CN210039906U - Integrated inductance terminal side bending mechanism - Google Patents

Abstract

The utility model provides an integrative inductance terminal side mechanism of bending, it is including installing the gyro wheel axle cylinder in the frame, gyro wheel axle lift piece is installed through cylinder joint in gyro wheel axle cylinder top, the gyro wheel axle lift piece is the U-shaped, gyro wheel axle installation piece is installed at its both sides wall top, two relative one side movable mounting in gyro wheel axle installation piece top have the gyro wheel axle, install the hem seat in the frame of gyro wheel axle lift piece top, hem seat both sides are equipped with the gyro wheel groove, be equipped with recessed constant head tank on the hem seat, integrative inductance is by hem seat bearing, and through the constant head tank location, install hem seat clamp plate in the frame of hem seat top, hem seat clamp plate bottom center department is equipped with the bending groove of n shape. The structure of this scheme of adoption is reasonable, it is effectual to bend.

Description

Integrated inductance terminal side bending mechanism

Technical Field

The utility model belongs to the technical field of inductance production technique and specifically relates to indicate integrative inductance terminal side mechanism of bending.

Background

The existing integrated inductor terminal side bending adopts an n-shaped bending die to press down, and the terminal is easily damaged by pressing in the mode, so that the product quality is influenced.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a rational in infrastructure, the effectual integrative inductance terminal side mechanism of bending.

In order to achieve the above object, the present invention provides a technical solution: a side bending mechanism of an integrated inductor terminal comprises a roller shaft cylinder arranged on a frame, wherein the top of the roller shaft cylinder is provided with a roller shaft lifting block through a cylinder joint, the roller shaft lifting block is U-shaped, the tops of two side walls of the roller shaft lifting block are provided with roller shaft mounting blocks, one side of the tops of the two roller shaft mounting blocks opposite to each other is movably provided with a roller shaft, a flanging seat is arranged on the frame above the roller shaft lifting block, the flanging seat is square, two sides of the flanging seat are provided with roller grooves which penetrate through the upper part and the lower part, the roller shaft is positioned under the roller grooves, a concave positioning groove is arranged on the flanging seat between the two roller grooves, an integrated inductor is supported by the flanging seat and is positioned through the positioning groove, a flanging seat pressing plate is arranged on the frame above the flanging seat, the center of the bottom of the flanging seat pressing plate is provided with an n-shaped bending groove, the, the bending cylinder penetrates through the folding seat pressing plate downwards and extends to the folding groove to form a pressing piece end.

Two ends of the roller shaft are arranged on the inner side wall of the roller shaft mounting block through corresponding shaft plates.

The number of the bending cylinders is three, and the bending cylinders are uniformly arranged on the folding edge seat pressing plate between the two processing grooves.

After the scheme is adopted by the utility model, the integrated inductor is supported by the folding seat and positioned by the positioning groove to enter the bending position below the bending cylinder, and after the integrated inductor enters the bending position, the bending cylinder descends to press the inductor; the roller shaft cylinder rises to drive the roller shaft to rise, so that the terminals on the two sides of the integrated inductor are folded upwards to 90 degrees; rational in infrastructure after this scheme of adoption, it is effectual to bend.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a cross-sectional end view of the present invention.

Fig. 3 is a schematic view of the end structure of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 3, the terminal side bending mechanism of the integrated inductor according to the present embodiment includes a roller shaft cylinder 11 mounted on a frame, a roller shaft lifting block 5 is mounted on the top of the roller shaft cylinder 11 through a cylinder joint 8, the roller shaft lifting block 5 is U-shaped, roller shaft mounting blocks 6 are mounted on the tops of two side walls of the roller shaft lifting block, a roller shaft 9 is movably mounted on the opposite side of the tops of the two roller shaft mounting blocks 6, two ends of the roller shaft 9 are mounted on the inner side wall of the roller shaft mounting block 6 through corresponding shaft plates, a hemming seat 2 is mounted on the frame above the roller shaft lifting block 5, the hemming seat 2 is square, two sides thereof are provided with vertically penetrating roller grooves, the roller shaft 9 is located under the roller grooves, a positioning groove is disposed on the hemming seat 2 between the two roller grooves, an integrated inductor 18 is supported by the hemming seat and positioned through the positioning groove, a hemming seat pressing plate 1 is mounted on the frame, the center of the bottom of the flanging seat pressing plate 1 is provided with an n-shaped bending groove, the bending groove is located above the positioning groove, the top of the flanging seat pressing plate 1 above the bending groove is provided with three bending cylinders 14 which are uniformly arranged on the flanging seat pressing plate 1 between the two processing grooves, and the bending cylinders 14 downwards penetrate through the flanging seat pressing plate 1 to extend to the bending groove to form a pressing part end. The integral inductor is supported by the flanging seat and positioned by the positioning groove to enter a bending position below the bending cylinder, and after the integral inductor enters the bending position, the bending cylinder descends to press the inductor; the roller shaft cylinder rises to drive the roller shaft to rise, so that the terminals on the two sides of the integrated inductor are folded upwards to 90 degrees; the bending device is reasonable in structure and good in bending effect after the embodiment is adopted.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. Integrative inductance terminal side mechanism of bending, it is including installing roller shaft cylinder (11) in the frame, its characterized in that: the top of a roller shaft cylinder (11) is provided with a roller shaft lifting block (5) through a cylinder joint (8), the roller shaft lifting block (5) is U-shaped, the tops of two side walls of the roller shaft lifting block are provided with roller shaft mounting blocks (6), one side of the tops of the two roller shaft mounting blocks (6) opposite to each other is movably provided with a roller shaft (9), a frame above the roller shaft lifting block (5) is provided with a flanging seat (2), the flanging seat (2) is square, two sides of the flanging seat are provided with roller grooves which penetrate through up and down, the roller shaft (9) is positioned under the roller grooves, a lower locating groove is arranged on the flanging seat (2) between the two roller grooves, an integrated inductor (18) is supported by the flanging seat and is located through the locating groove, a flanging seat pressing plate (1) is arranged on the frame above the flanging seat (2), the center of the bottom of the flanging seat pressing plate (1) is provided with an n, a bending cylinder (14) is installed at the top of the folding seat pressing plate (1) above the bending groove, and the bending cylinder (14) downwards penetrates through the folding seat pressing plate (1) to extend to the bending groove to form a pressing part end.

2. The integrated inductance terminal side bending mechanism according to claim 1, wherein: two ends of the roller shaft (9) are arranged on the inner side wall of the roller shaft mounting block (6) through corresponding shaft plates.

3. The integrated inductance terminal side bending mechanism according to claim 1, wherein: the number of the bending cylinders (14) is three, and the bending cylinders are uniformly arranged on the folding base pressing plate (1) between the two processing grooves.

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