CN109595520B

CN109595520B - Energy-saving lighting device for building construction

Info

Publication number: CN109595520B
Application number: CN201811514651.7A
Authority: CN
Inventors: 不公告发明人
Original assignee: Middle East Infrastructure Technology Group Construction Co ltd
Current assignee: Middle East Infrastructure Technology Group Construction Co.,Ltd.
Priority date: 2018-12-12
Filing date: 2018-12-12
Publication date: 2021-12-24
Anticipated expiration: 2038-12-12
Also published as: CN109595520A

Abstract

The invention discloses an energy-saving lighting device for building construction, and relates to the technical field of lighting equipment. The invention includes a substrate; one surface of the substrate is provided with an installation frame body in a regular polygon structure; the inner side of the mounting frame body is provided with a lighting lamp; the illuminating lamp is arranged on the surface of the substrate; a plurality of rotating shafts are uniformly distributed on one surface of the mounting frame body; the rotating shafts correspond to the edges of the mounting frame body one by one, and each rotating shaft is in rotating fit with each edge of the mounting frame body; one end of each rotating shaft is fixedly sleeved with a transfer block; a rotating plate is obliquely arranged on one surface of the transfer block; a first solar cell panel is arranged on one surface of the rotating plate. According to the invention, the installation frame body is arranged on the outer side provided with the illuminating lamp, and the rotating plate with the solar cell panel is arranged on each side of the installation frame body, so that clean energy is provided for the use of the illuminating lamp, and the illuminating lamp has higher market popularization value.

Description

Energy-saving lighting device for building construction

Technical Field

The invention belongs to the technical field of lighting equipment, and particularly relates to an energy-saving lighting device for building construction.

Background

At present, in the existing architectural illuminating lamp, the structure of the existing architectural illuminating lamp is mainly formed by simply combining a lamp body and a bracket, and the illuminating equipment is generally fixed above a building site at a certain height so as to meet the illumination requirement of night construction of the building site. Due to the fact that the working area of the construction site is large, the lighting device needs to provide high light intensity to meet the use requirement. At present, current lighting apparatus for construction can provide higher illumination intensity to a certain extent, but has the power consumption energy consumption great, uses a large amount of electric quantities of meeting consumption at night, leads to the power consumption proportion of whole building site unbalanced, influences the power consumption of other equipment on the construction. Therefore, it is necessary to develop an energy-saving lighting device for building construction so as to solve the above problems.

Disclosure of Invention

The invention aims to provide an energy-saving lighting device for building construction, which is characterized in that an installation frame body is arranged at the outer side of an illuminating lamp, and a rotating plate with a solar cell panel is arranged on each side of the installation frame body, so that clean energy is provided for the use of the illuminating lamp, the power consumption of lighting equipment is effectively ensured, the influence on the power consumption of other equipment on a building site is reduced, and the problems in the background art are solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an energy-saving lighting device for building construction, which comprises a substrate; one surface of the substrate is provided with an installation frame body in a regular polygon structure; an illuminating lamp is arranged on the inner side of the mounting frame body; the illuminating lamp is arranged on one surface of the substrate; a plurality of rotating shafts are uniformly distributed on one surface of the mounting frame body; the rotating shafts correspond to the edges of the mounting frame body one by one, and each rotating shaft is in rotating fit with each edge of the mounting frame body; one end of each rotating shaft is fixedly sleeved with a transfer block; a rotating plate is obliquely arranged on one surface of the transfer block; a first solar cell panel is arranged on one surface of the rotating plate; (ii) a Each side of the mounting frame body (101) is provided with an inner cavity structure; the inner cavities of a plurality of sides of the installation frame body (101) are communicated to form an installation cavity (1011); a plurality of fixed pulleys (4) are uniformly distributed in the mounting cavity (1011), and each fixed pulley (4) is arranged at the joint of two adjacent edges of the mounting frame body (101); a plurality of fixed pulleys (4) are wound with a transmission rope (401) which is matched with each other; a first guide rail (5) is arranged between every two adjacent fixed pulleys (4); two adjacent first guide rails (5) are connected through a transmission rope (401) on a fixed pulley (4) between the two first guide rails (5); the first guide rails (5) correspond to the sides of the mounting frame body (101) one by one, and each first guide rail (5) is provided with a positioning rack (501) in a sliding manner; the positioning racks (501) correspond to the rotating shafts (2) on the mounting frame body (101) one by one; the other ends of the rotating shafts (2) on the mounting frame body (101) extend into the mounting cavity (1011) in a penetrating manner and are provided with positioning gears (202) meshed with the positioning racks (501); a power telescopic rod (6) is arranged in the mounting cavity (1011); the power telescopic rod (6) is arranged on one side of the first guide rail (5) in the installation cavity (1011), and the power end of the power telescopic rod (6) is connected with one end of the positioning rack (501) on the first guide rail (5); the telescopic end 9 of the power telescopic rod 6 is fixedly connected with a push plate 10, the other end of the push plate 10 is fixedly connected with a push rod 11, two ends of the push plate 10 are respectively and fixedly connected with a positioning rack 501 and a short rack 26, one end of the push rod 11 is fixedly connected with an inverted Z-shaped bent pipe 12, and an upper bolt 16 and a lower bolt 20 are arranged on the Z-shaped bent pipe 12; an upper fixing plate 13 with an opening is arranged in the upper end of the elbow 12, an upper spring 14 is fixedly arranged above the upper fixing plate 13, an upper sealing sliding plate 15 is arranged at the upper end of the upper spring 14, a lower fixing plate 17 with an opening is arranged in the lower end of the elbow 12, a lower spring 18 is fixedly arranged below the lower fixing plate 17, a lower sealing sliding plate 19 is arranged at the lower end of the lower spring 18, an upper bolt 16 and a lower bolt 20 are respectively arranged at the outer sides of the upper sealing sliding plate 15 and the lower sealing sliding plate 19, a second guide rail 25 is arranged in the middle of the mounting frame body, a short rack 26 is positioned on the second guide rail 25, the positioning rack 501 and the short rack are close to one end of the power expansion link 6, the length of the short rack 26 is shorter than that of the positioning rack 501, a fan 21 is arranged at one side of the elbow 12 away from the power expansion link 6, the first wind gap of fan 21 passes through hose 24 and lets in inside return bend 12, the second wind gap of fan 21 is through running through the vent of installation frame body is connected to installation cavity 1011, installation cavity 1011 is in the ventilation hole has been seted up around light 102.

Furthermore, a second solar cell panel is arranged on the surface of the other surface of the substrate opposite to the surface where the installation frame is arranged.

Furthermore, the power telescopic rod adopts one of an electric telescopic rod, a hydraulic telescopic rod or a pneumatic telescopic rod.

Furthermore, a light-gathering plate is arranged on the surface of the rotating plate opposite to the surface of the first solar cell panel.

Further, the rotating plate is of a triangular structure; the rotating plate is a steel plate.

The invention has the following beneficial effects:

according to the invention, the installation frame body is arranged on the outer side provided with the illuminating lamp, and the rotating plate with the solar cell panel and the light condensing plate is arranged on each side of the installation frame body, so that clean energy is provided for the use of the illuminating lamp, the illumination intensity of illuminating equipment is effectively improved, the influence on the electricity consumption of other equipment on a building site is reduced, the balance of the electricity consumption proportion on the whole building site is ensured, and the solar energy illuminating lamp has higher market application value.

The invention makes up the defect of opening and closing of the switching block on the one hand through the matching action of the telescopic end, the push plate, the push rod, the inverted Z-shaped bent pipe, the upper fixing plate, the upper spring, the upper sealing sliding plate, the upper bolt, the lower fixing plate, the lower spring, the lower sealing sliding plate, the lower bolt, the fan, the first air port, the second air port, the hose, the second guide rail, the short rack, the lower gear, the thread block, the fixing block, the adjusting plate, the pull rope, the fixing plate, the reflecting plate and the thread shaft, and when the switching block is not connected with the fixing action of contacting the rotating plate, the short rack starts to contact the lower gear so as to start to adjust the rotating plate, thereby realizing the adjustment of any angle, and blowing is carried out on the installation cavity through the fan, the temperature of the power telescopic rod and the rack and the gear inside the power telescopic rod is reduced, and the installation cavity is uniformly filled with air, so that the air holes are uniformly blown around the illuminating lamp to realize uniform cooling, the adjusting plate can be well pushed to adjust the angle of the rotating plate after the rotating plate is in contact with and limited by the adjusting plate in an up-and-down movement mode, light is uniformly emitted downwards in a matching mode with reflection of the reflecting plate, and the uniformity and the irradiation area of the light are greatly improved by matching the light condensation effect of the light condensation plate.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an energy-saving lighting device for building construction according to the present invention;

FIG. 2 is a schematic structural view of a plurality of rotating plates assembled to a mounting frame according to the present invention;

FIG. 3 is a schematic view of a plurality of pivotal plates deployed and mounted on the mounting frame according to the present invention;

FIG. 4 is a schematic view of the internal structure of the mounting frame of the present invention;

FIG. 5 is a detailed view of the internal structure of the mounting frame of the present invention;

fig. 6 is a schematic view of an upper adjustment structure of the illumination lamp.

In the drawings, the components represented by the respective reference numerals are listed below:

1-base plate, 2-rotating shaft, 3-rotating plate, 4-fixed pulley, 5-first guide rail, 6-power telescopic rod, 7-base, 8-support rod, 9-telescopic end, 10-push plate, 11-push rod, 12-inverted Z-shaped bent pipe, 13-upper fixing plate, 14-upper spring, 15-upper sealing sliding plate, 16-upper bolt, 17-lower fixing plate, 18-lower spring, 19-lower sealing sliding plate, 20-lower bolt, 21-fan, 22-first air port, 23-second air port, 24-hose, 25-second guide rail, 26-short rack, 27-lower gear, 28-thread block, 29-fixing block, 30-adjusting plate, 31-pull rope, 32-fixing plate, 33-reflecting plate, 34-threaded shaft, 101-mounting frame body, 102-illuminating lamp, 103-second solar panel, 201-switching block, 202-positioning gear, 301-first solar panel, 302-light-gathering plate, 401-driving rope, 501-positioning rack, 801-locking rod and 1011-mounting chamber.

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.

Referring to fig. 1-4, the present invention relates to an energy saving lighting device for building construction, which comprises a base plate 1, a base 7 and a support rod 8; a mounting frame 101 with a regular quadrilateral structure is arranged on one surface of the substrate 1; an illuminating lamp 102 is arranged on the inner side of the mounting frame body 101; the illuminating lamp 102 is arranged on one surface of the substrate 1; four rotating shafts 2 are uniformly distributed on one surface of the mounting frame body 101; the four rotating shafts 2 correspond to four sides of the mounting frame body 101 one by one, and each rotating shaft 2 is in rotating fit with each side of the mounting frame body 101; one end of each rotating shaft 2 is fixedly sleeved with a transfer block 201; a rotating plate 3 in a triangular structure is obliquely arranged on one surface of the transfer block 201; a first solar cell panel 301 is arranged on one surface of each of the four rotating plates 3; the four rotating plates 3 form a regular rectangular pyramid structure when being folded; a supporting rod 8 is arranged on the upper surface of the base 7; the upper end of the supporting rod is provided with a locking rod 801; one end of the locking rod 801 is fixedly connected to the mounting frame 101.

The other surface of the substrate 1 opposite to the surface where the mounting frame 101 is located is provided with a second solar cell panel 103. Through set up second solar cell panel 103 on base plate 1, the rational utilization this structure, also increased this lighting device's energy reserve simultaneously, improved energy-conserving efficiency.

Wherein, four sides of the installation frame body 101 are provided with inner cavity structures; the inner cavities of the four sides of the installation frame body 101 are communicated to form an installation cavity 1011; four fixed pulleys 4 are uniformly distributed in the installation cavity 1011, and each fixed pulley 4 is arranged at the joint of two adjacent edges of the installation frame body 101; the four fixed pulleys 4 are respectively wound with a transmission rope 401 which is matched with the fixed pulleys; a guide rail 5 is arranged between two adjacent fixed pulleys 4; two adjacent first guide rails 5 are connected through a transmission rope 401 on the fixed pulley 4 between the two first guide rails 5; the four first guide rails 5 correspond to the four sides of the mounting frame 101 one by one, and each first guide rail 5 is provided with a positioning rack 501 in a sliding manner; the four positioning racks 501 correspond to the four rotating shafts 2 on the installation frame body 101 one by one; the other ends of the four rotating shafts 2 on the installation frame body 101 extend into the installation cavity 1011 in a penetrating way and are provided with a positioning gear 202 meshed with the positioning rack 501; a power telescopic rod 6 is arranged in the mounting cavity 1011; the power telescopic rod 6 adopts an electric telescopic rod; the power telescopic rod 6 is disposed at one side of a first guide rail 5 in the installation chamber 1011, and a power end of the power telescopic rod 6 is connected to one end of the positioning rack 501 on the first guide rail 5. The power telescopic rod 6 is arranged to drive the positioning rack 501 to slide on the first guide rail 5, and the positioning gear 202 drives the rotating shaft 2 to rotate, so that the switching between the folding state and the unfolding state of the four rotating plates 3 is realized, and the practical value of the lighting device is ensured.

Wherein, a light-gathering plate 302 is arranged on the surface of the other of the four rotating plates 3 opposite to the surface of the first solar cell panel 301. By providing the light collecting plate 302 on the rotating plate 3, when the four rotating plates 3 are unfolded, the light collecting plate 302 is located on the peripheral side of the illumination lamp 102, so that the light intensity of the illumination lamp 102 is enhanced, and the energy-saving effect is further achieved.

Further, the applicant finds that the above structure can play a good role in use, but the rotating block 201 can fix the rotating plate 3 well in the rotating process and can release the fixation of the rotating plate 3 after rotating for a certain angle, the rotating plate 3 can start under the action of gravity, but the opening angle in opening is limited, sometimes the requirement cannot be met, and because the rotating plate 3 is usually arranged at a high place and is subjected to large wind force, the rotating plate 3 is easy to rotate and damage, and the angle of the rotating plate cannot be well adjusted so that the solar cell panel faces the sunlight, and in use, an energy-saving LED illuminating lamp is usually adopted, the temperature is extremely high, particularly, the temperature is seriously declined in high-temperature weather, the temperature problem cannot be well solved, even under the action of the wind force, the indirect acting force applied to the power telescopic rod through the rotating plate 3 is very large, so that the power telescopic rod 6 is easy to break down, therefore, the applicant further improves the power telescopic rod, and the specific scheme is as follows: as shown in fig. 5 and 6, each side of the mounting frame 101 has an inner cavity structure; the inner cavities of the sides of the installation frame body 101 are communicated to form an installation cavity 1011; a plurality of fixed pulleys 4 are uniformly distributed in the mounting cavity 1011, and each fixed pulley 4 is arranged at the joint of two adjacent edges of the mounting frame 101; a transmission rope 401 matched with the fixed pulleys 4 is wound on each fixed pulley; two adjacent fixed pulleys (a first guide rail 5 is arranged between the two adjacent fixed pulleys; two adjacent first guide rails (5) are connected through a transmission rope 401 on a fixed pulley 4 between the two first guide rails 5; the first guide rails 5 are in one-to-one correspondence with a plurality of edges of the installation frame body 101, a positioning rack 501 is arranged on each first guide rail 5 in a sliding mode, the positioning racks 501 are in one-to-one correspondence with a plurality of rotating shafts 2 on the installation frame body 101; the other ends of the rotating shafts 2 on the installation frame body 101 penetrate through the installation chamber 1011 and are provided with positioning gears 202 meshed with the positioning racks 501; a power telescopic rod 6 is arranged in the installation chamber 1011; the power telescopic rod 6 is arranged on one side of the first guide rails 5 in the installation chamber 1011, the power end of the power telescopic rod 6 is connected with one end of the positioning racks 501 on the first guide rails 5; and the telescopic end 9 of the power telescopic rod 6 is connected with one end of the fixed pulley 4 The push plate 10 is fixedly connected, the other end of the push plate 10 is fixedly connected with a push rod 11, two ends of the push plate 10 are respectively and fixedly connected with a positioning rack 501 and a short rack 26, one end of the push rod 11 is fixedly connected with an inverted Z-shaped bent pipe 12, and an upper bolt 16 and a lower bolt 20 are arranged on the Z-shaped bent pipe 12; an upper fixing plate 13 with an opening is arranged in the upper end of the elbow 12, an upper spring 14 is fixedly arranged above the upper fixing plate 13, an upper sealing sliding plate 15 is arranged at the upper end of the upper spring 14, a lower fixing plate 17 with an opening is arranged in the lower end of the elbow 12, a lower spring 18 is fixedly arranged below the lower fixing plate 17, a lower sealing sliding plate 19 is arranged at the lower end of the lower spring 18, an upper bolt 16 and a lower bolt 20 are respectively arranged at the outer sides of the upper sealing sliding plate 15 and the lower sealing sliding plate 19, a second guide rail 25 is arranged in the middle of the mounting frame body, a short rack 26 is positioned on the second guide rail 25, the positioning rack 501 and the short rack are close to one end of the power expansion link 6, the length of the short rack 26 is shorter than that of the positioning rack 501, a fan 21 is arranged at one side of the elbow 12 away from the power expansion link 6, the first wind gap of fan 21 passes through hose 24 and lets in inside return bend 12, the second wind gap of fan 21 is through running through the vent of installation frame body is connected to installation cavity 1011, installation cavity 1011 is in the ventilation hole has been seted up around light 102. During specific work, the telescopic end 9 of the power telescopic rod 6 pushes the push plate 10 to move, the push plate 10 pushes the positioning rack 501 and the short rack 26 to move, the short rack is shorter and does not contact with the lower gear 27 at the beginning, so only the positioning gear 202 moves to drive the rotating shaft 2 to move and the rotating shaft 2 drives the transfer block 201 to move, so as to open and close the rotating plate 3, when the rotating plate is opened to a certain degree, the short rack 26 starts to contact with the lower gear 27 after one end side of the transfer block 201 completely leaves the rotating plate 3, the lower gear 27 moves to drive the thread block 28 to move up and down, the threaded hole 28 drives the pull rope 31 to move up and down, thereby driving the adjusting plate 30 to move up and down, on one hand, the movement of the adjusting plate 30 pushes the outer side of the adjusting plate 30 to move up and down the rotating plate 3 to limit the influence of wind power on the rotating plate 3 to a certain degree, on the other hand, the movement of the adjusting plate makes the reflecting plate 33 move along with the movement, so as to adjust the reflecting angle of the illuminating lamp, and the illumination uniformity of the illuminating lamp is improved by matching with the light gathering plate 302, after the rotating plate 3 reaches a preset position, the power telescopic rod 6 stops moving, so that the positioning gear and the lower gear start to limit the rotating plate, meanwhile, in order to reduce the wind force effect on the gear and the power telescopic rod, after illumination and limiting, the controller starts the fan 21 and starts the first wind port to blow the complete pipe 12, wind enters the bent pipe 12 through the first wind port and the hose 24, contacts the upper sealing sliding plate 15 on the upper spring 14 through the holes of the upper fixing plate 13 and the lower fixing plate 17 in the bent pipe 12, and contacts the lower sealing sliding plate 19 below the lower spring 18, and the upper sealing sliding plate and the lower sealing sliding plate start to move towards the outside along with the increase of pressure, the upper bolt and the lower bolt start to limit the positioning gear 202 and the lower gear 27, after a certain pressure value is reached, the controller controls the first air port to be closed and sealed, so that the limiting effect of the bolt on the gear is kept, the wind force mainly acts on the bolt and does not play an uninterrupted impact effect on the power telescopic rod, the other side is started, when the temperature is higher, the controller opens the fan and the second air port, so that the wind enters the installation cavity 1011, the temperature in the cavity is uniformly filled with the wind to reduce the temperature in the cavity, the temperature of the power telescopic rod, the gear and the rack is reduced, the uniform wind enters the periphery of the illuminating lamp through holes around the illuminating lamp in the installation cavity, the temperature of the illuminating lamp is started to be reduced, so that the service life of the illuminating lamp is prolonged, and the rotating plate 3 is provided with a final sensor, so that the angle of the rotating plate can be adjusted according to the irradiation angle of sunlight, to maximize the efficiency of power generation.

To sum up, through the matching action of the telescopic end, the push plate, the push rod, the inverted Z-shaped bent pipe, the upper fixing plate, the upper spring, the upper sealing sliding plate, the upper bolt, the lower fixing plate, the lower spring, the lower sealing sliding plate, the lower bolt, the fan, the first air port, the second air port, the hose, the second guide rail, the short rack, the lower gear, the threaded block, the fixing block, the adjusting plate, the pull rope, the fixing plate, the reflecting plate and the threaded shaft, on one hand, the defect of opening and closing of the switching block is overcome, when the switching block is not connected with the fixing action of contact on the rotating plate, the short rack starts to contact with the lower gear, so that the rotating plate starts to be adjusted, and therefore, the adjustment of any angle is realized, and the fan blows air to the installation cavity, the temperature of the power telescopic rod and the rack and the gear inside of the power telescopic rod is reduced, and the air is uniformly filled in the installation cavity, so that the air holes are uniformly blown around the illuminating lamp to realize uniform cooling, the adjusting plate can be well pushed to adjust the angle of the rotating plate after the rotating plate is in contact with and limited by the adjusting plate in an up-and-down movement mode, light is uniformly emitted downwards in a matching mode with reflection of the reflecting plate, and the uniformity and the irradiation area of the light are greatly improved by matching the light condensation effect of the light condensation plate.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. An energy-saving lighting device for building construction is characterized by comprising a substrate (1); a mounting frame body (101) in a regular polygon structure is arranged on one surface of the substrate (1); an illuminating lamp (102) is arranged on the inner side of the mounting frame body (101); the illuminating lamp (102) is arranged on one surface of the substrate (1); a plurality of rotating shafts (2) are uniformly distributed on one surface of the mounting frame body (101); the rotating shafts (2) correspond to the edges of the mounting frame body (101) one by one, and each rotating shaft (2) is in running fit with each edge of the mounting frame body (101); one end of each rotating shaft (2) is fixedly sleeved with a transfer block (201); a rotating plate (3) is obliquely arranged on one surface of the transfer block (201); a first solar cell panel (301) is arranged on one surface of the rotating plate (3); each side of the mounting frame body (101) is provided with an inner cavity structure; the inner cavities of a plurality of sides of the installation frame body (101) are communicated to form an installation cavity (1011); a plurality of fixed pulleys (4) are uniformly distributed in the mounting cavity (1011), and each fixed pulley (4) is arranged at the joint of two adjacent edges of the mounting frame body (101); a plurality of fixed pulleys (4) are wound with a transmission rope (401) which is matched with each other; a first guide rail (5) is arranged between every two adjacent fixed pulleys (4); two adjacent first guide rails (5) are connected through a transmission rope (401) on a fixed pulley (4) between the two first guide rails (5); the first guide rails (5) correspond to the sides of the mounting frame body (101) one by one, and each first guide rail (5) is provided with a positioning rack (501) in a sliding manner; the positioning racks (501) correspond to the rotating shafts (2) on the mounting frame body (101) one by one; the other ends of the rotating shafts (2) on the mounting frame body (101) extend into the mounting cavity (1011) in a penetrating manner and are provided with positioning gears (202) meshed with the positioning racks (501); a power telescopic rod (6) is arranged in the mounting cavity (1011); the power telescopic rod (6) is arranged on one side of the first guide rail (5) in the installation cavity (1011), and the power end of the power telescopic rod (6) is connected with one end of the positioning rack (501) on the first guide rail (5); the telescopic end (9) of the power telescopic rod (6) is fixedly connected with a push plate (10), the other end of the push plate (10) is fixedly connected with a push rod (11), two ends of the push plate (10) are respectively and fixedly connected with a positioning rack (501) and a short rack (26), one end of the push rod (11) is fixedly connected with an inverted Z-shaped bent pipe (12), and an upper bolt (16) and a lower bolt (20) are arranged on the inverted Z-shaped bent pipe (12); an upper fixing plate 13 with an opening is arranged inside the upper end of the inverted Z-shaped bent pipe (12), an upper spring 14 is fixedly arranged above the upper fixing plate 13, and an upper sealing sliding plate 15 is arranged at the upper end of the upper spring 14;

the utility model discloses a power-driven elbow pipe, including the utility model discloses a power-driven elbow pipe, fall Z type return bend (12) lower extreme inside and set up bottom plate (17) that has the trompil, at bottom plate (17) fixed spring (18) of being provided with down the lower extreme of spring (18) is provided with down sealed slide (19) go up sealed slide (15) and the outside of lower sealed slide (19) is provided with bolt (16) and lower bolt (20) respectively and are in the installation framework middle part is equipped with second guided way (25), short rack (26) are located on second guided way (25), location rack (501) with the short rack is close to the one end of power telescopic link (6) flushes, the length of short rack (26) is shorter than the length of location rack (501) fall Z type return bend (12) deviate from one side of power telescopic link (6) is provided with fan (21), and the first wind gap of fan (21) lets in through hose (24) inside the Z type return bend (12), a second air port of the fan (21) is connected to an installation cavity (1011) through a vent penetrating through the installation frame body, and vent holes are formed in the periphery of the illuminating lamp (102) of the installation cavity (1011);

the flexible end (9) of power telescopic link (6) promote push pedal (10) motion, and push pedal (10) promote location rack (501) and short rack (26) and move, because short rack is shorter, and the short rack of initial stage does not contact down gear (27), so only location gear (202) motion drives pivot (2) motion, pivot (2) drive switching piece (201) motion realizes opening and closing to rotor plate (3), when opening to a certain degree, because the one end side of switching piece (201) thoroughly leaves behind rotor plate (3), short rack (26) begin to contact gear (27) down, gear (27) motion drives screw block (28) up-and-down motion down, screw block (28) drive stay cord (31) up-and-down motion to drive regulating plate (30), the motion of regulating plate (30) makes the outside of regulating plate (30) promote on the one hand rotate plate (3) up-and-down motion And the rotating plate (3) is limited to be influenced by wind power to a certain extent, in the other aspect, the movement of the adjusting plate enables the reflecting plate (33) to move along with the movement, so that the reflecting angle of the illuminating lamp is adjusted, after the rotating plate (3) reaches a preset position, the power telescopic rod (6) stops moving, so that the positioning gear and the lower gear start to limit the rotating plate, meanwhile, in order to reduce the wind power effect on the gear and the power telescopic rod, after illumination and limitation, the controller starts the fan (21) and starts a first air port to blow the inverted Z-shaped bent pipe (12), the wind enters the inverted Z-shaped bent pipe (12) through the first air port and the hose (24) and contacts an upper sealing sliding plate (15) on the upper spring (14) through holes of the upper fixing plate 13 and the lower fixing plate (17) in the inverted Z-shaped bent pipe (12), and a lower sealing sliding plate (19) which is in contact with the lower part of the lower spring (18) and moves towards the outer side along with the increase of the pressure, so that the upper bolt and the lower bolt start to limit the positioning gear (202) and the lower gear (27), and after a certain pressure value is reached, the controller controls the first air port to close the seal, thereby keeping the limit effect of the bolt on the gear.

2. The energy-saving lighting device for building construction as claimed in claim 1, wherein a second solar panel (103) is mounted on the other surface of the base plate (1) opposite to the surface on which the mounting frame (101) is mounted.

3. The energy-saving lighting device for building construction as claimed in claim 2, wherein the power expansion link (6) is one of an electric expansion link, a hydraulic expansion link or a pneumatic expansion link.

4. The energy-saving lighting device for building construction as claimed in claim 1, wherein a light-gathering plate (302) is installed on the other surface of the rotating plate (3) opposite to the surface on which the first solar cell panel (301) is installed.

5. The energy-saving lighting device for building construction as claimed in claim 1, wherein the rotating plate (3) is in a triangular structure; the rotating plate (3) is a steel plate.