CN109546926B - Adjustable solar energy storage device - Google Patents

Abstract

The invention is suitable for the technical field of solar energy storage, and provides a second bearing plate, an energy storage box and a third bearing plate of an adjustable solar energy storage device. The adjustable solar energy storage device comprises a first hydraulic cylinder, a first metal rod, a second metal rod and a second metal rod.

Description

Adjustable solar energy storage device

Technical Field

The invention belongs to the technical field of solar energy storage, and particularly relates to an adjustable solar energy storage device.

Background

The energy storage is mainly the storage of electric energy, the energy storage is a noun in petroleum oil reservoirs, the energy storage represents the capability of the reservoirs for storing oil and gas, the research and development of new energy and renewable energy sources are sought to improve the advanced method of the energy utilization rate, the first problem of global common concern is already sought, for the large country of energy production and consumption, the energy storage industry is required to be developed greatly because of the energy increase to support the economic development, the analysis report shows that the increasing energy consumption, especially the influence of the large amount of fossil fuels such as coal, petroleum and the like on the environment and global climate is caused to lead the goal of sustainable development of human beings to face a serious threat, and the solar energy storage is becoming a new subject at present.

However, most solar energy storage devices in the current market cannot be suitable for batteries of different types, and most solar energy storage devices in the current market cannot adjust the height and angle.

Disclosure of Invention

The invention aims to provide an adjustable solar energy storage device, to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a solar energy storage device with adjustable, includes second bearing plate, tank and third bearing plate, the universal wheel is all installed at both ends of second bearing plate bottom, and the second sleeve is all vertically installed on second bearing plate top all around, first spring is vertically installed to the inside of second sleeve, and the first metal pole that runs through second sleeve top is vertically installed on first spring top, the top horizontal installation of first metal pole has the fourth bearing plate, and the first sleeve is installed to the second bearing plate top horizontal installation of first metal pole inboard, first sleeve internally mounted has the second spring, and the second metal pole that runs through first sleeve is kept away from to second spring one side horizontal installation, and the one end that the second metal pole kept away from first sleeve is through the articulated pole and is articulated, and the top of first connecting rod is articulated through the articulated pole with fourth bearing bottom, first bearing plate top central point department vertical first bearing plate position department of first spring one side has first sleeve, and the vertical output end of first metal pole is installed on first bearing plate top horizontal installation first end, and the vertical output end of first bearing plate vertical sliding chute, the first bearing plate vertical output end vertical sliding plate and the first bearing plate top of first bearing plate vertical sliding chute are installed to the second bearing plate, the vertical sliding chute is installed to the top of first bearing plate vertical sliding plate top, the top is installed to the vertical sliding plate top position of first sliding plate top, and the second hydraulic cylinder output is vertical installs the second hydraulic stem, the top horizontal installation of second hydraulic stem has the third bearing plate, and the intermediate position department on third bearing plate top installs the link, the fourth spring is all vertically installed at the both ends of the inside bottom of link, and the bottom horizontal installation of fourth spring has first fixed plate, the second fixed plate is evenly vertically installed on the third bearing plate top of link both sides, and the inside wall horizontal installation of second fixed plate has the third spring, the third fixed plate is vertically installed to the one end that the second fixed plate was kept away from to the third spring, the third sleeve is all vertically installed to the inside bottom of the energy storage case of second hydraulic cylinder both sides, and the inside vertical installation of third sleeve has the fifth spring, the third metal pole that runs through third sleeve top is vertically installed on the top of fifth spring, and the top and third bearing plate bottom are connected, the slide rail is all vertically installed to the inner wall of energy storage case both sides, and slide rail internally mounted has the first slider with slide rail assorted, first side of energy storage case and the intermediate position department that keeps away from the energy storage case top is provided with the intermediate position of third bearing plate.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the universal wheel is provided with two groups, and the inside brake mechanism that is provided with of universal wheel.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the first metal rod passes through and constitutes telescopic machanism between first spring and the second sleeve, and first metal rod, first spring and second sleeve all are provided with four to first metal rod, first spring and second sleeve all set up with the central point symmetry of second bearing plate.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the second metal rod forms telescopic machanism through between second spring and the first sleeve, and the second metal rod forms slewing mechanism through between articulated shaft and the head rod to the head rod forms slewing mechanism through between articulated shaft and the fourth cushion cap, and head rod, second metal rod, second spring and first sleeve all are provided with four simultaneously.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the third fixing plate forms a telescopic mechanism between the third spring and the second fixing plate.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the second connecting rod forms a sliding mechanism through between the second sliding block and the sliding groove, and the second connecting rod and the second sliding block are respectively provided with four.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the third metal rod forms a telescopic mechanism through the fifth spring and the third sleeve.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the third bearing platform plate forms a sliding mechanism through the first sliding block and the sliding rail.

The invention also provides an adjustable solar energy storage device, which is characterized in that: the first fixing plate forms a telescopic mechanism between the fourth spring and the connecting frame.

Compared with the prior art, the invention has the beneficial effects that: the adjustable solar energy storage device comprises a second hydraulic cylinder, a second hydraulic rod, a third bearing plate, a first sliding block, a sliding rail, a third fixed plate, a fourth spring, a first fixed plate and a third spring, wherein the second hydraulic cylinder, the second hydraulic rod, the third bearing plate and the first sliding plate are arranged on the inner side of the third fixed plate, the first sliding plate is arranged on the top surface of the fixed battery, the third fixed plate is driven to fix the two sides of the battery under the elastic action of the fourth spring, so that the batteries with different sizes can be conveniently fixed, the first hydraulic cylinder, the first hydraulic rod, the fourth bearing plate, the first metal rod and the first spring are arranged on the top surface of the fixed battery under the elastic action of the third spring, when the height of the adjustable solar energy storage device needs to be adjusted, the first hydraulic cylinder is started to drive the first hydraulic rod to stretch, the first bearing plate to move up and down, the first metal rod is driven to move up and down, the battery is then arranged on the inner side of the third fixed plate, the first sliding plate is kept on the inner side of the first sliding plate under the elastic action of the first spring, the first sliding plate is driven to rotate the adjustable motor, and the second sliding plate is driven to rotate the first sliding plate through the first sliding plate, the adjustable rotating shaft is convenient to drive the adjustable solar energy storage device, and the second sliding plate is arranged on the second sliding plate through the first sliding plate, the first sliding plate is convenient to rotate the first sliding plate, and the first sliding plate.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure provided by the present invention;

FIG. 2 is a schematic top view of the chute, the second slider and the fourth platform provided by the present invention;

FIG. 3 is an enlarged schematic view of the portion A in FIG. 1 according to the present invention;

fig. 4 is an enlarged schematic view of the structure of the portion a in fig. 1 according to the present invention.

In the figure: 1. a slide rail; 2. a first slider; 3. a first deck; 4. a first metal rod; 5. a first spring; 6. a first sleeve; 7. a universal wheel; 8. a second metal rod; 9. a motor; 10. a first hydraulic cylinder; 11. a first hydraulic lever; 12. a first connecting rod; 13. a second deck; 14. a second spring; 15. a second sleeve; 16. a rotating shaft; 17. a second hydraulic cylinder; 18. a second hydraulic lever; 19. an energy storage tank; 20. a third spring; 21. a first fixing plate; 22. a second fixing plate; 23. a connecting frame; 24. a third deck; 25. a fourth spring; 26. a connecting frame groove; 27. a third fixing plate; 28. a chute; 29. a second slider; 30. a fourth deck; 31. a third metal rod; 32. a third sleeve; 33. a fifth spring; 34. and a second connecting rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, an embodiment of the present invention is provided: an adjustable solar energy storage device comprises a second bearing plate 13, an energy storage box 19 and a third bearing plate 24, universal wheels 7 are arranged at two ends of the bottom end of the second bearing plate 13, two groups of universal wheels 7 are arranged, a braking mechanism is arranged inside the universal wheels 7 and convenient to move, a second sleeve 15 is vertically arranged at the top end around the second bearing plate 13, a first spring 5 is vertically arranged inside the second sleeve 15, a first metal rod 4 penetrating through the top end of the second sleeve 15 is vertically arranged at the top end of the first spring 5, a telescopic mechanism is formed between the first metal rod 4 and the second sleeve 15 through the first spring 5, four first metal rods 4, four first springs 5 and four second sleeves 15 are symmetrically arranged about the center point of the second bearing plate 13 and convenient to stabilize, the top end of the first metal rod 4 is horizontally provided with a fourth bearing plate 30, the top end of a second bearing plate 13 on the inner side of the first metal rod 4 is horizontally provided with a first sleeve 6, the inner side of the first sleeve 6 is horizontally provided with a second spring 14, one side of the second spring 14 far away from the second sleeve 15 is horizontally provided with a second metal rod 8 penetrating through the first sleeve 6, the second metal rod 8 forms a telescopic mechanism through the second spring 14 and the first sleeve 6, the second metal rod 8 forms a rotating mechanism through a hinge shaft and a first connecting rod 12, the first connecting rod 12 forms a rotating mechanism through the hinge shaft and the fourth bearing plate 30, meanwhile, the first connecting rod 12, the second metal rod 8, the second spring 14 and the first sleeve 6 are all provided with four, so that stability is facilitated, one end of the second metal rod 8 far away from the first sleeve 6 is hinged with the first connecting rod 12 through the hinge shaft, the top end of the first connecting rod 12 is hinged with the bottom end of the fourth bearing plate 30 through a hinge shaft, a first hydraulic cylinder 10 is vertically arranged at the central position of the top end of the second bearing plate 13, which is far away from one side of the first spring 5, of the first sleeve 6, the model of the first hydraulic cylinder 10 can be a CLRG-506 hydraulic cylinder, the output end of the first hydraulic cylinder 10 is vertically provided with a first hydraulic rod 11, the top end of the first hydraulic rod 11 is connected with the bottom end of the fourth bearing plate 30, the top end of the interior of the fourth bearing plate 30 is provided with a chute 28, a motor 9 is vertically arranged at the central position of the top end of the fourth bearing plate 30, the model of the motor 9 can be a Y90S-6 motor, a rotating shaft 16 is vertically arranged at the output end of the motor 9, the top end of the rotating shaft 16 is horizontally provided with the first bearing plate 3, the bottom end of the first bearing plate 3 is uniformly and vertically provided with a second connecting rod 34, the second connecting rod 34 forms a sliding mechanism through the second sliding block 29 and the sliding groove 28, four second connecting rods 34 and four second sliding blocks 29 are arranged, the angle is convenient to adjust, the second sliding block 29 matched with the sliding groove 28 is arranged at the bottom end of the second connecting rod 34, the energy storage box 19 is arranged at the middle position of the top end of the second connecting rod 34, the second hydraulic cylinder 17 is vertically arranged at the middle position of the bottom end inside the energy storage box 19, the model of the second hydraulic cylinder 17 can be a J64RT2UNIVER telescopic cylinder, the output end of the second hydraulic cylinder 17 is vertically provided with the second hydraulic rod 18, the top end of the second hydraulic rod 18 is horizontally provided with the third bearing plate 24, the third bearing plate 24 forms a sliding mechanism through the first sliding block 2 and the sliding rail 1, the discharge pool is convenient to take out, the connecting frame 23 is arranged at the middle position of the top end of the third bearing plate 24, the two ends of the bottom end inside the connecting frame 23 are vertically provided with the fourth spring 25, and the bottom level of fourth spring 25 installs first fixed plate 21, constitute telescopic machanism between first fixed plate 21 through fourth spring 25 and the link 23, be convenient for fix the battery of different sizes, the even vertical second fixed plate 22 of installing in third socket plate 24 top of link 23 both sides, and the inside wall level of second fixed plate 22 installs third spring 20, the one end that third spring 20 kept away from second fixed plate 22 is vertical installs third fixed plate 27, constitute telescopic machanism between third spring 20 and the second fixed plate 22, be convenient for fix the battery of equidimension, the inside bottom of energy storage box 19 of second pneumatic cylinder 17 both sides is all vertical installs third sleeve 32, and the inside vertical fifth spring 33 of installing of third sleeve 32, the third metal pole 31 that runs through third sleeve 32 top is vertical to be installed on top, constitute telescopic machanism between third spring 33 and the third sleeve 32, the top of third metal pole 31 is kept away from third socket plate 22 is vertical, and the inner wall that the bottom of third metal pole 31 is connected with third socket plate 24, the energy storage box 19 is connected with the slide rail 1 of the inside of first socket plate 1, the slide rail 1 is installed to the inside of two sides of energy storage box 19, the slide rail 1 is connected with the inside of first side of the link plate 1, the slide rail 2 is installed to the middle part is located to the inside of the two sides of the 3, the slide rail 2 is installed to the slide rail of the top of the 3, the top of the top is connected with the top of the 3, the top of the slide rail is connected with the top of the slide rail 1.

Working principle: when the adjustable solar energy storage device is used, the adjustable solar energy storage device is firstly moved to a proper place through the universal wheel 7, when a battery is required to be placed, an external power supply is firstly connected, the second hydraulic cylinder 17 is started to drive the second hydraulic rod 18 to stretch, the second hydraulic rod 18 drives the third bearing plate 24 to slide out through the first sliding block 2 in the sliding rail 1, then the battery is placed on the inner side of the third fixed plate 27, the top surface of the battery is fixed by the first fixed plate 21 under the elastic force of the fourth spring 25, the two sides of the battery are fixed by the third fixed plate 27 under the elastic force of the third spring 20, so that the batteries with different sizes are conveniently fixed, when the height of the adjustable solar energy storage device is required to be adjusted, the first hydraulic cylinder 10 is started to drive the first hydraulic rod 11 to stretch, the first hydraulic rod 11 is driven by the first bearing plate 30 to move up and down, the first metal rod 4 is driven to move up and down, the first metal rod 4 is kept stable under the action of the first spring 5, the top surface of the battery is conveniently placed on the inner side of the third fixed plate 27, the adjustable solar energy storage device is driven by the elastic force of the fourth spring 25, when the adjustable solar energy storage device is required to be adjusted, the adjustable motor is required to drive the second bearing plate 16 to rotate, the second bearing plate 16 is driven by the second bearing plate 16 to rotate, the second bearing plate 16 is convenient to rotate, the second bearing plate 16 rotates the second rotating shaft 16 through the connecting rod 28, and the rotating shaft 28 is conveniently adjusted.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (4)

1. An adjustable solar energy storage device comprises a second bearing plate (13), an energy storage box (19) and a third bearing plate (24), and is characterized in that: universal wheels (7) are arranged at two ends of the bottom end of the second bearing plate (13), a second sleeve (15) is vertically arranged at the top end around the second bearing plate (13), a first spring (5) is vertically arranged in the second sleeve (15), a first metal rod (4) penetrating through the top end of the second sleeve (15) is vertically arranged at the top end of the first spring (5), a fourth bearing plate (30) is horizontally arranged at the top end of the first metal rod (4), a first sleeve (6) is horizontally arranged at the top end of the second bearing plate (13) on the inner side of the first metal rod (4), a second spring (14) is horizontally arranged in the first sleeve (6), a second metal rod (8) penetrating through the first sleeve (6) is horizontally arranged at one side of the second spring (14), a first connecting rod (12) is hinged to one end of the second metal rod (8) far away from the first sleeve (6) through a hinge shaft, a first hydraulic cylinder (10) is arranged at the top end of the first connecting rod (12) far away from the first sleeve (10) through a fourth hinge shaft, a first hydraulic cylinder (10) is arranged at the top end of the first bearing plate (10), the top of the first hydraulic rod (11) is connected with the bottom end of the fourth bearing plate (30), a chute (28) is arranged at the top end in the fourth bearing plate (30), a motor (9) is vertically arranged at the central position of the top end of the fourth bearing plate (30), a rotating shaft (16) is vertically arranged at the output end of the motor (9), a first bearing plate (3) is horizontally arranged at the top end of the rotating shaft (16), a second connecting rod (34) is uniformly and vertically arranged at the bottom end of the first bearing plate (3), a second sliding block (29) matched with the chute (28) is arranged at the bottom end of the second connecting rod (34), an energy storage box (19) is arranged at the middle position of the top end of the second connecting rod (34), a second hydraulic cylinder (17) is vertically arranged at the central position of the inner bottom end of the energy storage box (19), a second hydraulic rod (18) is vertically arranged at the output end of the second hydraulic cylinder (17), a third bearing plate (24) is horizontally arranged at the top end of the second hydraulic rod (18), a second connecting rod (34) is uniformly and vertically arranged at the bottom end of the third bearing plate (24), a spring (25) is fixedly arranged at the bottom end of the fourth connecting rod (23), the third bearing plates (24) on two sides of the connecting frame (23) are uniformly and vertically provided with second fixing plates (22), the inner side walls of the second fixing plates (22) are horizontally provided with third springs (20), one ends of the third springs (20) far away from the second fixing plates (22) are vertically provided with third fixing plates (27), the inner bottom ends of the energy storage boxes (19) on two sides of the second hydraulic cylinders (17) are vertically provided with third sleeves (32), the inner parts of the third sleeves (32) are vertically provided with fifth springs (33), the top ends of the fifth springs (33) are vertically provided with third metal rods (31) penetrating through the top ends of the third sleeves (32), the top ends of the third metal rods (31) are connected with the bottom ends of the third bearing plates (24), the inner walls on two sides of the energy storage boxes (19) are vertically provided with sliding rails (1), the inner sides of the sliding rails (1) are internally provided with first sliding blocks (2) matched with the sliding rails (1), one sides of the first sliding blocks (2) far away from the energy storage boxes (19) are connected with the third bearing boxes (24), and the middle positions of the energy storage boxes (19) are connected with the middle positions of the connecting frames (26); two groups of universal wheels (7) are arranged, and a braking mechanism is arranged inside the universal wheels (7); the first metal rod (4) forms a telescopic mechanism through the space between the first spring (5) and the second sleeve (15), the number of the first metal rod (4), the number of the first spring (5) and the number of the second sleeve (15) are four, and the first metal rod (4), the first spring (5) and the second sleeve (15) are symmetrically arranged about the center point of the second bearing platform (13); the second metal rod (8) forms a telescopic mechanism through a second spring (14) and the first sleeve (6), the second metal rod (8) forms a rotating mechanism through a hinge shaft and the first connecting rod (12), the first connecting rod (12) forms a rotating mechanism through the hinge shaft and the fourth bearing plate (30), and meanwhile, the first connecting rod (12), the second metal rod (8), the second spring (14) and the first sleeve (6) are all provided with four parts; the third fixing plate (27) forms a telescopic mechanism between the third spring (20) and the second fixing plate (22); the second connecting rod (34) forms a sliding mechanism through a second sliding block (29) and a sliding groove (28), and the second connecting rod (34) and the second sliding block (29) are respectively provided with four.

2. An adjustable solar energy storage device as defined in claim 1, wherein: the third metal rod (31) forms a telescopic mechanism through a fifth spring (33) and a third sleeve (32).

3. An adjustable solar energy storage device as defined in claim 2, wherein: the third bearing plate (24) forms a sliding mechanism through the first sliding block (2) and the sliding rail (1).

4. An adjustable solar energy storage device as defined in claim 3, wherein: the first fixing plate (21) forms a telescopic mechanism between the fourth spring (25) and the connecting frame (23).