers.

In one embodiment, the inside of collecting cover is provided with the interception subassembly, the interception subassembly includes one-way glass, two fixed slots are installed to one-way glass's lateral wall, two the fixed slot is kept away from one end of one-way glass is fixedly connected with inserted bar respectively, the inserted bar is kept away from the one end of fixed slot is inserted and is located sheathed tube inside.

In one embodiment, the bottom of the collecting cover is communicated with a guide tube, and a second lens is installed inside the guide tube.

In one embodiment, the end of the guide tube remote from the collection hood is fitted with a reflector.

Compared with the prior art, the application has the following beneficial effects: in the present application, the number of the components,

(1) Through being provided with first lens, response subassembly is responded to the irradiation angle of outside sunshine, control drive assembly starts after sensing the sunshine irradiation angle, drive assembly drives bent axle and sleeve pipe and rotates in solid fixed ring's inside, the sleeve pipe drives first lens and rotates, make first lens shift out from collecting cover's inside, response subassembly is just to sunshine irradiation angle, make first lens fully accept sunshine and shine, with sunshine gathering and shining the inside of collecting cover behind the first lens daylighting, response subassembly and drive assembly cooperation simultaneously, thereby can be according to the irradiation angle adjustment of sunshine, the daylighting area has been increased, the effect of daylighting is improved.

(2) Through being provided with the tray, when first lens passes through drive assembly angle regulation, first lens drives the sealing washer and scrapes at the inner wall of collecting the cover to clear up the dust of collecting the cover inner wall, when the dust that piles up in the tray piles up too much, the output of motor drives driving gear rotation a week, and driving gear drives driven gear reverse rotation a week, and driven gear drives first lens and sealing washer rotation, thereby release the dust in the tray, avoid external dust to get into the inside of collecting the cover and influence first lens and collect the daylighting work of cover.

(3) Through being provided with the second lens, sunshine can get into the inside of guide pipe again after the inside continuous reflection of collecting cover reflects, and the sunshine that reflects to the guide pipe can evenly scatter indoor through the second lens, increases the irradiation range that sunshine guide was shone.

Drawings

The technical solution and other advantageous effects of the present application will be made apparent by the following detailed description of the specific embodiments of the present application with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present application;

FIG. 2 is a schematic view of a first lens and collection cover connection structure of the present application;

FIG. 3 is a schematic view of the present application in cross-section;

FIG. 4 is a schematic view of the cross-sectional structure of an illumination tube of the present application;

in the figure: 1. a collection cover; 2. a collection assembly; 201. a fixing ring; 202. a sleeve; 203. a crankshaft; 204. a first lens; 21. an induction assembly; 211. an irradiation tube; 212. a convex lens; 213. a pressing plate; 214. an inductive switch; 215. a spring; 3. a dust removal assembly; 301. a seal ring; 302. a groove; 303. a tray; 304. a pressure sensor; 305. a rubber layer; 4. an interception component; 401. unidirectional glass; 402. a fixing groove; 403. a rod; 5. a drive assembly; 501. a fixed tube; 502. a fixing plate; 503. a motor; 504. a drive gear; 505. a driven gear; 6. a guide tube; 7. a reflector; 8. and a second lens.

Detailed Description

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

Example 1

Referring to fig. 1-4, the present application provides the following technical solutions: the sunlight guiding irradiation device for smart home comprises a collecting cover 1, wherein a collecting assembly 2 and an induction assembly 21 are arranged at the top of the collecting cover 1, the induction assembly 21 is arranged at the top of the collecting assembly 2, the collecting assembly 2 comprises fixing rings 201, the fixing rings 201 are symmetrically arranged, the two fixing rings 201 are respectively arranged at the top of the collecting cover 1, sleeves 202 are respectively inserted into the two fixing rings 201, a first lens 204 is arranged at one end opposite to the two sleeves 202, a crankshaft 203 is fixedly connected to the inside of one sleeve 202, a driving assembly 5 is arranged on the outer side wall of the collecting cover 1, the driving assembly 5 is fixedly connected with one end of the crankshaft 203, the collecting cover 1 is placed at a working place for use, in an initial state, a worker manually controls the driving assembly 5 to start through a controller, the driving assembly 5 drives the crankshaft 203 to rotate, the crankshaft 203 drives the sleeves 202 and the first lens 204 to rotate, the first lens 204 is moved out of the collecting cover 1, the sensing component 21 senses the irradiation angle of external sunlight, the sensing component 21 is electrically connected with the driving component 5, the driving component 5 is controlled to start after the irradiation angle of the sunlight is sensed, the driving component 5 drives the crankshaft 203 and the sleeve 202 to rotate in the fixed ring 201, the fixed ring 201 plays an axial limiting role when the sleeve 202 and the crankshaft 203 rotate, the sleeve 202 drives the first lens 204 to rotate, the first lens 204 is moved out of the collecting cover 1, the driving component 5 drives the first lens 204 to slowly rotate, the sensing component 21 senses the irradiation angle of the sunlight in real time, the sensing component 21 controls the driving component 5 to stop when the sensing component 21 senses the irradiation of the sunlight, the sunlight fully irradiates the first lens 204, the sunlight is collected and irradiated into the collecting cover 1 after the first lens 204 collects light, when the sunlight irradiates and deviates, the induction component 21 controls the driving component 5 to start again, the driving component 5 drives the first lens 204 to rotate slowly again, and the induction component 21 induces the irradiation of the sunlight again, so that the first lens 204 can be adjusted according to the irradiation angle of the sunlight, the lighting area is increased, and the lighting effect is improved;

the induction component 21 comprises an irradiation tube 211, the irradiation tube 211 is arranged on the top of the first lens 204, a convex lens 212 is arranged on the top of the irradiation tube 211, a pressing plate 213 is arranged in the irradiation tube 211, springs 215 are uniformly arranged between the bottom of the pressing plate 213 and the bottom of the irradiation tube 211, an induction switch 214 is arranged on the bottom of the pressing plate 213, when the induction switch 214 is pressed, a circuit is in an off state, the circuit is electrified for 1 second each time when the induction switch 214 is not pressed, then the induction switch 214 is controlled to be immediately powered off, the circuit is reciprocated, the convex lens 212 is positioned on the top of the irradiation tube 211, mercury is filled between the convex lens 212 and the pressing plate 213, sunlight is gathered and irradiates the mercury, the mercury is heated to expand and drive the pressing plate 213 and the induction switch 214 to move, the induction switch 214 is pressed on the bottom of the irradiation tube 211, meanwhile, the pressing plate 213 presses the springs 215, the induction switch 214 controls the circuit of the driving component 5 to be powered off, when the sunlight irradiation angle is offset again, the convex lens 212 cannot gather sunlight, the temperature is reduced, the elastic force of the springs 215 pushes the pressing plate 213 and the induction switch 214 to move upwards, the induction switch 214 is stopped, the circuit is immediately powered off when the circuit is pressed again, the circuit 1 is stopped, and the circuit is immediately powered off when the circuit is pressed again, the circuit 1 is adjusted to be immediately powered off, and the driving component 1 is started again;

the driving assembly 5 comprises a fixed pipe 501, the fixed pipe 501 is arranged on the outer side wall of the collecting cover 1, the outer side wall of the fixed pipe 501 is fixedly connected with a fixed plate 502, a motor 503 is arranged at the top of the fixed plate 502, a driving gear 504 is arranged at the output end of the motor 503, a driven gear 505 is arranged at one side of the fixed plate 502, the driving gear 504 is meshed with the driven gear 505, one end of a crankshaft 203 is fixedly connected with one side of the driven gear 505, the inductive switch 214 controls the driving assembly 5 to start or stop, when the angle of the driving assembly 5 is adjusted to the first lens 204, the motor 503 is electrified, the output end of the motor 503 drives the driving gear 504 to rotate anticlockwise, and when the driving gear 504 rotates, the driven gear 505 rotates clockwise, the driven gear 505 drives the crankshaft 203 to rotate, and the crankshaft 203 drives the sleeve 202 and the first lens 204 to rotate, and the moving direction of the first lens 204 is consistent with the moving direction of the sun, so that the lighting angle of the first lens 204 is adjusted;

the inside of the collecting cover 1 is provided with an interception component 4, the interception component 4 comprises one-way glass 401, two fixing grooves 402 are arranged on the outer side wall of the one-way glass 401, one ends of the two fixing grooves 402, which are far away from the one-way glass 401, are respectively fixedly connected with an inserting rod 403, one ends of the inserting rods 403, which are far away from the fixing grooves 402, are inserted into the inside of the sleeve 202, the one-way glass 401 is transparent, the one-way glass 401 is arranged in the collecting cover 1, and is positioned through the matching of the fixing grooves 402 and the inserting rods 403, when sunlight irradiates the inside of the collecting cover 1 through the first lens 204, part of sunlight passes through the transparent surface of the one-way glass 401, the sunlight reflected by the collecting cover 1 falls onto the reflecting surface of the one-way glass 401, and the reflecting surface of the one-way glass 401 reflects the sunlight back onto the collecting cover 1 again, so that the sunlight is prevented from scattering to the outside;

the bottom of the collecting cover 1 is communicated with a guide pipe 6, a second lens 8 is arranged in the guide pipe 6, sunlight can enter the guide pipe 6 to be reflected again after being continuously reflected in the collecting cover 1, and the sunlight reflected into the guide pipe 6 can be uniformly scattered into a room through the second lens 8;

the reflector 7 is installed to the one end that guide pipe 6 kept away from collection cover 1, and the sunshine that passes through second lens 8 scattering can concentrate through reflector 7, and reflector 7 limits the scope of sunshine scattering, avoids the great luminance that influences sunshine of sunshine scattering scope.

Example two

Referring to fig. 1-3, a dust removing component 3 is disposed in a collecting cover 1, the dust removing component 3 includes a tray 303, the tray 303 is located in the collecting cover 1, a pressure sensor 304 is mounted at the bottom of the tray 303, a sealing ring 301 is disposed on the outer side wall of a first lens 204, when the first lens 204 adjusts an angle through a driving component 5, the first lens 204 drives the sealing ring 301 to scrape the inner wall of the collecting cover 1, so that dust on the inner wall of the collecting cover 1 is cleaned, when the dust enters the collecting cover 1, the tray 303 carries the dust, meanwhile, the tray 303 is transparent glass, reflection guide of sunlight in the collecting cover 1 is not affected, the pressure sensor 304 monitors the weight of the dust, when the accumulated dust in the tray 303 reaches a certain amount, the pressure sensor 304 transmits data to a controller, the controller controls a motor 503, an output end of the motor 503 drives a driving gear 504 to rotate for one circle, the driving gear 504 is meshed with a driven gear 505, and when the driving gear 504 rotates, the driving gear 504 drives the driven gear 505 to rotate, and drives the driven gear 505 to rotate for one circle, and drives the driven gear 505 to rotate for driving gear 203 and the driven gear 505 to rotate for driving the driven gear 204 to rotate for driving the driven gear 505, and simultaneously, and the driven gear 203 is driven by a reset gear 203 rotates for driving the driven gear 204 to rotate for the driven gear 204 to rotate, and the first lens 204 is driven by the driven gear 204 is driven to rotate, and the first sleeve is driven by the driven to rotate, and the driven gear is continuously, and the driven gear is driven by the driven gear is driven, and accumulated;

the inside of collecting cover 1 has seted up recess 302, tray 303 is located the inside of recess 302, the top of tray 303 and the top of recess 302 all are provided with rubber layer 305, tray 303 is placed in the inside of recess 302, thereby hide tray 303, when avoiding first lens 204 to drive sealing washer 301 to collect the dust clearance in the cover 1, tray 303 influences first lens 204 and sealing washer 301 and rotates, set up rubber layer 305 at the top of tray 303 and the top of recess 302, rubber layer 305 can pack the gap between the top of tray 303 and the top of recess 302, avoid the dust to get into in the recess 302.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically connected, electrically connected or can be communicated with each other; may be directly connected, may be in communication with the interior of two elements or may be in interaction with two elements. It will be understood by those of ordinary skill in the art that the above terms are in the present application as the case may be.

The sunlight guiding irradiation device for smart home provided by the embodiment of the present application is described in detail, and specific examples are applied to illustrate the principle and implementation of the present application, and the description of the above embodiment is only used to help understand the technical scheme and core idea of the present application; those of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (4)

1. Sunlight guiding irradiation device for smart home comprises a collecting cover (1), and is characterized in that: the top of collecting cover (1) is provided with collecting assembly (2) and response subassembly (21), response subassembly (21) set up in collecting assembly (2) top, collecting assembly (2) include solid fixed ring (201), gu fixed ring (201) symmetry set up, two gu fixed ring (201) set up respectively in collecting cover (1) top, two gu the inside of fixed ring (201) has all been inserted sleeve pipe (202), two sleeve pipe (202) relative one end is provided with first lens (204), one sleeve pipe (202) inside fixedly connected with bent axle (203), collecting cover (1) lateral wall is provided with drive assembly (5), drive assembly (5) with one end fixed connection of bent axle (203); the induction component (21) comprises an irradiation tube (211), the irradiation tube (211) is arranged at the top of the first lens (204), a convex lens (212) is arranged at the top of the irradiation tube (211), a pressing plate (213) is arranged in the irradiation tube (211), springs (215) are uniformly arranged between the bottom of the pressing plate (213) and the bottom of the irradiation tube (211), and an induction switch (214) is arranged at the bottom of the pressing plate (213); the driving assembly (5) comprises a fixed pipe (501), the fixed pipe (501) is arranged on the outer side wall of the collecting cover (1), a fixed plate (502) is fixedly connected to the outer side wall of the fixed pipe (501), a motor (503) is arranged at the top of the fixed plate (502), a driving gear (504) is arranged at the output end of the motor (503), a driven gear (505) is arranged on one side of the fixed plate (502), the driving gear (504) is meshed with the driven gear (505), and one end of the crankshaft (203) is fixedly connected to one side of the driven gear (505); the dust collection device is characterized in that a dust collection assembly (3) is arranged in the collection cover (1), the dust collection assembly (3) comprises a tray (303), the tray (303) is located in the collection cover (1), a pressure sensor (304) is arranged at the bottom of the tray (303), and a sealing ring (301) is arranged on the outer side wall of the first lens (204); the inside of collecting cover (1) is offered flutedly (302), tray (303) are located the inside of recess (302), the top of tray (303) with the top of recess (302) all is provided with rubber layer (305).

2. The intelligent household sunlight guiding irradiation apparatus as claimed in claim 1, wherein: the inside of collecting cover (1) is provided with interception subassembly (4), interception subassembly (4) are including unidirectional glass (401), two fixed slots (402) are installed to the lateral wall of unidirectional glass (401), two fixed slot (402) are kept away from the one end of unidirectional glass (401) is fixedly connected with inserted bar (403) respectively, inserted bar (403) are kept away from the one end of fixed slot (402) is inserted and is located the inside of sleeve pipe (202).

3. The intelligent household sunlight guiding irradiation apparatus as claimed in claim 2, wherein: the bottom of collection cover (1) is linked together there is guide tube (6), the internally mounted of guide tube (6) has second lens (8).

4. A sunlight guiding irradiation apparatus for smart home as defined in claim 3, wherein: one end of the guide pipe (6) far away from the collecting cover (1) is provided with a reflecting cover (7).