CN113969644A - Lighting intensity adjustable daylighting roof - Google Patents

Abstract

The utility model relates to a lighting intensity adjustable daylighting top belongs to the field of daylighting top, and it includes glass top and four sides side wall, the glass top sets up the top at the side wall inner wall, the glass top includes first glass board and second glass board, first glass board and second glass board all set up the top at the side wall inner wall, arrange about first glass board and the second glass board, relative two rotate between the side wall and be connected with a plurality of connecting rods, it is a plurality of the connecting rod sets up between first glass board and second glass board, and is a plurality of all be fixed with the shutter plate on the connecting rod, the one end that the shutter plate was kept away from to the side wall extends and is connected with drive assembly. But this application has glass top automatically regulated illumination intensity's effect.

Description

Lighting intensity adjustable daylighting roof

Technical Field

The application relates to the field of daylighting roofs, in particular to a daylighting roof with adjustable illumination intensity.

Background

The glass roof is also called glass daylighting roof and is composed of steel structure and safety glass.

Referring to fig. 1, a daylighting roof in the related art includes a side wall 2, and daylighting glass 9 is disposed on the top of the side wall 2 to implement indoor daylighting.

In view of the above-mentioned related technologies, when the external sunlight is strong or when it rains in a cloudy day, the daylighting roof cannot automatically adjust the illumination intensity, and thus needs to be improved.

Disclosure of Invention

In order to realize daylighting top illumination intensity automatically regulated's function, this application provides an illumination intensity adjustable daylighting top.

The application provides a pair of daylighting top of illumination intensity adjustable adopts following technical scheme:

a daylighting roof with adjustable illumination intensity comprises a glass roof and four side walls, wherein the glass roof is arranged at the tops of the inner walls of the side walls, the glass roof comprises a first glass plate and a second glass plate, the first glass plate and the second glass plate are both arranged at the tops of the inner walls of the side walls, the first glass plate and the second glass plate are arranged up and down, a plurality of connecting rods are rotatably connected between the two opposite side walls, the connecting rods are arranged between the first glass plate and the second glass plate, louver plates are fixed on the connecting rods, and one ends, away from the louver plates, of the connecting rods extend out of the side walls and are connected with a driving assembly;

a driving component: including lift bucket, drive gear, drive cingulum and actuating lever, drive gear fixes the one end of keeping away from the shutter plate at the connecting rod, drive the cingulum around establishing on drive gear and mesh mutually, the one end of drive cingulum is fixed on the actuating lever, the other end is fixed at the lift bucket top, lift bucket top opening, the actuating lever sets up along vertical direction, the side wall outer wall is equipped with the limiting plate, the slide opening has been seted up on the limiting plate, wear to establish in the slide opening to the actuating lever slidable, one side that the drive cingulum was kept away from to the actuating lever is fixed with the stopper, the stopper width is greater than the slide opening width, be equipped with first spring between stopper and the limiting plate.

By adopting the technical scheme, rainwater falls into the lifting barrel after falling on the first glass plate, the quality of the lifting barrel is increased and moves towards the ground, the lifting barrel drives the driving toothed belt to rotate, the driving toothed belt drives the driving gear to rotate, the driving gear drives the connecting rod to rotate, the connecting rod rotates to drive the louver boards to rotate, the driving rod moves towards one side far away from the ground at the moment, the first spring is extruded, the louver boards are finally perpendicular to the ground, and indoor illumination is sufficient in rainy days; when rainwater in the lifting bucket evaporates, the quality of the lifting bucket is reduced, the lifting bucket moves upwards at a higher speed under the action of the elastic force of the first spring, and the function of automatically adjusting the illumination intensity of the glass plate is realized.

Preferably, a sliding cavity is formed in the side wall along the vertical direction, a moving plate is connected to the sliding cavity in a sliding manner, the moving plate can slide in a reciprocating manner along the vertical direction, a sliding hole is formed in the side wall along the horizontal direction, the sliding hole is communicated with the sliding cavity, a control plate is connected to the sliding hole in a sliding manner, the control plate can slide in a reciprocating manner along the vertical direction, a through hole is formed in the moving plate, the control plate penetrates through the through hole and is connected with the lifting barrel, and a locking assembly is arranged at the lower part of one end, away from the lifting barrel, of the control plate;

locking the assembly: including first fixed plate and screw rod, first fixed plate sets up on the inner wall of side wall, first fixed plate is equipped with the screw hole, the screw rod wear to establish the screw hole and with screw hole threaded connection, the screw rod is contradicted in the bottom of control panel.

Through adopting above-mentioned technical scheme, when the lift bucket reciprocated, the control panel reciprocated thereupon, the control panel drives the movable plate and reciprocates simultaneously, when needing to the accurate regulation of glass top illumination intensity when rainy day, operating personnel rotated the screw rod and made the screw rod conflict in the bottom of control panel, support for the control panel provides, thereby make lift bucket rigidity, rotate the screw rod again, make the control panel upwards or move down, the lift bucket upwards or move down thereupon, the lift bucket shifts up or moves down and makes the angle change thereupon of shutter plate and ground, the convenience is adjusted the accurate of glass top illumination intensity.

Preferably, the lateral wall of lift bucket is seted up and is supplied the control hole that the control panel adaptation was worn to establish, the delivery port has been seted up to lift bucket bottom, the delivery port top is equipped with the rubber tube, the rubber tube is linked together with the delivery port, the control panel is contradicted on the rubber tube, the top that the control panel is located the inside one end of lift bucket is equipped with first fixture block, be equipped with the second fixture block with first fixture block matched with on the inner wall of lift bucket.

Through adopting above-mentioned technical scheme, when the illumination intensity on needs quick adjustment glass top, operating personnel removes the control panel, makes first fixture block and second fixture block inconsistent, makes the water in the lift bucket flow from the delivery port to make the lift bucket rise fast, realize the quick adjustment of glass top illumination intensity. Meanwhile, the speed of automatic change of the illumination intensity of the glass roof can be conveniently controlled by the distance between the control panel and the water outlet.

Preferably, the screw rod top is provided with the spliced pole, the spliced pole top is provided with the connection pad, the spliced pole is cylindric structure and coaxial with the screw rod with the connection pad, the diapire of the one end that the lift bucket was kept away from to the control panel is seted up and is supplied the spliced pole to insert and establish and gliding spread groove, the inside wall of spread groove is equipped with and supplies the connection pad tip to insert and establish and gliding spacing groove.

Through adopting above-mentioned technical scheme, when needs control glass top illumination intensity is fixed unchangeable, operating personnel mobile control board makes spliced pole and connection pad card go into spread groove and spacing groove, makes the control panel rigid to make the elevator bucket rigid, thereby the elevator bucket is fixed and makes the connecting rod rigid, and the angle of final control tripe and ground is motionless, realizes the fixed unchangeable function of glass top illumination intensity.

Preferably, the top and the bottom of the inner wall of the limiting groove are provided with abdicating holes for the connecting disc to be inserted and rotated.

By adopting the technical scheme, when the water quantity in the lifting barrel is large and the illumination intensity of the glass top needs to be accurately controlled, an operator rotates the screw rod to enable the control panel to move along the vertical direction, and the connecting disc is inserted into the abdicating hole in the top to limit the control panel; when the water amount in the lifting bucket is small, the connecting disc is inserted in the yielding hole at the bottom, so that the limiting is provided for the control panel, and the operation personnel can conveniently and accurately adjust the illumination intensity of the top of the glass.

Preferably, a drain hole is formed in the bottom of the inner wall of the sliding cavity, one end, far away from the sliding cavity, of the drain hole extends to the outer wall of the side wall, an air inlet hole is formed in the top of the inner wall of the sliding cavity, and one end, far away from the sliding cavity, of the air inlet hole extends to the inner wall of the side wall.

By adopting the technical scheme, air enters the sliding cavity through the water drain hole and the air inlet hole, so that the movable plate can conveniently reciprocate up and down. In rainy days, rainwater enters the sliding cavity and can flow out of the drainage holes, so that the possibility of rainwater accumulation in the sliding cavity is reduced.

Preferably, the outer wall of the side wall is rotatably connected with a limiting wheel, a limiting ring groove is formed in the limiting wheel along the circumferential direction of the limiting wheel, and the edge of the driving toothed belt, which is far away from the driving gear, is inserted into the limiting ring groove.

Through adopting above-mentioned technical scheme, when the drive cingulum rotated, spacing annular was contradicted on the outer wall of drive cingulum, made the difficult displacement that takes place in the horizontal direction of drive cingulum and lead to drive cingulum and drive gear to take place the possibility of separating.

Preferably, the outer wall of side wall is equipped with the backup pad, the backup pad below is equipped with the supporting shoe, the supporting shoe bottom is equipped with supports the groove, spacing round rotates to be connected in supporting the groove, be equipped with the second spring that is used for with the supporting shoe towards drive gear promotion between backup pad and the supporting shoe.

Through adopting above-mentioned technical scheme, under the effect of second spring, spacing annular is contradicted all the time in the outside of drive cingulum, has further improved the stability of drive cingulum. When the drive toothed belt needs to be replaced, an operator pushes the supporting block upwards to separate the limiting ring groove from the drive toothed belt, so that the drive toothed belt can be replaced.

Preferably, the outer wall of the side wall is provided with a drainage groove body with an open top along the circumferential direction of the outer wall, the bottom of the drainage groove body is fixedly provided with a drainage pipe communicated with the drainage groove body, and the bottom of the drainage pipe is positioned right above the opening of the lifting bucket.

Through adopting above-mentioned technical scheme, during the rainy day, the rainwater falls on first glass board after, flows into the drainage cell body, and the rethread drain pipe flows in the bucket, accelerates the bucket decline after conveniently collecting the rainwater for the speed that glass top illumination intensity changed.

Preferably, the plurality of connecting rods are all fixed with transmission gears, the transmission gears and the corresponding connecting rods are coaxial, a reversing gear is arranged between every two adjacent transmission gears, the reversing gear is rotatably connected with the inner wall of the side wall, and the reversing gear is meshed with the two adjacent transmission gears.

By adopting the technical scheme, when the driving gear rotates, the connecting rod is driven to rotate, the connecting rod rotates to drive the transmission gear to rotate, and the transmission gear drives the two adjacent reversing gears to rotate, so that the adjacent louver boards rotate along the same direction, and the function of automatically adjusting the illumination intensity of the top of the glass is realized.

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

by arranging the lifting barrel, the driving toothed belt and the driving rod, the lifting barrel descends to drive the louver boards to rotate in rainy days, so that the effect that the illumination intensity of the glass top can be automatically adjusted is achieved;

through setting up screw rod and control panel, can play operating personnel in the effect of all-weather accurate adjustment glass top illumination intensity.

Drawings

Fig. 1 is an overall structural view of the related art;

fig. 2 is a schematic overall structure diagram of a daylighting roof with adjustable illumination intensity according to an embodiment of the present application;

FIG. 3 is a schematic structural view for showing the positional relationship between the first glass plate and the second glass plate;

FIG. 4 is a schematic view of the structure for embodying the slats perpendicular to the ground;

FIG. 5 is an enlarged view of portion A of FIG. 2;

FIG. 6 is a schematic structural diagram showing a deadlocking assembly;

fig. 7 is an enlarged view of a portion B in fig. 6.

Description of reference numerals: 1. a glass top; 11. a first glass plate; 12. a second glass plate; 2. a side wall; 21. a connecting rod; 211. a transmission gear; 22. a louver board; 23. a sliding cavity; 231. a drain hole; 232. an air inlet; 24. moving the plate; 241. a through hole; 25. a slide hole; 26. a control panel; 261. a first clamping block; 262. connecting grooves; 263. a limiting groove; 264. a hole of abdication; 3. a drive assembly; 31. a lifting bucket; 311. a control hole; 312. a water outlet; 313. a rubber tube; 314. a second fixture block; 32. a drive gear; 33. a drive toothed belt; 34. a drive rod; 4. a limiting plate; 41. a slide hole; 42. a limiting block; 43. a first spring; 5. locking the assembly; 51. a fixing plate; 511. a threaded hole; 52. a screw; 521. connecting columns; 522. a connecting disc; 6. a limiting wheel; 61. a limiting ring groove; 7. a support plate; 71. a support block; 72. a support groove; 73. a second spring; 8. a drainage trough body; 81. a drain pipe; 9. and (4) lighting glass.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses daylighting top with adjustable illumination intensity. Referring to fig. 2 and 3, a lighting roof with adjustable illumination intensity comprises a glass roof 1 and four side walls 2, the glass roof 1 is arranged between the four side walls 2, the glass roof 1 comprises a first glass plate 11 and a second glass plate 12, the first glass plate 11 and the second glass plate 12 are both fixed on the top of the inner wall of the side wall 2, the first glass plate 11 is fixed above the second glass plate 12, a plurality of connecting rods 21 are arranged between the first glass plate 11 and the second glass plate 12, the connecting rods 21 are both rotatably connected on the inner wall of the side wall 2, the side walls of the connecting rods 21 are both fixed with louver plates 22, one ends of the connecting rods 21 close to the inner wall of the side wall 2 are both fixed with transmission gears 211, reversing gears 212 are engaged between two adjacent transmission gears 211, any one connecting rod 21 extends out of the side walls 2 and is connected with a driving assembly 3, the driving assembly 3 drives one transmission gear 211 to rotate, the transmission gear 211 drives two adjacent reversing gears 212 to rotate, the adjacent two louver boards 22 rotate synchronously in the same direction, thereby achieving the purpose of adjusting the illumination intensity of the glass top 1.

Referring to fig. 2 and 3, the driving assembly 3 includes a driving gear 32, a lifting bucket 31, a driving toothed belt 33 and a driving rod 34, the driving gear 32 is fixed to a connecting rod 21 extending out of the sidewall 2, a limiting plate 4 is welded and fixed to an outer wall of the sidewall 2, the limiting plate 4 is provided with a sliding hole 41 through which the driving rod 34 passes, the driving rod 34 is slidably connected to the sliding hole 41 in a vertical direction, a limiting block 42 is integrally formed at a bottom of the driving rod 34, the limiting block 42 is connected to the limiting plate 4 through a first spring 43, the first spring 43 provides a downward force for the limiting rod 34, the driving toothed belt 33 is wound around an outer side of the driving gear 32 and is engaged with the driving gear 32, one end of the driving toothed belt 33 is fixed to a top of the driving rod 34, the other end of the driving toothed belt is fixed to a top of the lifting bucket 31, the lifting bucket 31 can move upward under the action of an elastic force of the first spring 43 and a gravity of the driving rod 34 in sunny days, the slats 22 are now parallel to the ground and provide shading for the room.

Referring to fig. 4, in rainy days, rainwater directly falls in the lifting barrel 31 or falls on the top of the first glass plate 11 and then flows into the lifting barrel 31, the rainwater increases the overall weight of the lifting barrel 31, so that the lifting barrel 31 moves downwards after overcoming the elastic force of the first spring 43 and the gravity of the driving rod 34, the lifting barrel 31 moves downwards to drive the driving toothed belt 33 to move, the driving toothed belt 33 drives the driving gear 32 to rotate, the driving gear 32 drives the transmission gear 211 to rotate, the transmission gear 211 rotates to drive the connecting rod 21 to rotate, the transmission gear 211 rotates to drive the two adjacent reversing gears 212 to rotate, and therefore the two adjacent louver boards 22 gradually rotate synchronously and synchronously to the same direction to be vertical to the ground, so that the lighting area of the glass roof 1 is increased, and the illumination intensity of the glass roof 1 is automatically adjusted.

Referring to fig. 2 and 3, when the water in the lifting bucket 31 gradually evaporates from cloudy to sunny, the total weight of the lifting bucket 31 gradually decreases, the lifting bucket 31 gradually moves towards the direction away from the ground under the action of the elastic force of the first spring 43, the lifting bucket 31 moves upwards to drive the driving toothed belt 33 to reset, the driving toothed belt 33 resets and drives the driving gear 32 to rotate, the driving gear 32 drives one of the driving gears 211 to rotate, the driving gear 211 drives the two adjacent reversing gears 212 to rotate, so that the two adjacent louver boards 22 synchronously rotate in the same direction to be parallel to the ground, and when the water in the lifting bucket 31 finishes evaporating, the louver boards 22 are parallel to the ground to shade the sun indoors.

Referring to fig. 5, a supporting plate 7 is fixed to the top of the side wall 2, the bottom of the supporting plate 7 is connected with a supporting block 71 through a second spring 73, a supporting groove 72 is formed in the bottom of the supporting block 71, a limiting wheel 6 is rotatably connected to the side wall of the supporting groove 72, a limiting ring groove 61 which is engaged with the top of the driving toothed belt 33 is formed in the limiting wheel 6, the second spring 73 provides support for the supporting block 71, the limiting ring groove 61 abuts against the top of the driving toothed belt 33, and the driving toothed belt 33 is not easily separated from the driving gear 32, so that the driving assembly 3 cannot stop running. Meanwhile, when the driving toothed belt 33 needs to be replaced, an operator pushes the supporting block 71 upwards to separate the limiting wheel 6 from the driving toothed belt 33.

Referring to fig. 4, the outer wall of the side wall 2 is welded with the drainage groove body 8 with an open top along the circumferential direction, the bottom of the drainage groove body 8 is provided with a drainage pipe 81 communicated with the drainage pipe, the bottom of the drainage pipe 81 extends to the inside of the lifting bucket 31, the drainage pipe 81 is convenient for collecting rainwater falling on the top of the first glass plate 11, the descending speed of the lifting bucket 31 is increased, and therefore the speed of automatically changing the illumination intensity of the glass top 1 is increased.

Referring to fig. 6, a sliding cavity 23 is formed in the side wall 2 in the vertical direction, a moving plate 24 is connected to the sliding cavity 23 in a sliding mode, a drain hole 231 is formed in the bottom of the sliding cavity 23, the drain hole 231 extends to the outer wall of the side wall 2, the end portion, close to the inner wall of the side wall 2, of the drain hole 231 is inclined upwards, rainwater is not prone to accumulating at the bottom of the sliding cavity 23 in rainy days, an air inlet hole 232 is formed in the top of the sliding cavity 23, the air inlet hole 232 extends to the inner wall of the side wall 2, the air inlet hole 232 facilitates air entering the sliding cavity 23, and the moving plate 24 can reciprocate in the vertical direction.

Referring to fig. 6 and 7, the side wall 2 is horizontally provided with a sliding hole 25, the sliding hole 25 is communicated with the sliding cavity 23, the sliding hole 25 is provided with a control plate 26, the control plate 26 can reciprocate horizontally, the moving plate 24 is provided with a through hole 241 for the control plate 26 to pass through, the control plate 26 is slidably connected in the through hole 241, the lifting barrel 31 is provided with a control hole 311 for the control board 26 to be fittingly inserted, the control board 26 extends from the control hole 311 to the lifting barrel 31, the bottom of the lifting barrel 31 is provided with a water outlet 312, a rubber pipe 313 is arranged above the water outlet 312, the rubber pipe 313 and the water outlet 312 are coaxial and have the same inner diameter, the control panel 26 abuts against the top of the rubber pipe 313, a first clamping block 261 is arranged at the top of one end, located inside the lifting barrel 31, of the control panel 26, a second clamping block 314 matched with the first clamping block 261 is arranged on the side wall of the lifting barrel 31, and the first clamping block 261 and the second clamping block 314 are formed by rubber.

When rainy day, the lift bucket 31 descends, and the movable plate 24 moves towards ground, and control panel 26 moves towards ground simultaneously, and control panel 26 contradicts on the rubber bucket all the time, and second fixture block 314 has increased the leakproofness between control panel 26 and lift bucket 31, makes things convenient for lift bucket 31 to collect the rainwater. When the sun is needed in the sunny weather, an operator pulls out the control plate 26 in the direction far away from the lifting barrel 31, at the moment, the first clamping block 261 is abutted to the second clamping block 314, the control plate 26 does not completely block the opening at the top of the rubber tube 313, rainwater in the lifting barrel 31 flows out of the water outlet 312, the lifting speed of the lifting barrel 31 is increased, and the speed of automatically adjusting the illumination intensity of the glass roof 1 is further increased.

Referring to fig. 6 and 7, a fixing plate 51 is fixed on the inner wall of the side wall 2, the fixing plate 51 is provided with a threaded hole 511, a screw 52 is arranged between the control plate 26 and the fixing plate 51, the screw 52 penetrates through the fixing plate 51 and is in threaded connection with the threaded hole 511, a connecting column 521 is integrally formed at the top of the screw 52, a connecting disc 522 is integrally formed at the top of the connecting column 521, the connecting column 521 and the connecting column 521 are coaxial with the screw 52, the fixing plate 51, the screw 52, the connecting column 521 and the connecting disc 522 form a locking assembly 5, a connecting groove 262 for the connecting column 521 to be inserted and slide is formed in the bottom of one end of the control plate 26, which is far away from the lifting barrel 31, a limiting groove 263 for the end of the connecting disc 522 to be inserted and slide is formed in the side wall of the connecting groove 262, and a yielding hole 264 for the connecting disc 522 to be inserted and rotate is formed in the top and the bottom of the inner wall of the limiting groove 263.

When water is in the lifting barrel 31 and the illumination intensity needs to be finely adjusted, an operator pulls the control plate 26 towards the inner wall direction of the side wall 2 to enable the connecting column 521 and the connecting disc 522 to enter the limiting groove 263, then pulls the control plate 26 and rotates the screw rod 52 to enable the connecting disc 522 to be pressed against the yielding hole 264 at the top, and the operator can adjust the position of the control plate 26 away from the ground by rotating the screw rod 52 and simultaneously control the position of the lifting barrel 31 away from the ground; when the water in the lifting barrel 31 gradually evaporates or flows out from the water outlet 312, the connecting disc 522 is clamped in the yielding hole 264 at the bottom, so that the fine adjustment of the illumination intensity of the glass roof 1 in all weather is realized.

In practical use, the connecting plate 522 can abut against the bottom of the control panel 26, so that the control panel 26 is not influenced by the total weight of the control panel and can descend, and the control panel 26 can be located at a fixed position in rainy days, thereby achieving the purpose of fixing the illumination intensity of the glass roof 1 in rainy days.

The implementation principle of a daylighting roof with adjustable illumination intensity in the embodiment of the application is as follows: in sunny days, the louver boards 22 are parallel to the ground and are used for shading the indoor sun; in rainy days, rainwater falls on the first glass plate 11 and flows into the drainage groove body 8 through the first glass plate 11 in a guiding manner, then flows into the lifting barrel 31 through the drainage pipe 81, the lifting barrel 31 moves towards the ground after the mass of the lifting barrel 31 is increased, the lifting barrel 31 drives the driving toothed belt 33 to rotate, the driving toothed belt 33 drives the driving gear 32 to rotate, the driving gear 32 drives the connecting rod 21 to rotate, the transmission gear 211 drives the two adjacent reversing gears 212 to rotate at the moment, the two adjacent louver boards 22 rotate in the same direction and gradually rotate to be perpendicular to the ground at the moment, so that light can enter the room conveniently, and the function of automatically adjusting the illumination intensity of the glass roof 1 is realized; after a fine day, the water in the lifting barrel 31 evaporates, so that the total weight of the lifting barrel 31 is reduced, and under the action of the first spring 43, the lifting barrel 31 is reset, so that the louver boards 22 are parallel to the ground again, and the indoor sun shading is realized.

When the adjustment of the illumination intensity needs to be accelerated, the operator moves the control plate 26 in the direction away from the lifting bucket 31, so that the water in the lifting bucket 31 flows out from the water outlet 312, the lifting speed of the lifting bucket 31 is accelerated, and the rapid adjustment of the illumination intensity is realized.

When there is water and need carry out fine adjustment to glass top 1 illumination intensity in lift bucket 31, operating personnel moves control panel 26 towards the direction of lift bucket 31, move control panel 26 towards the direction of keeping away from lift bucket 31 again and make spliced pole 521 get into in spread groove 262, connection pad 522 gets into spacing groove 263 simultaneously, operating personnel rotates screw rod 52 again and makes connection pad 522 insert in the hole 264 of stepping down at the top, and then control the position of lift bucket 31, thereby control the angle of shutter 22 and ground, in order to realize the meticulous control of glass top 1 illumination intensity, and can use when having water in lift bucket 31, convenient operation is swift.

When the amount of water in the lifting bucket 31 is small or no water and the illumination intensity of the glass roof 1 needs to be finely adjusted, the lifting bucket 31 moves upwards, and the connecting disc 522 is inserted into the yielding hole 264 at the bottom, so that the lifting bucket 31 can also finely adjust the illumination intensity of the glass roof 1 when the amount of water is small or no water exists.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an illumination intensity adjustable daylighting top, includes glass top (1) and four sides side wall (2), glass top (1) sets up the top at side wall (2) inner wall, its characterized in that: the glass top (1) comprises a first glass plate (11) and a second glass plate (12), the first glass plate (11) and the second glass plate (12) are arranged on the tops of the inner walls of the side walls (2), the first glass plate (11) and the second glass plate (12) are arranged up and down, a plurality of connecting rods (21) are rotatably connected between the two opposite side walls (2), the connecting rods (21) are arranged between the first glass plate (11) and the second glass plate (12), louver plates (22) are fixed on the connecting rods (21), and one ends, far away from the louver plates (22), of the connecting rods (21 extend out of the side walls (2) and are connected with driving components (3);

drive assembly (3): including lift bucket (31), drive gear (32), drive cingulum (33) and actuating lever (34), the one end of shutter plate (22) is kept away from at the connecting rod is fixed in drive gear (32), drive cingulum (33) around establishing on drive gear (32) and mesh mutually, the one end of drive cingulum (33) is fixed on actuating lever (34), the other end is fixed at lift bucket (31) top, lift bucket (31) open-top, actuating lever (34) set up along vertical direction, side wall (2) outer wall is equipped with limiting plate (4), slotted hole (41) have been seted up on limiting plate (4), wear to establish in slotted hole (41) actuating lever (34) slidable, one side that drive cingulum (33) was kept away from in drive lever (34) is fixed with stopper (42), stopper (42) width is greater than slotted hole (41) width, a first spring (43) is arranged between the limiting block (42) and the limiting plate (4).

2. The daylighting roof with adjustable illumination intensity of claim 1, wherein: a sliding cavity (23) is formed in the side wall (2) in the vertical direction, a moving plate (24) is connected to the sliding cavity (23) in a sliding mode, the moving plate (24) can slide in a reciprocating mode in the vertical direction, a sliding hole (25) is formed in the side wall (2) in the horizontal direction, the sliding hole (25) is communicated with the sliding cavity (23), a control plate (26) is connected to the sliding hole (25) in a sliding mode, the control plate (26) can slide in a reciprocating mode in the vertical direction, a through hole (241) is formed in the moving plate (24), the control plate (26) penetrates through the through hole (241) and is connected with the lifting barrel (31), and a locking assembly (5) is arranged below one end, far away from the lifting barrel (31), of the control plate (26);

deadlocking assembly (5): including fixed plate (51) and screw rod (52), fixed plate (51) set up on the inner wall of side wall (2), fixed plate (51) are equipped with screw hole (511), screw rod (52) wear to establish screw hole (511) and with screw hole (511) threaded connection, screw rod (52) are contradicted in the bottom of control panel (26).

3. A daylighting roof with adjustable illumination intensity according to claim 2, characterized in that: the lateral wall of lift bucket (31) is seted up and is supplied control hole (311) that control panel (26) adaptation was worn to establish, delivery port (312) have been seted up to lift bucket (31) bottom, delivery port (312) top is equipped with rubber tube (313), rubber tube (313) are linked together with delivery port (312), control panel (26) are contradicted on rubber tube (313), the top that control panel (26) are located the inside one end of lift bucket (31) is equipped with first fixture block (261), be equipped with on the lateral wall of lift bucket (31) with first fixture block (261) matched with second fixture block (314).

4. A daylighting roof with adjustable illumination intensity according to claim 3, characterized in that: the utility model discloses a lifting bucket, including screw rod (52), connecting column (521), connecting pad (522), control panel (26), control panel (521), control panel (32), connecting pad (521), connecting pad (522), control panel (521) top is provided with connecting pad (521), connecting pad (522) top is the cylindric structure and is coaxial with screw rod (52), the diapire of the one end of keeping away from lifting bucket (31) is seted up and is supplied connecting pad (521) to insert and establish and gliding connecting groove (262), the inside wall of connecting groove (262) is equipped with and supplies connecting pad (522) tip to insert and establish and gliding spacing groove (263).

5. A daylighting roof with adjustable illumination intensity according to claim 4, characterized in that: the top and the bottom of spacing groove (263) inner wall all are equipped with and supply connection pad (522) to insert and establish and pivoted hole of stepping down (264).

6. A daylighting roof with adjustable illumination intensity according to claim 2, characterized in that: the bottom of the inner wall of the sliding cavity (23) is provided with a drain hole (231), one end, far away from the sliding cavity (23), of the drain hole (231) extends to the outer wall of the side wall (2), the top of the inner wall of the sliding cavity (23) is provided with an air inlet hole (232), and one end, far away from the sliding cavity (23), of the air inlet hole (232) extends to the inner wall of the side wall (2).

7. The daylighting roof with adjustable illumination intensity of claim 1, wherein: the outer wall of side wall (2) rotates and is connected with spacing wheel (6), spacing annular (61) have been seted up along its circumference to spacing wheel (6), drive gear (32) are kept away from in edge of drive cingulum (33) is inserted and is established to spacing annular (61).

8. A daylighting roof with adjustable illumination intensity according to claim 7, characterized in that: the outer wall of side wall (2) is equipped with backup pad (7), backup pad (7) below is equipped with supporting shoe (71), supporting shoe (71) bottom is equipped with support groove (72), spacing wheel (6) rotate to be connected in supporting groove (72), be equipped with between backup pad (7) and supporting shoe (71) and be used for supporting shoe (71) second spring (73) that promote towards drive gear (32).

9. The daylighting roof with adjustable illumination intensity of claim 1, wherein: side wall (2) outer wall is equipped with open-top's drainage cell body (8) along its circumference, fixed drain pipe (81) rather than the intercommunication that are equipped with in drainage cell body (8) bottom, drain pipe (81) bottom is located lift bucket (31) opening part directly over.

10. The daylighting roof with adjustable illumination intensity of claim 1, wherein: the connecting rods (21) are all fixed with transmission gears (211), the transmission gears (211) are coaxial with the corresponding connecting rods (21), a reversing gear (212) is arranged between every two adjacent transmission gears (211), the reversing gear (212) is rotatably connected with the inner wall of the side wall (2), and the reversing gear (212) is meshed with the two adjacent transmission gears (211).

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