CN214959401U - Tower machine dolly video solar cell panel installing support structure - Google Patents

Abstract

The utility model discloses a solar cell panel mounting bracket structure for tower crane trolley video, which comprises a left angle steel, a right angle steel, a left supporting ear plate and a right supporting ear plate; the left angle steel and the right angle steel are respectively and fixedly arranged on the back of the solar cell panel; the left supporting lug plate and the right supporting lug plate are respectively fixed on a cross bar of a tower crane trolley guardrail through a group of fixed pipe buckles; the first threaded hole of the left angle steel is aligned with the first through hole of the left supporting lug plate and is sleeved with a bolt shaft, and the second threaded hole of the right angle steel is aligned with the second through hole of the right supporting lug plate and is sleeved with an adjusting handle. The utility model discloses a structure for install solar cell panel on tower machine dolly guardrail, realized that solar cell panel conveniently carries out arbitrary angular adjustment, simple structure, the installation cost is low, convenient to use.

Description

Tower machine dolly video solar cell panel installing support structure

Technical Field

The utility model belongs to the technical field of tower crane automation monitoring facilities, a tower crane dolly video solar cell panel installing support structure is related to.

Background

The tower crane (hereinafter referred to as tower crane) is an important hoisting and transporting device in the current construction site, and because of high-altitude operation and large hoisting operation range, a driver sometimes cannot see the working condition of material loading and unloading of the lifting hook clearly. In order to solve the visualization problem of the hoisting operation, a video camera is generally installed on a variable amplitude trolley of a tower crane, and the camera moves along with the trolley of the tower crane and is right opposite to a lower lifting hook to acquire images around the lifting hook in real time. In the visual solution, the video camera needs to be powered by a storage battery on the amplitude variation trolley, however, the charging of the storage battery on the trolley becomes a difficult problem because the tower crane trolley does amplitude variation motion. The charging of the storage battery on the tower crane moving trolley mainly comprises two solutions: one type of method is the traditional mechanical sliding contact type charging, the problem of poor charging contact is easy to occur in the method due to the vibration in the movement of the amplitude-variable trolley, and the tower crane needs to be shut down when the sliding contact type charging is adopted, so that the construction efficiency of a construction site is greatly influenced; considering that the tower crane is generally high and the shielding probability is relatively low, the other method is to charge the storage battery by adopting the solar panel, and the method does not need the tower crane to stop work during charging and does not have the problem of poor contact, so the method is widely popularized on the site.

Among the video solar charging scheme of tower machine dolly, the most important problem is solar cell panel's fixed, and the battery is installed on the tower machine dolly, and it is big to consider that solar cell panel area is installed outside the dolly easily by other cooperative work's tower machine collisions, has the risk that the high altitude dropped, in order to guarantee safety, can install solar cell panel on tower machine dolly guardrail. Solar cell panel converts solar energy into the electric energy, in order to guarantee solar cell panel's charge efficiency, need install solar cell panel expansion on tower machine dolly guardrail. However, the position of tower machine dolly guardrail is the workplace that tower machine maintainer maintained tower machine dolly luffing mechanism, and the slope fixed mounting of solar cell panel can influence maintainer's work on tower machine dolly guardrail, and consequently, the installation requirement of solar cell panel is convenient for adjust, and when maintainer work, can put down solar cell panel vertically, accomplishes the maintenance back, can expand solar cell panel again, has so both guaranteed solar cell panel's charge efficiency, does not influence maintenance work again.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a video solar cell panel installing support structure of tower machine dolly has solved the conflict problem of tower machine dolly video solar cell panel installation and maintainer's work.

The utility model adopts the technical scheme that the solar cell panel mounting bracket structure of the tower crane trolley video comprises a left angle steel, a right angle steel, a left supporting ear plate and a right supporting ear plate;

the transverse plate I of the left angle steel is fixedly arranged on one side of the back of the solar cell panel through one group of screws, and the transverse plate II of the right angle steel is fixedly arranged on the other side of the back of the solar cell panel through the other group of screws;

the transverse plate III of the left supporting lug plate is fixed on the transverse rod of the tower crane trolley guardrail through a group of fixed pipe buckles, and the transverse plate cross joint of the right supporting lug plate is also fixed on the transverse rod of the tower crane trolley guardrail through another group of fixed pipe buckles;

a first threaded hole is formed in a first vertical plate of the left angle steel, and a second threaded hole is formed in a second vertical plate of the right angle steel; a first through hole is formed in the third vertical plate of the left supporting lug plate, and a second through hole is formed in the fourth vertical plate of the right supporting lug plate; the first threaded hole of the left angle steel is aligned with the first through hole of the left supporting lug plate and is sleeved with a bolt shaft, and the second threaded hole of the right angle steel is aligned with the second through hole of the right supporting lug plate and is sleeved with an adjusting handle.

The utility model discloses a tower machine dolly video solar cell panel installing support structure, its characterized in that still lies in:

the structure of the adjusting handle is that the adjusting handle comprises a first threaded shaft serving as a main body, and a handle is transversely fixed at one end of the first threaded shaft.

The rubber gasket on the adjusting handle is arranged between the fourth vertical plate of the right supporting ear plate and the second vertical plate of the right angle steel.

The bolt shaft is structurally characterized in that the main body is divided into three sections, namely a bolt head, an optical axis and a threaded shaft II in sequence.

The fixed pipe buckle is provided with a matched bolt and a matched nut.

The beneficial effects of the utility model are that for install solar cell panel on tower machine dolly guardrail, realized that solar cell panel conveniently carries out arbitrary angular adjustment, simple structure, the installation cost is low, convenient to use.

Drawings

FIG. 1 is an assembly schematic diagram of the structure of the utility model on a guardrail of a tower crane trolley;

fig. 2 is a schematic structural diagram of the present invention;

FIG. 3 is a schematic structural view of an adjustment handle of the present invention;

fig. 4 is a schematic structural view of the bolt shaft in the present invention.

In the figure, 1, a solar panel; 2. a right support ear plate; 3. an adjusting handle; 4. a left angle iron; 5. a right angle steel; 6. a left support ear panel; 7. a bolt shaft; 8. a rubber gasket; 9. fixing the pipe buckle; 10. a screw; 11. a bolt; 12. a nut; 13. a cross bar; 14. a tower crane trolley guardrail 15 is provided with a first threaded hole; 16. a second threaded hole; 17. a first through hole; 18. a second through hole; 19. a first threaded shaft; 20. a handle; 21. a second threaded shaft; 22. an optical axis; 23. the bolt head.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, the utility model discloses the assembly schematic diagram of structure on tower machine dolly guardrail, solar cell panel 1 is fixed on horizontal pole 13 of tower machine dolly guardrail 14 through a pair of support otic placode (right branch support otic placode 2 and left branch support otic placode 6). Normally, the solar panel 1 is basically flattened and can receive the illumination of the sun; when a tower crane maintenance worker needs to enter the tower crane trolley guardrail 14 to maintain the trolley luffing structure, the maintenance worker firstly releases the fixed connection between the solar cell panel 1 and the pair of supporting ear plates through the adjusting handle 3, and then manually rotates the solar cell panel 1 until the solar cell panel 1 is vertical, so that the maintenance worker can conveniently work in the tower crane trolley guardrail 14; after maintenance is completed, a maintainer manually rotates the solar cell panel 1 to flatten the solar cell panel, as shown in fig. 2, the solar cell panel 1 is in a flattened state, and then the solar cell panel 1 and the pair of supporting ear plates are firmly fixed through the adjusting handle 3.

Referring to fig. 2, the structure of the utility model is that the solar cell comprises a left angle iron 4 and a right angle iron 5, a left supporting ear plate 6 and a right supporting ear plate 2, a first transverse plate of the left angle iron 4 is fixedly arranged at one side of the back of the solar cell panel 1 through a group of screws 10, and a second transverse plate of the right angle iron 5 is fixedly arranged at the other side of the back of the solar cell panel 1 through another group of screws 10; the transverse plate III of the left supporting lug plate 6 is fixed on a transverse rod 13 of a tower crane trolley guardrail 14 through one group of fixing pipe buckles 9, the transverse plate cross joint of the right supporting lug plate 2 is also fixed on the transverse rod 13 of the tower crane trolley guardrail 14 through the other group of fixing pipe buckles 9, and each fixing pipe buckle 9 is provided with two groups of matched bolts 11 and nuts 12 thereof to realize reliable connection; a first vertical plate of the left angle steel 4 is provided with a first threaded hole 15, and a second vertical plate of the right angle steel 5 is provided with a second threaded hole 16; a first through hole 17 is formed in the third vertical plate of the left supporting lug plate 6, and a second through hole 18 is formed in the fourth vertical plate of the right supporting lug plate 2; a threaded hole 15 of the left angle steel 4 is aligned with a through hole 17 of the left supporting lug plate 6 and is sleeved with a bolt shaft 7, a threaded hole two 16 of the right angle steel 5 is aligned with a through hole two 18 of the right supporting lug plate 2 and is sleeved with an adjusting handle 3, and a rubber gasket 8 on the adjusting handle 3 is arranged between a vertical plate four of the right supporting lug plate 2 and a vertical plate two of the right angle steel 5.

Referring to fig. 3, the adjustment handle 3 is constructed to include a first screw shaft 19 as a main body, and a grip 20 is transversely fixed to one end of the first screw shaft 19. During the assembly, screw shaft 19 passes through two 18 through-holes on the riser of right branch ear board 2 on four and twists in screw hole two 16 on the riser of right angle steel 5 on two, realizes that adjustment handle 3 carries out solar cell panel 1 and right branch ear board 2's connection and gesture fixed.

Referring to fig. 4, the bolt shaft 7 is structured such that the main body is divided into three sections, which are a bolt head 23, an optical axis 22, and a second threaded axis 21 in order. During assembly, the second threaded shaft 21 penetrates through the first through hole 17 in the left supporting lug plate 6 and is screwed into the first threaded hole 15 of the left angle steel 4, the optical axis 22 penetrates through the first through hole 17 in the left supporting lug plate 6, the bolt head 23 is tightly pressed on the outer edge of the first through hole 17 in the left supporting lug plate 6, the left angle steel 4 is hinged to the left supporting lug plate 6, and rotation of the solar cell panel 1 around the bolt shaft 7 is not influenced.

The utility model discloses an installation is: firstly, fixedly connecting a left angle iron 4 and a right angle iron 5 with a solar panel 1 through respective screw groups 10; then, the bolt shaft 7 penetrates through the first through hole 17 in the left supporting lug plate 6 from outside to inside, the second threaded shaft 21 of the bolt shaft 7 is sleeved with the first threaded hole 15 of the left angle steel 4, and the optical axis 22 of the bolt shaft 7 is supported in the first through hole 17 of the left supporting lug plate 6, so that the solar cell panel 1 on the side is connected with the bolt shaft 7, and at the moment, the solar cell panel 1 can freely rotate around the optical axis 22 of the bolt shaft 7; next, the adjusting handle 3 penetrates through the second through hole 18 and the rubber gasket 8 on the right supporting ear plate 2 from outside to inside, the handle 20 is grasped to rotate the adjusting handle 3, and when the first threaded shaft 19 of the adjusting handle 3 is sleeved with the second threaded hole 16 of the right angle steel 5, the right supporting ear plate 2 compresses the rubber gasket 8 and the second vertical plate of the right angle steel 5, so that the position fixing of the adjusting handle 3 and the solar cell panel 1 is realized; finally, the left supporting lug plate 6 and the right supporting lug plate 2 are respectively fixed on a cross bar 13 of a tower crane trolley guardrail 14 by using a fixed pipe buckle 9, a bolt 11 and a nut 12. Since the rubber washer 8 is axially compressed between the right support lug 2 and the right angle iron 5, the friction of the rubber washer 8 prevents the solar cell panel 1 from rotating around the first threaded shaft 19.

The utility model discloses an attitude control process is: a tower crane maintenance worker holds the solar cell panel 1 with the left hand to prevent the solar cell panel 1 from rotating, and rotates the handle 20 with the right hand to unscrew the threaded connection between the adjusting handle 3 and the right angle steel 5, so that the solar cell panel 1 slightly displaces leftwards relative to the right supporting ear plate 2, the rubber gasket 8 is not compressed, the friction force disappears, and the solar cell panel 1 can easily rotate at any angle; then, the maintenance personnel rotate the solar cell panel 1 to a vertical state without influencing the operation of the personnel in the tower crane trolley guardrail 14; after the maintenance work is completed, the maintenance personnel rotate the solar cell panel 1 to be close to the flattening gesture again, still hold the solar cell panel 1 with the left hand, prevent the solar cell panel 1 from rotating, the right hand rotates the handle 20 of the adjusting handle 3, at the moment, the solar cell panel 1 has small displacement to the right relative to the right supporting ear plate 2, the rubber gasket 8 is compressed again, the friction force is increased, the solar cell panel 1 is fixed and cannot rotate, and the maintenance personnel leave the tower crane trolley guardrail 14, namely the solar cell panel is formed.

Claims (5)

1. The utility model provides a video solar cell panel installing support structure of tower machine dolly which characterized in that: comprises a left angle steel (4), a right angle steel (5), a left supporting ear plate (6) and a right supporting ear plate (2);

the transverse plate I of the left angle steel (4) is fixedly arranged on one side of the back face of the solar cell panel (1) through one group of screws (10), and the transverse plate II of the right angle steel (5) is fixedly arranged on the other side of the back face of the solar cell panel (1) through the other group of screws (10);

the transverse plate III of the left supporting lug plate (6) is fixed on a transverse rod (13) of a tower crane trolley guardrail (14) through one group of fixed pipe buckles (9), and the transverse plate IV of the right supporting lug plate (2) is also fixed on the transverse rod (13) of the tower crane trolley guardrail (14) through the other group of fixed pipe buckles (9);

a first threaded hole (15) is formed in a first vertical plate of the left angle steel (4), and a second threaded hole (16) is formed in a second vertical plate of the right angle steel (5); a first through hole (17) is formed in the third vertical plate of the left supporting lug plate (6), and a second through hole (18) is formed in the fourth vertical plate of the right supporting lug plate (2); a first threaded hole (15) of the left angle steel (4) is aligned with a first through hole (17) of the left supporting lug plate (6) and is sleeved with a bolt shaft (7), and a second threaded hole (16) of the right angle steel (5) is aligned with a second through hole (18) of the right supporting lug plate (2) and is sleeved with an adjusting handle (3).

2. The tower crane trolley video solar panel mounting bracket structure as claimed in claim 1, wherein: the adjusting handle (3) is structurally characterized by comprising a first threaded shaft (19) serving as a main body, and a handle (20) is transversely fixed at one end of the first threaded shaft (19).

3. The tower crane trolley video solar panel mounting bracket structure as claimed in claim 2, wherein: the rubber gasket (8) on the adjusting handle (3) is arranged between the fourth vertical plate of the right supporting ear plate (2) and the second vertical plate of the right angle steel (5).

4. The tower crane trolley video solar panel mounting bracket structure as claimed in claim 1, wherein: the bolt shaft (7) is structurally characterized in that the main body is divided into three sections, namely a bolt head (23), an optical axis (22) and a threaded shaft II (21) in sequence.

5. The tower crane trolley video solar panel mounting bracket structure as claimed in claim 1, wherein: the fixed pipe buckle (9) is provided with a matched bolt (11) and a matched nut (12).

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