CN110995133A - Solar power generation system adopting tower type solar power generation technology - Google Patents

Abstract

The invention discloses a solar power generation system adopting a tower type solar power generation technology, which comprises a supporting component, wherein the upper end of the supporting component is rotatably connected with a steering component, the supporting component comprises a telescopic supporting seat, the top end of the supporting seat is provided with a fixed ball of which the outer surface is fully distributed with moving holes, and the outer wall of the fixed ball is wrapped by a containing shell of which the inside is provided with a ball groove; the shrink through the second cylinder makes the profile tooth nail of horizontal motor output contact the removal hole on fixed ball surface, the start-up of horizontal motor makes the profile tooth nail roll on fixed ball surface, thereby promote to accept the removal of shell at fixed ball surface horizontal, the profile tooth nail that makes the vertical motor output through the shrink of second cylinder makes the removal hole on fixed ball surface, the start-up of perpendicular motor makes the profile tooth nail roll on fixed ball surface, thereby promote to accept the shell at the fore-and-aft removal in fixed ball surface, and then the adjustment is accepted the horizontal and fore-and-aft position of shell, the direction change to the heliostat.

Description

Solar power generation system adopting tower type solar power generation technology

Technical Field

The invention relates to the technical field of casting molds, in particular to a solar power generation system adopting a tower type solar power generation technology.

Background

Solar tower power generation is an applied tower system, which is also called a centralized system; a plurality of large solar reflectors, generally called heliostats, are arranged on a large-area field, each solar reflector is provided with a tracking mechanism respectively to accurately reflect and concentrate sunlight to a receiver at the top of a high tower, the light-gathering multiplying power on the receiver can exceed 1000 times, absorbed solar energy is converted into heat energy, the heat energy is transmitted to a working medium, the heat energy is input into a thermal power machine through a heat storage link and is expanded to work so as to drive a generator, and finally the heat energy is output in the form of electric energy, and the solar energy collecting system mainly comprises a light-gathering subsystem, a heat-accumulating subsystem, a power generation subsystem and the like.

At present, two-axis type is adopted to change the direction of the heliostat in the market, but the direction adjustment of the transverse axis and the longitudinal axis depends on the rotation of a motor shaft, so that the motor shaft bears most of the weight, the abrasion of the motor shaft is serious, and the motor shaft is not beneficial to long-term use.

Disclosure of Invention

The invention aims to provide a solar power generation system adopting a tower type solar power generation technology, and aims to solve the problem that a motor shaft bears most of weight, so that the motor shaft is seriously abraded and is not beneficial to long-term use.

In order to achieve the above object, the present invention provides a solar power generation system using tower-type solar power generation technology, comprising a support assembly, wherein the upper end of the support assembly is rotatably connected with a steering assembly, the support assembly comprises a support seat which can be extended and retracted, the top end of the support seat is provided with a fixed ball with moving holes distributed on the outer surface, the outer wall of the fixed ball is wrapped by a containing shell with ball grooves formed therein, the containing shell is rotatably connected to the outer wall of the fixed ball, a second cylinder is arranged inside the containing shell, the output end of the second cylinder is respectively provided with a horizontal motor and a vertical motor, the output ends of the horizontal motor and the vertical motor both penetrate through the outer wall of the containing shell and are connected to the fixed ball inside in a rolling manner and are inserted into the moving holes of the outer wall of the fixed ball, and the horizontal motor and the vertical motor are respectively arranged on the outer surface of the containing shell in a transverse, the outer surface of the accommodating shell is fixedly connected with a heliostat used for reflecting sunlight, and the outer wall of the supporting seat is provided with a central control box used for controlling the horizontal motor and the vertical motor.

The containing shell is divided into an upper containing shell and a lower containing shell, the upper containing shell and the lower containing shell are fixed through bolts, a semispherical groove is formed in the upper containing shell, a part of spherical grooves are formed in the lower containing shell, and the two spherical grooves are communicated.

Wherein, the inner wall of ball groove with the outer wall looks adaptation of fixed ball, and both set up to smooth.

The upper containing shell and the lower containing shell are both rectangular, through grooves are formed in the periphery of the containing shells, and the through grooves are located at the connecting position between the upper containing shell and the lower containing shell.

The penetrating groove is divided into a vertical groove and a horizontal groove, the vertical groove corresponds to the vertical motor, and the horizontal groove corresponds to the horizontal motor.

The output ends of the horizontal motor and the vertical motor are provided with turntables, the outer walls of the turntables are provided with toothed nails in a surrounding mode, and the toothed nails are inserted into the moving holes.

The horizontal motors and the vertical motors are respectively provided with two horizontal motors and two vertical motors, the two horizontal motors and the two vertical motors are respectively positioned on the opposite surfaces of the outer side surfaces of the containing shells, and the four second cylinders are in one-to-one correspondence with the four second cylinders.

The supporting seat is composed of a base, a stand column and a first air cylinder, the stand column is fixedly connected to the upper surface of the base, and the first air cylinder is fixedly connected to the upper end of the stand column.

The outer wall of the upright column is provided with the central control box, a processor is arranged inside the central control box, and the processor is electrically connected with the first air cylinder, the second air cylinder, the horizontal motor and the vertical motor.

The processor comprises a processing module, a driving module and a communication module, and the processing module is respectively connected with the driving module and the communication module.

The invention relates to a solar power generation system adopting tower type solar power generation technology, a fixed ball is arranged at the top end of a supporting seat, the upper half part of the fixed ball is wrapped inside a containing shell, a vertical motor and a horizontal motor are arranged on the outer wall of the containing shell, a tooth nail at the output end of the horizontal motor is contacted with a moving hole on the surface of the fixed ball through the contraction of a second cylinder, the tooth nail is fixed on the surface of the fixed ball through the starting of the horizontal motor, so that the containing shell is pushed to move transversely on the surface of the fixed ball, similarly, the tooth nail at the output end of the vertical motor is contacted with the moving hole on the surface of the fixed ball through the contraction of the second cylinder, the tooth nail is fixed on the surface of the fixed ball through the starting of the vertical motor, so that the containing shell is pushed to move longitudinally on the surface of the fixed ball, the transverse and longitudinal directions of the containing shell are adjusted, rotation between the accommodating shell and the fixing ball plays a main supporting role, the burden of the motor is reduced, the loss of the motor is avoided, and the whole service life is prolonged.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the steering assembly of the present invention;

FIG. 3 is a schematic plan view of the steering assembly of the present invention;

FIG. 4 is a schematic view of the center console box connection of the present invention;

1-support component, 11-base, 12-upright column; 13-a central control box, 14-a first cylinder, 15-a fixed ball, 16, a moving hole, 2-a steering assembly, 21-an upper containing shell, 22-a lower containing shell, 23-a second cylinder, 24-a horizontal motor, 25-a vertical motor and 26-a heliostat.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1-4, the present invention provides a technical solution, a solar power generation system using tower-type solar power generation technology, comprising a support assembly 1, a steering assembly 2 is rotatably connected to the upper end of the support assembly 1, the support assembly 1 comprises a telescopic support seat, a fixed ball 15 with moving holes 16 distributed on the outer surface is arranged at the top end of the support seat, the outer wall of the fixed ball 15 is wrapped by a housing shell with ball grooves formed therein, the housing shell is rotatably connected to the outer wall of the fixed ball 15, a second cylinder 23 is arranged inside the housing shell, the output end of the second cylinder 23 is respectively provided with a horizontal motor 24 and a vertical motor 25, the output ends of the horizontal motor 24 and the vertical motor 25 penetrate through the outer wall of the housing shell and are connected to the fixed ball 15 inside in a rolling manner and are inserted into the moving holes 16 on the outer wall of the fixed ball 15, the horizontal motor 24 and the vertical motor 25 are respectively arranged on the outer surface of, a heliostat 26 for reflecting sunlight is fixedly connected to the outer surface of the accommodating shell, and a central control box 13 for controlling a horizontal motor 24 and a vertical motor 25 is arranged on the outer wall of the supporting seat.

In this embodiment, first, the processor in the central control box 13 communicates with the external control center through the communication module, the control center sends various instructions for controlling steering to the processor through the communication module, after the processing module in the processor interprets the instructions, the control driving module drives the corresponding executing element to perform corresponding action, the driving module drives the first cylinder 14 to extend, so as to lift the fixing ball 15 located at the extending end of the first cylinder 14 upwards, the upward movement of the fixing ball 15 drives the accommodating shell wrapped on the outer surface of the fixing ball to move upwards, the accommodating shell drives the heliostat 26 to move upwards and lift, and adjust the height of the heliostat, then the driving module controls the second cylinder 23 fixedly connected with the horizontal motor 24 to extend outwards, so that the tooth nail on the outer wall of the turntable on the output shaft of the horizontal motor 24 leaves the moving hole 16 on the outer wall of the fixing ball 15, until the innermost end of the output shaft turntable of the horizontal motor 24 leaves the horizontal groove in the through groove, then the driving module controls the vertical motor 25 to perform power-on rotation, the two vertical motors 25 synchronously rotate, so as to control the upper accommodating shell 21 and the lower accommodating shell 22 to perform longitudinal angle adjustment on the outer surface of the fixed ball 15, then when the longitudinal angle reaches the requirement, the second air cylinder 23 fixedly connected with the horizontal motor 24 is controlled again to perform contraction and inward movement, the pins of the horizontal motor 24 are inserted into the moving holes 16 corresponding to the fixed ball 15, then the second air cylinder 23 fixedly connected with the vertical motor 25 is controlled to perform extension and outward movement, so that the pins of the vertical motor 25 are separated from the moving holes 16 of the fixed ball 15, then the driving module controls the horizontal motor 24 to perform power-on rotation and move in the moving holes 16 on the outer wall of the fixed ball 15, so as to adjust the transverse angle of the accommodating shell, so that the transverse angle of the heliostat 26 is adjusted, and further the transverse angle and the longitudinal angle of the heliostat 26 are set, the heliostats 26 reflect sunlight to a remote high tower receiver for subsequent solar energy utilization.

Further, the containing shell is divided into an upper containing shell 21 and a lower containing shell 22, the upper containing shell 21 and the lower containing shell 22 are fixed through bolts, a semispherical groove is formed in the upper containing shell 21, a part of spherical grooves are formed in the lower containing shell 22, and the two spherical grooves are communicated; the inner wall of the ball groove is matched with the outer wall of the fixed ball 15, and the inner wall and the outer wall are both smooth.

In the present embodiment, the accommodating case is provided for accommodating the fixed ball 15 in a ball groove formed therein, which plays a main role of weighing, weighing the heliostat 26 above and adjusting the angle by rotation, and is divided into an upper accommodating case 21 and a lower accommodating case 22, so that the hemispherical groove of the accommodating case overlaps with the upper half of the fixed ball 15, part of the ball groove of the lower accommodating case 22 accommodates the lower half of the fixed ball 15 from below, the upper accommodating case 21 and the lower accommodating case 22 are fixed by bolts, so that the fixed ball 15 is fixed in the accommodating case, thereby preventing the fixed ball 15 in the accommodating case from separating, the inner wall of the accommodating case and the outer wall of the fixed ball 15 are both smooth, and the frictional resistance therebetween is small, thereby preventing difficulty in adjusting the angle of the heliostat 26, and balls may be provided in the ball groove of the accommodating case, thereby changing the sliding friction between the fixed ball 15 and the ball groove into rolling friction, reducing the frictional resistance between the two facilitates changes in direction and angle.

Further, the upper containing shell 21 and the lower containing shell 22 are both rectangular, and through grooves are formed around the containing shells and are located at the connecting position between the upper containing shell 21 and the lower containing shell 22; the through slot is divided into a vertical slot corresponding to the vertical motor 25 and a horizontal slot corresponding to the horizontal motor 24.

In the present embodiment, a through slot is provided in the gap between the upper housing shell 21 and the lower housing shell 22, and the through slot is provided for the rotation of the output end rotary disk of the horizontal motor 24 and the vertical motor 25 inside, so that the teeth of the rotary disk and the outer wall contact the fixed ball 15 inside the housing shell, and the teeth of the outer wall of the rotary disk move in the moving hole 16 on the outer wall of the fixed ball 15, thereby adjusting the angle of the heliostat 26.

Further, the output ends of the horizontal motor 24 and the vertical motor 25 are provided with rotating discs, and the outer walls of the rotating discs are provided with toothed nails around, and the toothed nails are inserted into the moving holes 16.

In this embodiment, the output ends of the horizontal motor 24 and the vertical motor 25 are both provided with a turntable, the horizontal motor 24 and the vertical motor 25 are both powered on and rotate, the turntable is driven by the rotation of the output shaft of the horizontal motor, the tooth nails rotating the outer wall of the horizontal motor rotate, the tooth nails contact with the moving holes 16 on the outer wall of the fixed ball 15 and roll along the moving holes 16, so that the accommodating shell fixedly connected with the horizontal motor 24 and the vertical motor 25 is pushed to move on the outer wall of the fixed ball 15, and the adjustment of the direction is realized.

Further, two horizontal motors 24 and two vertical motors 25 are arranged and are respectively located on the opposite surfaces of the outer side surface of the accommodating shell, and four second cylinders 23 are arranged and correspond to the four second cylinders one by one.

In this embodiment, the horizontal motors 24 are arranged on the left side and the right side of the accommodating shell, the two horizontal motors 24 rotate synchronously, the rotating speed is the same, the rotating direction is the same, the two horizontal motors are matched with each other to enable the accommodating shell to rotate transversely on the surface of the fixed ball 15 stably, similarly, the two vertical motors 25 are arranged on the front side and the rear side of the accommodating shell and also rotate synchronously, the rotating speed and the rotating direction are the same, and the two horizontal motors are matched with each other symmetrically to enable the accommodating shell to rotate longitudinally on the surface of the fixed ball 15 stably.

Further, the supporting seat is composed of a base 11, a vertical column 12 and a first air cylinder 14, the vertical column 12 is fixedly connected to the upper surface of the base 11, and the first air cylinder 14 is fixedly connected to the upper end of the vertical column 12.

In this embodiment, a first cylinder 14 is disposed above the column 12, the fixed ball 15 at the upper end is driven to ascend and descend by the ascending and descending of the first cylinder 14, the accommodating shell wrapped on the outer surface of the fixed ball 15 is driven to ascend and descend by the ascending and descending of the fixed ball 15, and the heliostat 26 is driven to ascend and descend by the accommodating shell, so as to realize the ascending and descending and adjust the height thereof.

Further, a central control box 13 is arranged on the outer wall of the upright post 12, a processor is arranged inside the central control box 13, and the processor is electrically connected with the first air cylinder 14, the second air cylinder 23, the horizontal motor 24 and the vertical motor 25; the processor comprises a processing module, a driving module and a communication module, and the processing module is respectively connected with the driving module and the communication module.

In the embodiment, the type of the processor is set as Intel core i5 series, the control center sends out control instructions to the processing module through the communication module according to the received sun angle condition, the control instruction processing module interprets the received control instructions and controls the driving module according to the received control instructions, and the driving module controls the corresponding first air cylinder 14, second air cylinder 23, horizontal motor 24 and vertical motor 25 to start and adjust correspondingly.

The working principle and the using process of the invention are as follows: after the device is installed, firstly, a processor in a central control box 13 is communicated with an external control center through a communication module, the control center sends various steering control instructions to the processor through the communication module, after the processing module in the processor reads the instructions, a control driving module drives corresponding executing elements to execute corresponding actions, the driving module drives a first air cylinder 14 to extend, so that a fixing ball 15 positioned at the extending end of the first air cylinder 14 is lifted upwards, the fixing ball 15 moves upwards to drive a containing shell coated on the outer surface of the fixing ball to move upwards, the containing shell drives a heliostat 26 to move upwards and lift, the height of the heliostat is adjusted, then, the driving module controls a second air cylinder 23 fixedly connected with a horizontal motor 24 to extend and move outwards, so that a tooth nail on the outer wall of a rotary table on an output shaft of the horizontal motor 24 leaves a moving hole 16 on the outer wall of the fixing ball 15 until the innermost end of the rotary table of the output shaft of the horizontal motor 24 leaves a horizontal groove in a through groove, then the driving module controls the vertical motor 25 to perform power-on rotation, the two vertical motors 25 synchronously rotate, so as to control the upper accommodating shell 21 and the lower accommodating shell 22 to perform longitudinal angle adjustment on the outer surface of the fixed ball 15, then when the longitudinal angle reaches the requirement, the second air cylinder 23 fixedly connected with the horizontal motor 24 is controlled again to perform contraction and inward movement, the pins of the horizontal motor 24 are inserted into the moving holes 16 corresponding to the fixed ball 15, then the second air cylinder 23 fixedly connected with the vertical motor 25 is controlled to perform extension and outward movement, so that the pins of the vertical motor 25 are separated from the moving holes 16 of the fixed ball 15, then the driving module controls the horizontal motor 24 to perform power-on rotation and move in the moving holes 16 on the outer wall of the fixed ball 15, so as to adjust the transverse angle of the accommodating shell, so that the transverse angle of the heliostat 26 is adjusted, and further the transverse angle and the longitudinal angle of the heliostat 26 are set, the heliostats 26 reflect sunlight to a remote high tower receiver for subsequent solar energy utilization.

While the invention has been described with reference to a preferred embodiment of a solar power system using tower-type solar power generation, it will be understood by those skilled in the art that the invention is not limited thereto, and that all or a portion of the process flow of the above-described embodiment may be implemented and equivalents thereof may be made without departing from the scope of the invention as defined by the appended claims.

Claims (10)

1. A solar power generation system adopting tower type solar power generation technology is characterized in that,

the solar cell comprises a supporting assembly, wherein the upper end of the supporting assembly is rotatably connected with a steering assembly, the supporting assembly comprises a telescopic supporting seat, the top end of the supporting seat is provided with a fixed ball with moving holes distributed on the outer surface, the outer wall of the fixed ball is wrapped by a containing shell with a ball groove arranged inside, the containing shell is rotatably connected with the outer wall of the fixed ball, a second air cylinder is arranged inside the containing shell, the output end of the second air cylinder is respectively provided with a horizontal motor and a vertical motor, the output ends of the horizontal motor and the vertical motor penetrate through the outer wall of the containing shell, are connected with the fixed ball inside in a rolling manner and are inserted into the moving holes of the outer wall of the fixed ball, the horizontal motor and the vertical motor are respectively transversely and longitudinally arranged on the outer surface of the containing shell, and the outer surface of the containing shell is fixedly connected with a sunlight heliostat for reflection, and a central control box for controlling the horizontal motor and the vertical motor is arranged on the outer wall of the supporting seat.

2. The solar power generation system using tower-type solar power generation technology of claim 1,

the accommodating shell is divided into an upper accommodating shell and a lower accommodating shell, the upper accommodating shell and the lower accommodating shell are fixed through bolts, a hemispherical groove is formed in the upper accommodating shell, a part of spherical grooves are formed in the lower accommodating shell, and the two spherical grooves are communicated.

3. The solar power generation system using tower-type solar power generation technology according to claim 2,

the inner wall of the ball groove is matched with the outer wall of the fixed ball, and the inner wall and the outer wall of the fixed ball are both smooth.

4. The solar power generation system using tower-type solar power generation technology according to claim 2,

the upper containing shell and the lower containing shell are both rectangular, through grooves are formed in the periphery of the containing shells, and the through grooves are located at the connecting position between the upper containing shell and the lower containing shell.

5. The solar power generation system using tower-type solar power generation technology of claim 4,

the penetrating groove is divided into a vertical groove and a horizontal groove, the vertical groove corresponds to the vertical motor, and the horizontal groove corresponds to the horizontal motor.

6. The solar power generation system using tower-type solar power generation technology of claim 1,

the output ends of the horizontal motor and the vertical motor are provided with turntables, the outer walls of the turntables are provided with toothed nails in a surrounding mode, and the toothed nails are inserted into the moving holes.

7. The solar power generation system using tower-type solar power generation technology of claim 6,

the horizontal motors and the vertical motors are respectively provided with two and are respectively positioned on the opposite surfaces of the outer side surfaces of the containing shell, and the second cylinders are provided with four and are in one-to-one correspondence with the second cylinders.

8. The solar power generation system using tower-type solar power generation technology of claim 1,

the supporting seat is composed of a base, a stand column and a first air cylinder, the stand column is fixedly connected to the upper surface of the base, and the first air cylinder is fixedly connected to the upper end of the stand column.

9. The solar power generation system using tower-type solar power generation technology of claim 8,

the outer wall of stand is provided with well accuse case, the inside of well accuse case is provided with the treater, the treater with first cylinder, the second cylinder, horizontal motor with perpendicular motor electric connection.

10. The solar power generation system using tower-type solar power generation technology of claim 9,

the processor comprises a processing module, a driving module and a communication module, and the processing module is respectively connected with the driving module and the communication module.

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