CN-224224588-U - Main unit of air spring forming machine and feeding template

Abstract

The utility model relates to the technical field of air spring processing components, in particular to an air spring forming machine host and a feeding template. The utility model comprises an X-axis track base and a base sliding on the X-axis track base, wherein the bases comprise X-axis sliding bases which are in sliding connection with the X-axis track base, the sliding direction of the X-axis sliding bases is taken as the X-axis direction, the X-axis sliding bases are provided with Y-axis sliding bases which are adjusted along the Y-axis direction, and the Y-axis sliding bases are provided with Z-axis sliding bases which are adjusted along the Z-axis direction. According to the utility model, the offset correction mechanism for material offset adjustment, the precision adjustment mechanism for adjusting the position relation between the feeding template and the forming drum stand separation mechanism are integrally installed, so that the convenience of installation and maintenance of the offset correction mechanism, the precision adjustment mechanism and the forming drum stand separation mechanism is improved, and interference between the feeding template and other structures in the moving process is prevented.

Inventors

• REN YUANLIANG
• WANG YUNBIN
• ZHU WENBIN

Assignees

• 安徽精致机电科技有限公司

Dates

Publication Date

20260512

Application Date

20231123

Claims (10)

1. 1. The utility model provides an air spring make-up machine host computer, its characterized in that includes X axle track base (110) and slides frame (121) on X axle track base (110), frame (121) all include with X axle track base (110) sliding connection's X axle slide base (121X 1), take the slip direction of X axle slide base (121X 1) as X axle direction, have Y axle slide base (121Y 1) along Y axle direction regulation on X axle slide base (121X 1), have Z axle slide base (121Z 1) along Z axle direction regulation on Y axle slide base (121Y 1), frame (121) are provided with two, and two frame (121) are respectively through first synchronous belt assembly (131) and second synchronous belt assembly (132) drive, the axial of building drum (123) is parallel to X axle direction, building drum (123) are installed between two Z axle slide bases (121Z 1), and with one of them Z axle slide base (121Z 1) is fixed, constitutes the cooperation with another Z axle slide base (121Z 1) slip.
2. 2. An air spring forming machine main unit according to claim 1, wherein a Y-axis sliding rail (121Y 2) is fixed on the X-axis sliding base (121X 1), the Y-axis sliding base (121Y 1) slides on the Y-axis sliding rail (121Y 2), and a Y-axis driving mechanism (121Y 3) is mounted on the X-axis sliding base (121X 1).
3. 3. An air spring forming machine main unit according to claim 2, wherein a Z-axis sliding rail (121Z 2) is fixed on the Y-axis sliding base (121Y 1), the Z-axis sliding base (121Z 1) slides on the Z-axis sliding rail (121Z 2), and a Z-axis driving mechanism (121Z 3) is mounted on the Y-axis sliding base (121Y 1).
4. 4. An air spring molding machine main unit according to claim 3, wherein said power sources of said Y-axis driving mechanism (121Y 3) and said Z-axis driving mechanism (121Z 3) are servo motors.
5. 5. An air spring molding machine main machine according to claim 1, wherein the power sources of the first and second timing belt assemblies (131, 132) employ servo motors.
6. 6. An air spring forming machine main unit according to claim 1, characterized in that a stand (121) fixed to the forming drum (123) is provided with a winding force source (122) for driving the forming drum (123) to rotate.
7. 7. A feeding template, the feeding template is applied to an air spring forming machine host machine according to any one of claims 1-6, and the air spring forming machine host machine is characterized by comprising a template frame (210), two sliding rails (220) which are distributed up and down are fixedly connected to the template frame (210), feeding conveying belts (230) which slide along the length direction of the corresponding sliding rail (220) are arranged on the two sliding rails (220), the conveying tail ends of the two feeding conveying belts (230) are one ends close to a forming drum (123), and an intersection point is arranged between the sliding tracks of the conveying tail ends of the two feeding conveying belts (230) in the sliding process of the corresponding sliding rails (220), and the intersection point is located at the outer edge of the forming drum (123).
8. 8. The feeding module as recited in claim 7, wherein the feeding conveyor belt (230) slides on top of the slide rail (220) through the slide bracket (240), the feeding conveyor belt (230) is adjustable in inclination on the slide bracket (240), and an axis of the inclination adjustment is horizontal and perpendicular to a sliding direction of the feeding conveyor belt (230), and a driving cylinder is mounted on the slide rail (220) to drive the slide bracket (240) to slide along a length direction of the slide rail (220).
9. 9. The feeding template according to claim 8, wherein the sliding support (240) is of a U-shaped structure with a concave top, a fixing plate on the outer side of the feeding conveyor belt (230) is fixed with the vertical side wall of the sliding support (240) through bolts, and a plurality of groups of adjusting screw holes in fan-shaped distribution for matching the bolts are formed on the outer side wall of the fixing plate.
10. 10. A feeding mould according to claim 7, wherein the mould frames (210) are arranged in two groups which are arranged in parallel, and the two groups of mould frames (210) are connected into a whole by a connecting frame (211).

Description

Main unit of air spring forming machine and feeding template Technical Field The utility model relates to the technical field of air spring processing components, in particular to an air spring forming machine host and a feeding template. Background In the air spring manufacturing process, curtain cloth pieces and films are required to be alternately wound on a forming drum of a host machine, so that the air spring semi-finished product is manufactured. The existing air spring forming machine is mainly divided into a full-automatic forming machine and a semi-automatic forming machine, wherein the semi-automatic forming machine is used for manually placing the curtain cloth pieces and the films on the feeding template and then rolling the curtain cloth pieces and the films along the length direction of the feeding template through the forming roller so as to wind the curtain cloth pieces and the films on the forming roller. And the full-automatic forming machine is used for automatically guiding and cutting materials and then conveying the materials to a forming drum to wind, and meanwhile, the curtain cloth blocks and the films are extruded by a pressing device to be tightly attached to the forming drum in the winding process. Aiming at a full-automatic air spring forming machine, in the automatic feeding process, the material tends to deviate on a conveying belt and a feeding template, so that the accurate positioning between a forming drum and the material is usually required by a deviation correcting mechanism for ensuring the bonding precision of the material, as described in a text of an air spring forming machine with the name of CN108099232A, the feeding assembly is adopted to convey the material to an automatic centering mechanism of a rubber curtain fabric, after the automatic centering mechanism is adopted to center the material, the material is conveyed to the periphery of the forming drum and is bonded with the forming drum to be wound into an air spring semi-finished product, and the position relationship between the feeding template and the forming drum is also required to be regulated by a precision regulating mechanism for ensuring the feeding precision of the feeding template to the forming drum due to different sizes of the required air springs. In the prior art, the precision adjusting mechanism and the deviation correcting adjusting structure are often arranged on a feeding template, and most of curtain material feeding components and film material feeding components are conveyed to a forming drum through the same feeding template, so that the relative positions of the feeding template and different material feeding components are considered, interference between the feeding template and each feeding component can be possibly caused when the position of the feeding template is adjusted through the precision adjusting mechanism, and a forming drum base separating mechanism is often arranged in a host machine so as to drive two bases of the forming drum to be slidingly separated, thereby taking down an air spring semi-finished product. Disclosure of utility model In order to avoid and overcome the technical problems in the prior art, the utility model provides an air spring forming machine host and a feeding template, wherein an offset correcting mechanism for material offset adjustment, an accuracy adjusting mechanism for adjusting the position relation between the feeding template and a forming drum base separating mechanism are integrally installed, so that the convenience of installation and maintenance of the offset correcting mechanism, the accuracy adjusting mechanism and the forming drum base separating mechanism is improved, and interference between the feeding template and other structures in the moving process is prevented. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides an air spring make-up machine host computer, includes X axle track base and slides the frame on X axle track base, the frame all includes the X axle slide base with X axle track base sliding connection to X axle slide base's slip direction is X axle direction, have the Y axle slide base of following Y axle direction adjustment on the X axle slide base, have the Z axle slide base of following Z axle direction adjustment on the Y axle slide base, the frame is provided with two, and two frames drive through first hold-in range subassembly and second hold-in range subassembly respectively, the axial of shaping drum is on a parallel with X axle direction, the shaping drum is installed between two Z axle slide bases, and is fixed mutually with one of them Z axle slide base to constitute grafting cooperation with another Z axle slide base. As a further scheme of the utility model, a Y-axis sliding rail is fixed on the X-axis sliding base, the Y-axis sliding base slides on the Y-axis sliding rail, and a Y-axis driving mechanism is ar