JP6555493B1 - Solar power plant - Google Patents

Abstract

A traffic signal device including an elevating device and a solar power generation device is provided. A first apparatus main body, a lifting device installed symmetrically on an upper end surface of the first device main body, and a solar energy device installed on an upper end of the lifting apparatus, the lifting device being the first The first connection column 21 is fixedly connected to the upper end surface of the apparatus main body, the second connection column 29 is installed on the other side of the first connection column installed symmetrically, and the front and back sides of the first connection column The first fixed block 31 is fixedly connected to the end surface, and a first elevating groove is provided on the rear end surface of the second connection column so as to penetrate up and down and the opening is directed rearward. A second fixed block that can enter the first elevating groove and slide up and down is fixedly installed. [Selection] Figure 1

Description

The present invention relates to the field of traffic signals, and more specifically to a photovoltaic power generation apparatus.

As urban road expansion plans, traffic lights on some roads have to be removed and new traffic lights must be installed, and in this gap a mobile traffic direction device is rented to direct traffic, In general, because the appearance and height of existing mobile pointing devices are fixed, it is necessary to design a solar power generator driven by solar energy that occupies a large space when carrying and can be raised and lowered Definitely necessary.

Chinese Patent Application No. 103381413

The objective of this invention is providing the solar power generation device for solving the problem submitted to said background art.

The solar power generation device of the present invention includes a first device main body, a lifting device installed symmetrically on the upper end surface of the first device main body, and a solar energy device installed on the upper end of the lifting device, wherein the lifting device Including a first connection column fixedly connected to the upper end surface of the first apparatus main body, a second connection column is installed on the other side of the first connection column installed symmetrically, and before and after the first connection column A first fixed block is fixedly connected to the side end surface, a first elevating groove is provided on the rear end surface of the second connection support column that extends vertically and has an opening facing backward, and the front end surface of the first fixed block on the rear side A second fixing block that can enter and slide up and down is fixedly installed on the front end surface of the second connection post, and a second elevating groove that has a forward opening is installed on the front side. First fixed A third fixed block that enters the second elevating groove is fixedly connected to the rear end surface of the lock, and a third elevating groove is installed in the second connecting column through the left and right sides, and the first connecting column is the third connecting column. A fourth fixed block that enters the third elevating groove is fixedly installed symmetrically on one side end surface approaching the elevating groove, a first electric machine is fixedly installed on the rear inner wall of the third elevating groove, and the front side of the first electric machine A first gear that is in the third elevating groove and that is meshed and engaged with the fourth fixed block is installed symmetrically, and the first gear is installed between the first gears installed symmetrically. A wire winding ring is installed, and the first wire winding and the first gear are engaged and connected so that they can be transmitted to the tip of the first electric machine through the same rotation shaft, and the first wire winding is connected to the first wire winding. And the second connection strut is A third connection column is installed on one side away from the first connection column, a fifth fixed block is fixedly connected to the front and rear side end surfaces of the third connection column, the upper end of the second connection column is vertically penetrated, and the opening is facing backward. A fourth elevating groove is installed, and a sixth fixed block that enters the fourth elevating groove on the front end surface of the fifth fixed block on the rear side and is slidingly connected to the inner wall of the fourth elevating groove is fixedly installed. A fifth elevating groove penetrating up and down on the front end face of the second connection post and having an opening facing forward; and entering the fifth elevating groove on the rear end face of the fifth fixed block and A seventh fixed block that is slidably engaged and connected to the inner wall of the groove is fixedly installed, and an eighth fixed block is also fixedly connected to the lower end of one side end surface where the third connection column approaches the third lift groove, and the third lift Between the front and rear end faces of the groove One lead wire ring is turned and connected, a stopper is fixedly installed on the lower side of the first lead wire ring and on the front and rear end surfaces of the third elevating groove, and one end of the first tension wire is the first lead wire A ring is wound around and fixedly connected to the upper end surface of the eighth fixed block, and the stopper prevents the first lead wire ring from colliding with the eighth fixed block during ascending.

As a preferentially selected technology plan, the solar energy device includes a second device main body fixedly connected to an upper end of a third connection column, and a first hollow chamber having an upward opening is installed in the second device main body. , the mouth opening in the lower inner wall of the first hollow chamber is disposed upward of the second hollow chamber, fixed symmetrically about the second electric machine the second hollow chamber on the lower end surface of the first hollow chamber is installed, the first connection block into the first hollow chamber is rotatably mounted, said first hollow inner circumference side upper end of the fit engagement with the first coupling block rotation guide block of the chamber is fixedly connected, second coupling block enters the second hollow chamber on the lower end surface of the first connection block is fixedly connected, a third electrical machine is fixedly installed in the second connection block, the first connection block Mouth open in annular lower end surface is disposed downward of the third hollow chamber, the third connecting block fixedly mounted to the inner wall of one side of said third hollow chamber is separated from the second coupling block, said third hollow A second gear meshing with the third connection block is installed in the chamber , and a lower end surface of the second gear is engaged and connected so as to be transmitted to an upper end of the second electric machine through a rotation shaft, and the first connection chamber opening into the block is installed, the second wire winding wheel into the opening chamber is rotatably mounted, so that the lower end of the second line winding wheel can transmitted to the upper end of the third electric machine through the rotation axis A second tension wire and a third tension wire, which are engaged with and connected to the second wire winding ring in opposite directions, are wound around the inner wall on both the left and right sides of the opening chamber. Second with a focus on winding Lead wire wheel is fixedly installed, a fourth connecting block fixedly connected to the center of the upper end surface of the first coupling block, the open fourth hollow chamber which is connected to the chamber in the fourth connecting blocks through installed Te, the fourth is the fifth connection block is placed into the hollow chamber, the fifth connecting block is engaged connection between the outer end face the fourth hollow chamber spring of the lower end of the fifth connecting block The sixth connecting block is fixedly connected through the connecting shaft, and the other end of the second tension wire is fixedly connected to the left end surface of the fifth connection block by winding the second lead wire ring on the left side, The other end of the wire is wound around the second lead wire ring on the right side and fixedly connected to the right end surface of the fifth connection block, and a connection column is fixedly connected to the upper end of the fifth connection block, and the connection A solar energy fixing plate is fixedly connected to the upper end of the support column, and a solar panel is fixedly installed on the upper end surface of the solar energy fixing plate.

As a selected technology plan, a battery fixing plate is fixedly connected to the upper end surface of the first connection block, a battery is fixedly installed in the battery fixing plate, and the battery and the solar panel are electrically connected. .

As a preferentially selected technical plan, a buffer block is fixedly connected symmetrically to the lower end surface of the second device main body, and when the second device main body is lowered by the buffer block, the second device main body and the first fixed body Loosen the impact force of the block.

As a well-selected technical plan, a traffic signal is fixedly installed on the peripheral end face of the second device main body.

The beneficial effect of the present invention is that the structure of the present invention is simple and the operation is convenient, and when the traffic is directed according to the present invention, the first electric machine is activated and the first gear can be moved and rotated through the rotating shaft. The fourth fixed block is moved and raised through the meshing of the fourth fixed block and the second connecting strut is moved and raised. At the same time, the first wire winding is rotated and the eighth fixed block is moved through the first tension wire. Pull, move the eighth fixed block and raise it relative to the first connection column, move the third connection column and raise it relative to the second connection column, move the second device main body and raise it , Helping the rear vehicle clearly see the traffic signal indication situation, and at the same time, the third electric machine can turn, move the second winding wheel to turn, pull the second tension line at the same time loosen the third tension line, or Tri-strand At the same time, loosen the second tension line, pull the sixth connection block to turn left and right, pull the fifth connection block to turn left and right, move the solar energy fixing plate through the connection column and turn it over, the solar panel is maximized At the same time, the second electric machine turns and moves the second gear through the rotating shaft, and the first connecting block moves by turning the second gear and the third connecting block. , The third electric machine rotates and moves the solar energy fixed plate to face the sun at the maximum, converts the solar energy at the maximum, stores the converted electricity in the battery and suppresses the consumption of city electricity, When this device is not applied, the height is lowered to help transport the device, and when used, the height is raised and the rear vehicle clearly indicates the traffic signal indication status. Help to deliver, the next, this device reduces the number of times charging and supplying power to the solar energy, reduce the drain on the city electricity.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and accompanying drawings.

It is an internal structure schematic diagram of the solar power generation device of this invention. FIG. 2 is a structural schematic diagram in the AA direction of FIG. It is an expansion schematic diagram of B of FIG. FIG. 4 is an enlarged schematic diagram of C in FIG.

As shown in FIG. 1-4, the photovoltaic power generation device of the present invention is installed on the first device main body 11, the lifting device installed symmetrically on the upper end surface of the first device main body 11, and the upper end of the lifting device. A solar energy device, and the lifting device includes a first connection column 21 fixedly connected to the upper end surface of the first device main body 11, and the first connection column 21 is installed symmetrically. Two connecting struts 29 are installed, a first fixing block 31 is fixedly connected to the front and rear side end faces of the first connecting struts 21, and the first end of the second connecting strut 29 is vertically penetrated and the opening is facing backward. A raising / lowering groove 38 is installed, and a second fixing block 39 that enters the first raising / lowering groove 38 and can be slid up and down is fixedly installed on the front end surface of the first fixing block 31 on the rear side. A second ascending through the front end face with the opening facing forward A groove 45 is installed, and a third fixed block 44 that enters the second elevating groove 45 is fixedly connected to the rear end face of the first fixed block 31 on the front side, and a third elevating / lowering is made in the second connecting column 29 A groove 24 is provided through the left and right sides, and a fourth fixed block 22 that enters the third elevating groove 24 is fixed and installed symmetrically in the front-rear direction on the one side end surface where the first connecting column 21 approaches the third elevating groove 24. The first electric machine 41 is fixedly installed on the rear inner wall of the third elevating groove 24, can be turned in the front side of the first electric machine 41 and in the third elevating groove 24, and meshingly engaged with the fourth fixed block 22 The first gear 46 is installed symmetrically in the front-rear direction, the first wire winding ring 43 is installed between the first gears 46 installed symmetrically in the front-rear direction, the first wire winding ring 43 and the first gear 46 There are engaged connected to allow transmission to the distal end of the first electrical machine 41 through the same rotation axis, the first The first tension wire 25 is wound around the wire winding 43, the third connection column 32 is installed on one side where the second connection column 29 is separated from the first connection column 21, and the front and rear end surfaces of the third connection column 32 The fifth fixed block 37 is fixedly connected to the rear end face of the second connection post 29, and a fourth elevating groove 33 with an opening facing backward is installed in the fifth fixed block 37 on the rear side. A sixth fixed block 34 that enters the fourth elevating groove 33 and is slidably engaged and connected to the inner wall of the fourth elevating groove 33 is fixedly installed on the front end surface of the second connecting column 29, and vertically penetrates the front end surface of the second connecting column 29. In addition, a fifth elevating groove 35 having an opening facing forward is installed, enters the fifth elevating groove 35 on the rear end face of the fifth fixed block 37, and is slidably engaged and connected to the inner wall of the fifth elevating groove 35. The seventh fixed block 36 is fixedly installed, and the third connecting column 32 is The eighth fixed block 26 is also fixedly connected to the lower end of the one side end surface approaching the groove 24, and the first lead wire ring 28 is engaged and connected between the front and rear end surfaces of the third elevating groove 24, and the first lead wire A stopper 27 is fixedly installed on the lower side of the ring 28 and on the front and rear end surfaces of the third elevating groove 24, and one end of the first tension wire 25 is wound around the first lead wire ring 28 so that the eighth fixed block 26 It is fixedly connected to the upper end surface, and the stopper 27 prevents the eighth lead block 26 from colliding with the first lead wire 28 during the ascent.

Beneficially, the solar energy device includes a second device main body 12 fixedly connected to the upper end of the third connection column 32, and a first hollow chamber 56 with an opening facing upward is formed in the second device main body 12. is installed, the outlet opening in the lower inner wall of the first hollow chamber 56 is installed upward of the second hollow chamber 52, the second electric machine 55 is the second hollow chamber 52 on the lower end surface of the first hollow chamber 56 The first connection block 70 is rotatably installed in the first hollow chamber 56, and the first connection block 70 is provided at the upper end on the inner peripheral side of the first hollow chamber 56. A rotation guide block 61 that engages with the second connection block 53 is fixedly connected, and a second connection block 53 that enters the second hollow chamber 52 is fixedly connected to the lower end surface of the first connection block 70, and the second connection block 53 includes The third electric machine 54 is fixedly installed, and the first electric machine Mouth open in annular lower end surface of the forming block 70 a third hollow chamber 62 downward is disposed, the third connection block 57 is fixed to an inner wall of one side of said third hollow chamber 62 is separated from the second connection block 53 A second gear 58 that is installed and meshes with the third connection block 57 is installed in the third hollow chamber 62, and the lower end surface of the second gear 58 can be transmitted to the upper end of the second electric machine 55 through the rotating shaft. And an open chamber 69 is installed in the first connecting block 70, a second wire winding 67 is rotatably installed in the open chamber 69, and the second wire winding ring A second tension wire 77 and a third wire 77 are engaged and connected so that the lower end of 67 can be transmitted to the upper end of the third electric machine 54 through the rotation shaft, and are wound and connected to the second wire winding ring 67 in opposite directions. tension wire 66 is wound around the left and right sides of the opening chamber 69 A second lead wire ring 65 is fixedly installed on the inner wall around the second wire winding ring 67, a fourth connection block 73 is fixedly connected to the center of the upper end surface of the first connection block 70, and the fourth connection block A fourth hollow chamber 74 connected to the open chamber 69 is installed in the through hole 73, a fifth connection block 75 is installed in the fourth hollow chamber 74, and an outer end face of the fifth connection block 75 is provided. And the fourth hollow chamber 74 are engaged and connected by a spring 76, the lower end of the fifth connecting block 75 is fixedly connected to the sixth connecting block 78 through a connecting shaft, and the other end of the second tension wire 77 is on the left side. The second lead wire ring 65 is wound around and fixedly connected to the left end surface of the fifth connecting block 75, and the other end of the third tension wire 66 is wound around the second lead wire ring 65 on the right side to Fixed connection to the right end face of the five connecting blocks 75 , A connecting column 68 is fixedly connected to the upper end of the fifth connecting block 75, a solar energy fixing plate 63 is fixedly connected to the upper end of the connecting column 68, and a solar panel 64 is connected to the upper end surface of the solar energy fixing plate 63. Fixed installation.

Beneficially, a battery fixing plate 71 is fixedly connected to the upper end surface of the first connection block 70, a battery 72 is fixedly installed in the battery fixing plate 71, and the battery 72 and the solar panel 64 are electrically connected. Connected with.

Beneficially, a buffer block 51 is fixedly connected symmetrically to the lower end surface of the second device main body 12, and when the second device main body 12 is lowered by the buffer block 51, the second device main body 12 and the The impact force of the first fixed block 31 is loosened.

Beneficially, a traffic signal 59 is fixedly installed on the peripheral side end face of the second apparatus main body 12.

In the initial state, the lower end surface of the second connection column 29 contacts the upper end surface of the first device main body 11, and at the same time, the lower end surface of the third connection column 32 contacts the upper end surface of the first device main body 11. When the second apparatus main body 12 is lowered to the maximum, the lower end surface of the buffer block 51 comes into contact with the upper end surface of the first fixed block 31, and the solar energy fixing plate 63 is in a horizontal state.

When instructing traffic with this device, the first electric machine 41 is activated, the first gear 46 can be moved and rotated through the rotating shaft, and the fourth fixed block 22 is moved through the meshing of the first gear 46 and the fourth fixed block 22. The second connecting strut 29 is moved up, and at the same time, the first wire winding 43 rotates, pulls the eighth fixed block 26 through the first tension wire 25, moves the eighth fixed block 26 and moves the second The first vehicle is raised relative to one connection column 21, the third connection column 32 is moved and raised relative to the second connection column 29, the second device main body 12 is moved and raised, and the vehicle behind the traffic signal 59 At the same time, the third electric machine 54 rotates, the second winding ring 67 can be moved and turned, the second tension line 77 is pulled, and at the same time the third tension line 66 is loosened, or the third tension Pull the line 66 and simultaneously loosen the second tension line 77, As a result, the sixth connecting block 78 can be pulled and rotated left and right, the fifth connecting block 75 can be pulled and rotated left and right, the solar energy fixing plate 63 can be turned over through the connecting column 68, and the solar panel 64 can be turned to the maximum At the same time, the second electric machine 55 rotates and the second gear 58 can be moved and rotated through the rotating shaft, and the first connecting block 70 can be moved and rotated by the meshing of the second gear 58 and the third connecting block 57, and at the same time The third electric machine 54 turns to move the solar energy fixing plate 63 to face the sun at the maximum, convert the solar energy to the maximum, store the converted electricity in the battery 72, and consume the city electricity Suppress.

What has been described above is merely a specific implementation method of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that have been conceived not through all creative labor are covered by the protection scope of the present invention. Therefore, the protection scope of the present invention is based on the protection scope in which the rights request is limited.

Claims (1)

A first device main body, a lifting device installed symmetrically on the upper end surface of the first device main body, and a solar energy device installed on the upper end of the lifting device, wherein the lifting device is an upper end surface of the first device main body Including a first connection strut that is fixedly connected to the first connection strut, the second connection strut being installed on the opposite side of the first connection strut, and a first fixing block on the front and rear end faces of the first connection strut. A first elevating groove that is fixedly connected, penetrates up and down on the rear end surface of the second connection post and has an opening facing rearward, and enters the first elevating groove on the front end surface of the first fixed block on the rear side. And a second fixed block that can slide up and down is fixedly installed, a second elevating groove having a front opening extending through the front end surface of the second connection post and a forward opening is installed, and the rear side of the first fixed block on the front side Front to end A third fixed block that enters the second elevating groove is fixedly connected, and the third elevating groove is installed in the second connection post through the left and right sides, and the first connection post is on one side end surface approaching the third elevating groove. A fourth fixed block that enters the third elevating groove is fixedly installed symmetrically in the front-rear direction, a first electric machine is fixedly installed on the rear inner wall of the third elevating groove, the front side of the first electric machine and the third elevating groove A first gear that can be turned and is engaged and connected to the fourth fixed block is installed symmetrically, and a first winding ring is installed between the first gears that are installed symmetrically, The first wire winding ring and the first gear are engaged and connected so that they can be transmitted to the tip of the first electric machine through the same rotating shaft, and a first tension wire is wound around the first wire winding, The second connection strut is connected to the third connection on one side away from the first connection strut. A column is installed, a fifth fixed block is fixedly connected to the front and rear end surfaces of the third connection column, and a fourth elevating groove is installed in the back end surface of the second connection column and the opening is facing backward. A sixth fixed block that enters the fourth elevating groove and is slidingly connected to the inner wall of the fourth elevating groove on the front end surface of the fifth fixed block on the rear side is fixedly installed; A fifth elevating groove is formed through the front end face of the upper and lower ends and the opening is facing forward. The fifth elevating groove enters the fifth elevating groove on the rear end face of the fifth fixed block and slides into the inner wall of the fifth elevating groove. The seventh fixed block to be connected is fixedly installed, and the lower end of one side end surface where the third connection column approaches the third elevating groove is also fixedly connected to the eighth fixed block, between the front and rear end surfaces of the third elevating groove. The first lead wire turns around and engages A stopper is fixedly installed on the lower side of the first lead wire ring and on the front and rear end surfaces of the third elevating groove, and one end of the first tension wire is wound around the first lead wire ring and the eighth fixed Fixedly connected to the upper end surface of the block, the stopper prevents the eighth fixed block from colliding with the first lead wire while rising, and the solar energy device is fixedly connected to the upper end of the third connecting column. comprising a second device mainly port opening into said second device mainly is installed upward of the first hollow chamber, the second hollow chamber inlet opening in the lower inner wall of the upward of the first hollow chamber is installed the on the lower end surface of the first hollow chamber second electric machine is fixed and installed at symmetrical about the second hollow chamber, the first connection block is installed rotatably in the first hollow chamber, said First Rotation guide blocks fit engagement with the first connection block to the upper end of the inner peripheral side of the chamber is fixedly connected, the second connection block entering into the second hollow chamber on the lower end surface of the first connection block is fixedly connected, A third electric machine is fixedly installed in the second connection block, a third hollow chamber having an annular opening and a downward opening is installed on the lower end surface of the first connection block, and the third hollow chamber is the second hollow block. A third connecting block is fixedly installed on an inner wall on one side away from the connecting block, a second gear meshing with the third connecting block is installed in the third hollow chamber , and a lower end surface of the second gear is passed through a rotating shaft. It said second electric machine upper is engaged connected to allow transmission to the said chamber opening into the first connection block is installed, the second wire winding wheel rotation allowed in the open chamber Is installed in, the lower end of the second line winding wheel is engaged connection can transmitted to the upper end of the third electric machine through the rotation axis, are connected winding in opposite directions to each other in the second line winding wheel A second tension wire and a third tension wire are wound, and the second lead wire ring is fixedly installed around the second wire winding ring on the inner walls on the left and right sides of the opening chamber , and the upper end surface of the first connection block is A fourth connection block is fixedly connected to the center, a fourth hollow chamber connected to the opening chamber is installed through the fourth connection block, and a fifth connection block is installed in the fourth hollow chamber. The outer end surface of the fifth connection block and the fourth hollow chamber are engaged and connected by a spring, the lower end of the fifth connection block is fixedly connected to the sixth connection block through a connection shaft, and the second tension wire The other end is on the left The second lead wire ring is wound and fixedly connected to the left end surface of the fifth connection block, and the other end of the third tension wire is wound around the second lead wire ring on the right side to wind the second connection wire of the fifth connection block. A fixed support is fixedly connected to the right end surface, a connection support is fixedly connected to the upper end of the fifth connection block, a solar energy fixing plate is fixedly connected to the upper end of the connection support, and a solar panel is connected to the upper end of the solar energy fixing plate. The battery fixing plate is fixedly connected to the upper end surface of the first connection block, the battery is fixedly installed in the battery fixing plate, the battery and the solar panel are electrically connected, and the second buffering block the lower end surface of the device main body is fixedly connected symmetrical, the when the in buffering block second device mainly decreases, the first fixed and the second device mainly Loosen the impact force of the lock, the photovoltaic device in which the second device subject of circumferential end surface traffic signals is characterized Rukoto fixedly mounted.

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