CN215325633U - Photovoltaic glass adsorption and carrying equipment with high use stability - Google Patents
Photovoltaic glass adsorption and carrying equipment with high use stability Download PDFInfo
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- CN215325633U CN215325633U CN202121510170.6U CN202121510170U CN215325633U CN 215325633 U CN215325633 U CN 215325633U CN 202121510170 U CN202121510170 U CN 202121510170U CN 215325633 U CN215325633 U CN 215325633U
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- photovoltaic glass
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- use stability
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Abstract
The utility model provides photovoltaic glass adsorption and transportation equipment with high use stability, which comprises a movable transportation frame, wherein the bottom end of the movable transportation frame is rotatably connected with four groups of movable wheels, side baffles are arranged on two sides of the movable transportation frame, a U-shaped notch used for limiting a connecting sleeve is formed in each side baffle, a connecting sleeve is arranged on each U-shaped notch, the connecting sleeves are positioned on two sides of a connecting block, a miniature sucking disc used for adsorbing and fixing photovoltaic glass is connected to the lower side of the connecting block, the miniature sucking disc is positioned above a cushion rubber pad, and the cushion rubber pad is arranged on the surface of the movable transportation frame. The utility model realizes the stable placement of the photovoltaic glass, and carries the photovoltaic glass by the movable wheels, thereby improving the stability during carrying, reducing the probability of damage, and improving the support stability and the limiting stability of the photovoltaic glass.
Description
Technical Field
The utility model relates to the technical field of photovoltaic glass carrying, in particular to photovoltaic glass adsorption carrying equipment with high use stability.
Background
Photovoltaic glass, also called TCO glass, is one of solar cell modules, and is a module which can be used for solar cells and is formed by uniformly plating a layer of transparent conductive oxide film on glass by a physical or chemical plating method.
The photovoltaic glass who has used generally is held by personnel to photovoltaic glass's both sides when carrying, and then carries photovoltaic glass, has increaseed personnel's work load, because some photovoltaic glass are bulky moreover, and weight is heavier, easily causes personnel to take off hand in handling, and then has caused photovoltaic glass's damage, and transport stability is low.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a photovoltaic glass adsorption carrying device with high use stability, which overcomes the problems or at least partially solves the problems so as to solve the problem of low carrying stability of the existing photovoltaic glass.
In order to achieve the purpose, the technical scheme of the utility model is realized as follows:
the utility model provides photovoltaic glass adsorption and transportation equipment with high use stability, which comprises a movable transportation frame, wherein the bottom end of the movable transportation frame is rotatably connected with four groups of movable wheels, side baffles are arranged on two sides of the movable transportation frame, a U-shaped notch used for limiting a connecting sleeve is formed in each side baffle, a connecting sleeve is arranged on each U-shaped notch, the connecting sleeves are positioned on two sides of a connecting block, a miniature sucking disc used for adsorbing and fixing photovoltaic glass is connected to the lower side of the connecting block, the miniature sucking disc is positioned above a cushion rubber pad, and the cushion rubber pad is arranged on the surface of the movable transportation frame.
As a further scheme of the utility model, a lifting cylinder is fixedly connected to the lower side surface of the movable carrying frame, a hydraulic rod at the top end of the lifting cylinder penetrates through the movable carrying frame and is fixedly connected with the bottom end of the supporting plate, the top end of the supporting plate is fixedly bonded with the bottom surface of the cushion rubber pad, the supporting plate and the cushion rubber pad are conveniently driven to move up and down through the operation of the lifting cylinder, and the purpose of adjusting the height is achieved.
As a further scheme of the utility model, guide slot holes are formed in the left side and the right side of the movable carrying frame, guide rods are slidably connected inside the guide slot holes, the outer end surfaces of the guide rods are fixedly connected with the inner end surfaces of the side baffles, and the guide rods move along the guide slot holes, so that the movement of the side baffles is guided.
As a further aspect of the present invention, the top end of the movable carrying frame is connected to an adjusting bolt through a thread, the bottom surface of the adjusting bolt is in contact with the plane of the top end of the guide rod, and the top end of the guide rod is conveniently fixed by the rotation and movement of the adjusting bolt.
As a further scheme of the utility model, two threaded rods are fixedly sleeved on the connecting block, the connecting sleeve is respectively sleeved on the left part and the right part of the threaded rod and is meshed with the threaded rod through threads, a handle is fixedly connected to the outer side of the connecting sleeve, the handle is held to facilitate carrying of the adsorbed and fixed photovoltaic glass, and the photovoltaic glass is conveniently carried and limited through movement of the connecting sleeve, so that the stability is high.
As a further scheme of the utility model, the top end of the connecting block is fixedly connected with a handle frame, and the miniature sucking disc and the photovoltaic glass which is fixedly adsorbed can be conveniently carried by holding the handle frame.
As a further scheme of the utility model, four corners of the lower side of the connecting block are provided with grooves, positioning shafts are arranged in the grooves and are fixedly inserted into the movable plate, the movable plate is positioned on the lower side of the connecting block, more than two miniature suckers are fixedly connected to the lower side of the movable plate, the outer side of the connecting block is meshed with four locking bolts through threads, the inner sides of the four locking bolts are respectively contacted with the four positioning shafts, the movable plate rotates around the central axis of the positioning shafts, the positions of the miniature suckers are convenient to adjust, and the positioning shafts are convenient to prop up and fix through the rotation of the locking bolts.
As a further scheme of the utility model, the annular side surface of the positioning shaft is provided with an annular groove, the locking bolt extends into the annular groove, and the locking bolt extends into the annular groove, so that the positioning shaft is limited, and the movable plate is prevented from falling off.
The utility model provides photovoltaic glass adsorption carrying equipment with high use stability, which has the beneficial effects that: through setting up rubber buffer pad, miniature sucking disc, removing wheel, side shield, adapter sleeve and handle, realized steadily placing photovoltaic glass to carry photovoltaic glass through removing the wheel, improved the stability when carrying, reduced the probability of damage, also improved the support steadiness and the spacing stability to photovoltaic glass moreover, also conveniently carry out manual transport simultaneously, easy operation, transport stability is high.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a schematic partial cross-sectional structure diagram according to an embodiment of the utility model.
FIG. 3 is a schematic structural diagram of a side dam in an embodiment of the present invention.
FIG. 4 is a schematic view of a connection structure of a micro-chuck according to an embodiment of the present invention.
FIG. 5 is a schematic view of a connection structure of a threaded pipe and a connection sleeve according to an embodiment of the present invention.
In the figure: 1. moving the carrying frame; 2. a support plate; 3. a cushion rubber pad; 4. a movable plate; 5. connecting blocks; 6. a threaded rod; 7. connecting a sleeve; 8. a side dam; 9. a lifting cylinder; 10. a guide bar; 11. a moving wheel; 12. adjusting the bolt; 13. a guide slot hole; 14. a micro-sucker; 15. locking the bolt; 41. positioning the shaft; 51. a handle frame; 71. A handle; 81. a U-shaped notch.
Detailed Description
Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
Referring to fig. 1-4, the photovoltaic glass adsorption handling equipment with high use stability provided by the embodiment of the utility model comprises a movable handling frame 1, four groups of movable wheels 11 are rotatably connected to the bottom end of the movable handling frame 1, side baffles 8 are arranged on two sides of the movable handling frame 1, a U-shaped notch 81 for limiting a connecting sleeve 7 is formed in each side baffle 8, the connecting sleeve 7 is arranged on each U-shaped notch 81, the connecting sleeves 7 are located on two sides of a connecting block 5, a miniature suction cup 14 for adsorbing and fixing photovoltaic glass is connected to the lower side of the connecting block 5, the miniature suction cup 14 is located above a cushion rubber pad 3, and the cushion rubber pad 3 is arranged on the surface of the movable handling frame 1.
The lower side surface of the movable carrying frame 1 is fixedly connected with a lifting cylinder 9, a hydraulic rod at the top end of the lifting cylinder 9 penetrates through the movable carrying frame 1 and is fixedly connected with the bottom end of the supporting plate 2, and the top end of the supporting plate 2 is fixedly bonded with the bottom surface of the cushion rubber pad 3.
In the use process of the utility model, the micro sucker 14 is adsorbed and fixed on the surface of the photovoltaic glass, the photovoltaic glass is adsorbed and fixed through the micro sucker 14, then the handle frame 51 is held, and then the photovoltaic glass is lifted through the connecting sleeve 7, the threaded rod 6 and the micro sucker 14, so that the photovoltaic glass is conveniently lifted and carried, then the connecting sleeve 7 is placed into the U-shaped notch 81 on the side baffle plate 8, the photovoltaic glass is limited through the U-shaped notch 81 and the connecting sleeve 7, the photovoltaic glass is prevented from shaking, meanwhile, the connecting sleeve 7 moves downwards along the U-shaped notch 81, the photovoltaic glass is synchronously driven to move downwards and contact with the surface of the cushion rubber pad 3, the photovoltaic glass is buffered and damped through the cushion rubber pad 3 and the micro sucker 14, and the stability of placing the photovoltaic glass is improved, move the removal transport frame 1 through removing wheel 11 afterwards, and then drive photovoltaic glass and remove, improved the stability to photovoltaic glass transport, easy operation, transport effect is good.
As shown in fig. 1 to 5, the left side and the right side of the mobile carrier 1 are both provided with guide slots 13, the guide slots 13 are slidably connected with guide rods 10, and the outer end surfaces of the guide rods 10 are fixedly connected with the inner end surfaces of the side dams 8.
The top end of the movable carrying frame 1 is connected with an adjusting bolt 12 through threads, and the bottom surface of the adjusting bolt 12 is contacted with the plane of the top end of the guide rod 10.
The connecting block 5 is fixedly sleeved with two threaded rods 6, the connecting sleeve 7 is respectively sleeved on the left part and the right part of the threaded rod 6, the connecting sleeve 7 is meshed with the threaded rods 6 through threads, and the outer side of the connecting sleeve 7 is fixedly connected with a handle 71.
The top end of the connecting block 5 is fixedly connected with a handle frame 51.
In the use process of the utility model, the handle frame 51 is held to conveniently drive the connecting block 5 to move, so that the movable plate 4 and the miniature sucker 14 move, the photovoltaic glass is synchronously driven to move, the connecting sleeve 7 is rotated to conveniently move the connecting sleeve 7 leftwards and rightwards along the threaded rod 6 under the action of threads, the length between the threaded rod 6 and the connecting sleeve 7 is adjusted, the photovoltaic glass with different sizes is conveniently carried, the stress is conveniently adjusted, the carrying workload of personnel is reduced, the guide rod 10 is moved outwards along the guide slotted hole 13, the side baffle 8 is synchronously driven to move outwards, the movement of the side baffle 8 is also conveniently guided, the adjusting bolt 12 is rotated and moved downwards, so that the guide rod 10 is tightly pressed and fixed, thereby the position of offside baffle 8 is adjusted, then in arranging connecting sleeve 7 in U type breach 81 on the side shield 8, realized carrying out accordant connection with U type breach 81 on connecting sleeve 7 and the side shield 8, and then spacing photovoltaic glass is carried out through side shield 8, improved the stability that photovoltaic glass placed, also realized stably placing and carrying photovoltaic glass to different specifications in addition, easy operation, application scope is wide.
As shown in fig. 4, the four corners of the lower side of the connecting block 5 are provided with grooves, the positioning shafts 41 are arranged in the grooves, the positioning shafts 41 are inserted and fixed on the movable plate 4, the movable plate 4 is located at the lower side of the connecting block 5, the lower side of the movable plate 4 is fixedly connected with more than two micro suction cups 14, the outer side of the connecting block 5 is meshed and connected with the four locking bolts 15 through threads, and the inner sides of the four locking bolts 15 are respectively contacted with the four positioning shafts 41.
The annular side surface of the positioning shaft 41 is provided with an annular groove, and the inside of the locking bolt 15 extends into the annular groove.
In the use process of the utility model, the locking bolt 15 is rotated, so that the locking bolt 15 rotates and moves under the action of threads, the movable plate 4 is held and rotates around the positioning shaft 41, the miniature sucker 14 is driven to rotate, and then the locking bolt 15 contacts the positioning shaft 41 when moving inwards, so that the positioning shaft 41 is tightly pressed and fixed, the miniature sucker 14 is fixed, the position of the miniature sucker 14 is adjusted, and the locking bolt 15 is separated from the positioning shaft 41 when moving outwards, so that the positioning shaft 41 is conveniently taken out of a groove on the connecting block 5, and the aim of conveniently disassembling and assembling the positioning shaft 41 is fulfilled.
The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.
Claims (8)
1. The photovoltaic glass adsorption and carrying equipment with high use stability is characterized by comprising a movable carrying frame (1), wherein four groups of movable wheels (11) are rotatably connected to the bottom end of the movable carrying frame (1), side baffles (8) are arranged on two sides of the movable carrying frame (1), a U-shaped notch (81) used for limiting a connecting sleeve (7) is formed in each side baffle (8), the connecting sleeve (7) is arranged on each U-shaped notch (81), the connecting sleeve (7) is located on two sides of a connecting block (5), a miniature sucker (14) used for adsorbing and fixing photovoltaic glass is connected to the lower side of the connecting block (5), the miniature sucker (14) is located above a cushion rubber pad (3), and the cushion rubber pad (3) is arranged on the surface of the movable carrying frame (1).
2. The photovoltaic glass adsorption and transportation equipment with high use stability as claimed in claim 1, wherein a lifting cylinder (9) is fixedly connected to the lower side surface of the movable transportation frame (1), a hydraulic rod at the top end of the lifting cylinder (9) penetrates through the movable transportation frame (1) and is fixedly connected with the bottom end of the supporting plate (2), and the top end of the supporting plate (2) is fixedly bonded with the bottom surface of the cushion rubber pad (3).
3. The photovoltaic glass adsorption and handling equipment with high use stability as claimed in claim 2, wherein the left side and the right side of the movable handling frame (1) are both provided with guide slot holes (13), the guide slot holes (13) are internally and slidably connected with guide rods (10), and the outer end faces of the guide rods (10) are fixedly connected with the inner end faces of the side baffles (8).
4. The photovoltaic glass adsorption and transportation equipment with high use stability according to claim 3, wherein the top end of the movable transportation frame (1) is connected with an adjusting bolt (12) through a thread, and the bottom surface of the adjusting bolt (12) is in contact with the plane of the top end of the guide rod (10).
5. The photovoltaic glass adsorption and transportation equipment with high use stability as claimed in claim 1, wherein two threaded rods (6) are fixedly sleeved on the connection block (5), the connection sleeves (7) are respectively sleeved on the left portion and the right portion of the threaded rods (6), the connection sleeves (7) are meshed and connected with the threaded rods (6) through threads, and handles (71) are fixedly connected to the outer sides of the connection sleeves (7).
6. The photovoltaic glass adsorption and transportation equipment with high use stability as claimed in claim 5, wherein a handle frame (51) is fixedly connected to the top end of the connecting block (5).
7. The photovoltaic glass adsorption and carrying equipment with high use stability as claimed in claim 5, wherein four corners of the lower side of the connecting block (5) are provided with grooves, positioning shafts (41) are arranged in the grooves, the positioning shafts (41) are fixedly connected to the movable plate (4) in an inserted manner, the movable plate (4) is located on the lower side of the connecting block (5), more than two micro suckers (14) are fixedly connected to the lower side of the movable plate (4), the outer side of the connecting block (5) is meshed with four locking bolts (15) through threads, and the inner sides of the locking bolts (15) are respectively in contact with the four positioning shafts (41).
8. The photovoltaic glass adsorption and handling equipment with high use stability as claimed in claim 7, wherein an annular groove is formed in the annular side surface of the positioning shaft (41), and the inside of the locking bolt (15) extends into the annular groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121510170.6U CN215325633U (en) | 2021-07-05 | 2021-07-05 | Photovoltaic glass adsorption and carrying equipment with high use stability |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121510170.6U CN215325633U (en) | 2021-07-05 | 2021-07-05 | Photovoltaic glass adsorption and carrying equipment with high use stability |
Publications (1)
Publication Number | Publication Date |
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CN215325633U true CN215325633U (en) | 2021-12-28 |
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CN202121510170.6U Active CN215325633U (en) | 2021-07-05 | 2021-07-05 | Photovoltaic glass adsorption and carrying equipment with high use stability |
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CN (1) | CN215325633U (en) |
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2021
- 2021-07-05 CN CN202121510170.6U patent/CN215325633U/en active Active
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