CN109610889B - Multifunctional telescopic solar power supply bus waiting shed - Google Patents

Abstract

The invention relates to a solar device, in particular to a multifunctional telescopic solar power supply bus waiting shed which can not only form a square space for people to wait by driving the expansion of a partition plate through solar energy, but also realize indoor ventilation by driving a fan to rotate through the solar energy, and can also retract the partition plate in summer to form an open platform. The number of the solar panel mechanisms is three, and the solar panel mechanisms are fixed on the upper part of the bracket; the bracket is in a Chinese character 'factory' shape, and the lower part of the bracket is fixed with the base together; the left side of the sliding frame is connected with the clapboard mechanism; the upper part of the clapboard mechanism is contacted with the bracket, and the lower part of the clapboard mechanism is contacted with the base; the lower part of the base is embedded in the foundation; the driving motor is positioned at the upper part of the containing box; the left side of the telescopic rod is connected with the containing box, and the right side of the telescopic rod is connected with the sliding frame; the containing box is positioned on the left side of the bracket; the fan is positioned on the left side of the bracket; the fan frame is positioned on the left side of the bracket.

Description

Multifunctional telescopic solar power supply bus waiting shed

Technical Field

The invention relates to a solar device, in particular to a multifunctional telescopic solar power supply bus waiting shed.

Background

The northern outdoor temperature in winter is very low, and open bus stops are too cold to people waiting for buses, do not have a wall for resisting cold wind, and in order to provide a bus shed which can be contracted in summer and keep out the cold in winter. Therefore, the multifunctional telescopic solar power supply bus shelter is designed.

Disclosure of Invention

The invention provides a multifunctional telescopic solar power supply bus waiting shed which has the beneficial effects that a square space is formed for people to wait by driving the stretching of a partition plate mechanism through solar energy, indoor ventilation can be realized by driving a fan to rotate through the solar energy, and the partition plate mechanism can be retracted in summer to form an open platform.

In order to solve the technical problem, the invention relates to a solar device, in particular to a multifunctional telescopic solar power supply bus waiting shed which comprises a solar panel mechanism, a support, a sliding frame, a partition plate mechanism, a base, a driving motor, a telescopic rod, a containing box, a fan and a fan frame.

The solar panel mechanism consists of a solar panel, a connecting plate and a supporting rod; the solar panels are three and fixed on the connecting plate; the connecting plate is square, four through holes are processed on the connecting plate, and the connecting plate is welded on the upper part of the supporting rod in an inclined manner; the support rod is in an inverted trapezoid shape, four through holes are formed in a transverse plate at the lower part of the support rod, and the support rod is fixed to the upper part of the bracket through screws;

the bracket consists of a top plate, a clapboard slideway, a telescopic rod port, a clapboard connecting buckle, an isolation net, a vertical frame and a connecting seat; the top plate is rectangular, a cuboid bulge is processed on the right side of the top plate, and a partition plate slideway is processed on the lower portion of the top plate; two clapboard slideways are arranged and are positioned at two sides of the lower part of the top plate; the left side of the telescopic rod opening is fixed with the containing box through screws; six partition plate connecting buckles are arranged and are positioned on the right side of the vertical frame, and the right side of each partition plate connecting buckle is connected with the partition plate mechanism; the isolation net is circular and is fixed at the middle lower part of the vertical frame through screws; the vertical frame is a cuboid and is positioned at the lower part of the left side of the top plate; three connecting seats are arranged, the connecting seats are positioned at the lower part of the left side of the vertical frame, through holes are processed on the connecting seats, and the connecting seats are fixed on the left side of the base through screws;

the sliding frame consists of a windproof pad, a pressing block, a slideway, a connecting buckle, a ventilation opening and a pulley; the two wind-proof pads are positioned on the upper side and the lower side of the sliding frame, the wind-proof pads are positioned on the right side of the sliding frame, the upper parts of the wind-proof pads are contacted with the top plate, and the lower parts of the wind-proof pads are contacted with the upper surface of the base; the pressing blocks are cuboid, square grooves are formed in the pressing blocks, the pressing blocks are in contact with the windproof pad, the pressing blocks are fixed to the right side of the sliding frame through screws, and the number of the pressing blocks is two; the two slideways are arranged and are positioned on two sides of the sliding frame, and the slideways are in sliding fit with the telescopic rods; six connecting buckles are arranged, and the left sides of the connecting buckles are connected with the partition plate mechanisms; the ventilation opening is positioned at the lower part of the sliding frame and inclines downwards from left to right; the four pulleys are positioned on the upper side and the lower side of the sliding frame, the upper parts of the pulleys are contacted with the top plate, and the lower parts of the pulleys are contacted with the base;

the clapboard mechanism consists of a sliding wheel, a clapboard and an interconnection buckle; the two sliding wheels are arranged and are positioned at the upper side and the lower side of the partition plate, the upper part of each sliding wheel is positioned in the partition plate slideway, and the lower part of each partition plate slideway is positioned on the base; the partition plates are rectangular and are connected with each other through the interconnection buckles; three interconnecting buckles are arranged and are positioned on the right side of the partition plate;

the sliding wheel consists of an outer wheel, an inner wheel, a connecting rod and a fixing plate; the outer wheel is annular and is sleeved on the inner wheel; the inner wheel is cylindrical and is fixed at the upper part of the connecting rod, and the section of the inner wheel is I-shaped; the lower part of the connecting rod is fixed with the fixed plate; the fixing plate is rectangular, four round holes are processed on the fixing plate, and the fixing plate is fixed on the partition plate through screws;

the base is composed of a fixed groove, a lower sliding groove, a cement connecting frame and a bottom plate; the two fixing grooves are positioned on the left side of the bottom plate and are in contact with the bracket, and the fixing grooves are fixed with the bracket through screws; the two lower sliding grooves are arranged and are in contact with the lower sliding wheels of the partition plate mechanism; the cement connecting frame is in a cross shape, the cement connecting frame is welded at the lower part of the bottom plate, and the cement connecting frame is buried in the foundation; the bottom plate is a cuboid;

the driving motor consists of a motor, a motor shaft, a coupling and a connecting frame; the motor is fixed on the upper part of the connecting frame; the lower part of the motor shaft is fixed with the coupling; the coupling is cylindrical, two through holes are processed on the coupling, the coupling is fixed with the motor shaft through screws, and the coupling is fixed with the telescopic rod; the connecting frame is cylindrical and is fixed at the upper part of the accommodating box through screws;

the telescopic rod consists of a threaded rod, a sliding block, a connecting rod and a fixed connecting block; the upper part of the threaded rod is fixed with the driving motor; the number of the sliding blocks is two, threaded holes are formed in the middle of the sliding blocks, the sliding blocks are in threaded fit with the threaded rods, and the sliding blocks are in sliding fit with the support; one end of the connecting rod is connected with the sliding block, one end of the connecting rod is connected with the fixed connecting block, and the connecting rods are connected through pins; the left side of the fixed connecting block is fixed in the containing box;

the containing box consists of a box body, a shaft hole, a sliding groove and a fixing hole; the box body is square and is fixed on the left side of the bracket through screws; the shaft hole is positioned at the upper part of the box body, and a rotating shaft of the driving motor penetrates through the shaft hole; the sliding groove is positioned on the left side of the interior of the containing box and is in sliding fit with the sliding block; the fixing hole is positioned at the left lower side of the box body and is fixed with the fixed connecting block through a screw;

the fan consists of an impeller, a motor base and a fan motor; the impeller is fixed on a left rotating shaft of the fan motor; the number of the motor bases is four, and the motor bases are fixed inside the fan frame through screws; the fan motor is fixed on the motor base;

the fan frame consists of a wind cylinder and a wind shield; the air duct is cylindrical and is fixed on the left side of the bracket through screws; the wind shield is round, an inclined groove is arranged on the wind shield, and the wind shield is fixed on the left side of the air duct through screws;

the number of the solar panel mechanisms is three, and the solar panel mechanisms are fixed on the upper part of the bracket; the bracket is in a Chinese character 'factory' shape, and the lower part of the bracket is fixed with the base together; the left side of the sliding frame is connected with the clapboard mechanism; the upper part of the clapboard mechanism is contacted with the bracket, and the lower part of the clapboard mechanism is contacted with the base; the lower part of the base is embedded in the foundation; the driving motor is positioned at the upper part of the containing box; the left side of the telescopic rod is connected with the containing box, and the right side of the telescopic rod is connected with the sliding frame; the containing box is positioned on the left side of the bracket; the fan is positioned on the left side of the bracket; the fan frame is positioned on the left side of the bracket.

As a further optimization of the technical scheme, the connection plate and the support rod of the multifunctional telescopic solar power supply bus shelter form forty-five degrees.

As a further optimization of the technical scheme, the base of the multifunctional telescopic solar power supply bus shelter is made of cast iron.

As a further optimization of the technical scheme, the connecting rod of the multifunctional telescopic solar power supply bus shelter is made of an aluminum alloy material.

The multifunctional telescopic solar power supply bus waiting shed has the beneficial effects that:

the multifunctional telescopic solar power supply bus waiting shed disclosed by the invention can form a square space for people to wait by driving the stretching of the partition plate mechanism through solar energy, can realize indoor ventilation by driving the fan to rotate through the solar energy, and can also retract the partition plate mechanism in summer to form an open platform.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a multifunctional telescopic solar power supply bus shelter.

Fig. 2 is a structural schematic diagram of a solar panel mechanism 1 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 3 is a schematic structural view of a support 2 of the multifunctional telescopic solar power supply bus shelter.

Fig. 4 is a schematic structural view of a sliding frame 3 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 5 is a schematic structural view of a partition plate mechanism 4 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 6 is a schematic structural view of a sliding wheel 4-1 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 7 is a structural schematic diagram of a base 5 of the multifunctional telescopic solar power supply bus shelter.

Fig. 8 is a schematic structural view of a driving motor 6 of the multifunctional telescopic solar power supply bus shelter.

Fig. 9 is a schematic structural view of a telescopic rod 7 of the multifunctional telescopic solar power supply bus shelter.

Fig. 10 is a schematic structural view of a containing box 8 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 11 is a schematic structural view of a fan 9 of the multifunctional telescopic solar power supply bus shelter of the invention.

Fig. 12 is a schematic structural view of a fan frame 10 of the multifunctional telescopic solar power supply bus shelter of the invention.

In the figure: a solar panel mechanism 1; a solar panel 1-1; a connecting plate 1-2; 1-3 of a support rod; a bracket 2; a top plate 2-1; a partition plate slideway 2-2; 2-3 of an expansion link port; 2-4 parts of partition board connecting buckles; 2-5 of an isolation net; 2-6 of a vertical frame; 2-7 of a connecting seat; a carriage 3; 3-1 of a windproof pad; 3-2 of a compression block; 3-3 of a slideway; 3-4 of a connecting buckle; 3-5 of a vent; 3-6 of a pulley; a partition mechanism 4; 4-1 of a sliding wheel; outer wheel 4-1-1; inner wheel 4-1-2; connecting rods 4-1-3; a fixing plate 4-1-4; a partition plate 4-2; 4-3 of an interconnection buckle; a base 5; a fixing groove 5-1; a lower sliding groove 5-2; 5-3 of a cement connecting frame; 5-4 of a bottom plate; a drive motor 6; a motor 6-1; a motor shaft 6-2; coupling 6-3; 6-4 of a connecting frame; a telescopic rod 7; a threaded rod 7-1; sliding blocks 7-2; 7-3 of a connecting rod; 7-4 of a fixed connecting block; a housing box 8; a box body 8-1; a shaft hole 8-2; 8-3 of a sliding groove; 8-4 of a fixing hole; a fan 9; an impeller 9-1; a motor base 9-2; 9-3 of a fan motor; a fan frame 10; a wind barrel 10-1; windshield 10-2.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12, and the invention relates to a solar device, in particular to a multifunctional telescopic solar power supply bus waiting shed, which comprises a solar panel mechanism 1, a support 2, a sliding frame 3, a partition mechanism 4, a base 5, a driving motor 6, a telescopic rod 7, a containing box 8, a fan 9 and a fan frame 10.

The solar panel mechanism 1 consists of a solar panel 1-1, a connecting plate 1-2 and a supporting rod 1-3; the number of the solar panels 1-1 is three, and the solar panels 1-1 are fixed on the connecting plates 1-2; the connecting plate 1-2 is square, four through holes are processed on the connecting plate 1-2, and the connecting plate 1-2 is welded on the upper part of the supporting rod 1-3 in an inclined manner; the support rods 1-3 are inverted trapezoids, four through holes are formed in transverse plates at the lower parts of the support rods 1-3, and the support rods 1-3 are fixed at the upper parts of the brackets 2 through screws; the solar panel mechanism 1 is used for providing power for the rotation of the motor;

the support 2 consists of a top plate 2-1, a clapboard slideway 2-2, a telescopic rod port 2-3, a clapboard connecting buckle 2-4, an isolation net 2-5, a vertical frame 2-6 and a connecting seat 2-7; the top plate 2-1 is rectangular, a cuboid bulge is processed on the right side of the top plate 2-1, and a partition plate slideway 2-2 is processed on the lower part of the top plate 2-1; two partition plate slideways 2-2 are arranged, the partition plate slideways 2-2 are positioned at two sides of the lower part of the top plate 2-1, and the partition plate slideways 2-2 are used for limiting the sliding direction of the partition plate mechanism 4 and preventing the partition plate mechanism 4 from being separated; the telescopic rod opening 2-3 is positioned in the middle of the upper part of the vertical frame 2-6, and the left side of the telescopic rod opening 2-3 is fixed with the containing box 8 through screws; six partition plate connecting buckles 2-4 are arranged, the partition plate connecting buckles 2-4 are positioned on the right sides of the vertical frames 2-6, and the right sides of the partition plate connecting buckles 2-4 are connected with the partition plate mechanism 4; the isolation net 2-5 is round, and the isolation net 2-5 is fixed at the middle lower part of the vertical frame 2-6 through screws; the vertical frame 2-6 is a cuboid, and the vertical frame 2-6 is positioned at the lower part of the left side of the top plate 2-1; three connecting seats 2-7 are arranged, the connecting seats 2-7 are positioned at the lower part of the left side of the vertical frame 2-6, through holes are processed on the connecting seats 2-7, and the connecting seats 2-7 are fixed at the left side of the base 5 through screws; the support 2 is used for supporting the partition plate mechanism 4 and supporting the solar panel mechanism 1;

the sliding frame 3 consists of a windproof pad 3-1, a pressing block 3-2, a slideway 3-3, a connecting buckle 3-4, a ventilation opening 3-5 and a pulley 3-6; the number of the windproof pads 3-1 is two, the windproof pads 3-1 are positioned at the upper side and the lower side of the sliding frame 3, the windproof pads 3-1 are positioned at the right side of the sliding frame 3, the upper parts of the windproof pads 3-1 are contacted with the top plate 2-1, the lower parts of the windproof pads 3-1 are contacted with the upper surface of the base 5, and the windproof pads 3-are used for preventing cold air from flowing into gaps; the pressing blocks 3-2 are cuboids, square grooves are formed in the pressing blocks 3-2, the pressing blocks 3-2 are in contact with the windproof pads 3-1, the pressing blocks 3-2 are fixed on the right side of the sliding frame 3 through screws, and two pressing blocks 3-2 are arranged; two slideways 3-3 are arranged, the slideways 3-3 are positioned at two sides of the sliding frame 3, and the slideways 3-3 are in sliding fit with the telescopic rod 7; six connecting buckles 3-4 are arranged, and the left sides of the connecting buckles 3-4 are connected with the partition plate mechanisms 4; the ventilation openings 3-5 are positioned at the lower part of the sliding frame 3, and the ventilation openings 3-5 are inclined downwards from left to right; four pulleys 3-6 are arranged, the pulleys 3-6 are positioned at the upper side and the lower side of the sliding frame 3, the upper parts of the pulleys 3-6 are contacted with the top plate 2-1, and the lower parts of the pulleys 3-6 are contacted with the base 5; the sliding frame 3 is used for driving the partition plate mechanism 4 to slide left and right;

the partition plate mechanism 4 consists of a sliding wheel 4-1, a partition plate 4-2 and an interconnection buckle 4-3; two sliding wheels 4-1 are arranged, the sliding wheels 4-1 are positioned at the upper side and the lower side of the partition plate 4-2, the upper parts of the sliding wheels 4-1 are positioned in the partition plate slideway 2-2, and the lower parts of the partition plate slideway 2-2 are positioned on the base 5; the partition plates 4-2 are rectangular, and the partition plates 4-2 are connected with each other through interconnection buckles 4-3; three interconnecting buckles 4-3 are arranged, and the interconnecting buckles 4-3 are positioned on the right side of the partition plate 4-2; the partition plate mechanism 4 moves left and right to form a square space;

the sliding wheel 4-1 consists of an outer wheel 4-1-1, an inner wheel 4-1-2, a connecting rod 4-1-3 and a fixing plate 4-1-4; the outer wheel 4-1-1 is circular, and the outer wheel 4-1-1 is sleeved on the inner wheel 4-1-2; the inner wheel 4-1-2 is cylindrical, the inner wheel 4-1-2 is fixed at the upper part of the connecting rod 4-1-3, and the section of the inner wheel 4-1-2 is I-shaped; the lower part of the connecting rod 4-1-3 is fixed with the fixing plate 4-1-4; the fixing plate 4-1-4 is rectangular, four round holes are processed on the fixing plate 4-1-4, and the fixing plate 4-1-4 is fixed on the partition plate 4-2 through screws; the function of the sliding wheel 4-1 is to increase the mobility of the partition mechanism 4 and reduce friction;

the base 5 consists of a fixed groove 5-1, a lower sliding groove 5-2, a cement connecting frame 5-3 and a bottom plate 5-4; two fixing grooves 5-1 are arranged, the fixing groove 5-1 is positioned on the left side of the bottom plate 5-4, the fixing groove 5-1 is in contact with the support 2, and the fixing groove 5-1 is fixed with the support 2 through screws; two lower sliding grooves 5-2 are arranged, and the lower sliding grooves 5-2 are in contact with a lower sliding wheel 4-1 of the clapboard mechanism 4; the cement connecting frame 5-3 is in a cross shape, the cement connecting frame 5-3 is welded at the lower part of the bottom plate 5-4, and the cement connecting frame 5-3 is buried in the foundation; the bottom plate 5-4 is a cuboid; the base 5 is used for supporting the bracket 2;

the driving motor 6 consists of a motor 6-1, a motor shaft 6-2, a coupling 6-3 and a connecting frame 6-4; the motor 6-1 is fixed on the upper part of the connecting frame 6-4; the lower part of the motor shaft 6-2 is fixed with a coupling 6-3; the coupling 6-3 is cylindrical, two through holes are processed on the coupling 6-3, the coupling 6-3 is fixed with the motor shaft 6-2 through screws, and the coupling 6-3 is fixed with the telescopic rod 7; the connecting frame 6-4 is cylindrical, and the connecting frame 6-4 is fixed on the upper part of the accommodating box 8 through screws; the driving motor 6 is used for providing power for the rotation of the telescopic rod 7;

the telescopic rod 7 consists of a threaded rod 7-1, a sliding block 7-2, a connecting rod 7-3 and a fixed connecting block 7-4; the upper part of the threaded rod 7-1 is fixed with the driving motor 6; two sliding blocks 7-2 are arranged, a threaded hole is processed in the middle of each sliding block 7-2, the sliding blocks 7-2 are in threaded fit with the threaded rods 7-1, and the sliding blocks 7-2 are in sliding fit with the support 2; one end of a connecting rod 7-3 is connected with the sliding block 7-2, one end of the connecting rod 7-3 is connected with a fixed connecting block 7-4, and the connecting rods 7-3 are connected through pins; the left side of the fixed connecting block 7-4 is fixed in the containing box 8; the left function of the telescopic rod 7 is to push the sliding frame 3 to move left and right;

the containing box 8 consists of a box body 8-1, a shaft hole 8-2, a sliding groove 8-3 and a fixing hole 8-4; the box body 8-1 is square, and the box body 8-1 is fixed on the left side of the bracket 2 through screws; the shaft hole 8-2 is positioned at the upper part of the box body 8-1, and a rotating shaft of the driving motor 6 passes through the shaft hole 8-2; the sliding groove 8-3 is positioned at the left side of the interior of the containing box 8, and the sliding groove 8-3 is in sliding fit with the sliding block 7-2; the fixing hole 8-4 is positioned at the left lower side of the box body 8-1, and the fixing hole 8-4 is fixed with the fixing connecting block 7-4 through a screw; the containing box 8 is used for containing the connecting rod 7-3;

the fan 9 consists of an impeller 9-1, a motor base 9-2 and a fan motor 9-3; the impeller 9-1 is fixed on a left rotating shaft of the fan motor 9-3; four motor bases 9-2 are arranged, and the motor bases 9-2 are fixed inside the fan frame 10 through screws; the fan motor 9-3 is fixed on the motor base 9-2; the fan 9 is used for ventilation;

the fan frame 10 consists of a wind barrel 10-1 and a wind shield 10-2; the air duct 10-1 is cylindrical, and the air duct 10-1 is fixed on the left side of the bracket 2 through screws; the wind shield 10-2 is circular, an inclined groove is formed in the wind shield 10-2, and the wind shield 10-2 is fixed to the left side of the air duct 10-1 through screws;

the number of the solar panel mechanisms 1 is three, and the solar panel mechanisms 1 are fixed on the upper part of the bracket 2; the bracket 2 is in a Chinese character 'factory' shape, and the lower part of the bracket 2 is fixed with the base 5; the left side of the sliding frame 3 is connected with a clapboard mechanism 4; the upper part of the clapboard mechanism 4 is contacted with the bracket 2, and the lower part of the clapboard mechanism 4 is contacted with the base 5; the lower part of the base 5 is embedded in the foundation; the driving motor 6 is positioned at the upper part of the containing box 8; the left side of the telescopic rod 7 is connected with the containing box 8, and the right side of the telescopic rod 7 is connected with the sliding frame 3; the containing box 8 is positioned at the left side of the bracket 2; the fan 9 is positioned at the left side of the bracket 2; the fan frame 10 is located on the left side of the support frame 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the connecting plate 1-2 and the supporting rod 1-3 form a forty-five degree angle therebetween.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the base 5 is made of cast iron.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described, in which the connecting rod 7-3 is made of an aluminum alloy material.

The working principle of the invention is as follows: the ventilation principle is as follows: the fan motor 9 is connected into a circuit, the fan motor 9 is started, the fan motor 9 rotates to drive the impeller 9-1 on the right side to rotate, the impeller 9-1 rotates to remove indoor air outwards, and new air enters through the ventilation opening 3-5 to prevent indoor air from being turbid.

The telescopic principle of the partition plate mechanism is as follows: the motor 6-1 is connected into a circuit, the motor 6-1 is started, the motor 6-1 rotates to drive the coupling 6-3 to rotate, the lower part of the coupling 6-3 is fixed with the upper part of the threaded rod 7-1, the coupling 6-3 drives the threaded rod 7-1 to rotate, the threaded rod 7-1 is in threaded fit with the sliding block 7-2, the sliding block 7-2 moves up and down along the threaded rod 7-1, the right side of the sliding block 7-2 is connected with the connecting rod 7-3, the sliding block 7-2 moves to drive the connecting rod 7-3 to move, the connecting rod 7-3 extends left and right, when the connecting rod 7-3 moves right, the sliding frame 3 is pushed to move rightwards, the partition plate mechanism 4 is pulled to open rightwards, the upper part of the partition plate mechanism 4 is positioned in, the lower part of the clapboard mechanism 4 is positioned in a lower sliding groove 5-2 of the base 5, and the clapboard mechanism 4 is opened rightwards; when the sliding frame 3 moves leftwards, the partition board mechanism 4 is pushed leftwards to restore to the open air state. The windproof pad 3-1 is pressed on the right side of the sliding frame 3 through the pressing block 3-2, the upper windproof pad 3-1 is in contact with the bracket 2, and the lower windproof pad 3-1 is in contact with the base 5, so that cold air is prevented from entering the shed from a gap.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a multi-functional telescopic solar energy power supply bus canopy of waiting, includes solar panel mechanism (1), support (2), carriage (3), partition mechanism (4), base (5), driving motor (6), telescopic link (7), containing box (8), fan (9), fan frame (10), its characterized in that: the solar panel mechanism (1) consists of a solar panel (1-1), a connecting plate (1-2) and a supporting rod (1-3); the number of the solar panels (1-1) is three, and the solar panels (1-1) are fixed on the connecting plates (1-2); the connecting plate (1-2) is square, four through holes are processed on the connecting plate (1-2), and the connecting plate (1-2) is obliquely welded on the upper part of the supporting rod (1-3); the support rods (1-3) are inverted trapezoids, four through holes are formed in transverse plates at the lower parts of the support rods (1-3), and the support rods (1-3) are fixed at the upper parts of the brackets (2) through screws;

the support (2) consists of a top plate (2-1), a clapboard slideway (2-2), a telescopic rod port (2-3), a clapboard connecting buckle (2-4), an isolation net (2-5), a vertical frame (2-6) and a connecting seat (2-7); the top plate (2-1) is rectangular, a cuboid bulge is processed on the right side of the top plate (2-1), and a partition plate slideway (2-2) is processed on the lower part of the top plate (2-1); two clapboard slide ways (2-2) are arranged, and the clapboard slide ways (2-2) are positioned at two sides of the lower part of the top plate (2-1); the telescopic rod opening (2-3) is positioned in the middle of the upper part of the vertical frame (2-6), and the left side of the telescopic rod opening (2-3) is fixed with the accommodating box (8) through screws; six partition board connecting buckles (2-4) are arranged, the partition board connecting buckles (2-4) are positioned on the right side of the vertical frame (2-6), and the right side of the partition board connecting buckles (2-4) is connected with the partition board mechanism (4); the isolation net (2-5) is round, and the isolation net (2-5) is fixed at the middle lower part of the vertical frame (2-6) through screws; the vertical frame (2-6) is a cuboid, and the vertical frame (2-6) is positioned at the lower part of the left side of the top plate (2-1); three connecting seats (2-7) are arranged, the connecting seats (2-7) are positioned at the lower part of the left side of the vertical frame (2-6), through holes are processed on the connecting seats (2-7), and the connecting seats (2-7) are fixed on the left side of the base (5) through screws;

the sliding frame (3) consists of a windproof pad (3-1), a pressing block (3-2), a slide way (3-3), a connecting buckle (3-4), a ventilation opening (3-5) and a pulley (3-6); the number of the windproof pads (3-1) is two, the windproof pads (3-1) are positioned on the upper side and the lower side of the sliding frame (3), the windproof pads (3-1) are positioned on the right side of the sliding frame (3), the upper parts of the windproof pads (3-1) are contacted with the top plate (2-1), and the lower parts of the windproof pads (3-1) are contacted with the upper surface of the base (5); the pressing blocks (3-2) are cuboids, square grooves are formed in the pressing blocks (3-2), the pressing blocks (3-2) are in contact with the windproof pad (3-1), the pressing blocks (3-2) are fixed on the right side of the sliding frame (3) through screws, and two pressing blocks (3-2) are arranged; two slideways (3-3) are arranged, the slideways (3-3) are positioned at two sides of the sliding frame (3), and the slideways (3-3) are in sliding fit with the telescopic rod (7); six connecting buckles (3-4) are arranged, and the left sides of the connecting buckles (3-4) are connected with the partition plate mechanism (4); the ventilation openings (3-5) are positioned at the lower part of the sliding frame (3), and the ventilation openings (3-5) are inclined downwards from left to right; four pulleys (3-6) are arranged, the pulleys (3-6) are positioned on the upper side and the lower side of the sliding frame (3), the upper parts of the pulleys (3-6) are in contact with the top plate (2-1), and the lower parts of the pulleys (3-6) are in contact with the base (5);

the partition plate mechanism (4) consists of a sliding wheel (4-1), a partition plate (4-2) and an interconnection buckle (4-3); two sliding wheels (4-1) are arranged, the sliding wheels (4-1) are positioned at the upper side and the lower side of the partition plate (4-2), the upper part of the sliding wheel (4-1) is positioned inside the partition plate slideway (2-2), and the lower part of the partition plate slideway (2-2) is positioned on the base (5); the partition plates (4-2) are rectangular, and the partition plates (4-2) are connected with each other through the interconnection buckles (4-3); three interconnecting buckles (4-3) are arranged, and the interconnecting buckles (4-3) are positioned on the right side of the partition plate (4-2);

the sliding wheel (4-1) consists of an outer wheel (4-1-1), an inner wheel (4-1-2), a connecting rod (4-1-3) and a fixing plate (4-1-4); the outer wheel (4-1-1) is annular, and the outer wheel (4-1-1) is sleeved on the inner wheel (4-1-2); the inner wheel (4-1-2) is cylindrical, the inner wheel (4-1-2) is fixed at the upper part of the connecting rod (4-1-3), and the section of the inner wheel (4-1-2) is I-shaped; the lower part of the connecting rod (4-1-3) is fixed with the fixing plate (4-1-4); the fixing plate (4-1-4) is rectangular, four round holes are processed on the fixing plate (4-1-4), and the fixing plate (4-1-4) is fixed on the partition plate (4-2) through screws;

the base (5) consists of a fixed groove (5-1), a lower sliding groove (5-2), a cement connecting frame (5-3) and a bottom plate (5-4); two fixing grooves (5-1) are arranged, the fixing grooves (5-1) are positioned on the left side of the bottom plate (5-4), the fixing grooves (5-1) are in contact with the support (2), and the fixing grooves (5-1) are fixed with the support (2) through screws; two lower sliding grooves (5-2) are arranged, and the lower sliding grooves (5-2) are in contact with a lower sliding wheel (4-1) of the partition mechanism (4); the cement connecting frame (5-3) is in a cross shape, the cement connecting frame (5-3) is welded at the lower part of the bottom plate (5-4), and the cement connecting frame (5-3) is buried in the foundation; the bottom plate (5-4) is a cuboid;

the driving motor (6) consists of a motor (6-1), a motor shaft (6-2), a coupling (6-3) and a connecting frame (6-4); the motor (6-1) is fixed on the upper part of the connecting frame (6-4); the lower part of the motor shaft (6-2) is fixed with the coupling (6-3); the coupling (6-3) is cylindrical, two through holes are processed on the coupling (6-3), the coupling (6-3) is fixed with the motor shaft (6-2) through screws, and the coupling (6-3) is fixed with the telescopic rod (7); the connecting frame (6-4) is cylindrical, and the connecting frame (6-4) is fixed on the upper part of the accommodating box (8) through screws;

the telescopic rod (7) consists of a threaded rod (7-1), a sliding block (7-2), a connecting rod (7-3) and a fixed connecting block (7-4); the upper part of the threaded rod (7-1) is fixed with the driving motor (6); two sliding blocks (7-2) are arranged, a threaded hole is processed in the middle of each sliding block (7-2), the sliding blocks (7-2) are in threaded fit with the threaded rods (7-1), and the sliding blocks (7-2) are in sliding fit with the support (2); one end of a connecting rod (7-3) is connected with the sliding block (7-2), one end of the connecting rod (7-3) is connected with a fixed connecting block (7-4), and the connecting rods (7-3) are connected through pins; the left side of the fixed connecting block (7-4) is fixed in the containing box (8);

the containing box (8) consists of a box body (8-1), a shaft hole (8-2), a sliding groove (8-3) and a fixing hole (8-4); the box body (8-1) is square, and the box body (8-1) is fixed on the left side of the bracket (2) through screws; the shaft hole (8-2) is positioned at the upper part of the box body (8-1), and a rotating shaft of the driving motor (6) penetrates through the shaft hole (8-2); the sliding groove (8-3) is positioned at the left side of the interior of the containing box (8), and the sliding groove (8-3) is in sliding fit with the sliding block (7-2); the fixing hole (8-4) is positioned at the left lower side of the box body (8-1), and the fixing hole (8-4) is fixed with the fixing connecting block (7-4) through a screw;

the fan (9) consists of an impeller (9-1), a motor base (9-2) and a fan motor (9-3); the impeller (9-1) is fixed on a left rotating shaft of the fan motor (9-3); four motor bases (9-2) are arranged, and the motor bases (9-2) are fixed inside the fan frame (10) through screws; the fan motor (9-3) is fixed on the motor base (9-2);

the fan frame (10) consists of a wind barrel (10-1) and a wind shield (10-2); the air duct (10-1) is cylindrical, and the air duct (10-1) is fixed on the left side of the bracket (2) through screws; the wind shield (10-2) is circular, an inclined groove is formed in the wind shield (10-2), and the wind shield (10-2) is fixed on the left side of the air duct (10-1) through screws;

three solar panel mechanisms (1) are arranged, and the solar panel mechanisms (1) are fixed on the upper part of the bracket (2); the bracket (2) is in a Chinese character 'factory' shape, and the lower part of the bracket (2) is fixed with the base (5); the left side of the sliding frame (3) is connected with a partition plate mechanism (4); the upper part of the partition mechanism (4) is contacted with the bracket (2), and the lower part of the partition mechanism (4) is contacted with the base (5); the lower part of the base (5) is embedded in the foundation; the driving motor (6) is positioned at the upper part of the containing box (8); the left side of the telescopic rod (7) is connected with the containing box (8), and the right side of the telescopic rod (7) is connected with the sliding frame (3); the containing box (8) is positioned at the left side of the bracket (2); the fan (9) is positioned on the left side of the bracket (2); the fan frame (10) is positioned at the left side of the bracket (2).

2. The multifunctional telescopic solar power supply bus shelter of claim 1, which is characterized in that: the connecting plate (1-2) and the supporting rod (1-3) form a forty-five degree angle.

3. The multifunctional telescopic solar power supply bus shelter of claim 1, which is characterized in that: the base (5) is made of cast iron material.

4. The multifunctional telescopic solar power supply bus shelter of claim 1, which is characterized in that: the connecting rod (7-3) is made of aluminum alloy material.

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