CN112511084A - Solar device with glass steel detects structure - Google Patents

Abstract

The invention relates to the technical field of solar panel devices, in particular to a solar device with a glass fiber reinforced plastic detection structure, which comprises a placing shell, wherein the top of the placing shell is open and is hollow, a second shell is fixed on one side of the placing shell, a first rotating rod and a second rotating rod are horizontally arranged in the placing shell, the second rotating rod is positioned under the first rotating rod, a first motor and a second motor are arranged in the second shell, the output end of the first motor is fixed with one end of the first rotating rod, and the other end of the first rotating rod extends into the placing shell. The solar panel glass placing device has the advantages that the first rotating rod drives the solar panels to rotate, the hollow pipe is driven by the second rotating rod to realize the operations of firstly going straight, pausing and upwards placing the blocks, the effect of detecting the toughened glass condition of each solar panel is realized, the loss of customers is reduced, and the efficiency of detecting each solar panel by the customers is improved.

Description

Solar device with glass steel detects structure

Technical Field

The invention relates to the technical field of solar panel devices, in particular to a solar device with a glass fiber reinforced plastic detection structure.

Background

Be fixed with one deck toughened glass on the solar panel, when toughened glass was broken, as long as do not damage the electronic component on the solar panel, solar panel can also continue to use, and only power conversion efficiency reduces.

If the toughened glass is damaged, after the toughened glass is left untreated, the toughened glass is seriously broken, rainwater or other heavy objects hit the solar panel, and the solar panel cannot be used completely.

Therefore, the solar panel needs to be detected in time, and loss expansion is avoided.

If operating personnel need to inspect under the condition of solar panel, need climb roof or eminence and just can detect, this kind of operating means need consume very long time, and the cycle is longer when detecting, can't accomplish every day and detect.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the solar device with the glass fiber reinforced plastic detection structure.

The above object of the present invention is achieved by the following technical solutions: a solar device with a glass fiber reinforced plastic detection structure comprises a placing shell, wherein the top of the placing shell is open and the interior of the placing shell is hollow, a second shell is fixed on one side of the placing shell, a first rotating rod and a second rotating rod are horizontally arranged in the placing shell, the second rotating rod is positioned under the first rotating rod,

a first motor and a second motor are arranged in the second shell, the output end of the first motor is fixed with one end of the first rotating rod, the other end of the first rotating rod extends into the placing shell, the first rotating rod is rotatably connected with the placing shell, a plurality of rotating blocks are arranged on the first rotating rod at equal intervals along the length direction of the first rotating rod, and a solar panel is fixed on one side of each rotating block;

the output end of the second motor is fixed with one end of the second rotating rod, the other end of the second rotating rod extends into the placing shell, and the second rotating rod is rotatably connected with the placing shell;

a hollow pipe is arranged on the outer peripheral surface of the second rotating rod, a placing plate is arranged at the top of the hollow pipe, a placing block is arranged at the top of the placing plate, the second motor drives the second rotating rod to rotate, and the second rotating rod drives the hollow pipe to move along the linear direction of the hollow pipe;

still include the display part, place the piece and detect every in proper order whether toughened glass damages on the solar panel.

Through adopting above-mentioned technical scheme, through placing whether the toughened glass that the piece can be fast automated inspection on every solar panel damages, reduced the customer loss, improved the efficiency that the customer detected every solar panel.

The present invention in a preferred example may be further configured to: the vertical section of the hollow pipe consists of two arcs and a rectangle, and the two arcs are positioned on two sides of the rectangle;

an arc-shaped plate is arranged on the circumferential surface of the lower half part of the inner wall of the hollow pipe, and threads are arranged on one side of the arc-shaped plate close to the center of the hollow pipe;

the vertical section of the second rotating rod is arc-shaped, a thread is also arranged on one side of the second rotating rod, which is in contact with the arc-shaped plate, and the second rotating rod is meshed with the arc-shaped plate;

the bottom of hollow tube is fixed with the sliding block, it is provided with first guide arm to place the fixed level of casing inside, first guide arm passes the sliding block, just the sliding block with place casing inner wall bottom and contact, work as the second dwang with when the arc contacted, the second dwang drives the hollow tube along the direction motion of second dwang, work as the second dwang with when the arc breaks away from the contact, the second dwang rotates nevertheless hollow tube stop motion.

By adopting the technical scheme, the second rotating rod is driven by the second motor to rotate all the time, and when the second rotating rod is contacted with the arc-shaped plate, the second rotating rod drives the hollow pipe to move; when the second rotating rod is separated from the arc-shaped plate, the hollow pipe stops moving.

The present invention in a preferred example may be further configured to: two rubber connecting plates are symmetrically arranged on the upper half arc of the hollow pipe, a gravity plate is arranged between the two rubber connecting plates, a sliding rod is arranged at the top of the gravity plate and penetrates through the hollow pipe, and one end, positioned outside the placing shell, of the sliding rod is connected with the placing plate;

when the second dwang moves to when the first half of hollow tube, the second dwang drives the gravity board upward movement.

Through adopting above-mentioned technical scheme, when second dwang and rubber connecting plate contacted, drive the rubber connecting plate and take place deformation, and the rubber connecting plate drives gravity board upward movement, and the gravity board moves the slide bar upward movement, when second dwang and rubber connecting plate break away from the contact, under the combined action of rubber connecting plate and gravity piece, makes the slide bar can return initial position fast.

The present invention in a preferred example may be further configured to: the outer peripheral face of slide bar is equipped with first spring, the both ends of first spring respectively with place the board and the outer peripheral face of slide bar is fixed mutually.

Through adopting above-mentioned technical scheme, when second dwang and gravity board break away from the contact, first spring is owing to its self elastic restoring force, and further assurance slide bar returns initial position.

The present invention in a preferred example may be further configured to: a placing groove is formed in the top of the placing block, a plurality of second guide rods are fixed at the bottom of the interior of the placing groove, a touch rod is sleeved on the outer peripheral surface of each second guide rod, and a second spring is arranged between each touch rod and each second guide rod;

a first iron sheet is fixed at the bottom of the touch rod;

a second iron sheet is sleeved on the outer peripheral surface of the second guide rod and fixed with the bottom of the inner wall of the placing groove;

the first iron sheet, the second iron sheet and the display part are electrically connected, and the first iron sheet, the second iron sheet and the display part are driven to enable an annular closed circuit.

Through adopting above-mentioned technical scheme, when first iron sheet on the conflict pole contacts with the second iron sheet, activate the corresponding position on the display part, make things convenient for operating personnel to watch whether the glass on the solar panel that detects is damaged.

The present invention in a preferred example may be further configured to: one end of the abutting rod, which is positioned outside the placing groove, is arranged to be pointed.

The present invention in a preferred example may be further configured to: and the other end of the rotating block is provided with a baffle.

Through adopting above-mentioned technical scheme, when the turning block rotated one hundred eighty degrees, baffle and the position that corresponds solar panel exchanged each other, the baffle with place casing external environment direct contact, a plurality of baffles form the protective layer, avoid device internal part to be damaged.

In summary, the invention includes at least one of the following beneficial technical effects:

1. according to the invention, the solar panels are driven to rotate by the first rotating rod, and the hollow pipe is driven by the second rotating rod to realize the operations of firstly going straight, pausing and placing the blocks upwards, so that the effect of detecting the toughened glass condition of each solar panel is realized, the loss of customers is reduced, and the efficiency of detecting each solar panel by the customers is improved.

2. According to the invention, the arc-shaped plate is arranged below the inner part of the hollow pipe, the sliding rod capable of sliding is arranged above the inner part of the hollow pipe, the arc-shaped plate is arranged at the position of the hollow pipe, the second rotating rod is in threaded connection with the arc-shaped plate of the arc-shaped plate below the inner part of the hollow pipe to drive the hollow pipe to move linearly, and the second rotating rod drives the sliding rod to move up and down, so that the purpose of automatic detection is realized.

3. According to the invention, through the rotation of the baffles, the baffles are positioned at the opening of the placing shell and form a seamless protective layer, and at the moment, impurities or heavy objects outside the placing shell cannot pass through the baffles and enter the placing shell, so that devices inside the device body are prevented from being damaged, and the service life of the device body is prolonged.

Drawings

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

FIG. 2 is a schematic view showing the internal structure of the hollow tube of the present embodiment;

FIG. 3 is a schematic front view of the inner structure of the hollow tube in the present embodiment;

FIG. 4 is a schematic view showing the internal structure of a placement block in the present embodiment;

fig. 5 is an enlarged schematic view of a structure in the present embodiment.

Reference numerals: 1. placing the shell; 2. a rotating assembly; 11. a second housing; 111. a first motor; 112. a second motor; 113. a first rotating lever; 21. rotating the block; 22. a solar panel; 23. a baffle plate; 3. a motion assembly; 31. a hollow tube; 32. an arc-shaped plate; 33. a rubber connecting plate; 34. a gravity plate; 35. a slide bar; 36. placing the plate; 37. a first spring; 114. a second rotating lever; 5. a slider; 51. a first guide bar; 4. placing the blocks; 41. a second guide bar; 42. a touch bar; 43. a second spring; 44. a first iron piece; 45. a second iron piece; 6. a display unit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Embodiment, referring to fig. 1 to 5, a solar device with a glass fiber reinforced plastic detection structure includes a housing 1, the housing 1 has an open top and is hollow inside, a second housing 11 is fixed on one side of the housing 1, a first rotating rod 113 and a second rotating rod 114 are horizontally disposed inside the housing 1, and the second rotating rod 114 is located right below the first rotating rod 113.

A first motor 111 and a second motor 112 are arranged in the second casing 11, an output end of the first motor 111 is fixed with one end of a first rotating rod 113, the other end of the first rotating rod 113 extends into the placing casing 1, the first rotating rod 113 is rotatably connected with the placing casing 1, a plurality of rotating blocks 21 are arranged on the first rotating rod 113 at equal intervals along the length direction of the first rotating rod 113, and a solar panel 22 is fixed on one side of each rotating block 21.

The output end of the second motor 112 is fixed to one end of the second rotating rod 114, the other end of the second rotating rod 114 extends to the inside of the placing case 1, and the second rotating rod 114 is rotatably connected to the placing case 1.

The outer peripheral face of second dwang 114 is provided with hollow tube 31, and the top of hollow tube 31 is provided with places board 36, and the top of placing board 36 is provided with places piece 4, and second motor 112 drives second dwang 114 and rotates, and second dwang 114 drives hollow tube 31 along its own place rectilinear direction motion, still includes display portion 6, places piece 4 and detects in proper order whether toughened glass damages on every solar panel 22.

The vertical cross section of the hollow tube 31 is composed of two arcs and a rectangle, and the two arcs are located on two sides of the rectangle.

An arc-shaped plate 32 is arranged on the circumferential surface of the lower half part of the inner wall of the hollow pipe 31, and one side of the arc-shaped plate 32 close to the center of the hollow pipe 31 is provided with threads;

the vertical section of the second rotating rod 114 is arc-shaped, one side of the second rotating rod 114 contacting with the arc-shaped plate 32 is also threaded, and the second rotating rod 114 is meshed with the arc-shaped plate 32.

The bottom of hollow tube 31 is fixed with sliding block 5, place the fixed first guide arm 51 that is provided with of casing 1 inside level, first guide arm 51 passes sliding block 5, and sliding block 5 contacts with placing casing 1 inner wall bottom, and when second dwang 114 contacted with arc 32, second dwang 114 drove hollow tube 31 along the direction motion of second dwang 114, and when second dwang 114 broke away from the contact with arc 32, second dwang 114 rotated but hollow tube 31 stop motion.

Two rubber connecting plates 33 are symmetrically arranged on the upper half arc of the hollow tube 31, a gravity plate 34 is arranged between the two rubber connecting plates 33, a sliding rod 35 is arranged at the top of the gravity plate 34, the sliding rod 35 penetrates through the hollow tube 31, and one end of the sliding rod 35, which is positioned outside the placing shell 1, is connected with a placing plate 36.

When the second rotating rod 114 moves to the upper half of the hollow tube 31, the second rotating rod 114 drives the gravity plate 34 to move upward.

The outer peripheral surface of slide bar 35 is equipped with first spring 37 in a sleeved manner, and the both ends of first spring 37 are fixed mutually with placing board 36 and the outer peripheral surface of slide bar 35 respectively.

Place the top of piece 4 and seted up standing groove 411, the inside bottom of standing groove 411 is fixed with a plurality of second guide arms 41, and the outer peripheral face cover of second guide arm 41 is equipped with conflict pole 42, is provided with second spring 43 between conflict pole 42 and the second guide arm 41.

The bottom of the touch bar 42 is fixed with a first iron sheet 44, the outer peripheral surface of the second guide rod 41 is sleeved with a second iron sheet 45, the second iron sheet 45 is fixed with the bottom of the inner wall of the placing groove 411, the first iron sheet 44, the second iron sheet 45 and the display portion 6 are electrically connected, and the first iron sheet 44, the second iron sheet 45 and the display portion 6 are driven to form an annular closed circuit.

One end of the contact rod 42 located outside the placing groove 411 is pointed, and the other end of the rotating block 21 is provided with a baffle 23.

The specific implementation process is that the raw materials are mixed,

an operator firstly connects a power supply, starts the first motor 111, the first motor 111 rotates to drive the first rotating rod 113 to rotate, the first rotating rod 113 drives the plurality of rotating blocks 21 to rotate, and the rotating blocks 21 drive the corresponding solar panels 22 and the baffle plates 23 to rotate. When the first rotation lever 113 is rotated 180 degrees, the positions of the solar panel 22 and the shutter 23 are interchanged. The baffle 23 may now act somewhat to block interference with the interior of the body of the device in inclement weather conditions.

Several baffles 23 completely close the top of the placing shell 1.

Further, the operator activates the second motor 112, and the second motor 112 drives the second rotating rod 114 to rotate. When the second rotating rod 114 rotates, when the second rotating rod 114 and the arc plate 32 contact each other, the second rotating rod 114 drives the hollow pipe 31 to move along the linear direction of the second rotating rod 114.

When the second rotating lever 114 is out of contact with the arcuate plate 32, the hollow tube 31 stops moving. Specifically, each time the hollow tube 31 stops, it is positioned just below one of the solar panels 22 in the housing 1.

At this time, the second rotating rod 114 continues to rotate, and when the second rotating rod 114 rotates by a small angle, the second rotating rod 114 contacts with the rubber connecting plate 33, so that the rubber connecting plate 33 deforms, and the rubber connecting plate 33 drives the gravity plate 34 to move upwards. The gravity plate 34 drives the slide bar 35 and the placing plate 35 to move upward.

The top end of the contact rod 42 contacts the tempered glass of the solar panel 22, and the contact rod 42 is displaced. The contact rod 42 drives the second spring 43 to deform, so that the first iron sheet 44 contacts with the second iron sheet 45. The first iron sheet 44, the second iron sheet 45 and the display part 6 are electrically connected.

The number of contact rods 42 is numerous and the spacing between two adjacent contact rods 42 is enlarged for clarity.

When the tempered glass is broken, one or more pairs of the first iron pieces 44 are not in contact with the second iron pieces 45, and the LED lamp displayed on the display part 6 is in an off state. The operator can directly observe the display part 6 indoors to know whether the toughened glass is broken or not.

The second rotating shaft 114 continues to rotate. The second rotating rod 114 is separated from the contact with the rubber plate, the rubber plate returns to the initial position due to its own characteristics, and the second rotating rod 114 continues to contact with the arc-shaped plate 32 and drives the hollow tube 31 to move to the position right below the next solar panel 22.

When all the solar panels 22 are detected, the second motor 112 stops rotating.

The rotation is started each time the second motor 112 is stopped, and the direction of rotation of the second motor 112 is reversed.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (7)

1. The utility model provides a solar device with glass steel detects structure, is including placing casing (1), place casing (1) open-top and its inside cavity, its characterized in that: a second shell (11) is fixed on one side of the placing shell (1), a first rotating rod (113) and a second rotating rod (114) are horizontally arranged in the placing shell (1), and the second rotating rod (114) is located under the first rotating rod (113);

a first motor (111) and a second motor (112) are arranged in the second shell (11), the output end of the first motor (111) is fixed with one end of the first rotating rod (113), the other end of the first rotating rod (113) extends into the placing shell (1), the first rotating rod (113) is rotatably connected with the placing shell (1), a plurality of rotating blocks (21) are arranged on the first rotating rod (113) at equal intervals along the length direction of the first rotating rod, and a solar panel (22) is fixed on one side of each rotating block (21);

the output end of the second motor (112) is fixed with one end of the second rotating rod (114), the other end of the second rotating rod (114) extends into the placing shell (1), and the second rotating rod (114) is rotatably connected with the placing shell (1);

a hollow pipe (31) is arranged on the outer peripheral surface of the second rotating rod (114), a placing plate (36) is arranged at the top of the hollow pipe (31), a placing block (4) is arranged at the top of the placing plate (36), the second motor (112) drives the second rotating rod (114) to rotate, and the second rotating rod (114) drives the hollow pipe (31) to move along the linear direction of the second rotating rod (114);

still include display part (6), place piece (4) and detect every in proper order whether toughened glass damages on solar panel (22).

2. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 1, wherein: the vertical section of the hollow pipe (31) consists of two arcs and a rectangle, and the two arcs are positioned on two sides of the rectangle;

an arc-shaped plate (32) is arranged on the circumferential surface of the lower half part of the inner wall of the hollow pipe (31), and one side, close to the center of the hollow pipe (31), of the arc-shaped plate (32) is provided with a thread;

the vertical section of the second rotating rod (114) is arc-shaped, a thread is also arranged on one side of the second rotating rod (114) which is in contact with the arc-shaped plate (32), and the second rotating rod (114) is meshed with the arc-shaped plate (32);

the bottom of hollow tube (31) is fixed with sliding block (5), it is provided with first guide arm (51) to place the inside horizontal fixation of casing (1), first guide arm (51) pass sliding block (5), just sliding block (5) with place casing (1) inner wall bottom and contact, work as second dwang (114) with when arc (32) contacted, second dwang (114) drive hollow tube (31) along the direction motion of second dwang (114), work as second dwang (114) with when arc (32) break away from the contact, second dwang (114) rotate nevertheless hollow tube (31) stop motion.

3. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 1, wherein: two rubber connecting plates (33) are symmetrically arranged on the upper half arc of the hollow tube (31), a gravity plate (34) is arranged between the two rubber connecting plates (33), a sliding rod (35) is arranged at the top of the gravity plate (34), the sliding rod (35) penetrates through the hollow tube (31), and one end, located on the outer side of the placing shell (1), of the sliding rod (35) is connected with a placing plate (36);

when the second rotating rod (114) moves to the upper half part of the hollow pipe (31), the second rotating rod (114) drives the gravity plate (34) to move upwards.

4. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 3, wherein: the outer peripheral face of slide bar (35) is equipped with first spring (37) in a cover way, the both ends of first spring (37) respectively with place board (36) and the outer peripheral face of slide bar (35) is fixed mutually.

5. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 4, wherein: a placing groove (411) is formed in the top of the placing block (4), a plurality of second guide rods (41) are fixed to the bottom of the interior of the placing groove (411), a contact rod (42) is sleeved on the outer peripheral surface of each second guide rod (41), and a second spring (43) is arranged between each contact rod (42) and each second guide rod (41);

a first iron sheet (44) is fixed at the bottom of the contact rod (42);

a second iron sheet (45) is sleeved on the outer peripheral surface of the second guide rod (41), and the second iron sheet (45) is fixed with the bottom of the inner wall of the placing groove (411);

first iron sheet (44), second iron sheet (45) and equal electric connection between display portion (6), just first iron sheet (44), second iron sheet (45) and display portion (6) driving lets annular closed circuit.

6. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 3, wherein: one end of the contact rod (42) positioned outside the placing groove (411) is pointed.

7. The solar device with the glass fiber reinforced plastic detection structure as claimed in claim 1, wherein: the other end of the rotating block (21) is provided with a baffle (23).

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