CN211450752U

CN211450752U - Basement lighting device

Info

Publication number: CN211450752U
Application number: CN202020438864.2U
Authority: CN
Inventors: 莫桦; 叶国锋; 叶玉敬
Original assignee: Guangdong Adway Construction Group
Current assignee: Guangdong Adway Construction Group
Priority date: 2020-03-30
Filing date: 2020-03-30
Publication date: 2020-09-08
Anticipated expiration: 2030-03-30

Abstract

The utility model is suitable for a lighting well device field provides a basement lighting device, which is characterized in that the lighting well device comprises a lighting plate, a lifting lug, a first cylindrical rod, a first cylindrical through hole, a connecting rod, a second cylindrical rod, a third cylindrical rod, a key, a supporting block, a key groove, a supporting rod, a groove, an installation platform, a first forward and reverse rotation motor, a second cylindrical through hole, a third cylindrical through hole, a first string, a second string and a fourth cylindrical through hole; the utility model has the advantages that: the first forward and reverse rotating motor and the second forward and reverse rotating motor are connected with the first string rope and the second string rope, the orientation of the daylighting panel can be adjusted through the cooperation of the first forward and reverse rotating motor and the second forward and reverse rotating motor, bidirectional adjustment can be achieved, and the daylighting effect is improved.

Description

Basement lighting device

Technical Field

The utility model belongs to the lighting well device field especially relates to a basement lighting device.

Background

The lighting well is a well-shaped lighting opening which is built by side windows of the outer wall of the basement in a way of being surrounded by retaining walls. Well type structures which are arranged outside the underground outdoor and the outer wall lighting ports on two sides of the semi-basement, also called as 'window wells', mainly solve the problem that lighting of individual rooms in a building is poor, but the lighting wells also have the functions of ventilation and landscape, if the lighting wells are not arranged, the basement is dark, lamps need to be turned on for a long time, electric energy is wasted, and therefore the lighting wells need to be mined; the large public building is enclosed on four sides, the middle part of the large public building is in a well form, an inner courtyard is built inside the large public building, rooms with insufficient light are arranged around the inner courtyard, the problem of insufficient lighting and ventilation is solved through the courtyard, and the large public building is generally mainly used for shopping malls, hotels and government office buildings. The light well is generally used for buildings which can not be directly lighted, such as basements, garages and the like, and is mostly directly arranged on the ground, and a steel structure (stainless steel) is used as a framework, and light-permeable media such as toughened glass and the like are used for capping.

Present basement lighting device, daylighting board are mostly closed or can only toward a direction rotatory, however get off a day, and the angle of sun is constantly changeable, and when the angle changes, daylighting board can only the unidirectional rotation or irrotational, and daylighting efficiency can reduce.

SUMMERY OF THE UTILITY MODEL

The utility model provides a basement daylighting device aims at solving the problem that the plane skylight that provides can not two-way rotation in the background art.

The utility model discloses a realized like this, a basement daylighting device, its characterized in that, including plane skylight, lug, first cylinder pole, first cylinder through-hole, connecting rod, second cylinder pole, third cylinder pole, key, supporting shoe, keyway, bracing piece, recess, mounting platform, first positive and negative motor, second cylinder through-hole, third cylinder through-hole, first string, second string and fourth cylinder through-hole; the lower surface of one end of the daylighting panel is symmetrically provided with two lifting lugs, two first cylindrical through holes are formed on the two lifting lugs, a first cylindrical rod penetrates through the two first cylindrical through holes, two second cylindrical rods are installed at two ends of the first cylindrical rod, two connecting rods are installed between the first cylindrical rod and the lifting lugs, two second cylindrical through holes are formed at two ends of each connecting rod, a third cylindrical rod is installed in the two second cylindrical through holes at one end, far away from the lifting lugs, of the two connecting rods, a key is formed on the third cylindrical rod, a supporting block is installed in the middle of the third cylindrical rod, a key groove is formed in the supporting block, the key is matched with the key groove, and the two second cylindrical rods are installed at two ends of the third cylindrical rod, four support rods are arranged below the four second cylindrical rods, four grooves are formed at one ends of the four support rods close to the four second cylindrical rods, the second cylindrical rods are arranged in the grooves, two mounting platforms are formed between the four support rods and are symmetrically arranged, the two mounting platforms are arranged in parallel with the first cylindrical rods and the third cylindrical rods, a first forward and reverse rotating motor is arranged on the mounting platform below the first cylindrical rods, a second forward and reverse rotating motor is arranged on the mounting platform below the third cylindrical rods, a fourth cylindrical through hole is formed at one end of the daylighting panel close to the lifting lug, a third cylindrical through hole is formed at one end of the daylighting panel far away from the lifting lug, and the third cylindrical through hole and the fourth cylindrical through hole are positioned on different vertical planes, the output shaft of the first forward and reverse rotation motor is wound with one first string, the other end of the first string penetrates through the third cylindrical through hole to be connected with the daylighting panel, the output shaft of the second forward and reverse rotation motor is wound with one second string, the other end of the second string penetrates through the fourth cylindrical through hole to be connected with the daylighting panel, and when the daylighting panel is in a horizontal state, half of the first string and the second string are wound on the output shafts of the first forward and reverse rotation motor and the second forward and reverse rotation motor.

Furthermore, the daylighting panel adopts high strength daylighting panel, first string and second string adopt nylon materials to make.

Furthermore, the first cylindrical rod is in clearance fit with two connecting rods, the four second cylindrical rods are in clearance fit with four supporting rods, the third cylindrical rod is in clearance fit with two connecting plates, and the third cylindrical rod is in clearance fit with the supporting block.

Furthermore, the daylighting panel is connected with the two lifting lugs through bolts, and the first forward and reverse rotation motor and the second forward and reverse rotation motor are connected with the mounting platform through bolts.

Furthermore, the first forward and reverse rotation motor and the second forward and reverse rotation motor are connected with an external controller.

When the device is used, when the daylighting panel needs to rotate upwards around the first cylindrical rod as a rotation center, the first string is wound by controlling the first forward and reverse rotation motor by the external controller, the second forward and reverse rotation motor rotates in the same direction to slowly wind the second string, the daylighting panel rotates upwards with the first cylindrical rod as the rotation center by the tensile force of the first string, when the daylighting panel needs to rotate upwards around the third cylindrical rod as the rotation center, the second forward and reverse rotation motor is controlled by the external controller to wind the second string, the first forward and reverse rotation motor rotates in the same direction to slowly wind the first string, the daylighting panel rotates upwards with the third cylindrical rod as the rotation center by the tensile force of the second string, when the daylighting panel is in a horizontal state, two ends of the first cylindrical rod are connected with the second cylindrical rod, the second cylindrical rod is placed in the groove of the supporting rod, provide the support for the plane skylight of first cylinder pole one side, be formed with the key on the third cylinder pole, wear to be equipped with a supporting shoe on the third cylinder pole, through the cooperation with the keyway, the supporting shoe can rotate together with the third cylinder pole, is close to third cylinder pole one side for the plane skylight and provides the support, when the installation, needs arrange the direction of rotation of plane skylight along east and west direction. The utility model has the advantages that: the first forward and reverse rotating motor and the second forward and reverse rotating motor are connected with the first string rope and the second string rope, the orientation of the daylighting panel can be adjusted through the cooperation of the first forward and reverse rotating motor and the second forward and reverse rotating motor, bidirectional adjustment can be achieved, and the daylighting effect is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of a first viewing angle provided by the present invention;

fig. 2 is a schematic view of the overall structure of a second viewing angle provided by the present invention;

FIG. 3 is a schematic view of a connection plate provided by the present invention;

fig. 4 is a schematic view of a third cylindrical rod provided by the present invention;

fig. 5 is a schematic view of the support block provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 5, a lighting device for a basement is characterized by comprising a lighting plate 1, a lifting lug 2, a first cylindrical rod 3, a first cylindrical through hole 4, a connecting rod 5, a second cylindrical rod 6, a third cylindrical rod 7, a key 8, a supporting block 9, a key slot 10, a supporting rod 11, a groove 12, a mounting platform 13, a first forward and reverse rotation motor 14, a second forward and reverse rotation motor 15, a second cylindrical through hole 16, a third cylindrical through hole 17, a first string 18, a second string 19 and a fourth cylindrical through hole 20; the lower surface of one end of the daylighting panel 1 is symmetrically provided with two lifting lugs 2, two first cylindrical through holes 4 are formed on the two lifting lugs 2, a first cylindrical rod 3 penetrates through the two first cylindrical through holes 4, two second cylindrical rods 6 are arranged at two ends of the first cylindrical rod 3, two connecting rods 5 are arranged between the first cylindrical rod 3 and the lifting lugs 2, two second cylindrical through holes 16 are formed at two ends of the connecting rods 5, a third cylindrical rod 7 is arranged in the two second cylindrical through holes 16 at one end of the two connecting rods 5 far away from the lifting lugs 2, a key 8 is formed on the third cylindrical rod 7, a supporting block 9 is arranged in the middle of the third cylindrical rod 7, a key groove 10 is formed in the supporting block 9, and the key 8 is matched with the key groove 10, two second cylindrical rods 6 are arranged at two ends of the third cylindrical rod 7, four support rods 11 are arranged below the four second cylindrical rods 6, four grooves 12 are formed at one ends of the four support rods 11 close to the four second cylindrical rods 6, the second cylindrical rods 6 are arranged in the grooves 12, two mounting platforms 13 are formed between the four support rods 11, the two mounting platforms 13 are symmetrically arranged, the two mounting platforms 13 are arranged in parallel with the first cylindrical rod 3 and the third cylindrical rod 7, a first forward and reverse rotation motor 14 is arranged on the mounting platform 13 below the first cylindrical rod 3, a second forward and reverse rotation motor 15 is arranged on the mounting platform 13 below the third cylindrical rod 7, and a fourth cylindrical through hole 20 is formed at one end of the daylighting panel 1 close to the lifting lug 2, one end, far away from the lifting lug 2, of the daylighting panel 1 is provided with a third cylindrical through hole 17, the third cylindrical through hole 17 and a fourth cylindrical through hole 20 are located on different vertical planes, an output shaft of the first forward and reverse rotation motor 14 is wound with a first string 18, the other end of the first string 18 penetrates through the third cylindrical through hole 17 to be connected with the daylighting panel 1, an output shaft of the second forward and reverse rotation motor 15 is wound with a second string 19, the other end of the second string 19 penetrates through the fourth cylindrical through hole 20 to be connected with the daylighting panel 1, and when the daylighting panel 1 is in a horizontal state, half of the first string 18 and the second string 19 are wound on output shafts of the first forward and reverse rotation motor 14 and the second forward and reverse rotation motor 15.

The daylighting panel 1 adopts high strength daylighting panel, daylighting that can be better, first string 18 and second string 19 adopts the nylon materials to make, and the pulling force that can bear is big, wear-resisting.

The first cylindrical rods 3 are in clearance fit with the two connecting rods 5, the four second cylindrical rods 6 are in clearance fit with the four supporting rods 11, the third cylindrical rods 7 are in clearance fit with the two connecting plates 5, the third cylindrical rods 7 are in clearance fit with the supporting blocks 9, and the clearance fit can better rotate.

The lighting panel 1 is connected with the two lifting lugs 2 through bolts, and the first forward and reverse rotating motor 14 and the second forward and reverse rotating motor 15 are connected with the mounting platform 13 through bolts and can be detached through bolts.

The first forward and reverse rotating motor 14 and the second forward and reverse rotating motor 15 are connected with an external controller, and the starting and the closing of the motors are controlled by the external controller.

When the device is used, when the daylighting panel 1 needs to rotate upwards around the first cylindrical rod 3 as a rotation center, the first forward and reverse rotation motor 14 is controlled by an external controller to wind the first string 18, the second forward and reverse rotation motor 15 rotates in the same direction to slowly wind the second string 19, the daylighting panel 1 rotates upwards with the first cylindrical rod 3 as the rotation center through the pulling force of the first string 18, when the daylighting panel 1 needs to rotate upwards around the third cylindrical rod 7 as the rotation center, the second forward and reverse rotation motor 15 is controlled by the external controller to wind the second string 19, the first forward and reverse rotation motor 14 rotates in the same direction to slowly wind the first string 18, the daylighting panel 1 rotates upwards with the third cylindrical rod 7 as the rotation center through the pulling force of the second string 19, when the daylighting panel 1 is in a horizontal state, two ends of the first cylindrical rod 3 are connected with the second cylindrical rod 6, the second cylinder pole 6 is placed in the recess 12 of bracing piece 11, provides the support for the plane skylight 1 of first cylinder pole 3 one side, is formed with the key 8 on the third cylinder pole 7, wears to be equipped with a supporting block 9 on the third cylinder pole 7, through the cooperation with keyway 10, supporting block 9 can rotate together with third cylinder pole 7, is close to third cylinder pole 7 one side for plane skylight 1 and provides the support, when the installation, need arrange the direction of rotation of plane skylight 1 along the east-west direction.

The utility model has the advantages that: the first forward and reverse rotating motor 14 and the second forward and reverse rotating motor 15 are connected with the first string 18 and the second string 19, and the orientation of the daylighting panel 1 can be adjusted through the matching of the first forward and reverse rotating motor 14 and the second forward and reverse rotating motor 15, so that the bidirectional adjustment can be realized, and the daylighting effect is improved.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A lighting device for a basement is characterized by comprising a lighting plate (1), a lifting lug (2), a first cylindrical rod (3), a first cylindrical through hole (4), a connecting rod (5), a second cylindrical rod (6), a third cylindrical rod (7), a key (8), a supporting block (9), a key slot (10), a supporting rod (11), a groove (12), a mounting platform (13), a first forward and reverse rotation motor (14), a second forward and reverse rotation motor (15), a second cylindrical through hole (16), a third cylindrical through hole (17), a first string (18), a second string (19) and a fourth cylindrical through hole (20); the lighting board is characterized in that two lifting lugs (2) are symmetrically arranged on the lower surface of one end of the lighting board (1), two first cylindrical through holes (4) are formed in the two lifting lugs (2), one first cylindrical rod (3) penetrates through the two first cylindrical through holes (4), two second cylindrical rods (6) are arranged at the two ends of the first cylindrical rod (3), two connecting rods (5) are arranged between the first cylindrical rod (3) and the lifting lugs (2), two second cylindrical through holes (16) are formed at the two ends of each connecting rod (5), one third cylindrical rod (7) is arranged in the two second cylindrical through holes (16) at one end, far away from the lifting lugs (2), of each connecting rod (5), one key (8) is formed on each third cylindrical rod (7), and one supporting block (9) is arranged in the middle of each third cylindrical rod (7), the supporting block (9) is internally provided with a key slot (10), the key (8) is matched with the key slot (10), two second cylindrical rods (6) are arranged at two ends of the third cylindrical rod (7), four supporting rods (11) are arranged below the four second cylindrical rods (6), four grooves (12) are formed at one ends, close to the four second cylindrical rods (6), of the four supporting rods (11), the second cylindrical rods (6) are arranged in the grooves (12), two mounting platforms (13) are formed between the four supporting rods (11), the two mounting platforms (13) are symmetrically arranged, the two mounting platforms (13) are arranged in parallel with the first cylindrical rod (3) and the third cylindrical rod (7), a first forward and reverse rotation motor (14) is arranged on the mounting platform (13) below the first cylindrical rod (3), the mounting platform (13) below the third cylindrical rod (7) is provided with a second forward and reverse rotation motor (15), one end, close to the lifting lug (2), of the daylighting panel (1) is provided with a fourth cylindrical through hole (20), one end, far away from the lifting lug (2), of the daylighting panel (1) is provided with a third cylindrical through hole (17), the third cylindrical through hole (17) and the fourth cylindrical through hole (20) are located on different vertical planes, an output shaft of the first forward and reverse rotation motor (14) is wound with a first thin rope (18), the other end of the first thin rope (18) penetrates through the third cylindrical through hole (17) to be connected with the daylighting panel (1), an output shaft of the second forward and reverse rotation motor (15) is wound with a second thin rope (19), and the other end of the second thin rope (19) penetrates through the fourth cylindrical through hole (20) to be connected with the daylighting panel (1), when the daylighting panel (1) is in a horizontal state, half of the first string (18) and the second string (19) are wound on output shafts of the first forward and reverse rotating motor (14) and the second forward and reverse rotating motor (15).

2. A basement lighting device according to claim 1, wherein the lighting panel (1) is a high-strength lighting panel, and the first string (18) and the second string (19) are made of nylon material.

3. A basement light according to claim 1, wherein the first cylindrical rod (3) is in clearance fit with two of the connecting rods (5), four of the second cylindrical rods (6) is in clearance fit with four of the supporting rods (11), the third cylindrical rod (7) is in clearance fit with two of the connecting rods (5), and the third cylindrical rod (7) is in clearance fit with the supporting block (9).

4. A basement lighting device according to claim 1, wherein the lighting panel (1) is connected with the two lifting lugs (2) through bolts, and the first forward and reverse rotation motor (14) and the second forward and reverse rotation motor (15) are connected with the mounting platform (13) through bolts.

5. The lighting device for basement according to claim 1, wherein the first motor (14) and the second motor (15) are connected to an external controller.