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CN-224223084-U - Corner assembling device for splicing aluminum alloy door and window frames

CN224223084UCN 224223084 UCN224223084 UCN 224223084UCN-224223084-U

Abstract

The utility model discloses an angle assembling device for splicing an aluminum alloy door and window frame, which belongs to the technical field of aluminum alloy door and window frame processing and comprises a workbench, wherein a transverse chute and an arc chute are arranged on the workbench, the transverse chute is connected with a sliding mechanism I in a sliding manner, the sliding mechanism I is connected with a rotating mechanism I, a clamping mechanism I is arranged on the rotating mechanism I, the arc chute is connected with a sliding mechanism II in a sliding manner, the sliding mechanism II is connected with a rotating mechanism II, and the clamping mechanism II is arranged on the rotating mechanism II. The utility model is specially designed for splicing the aluminum alloy door and window frames, can realize any clamping angle of the splicing group angle of the aluminum alloy door and window frames, meets more required angles, and has wide application range and high flexibility.

Inventors

  • GUAN LIQIANG
  • XU BIN
  • CHEN GUOZHENG
  • ZHANG LIANG
  • Jiao Defang
  • ZHANG RONGCHENG
  • LI GUOLIANG

Assignees

  • 山东三多樘门窗工程有限公司

Dates

Publication Date
20260512
Application Date
20250507

Claims (9)

  1. 1. The corner assembling device for splicing the aluminum alloy door and window frames is characterized by comprising a workbench, wherein a transverse chute and an arc chute are arranged on the workbench, a sliding mechanism I is slidably connected with the transverse chute, a rotating mechanism I is connected with the sliding mechanism I, a clamping mechanism I is arranged on the rotating mechanism I, a sliding mechanism II is slidably connected with the arc chute, a rotating mechanism II is connected with the sliding mechanism II, and a clamping mechanism II is arranged on the rotating mechanism II.
  2. 2. The corner combining device for splicing aluminum alloy door and window frames according to claim 1, wherein the sliding mechanism I comprises a sliding ball I which is in sliding connection with a transverse sliding groove, the sliding ball I is connected with a supporting rod I, and the supporting rod I is connected with a rotating mechanism I.
  3. 3. The corner combining device for splicing aluminum alloy door and window frames according to claim 2, wherein the rotating mechanism I comprises a disc bidirectional damper I connected with a supporting rod I, and the disc bidirectional damper I is connected with a clamping mechanism I.
  4. 4. The corner combining device for splicing aluminum alloy door and window frames according to claim 3, wherein the clamping mechanism I comprises a bottom plate I connected with a disc bidirectional damper I, two sides of the bottom plate I are respectively provided with a support plate I, the support plates I are in threaded connection with adjusting bolts I, the adjusting bolts I are connected with bearings I, and the bearings I are connected with clamping plates I.
  5. 5. The corner combining device for splicing aluminum alloy door and window frames according to claim 4, wherein the bottom plate I is connected with an ear plate I, the ear plate I is connected with a fastening bolt I in a threaded manner, and the bottom of the fastening bolt I is abutted against the workbench.
  6. 6. The corner combining device for splicing aluminum alloy door and window frames according to claim 1, wherein the sliding mechanism II comprises a sliding ball II which is in sliding connection with an arc chute, the sliding ball II is connected with a supporting rod II, and the supporting rod II is connected with a rotating mechanism II.
  7. 7. The corner combining device for splicing aluminum alloy door and window frames according to claim 6, wherein the rotating mechanism II comprises a disc bidirectional damper II connected with a supporting rod II, and the disc bidirectional damper II is connected with a clamping mechanism II.
  8. 8. The corner combining device for splicing the aluminum alloy door and window frames according to claim 7, wherein the clamping mechanism II comprises a bottom plate II connected with a disc bidirectional damper II, two sides of the bottom plate II are respectively provided with a support plate II, the support plates II are in threaded connection with an adjusting bolt II, the adjusting bolt II is connected with a bearing II, and the bearing II is connected with a clamping plate II.
  9. 9. The corner combining device for splicing aluminum alloy door and window frames according to claim 8, wherein the bottom plate II is connected with an ear plate II, the ear plate II is in threaded connection with a fastening bolt II, and the bottom of the fastening bolt II is abutted with the workbench.

Description

Corner assembling device for splicing aluminum alloy door and window frames Technical Field The utility model relates to the technical field of aluminum alloy door and window frame processing, in particular to an angle combining device for splicing aluminum alloy door and window frames. Background An aluminum alloy door and window refers to a door and window made of aluminum alloy extruded profiles as frames, stiles and leaves, which is called as an aluminum alloy door and window for short, the aluminium alloy door and window includes door and window with aluminium alloy as the base material of the stressed rod (the rod for bearing and transmitting the dead weight and load) and composite wood and plastic, and is called aluminium-wood composite door and window and aluminium-plastic composite door and window for short. The waterproof and waterproof coating is widely applied to the field of buildings, and has the main characteristics of light weight, high strength, corrosion resistance, attractive appearance, diversity, good sealing performance and long service life. The aluminum alloy door and window needs to use the location clamping device when processing to guarantee aluminum alloy door and window welded accuracy, but current location clamping device generally only can the centre gripping right angle, can not be according to the fixed aluminum alloy door and window section bar of actual demand angle centre gripping, uses very restrictively, lacks the flexibility. Therefore, developing an aluminum alloy door and window frame splicing, corner-assembling and positioning clamping device capable of realizing any clamping angle has important significance for improving the competitiveness of products. Disclosure of utility model The angle combining device for aluminum alloy door and window frame splicing is specially designed for aluminum alloy door and window frame splicing, and the angle combining device can achieve any clamping angle of aluminum alloy door and window frame splicing angles, meets more required angles, and is wide in application range and high in flexibility. In order to solve the technical problems, the corner assembling device for splicing the aluminum alloy door and window frames comprises a workbench, wherein a transverse chute and an arc chute are arranged on the workbench, a sliding mechanism I is connected to the transverse chute in a sliding mode, a rotating mechanism I is connected to the sliding mechanism I, a clamping mechanism I is arranged on the rotating mechanism I, a sliding mechanism II is connected to the arc chute in a sliding mode, a rotating mechanism II is connected to the sliding mechanism II, and a clamping mechanism II is arranged on the rotating mechanism II. In a further improvement of the utility model, the sliding mechanism I comprises a sliding ball I which is in sliding connection with the transverse sliding groove, wherein the sliding ball I is connected with a supporting rod I, and the supporting rod I is connected with the rotating mechanism I. Through the design, the scheme can be more convenient for moving the rotating mechanism I. In a further improvement of the utility model, the rotating mechanism I comprises a disc bidirectional damper I connected with the supporting rod I, and the disc bidirectional damper I is connected with the clamping mechanism I. Through above-mentioned design, this scheme can be more convenient for rotate fixture I. In the further improvement of the utility model, the clamping mechanism I comprises a bottom plate I connected with the disc bidirectional damper I, two sides of the bottom plate I are respectively provided with a support plate I, the support plates I are in threaded connection with adjusting bolts I, the adjusting bolts I are connected with bearings I, and the bearings I are connected with clamping plates I. Through above-mentioned design, this scheme can be more convenient for adjust the distance between two splint I. In the further improvement of the utility model, the bottom plate I is connected with the lug plate I, the lug plate I is connected with the fastening bolt I in a threaded manner, and the bottom of the fastening bolt I is abutted with the workbench. Through above-mentioned design, this scheme can be more convenient for fixed bottom plate I. In a further improvement of the utility model, the sliding mechanism II comprises a sliding ball II which is in sliding connection with the arc-shaped sliding groove, the sliding ball II is connected with a supporting rod II, and the supporting rod II is connected with the rotating mechanism II. Through above-mentioned design, this scheme can be more convenient for remove slewing mechanism II. In a further improvement of the utility model, the rotating mechanism II comprises a disc bidirectional damper II connected with the supporting rod II, and the disc bidirectional damper II is connected with the clamping mechanism II. Through above-mentioned design, this scheme ca