CN114087791A

CN114087791A - Building roof energy storage structure system

Info

Publication number: CN114087791A
Application number: CN202111228947.4A
Authority: CN
Inventors: 姜琪圆; 蒋伟; 张森亮; 黄胜
Original assignee: CCCC Fourth Highway Engineering Co Ltd
Current assignee: CCCC Fourth Highway Engineering Co Ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-02-25
Anticipated expiration: 2041-10-21
Also published as: CN114087791B

Abstract

The invention belongs to the field of energy storage structures, in particular to an energy storage structure system of a building roof, which aims at the problem of low solar energy storage efficiency of a solar pond when the solar pond in the existing energy storage structure system of the roof is used, and provides the following scheme, the energy storage structure system comprises a water storage tank, a base is fixedly arranged on the front side of the water storage tank, a mounting plate is movably connected on the front side of the water storage tank, a sliding plate is fixedly arranged on the front side of the mounting plate, the top of the sliding plate is slidably connected with a sliding frame, a motor is fixedly arranged on the top of the sliding frame, a driving gear is fixedly arranged on the rear end of an output shaft of the motor, a fixed rack is fixedly arranged on the front side of the mounting plate, the driving gear is meshed with the fixed rack, the motor can drive the driving gear to adjust the angle and the height of a convex lens through a reverse rotation motor and a forward rotation motor, and the convex lens can focus peripheral too much light into the water storage tank, the energy storage efficiency in the reservoir is increased.

Description

Building roof energy storage structure system

Technical Field

The invention relates to the technical field of energy storage structures, in particular to an energy storage structure system for a building roof.

Background

The solar pond is a device for storing absorbed solar heat energy by utilizing salt concentration gradient, has the advantages of low price, no environmental pollution and strong operability, and comprises an upper convection layer, a non-convection layer and a lower convection layer, wherein the upper convection layer is composed of clear water, the temperature of the upper convection layer is close to the environmental temperature, the solar pond has the functions of heat insulation and heat preservation and can prevent the lower solution from being disturbed, the damage of the external environment, such as wind, rain, snow and sand dust, to the salt gradient layer due to evaporation is reduced, and the stability of the solar pond is realized by periodically supplementing water; the lower troposphere, typically saturated brine or saturated salt solution, acts to store the absorbed solar thermal energy; the non-convection layer is a key part of the solar pond, the concentration of each layer of the salt solution is increased along with the increase of the depth of the pond body, so that the density of the salt solution is increased in a gradient manner, the natural convection in the vertical direction among the salt water of each layer is effectively prevented, and finally the lower convection layer achieves the purpose of collecting and storing solar energy.

When a solar pond in the existing roof energy storage structure system is used, the solar energy storage efficiency of the solar pond is low, so that a building roof energy storage structure system is provided for solving the problems.

Disclosure of Invention

The invention provides a building roof energy storage structure system based on the technical problem that when a solar pond in the roof energy storage structure system is used, the solar storage efficiency of the solar pond is low in the background technology.

The invention provides an energy storage structure system of a building roof, which comprises a water storage tank, wherein a base is fixedly arranged on the front side of the water storage tank, a mounting plate is connected on the front side of the water storage tank in a sliding manner, a sliding plate is fixedly arranged on the front side of the mounting plate, the top of the sliding plate is connected with a sliding frame in a sliding manner, a motor is fixedly arranged on the top of the sliding frame, a driving gear is fixedly arranged on the rear end of an output shaft of the motor, a fixed rack is fixedly arranged on the front side of the mounting plate, the driving gear is meshed with the fixed rack, two telescopic plates are symmetrically arranged on the top of the water storage tank, a convex lens is arranged on the top of the water storage tank and matched with the telescopic plates, symmetrically arranged positioning mechanisms are arranged on the front side of the mounting plate, two positioning mechanisms are arranged, and a transmission mechanism is arranged on the front side of the mounting plate, the transmission mechanism is matched with the telescopic plate and the positioning mechanism.

Preferably, the positioning mechanism includes a sliding rack and a spring, the spring is fixedly connected with the sliding rack, the bottom end of the sliding rack is slidably connected with the top of the sliding plate, the spring is matched with the sliding plate, after the motor is started, when the motor moves to drive the control rod to move, the control rod can be matched with the positioning mechanism to unlock the driving gear at the current position, and after the motor is stopped, the driving gear at the current position can be positioned.

Preferably, the transmission mechanism comprises a push rod, two first chain wheels, two second chain wheels, two first chain wheels, two driving gears, a telescopic rod, two second chain wheels and a connecting rod, the number of the driving gears, the two first chain wheels and the two second chain wheels is two, the first chain wheels and the second chain wheels are both rotatably connected to the front side of the mounting plate, the first chain wheels are sleeved with the first chain wheels, the second chain wheels are sleeved with the second chain wheels, the two driving gears are respectively fixedly connected with the first chain wheels and the second chain wheels which are positioned at the lower positions, the driving gears are meshed with the sliding racks, the rear side of the top end of the push rod is rotatably connected with the front side of the second chain wheels, the telescopic rod is rotatably connected to the front side of the mounting plate, the right end of the telescopic rod is rotatably connected with the first chain wheels, the telescopic rod is rotatably connected with the connecting rod, and the top end of the connecting rod is rotatably connected with the convex lens, drive mechanism can drive the second chain of right side position when rotatory in motor corotation, the second chain can drive the catch bar downstream, make the catch bar can be with mounting panel jack-up downwards, the mounting panel rethread connecting rod drives the expansion plate and extends to, the telescopic link drives convex lens again and rises, just realized the lift to convex lens, the reversal motor, the motor is anti-to grab and is driven the first chain of right side position rotatory, the right-hand member that drives the telescopic link again of first chain reciprocates, the telescopic link reciprocates through the right side that the connecting rod drove convex lens again, just realized the regulation to convex lens angle.

Preferably, the horizontal spout that the symmetry set up is opened to the front side of mounting panel, the quantity of horizontal spout is two, sliding connection has the slide bar on the inner wall of horizontal spout, and the equal fixed mounting in one side that two slide bars are close to each other has the cooperation board, and one side that two cooperation boards are close to each other is respectively with one side sliding connection that the catch bar was kept away from each other, and the cooperation board is used for spacing the catch bar for the catch bar can keep the vertical state always, makes the catch bar can not incline, prevents that the catch bar from losing the support to the mounting panel.

Preferably, the front side fixed mounting of mounting panel has the drive pole, the top and the expansion plate fixed connection of drive pole drive the pole and be used for connecting mounting panel and expansion plate for the mounting panel can drive expansion plate extensible or shrink when rising or decline, realizes the lift to convex lens.

Preferably, the left side and the right side of carriage all fixed mounting have the control lever, control lever and sliding rack sliding contact, the control lever is used for cooperating the positioning mechanism of both sides position for the carriage can drive the gear and carry out the unblock earlier before driving the driving gear removal and driving the gear removal.

Preferably, the top of the sliding plate is fixedly connected with two symmetrically arranged fixed plates, one side of each fixed plate, which is close to each other, is fixedly connected with one side of each spring, which is far away from each other, and the fixed plates are used for supporting the springs, so that the sliding rack can normally compress the springs when moving and can also be reset through the resilience of the springs.

Preferably, the top fixed mounting of expansion plate has the rotating turret, the equal fixed mounting in front side and the rear side of convex lens has the pivot, the pivot rotates with the rotating turret to be connected, and rotating turret and pivot are used for connecting convex lens and expansion plate for convex lens can rotate on the expansion plate, comes angle regulation.

The invention has the beneficial effects that:

1. through the positioning mechanism, after the motor is started, when the motor moves to drive the control rod to move, the control rod can be matched with the positioning mechanism to unlock the driving gear at the current position, and after the motor stops, the driving gear at the current position can be positioned;

2. through drive mechanism, drive mechanism can drive the second chain of right side position when rotatory in motor corotation, the second chain can drive the catch bar downstream, make the catch bar can be with mounting panel jack-up downwards, the mounting panel rethread connecting rod drives the expansion plate and extends to, the telescopic link drives convex lens again and rises, just realized the lift to convex lens, the reversal motor, the motor is anti-to grab and is driven the first chain of right side position rotatory, the right-hand member that drives the telescopic link again of first chain reciprocates, the telescopic link drives convex lens's right side through the connecting rod again and reciprocates, just realized the regulation to convex lens angle.

According to the invention, through the reverse rotation motor and the forward rotation motor, the motor can drive the driving gear to adjust the angle and the height of the convex lens, and at the moment, the convex lens can focus the peripheral too-eye light into the water storage tank, so that the energy storage efficiency in the water storage tank is increased, and meanwhile, the convex lens can also shield a part of impurities from entering the water storage tank.

Drawings

FIG. 1 is a three-dimensional schematic view of a structural lens of an energy storage structural system for building roofs according to the present invention;

FIG. 2 is a schematic structural front view of an energy storage structural system for building roof according to the present invention;

FIG. 3 is a schematic structural plan view of an energy storage structural system for building roof according to the present invention;

FIG. 4 is a schematic top view of a structural mating plate and a push rod of the energy storage structural system for building roof according to the present invention;

fig. 5 is a schematic bottom view of the second sprocket and the driving gear of the energy storage structure system for building roof according to the present invention.

In the figure: the device comprises a water storage tank 1, a base 2, a sliding plate 3, a mounting plate 4, a sliding frame 5, a motor 6, a driving gear 7, a fixed gear 8, a sliding rack 9, a spring 10, a fixed plate 11, a pushing rod 12, a first chain wheel 13, a second chain wheel 14, a first chain wheel 15, a driving gear 16, a telescopic rod 17, a second chain wheel 18, a connecting rod 19, a convex lens 20, a telescopic plate 21, a rotating frame 22, a rotating shaft 23, a sliding rod 24, a driving rod 25, a matching plate 26 and a control rod 27.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

Referring to fig. 1-5, the embodiment provides an energy storage structure system for a building roof, including a water reservoir 1, a base 2 is fixedly installed on the front side of the water reservoir 1, a mounting plate 4 is slidably connected to the front side of the water reservoir 1, a sliding plate 3 is fixedly installed on the front side of the mounting plate 4, a sliding frame 5 is slidably connected to the top of the sliding plate 3, a motor 6 is fixedly installed on the top of the sliding frame 5, a driving gear 7 is fixedly installed on the rear end of an output shaft of the motor 6, a fixed rack 8 is fixedly installed on the front side of the mounting plate 4, the driving gear 7 is engaged with the fixed rack 8, symmetrically arranged expansion plates 21 are fixed on the top of the water reservoir 1, the number of the expansion plates 21 is two, a convex lens 20 is arranged on the top of the water reservoir 1, the convex lens 20 is matched with the expansion plate 21, symmetrically arranged positioning mechanisms are arranged on the front side of the mounting plate 4, and the positioning mechanisms are two, the front side of the mounting plate 4 is provided with a transmission mechanism, the transmission mechanism is matched with the expansion plate 21 and the positioning mechanism, the front side of the mounting plate 4 is fixedly provided with a driving rod 25, the top end of the driving rod 25 is fixedly connected with the expansion plate 21, the driving rod 25 is used for connecting the mounting plate 4 and the expansion plate 21, so that the mounting plate 4 can drive the expansion plate 21 to extend or contract when ascending or descending, so as to realize the ascending and descending of the convex lens 20, the left side and the right side of the sliding frame 5 are both fixedly provided with control rods 27, the control rods 27 are in sliding contact with the sliding rack 9, the control rods 27 are used for matching with the positioning mechanisms at the two sides, so that the sliding frame 5 can unlock the driving gear 16 before driving the driving gear 7 to move and the driving gear 16 to move, the top of the expansion plate 21 is fixedly provided with a rotating frame 22, and the front side and the rear side of the convex lens 20 are both fixedly provided with rotating shafts 23, the rotating shaft 23 is rotatably connected to the rotating frame 22, and the rotating frame 22 and the rotating shaft 23 are used for connecting the convex lens 20 and the telescopic plate 21, so that the convex lens 20 can rotate on the telescopic plate 21 to adjust the angle.

The positioning mechanism comprises a sliding rack 9 and a spring 10, the spring 10 is fixedly connected with the sliding rack 9, the bottom end of the sliding rack 9 is slidably connected with the top of the sliding plate 3, the spring 10 is matched with the sliding plate 3, after the motor 6 is started, when the motor 6 moves to drive the control rod 27 to move, the control rod 27 can be matched with the positioning mechanism to unlock the driving gear 16 at the current position, after the motor 6 stops, the driving gear 16 at the current position can be positioned, the top of the sliding plate 3 is fixedly connected with two symmetrically arranged fixed plates 11, one side of each fixed plate 11, which is close to each other, is fixedly connected with one side of each spring 10, which is far from each other, the fixed plates 11 are used for supporting the springs 10, so that the sliding rack 9 can normally compress the spring 10 when moving, and can be reset by the rebound of the spring 10.

The transmission mechanism comprises a push rod 12, a first chain wheel 13, a second chain 14, a first chain 15, a driving gear 16, a telescopic rod 17, a second chain wheel 18 and a connecting rod 19, the number of the driving gear 16, the first chain wheel 13 and the second chain wheel 18 is two, the first chain wheel 13 and the second chain wheel 18 are both rotatably connected to the front side of the mounting plate 4, the first chain 15 is sleeved on the first chain wheel 13, the second chain 14 is sleeved on the second chain wheel 18, the two driving gears 16 are respectively fixedly connected with the first chain wheel 13 and the second chain wheel 18 which are positioned at the lower position, the driving gear 16 is meshed with the sliding rack 9, the rear side of the top end of the push rod 12 is rotatably connected with the front side of the second chain 14, the telescopic rod 17 is rotatably connected to the front side of the mounting plate 4, the right end of the telescopic rod 17 is rotatably connected with the first chain 15, the telescopic rod 17 is rotatably connected with the connecting rod 19, and the top end of the connecting rod 19 is rotatably connected with the convex lens 20, when the motor 6 rotates positively to drive the second chain 14 at the right position to rotate, the second chain 14 can drive the pushing rod 12 to move downwards, so that the pushing rod 12 can jack the mounting plate 4 downwards, the mounting plate 4 drives the expansion plate 21 to extend through the connecting rod 19, the expansion rod 17 drives the convex lens 20 to ascend, so that the convex lens 20 can ascend and descend, the motor 6 is reversely rotated, the motor 6 reversely grabs to drive the first chain 15 at the right position to rotate, the first chain 15 drives the right end of the expansion rod 17 to move up and down, the expansion rod 17 drives the right side of the convex lens 20 to move up and down through the connecting rod 19, so that the angle of the convex lens 20 can be adjusted, the front side of the mounting plate 4 is provided with two symmetrically arranged horizontal sliding grooves, the inner walls of the horizontal sliding grooves are connected with sliding rods 24 in a sliding manner, one sides of the two sliding rods 24 close to each other are fixedly provided with matching plates 26, one side that two cooperation boards 26 are close to each other is respectively with one side sliding connection that catch bar 12 kept away from each other, and cooperation board 26 is used for spacing catch bar 12 for catch bar 12 can keep the vertical state always, makes catch bar 12 can not incline, prevents that catch bar 12 from losing the support to mounting panel 4.

The working principle is as follows: when the height of the convex lens 20 needs to be adjusted, only the motor 6 needs to be started on the sliding frame 5, so that the motor 6 drives the driving gear 7 to rotate clockwise, after the driving gear 7 starts to rotate, the top of the driving gear 7 is meshed with the bottom of the fixed rack 8, the sliding frame 5 is connected with the sliding plate 3 in a sliding manner, so that the driving gear 7 drives the sliding frame 5 and the motor 6 to move to the left, at the same time, the driving gear 7 is meshed with the driving gear 16 at the left position, and simultaneously the control rod 27 is firstly hijacked with the sliding rack 9 at the left position, pushes the sliding rack 9 to the left and compresses the spring 10 at the left position, so that the sliding rack 9 at the left position moves to the left to be separated from the driving gear 16 at the left position, so as to unlock the driving gear 16 at the left position, at the moment, the driving gear 7 is meshed with the driving gear 16 at the left position, and the driving gear 7 can drive the driving gear 16 at the left position to rotate, the driving gear 7 rotates on the right side of the fixed rack 8, the driving gear 16 drives the second chain wheel 18 at the lower position to rotate, the second chain wheel 18 drives the second chain 14 to rotate clockwise, the second chain 14 drives the top end of the push rod 12 to rotate clockwise, so that the push rod 12 moves towards the right side, the push rod 12 drives the two matching plates 26 and the two sliding rods 24 to move towards the right side, then the second chain 14 drives the push rod 12 to move downwards, the push rod 12 pushes the sliding plate 3 to move upwards on the base 2, the sliding plate 3 drives the mounting plate 4 to move upwards, the mounting plate 4 drives the driving rod 25 to move upwards, the driving rod 25 drives the telescopic rod 17 to extend, the height adjustment of the convex lens 20 is realized, the motor 6 is directly stopped after the height of the convex lens 20 is adjusted, and the spring 10 at the left position is reset after the motor 6 is stopped, the control rod 27 is pushed to move towards the right side, the control rod 27 pushes the sliding frame 5 to move towards the right side again, at the moment, the sliding frame 5 drives the motor 6 and the driving gear 7 to move towards the right side, the driving gear 7 is meshed with the fixed rack 8 again, meanwhile, the spring 10 can also push the sliding rack 9 to reset, so that the sliding rack 9 is meshed with the driving gear 16 at the left side position, the positioning of the position driving gear 16 is realized, meanwhile, the positioning of the position of the convex lens 20 is also realized, when the angle of the convex lens 20 needs to be adjusted, only the motor 6 needs to be reversed, the driving gear 7 rotates anticlockwise, the motor 6 moves towards the right side to drive the driving gear 7 to be meshed with the driving gear 16 at the right side position, meanwhile, the control rod 27 at the right side position can also push the sliding rack 9 at the right side position to move towards the right side to unlock the driving gear 16 at the right side position, and then the driving gear 16 at the right side position is driven by the driving gear 7 to rotate, the drive gear 16 of right side position drives the first sprocket 13 of right side position and first chain 15 is rotatory again, first chain 15 drives the right-hand member of telescopic link 17 again and reciprocates, telescopic link 17 rethread connecting rod 19 drives the right side of convex lens 20 and reciprocates, just realized the regulation to convex lens 20 angle, after stopping motor 6, the slip rack 9 of right side position is again to the drive gear 16 unblock of right side position, just realized the location behind the 20 angle modulation of convex lens, convex lens 20 just can be with around in the too eye light focusing cistern 1 this moment, increase the energy storage efficiency in the cistern 1, convex lens 20 still can shelter from partly debris simultaneously and enter into cistern 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a building roof energy storage structure system, includes cistern (1), its characterized in that, the front side fixed mounting of cistern (1) has base (2), the front side sliding connection of cistern (1) has mounting panel (4), the front side fixed mounting of mounting panel (4) has sliding plate (3), the top sliding connection of sliding plate (3) has carriage (5), the top fixed mounting of carriage (5) has motor (6), the rear end fixed mounting of motor (6) output shaft has driving gear (7), the front side fixed mounting of mounting panel (4) has fixed rack (8), driving gear (7) mesh with fixed rack (8), the top of cistern (1) is fixed with expansion plate (21) that the symmetry set up, the quantity of expansion plate (21) is two, the top of cistern (1) is equipped with convex lens (20), convex lens (20) cooperate with expansion plate (21), the front side of mounting panel (4) is equipped with the positioning mechanism that the symmetry set up, positioning mechanism is two, the front side of mounting panel (4) is equipped with drive mechanism, drive mechanism cooperatees with expansion plate (21) and positioning mechanism.

2. The building roof energy storage structure system according to claim 1, characterized in that the positioning mechanism comprises a sliding rack (9) and a spring (10), the spring (10) is fixedly connected with the sliding rack (9), the bottom end of the sliding rack (9) is slidably connected with the top of the sliding plate (3), and the spring (10) is matched with the sliding plate (3).

3. The building roof energy storage structure system according to claim 1, wherein the transmission mechanism comprises a push rod (12), a first chain wheel (13), a second chain (14), a first chain (15), a driving gear (16), an expansion link (17), a second chain wheel (18) and a connecting rod (19), the number of the driving gear (16), the first chain wheel (13) and the second chain wheel (18) is two, the first chain wheel (13) and the second chain wheel (18) are both rotationally connected to the front side of the mounting plate (4), the first chain (15) is sleeved on the first chain wheel (13), the second chain (14) is sleeved on the second chain wheel (18), the two driving gears (16) are respectively and fixedly connected with the first chain wheel (13) and the second chain wheel (18) which are located at the lower position, the driving gear (16) is meshed with the sliding rack (9), the top rear side of catch bar (12) rotates with the front side of second chain (14) to be connected, telescopic link (17) rotate to be connected the front side in mounting panel (4), the right-hand member and first chain (15) of telescopic link (17) rotate to be connected, telescopic link (17) rotate with connecting rod (19) to be connected, the top and convex lens (20) of connecting rod (19) rotate to be connected.

4. The building roof energy storage structure system according to claim 1, wherein the front side of the mounting plate (4) is provided with two symmetrically arranged horizontal sliding grooves, sliding rods (24) are slidably connected to the inner walls of the horizontal sliding grooves, one side of each of the two sliding rods (24) close to each other is fixedly provided with a matching plate (26), and one side of each of the two matching plates (26) close to each other is slidably connected to one side of each of the pushing rods (12) far away from each other.

5. The building roof energy storage structure system according to claim 1, wherein a driving rod (25) is fixedly installed on the front side of the installation plate (4), and the top end of the driving rod (25) is fixedly connected with the expansion plate (21).

6. The building roof energy storage structure system according to claim 1, characterized in that a control rod (27) is fixedly installed on each of the left side and the right side of the sliding frame (5), and the control rod (27) is in sliding contact with the sliding rack (9).

7. The building roof energy storage structure system according to claim 1, characterized in that the top of the sliding plate (3) is fixedly connected with two symmetrically arranged fixing plates (11), and the sides of the two fixing plates (11) close to each other are fixedly connected with the sides of the two springs (10) far away from each other.

8. The energy storage structural system for the building roof as claimed in claim 1, wherein a rotating frame (22) is fixedly installed at the top of the expansion plate (21), rotating shafts (23) are fixedly installed at the front side and the rear side of the convex lens (20), and the rotating shafts (23) are rotatably connected with the rotating frame (22).