CN113154703A - Multi-angle solar heat absorbing device - Google Patents

Abstract

The invention discloses a multi-angle solar heat absorption device, and relates to the technical field of solar heat absorption. This multi-angle solar heat absorbing device, including the solar energy moving mechanism that is used for the solar energy activity, be used for the multi-angle rocking mechanism that the multi-angle rocked, be used for the hydraulic pressure to carry out the dead hydraulic pressure card die mechanism of card, be used for expend with heat and contract with cold and carry out expend with heat and contract with cold mechanism that removes, be used for the gasbag that the gasbag stopped liquid outflow to hinder liquid mechanism and be used for sheltering from sunshine shelter from sunshine mechanism, the inside of solar energy moving mechanism is provided with the sunshading board, the sunshading board that the solar energy moving mechanism passes through to set up is provided with shelters from sunshine mechanism. This multi-angle solar heat sink makes first mercury storehouse intensification inflation through the heat transfer of receiving the hot piece, makes kicking block jack-up, makes the second fixture block no longer block, and the mercury in the bottom plate directly gets into the intermediate lever in, has guaranteed to stop the angle of change when the water temperature reaches standard among the solar device.

Description

Multi-angle solar heat absorbing device

Technical Field

The invention relates to the technical field of solar heat absorption, in particular to a multi-angle solar heat absorption device.

Background

Since the birth of life on the earth, people mainly live by the heat radiation energy provided by the sun, and ancient mankind also understand that objects are dried in the sun and used as methods for making food, such as salt making, salted fish drying and the like; the device utilizing solar energy has solar energy to boil water, and along with economic conditions, families have all installed solar energy to boil water and be used for bathing, and the direction of putting of solar energy all is the angle that the sun can shine the time the longest.

However, in cold winter, the sun irradiation force in the daytime is weak, and the sun is faced by only one angle, so that the hot water cannot be used in one day.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the multi-angle solar heat absorption device, which enables the solar panel to change the angle through the expansion with heat and contraction with cold of mercury, enables the solar panel to move along the direction of the sun and ensures that the solar panel can face the sun all the time.

In order to achieve the purpose, the invention is realized by the following technical scheme: a multi-angle solar heat absorption device comprises a solar movable mechanism for solar movement, a multi-angle shaking mechanism for shaking at multiple angles, a hydraulic clamping mechanism for hydraulic clamping, a thermal expansion and contraction mechanism for thermal expansion and contraction to move, an air bag liquid blocking mechanism for preventing liquid from flowing out of an air bag, and a sun shading mechanism for shading sunlight, wherein a sun shading plate is arranged in the solar movable mechanism, the solar movable mechanism is provided with the sun shading mechanism through the arranged sun shading plate, the bottom of the solar movable mechanism is provided with the multi-angle shaking mechanism, an intermediate rod is arranged in the multi-angle shaking mechanism, the multi-angle shaking mechanism is provided with the hydraulic clamping mechanism through the arranged intermediate rod, the top of the hydraulic clamping mechanism is provided with the thermal contraction mechanism, and a second telescopic rod is arranged in the multi-angle shaking mechanism, the multi-angle shaking mechanism is provided with an air bag liquid blocking mechanism through a second telescopic rod.

Preferably, solar energy moving mechanism's inside includes solar device, sunshading board and bottom plate, solar device's outer wall fixedly connected with sunshading board, solar device's bottom is provided with the bottom plate, solar device places for the level through the bottom plate that sets up, the inside that the mechanism was rocked to the multi-angle includes first telescopic link, intermediate lever, spiral spring and second telescopic link, solar device's nine hinges of bottom fixedly connected with, solar device articulates through the nine hinges that set up has first telescopic link, the bottom of first telescopic link is pegged graft and is had the second telescopic link, solar device's bottom is provided with the bearing, solar device rotates through the bearing that sets up and is connected with the spiral spring, the bottom fixedly connected with intermediate lever of spiral spring.

Preferably, the inside of the hydraulic clamping mechanism comprises a first clamping block, a second clamping block and a hydraulic device, the inner wall of the intermediate rod is fixedly connected with the first clamping block, the axis of the intermediate rod is provided with the hydraulic device, the two sides of the hydraulic device are fixedly connected with the second clamping block, and the second clamping block is clamped on the outer wall of the first clamping block.

Preferably, expend with heat and contract with cold the inside of mechanism including receiving hot piece, kicking block, first mercury storehouse and atress ball, solar device's bottom fixedly connected with receives hot piece, solar device has the atress ball through the piece swing joint that receives heat that sets up, first mercury storehouse has been seted up to the inner wall of atress ball, the inside first mercury storehouse top of keeping away from of atress ball has seted up the cavity, the kicking block sets up in the cavity of atress ball, be provided with spring A between the cavity of kicking block and atress ball, the bottom fixedly connected with connecting rod of kicking block, the kicking block is through the connecting rod fixed connection who sets up at the hydraulic means top.

Preferably, the inside of gasbag hinders liquid mechanism includes atress gasbag, squeeze bar and triangle piece, the inner wall joint of second telescopic link has triangle piece, squeeze bar fixed connection is at second telescopic link inner wall and joint at triangle piece inner wall, the inside of atress gasbag is provided with the atress gasbag, the bottom and the squeeze bar fixed connection of atress gasbag.

Preferably, the inside of sheltering from sun mechanism includes shielding piece, magnetic path and second mercury storehouse, a plurality of holes have been seted up to the outer wall of sunshading board, shielding piece sets up in the hole of sunshading board, shielding piece's both ends rotate the downthehole wall of connection at the sunshading board, shielding piece both ends and the position fixedly connected with spring B that is located sunshading board downthehole wall, the cavity has been seted up to the inside of sunshading board and the position that is located spring B, the magnetic path sets up in the cavity of sunshading board, be provided with second mercury storehouse between magnetic path and the sunshading board cavity, magnetic path and spring B swing joint.

The invention provides a multi-angle solar heat absorption device. The method has the following beneficial effects:

1. this multi-angle solar heat absorber can shelter from the one side that receives the sunlight through the sunshading board, makes the one side that receives the sunlight reduce to be heated to make the second telescopic link of other positions heated, ensured that solar device faces the sun always.

2. This multi-angle solar heat sink makes first mercury storehouse intensification inflation through the heat transfer of receiving the hot piece, makes kicking block jack-up, makes the second fixture block no longer block, and the mercury in the bottom plate directly gets into the intermediate lever in, has guaranteed to stop the angle of change when the water temperature reaches standard among the solar device.

3. This multi-angle solar heat absorbing device through spiral spring elastic setting, makes solar device can the free activity rotate under the effect of bearing, has ensured the smooth and easy change of solar device angle.

4. This multi-angle solar heat absorbing device through being heated of second telescopic link, makes inside mercury heat expand to jack-up solar device makes solar device continuously rock, has ensured that solar device can remove according to the one side of sunlight.

5. This multi-angle solar heat sink, when receiving the extrusion through hydraulic means, second fixture block jack-up blocks with first fixture block, has ensured that mercury in the bottom plate can not get into in the intermediate lever.

6. This multi-angle solar heat absorbing device sets up through the triangle-shaped of triangle-shaped piece, makes the difficult outflow of mercury in the second telescopic link, but comparatively easy inflow, and when triangle-shaped piece descends, the extrusion pole extrudees the atress gasbag, has ensured the bulging of atress gasbag, and the mercury in the separation second telescopic link flows.

Drawings

FIG. 1 is a schematic axial side perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the portion B of FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the portion C of FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the portion D in FIG. 2 according to the present invention.

In the figure: 1. a solar energy moving mechanism; 11. a solar device; 12. a sun visor; 13. a base plate; 2. a multi-angle shaking mechanism; 21. a first telescopic rod; 22. an intermediate lever; 23. a coil spring; 24. a second telescopic rod; 3. a hydraulic locking mechanism; 31. a first clamping block; 32. a second fixture block; 33. a hydraulic device; 4. a thermal expansion and contraction mechanism; 41. a heat receiving block; 42. a top block; 43. a first mercury reservoir; 44. a force-bearing ball; 5. an air bag liquid blocking mechanism; 51. a stressed air bag; 52. an extrusion stem; 53. a triangular block; 6. a sunlight shielding mechanism; 61. a shielding sheet; 62. a magnetic block; 63. a second mercury reservoir.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like 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.

Referring to fig. 1-6, the present invention provides a technical solution: a multi-angle solar heat absorption device comprises a solar movable mechanism 1 for solar movement, a multi-angle shaking mechanism 2 for multi-angle shaking, a hydraulic blocking mechanism 3 for hydraulic blocking, a thermal expansion and contraction mechanism 4 for thermal expansion and contraction movement, an air bag liquid blocking mechanism 5 for air bags to block liquid from flowing out and a sun shading mechanism 6 for shading sunlight, wherein the solar movable mechanism 1 is internally provided with a sun shield 12, the solar movable mechanism 1 is provided with the sun shading mechanism 6 through the arranged sun shield 12, the bottom of the solar movable mechanism 1 is provided with the multi-angle shaking mechanism 2, the multi-angle shaking mechanism 2 is internally provided with an intermediate rod 22, the multi-angle shaking mechanism 2 is provided with the hydraulic blocking mechanism 3 through the arranged intermediate rod 22, and the top of the hydraulic blocking mechanism 3 is provided with the thermal expansion and contraction mechanism 4, the inside of mechanism 2 is rocked to the multi-angle is provided with second telescopic link 24, and the multi-angle is rocked mechanism 2 and is provided with gasbag liquid stopping mechanism 5 through the second telescopic link 24 that sets up.

In this embodiment, the solar device 11 is made to face the sun in a greater direction by changing the position where the solar bucket is placed.

Specifically, solar energy moving mechanism 1's inside includes solar device 11, sunshading board 12 and bottom plate 13, solar device 11's outer wall fixedly connected with sunshading board 12, solar device 11's bottom is provided with bottom plate 13, the inside that mechanism 2 was rocked to the multi-angle includes first telescopic link 21, intermediate lever 22, spiral spring 23 and second telescopic link 24, solar device 11's nine hinges of bottom fixedly connected with, solar device 11 articulates through the nine hinges that set up has first telescopic link 21, the bottom of first telescopic link 21 is pegged graft and is had second telescopic link 24, solar device 11's bottom is provided with the bearing, solar device 11 rotates through the bearing that sets up and is connected with spiral spring 23, the bottom fixedly connected with intermediate lever 22 of spiral spring 23.

In this embodiment, the solar device 11 can be better used by filling the water therein.

Specifically, the hydraulic locking mechanism 3 includes a first locking block 31, a second locking block 32 and a hydraulic device 33, the inner wall of the intermediate rod 22 is fixedly connected with the first locking block 31, the axial center of the intermediate rod 22 is provided with the hydraulic device 33, the two sides of the hydraulic device 33 are fixedly connected with the second locking block 32, and the second locking block 32 is locked on the outer wall of the first locking block 31.

In this embodiment, the spring in the second latch 32 can pull the second latch 32 to contract.

Specifically, expend with heat and contract with cold mechanism 4's inside is including receiving hot piece 41, kicking block 42, first mercury storehouse 43 and atress ball 44, solar device 11's bottom fixedly connected with receives hot piece 41, solar device 11 has atress ball 44 through the piece 41 swing joint that receives heat that sets up, first mercury storehouse 43 has been seted up to the inner wall of atress ball 44, the inside cavity of having kept away from first mercury storehouse 43 top of atress ball 44 has been seted up, kicking block 42 sets up in the cavity of atress ball 44, be provided with spring A between kicking block 42 and the cavity of atress ball 44, kicking block 42's bottom fixedly connected with connecting rod, kicking block 42 is through the connecting rod fixed connection who sets up at hydraulic means 33 top.

In this embodiment, the top block 42 is sealed to prevent the penetration of mercury in the first mercury reservoir 43.

Specifically, gasbag hinders liquid mechanism 5's inside includes atress gasbag 51, lifter 52 and triangle piece 53, and the inner wall joint of second telescopic link 24 has triangle piece 53, and lifter 52 fixed connection is at the inner wall of second telescopic link 24 and joint at triangle piece 53 inner wall, and the inside of atress gasbag 51 is provided with atress gasbag 51, and the bottom and the lifter 52 fixed connection of atress gasbag 51.

In this embodiment, the movement of the triangular block 53 causes the pressing rod 52 to press the force receiving bladder 51.

Specifically, the inside of sheltering from sun mechanism 6 is including sheltering from piece 61, magnetic path 62 and second mercury storehouse 63, a plurality of holes have been seted up to sunshading board 12's outer wall, shelter from piece 61 and set up in sunshading board 12's hole, shelter from the both ends rotation of piece 61 and connect the downthehole wall at sunshading board 12, shelter from the position fixedly connected with spring B that piece 61 both ends just are located sunshading board 12 downthehole wall, the cavity has been seted up to the inside of sunshading board 12 and the position that is located spring B, magnetic path 62 sets up in sunshading board 12's cavity, be provided with second mercury storehouse 63 between magnetic path 62 and the sunshading board 12 cavity, magnetic path 62 and spring B swing joint.

In this embodiment, the springs at the two ends of the shielding plate 61 contact the magnetic block 62 to contract and rotate the springs.

When the solar water heater is used, water to be heated is added into the solar device 11 in a sunny day in winter, the gravity of the water is continuously increased, the solar device 11 continuously presses the stress ball 44, the spring in the stress ball 44 is connected with the ejector block 42 to extrude the hydraulic device 33 through the connecting rod, two ends of the hydraulic device 33 extend out to enable the second clamping block 32 to be clamped in the first clamping block 31, mercury in the blocking bottom plate 13 flows into the middle rod 22, the solar device 11 is lifted to one side, when the sun shield 12 faces the sun, the second mercury bin 63 in the sun shield 12 is heated, the jacking magnetic block 62 is contacted with the spring, the spring is contracted and rotated after contacting with magnetism, the sunlight area blocked by the sun shield 12 is increased after the shield sheet 61 rotates on the sun shield 12, the second mercury bin 63 shrinks to enable the magnetic block 62 to leave the spring when the sun shield sheet 12 does not receive sunlight, the shield sheet 61 resets according to the gravity, when the side, which has the sun, of the second telescopic rod 24 is shielded, the side, which can be close to the sun, is heated, the close second telescopic rod 24 is continuously heated, the solar device 11 faces to the other side when the second telescopic rod 24 is jacked up, when mercury in the bottom plate 13 expands, each second telescopic rod 24 is heated, the side, which has the sun, of the second telescopic rod 24 is shielded, so that much mercury enters the close second telescopic rod 24, the solar device 11 faces the sun, when the sun moves, the second telescopic rod 24 on the side, which is tilted up by the sun shield 12, is heated, after the mercury in the second telescopic rod 24 is heated, the first telescopic rod 21 is jacked up, the solar device 11 on the side is jacked up after the first telescopic rod 21 is jacked up, the solar device 11 is rotatably connected with the bearing of the middle rod 22, and the mercury in the second telescopic rod 24 is heated, when the first expansion link 21 is extruded, the bottom part can also extrude the triangular block 53, the hole on the triangular block 53 is small, the hole on the lower part is large, so that the water is not easy to flow out from the crack of the triangular block 53, when the mercury expands, the triangular block 53 is extruded and descends, the extrusion rod 52 extrudes the stressed air bag 51, the stressed air bag 51 is expanded, the gap between the triangular blocks 53 is reduced, the outflow of the mercury is reduced, the continuous movement of the sun enables each circle of second expansion links 24 to be heated circularly, so that the first expansion link 21 is jacked up, the solar device 11 always faces the direction of the sun, the spiral spring 23 is connected with a bearing under the bottom of the solar device 11, the solar device 11 can rotate by an angle, when the water temperature in the solar device 11 rises, the heated block 41 is heated, the mercury bin 43 in the stressed ball 44 is thermally expanded, so that the jacking block 42 is jacked up, the jacking up of the jacking block 42 drives the hydraulic device 33 to contract through the connection rod, therefore, the second clamping block 32 is contracted and not clamped with the first clamping block 31, when the second telescopic rod 24 is heated and expanded, the hydraulic device 33 can be continuously jacked up to enter the middle rod 22, the mercury force in the bottom plate 13 can not jack up the first telescopic rod 21 any more, and therefore when the temperature of the solar device 11 is the highest, the solar device 11 does not shake any more.

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

Claims (6)

1. The utility model provides a multi-angle solar heat absorbing device, includes solar energy moving mechanism (1) that is used for the solar energy activity, is used for the multi-angle to rock mechanism (2), is used for hydraulic pressure to carry out card dead hydraulic pressure card death mechanism (3), is used for expend with heat and contract with cold mechanism (4) that moves, is used for the gasbag that the gasbag prevents liquid outflow to hinder liquid mechanism (5) and be used for sheltering from sunshine shelter from sunshine mechanism (6), its characterized in that: the utility model discloses a solar energy rocking mechanism, including solar energy moving mechanism (1), solar energy moving mechanism (1) is provided with through sunshading board (12) that sets up and shelters from sunshine mechanism (6), the bottom of solar energy moving mechanism (1) is provided with multi-angle rocking mechanism (2), the inside that multi-angle rocking mechanism (2) was provided with intermediate lever (22), multi-angle rocking mechanism (2) is provided with hydraulic pressure card death mechanism (3) through intermediate lever (22) that set up, the top of hydraulic pressure card death mechanism (3) is provided with expend with heat and contract with cold mechanism (4), the inside that multi-angle rocking mechanism (2) was provided with second telescopic link (24), multi-angle rocking mechanism (2) is provided with gasbag through second telescopic link (24) that set up and hinders liquid mechanism (5).

2. The multi-angle solar heat absorber of claim 1, wherein: the solar energy moving mechanism (1) comprises a solar device (11), a sun shield (12) and a bottom plate (13) inside, the sun shield (12) is fixedly connected to the outer wall of the solar device (11), the bottom of the solar device (11) is provided with the bottom plate (13), the multi-angle shaking mechanism (2) comprises a first telescopic rod (21), a middle rod (22), a spiral spring (23) and a second telescopic rod (24) inside, the bottom of the solar device (11) is fixedly connected with nine hinges, the solar device (11) is hinged with the first telescopic rod (21) through the nine hinges, the second telescopic rod (24) is inserted into the bottom of the first telescopic rod (21), the bottom of the solar device (11) is provided with a bearing, and the solar device (11) is rotatably connected with the spiral spring (23) through the arranged bearing, the bottom of the spiral spring (23) is fixedly connected with an intermediate rod (22).

3. The multi-angle solar heat absorber of claim 1, wherein: the hydraulic clamping mechanism (3) is characterized in that the hydraulic clamping mechanism comprises a first clamping block (31), a second clamping block (32) and a hydraulic device (33), the inner wall of the intermediate rod (22) is fixedly connected with the first clamping block (31), the axis of the intermediate rod (22) is provided with the hydraulic device (33), the two sides of the hydraulic device (33) are fixedly connected with the second clamping block (32), and the second clamping block (32) is clamped on the outer wall of the first clamping block (31).

4. The multi-angle solar heat absorber of claim 3, wherein: the inside of expend with heat and contract with cold mechanism (4) is including receiving hot piece (41), kicking block (42), first mercury storehouse (43) and atress ball (44), the bottom fixedly connected with of solar device (11) receives hot piece (41), solar device (11) have atress ball (44) through the piece (41) swing joint that receives hot that sets up, first mercury storehouse (43) have been seted up to the inner wall of atress ball (44), the cavity has been seted up at first mercury storehouse (43) top is kept away from to atress ball (44) inside, kicking block (42) set up in the cavity of atress ball (44), be provided with spring A between the cavity of kicking block (42) and atress ball (44), the bottom fixedly connected with connecting rod of kicking block (42), kicking block (42) are through the connecting rod fixed connection that sets up at hydraulic means (33) top.

5. The multi-angle solar heat absorber of claim 1, wherein: the inside of gasbag hinders liquid mechanism (5) includes atress gasbag (51), squeeze bar (52) and triangle piece (53), the inner wall joint of second telescopic link (24) has triangle piece (53), squeeze bar (52) fixed connection is at triangle piece (53) inner wall at second telescopic link (24) inner wall and joint, the inside of atress gasbag (51) is provided with atress gasbag (51), the bottom and the squeeze bar (52) fixed connection of atress gasbag (51).

6. The multi-angle solar heat absorber of claim 1, wherein: the sun shading mechanism (6) is characterized in that the sun shading mechanism comprises a shading sheet (61), a magnetic block (62) and a second mercury bin (63), a plurality of holes are formed in the outer wall of the sun shading plate (12), the shading sheet (61) is arranged in the holes of the sun shading plate (12), two ends of the shading sheet (61) are rotatably connected to the inner wall of the holes of the sun shading plate (12), two ends of the shading sheet (61) are fixedly connected with springs B which are located on the inner wall of the holes of the sun shading plate (12), a cavity is formed in the inner portion of the sun shading plate (12) and located on the springs B, the magnetic block (62) is arranged in the cavity of the sun shading plate (12), the second mercury bin (63) is arranged between the magnetic block (62) and the cavity of the sun shading plate (12), and the magnetic block (62) is movably connected with the springs B.

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