Novel solar park seat
Technical Field
The invention relates to the field of public facilities, in particular to a novel solar park seat.
Background
The park chair is a product for outdoor passerby to rest, and is mainly used in parks, districts, large-scale amusement parks, shopping squares and public places. With the development of the times, park chairs have already stepped into most of small and medium-sized cities and become a bright landscape line of the cities. Brings convenience to people and enables the environment to be more harmonious. Park chairs are mostly composed of two parts, namely chair strips and chair feet.
As the park seat is a public facility, anyone can use the park seat, but in winter, the ordinary park seat cannot be taken, and as the manufactured material is used, the surface of the seat is particularly cool in winter, the ordinary chair is powered on for heating, and if the chair is not turned off in time, the power after being powered on is wasted, so that in order to solve the problems, people can use the heated seat in winter, and the condition of commercial power is not wasted, the design of the device for fully utilizing natural resources is necessary.
Disclosure of Invention
The invention aims to solve the problems and designs a novel solar park seat.
The technical scheme of the invention is that the novel solar park seat comprises a bar-shaped frame, a bearing heating mechanism is arranged in the bar-shaped frame, a back board is embedded at one end of the upper surface of the bar-shaped frame, an energy storage mechanism is arranged on the upper surface of the back board, a group of hand rails is arranged at the edge of the upper surface of the bar-shaped frame and is overlapped with the front surface of the back board, a rotary energy storage mechanism is arranged on the upper surface of each hand rail, a supporting mechanism is arranged at the edge of the lower surface of the bar-shaped frame, a sundry part collecting mechanism is arranged at the center of the lower surface of the bar-shaped frame, and the energy storage mechanism comprises a group of bar-shaped openings, horizontal round shafts and stretching swinging rods, wherein the bar-shaped openings are formed in the upper surface of the back board, the horizontal round shafts are arranged in the bar-shaped openings, and the stretching swinging rods are sleeved on the, The rotary energy storage mechanism consists of a first threaded groove which is formed on the upper surface of each hand fence and is close to one fourth of the backrest plate, vertical screw rods which are embedded in the first threaded grooves, a moving box body which is sleeved on each vertical screw rod, a plurality of horizontal support rods which are embedded on the side surface of each moving box body, triangular brackets which are embedded on the upper surface of the moving box body, a first rotary bearing which is embedded on the side surface of the upper end of each triangular bracket, vertical rotary fan blades which are embedded in each first rotary bearing, a group of zigzag rods which are embedded in the center of the rear surface of the backrest plate and are positioned below the first strip-shaped frame, a second rotary bearing which is embedded on the upper surface of the triangular brackets, a second rotary fan blade which is embedded in the rear surface of the backrest plate, a third rotary fan which is embedded in the rear surface of the second rotary fan blade, a third rotary fan which is embedded in the rear surface of the backrest plate, The bearing and heating mechanism consists of a plurality of first circular through holes arranged on the side surface of the first bar-shaped frame, a plurality of first circular grooves arranged in the first bar-shaped frame and matched with the first circular through holes on the side surface opposite to the positions of the first circular through holes, fixed round rods arranged in each first circular through hole and overlapped with the corresponding first circular grooves, fixed round plates sleeved on one end surface of each fixed round rod and positioned outside the first bar-shaped frame, a plurality of set screws arranged between each fixed round plate and the side surface of the first bar-shaped frame, heating resistance wires sleeved on each fixed round rod, a notch rotating round shell sleeved on each heating resistance wire, a solar energy converter, a wind energy converter and a storage battery which are arranged in the energy storage box, wherein the set screws are arranged on one group of bent rods and positioned below the first bar-shaped frame, Two groups of folding buckles arranged at one end of the upper surface of each notch rotating circular shell and two groups of fastening frames which are fixedly connected at the other end of the upper surface of each notch rotating circular shell and are matched with the two groups of folding buckles jointly.
The supporting mechanism is composed of two groups of bar-shaped grooves arranged at the edge of the lower surface of a bar-shaped frame, a group of supporting round rods embedded in each bar-shaped groove, a group of horizontal supporting plates penetrating through the centers of the groups of supporting round rods, supporting gaskets sleeved on the lower end surfaces of the supporting round rods, two groups of threaded holes A arranged at the four corners of the upper surface of each supporting gasket, and screws D arranged between the threaded holes A and the ground.
The sundries collecting mechanism is composed of a group of strip plates F fixedly connected to the lower surface of a strip frame, two groups of folded fixing rods embedded to the lower surface of each strip plate F and located below the strip frame, an opening box sleeved on the four groups of folded fixing rods and matched with the strip frame, a group of rectangular openings formed in the front surface of the opening box, a shielding door hinged to the front surface of the opening box and matched with each rectangular opening, a first lock frame arranged on each shielding door, a second lock frame fixedly connected to the front surface of the opening box and matched with the first lock frame, and a fixed lock arranged between each first lock frame and the corresponding second lock frame.
The back surface of the backrest plate and one end of the lower surface of the first strip-shaped frame are fixedly connected with two groups of folded reinforcing rods.
The included angle between the backrest plate and the horizontal plane is 75 degrees.
The longitudinal section of the limiting support frame is N-shaped.
The number of the horizontal supporting rods is 6-8, and the horizontal supporting rods are located on the same horizontal line.
The number of the first round through holes is 4-7, and the first round through holes are located on the same horizontal line.
The number of the plurality of set screws is 3-5.
The rubber cushion layer is sleeved on the upper surface of each handrail fence.
The novel solar park seat manufactured by the technical scheme of the invention is a device which is convenient to operate, consumes less power supply, makes full use of natural energy, provides convenience for life of people and is beneficial to social development.
Drawings
FIG. 1 is a schematic view of a novel solar park seat of the present invention;
FIG. 2 is a top view of a bar frame of a novel solar park seat of the present invention;
FIG. 3 is a front view of the energy storage mechanism of a novel solar park seat of the present invention;
FIG. 4 is a cross-sectional view of a notched rotating shell of a novel solar park seat of the present invention;
in the figure, 1, a first strip frame; 2. a back board; 3. a hand rail; 4. a horizontal circular shaft; 5. stretching the swing rod; 6. a strip-shaped housing; 7. a horizontal round bar; 8. rotating the bearing plate; 9. a solar energy storage panel; 10. a limiting support frame; 11. a vertical screw; 12. moving the box body; 13. a horizontal support bar; 14. a tripod; 15. a first rotating bearing; 16. vertically rotating the fan blade; 17. a zigzag rod; 18. an energy storage box body; 19. a solar energy converter; 20. a wind energy converter; 21. a storage battery; 22. fixing the round rod; 23. fixing the circular plate; 24. tightening the screw; 25. heating resistance wires; 26. the round shell is rotated by the notch; 27. folding buckles; 28. a fastening frame; 29. a support round bar; 30. a horizontal support plate; 31. a support pad; 32. a screw D; 33. a strip-shaped plate F; 34. a folded fixing rod; 35. a gap box body; 36. a shutter door; 37. a first lock frame; 38. a second lock frame; 39. fixing a lock; 40. a fold-shaped reinforcing rod; 41. and a rubber cushion layer.
Detailed Description
The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-4, a novel solar park seat comprises a bar-shaped frame (1), a bearing heating mechanism is arranged in the bar-shaped frame (1), a back board (2) is embedded in one end of the upper surface of the bar-shaped frame (1), an energy storage mechanism is arranged on the upper surface of the back board (2), a group of handrail fences (3) are arranged at the edge of the upper surface of the bar-shaped frame (1) and are overlapped with the front surface of the back board (2), a rotary energy storage mechanism is arranged on the upper surface of each handrail fence (3), a support mechanism is arranged at the edge of the lower surface of the bar-shaped frame (1), a sundries collecting mechanism is arranged at the center of the lower surface of the bar-shaped frame (1), and the energy storage mechanism is composed of a group of bar-shaped openings formed in the upper surface of the back board (2), The device comprises horizontal round shafts (4) arranged in each strip-shaped opening, stretching swing rods (5) sleeved on each horizontal round shaft (4), strip-shaped shells (6) sleeved on each stretching swing rod (5), horizontal round rods (7) penetrating through a group of strip-shaped shells (6), rotating bearing plates (8) sleeved on the horizontal round rods (7), solar energy storage plates (9) arranged on the upper surfaces of the rotating bearing plates (8), limiting support frames (10) embedded in the centers of the upper surfaces of the back boards (2) and lapped with the rotating bearing plates (8) together, and a rotating energy storage mechanism consisting of a first threaded groove arranged on the upper surface of each hand rail (3) and close to one fourth of the back boards (2), a vertical screw (11) embedded in each first threaded groove, and a moving box body (12) sleeved on each vertical screw (11), A plurality of horizontal support rods (13) embedded on the side surface of each moving box body (12), a tripod (14) embedded on the upper surface of the moving box body (12), a first rotating bearing (15) embedded on the side surface of the upper end of the tripod (14), a vertical rotating fan blade (16) embedded in each first rotating bearing (15), a group of zigzag rods (17) embedded at the center of the rear surface of the backrest plate (2) and positioned below the first strip-shaped frame (1), an energy storage box body (18) sleeved on the group of zigzag rods (17) and positioned below the first strip-shaped frame (1), a solar energy converter (19) arranged in the energy storage box body (18), a wind energy converter (20) and a storage battery (21), wherein the bearing and heating mechanism is formed by a plurality of first circular through holes arranged on the side surface of the first strip-shaped frame (1), and a plurality of circular through holes arranged in the first strip-shaped frame (1) and positioned on the side surface opposite to the plurality of the first circular through holes The device comprises a plurality of first circular grooves matched with the through holes, fixed circular rods (22) which are arranged in each first circular through hole and are in lap joint with the corresponding first circular groove, fixed circular plates (23) which are sleeved on one end face of each fixed circular rod (22) and are positioned on the outer side of a bar-shaped frame (1), a plurality of fastening screws (24) which are arranged between each fixed circular plate (23) and the side surface of the bar-shaped frame (1), heating resistance wires (25) sleeved on each fixed circular rod (22), notch rotating circular shells (26) sleeved on each heating resistance wire (25), two groups of zigzag buckles (27) which are arranged at one end of the upper surface of each notch rotating circular shell (26), and two groups of buckling frames (28) which are fixedly connected to the other end of the upper surface of each notch rotating circular shell (26) and are matched with the two groups of zigzag buckles (27); the supporting mechanism is composed of two groups of first strip-shaped grooves formed in the edge of the lower surface of the first strip-shaped frame (1), one group of supporting round rods (29) embedded in each first strip-shaped groove, one group of horizontal supporting plates (30) penetrating through the centers of the multiple groups of supporting round rods (29), supporting gaskets (31) sleeved on the lower end surfaces of the supporting round rods (29), two groups of threaded holes A formed in four corners of the upper surface of each supporting gasket (31), and screws D (32) arranged between each threaded hole A and the ground; the sundries collecting mechanism comprises a group of strip plates F (33) fixedly connected with the lower surface of a first strip frame (1), two groups of folded fixing rods (34) embedded on the lower surface of each strip plate F (33) and positioned below the first strip frame (1), an opening box body (35) sleeved on the four groups of folded fixing rods (34) and matched with the first strip frame (1), and a group of rectangular openings arranged on the front surface of the opening box body (35), the shielding doors (36) are hinged to the front surface of the opening box body (35) and matched with the rectangular openings, a first lock frame (37) is arranged on each shielding door (36), a second lock frame (38) is fixedly connected to the front surface of the opening box body (35) and matched with the first lock frames (37), and a fixed lock (39) is arranged between each first lock frame (37) and the corresponding second lock frame (38); the rear surface of the backrest plate (2) and one end of the lower surface of the first strip-shaped frame (1) are fixedly connected with two groups of folded reinforcing rods (40); the included angle between the backrest plate (2) and the horizontal plane is 75 degrees; the longitudinal section of the limiting support frame (10) is N-shaped; the number of the horizontal supporting rods (13) is 6-8, and the horizontal supporting rods (13) are positioned on the same horizontal line; the number of the first round through holes is 4-7, and the first round through holes are positioned on the same horizontal line; the number of the plurality of set screws (24) is 3-5; the upper surface of each handrail fence (3) is sleeved with a rubber cushion layer (41).
The solar energy storage plate on the rotating bearing plate supported by the stretching swing rod on the horizontal circular shaft, the strip-shaped shell and the horizontal circular rod absorbs light energy when the device is opened, wherein the limiting support frame plays a role in limiting, fixing and rotating the bearing plate, and the rotating bearing plate plays a role in bearing the solar energy storage plate. The absorbed light energy is converted into electric energy through a solar energy converter and continues the journey for the storage battery. Meanwhile, the vertical screw, the movable box and the vertical rotating fan blades on the first rotating bearing supported by the tripod are blown by wind, rotate to accumulate wind energy and convert the wind energy into electric energy through the wind energy converter to continue the journey of the storage battery. Wherein, moving the horizontal support rod to rotate the movable box on the vertical screw rod to adjust the direction of the vertical rotating fan blade to rotate the fan blade, and the vertical screw rod enables the movable box to move up and down. Wherein the folding rod plays a role of supporting the energy storage box body. The pedestrian will sit on the first strip-shaped frame and lean against the backrest plate, and both hands are put on the hand rail provided with the rubber cushion layer. Heating resistance wires on the fixed round rods in a specific season heat and rotate the round shells through the notches to supply heat for pedestrians. The fixing circular plate and the fastening screw play a role in fixing the fixing circular rod, the folded buckle and the fastening frame play a role in fixing the notch to rotate the circular shell, and the device is convenient to operate, consumes less power, makes full use of natural energy, provides convenience for life of people and is beneficial to social development.
In the embodiment, a programmable series controller is firstly installed at the idle position of the device, and taking a controller of the MAM-200 type and a storage battery of the WDKH-F type as examples, three output terminals of the controller of the type are respectively connected with input ends of a solar energy converter, a wind energy converter and a heating resistance wire through leads. After the controller is programmed, the person skilled in the art can completely control the working sequence of each electric device, and the specific working principle is as follows: firstly, the device is supported by a supporting round rod and a horizontal supporting plate and is fixed on the ground by a supporting gasket and a screw D. And opening the fixed locks on the first lock frame and the second lock frame, opening the shielding door, and placing sundries into the opening box body supported by the strip-shaped plate F and the folded fixed rod. When the device is opened, the solar energy storage plate on the rotating bearing plate supported by the stretching swing rod on the horizontal circular shaft, the strip-shaped shell and the horizontal circular rod absorbs light energy, and the limiting support frame plays a role in limiting and fixing the rotating bearing plate. The absorbed light energy is converted into electric energy through a solar energy converter and continues the journey for the storage battery. Meanwhile, the vertical screw, the movable box and the vertical rotating fan blades on the first rotating bearing supported by the tripod are blown by wind, rotate to accumulate wind energy and convert the wind energy into electric energy through the wind energy converter to continue the journey of the storage battery. Wherein, the horizontal support rod is moved to rotate the movable box on the vertical screw rod to adjust the direction of the vertical rotating fan blade so as to lead the vertical rotating fan blade to rotate upwind. Wherein the folding rod plays a role of supporting the energy storage box body. The pedestrian will sit on the first strip-shaped frame and lean against the backrest plate, and both hands are put on the hand rail provided with the rubber cushion layer. Heating resistance wires on the fixed round rods in a specific season heat and rotate the round shells through the notches to supply heat for pedestrians. Wherein the fixed circular plate and the fastening screw play a role in fixing the fixed round rod, and the folded buckle and the fastening frame play a role in fixing the notch and rotating the round shell. The fold-shaped reinforcing rods play a role in reinforcing the backrest plate.
Example 2: the matching of the zigzag button and the fastening frame can be replaced by the matching of the fixing ring and the fixing band, the fixing and the convenient disassembly effects can be achieved, and the other structures are the same as those of the embodiment 1.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.