CN112161249A

CN112161249A - Energy-saving lighting device for house building

Info

Publication number: CN112161249A
Application number: CN202011082202.7A
Authority: CN
Inventors: 朱传军
Original assignee: Lu'an Yifengyu Information Technology Co ltd
Current assignee: Lu'an Yifengyu Information Technology Co ltd
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-01-01

Abstract

The invention discloses an energy-saving lighting device for house buildings, which comprises a lighting box buried on the ground of a balcony and a lighting plate arranged outside a window, wherein a diffuse reflection plane mirror is bonded on the bottom surface inside the lighting box, toughened glass with a shielding effect is clamped at the top port of the lighting box, a plurality of solar panels are arranged at two ends of the wide edge of the lighting box, the lower parts of the plurality of solar panels at each end are electrically connected with a storage battery through conducting wires, the lighting plate is in an arc-shaped panel structure, a diffuse reflection arc-shaped mirror in an arc-shaped structure is bonded on the top surface of the lighting plate, and a movable frame capable of adjusting the outward extension and deflection of the lighting plate is arranged below the middle part of the lighting plate. The invention embeds the lighting box on the balcony ground and installs the lighting board outside the window, the diffuse reflection plane mirror and the diffuse reflection arc-shaped mirror inside the lighting box and the window can diffuse the outdoor light to the indoor ceiling, refract and scatter downwards, so that the indoor is bright, the power consumption cost is saved, and the building energy saving is facilitated.

Description

Energy-saving lighting device for house building

Technical Field

The invention relates to the technical field of building lighting, in particular to an energy-saving lighting device for house buildings.

Background

Along with the development of cities and in order to satisfy the demand that people live in big rooms, the area of housing construction is built more greatly, because the influence of the land area of house type design, the problem that house daylighting is incomplete can inevitably appear, some keep away from the inner room of balcony and window, its light is darker under the condition of not turning on the light, turn on the light then increase the power cost.

Disclosure of Invention

The invention aims to provide an energy-saving lighting device for house buildings, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides an energy-saving lighting device for a house building, which comprises a lighting box buried on a balcony ground and a lighting plate arranged outside a window, wherein the lighting box is of a rectangular hollow structure, the top end of the lighting box is open, a diffuse reflection plane mirror is bonded on the bottom surface inside the lighting box, LED lamp strips are symmetrically bonded on two sides of the long edge of the lighting box, tempered glass with a shielding effect is clamped at the top end of the lighting box, a water scraping mechanism for removing water drops on the bottom surface of the tempered glass is arranged below the tempered glass, a plurality of solar cell panels are mounted at two ends of the wide edge of the lighting box, a storage battery is electrically connected below the plurality of solar cell panels at each end through a lead, the water scraping mechanism comprises a water collecting strip which slides along the bottom surface of the tempered glass and a water scraping electric motor for driving the water collecting strip to move, the water collecting strip is of a hollow rectangular structure, water inlets are symmetrically formed in two sides of the top of, a drainage mechanism is arranged in one end of the water collecting strip, water leaking ports are symmetrically formed in the bottom surface of one end of the water collecting strip, pipe holes are symmetrically formed in two ends of the wide side of the lighting box, water leaking pipes and water leading pipes are inserted in the two pipe holes respectively, water inlet ports of the water leaking pipes and the water leading pipes are located right below the two water leaking ports respectively, the drainage mechanism comprises a supporting cylinder transversely arranged in the water collecting strip, water plugging blocks symmetrically arranged below the supporting cylinder and used for plugging the water leaking ports, and drainage columns inserted at two ends of the supporting cylinder and used for driving the water plugging blocks to rotate;

the daylighting panel is in a circular arc panel structure, the top surface of the daylighting panel is bonded with a diffuse reflection cambered mirror in a circular arc structure, a movable frame is arranged below the middle part of the daylighting panel, the movable frame comprises a clamping block fixed on a window frame, a movable supporting rod arranged at one side of the clamping block and a swinging rod arranged at the top end of the supporting rod and used for driving the daylighting panel to swing, one side of the top of the clamping block is provided with a square sleeve, the top of the outer end of the sleeve is provided with a boss communicated with the inside of the sleeve, a displacement electric motor for driving the supporting rod to move is arranged at one end of the boss, a swinging electric motor for driving the swinging rod to swing is arranged in the middle of the bottom surface of the swinging rod, an energy storage box is fixed on one side of the vertical section of the supporting rod through a bolt, a solar cell panel is embedded in a groove in the top surface of the energy storage box, and a storage battery is placed in the energy storage box.

As a further improvement of the technical scheme, the width of the water collection strip is equal to the inner width of the lighting box, the bottoms of the two ends of the water collection strip are provided with supporting blocks, the middle part of the side surface of each supporting block is provided with a threaded hole, one end of an output shaft of the water scraping electric motor is coaxially connected with a lead screw, the lead screw is in threaded connection with the threaded hole, and the other end of the lead screw is embedded in the inner wall of the lighting box and can rotate.

As a further improvement of this technical scheme, the spring has been placed for sealing in form and both ends in the middle part of a support section of thick bamboo, the radial bilateral symmetry of drainage post is planar, and wherein is equipped with a plurality of racks on the plane of one side, inner wall one side of a support section of thick bamboo be equipped with the convex surface of drainage post opposite side plane joint, the outer wall symmetry of a support section of thick bamboo is equipped with the siphunculus rather than inside being linked together, the siphunculus is located radially opposite of support section of thick bamboo inner wall convex surface, one side of water shutoff piece vertical be equipped with the stand that the siphunculus was pegged graft, the top outside of stand seted up with a plurality of tooth-shaped grooves of rack toothing, the top and the middle part of.

As a further improvement of the technical scheme, the water leakage pipe comprises a vertical section, an anti-backflow section connected to the bottom end of the vertical section and a downward-inclined section connected to the other end of the anti-backflow section, the anti-backflow section is of a V-shaped structure, and the water guide pipe is of a downward-inclined shape, and the starting end of the water guide pipe is bent into a water receiving pipe with the same structure as the water leakage pipe.

As a further improvement of the technical scheme, the middle parts of two inner sides of the wide side of the lighting box are respectively provided with a separating table in a horizontal shape, the outer side of the separating table is vertically provided with a flange, the solar cell panel is connected with the separating table and between the flanges, and the corners and the middle parts of the wide side of the diffuse reflection plane mirror are respectively provided with an avoiding port.

As a further improvement of the technical scheme, the clamping grooves are symmetrically formed in the bottom surface of the toughened glass along the width direction of the toughened glass and connected with the flanges in a clamped mode, and the sealing ring is bonded to the outer side edge of the toughened glass.

As a further improvement of this technical scheme, the rear end of plane skylight is equipped with the picture peg that is the L type, the bottom middle part of picture peg is equipped with the inserted block that is the square structure, the slot that is the type of calligraphy is seted up to the inside of swinging arms, and two notches of slot run through respectively the long limit both ends face of swinging arms, the bottom of picture peg with the inserted block with the slot cooperation of pegging graft.

As a further improvement of this technical scheme, the shrinkage pool has been seted up at the both ends of inserted block, the both ends of swinging arms seted up with the hole of shrinkage pool coaxial line, it has pressure spring and cylindric lock to peg graft in proper order to the inside of hole, the cylindric lock with the shrinkage pool is pegged graft, the corner of inserted block is provided with the oblique angle, the shrinkage pool is provided with the oblique angle towards the edge of oblique angle direction, the both ends of cylindric lock are circular-arcly.

As a further improvement of the technical scheme, an output shaft of the displacement electric motor is coaxially connected with a tooth column, the support rod is L-shaped, the top surface of the horizontal section of the support rod is provided with a plurality of conical teeth, the tooth column is meshed with the plurality of conical teeth, the top end of the vertical section of the support rod is hinged with a cylindrical protrusion in the middle of the bottom surface of the oscillating rod, and the output shaft of the oscillating electric motor is coaxially connected with the cylindrical protrusion of the oscillating rod.

As a further improvement of the technical scheme, the positive wires of the wiper electric motor, the shift electric motor and the swing electric motor are electrically connected with infrared switches, the wiper electric motor is electrically connected with the solar cell panel and the storage battery electrifying wire in the lighting box, and the shift electric motor and the swing electric motor are connected with the solar cell panel and the storage battery electrifying wire in the energy storage box in parallel.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the energy-saving daylighting method for the building, the daylighting box is buried on the balcony ground, the diffuse reflection plane mirror in the daylighting box can diffusely reflect outdoor light to an indoor ceiling, refracts the outdoor light and scatters the outdoor light downwards, so that the indoor light is bright, the power consumption cost is saved, and the energy saving of the building is facilitated.

2. According to the energy-saving daylighting method for the building, the daylighting plate is arranged outside the window, the diffuse reflection cambered mirror on the top surface of the daylighting plate can converge light indoors, disperse the light on a ceiling, refract the light again and scatter the light downwards, and then the light illuminates the room, so that the electricity cost is further reduced, and the energy-saving daylighting method is energy-saving and environment-friendly.

3. According to the energy-saving daylighting method for the building, the water drops generated in the toughened glass at the top end of the daylighting box can be removed through the water scraping mechanism arranged in the daylighting box, the water drops are prevented from being gathered to change the direction of light, the high reflectivity of the diffuse reflection plane mirror is guaranteed, the operation is convenient and trouble-saving through remote control, the labor is saved, and the practicability is high.

4. In the energy-saving daylighting method for the building, the movable frame is arranged below the daylighting plate and used for controlling and adjusting the inclination angle of the daylighting plate and the vacant position away from the window, so that the daylighting plate smoothly reflects light indoors, the operation is convenient and trouble-saving through remote control, manpower is saved, and the building is easy to popularize.

Drawings

FIG. 1 is a schematic view of the entire structure of a lighting box according to embodiment 1;

FIG. 2 is a schematic view of an internal assembly structure of the light box according to embodiment 1;

FIG. 3 is a schematic view of the structure of a tempered glass of example 1;

FIG. 4 is a schematic structural view of a lighting box according to embodiment 1;

FIG. 5 is a schematic view of the diffuse reflection plane mirror structure of example 1;

fig. 6 is a schematic diagram of a solar cell panel structure according to embodiment 1;

FIG. 7 is a schematic view showing an assembly structure of the lighting box, the water leakage pipe and the water guide pipe according to embodiment 1;

fig. 8 is a schematic view of an overall structure of a wiper mechanism according to embodiment 1;

fig. 9 is a partially exploded view of the wiper mechanism of embodiment 1;

FIG. 10 is one of the partial sectional views of the water collecting strip of embodiment 1;

FIG. 11 is a second partial cross-sectional view of the water-collecting strip of example 1;

fig. 12 is a schematic view of an assembly structure of the waterproofing mechanism of embodiment 1;

fig. 13 is an exploded view of the waterproofing mechanism of embodiment 1;

FIG. 14 is a schematic view of the structure of a water leakage pipe according to embodiment 1;

FIG. 15 is a schematic structural view of a penstock of embodiment 1;

fig. 16 is one of the overall structural diagrams of the plane skylight of embodiment 1;

fig. 17 is a second schematic view of the whole structure of the plane skylight of embodiment 1;

fig. 18 is a partial structural view of the plane skylight of example 1;

FIG. 19 is a partially exploded view of the movable frame of embodiment 1;

FIG. 20 is a schematic view showing a support bar structure according to embodiment 1;

FIG. 21 is a schematic view of an assembly structure of a rocking lever according to embodiment 1;

FIG. 22 is a partial structural view of the rocking beam according to embodiment 1;

FIG. 23 is a schematic structural view of an energy storage case according to embodiment 1;

fig. 24 is a configuration diagram of an electric motor control circuit of the lighting device according to embodiment 1.

The various reference numbers in the figures mean:

100. a lighting box; 101. separating the platform; 102. blocking edges; 103. a tube hole; 104. a water leakage pipe; 1040. a backflow prevention section; 105. a water conduit; 1050. a water receiving pipe;

110. a diffuse reflection plane mirror; 111. avoiding the mouth; 120. an LED light strip;

130. a wiper mechanism; 131. a water collection strip; 1310. a water inlet; 1311. a support block; 1312. a threaded hole; 1313. a water leakage port; 132. a wiper electric motor; 133. a screw rod;

134. a drainage mechanism; 135. a support cylinder; 1350. pipe passing; 136. a water drainage column; 1360. a rack; 1361. a spring; 137. a water plugging block; 1370. a column; 1371. a toothed groove; 1372. a limiting table;

140. a solar panel; 141. a storage battery; 150. tempering the glass; 151. a card slot; 152. a seal ring;

200. a daylighting panel; 201. inserting plates; 202. inserting a block; 203. concave holes;

210. a diffuse reflective curved mirror;

220. a movable frame; 221. a clamping block; 2210. a sleeve; 2211. a boss; 222. a displacement electric motor; 2220. a tooth post; 223. a support bar; 2230. a tapered tooth; 224. a swing lever; 2240. a slot; 2241. an inner bore; 2242. a cylindrical pin; 2243. a pressure spring; 2244. a swing electric motor;

230. an energy storage box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 24, the present invention provides an energy saving lighting device for a house building, which includes a lighting box 100 buried on a balcony floor and a lighting panel 200 installed outside a window. The lighting box 100 is of a cuboid hollow structure and is provided with an opening at the top end, and the diffuse reflection plane mirror 110 is bonded on the bottom surface inside the lighting box 100, namely the surface of the mirror surface is uneven, so that reflected light rays generate multidirectional scattering, and the light rays are favorably scattered and illuminated. The LED strips 120 are symmetrically adhered to both sides of the long side of the lighting box 100, and can emit light to illuminate after being electrified, so that the lighting on a balcony can be replaced, and the lighting can be performed at night. The top port of the lighting box 100 is clamped with toughened glass 150 with a shielding effect, the internal structure of the lighting box 100 is protected, and the lighting box is transparent and is beneficial to light penetration.

Further, a wiper mechanism 130 for removing water drops on the bottom surface of the tempered glass 150 is arranged below the tempered glass 150, so that the inner surface of the tempered glass 150 is prevented from being liquefied to generate water drops due to the alternate temperature difference between day and night, and the transmission and reflection of light rays are prevented from being influenced. A plurality of solar cell panels 140 are installed at the broadside both ends of lighting box 100, and there is battery 141 below a plurality of solar cell panels 140 of each end through wire electric connection to carry out the electric power storage reserve, need not to use the building power consumption. The wiper mechanism 130 includes a water collection bar 131 sliding against the bottom surface of the tempered glass 150 and a wiper electric motor 132 driving the water collection bar 131 to move. The water collecting strip 131 is of a hollow cuboid structure, water inlets 1310 are symmetrically formed in the two sides of the top of the water collecting strip, and water drops enter the water collecting strip 131 through the water inlets 1310 to be collected. A drainage mechanism 134 is provided inside one end of the water collection strip 131 for draining water collected inside the water collection strip 131. The bottom surface of one end of the water collecting strip 131 is symmetrically provided with water leaking holes 1313, the two ends of the wide edge of the lighting box 100 are symmetrically provided with pipe holes 103, the pipe holes 103 and the central axis of the water leaking holes 1313 are positioned on the same vertical plane, the water leaking pipe 104 and the water leading pipe 105 are respectively inserted in the two pipe holes 103, and the water inlet ports of the water leaking pipe 104 and the water leading pipe 105 are respectively positioned under the two water leaking holes 1313, so that water in the water collecting strip 131 is smoothly aligned and guided to flow into the water leaking pipe 104 and the water leading pipe 105 and then is guided to flow away from a floor drain on a balcony. The drainage mechanism 134 comprises a support cylinder 135 which is horizontally arranged inside the water collection strip 131, a water blocking block 137 which is symmetrically arranged below the support cylinder 135 and used for blocking the water leakage port 1313, and a drainage column 136 which is inserted at two ends of the support cylinder 135 and used for driving the water blocking block 137 to rotate, so that the water blocking block 137 is separated from the water leakage port 1313, accumulated water in the water collection strip 131 can be leaked out, and a silica gel pad is bonded at the center of the bottom surface of the water blocking block 137 and used for sealing and blocking the water leakage port 1313.

In this embodiment, the mirror surface of the diffuse reflection plane mirror 110 is plated with a silver layer, which can effectively collect light, refract the light indoors and maintain stable brightness, thereby greatly reducing glare and discomfort of general reflected light. Electrically connected has the infrared switch that the chip model is SFH506-38 on wiping electric motor 132's the anodal wire, and be furnished with the remote controller that the chip model is CMS5108, this chip remote controller can set up a plurality of buttons, can independently correspond an infrared switch, control the infrared switch outage that corresponds through the button, it all independently with the solar cell panel 140 in the lighting box 100 and the circular telegram wire electric connection of battery 141 to wipe electric motor 132 and LED lamp area 120, solar cell panel 140 receives illumination and stores the electricity in battery 141, and provide electric power for wiping electric motor 132, make it need not the building power consumption alright work, play energy-conserving effect.

Specifically, the width of the water collection strip 131 is equal to the inner width of the lighting box 100, so that the water collection strip 131 can completely scrape off water drops on the bottom surface of the toughened glass 150. The both ends bottom of catchment strip 131 is equipped with supporting shoe 1311, screw hole 1312 has been seted up at the side middle part of supporting shoe 1311, the output shaft one end coaxial coupling who scrapes water electric motor 132 has lead screw 133, lead screw 133 and screw hole 1312 threaded connection, the other end of lead screw 133 is inlayed and is located in the inner wall of daylighting case 100 and rotatable, it is rotatory to start to scrape water electric motor 132 drive lead screw 133, and then drive supporting shoe 1311 and catchment strip 131 and remove, scrape water to toughened glass 150 bottom surface, water just flows into the interior gathering of catchment strip 131 from water inlet 1310.

Furthermore, the middle part of the supporting cylinder 135 is closed, springs 1361 are placed in two ends of the supporting cylinder, two radial sides of the drainage column 136 are symmetrically planar, a plurality of racks 1360 are arranged on one side of the planar surface, and a convex surface clamped with the planar surface on the other side of the drainage column 136 is arranged on one side of the inner wall of the supporting cylinder 135, so that a limiting structure is formed, the drainage column 136 is prevented from rotating in the supporting cylinder 135, and the linear motion of the drainage column along the axis of the supporting cylinder is ensured. The outer wall symmetry of supporting a section of thick bamboo 135 is equipped with the siphunculus 1350 rather than inside being linked together, siphunculus 1350 is located the radial opposite of supporting a section of thick bamboo 135 inner wall convex surface, one side of water shutoff piece 137 is vertical to be equipped with the stand 1370 of pegging graft with siphunculus 1350, the top outside of stand 1370 is seted up a plurality of tooth's grooves 1371 with the meshing of rack 1360, do linear motion along its axis through drainage post 136, alright drive stand 1370 rotatory for water shutoff piece 137 takes place to deflect, and break away from rather than the delivery port 1313 that corresponds. The top and the middle part of stand 1370 are equipped with the spacing platform 1372 that is the ring structure, and the distance of two spacing platforms 1372 equals with siphunculus 1350's height for stand 1370 is spacing to be stabilized rotatory on siphunculus 1350.

Further, the water leakage pipe 104 comprises a vertical section, a backflow prevention section 1040 connected to the bottom end of the vertical section, and a downward inclined section connected to the other end of the backflow prevention section 1040, and the downward inclined section facilitates the water to flow downwards. The backflow prevention section 1040 is of a V-shaped structure, which facilitates formation of a water sealing effect and avoids the situation that the air inlet duct is in the lighting box 100. The water conduit 105 is inclined downwards and the starting end is bent into a water receiving pipe 1050 with the same structure as the water leakage pipe 104, and the water leakage pipe 104 and the water conduit 105 are positioned at the two ends of the lighting box 100, so that water can be drained when the water collecting strip 131 moves to any end of the lighting box 100.

Specifically, the middle parts of the two inner sides of the wide side of the lighting box 100 are respectively provided with a horizontal separating table 101, the outer side of the separating table 101 is vertically provided with a flange 102, the solar cell panel 140 is clamped between the separating table 101 and the flange 102, and the wide side corner and the middle part of the diffuse reflection plane mirror 110 are respectively provided with an avoiding opening 111 for avoiding the displacement electric motor 132 and the storage battery 141.

In addition, the bottom surface of the tempered glass 150 is symmetrically provided with clamping grooves 151 clamped with the flanges 102 along the width direction, and the outer side edge of the tempered glass 150 is bonded with a sealing ring 152, so that the tempered glass 150 is tightly and hermetically clamped with the lighting box 100.

When the indoor living room is used for collecting light, the lighting box 100 is buried in the middle of the balcony, so that the appearance is attractive, external light is diffusely reflected to the ceiling of the living room through the diffuse reflection plane mirror 110 in the lighting box 100 and is diffusely reflected again to illuminate the indoor, when water drops are generated on the bottom surface of the toughened glass 150, the remote controller is operated to start the water scraping electric motor 132 to rotate forwardly to drive the screw rod 133 to rotate, so as to drive the supporting block 1311 and the water collecting strip 131 to move towards the position of the water leakage pipe 104, water is scraped on the bottom surface of the toughened glass 150, the water drops flow into the water collecting strip 131 from the water inlet 1310 to be collected, after the water collecting strip 131 is close to the side surface of the blocking edge 102, the drainage column 136 is extruded into the supporting cylinder 135, and then the rack 1360 drives the upright 1370 with the plurality of tooth-shaped grooves 1371 to rotate, so that the water blocking block 137 deflects, so as to open the water outlet 1313 corresponding to lead the accumulated water in the water collecting strip, and the sewage is discharged into a floor drain of a balcony to flow away.

The lighting panel 200 is of an arc panel structure, a diffuse reflection arc-shaped mirror 210 of an arc structure is bonded on the top surface of the lighting panel 200, and a movable frame 220 is arranged below the middle of the lighting panel 200 and plays a role in supporting and adjusting the angle of the lighting panel 200. The movable frame 220 includes a fixture block 221 fixed on the window frame, a movable support rod 223 disposed at one side of the fixture block 221, and a swing rod 224 disposed at the top end of the support rod 223 and used for driving the lighting panel 200 to swing, wherein a rubber pad may be added inside the fixture block 221, and then the fixture block 221 is screwed into a threaded hole formed in the back of the fixture block 221 by a bolt to press the window frame, so that the fixture block 221 is stable and favorable for stable installation of the lighting panel 200. A square sleeve 2210 is arranged on one side of the top of the fixture block 221, a boss 2211 communicated with the interior of the sleeve 2210 is arranged on the top of the outer end of the sleeve 2210, the interior of the boss 2211 is of a cylindrical cavity structure, and a displacement electric motor 222 for driving the support rod 223 to move is installed at one end of the boss 2211, so that the daylighting panel 200 is adjusted to extend outwards. The swing electric motor 2244 for driving the swing rod 224 to swing is installed in the middle of the bottom surface of the swing rod 224, so that the angle of the reflected light of the lighting panel 200 is adjusted, and the light can be reflected to different indoor positions. An energy storage box 230 is fixed on one side of the vertical section of the support rod 223 through a bolt, the energy storage box 230 is of a hollow structure, the bottom end of the energy storage box is open, and a square plate is fixed on the bottom end of the energy storage box through a bolt. The solar cell panel 140 is embedded in the groove on the top surface of the energy storage box 230, and the storage battery 141 is placed in the energy storage box 230.

In this embodiment, the diffuse reflection arc mirror 210 is coated with a silver layer, which can effectively collect light, refract the light into the room and maintain stable brightness, thereby greatly reducing glare and discomfort of the general reflected light. The diffuse reflection arc mirror 210 is a concave mirror, and has a light-gathering effect, and the light gathered on the ceiling will be reflected diffusely due to the uneven surface of the ceiling, so that the light will be diffused and illuminate the room. The shifting electric motor 222 and the swinging electric motor 2244 are electrically connected with infrared switches with the chip model of SFH506-38 on positive leads, and are provided with a remote controller with the chip model of CMS5108 for controlling the shifting electric motor 222 and the swinging electric motor 2244 to be electrified and operated, the shifting electric motor 222 and the swinging electric motor 2244 are connected with the solar cell panel 140 and the storage battery 141 in the energy storage box 230 in parallel through electrified leads, namely the shifting electric motor 222 and the swinging electric motor 2244 are connected in parallel, and the two electric motors are ensured to work independently.

Specifically, the rear end of the lighting panel 200 is provided with an L-shaped insert plate 201, the middle of the bottom end of the insert plate 201 is provided with an insert block 202 in a square structure, the inside of the swing rod 224 is provided with a slot 2240 in a convex shape, two notches of the slot 2240 penetrate through two end faces of the long edge of the swing rod 224 respectively, and the bottom of the insert plate 201 and the insert block 202 are in insertion fit with the slot 2240, so that the lighting panel 200 is convenient to disassemble and assemble.

Furthermore, shrinkage pool 203 has been seted up at the both ends of inserted block 202, and the hole 2241 with shrinkage pool 203 coaxial line is seted up at the both ends of swinging arms 224, and it has pressure spring 2245 and cylindric lock 2242 to peg graft in proper order in the inside of hole 2241, and cylindric lock 2242 pegs graft with shrinkage pool 203 for it is more stable after slot 2240 is pegged graft to daylighting panel 200. The corner of inserted block 202 is provided with the oblique angle, does benefit to inserted block 202 and inserts slot 2240, pushes away cylindric lock 2242 to roll back through the oblique angle of corner to one side, waits that inserted block 202 pegs graft the back in place, and cylindric lock 2242 is released under the spring action of pressure spring 2245, and inserts shrinkage pool 203, realizes lighting panel 200's fixed. Shrinkage pool 203 is provided with the oblique angle towards the edge of oblique angle direction, and the both ends of cylindric lock 2242 are circular-arcly, when doing benefit to outwards to extract daylighting panel 200, and behind the cylindric lock 2242 received the power of perpendicular its axis, the direction aversion takes place smoothly with the oblique angle of shrinkage pool 203 for the circular arc end of cylindric lock 2242, and then makes cylindric lock 2242 break away from shrinkage pool 203, and extracts daylighting panel 200.

Further, the output shaft of the shift electric motor 222 is coaxially connected with a tooth post 2220, the support rod 223 is L-shaped, the top surface of the horizontal section is provided with a plurality of conical teeth 2230, the tooth post 2220 is engaged with the plurality of conical teeth 2230, two sides of the front end of the horizontal section of the support rod 223 are penetrated with pins, and the pins slide in grooves formed in the inner side of the sleeve 2210, and the grooves do not penetrate through the outer port of the sleeve 2210, so that a limit structure is formed, and the support rod 223 is prevented from slipping out of the sleeve 2210. The vertical section top of bracing piece 223 is protruding articulated with the cylinder at swinging arms 224 bottom surface middle part, does benefit to the deflection of swinging arms 224, and swing electric motor 2244's output shaft and swinging arms 224's cylinder are protruding coaxial coupling to it is rotatory to drive swinging arms 224 through starting swing electric motor 2244, and then drives daylighting panel 200 and deflect, so that the angle of adjustment transmitted light.

When the indoor bedroom adopts daylight, the fixture block 221 of the lighting panel 200 is fixed outside the window frame through the bolt, after the solar cell panel 140 in the energy storage box 230 absorbs light and converts the light into electricity and stores the electricity into the storage battery 141, the remote controller is controlled to start the shifting electric motor 222 to drive the support rod 223 to drive the lighting panel 200 to extend outwards, more light is received, the remote controller is controlled to start the swinging electric motor 2244 to drive the swinging rod 224 to drive the lighting panel 200 to deflect, the angle of the reflected light can be adjusted for the diffuse reflection arc-shaped mirror 210, and then the light is reflected to the indoor place needing to be illuminated.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An energy-saving lighting device for house building, its characterized in that: the solar energy collecting and water wiping device comprises a lighting box (100) buried on a balcony floor and a lighting board (200) installed outside a window, wherein the lighting box (100) is of a cuboid hollow structure, the top end of the lighting box is open, a diffuse reflection plane mirror (110) is bonded on the bottom surface inside the lighting box (100), LED lamp belts (120) are symmetrically bonded on two sides of the long edge of the lighting box (100), a piece of tempered glass (150) with a shielding effect is clamped at the top end of the lighting box (100), a water wiping mechanism (130) for removing water drops on the bottom surface of the tempered glass (150) is arranged below the tempered glass (150), a plurality of solar cell panels (140) are installed at two ends of the wide edge of the lighting box (100), a plurality of solar cell panels (140) are electrically connected below each end of the solar cell panels (140) through a lead, each water wiping mechanism (130) comprises a water collecting strip (131) sliding along the bottom surface of the tempered glass (150) and a water wiping electric motor (132) for driving the water, the water collecting strip (131) is of a hollow cuboid structure, water inlets (1310) are symmetrically formed in two sides of the top of the water collecting strip, a drainage mechanism (134) is arranged inside one end of the water collecting strip (131), water leaking ports (1313) are symmetrically formed in the bottom surface of one end of the water collecting strip (131), pipe holes (103) are symmetrically formed at two ends of the wide side of the lighting box (100), a water leakage pipe (104) and a water guide pipe (105) are respectively inserted into the two pipe holes (103), the water inlet ports of the water leakage pipe (104) and the water conduit (105) are respectively positioned right below the two water leakage ports (1313), the drainage mechanism (134) comprises a support cylinder (135) transversely arranged in the water collection strip (131), water blocking blocks (137) which are symmetrically arranged below the support cylinder (135) and used for blocking a water leakage port (1313), and drainage columns (136) which are inserted at two ends of the support cylinder (135) and used for driving the water blocking blocks (137) to rotate;

the lighting panel (200) is of an arc-shaped panel structure, a diffuse reflection arc-shaped mirror (210) of an arc-shaped structure is bonded on the top surface of the lighting panel (200), a movable frame (220) is arranged below the middle of the lighting panel (200), the movable frame (220) comprises a clamping block (221) fixed on a window frame, a movable supporting rod (223) arranged on one side of the clamping block (221) and a swinging rod (224) arranged at the top end of the supporting rod (223) and used for driving the lighting panel (200) to swing, a square sleeve (2210) is arranged on one side of the top of the clamping block (221), a boss (2211) communicated with the interior of the sleeve (2210) is arranged at the top of the outer end of the sleeve (2210), a shift electric motor (222) driving the supporting rod (223) to move is installed at one end of the boss (2211), a swing electric motor (2244) driving the swinging, an energy storage box (230) is fixed on one side of the vertical section of the support rod (223) through a bolt, a solar cell panel (140) is embedded in a groove in the top surface of the energy storage box (230), and a storage battery (141) is placed in the energy storage box (230).

2. An energy efficient lighting device for house buildings according to claim 1 characterized in that: the width of the water collecting strip (131) is equal to the inner width of the lighting box (100), supporting blocks (1311) are arranged at the bottoms of two ends of the water collecting strip (131), a threaded hole (1312) is formed in the middle of the side face of each supporting block (1311), one end of an output shaft of the water scraping electric motor (132) is coaxially connected with a screw rod (133), the screw rod (133) is in threaded connection with the threaded hole (1312), and the other end of the screw rod (133) is embedded in the inner wall of the lighting box (100) and can rotate.

3. An energy efficient lighting device for house buildings according to claim 1 characterized in that: support the middle part of a section of thick bamboo (135) and place spring (1361) in form and both ends for sealing, the radial bilateral symmetry of drainage post (136) is planar, and wherein be equipped with a plurality of racks (1360) on the plane of one side, the inner wall one side of supporting a section of thick bamboo (135) be equipped with the convex surface of drainage post (136) opposite side plane joint, the outer wall symmetry of supporting a section of thick bamboo (135) is equipped with siphunculus (1350) rather than inside being linked together, siphunculus (1350) are located support the radial opposite of a section of thick bamboo (135) inner wall convex surface, one side of stifled water piece (137) vertically be equipped with stand (1370) that siphunculus (1350) were pegged graft, the top outside of stand (1370) seted up with a plurality of tooth form (1371) of rack (1360) meshing, the top and the middle part of stand (1370) are.

4. An energy efficient lighting device for house buildings according to claim 1 characterized in that: the water leakage pipe (104) comprises an anti-backflow section (1040) connected with the bottom end of the vertical section and a downward-inclined section connected with the other end of the anti-backflow section (1040), the anti-backflow section (1040) is of a V-shaped structure, and the water guide pipe (105) is of a downward-inclined shape, and the starting end of the water guide pipe is bent into a water receiving pipe (1050) with the same structure as the water leakage pipe (104).

5. An energy efficient lighting device for house buildings according to claim 1 characterized in that: two inboard middle parts of broadside of lighting box (100) all are equipped with and are the platform (101) that separate of level form, the outside that separates platform (101) is equipped with flange (102) perpendicularly, solar cell panel (140) joint is in separate platform (101) with between flange (102), the broadside corner and the middle part of diffuse reflection level crossing (110) have all been seted up and have been dodged mouth (111).

6. An energy efficient lighting device for house buildings according to claim 5 characterized in that: the bottom surface of toughened glass (150) just along its width direction symmetry seted up with draw-in groove (151) of flange (102) joint, the outside limit of toughened glass (150) bonds has sealing washer (152).

7. An energy efficient lighting device for house buildings according to claim 1 characterized in that: the rear end of daylighting board (200) is equipped with picture peg (201) that are the L type, the bottom middle part of picture peg (201) is equipped with inserted block (202) that is the square body structure, slot (2240) that is type are seted up to the inside of swinging arms (224), and two notches of slot (2240) run through respectively the long limit both ends face of swinging arms (224), the bottom of picture peg (201) with inserted block (202) with slot (2240) cooperation of pegging graft.

8. An energy efficient lighting device for house buildings according to claim 7 characterized in that: shrinkage pool (203) have been seted up at the both ends of inserted block (202), the both ends of swinging arms (224) seted up with hole (2241) of shrinkage pool (203) coaxial line, it has pressure spring (2245) and cylindric lock (2242) to peg graft in proper order in the inside of hole (2241), cylindric lock (2242) with shrinkage pool (203) are pegged graft, the corner of inserted block (202) is provided with the oblique angle, shrinkage pool (203) are provided with the oblique angle towards the edge of oblique angle direction, the both ends of cylindric lock (2242) are circular-arcly.

9. An energy efficient lighting device for house buildings according to claim 1 characterized in that: the output shaft coaxial coupling of aversion electric motor (222) has tooth post (2220), bracing piece (223) are L type and horizontal segment top surface and are equipped with a plurality of toper teeth (2230), tooth post (2220) and a plurality of toper tooth (2230) meshing, the vertical section top of bracing piece (223) with the cylinder arch at swinging arms (224) bottom surface middle part is articulated, the output shaft of swing electric motor (2244) with the protruding coaxial coupling of cylinder of swinging arms (224).

10. An energy efficient lighting device for house buildings according to claim 1 characterized in that: scrape water electric motor (132), shift electric motor (222) with equal electric connection has infrared switch on the anodal wire of swing electric motor (2244), scrape water electric motor (132) with solar cell panel (140) and battery (141) circular telegram wire electric connection in daylighting box (100), shift electric motor (222) with swing electric motor (2244) with solar cell panel (140) and battery (141) circular telegram wire parallel connection in energy storage box (230).