CN220283340U - Steel pipe galvanization hoisting frame - Google Patents
Steel pipe galvanization hoisting frame Download PDFInfo
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- CN220283340U CN220283340U CN202321875755.7U CN202321875755U CN220283340U CN 220283340 U CN220283340 U CN 220283340U CN 202321875755 U CN202321875755 U CN 202321875755U CN 220283340 U CN220283340 U CN 220283340U
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 64
- 239000010959 steel Substances 0.000 title claims abstract description 64
- 229910001335 Galvanized steel Inorganic materials 0.000 claims abstract description 11
- 239000008397 galvanized steel Substances 0.000 claims abstract description 11
- 238000003780 insertion Methods 0.000 claims description 8
- 230000037431 insertion Effects 0.000 claims description 8
- 230000000694 effects Effects 0.000 abstract description 8
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 12
- 230000006872 improvement Effects 0.000 description 9
- 230000005540 biological transmission Effects 0.000 description 7
- 238000009713 electroplating Methods 0.000 description 6
- 229910052742 iron Inorganic materials 0.000 description 6
- 239000000463 material Substances 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 238000005452 bending Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000000149 penetrating effect Effects 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 238000005096 rolling process Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 238000005246 galvanizing Methods 0.000 description 1
- JEIPFZHSYJVQDO-UHFFFAOYSA-N iron(III) oxide Inorganic materials O=[Fe]O[Fe]=O JEIPFZHSYJVQDO-UHFFFAOYSA-N 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
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Abstract
The utility model discloses a steel tube galvanized hoisting frame, wherein a hanging lug is fixedly connected to the center of a push rod of a vertical rectangular frame body, a plurality of layers of horizontal placing frames are respectively and fixedly connected from top to bottom in the vertical rectangular frame body, each horizontal placing frame is formed by sequentially connecting a plurality of continuous inverted V-shaped frames, two ends of each inverted V-shaped frame are fixed with corresponding ends of adjacent inverted V-shaped frames or with side vertical rods on corresponding sides of the vertical rectangular frame body, a first placing groove is formed between adjacent side rods of two adjacent inverted V-shaped frames, and a second placing groove is formed between each side vertical rod of the vertical rectangular frame body and each adjacent side rod of the adjacent inverted V-shaped frame. According to the structure, the galvanized steel pipe lifting frame disclosed by the utility model not only can enable the steel pipe to be effectively and stably placed in the corresponding placing groove and the contact area between the steel pipe and the galvanized steel pipe to be minimum, thereby ensuring the galvanization effect of the steel pipe, but also improving the strength of the horizontal placing frame.
Description
Technical Field
The utility model relates to the technical field of steel pipe galvanization production and processing, in particular to a steel pipe galvanization hoisting frame.
Background
The electric steel pipe tower is a lattice tower composed of steel pipes for main components and steel pipes or section steel for other components. The electric power steel pipe tower structure has relative technical and economic advantages, and is suitable for being applied to the power transmission towers bearing large loads.
The rod piece of the electric power steel pipe tower has the advantages of small bearing wind pressure, large bending rigidity of the section, simple structure and clear force transmission, and can fully exert the bearing performance of the material, so that on one hand, the weight of the iron tower can be reduced, and the basic acting force can be reduced; on the other hand, the method is beneficial to enhancing the capability of resisting natural disasters under extreme conditions. Under the condition of meeting the calculation requirements of strength and stability, the wind load effect of the tower body can be obviously reduced by adopting the steel pipe tower with relatively smaller wind pressure type coefficient.
The steel pipe member has symmetrical cross section center and isotropic cross section characteristics; the material is uniformly distributed on the periphery, and the bending rigidity of the section is high. For the bending component of the transmission tower, the mechanical property of the material can be fully and uniformly exerted by adopting the steel pipe with smaller sectional area and larger turning radius, the requirements of structural rigidity and stability are met, and the advantages of good stability of the steel pipe tower rod piece are obvious especially for the large-load tower with larger structural geometric dimension and longer rod piece.
Because the power transmission iron tower is used in outdoor construction, the iron tower needs to withstand severe weather environments such as rain and snow, and the maintenance frequency of the power transmission iron tower is relatively low, and therefore the iron tower needs to be subjected to rust prevention treatment. In the current practical production, the effective low-cost rust-proof treatment mode for the power transmission iron tower is to galvanize the surface of the material.
Because the steel pipe is used as a building unit of the power steel pipe tower, the demand on the steel pipe is very large, and galvanization is a relatively time-consuming process, a generally used electroplating mode is hanging galvanization, a workpiece to be galvanized is immersed into a galvanization pool for galvanization after being hung by a lifting appliance, and each galvanization requires about half an hour, so that the galvanization procedure becomes a production bottleneck for limiting the steel pipe used by the power transmission tower.
A hoisting frame capable of improving the number of single electroplating is needed by those skilled in the art, and the electroplating efficiency is improved while the electroplating effect of the surface of the steel pipe is ensured. The particularity of the arc structure on the surface of the steel pipe leads to easy rolling when the steel pipe is placed, and the rolling steel pipe can influence the electroplating effect, so that the stable placement of the steel pipe is required to be ensured in the electroplating process.
Disclosure of Invention
The utility model aims at: the utility model provides a overcome prior art's not enough, provides a steel pipe galvanization hoist and mount frame, connects gradually the horizontal rack that constitutes through a plurality of continuous "V" type framves to not only can make the steel pipe effectively stably place in corresponding standing groove, and minimum with the area of contact of steel pipe, thereby guaranteed the galvanization effect of steel pipe, but also improved the intensity of horizontal rack.
The technical scheme adopted by the utility model is as follows:
the utility model provides a steel pipe galvanized hoisting frame, includes vertical rectangle support body, the ejector pin center fixedly connected with hangers of vertical rectangle support body, from top to bottom fixedly connected with multilayer horizontal rack in the vertical rectangle support body respectively, horizontal rack comprises a plurality of continuous falling "V" type framves that connect gradually, the both ends of falling "V" type frame are fixed or are fixed with the side standing bar of the corresponding side of vertical rectangle support body with the corresponding tip of adjacent falling "V" type frame, form first standing groove between the adjacent side lever of two adjacent falling "V" type framves, form the second standing groove between the side pole setting of vertical rectangle support body and the adjacent side lever of adjacent falling "V" type frame.
According to the utility model, the inverted V-shaped frame comprises an inverted V-shaped frame A and an inverted V-shaped frame B, the length of a side frame A of the inverted V-shaped frame A is larger than that of a side frame B of the inverted V-shaped frame B, the included angle between the side frames A of the inverted V-shaped frame A is equal to that between the side frames B of the inverted V-shaped frame B, and a horizontal placing frame formed by the inverted V-shaped frame A and a horizontal placing frame formed by the inverted V-shaped frame B are arranged at intervals.
According to a further improvement scheme, a first placing groove A is formed between adjacent side frames A of two adjacent inverted V-shaped frames A, and a second placing groove A is formed between a side upright rod of the vertical rectangular frame body and the adjacent side frame A of the adjacent inverted V-shaped frame A.
According to a further improvement scheme, a first placing groove B is formed between adjacent side frames B of two adjacent inverted V-shaped frames B, and a second placing groove B is formed between a side upright rod of the vertical rectangular frame body and the adjacent side frame B of the adjacent inverted V-shaped frame B.
According to a further improvement scheme of the utility model, inclined rods A are symmetrically arranged below the side frames A of the inverted V-shaped frame A respectively, the inclined rods A incline towards the central axis direction of the inverted V-shaped frame A along the direction from top to bottom, and a third placing groove A is formed between the inclined rods A and the side frames A of the inverted V-shaped frame A.
According to a further improvement scheme of the utility model, inclined rods B are symmetrically arranged below the side frames B of the inverted V-shaped frame B respectively, the inclined rods B incline towards the central axis direction of the inverted V-shaped frame B along the direction from top to bottom, and a third placing groove B is formed between the inclined rods B and the side frames B of the inverted V-shaped frame B.
According to the utility model, the distance between the inclined rod A and the top end of the inverted V-shaped frame A is equal to the distance between the inclined rod B and the top end of the inverted V-shaped frame B, the included angle between the inclined rod A and the corresponding side frame A of the connected inverted V-shaped frame A is equal to the included angle between the inclined rod B and the corresponding side frame B of the connected inverted V-shaped frame B, and the length of the inclined rod A is equal to the length of the inclined rod B.
According to a further improvement scheme, the inclined rod B is fixed with the bottom end of the side frame B of the inverted V-shaped frame B.
According to a further improvement scheme, the bottom end of the inclined rod A is flush with the bottom end of the side frame A of the inverted V-shaped frame A.
According to the utility model, when the horizontal rack at the lowest part in the vertical rectangular rack body is an inverted V-shaped rack A, the bottom ends of the inclined rods A of the inverted V-shaped rack A and the bottom ends of the side frames A of the inverted V-shaped rack A are fixedly connected with the bottom rods of the vertical rectangular rack body.
According to the utility model, when the horizontal rack at the lowest part in the vertical rectangular rack body is an inverted V-shaped rack B, the bottom ends of the inclined rods B of the inverted V-shaped rack B are fixed with the bottom rods of the vertical rectangular rack body.
According to the utility model, an inverted V-shaped frame C is detachably and fixedly connected in a first placing groove A between two adjacent inverted V-shaped frames A, the side frames C of the inverted V-shaped frames C are respectively and correspondingly detachably fixed with the side frames A of the adjacent inverted V-shaped frames A, and the first placing groove A is separated into a fourth placing groove A positioned below the inverted V-shaped frames C and fifth placing grooves A positioned on two sides of the inverted V-shaped frames C through the inverted V-shaped frames C.
According to a further improvement scheme, the end parts of the side frames C of the inverted V-shaped frames C are respectively inserted and fixed into corresponding insertion holes of the side frames A of the inverted V-shaped frames A.
According to a further improvement scheme, the insertion holes are parallel to side vertical rods of the vertical rectangular frame body, and inserted rods matched with the insertion holes are respectively arranged at the bottom ends of the side frames C of the inverted V-shaped frame C.
The utility model is further improved in that the top end of the inverted V-shaped frame C is flush with the top end of the connected inverted V-shaped frame A.
According to the utility model, the top ends of the inverted V-shaped frames A, B and C are rounded.
According to the utility model, the vertical rectangular frame body, the inverted V-shaped frame A, the inverted V-shaped frame B, the inverted V-shaped frame C, the inclined rod A and the inclined rod B are all made of screw steel.
The utility model has the beneficial effects that:
according to the galvanized hanging rack for the steel pipes, disclosed by the utility model, the plurality of continuous inverted V-shaped racks are sequentially connected to form the horizontal rack, so that the steel pipes can be effectively and stably placed in the corresponding placing grooves, the contact area between the steel pipes and the steel pipes is minimum, the galvanized effect of the steel pipes is ensured, and the strength of the horizontal rack is also improved.
The second, the galvanized hanging rack for the steel pipes is suitable for the galvanizing of different steel pipes through the inverted V-shaped rack A and the inverted V-shaped rack B with different sizes, and improves the applicability of the galvanized hanging rack.
Thirdly, the galvanized hanging rack for the steel pipes further increases more placing grooves for the steel pipes through the action of the inclined rods A and the inclined rods B, so that the utilization rate of the galvanized hanging rack for the steel pipes is improved, and the single galvanization efficiency is improved.
Fourth, the galvanized hanging rack for the steel pipes can be arranged according to the galvanized requirements of the steel pipes with different sizes and different numbers through the effect of the inverted V-shaped rack C, and the applicability of the galvanized hanging rack is further improved.
Fifth, the connecting structure of the inverted V-shaped frame C and the inverted V-shaped frame A of the galvanized steel pipe lifting frame can facilitate the disassembly and assembly of the inverted V-shaped frame C, and facilitate the improvement of the transformation efficiency of the galvanized steel pipe lifting frame according to different use requirements.
Sixth, the steel pipe galvanized hoisting frame of the utility model, the vertical rectangular frame body, the inverted V-shaped frame A, the inverted V-shaped frame B, the inverted V-shaped frame C, the inclined rod A and the inclined rod B are all made of screw thread steel, and the steel pipe is contacted with the screw thread steel through the screw thread on the surface of the screw thread steel, so that the contact area between the steel pipe and the hoisting frame is reduced to the maximum extent, and the galvanization effect on the surface of the steel pipe is effectively ensured.
Drawings
Fig. 1 is a schematic front view of the present utility model.
Detailed Description
As can be seen from fig. 1, the galvanized steel pipe lifting frame comprises a vertical rectangular frame body 1, a hanging lug 2 is fixedly connected to the center of a push rod of the vertical rectangular frame body 1, a plurality of layers of horizontal racks are fixedly connected from top to bottom in the vertical rectangular frame body 1, each horizontal rack is formed by sequentially connecting a plurality of continuous inverted-V-shaped frames, two ends of each inverted-V-shaped frame are fixed with corresponding ends of adjacent inverted-V-shaped frames or with side vertical rods on corresponding sides of the vertical rectangular frame body 1, a first placing groove is formed between adjacent side rods of two adjacent inverted-V-shaped frames, and a second placing groove is formed between each side vertical rod of the vertical rectangular frame body 1 and each adjacent side rod of the adjacent inverted-V-shaped frame.
The inverted V-shaped frame comprises an inverted V-shaped frame A3 and an inverted V-shaped frame B4, the length of a side frame A of the inverted V-shaped frame A3 is larger than that of a side frame B of the inverted V-shaped frame B4, the included angle between the side frames A of the inverted V-shaped frame A3 and the included angle between the side frames B of the inverted V-shaped frame B4 are equal, and a horizontal placing frame formed by the inverted V-shaped frame A3 and a horizontal placing frame formed by the inverted V-shaped frame B4 are arranged at intervals.
A first placing groove A7 is formed between the adjacent side frames A of two adjacent inverted V-shaped frames A3, and a second placing groove A8 is formed between the side vertical rods of the vertical rectangular frame body 1 and the adjacent side frames A of the adjacent inverted V-shaped frames A3.
A first placing groove B9 is formed between the adjacent side frames B of the two adjacent inverted V-shaped frames B4, and a second placing groove B10 is formed between the side vertical rods of the vertical rectangular frame body 1 and the adjacent side frames B of the adjacent inverted V-shaped frames B4.
The lower parts of the side frames A of the inverted V-shaped frame A3 are symmetrically provided with inclined rods A5 respectively, the inclined rods A5 incline towards the central axis direction of the inverted V-shaped frame A3 along the direction from top to bottom, and a third placing groove A11 is formed between the inclined rods A5 and the side frames A of the inverted V-shaped frame A3.
And inclined rods B6 are symmetrically arranged below the side frames B of the inverted V-shaped frame B4 respectively, the inclined rods B6 incline towards the central axis direction of the inverted V-shaped frame B4 along the direction from top to bottom, and a third placing groove B12 is formed between the inclined rods B6 and the side frames B of the inverted V-shaped frame B4.
The distance between the inclined rod A5 and the top end of the inverted V-shaped frame A3 is equal to the distance between the inclined rod B6 and the top end of the inverted V-shaped frame B4, the included angle between the inclined rod A5 and the corresponding side frame A of the connected inverted V-shaped frame A3 is equal to the included angle between the inclined rod B6 and the corresponding side frame B of the connected inverted V-shaped frame B4, and the length of the inclined rod A5 is equal to the length of the inclined rod B6.
And the inclined rod B6 is fixed with the bottom end of the side frame B of the inverted V-shaped frame B4.
The bottom end of the inclined rod A5 is flush with the bottom end of the side frame A of the inverted V-shaped frame A3.
When the horizontal shelf at the lowest position in the vertical rectangular frame body 1 is an inverted V-shaped frame A3, the bottom end of the inclined rod A5 of the inverted V-shaped frame A3 and the bottom end of the side frame A of the inverted V-shaped frame A3 are fixedly connected with the bottom rod of the vertical rectangular frame body 1.
When the horizontal shelf at the lowest position in the vertical rectangular shelf body 1 is an inverted V-shaped shelf B4, the bottom ends of the inclined rods B6 of the inverted V-shaped shelf B4 are fixed with the bottom rods of the vertical rectangular shelf body 1.
The first placing grooves A7 between two adjacent inverted V-shaped frames A3 are also detachably and fixedly connected with inverted V-shaped frames C13, the side frames C of the inverted V-shaped frames C13 are respectively corresponding to the side frames A of the adjacent inverted V-shaped frames A3 and are detachably and fixedly arranged, and the first placing grooves A7 are separated into fourth placing grooves A15 positioned below the inverted V-shaped frames C13 and fifth placing grooves A16 positioned on two sides of the inverted V-shaped frames C13 through the inverted V-shaped frames C13.
The ends of the side frames C of the inverted V-shaped frames C13 are respectively inserted and fixed into the insertion holes 14 correspondingly arranged on the side frames A of the inverted V-shaped frames A3.
The insertion holes 14 are parallel to the side vertical rods of the vertical rectangular frame body 1, and insertion rods matched with the insertion holes 14 are respectively arranged at the bottom ends of the side frames C of the inverted V-shaped frames C13.
The top end of the inverted V-shaped frame C13 is flush with the top end of the connected inverted V-shaped frame A3.
The top ends of the inverted V-shaped frames A3, the inverted V-shaped frames B4 and the inverted V-shaped frames C13 are rounded angles.
The vertical rectangular frame body 1, the inverted V-shaped frame A3, the inverted V-shaped frame B4, the inverted V-shaped frame C13, the inclined rod A5 and the inclined rod B6 are all made of screw steel.
When the lifting tool is used, a plurality of vertical rectangular frame bodies 1 are respectively lifted to form a row through respective hanging lugs 2 of the plurality of vertical rectangular frame bodies 1, the end faces of the vertical rectangular frame bodies 1 are mutually parallel, and then round pipes are respectively arranged in the corresponding first placing groove A7, the second placing groove A8, the first placing groove B9, the second placing groove B10, the third placing groove A11 and the third placing groove B12 in a penetrating way according to different diameter sizes; if a large number of steel pipes with smaller sizes need to be galvanized, the inverted V-shaped frame C13 can be connected with the inverted V-shaped frame A3, and the steel pipes with corresponding sizes can be arranged in the fourth placing groove A15 and the fifth placing groove A16 in a penetrating mode.
The bottom of each placing groove is of a structure with the size reduced along the opening from top to bottom, so that various steel pipes with different sizes can be prevented; especially, the top is open structure's first standing groove A7, second standing groove A8, first standing groove B9, second standing groove B10, fifth standing groove A16, and the above-mentioned standing groove can also place the steel pipe that the diameter size is greater than its each open top size, only need guarantee that the steel pipe that corresponds to place does not interfere with other steel pipes or other structures can.
If a gap is arranged between the bottom ends of the inclined rods A5 of the third placing groove A11 or a gap is arranged between the bottom ends of the inclined rods B6 of the third placing groove B12, the diameter size of the steel pipe placed in the third placing groove A11 or the third placing groove B12 is larger than the corresponding gap between the bottom ends of the corresponding inclined rods A5 or the bottom ends of the inclined rods B6.
Claims (10)
1. Steel pipe galvanization hoisting frame, its characterized in that: including vertical rectangle support body (1), ejector pin center fixedly connected with hangers (2) of vertical rectangle support body (1), from top to bottom fixedly connected with multilayer horizontal rack in vertical rectangle support body (1) respectively, horizontal rack comprises a plurality of continuous falling "V" type framves that connect gradually, the both ends of falling "V" type frame are fixed or are fixed with the side standing bar of the corresponding side of vertical rectangle support body (1) with the corresponding tip of adjacent falling "V" type frame, form first standing groove between the adjacent side lever of two adjacent falling "V" type framves, form the second standing groove between the side standing bar of vertical rectangle support body (1) and the adjacent side lever of adjacent falling "V" type frame.
2. The galvanized steel pipe hanger of claim 1, wherein: the inverted V-shaped frame comprises an inverted V-shaped frame A (3) and an inverted V-shaped frame B (4), the length of a side frame A of the inverted V-shaped frame A (3) is larger than that of a side frame B of the inverted V-shaped frame B (4), the included angle between the side frames A of the inverted V-shaped frame A (3) is equal to that between the side frames B of the inverted V-shaped frame B (4), and a horizontal rack formed by the inverted V-shaped frame A (3) and a horizontal rack formed by the inverted V-shaped frame B (4) are arranged at intervals;
a first placing groove A (7) is formed between the adjacent side frames A of two adjacent inverted V-shaped frames A (3), and a second placing groove A (8) is formed between the side vertical rod of the vertical rectangular frame body (1) and the adjacent side frame A of the adjacent inverted V-shaped frame A (3);
a first placing groove B (9) is formed between the adjacent side frames B of two adjacent inverted V-shaped frames B (4), and a second placing groove B (10) is formed between the side vertical rods of the vertical rectangular frame body (1) and the adjacent side frames B of the adjacent inverted V-shaped frames B (4).
3. The galvanized steel pipe hoisting frame of claim 2, wherein: inclined rods A (5) are symmetrically arranged below the side frames A of the inverted V-shaped frame A (3), the inclined rods A (5) incline towards the central axis direction of the inverted V-shaped frame A (3) along the direction from top to bottom, and a third placing groove A (11) is formed between the inclined rods A (5) and the side frames A of the inverted V-shaped frame A (3);
the side frame B of the inverted V-shaped frame B (4) is symmetrically provided with inclined rods B (6) below the side frame B respectively, the inclined rods B (6) incline towards the central axis direction of the inverted V-shaped frame B (4) along the direction from top to bottom, and a third placing groove B (12) is formed between the inclined rods B (6) and the side frame B of the inverted V-shaped frame B (4).
4. A galvanized hanger for steel pipes as set forth in claim 3, wherein: the distance between the inclined rod A (5) and the top end of the inverted V-shaped frame A (3) is equal to the distance between the inclined rod B (6) and the top end of the inverted V-shaped frame B (4), the included angle between the inclined rod A (5) and the corresponding side frame A of the connected inverted V-shaped frame A (3) is equal to the included angle between the inclined rod B (6) and the corresponding side frame B of the connected inverted V-shaped frame B (4), and the length of the inclined rod A (5) is equal to the length of the inclined rod B (6).
5. The galvanized steel pipe hoisting frame of claim 4, wherein: and the inclined rod B (6) is fixed with the bottom end of the side frame B of the inverted V-shaped frame B (4).
6. The galvanized steel pipe hoisting frame of claim 4, wherein: the bottom end of the inclined rod A (5) is flush with the bottom end of the side frame A of the inverted V-shaped frame A (3).
7. The galvanized steel pipe hoisting frame of claim 6, wherein: when the horizontal placing frame at the lowest part in the vertical rectangular frame body (1) is an inverted V-shaped frame A (3), the bottom end of a diagonal rod A (5) of the inverted V-shaped frame A (3) and the bottom end of a side frame A of the inverted V-shaped frame A (3) are fixedly connected with the bottom rod of the vertical rectangular frame body (1);
when the horizontal placing frame at the lowest part in the vertical rectangular frame body (1) is an inverted V-shaped frame B (4), the bottom ends of the inclined rods B (6) of the inverted V-shaped frame B (4) are fixed with the bottom rods of the vertical rectangular frame body (1).
8. The galvanized steel pipe hoisting frame of claim 2, wherein: the novel inverted V-shaped frame comprises a first placing groove A (7) between two adjacent inverted V-shaped frames A (3), an inverted V-shaped frame C (13) is detachably and fixedly connected in the first placing groove A (7), side frames C of the inverted V-shaped frames C (13) are detachably and fixedly corresponding to side frames A of the adjacent inverted V-shaped frames A (3), and the first placing groove A (7) is divided into a fourth placing groove A (15) located below the inverted V-shaped frames C (13) and a fifth placing groove A (16) located on two sides of the inverted V-shaped frames C (13) through the inverted V-shaped frames C (13).
9. The galvanized hanger of steel pipes according to claim 8, wherein: the ends of the side frames C of the inverted V-shaped frames C (13) are respectively inserted and fixed into insertion holes (14) corresponding to the side frames A of the inverted V-shaped frames A (3).
10. The galvanized hanger of steel pipes according to claim 8, wherein: the top end of the inverted V-shaped frame C (13) is flush with the top end of the connected inverted V-shaped frame A (3).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321875755.7U CN220283340U (en) | 2023-07-17 | 2023-07-17 | Steel pipe galvanization hoisting frame |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321875755.7U CN220283340U (en) | 2023-07-17 | 2023-07-17 | Steel pipe galvanization hoisting frame |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220283340U true CN220283340U (en) | 2024-01-02 |
Family
ID=89338686
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321875755.7U Active CN220283340U (en) | 2023-07-17 | 2023-07-17 | Steel pipe galvanization hoisting frame |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220283340U (en) |
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2023
- 2023-07-17 CN CN202321875755.7U patent/CN220283340U/en active Active
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