CN-116275998-B - Assembly production system of bridge cut-off aluminum alloy

Abstract

The invention discloses an assembly production system of bridge-cut-off aluminum alloy, which belongs to the field of aluminum alloy section production and comprises a first rotating shaft and a second rotating shaft which are arranged at intervals in the transverse direction, wherein a first carrying plate and a second carrying plate are respectively arranged on the side walls of the two rotating shafts, the positions of the first carrying plate and the second carrying plate are staggered, when the first carrying plate and the second carrying plate are in a horizontal state, a baffle is arranged at one side of the rotating shaft at the upper end of the first carrying plate, and a limiting and isolating mechanism is arranged between the first rotating shaft and the second rotating shaft and moves along the axial direction of the rotating shaft. The invention aims to provide an assembly production system of broken bridge aluminum alloy, which can improve the production efficiency of penetrating strips.

Inventors

• ZHAO WENDE

Assignees

• 湖南千源铝业有限公司

Dates

Publication Date

20260508

Application Date

20230327

Claims (4)

1. 1. The assembly production system of the bridge-cut-off aluminum alloy is characterized by comprising a first rotating shaft (1), a second rotating shaft (2), a linear conveying mechanism (12) and a supporting plate (8) which are arranged at intervals in the transverse direction, wherein the supporting plate is used for preventing an aluminum alloy section from moving along the length direction of the rotating shaft in the penetrating process, the first rotating shaft (1) and the second rotating shaft (2) rotate along the transverse axis, a first carrying plate (3) and a second carrying plate (4) are respectively arranged on the side walls of the two rotating shafts, the positions of the first carrying plate (3) and the second carrying plate (4) are staggered, when the first carrying plate (3) and the second carrying plate (4) are in a horizontal state, a baffle (5) is arranged at one side of the rotating shaft, a limiting bar (13) which extends towards one side of the linear conveying mechanism is arranged on the baffle (5), a limiting blocking mechanism is arranged between the first rotating shaft (1) and the second rotating shaft (2) and moves along the axial direction of the rotating shaft, the limiting blocking mechanism comprises a bracket (6) and a roller (7), and the first carrying plate (3) and the second carrying plate (4) are arranged on the side of the rotating shaft along the vertical direction along the length direction of the bracket (6).
2. 2. The assembly production system of the broken bridge aluminum alloy according to claim 1, wherein the lower end of the supporting plate (8) is connected with a connecting rod (9), and the lower end of the connecting rod (9) is rotationally connected with a support (10) and swings under the action of a rotary driving mechanism (11).
3. 3. The assembly production system of the bridge-cut-off aluminum alloy according to any one of claims 1 to 2, wherein the linear conveying mechanism (12) is provided with two feeding groups which are respectively combined with the first rotating shaft (1) and the second rotating shaft (2), and the upper end face of the linear conveying mechanism (12) is not lower than the upper end face of the loading group in which the linear conveying mechanism is positioned in a horizontal state.
4. 4. The assembly production system of the bridge-cut-off aluminum alloy according to claim 1, wherein the limit strips (13) are detachably arranged.

Description

Assembly production system of bridge cut-off aluminum alloy Technical Field The invention relates to the field of aluminum alloy profile production, in particular to an assembly production system of a broken bridge aluminum alloy. Background The door and window prepared by the broken bridge aluminum alloy has good heat preservation, sound insulation and other performances, so that the broken bridge aluminum alloy door and window is widely applied, and the production process of the broken bridge aluminum alloy used in the broken bridge aluminum alloy door and window comprises the steps of tooth cutting on the notch of the aluminum alloy section bar which is qualified in inspection, aligning the notch of the two aluminum alloy section bars, and pushing the heat insulation strips into the notch of the two aluminum alloy section bars in a manual or automatic mode after the notch alignment to finish strip penetration; feeding after finishing threading and (5) rolling by a rolling machine. A finished product after rolling is shown in fig. 6. When the strip is worn, the strip is worn out failure or the production efficiency of the strip is reduced easily due to inaccurate positioning of the aluminum alloy section. Disclosure of Invention The invention aims to solve the problems and provide an assembly production system of broken bridge aluminum alloy, which can improve the production efficiency of penetrating strips. The technical scheme includes that the bridge-cut-off aluminum alloy assembling production system comprises a first rotating shaft and a second rotating shaft which are arranged at intervals in the transverse direction, wherein the first rotating shaft and the second rotating shaft rotate along the transverse axis, a first carrying plate and a second carrying plate are respectively arranged on the side walls of the two rotating shafts, the positions of the first carrying plate and the second carrying plate are staggered, when the first carrying plate and the second carrying plate are in a horizontal state, a baffle is arranged at one side of the rotating shaft, a limiting and isolating mechanism is arranged between the first rotating shaft and the second rotating shaft, the limiting and isolating mechanism moves along the axial direction of the rotating shaft, notches of two aluminum alloy sections are aligned through the first carrying plate and the second carrying plate, the distance between the aluminum alloy sections is kept fixed by the limiting and isolating mechanism, and the heat insulating strips can smoothly penetrate into the notches. Further, in order to avoid spacing partition mechanism to interfere the penetrating strip of heat insulating strip, spacing partition mechanism includes support and cylinder, the cylinder sets up on the support along vertical setting and along pivot length direction range. In the process of penetrating the strip, the side wall of the roller is in contact with the aluminum alloy section, and when the heat insulation strip moves, the limiting and isolating mechanism moves in the same direction with the aluminum alloy section, so that the penetrating of the strip is completed in the process of ensuring the isolation of the aluminum alloy section. Further, in order to facilitate the subsequent steps such as trimming and rolling of the heat insulation strip, the aluminum alloy strip trimming device further comprises a propping plate for preventing the aluminum alloy section from moving along the length direction of the rotating shaft in the strip penetrating process, when the object carrying plate is aligned with the notch of the aluminum alloy section, the propping plate is contacted with the end face of the section to enable the end face of the section to be aligned, after the strip penetrating is completed, the heat insulation strip exceeding the section can be trimmed, and manual adjustment of the aluminum alloy section to enable the end face of the aluminum alloy section to be aligned before rolling is not needed. Further, in order to facilitate the operators to take out the aluminum alloy section bar after penetrating the strip, the lower end of the propping plate is connected with the connecting rod, the lower end of the connecting rod is rotationally connected with the support and swings under the action of the rotary driving mechanism, and after the strip penetrating is completed, the propping plate is opened from the extension line of the aluminum alloy section bar, so that the operators can take out the aluminum alloy section bar conveniently. Further, in order to improve efficiency and reduce labor intensity of operators, the device further comprises a linear conveying mechanism, wherein the linear conveying mechanism is provided with two feeding groups which are respectively formed with the first rotating shaft and the second rotating shaft, the upper end face of the linear conveying mechanism is not lower than the upper end face of the linear conveyin