CN218778582U - Solar energy bbservation elevator - Google Patents

Abstract

The utility model relates to a solar energy bbservation elevator relates to the field of elevator structure, including a plurality of transparent plates, car and photovoltaic mechanism, the transparent plate splices along vertical direction and forms the passageway, and the car setting is in the passageway that the transparent plate was pieced together and reciprocating sliding, and the car lateral wall uses the printing opacity material to make, and photovoltaic mechanism connects on the car near one side outer wall on ground, and photovoltaic mechanism is used for turning into the electric energy with solar energy. This application has the effect that reduces the probability that solar power system sheltered from passenger's sight in the bbservation elevator.

Description

Solar energy bbservation elevator

Technical Field

The application relates to the field of elevator structures, in particular to a solar sightseeing elevator.

Background

The sightseeing elevator is a device which uses light-transmitting materials such as glass curtain walls to make a vertical channel and enables a car to vertically move in the vertical channel in a reciprocating mode, the side wall of the car is made of the light-transmitting materials such as glass, and a passenger can view scenery outside the car through the light-transmitting materials in the car, so that the use experience of the passenger is improved.

Relevant bbservation elevator includes transparent plate and car, the transparent plate setting is in the building outside and pieces together vertical passageway, the car setting is in the transparent plate and vertical reciprocal slip, the opening has been seted up along vertical direction on the transparent plate, the opening has been seted up on the car, when the opening of car and the opening on the transparent plate coincide, passenger in the car can follow and get into in the car the building, the lateral wall of car uses the printing opacity material to make, thereby make the passenger in the car can view and admire the landscape color outside the transparent plate, make the passenger's sightseeing field of vision in the car better. In the area with better illumination, the photovoltaic panel can be arranged outside the sightseeing elevator, so that the photovoltaic panel generates electricity through solar energy, and the effects of energy conservation and emission reduction are achieved.

The related technical scheme has the following defects that the photovoltaic panel is arranged outside the sightseeing elevator, so that the sightseeing sight of passengers is easily shielded by the photovoltaic panel, and the use of the sightseeing elevator is inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to reduce the probability that solar power system shelters from passenger's sight in the bbservation elevator, this application provides a solar energy bbservation elevator.

The application provides a solar energy bbservation elevator adopts following technical scheme:

the utility model provides a solar energy bbservation elevator, includes a plurality of transparent plates, car and photovoltaic mechanism, and the transparent plate forms the passageway along vertical direction concatenation, and the car setting is in the passageway that the transparent plate was pieced together and reciprocal slip, and the car lateral wall uses the printing opacity material to make, and photovoltaic mechanism connects on the car near one side outer wall on ground, and photovoltaic mechanism is used for turning into the electric energy with solar energy.

Through adopting above-mentioned technical scheme, through bottom installation photovoltaic mechanism under the car, make the car can drive the passageway that photovoltaic mechanism pieced together at the transparent plate and remove and static, when the car is static in the passageway middle part, photovoltaic mechanism can be static in the passageway and turn into the electric energy with solar energy, and photovoltaic mechanism is located the car below, can reduce the probability that photovoltaic mechanism sheltered from passenger's sight in the car.

Optionally, a bottom groove is formed in the bottom of the channel surrounded by the transparent plates, and the bottom groove is used for accommodating the photovoltaic mechanism.

By adopting the technical scheme, the bottom groove is formed below the channel formed by splicing the transparent plates, and when the car moves to the ground, the photovoltaic mechanism below the car can be inserted into the bottom groove, so that the effect of protecting the photovoltaic mechanism is achieved.

Optionally, the photovoltaic mechanism comprises a plurality of first photovoltaic plates and a first sliding rail, the first photovoltaic plates are fixedly connected to the outer wall of the lift car, the side surfaces of the first photovoltaic plates are connected with the first sliding rail, one first photovoltaic plate is slidably connected with the other first photovoltaic plates through the first sliding rail, and the sliding direction of the first photovoltaic plate is parallel to the length direction of a channel formed by splicing the transparent plates.

By adopting the technical scheme, the first photovoltaic plates are mutually connected in a sliding manner through the first sliding rails arranged on the first photovoltaic plates, when the car is suspended, the first photovoltaic plates below the car can automatically slide down and are laid in the channel formed by the spliced transparent plates, so that the laying area of the first photovoltaic plates is increased, and the electric quantity of solar energy converted into electric energy is improved.

Optionally, a plurality of openings have been seted up on the transparent plate, sliding connection has the outer door on the transparent plate, and the opening has been seted up on the car to the opening that the outer door was used for on the shutoff transparent plate, sliding connection has the interior door on the car, and the opening that the interior door was used for the shutoff car is used for to the interior door, and photovoltaic board one side of keeping away from the interior door is set up on the car.

Through adopting above-mentioned technical scheme, through setting up photovoltaic board one side of keeping away from interior side door, make photovoltaic board one can keep away from the building, and then make the amount that photovoltaic board one place received the sunlight more, can promote the generated energy of photovoltaic board one.

Optionally, the photovoltaic mechanism comprises a plurality of second photovoltaic panels, a second sliding rail and a self-propelled assembly, the second sliding rail is of an annular structure, the second sliding rail is arranged at the bottom outside the lift car and is connected to the second sliding rail in a sliding mode, one second photovoltaic panel is fixedly connected to the self-propelled assembly, the other second photovoltaic panels are mutually connected in a sliding mode, the second photovoltaic panels are arranged in the vertical direction and are arranged in parallel, and the self-propelled assembly is used for driving the plurality of second photovoltaic panels to move along the second sliding rail.

Through adopting above-mentioned technical scheme, through set up slide rail two bottom the car, sliding connection is from walking the subassembly on slide rail two, makes and to walk the subassembly and can drive a plurality of photovoltaic boards two and rotate along the circumference, and then can adjust two positions in photovoltaic board and orientation, makes photovoltaic board two can be located different positions at different time quantums, promotes the generated energy of photovoltaic board two.

Optionally, be provided with a plurality of light intensity sensors on the car, light intensity sensor sets up along two circumference equidistance intervals of slide rail, and light intensity sensor is used for discerning the sunlight light intensity of equidirectional not.

Through adopting above-mentioned technical scheme, through setting up a plurality of light intensity sensors on the car, make a plurality of light intensity sensors towards different position, and then make a plurality of light intensity sensors can detect the solar light intensity and export the signal of telecommunication, and the user of service can be according to light intensity sensor's data adjustment photovoltaic board two's position, and then makes photovoltaic board two can be in the great position of sunlight irradiation intensity all the time and carry out the electricity generation.

Optionally, a top cover is arranged at the top of the channel formed by the transparent plates, a driving mechanism is arranged on the top cover, the driving mechanism is connected with the car, and the driving mechanism is used for driving the car to move in a reciprocating mode.

Through adopting above-mentioned technical scheme, through top setting top cap on the transparent plate, set up actuating mechanism on the top cap, make actuating mechanism can drive the car and reciprocate to slide in vertical direction.

Optionally, a guide rail is arranged in a channel formed by splicing the transparent plates, the length direction of the guide rail is parallel to the length direction of the channel, the guide rail is connected with the car in a sliding manner, and the car is used for sliding along the length direction of the guide rail.

Through adopting above-mentioned technical scheme, through set up the guided way in the passageway that the transparent plate was pieced together, make guided way and car sliding connection, and then make the guided way play limiting displacement to the car, can reduce the probability that the car rocked in the passageway, promote passenger's use and experience.

To sum up, the beneficial technical effect of this application does:

1. the photovoltaic mechanism is arranged at the bottom of the car, so that the car can drive the photovoltaic mechanism to move and stand in a channel formed by splicing the transparent plates, when the car stands at the middle of the channel, the photovoltaic mechanism can stand still in the channel and convert solar energy into electric energy, and the photovoltaic mechanism is positioned below the car, so that the probability that the photovoltaic mechanism shields the sight of passengers in the car can be reduced;

2. the first photovoltaic panels are provided with the first sliding rails, so that the first photovoltaic panels are mutually connected in a sliding manner through the first sliding rails, when the lift car is suspended, the first photovoltaic panels below the lift car can automatically slide downwards and are laid in a channel formed by splicing the transparent plates, the laying area of the first photovoltaic panels is increased, and the electric quantity of solar energy converted into electric energy is increased;

3. through set up a plurality of light intensity sensors on the car, make a plurality of light intensity sensors towards different position, and then make a plurality of light intensity sensors can detect the solar light intensity and export the signal of telecommunication, and the user of service can be according to light intensity sensor's data adjustment photovoltaic board two position, and then makes photovoltaic board two can be in the great position of sunlight irradiation intensity all the time and carry out the electricity generation.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a partial sectional structural view of embodiment 1 of the present application.

Fig. 3 is a partial sectional structural view of embodiment 1 of the present application.

Fig. 4 is a schematic structural view of a bottom tank in embodiment 1 of the present application.

Fig. 5 is a structural view of a photovoltaic device according to example 1 of the present application.

Fig. 6 is a structural view of a photovoltaic mechanism according to embodiment 2 of the present application.

Reference numerals: 1. a transparent plate; 11. an outer door; 12. a guide rail; 2. a car; 21. an inner side door; 31. a first photovoltaic panel; 32. a first slide rail; 41. a second photovoltaic panel; 42. a second slide rail; 43. a self-propelled assembly; 44. a light intensity sensor; 5. a top cover; 51. a drive mechanism; 511. a traction assembly; 512. a hauling rope; 513. a counterweight assembly; 6. a bottom groove.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Example 1

The embodiment of the application discloses solar energy bbservation elevator, refer to fig. 1, fig. 2 and fig. 3, including a plurality of transparent plates 1, car 2, photovoltaic mechanism and top cap 5, transparent plate 1 sets up in the building outside, transparent plate 1 sets up subaerial and pieces together vertical passageway, top cap 5 level sets up and piles up the top on the vertical passageway of formation at transparent plate 1, inside car 2 sets up the vertical passageway that 1 pieces together at the transparent plate, 2 lateral walls of car use transparent material to make, the passenger in 2 of car can see through transparent plate 1 and 2 lateral walls of car and vwatch the view. Be provided with actuating mechanism 51 on the top cap 5, actuating mechanism 51 is used for driving the vertical reciprocating motion of car 2, and photovoltaic mechanism sets up on car 2, and the sunlight can pass transparent plate 1 and shine on photovoltaic mechanism, and photovoltaic mechanism is used for turning into the electric energy with solar energy. In the moving process of the lift car 2, the lift car 2 can drive the photovoltaic mechanism to move and be static in the channel enclosed by the transparent plate 1, so that the photovoltaic mechanism continuously generates electricity. Be provided with the battery on the top cap 5, be provided with the electric wire between battery and the photovoltaic mechanism, electric wire one end is connected with the photovoltaic mechanism electricity, and the other end is connected with the battery electricity, and the electric wire is located the vertical passageway that transparent plate 1 encloses, and the battery is used for the electric power storage.

Referring to fig. 3, a plurality of openings have been seted up on the transparent plate 1, and a plurality of openings are seted up along vertical direction equidistance interval, and sliding connection has outer door 11 on the transparent plate 1, and outer door 11 slides along the horizontal direction, and outer door 11 is used for the opening on the shutoff transparent plate 1. An opening is formed in the car 2, an inner door 21 is connected to the car 2 in a sliding mode, the sliding direction of the inner door 21 is the horizontal direction, and the inner door 21 is used for blocking the opening of the car 2. The driving mechanism 51 can drive the car 2 to move to a position where the outer door 11 is flush with the inner door 21, and at the moment, the outer door 11 and the inner door 21 slide to communicate the opening in the transparent plate 1 with the opening in the car 2, so that passengers in the car 2 can leave the car 2 and enter a building.

Referring to fig. 3, two guide rails 12 are arranged in the transparent plate 1, and the guide rails 12 are arranged on two opposite side walls in a vertical channel enclosed by the transparent plate 1. The guide rails 12 are vertically arranged and located on two sides of the outer door 11. The guide rail 12 is connected with the outer side wall of the car 2 in a sliding mode, the guide rail 12 plays a limiting role in the car 2, the probability that the car 2 shakes in the moving process can be reduced, and the use experience of passengers is improved.

Referring to fig. 5, the photovoltaic mechanism comprises a plurality of first photovoltaic panels 31 and a plurality of first sliding rails 32, wherein the plurality of first photovoltaic panels 31 are fixedly connected to the lower bottom surface of the car 2, and the other first photovoltaic panels 31 are slidably connected to the first photovoltaic panels 31 fixed to the car 2. A photovoltaic board 31 and transparent plate 1 parallel arrangement, a car 2 lower bottom surface fixedly connected with three photovoltaic board 31 in this embodiment, a photovoltaic board 31 encloses into frame type structure, a photovoltaic board 31 towards transparent plate 1. The first sliding rails 32 are vertically arranged on one sides, far away from the transparent plate 1, of the first photovoltaic panels 31, and one first photovoltaic panel 31 is connected with the other first photovoltaic panel 31 in a sliding mode through the first sliding rails 32. When the car 2 suspends, the photovoltaic panels 31 at the bottom of the car 2 slide and unfold under the action of gravity, so that the photovoltaic panels 31 can be arranged in the vertical direction, the photovoltaic panels 31 can be laid in a larger area in a channel surrounded by the transparent plate 1, and the solar energy utilization rate is improved.

Referring to fig. 3, the driving mechanism 51 includes a traction assembly 511, a traction rope 512 and a counterweight assembly 513, the traction assembly 511 is mounted on the top cover 5, the traction rope 512 is connected to the traction assembly 511, one end of the traction rope 512 is fixed on the top of the car 2, the other end of the traction rope is connected to the counterweight assembly 513, and the counterweight assembly 513 is suspended in a vertical passage defined by the transparent plate 1. The traction assembly 511 moves by driving the traction rope 512, thereby enabling the car 2 to reciprocate in the vertical direction.

Referring to fig. 4, a bottom groove 6 is formed in the ground in the transparent plate 1, the bottom groove 6 is of an annular or frame-shaped structure, the bottom groove 6 is used for accommodating first photovoltaic panels 31, when the car 2 moves to the lowest position, the car 2 contacts with the ground, the ground supports the car 2, the first photovoltaic panels 31 below the car 2 abut against the bottom of the bottom groove 6, the first photovoltaic panels 31 in sliding connection slide relative to each other, and then the first photovoltaic panels 31 can be completely accommodated in the bottom groove 6.

The implementation principle of the embodiment of the application is as follows: through set up photovoltaic mechanism on car 2, make photovoltaic board 31 can receive the sunlight that passes transparent plate 1 and generate electricity, through set up slide rail 32 on photovoltaic board 31 and be connected with other photovoltaic board 31, make photovoltaic board 31 lay in the vertical passageway that transparent plate 1 encloses by a large scale, promote the utilization ratio to solar energy, through offering kerve 6 subaerial, make photovoltaic board 31 can fall into kerve 6 in, thereby reduce the probability that car 2 whereabouts and crush photovoltaic board 31.

Example 2

The application provides a solar energy bbservation elevator, refer to fig. 6, with embodiment 1's difference lie in that, photovoltaic mechanism includes two 41, two 42 and self-propelled subassembly 43 of a plurality of photovoltaic boards, two 42 sets up to ring shape structure, two 42 are fixed in the bottom under the car 2 of slide rail, self-propelled subassembly 43 embedding and sliding connection are on two 42 of slide rail, self-propelled subassembly 43 is used for along two 42 of slide rail extending direction circular motion. The self-propelled assembly 43 is rotatably connected with a pulley, the pulley is connected with a motor, the pulley is abutted against the second sliding rail 42, and the motor drives the self-propelled assembly 43 to move through the pulley. The second photovoltaic panels 41 are connected to the self-propelled assembly 43, the second photovoltaic panels 41 are arranged in the vertical direction and are connected in a sliding mode, the second photovoltaic panels 41 are arranged in parallel, and the sliding direction of the sliding connection of the second photovoltaic panels 41 is the vertical direction. The self-propelled assembly 43 can drive the two photovoltaic panels 41 to move, so that the two photovoltaic panels 41 can face different directions, the sunlight irradiation direction changes in different time periods, the two photovoltaic panels 41 can face the sunlight irradiation direction all the time, and the solar energy utilization rate is improved.

Referring to fig. 6, a plurality of light intensity sensors 44 are disposed at the bottom of the car 2, the light intensity sensors 44 are used for detecting the illumination intensity of sunlight, and the light intensity sensors 44 are disposed at equal intervals along the circumferential direction of the second sliding rail 42. The user can control the self-propelled assembly 43 to move according to the electric signal output by the light intensity sensor 44, so that the second photovoltaic panel 41 can move to the position opposite to the sun.

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

Claims (8)

1. The utility model provides a solar energy bbservation elevator which characterized in that: including a plurality of transparent plates (1), car (2) and photovoltaic mechanism, transparent plate (1) forms the passageway along vertical direction concatenation, and car (2) set up in the passageway that transparent plate (1) were pieced together and reciprocating sliding, and car (2) lateral wall uses the printing opacity material to make, and photovoltaic mechanism connects on car (2) and is close to one side outer wall on ground, and photovoltaic mechanism is used for turning into the electric energy with solar energy.

2. The solar sightseeing elevator according to claim 1, characterized in that: a bottom groove (6) is formed in the bottom, which is surrounded into a channel, of the transparent plate (1), and the bottom groove (6) is used for containing the photovoltaic mechanism.

3. The solar sightseeing elevator according to claim 2, characterized in that: the photovoltaic mechanism comprises a plurality of photovoltaic panels I (31) and sliding rails I (32), the photovoltaic panels I (31) are fixedly connected to the outer wall of the lift car (2), one side surface of each photovoltaic panel I (31) is connected with the corresponding sliding rail I (32), one photovoltaic panel I (31) is connected with the other photovoltaic panel I (31) in a sliding mode through the corresponding sliding rail I (32), and the sliding direction of the photovoltaic panel I (31) is parallel to the length direction of a channel formed by the transparent plates (1).

4. The solar sightseeing elevator according to claim 3, characterized in that: a plurality of openings have been seted up on transparent plate (1), sliding connection has outer door (11) on transparent plate (1), and outer door (11) are used for the opening on shutoff transparent plate (1), have seted up the opening on car (2), and sliding connection has interior door (21) on car (2), and interior door (21) are used for the opening of shutoff car (2), and one side of keeping away from interior door (21) is set up in photovoltaic board (31) on car (2).

5. The solar sightseeing elevator according to claim 2, characterized in that: photovoltaic mechanism includes a plurality of photovoltaic board two (41), slide rail two (42) and from walking subassembly (43), slide rail two (42) are the ring column structure, slide rail two (42) set up in car (2) outer bottom, from walking subassembly (43) sliding connection on slide rail two (42), a photovoltaic board two (41) fixed connection is on walking subassembly (43), other photovoltaic board two (41) sliding connection each other, photovoltaic board two (41) are arranged along vertical direction, photovoltaic board two (41) parallel arrangement each other, from walking subassembly (43) and being used for driving a plurality of photovoltaic board two (41) and removing along slide rail two (42).

6. The solar sightseeing elevator according to claim 5, characterized in that: be provided with a plurality of light intensity sensor (44) on car (2), light intensity sensor (44) set up along two (42) circumference equidistance intervals of slide rail, and light intensity sensor (44) are used for discerning the sunlight light intensity of equidirectional not.

7. The solar sightseeing elevator according to claim 1, characterized in that: the elevator car is characterized in that a top cover (5) is arranged at the top of a channel formed by splicing the transparent plates (1), a driving mechanism (51) is arranged on the top cover (5), the driving mechanism (51) is connected with the car (2), and the driving mechanism (51) is used for driving the car (2) to move in a reciprocating mode.

8. The solar sightseeing elevator according to claim 1, characterized in that: be provided with guided way (12) in the passageway that transparent plate (1) were pieced together, the length direction of guided way (12) with the length direction of passageway is parallel, guided way (12) and car (2) sliding connection, and car (2) are used for sliding along guided way (12) length direction.

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