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Aluminum alloy handrail shaping equipment based on vertical offset mechanism

An aluminum alloy and railing technology, which is applied to building structures, ladder structures, buildings, etc., can solve the problems that affect the processing effect and efficiency, and cannot fit and fix the aluminum alloy railings, so as to strengthen the supporting force and reduce the twists and turns overdose effect

Active Publication Date: 2021-09-07
安徽佳之合新材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At the same time, for the current secondary processing fixtures, it is impossible to accurately fit and fix the length and inner diameter of the aluminum alloy railings, so that there are problems in the bending process of the aluminum alloy railings, which affects the processing effect and efficiency

Method used

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  • Aluminum alloy handrail shaping equipment based on vertical offset mechanism
  • Aluminum alloy handrail shaping equipment based on vertical offset mechanism
  • Aluminum alloy handrail shaping equipment based on vertical offset mechanism

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] see Figure 1-Figure 4 As shown, the purpose of this embodiment is to provide an aluminum alloy railing shaping device based on a vertical offset mechanism, including a shaping device 100, including a shaping device 100 at least including:

[0044] Fixed body 110, fixed body 110 comprises the base plate 111 that is set, and the surface of base plate 111 is installed with end plate 112 through bolt, and end plate 112 is two that are arranged up and down oppositely, between end plate 112 is through fixed shaft 113 rotation connection, fixed shaft The surface of 113 is relatively sleeved with a fixed rod 114 in a "zigzag" shape and used to fix the aluminum alloy railing. The surface of the fixed rod 114 can be clamped with the aluminum alloy railing through the rod groove 1140 opened;

[0045] The stop body 120, the stop body 120 is arranged on the surface of one of the fixed rods 114, the stop body 120 includes a slider 121 that is slidingly connected with the chute provi...

Embodiment 2

[0049] In order to enhance the supporting effect of the fixed rod 114, the difference between this embodiment and Embodiment 1 is that please refer to Figure 5 Shown:

[0050] Among them, the support pieces 1141 arranged symmetrically between the relative fixed poles 114 are hinged, and the support pieces 1141 are used to generate a supporting force between the fixed poles 114, so that through the hinge of the support pieces 1141, the relative fixed poles 114 can be connected to each other. Slow support is obtained during the sliding displacement, and the supporting force is strengthened. Secondly, the supporting force can be reduced through the twists and turns of the supporting sheet 1141, so as to facilitate the sliding adjustment of the fixed rod 114 position.

[0051] One end of the support piece 1141 is clamped with a clamp plate 1143 for strengthening support and fixing through the hinged handle 1142, wherein one end of the clamp plate 1143 is hinged with the fixed sha...

Embodiment 3

[0053] In order to limit the range of bending on the surface of the aluminum alloy railing, the difference between this embodiment and embodiment 2 is that please refer to Figure 6 Shown:

[0054] Wherein, the surface end of the fixed rod 114 is equipped with a limit assembly 130 through a collar 1121 provided. The limit assembly 130 includes two hinged limit plates 131. tight, that is, when the aluminum alloy railing is fixed to the inside of the fixed rod 114, by opening the hinged limiting plate 131, the limiting plate 131 can be supported and fixed inside the aluminum alloy railing. When the surface of the alloy railing is tortuous, the limiting plate 131 can limit the degree of bending of the aluminum alloy railing, so as to minimize the excessive bending of the aluminum alloy railing surface. The rotationally connected fixed block 132 is connected and fixed to the collar 1121 .

[0055] The inside of one of the collars 1121 is rotatably connected to the end plate 112 ...

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Abstract

The invention relates to the technical field of aluminum alloy handrail shaping, in particular to aluminum alloy handrail shaping equipment based on a vertical offset mechanism. The aluminum alloy handrail shaping device comprises a shaping device, wherein the shaping device at least comprises a fixing body, the fixing body comprises a bottom plate, end plates are mounted on the surface of the bottom plate through bolts, the end plates are rotationally connected through a fixing shaft, and the surface of the fixing shaft is relatively sleeved with a zigzag fixing rod used for fixing an aluminum alloy handrail; the surface of the fixing rod can be clamped with the aluminum alloy handrail through a formed rod groove; a gear body is arranged on the surface of one fixing rod, the gear body comprises a sliding block which is in sliding connection with a sliding groove formed in the surface of the fixing rod, the end part of the sliding block is connected with a check block through symmetrically-arranged rod bodies, and the check block is in sliding clamping connection with a rod groove formed in the surface of the fixing rod. According to the aluminum alloy handrail shaping device, the aluminum alloy handrail can be subjected to size multi-adaptation fitting during secondary shaping, and meanwhile, secondary shaping can be conducted.

Description

technical field [0001] The invention relates to the technical field of shaping aluminum alloy railings, in particular to aluminum alloy railing shaping equipment based on a vertical offset mechanism. Background technique [0002] Aluminum alloy railings are metal poles made of aluminum alloy. Because of their good properties, they are mostly used in industries, environments, or housing construction. Among them, for the current aluminum alloy railings, when they are used for the second time, for example, after the aluminum alloy railings that have been formed need to be bent to a certain extent, the overall shape of the aluminum alloy railings can be enlarged after being used. The receiving area or the use effect is better and better, so that it needs to be fixed by some utensils before secondary processing. [0003] At the same time, for the current secondary processing fixtures, it is impossible to accurately fit and fix the length and inner diameter of the aluminum alloy ...

Claims

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Application Information

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IPC IPC(8): B21D7/06E04F11/18
CPCB21D7/06E04F11/18
Inventor 平国希王长白张勇
Owner 安徽佳之合新材料科技有限公司
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