CN222806194U - A drawing and cutting mechanism for the inner plate of the rear wheel cover of an automobile - Google Patents

Abstract

The utility model discloses a drawing corner cutting mechanism applied to an inner plate of an automobile rear wheel cover, which comprises a bearing lifting assembly and a cutting forming mechanism, wherein a positioning clamping mechanism for bolt assembly is arranged above the inner end of the bearing lifting assembly, the cutting forming mechanism for bolt assembly is arranged above the outer end of the bearing lifting assembly, the cutting forming mechanism comprises an end-to-end frame, a top base, an upper cylinder, a lifting base, a motor base, a servo motor and a saw disc, and the drawing corner cutting mechanism applied to the inner plate of the automobile rear wheel cover drives a screw rod group to operate by utilizing output power on a double slot, so that a slide block and a connecting frame operate to proper distance positions, an electric cross seat with a rotary structure and a mechanical power arm with an end arm driving hinge operation structure adaptively clamp a product, and the equipment can be adaptively adjusted according to the specific structure to be processed, so that the processing quality of the equipment is improved.

Description

Drawing and corner cutting mechanism applied to inner plate of automobile rear wheel cover

Technical Field

The utility model relates to the technical field of automobile accessories, in particular to a drawing and corner cutting mechanism applied to an inner plate of an automobile rear wheel cover.

Background

The hubcap is attractive in appearance, some automobiles do not have a direct hubcap, while others have a hubcap, and the overall visual effect is poor after the rim and hubcap are mounted on the automobile.

In the field of drawing corner cutting mechanisms, for example, CN202321670700.2 provides a drawing corner cutting device of an inner plate of an automobile rear wheel cover, which relates to the technical field of drawing corner cutting devices and comprises a workbench, a support frame and a fixing frame, wherein the corner cutting mechanism is arranged in the fixing frame, a fixing rod is arranged on the outer side of the support frame, one end of the fixing rod is rotationally connected with a rotating block, a waste bin is arranged at the top of the workbench, and a limiting mechanism is arranged on one side of the waste bin; however, the drawing corner cutting mechanism, the fixed rod and the rotating block can clamp and operate the product, but only can set the product more regularly, and the product processing diversity is poor.

Disclosure of utility model

The utility model aims to provide a drawing corner cutting mechanism applied to an inner plate of an automobile rear wheel cover, which aims to solve the problems in the prior art.

Through adopting above-mentioned technical scheme, utilize the output power on the double grooving to drive the lead screw group and move, make slider and even frame operation like this to suitable distance position for possess the electronic cross seat of rotating structure and end arm drive hinge operation structure's mechanical power arm and mechanical anchor clamps carry out adaptability centre gripping with the product, make equipment can carry out adaptability according to the concrete structure of processing and adjust, with the processingquality of lifting means.

The utility model aims at realizing the technical scheme that the drawing and corner cutting mechanism applied to the inner plate of the rear wheel cover of the automobile comprises a bearing lifting assembly and a cutting and forming mechanism, wherein a positioning and clamping mechanism for bolt assembly is arranged above the inner end of the bearing lifting assembly, and a cutting and forming mechanism for bolt assembly is arranged above the outer end of the bearing lifting assembly;

the cutting and forming mechanism comprises an end-to-frame, a top base, an upper cylinder, a lifting base, a motor base, a servo motor and a saw disc, wherein the end-to-frame is connected with the outer end of the bearing lifting assembly through bolts, the top end of the end-to-frame is provided with the top base, the inner bottom side of the top base is provided with the lifting base of the upper cylinder output end, the inner end side of the lifting base is provided with the motor base, and one side of the motor base is provided with the saw disc connected with the servo motor output end.

As a preferred embodiment of the utility model, the saw disc is in a circular knife-shaped structure, and the upper cylinder and the lifting base are symmetrically distributed by the central axis of the motor base.

As a preferred implementation mode of the utility model, the bearing lifting assembly comprises a cushion block, a bearing table, a waste box, a lower cylinder, a push rod, a gear box, a transmission gear, a swinging strip and a carrying frame, wherein the bearing table is arranged on the top side of the cushion block, the waste box sleeved by bolts is arranged on the inner side of the bearing table, and the push rod connected with the output end of the lower cylinder is arranged above the waste box.

As a preferred embodiment of the present utility model, a gear box is disposed on the top side of the push rod, a transmission gear is disposed on the inner side of the gear box, a swinging bar is disposed at the output end of the transmission gear, and a carrying frame is disposed at the outer end of the swinging bar.

As a preferred embodiment of the utility model, the positioning and clamping mechanism comprises double grooves, a screw rod group, a sliding block, a connecting frame, a lifting cylinder, a bearing sleeve frame, an electric rotating seat, an end arm, a mechanical power arm and a mechanical clamp, wherein the double grooves are connected above two ends of the waste box through bolts, the sliding block for installing the connecting frame is connected on the double grooves through screw rod groups in a threaded manner, and the bearing sleeve frame for connecting the output end of the lifting cylinder is arranged above the connecting frame.

As a preferred embodiment of the present utility model, an electric rotating seat is disposed on an inner side of the bearing housing frame, an end arm is disposed on an output end side of the electric rotating seat, a mechanical power arm is disposed on an inner side of one end of the end arm, and a mechanical clamp is disposed at an output end of the mechanical power arm.

Compared with the prior art, the drawing corner cutting mechanism applied to the inner plate of the automobile rear wheel cover has the beneficial effects that the lead screw group is driven to operate by utilizing the output power on the double grooves, so that the sliding block and the connecting frame operate to a proper distance position, an electric cross seat with a rotating structure and an end arm drive a mechanical power arm and a mechanical clamp with a hinge operation structure to adaptively clamp a product, and the equipment can be adaptively adjusted according to the specific processing structure, so that the processing quality of the equipment is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view showing a bottom perspective structure of the present utility model;

FIG. 3 is a schematic diagram of a gear box and a transmission gear according to the present utility model;

FIG. 4 is a schematic view of the three-dimensional structure of the swing bar and the carrier of the present utility model;

Fig. 5 is a schematic perspective view of a positioning and clamping mechanism according to the present utility model.

In the figure, 1, a bearing lifting assembly, 101, a cushion block, 102, a bearing table, 103, a waste box, 104, a lower cylinder, 105, a push rod, 106, a gear box, 107, a transmission gear, 108, a swinging bar, 109, a carrying frame, 2, a positioning clamping mechanism, 201, a double slot, 202, a screw rod group, 203, a sliding block, 204, a connecting frame, 205, a lifting cylinder, 206, a bearing sleeve frame, 207, an electric rotating seat, 208, an end arm, 209, a mechanical power arm, 2010, a mechanical clamp, 3, a cutting forming mechanism, 301, an end-to-end frame, 302, a top base, 303, an upper cylinder, 304, a lifting base, 305, a motor base, 306, a servo motor, 307 and a saw disc.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to FIGS. 1-5, the utility model provides a technical scheme that a drawing and corner cutting mechanism applied to an inner plate of an automobile rear wheel cover comprises a bearing lifting assembly 1 and a cutting and forming mechanism 3, wherein a positioning and clamping mechanism 2 for bolt assembly is arranged above the inner end of the bearing lifting assembly 1, and a cutting and forming mechanism 3 for bolt assembly is arranged above the outer end of the bearing lifting assembly 1;

The cutting and forming mechanism 3 comprises an end-to-end frame 301, a top base 302, an upper cylinder 303, a lifting base 304, a motor base 305, a servo motor 306 and a saw disc 307, wherein the end-to-end frame 301 is connected above the outer end of the bearing lifting assembly 1 through bolts, the top end of the end-to-end frame 301 is provided with the top base 302, the inner bottom side of the top base 302 is provided with the lifting base 304 of the output end of the upper cylinder 303, the inner end side of the lifting base 304 is provided with the motor base 305, and one side of the motor base 305 is provided with the saw disc 307 connected with the output end of the servo motor 306.

The saw disc 307 is in a circular knife-shaped structure, and the upper air cylinder 303 and the lifting base 304 are symmetrically distributed by the central axis of the motor base 305.

In this embodiment, when the cutting molding is needed, the upper cylinder 303 on the top base 302 is used to output power to drive the output end to operate, so that the upper cylinder 303 outputs power to drive the lifting base 304 to operate to a proper height position, and the servo motor 306 outputs power to drive the saw disc 307 installed at the output end to rotate at a high speed so as to achieve the cutting molding effect.

The bearing lifting assembly 1 comprises a cushion block 101, a bearing table 102, a waste box 103, a lower cylinder 104, a pushing rod 105, a gear box 106, a transmission gear 107, a swinging bar 108 and a carrying frame 109, wherein the bearing table 102 is arranged on the top side of the cushion block 101, the waste box 103 sleeved with bolts is arranged on the inner side of the bearing table 102, and the pushing rod 105 connected with the output end of the lower cylinder 104 is arranged above the waste box 103.

In this embodiment, after the product is cut and formed, the product is carried by the swing bar 108 and the carrying frame 109, then the product is lowered to a proper height by the operation of the lower cylinder 104 and the push rod 105, and the waste is carried and stored by the waste box 103.

The top side of push rod 105 is provided with gear box 106, and the interior limit side of gear box 106 is provided with drive gear 107, and drive gear 107's output is provided with swing strip 108, and the outer end of swing strip 108 is provided with carries on frame 109.

In this embodiment, when in use, the lower cylinder 104 on the waste box 103 is used to output power to drive the output end to rise to a proper height, the output end is lifted to a proper height by the push rod 105 through the gear box 106, and then the output end of the gear box 106 is used to drive the transmission gear 107 to engage and drive the transmission gear to drive the swing strip 108 to drive the carrying frame 109 to adjust to a proper angle position so as to drive the product to a proper height.

The positioning and clamping mechanism 2 comprises a double groove 201, a screw rod group 202, a sliding block 203, a connecting frame 204, a lifting cylinder 205, a bearing sleeve frame 206, an electric rotating seat 207, an end arm 208, a mechanical power arm 209 and a mechanical clamp 2010, wherein the double groove 201 is connected above two ends of the waste box 103 through bolts, the sliding block 203 for installing the connecting frame 204 is connected on the double groove 201 through threads of the screw rod group 202, and the bearing sleeve frame 206 for connecting the output end of the lifting cylinder 205 is arranged above the connecting frame 204.

In this embodiment, when processing is required, the output end of the double slot 201 is driven to operate by using the output power output from the output end of the double slot 201, so that after the lead screw group 202 of the double slot 201 operates, the slider 203 operates to a real-time position suitable for processing, and the bearing housing 206 is lifted to a suitable height after the lifting cylinder 205 on the connecting frame 204 outputs power to drive the output end to operate.

An electric rotating seat 207 is arranged on the inner side of the bearing sleeve frame 206, an end arm 208 is arranged on the side of the output end of the electric rotating seat 207, a mechanical power arm 209 is arranged on the inner side of one end of the end arm 208, and a mechanical clamp 2010 is arranged at the output end of the mechanical power arm 209.

In this embodiment, after the bearing housing 206 is lifted to a suitable height, the electric rotating base 207 is operated to move the end arm 208 to a suitable angle position, and when the end arm 208 is operated to a suitable position, the mechanical clamp 2010 at one end of the mechanical power arm 209 is used to adaptively clamp the product.

The working principle of the drawing corner cutting mechanism applied to the inner plate of the automobile rear wheel cover is as follows: when in use, the lower cylinder 104 on the waste box 103 is used for outputting power to drive the output end to be lifted to a proper height, the lifting cylinder 205 on the connecting frame 204 is used for outputting power to drive the output end to be lifted to the proper height through the gear box 106, then the electric rotating seat 207 is used for operating the end arm 208 to the proper angle position after the output end of the gear box 106 is operated to drive the transmission operation, when in use, the mechanical clamp 2010 at one end of the mechanical arm 209 is used for adaptively clamping the product when in use, the output end of the self-contained output end on the double grooving 201 is used for outputting power to drive the output end to operate, after the lead screw group 202 on the double grooving 201 is used for operating, the sliding block 203 is used for operating to the real-time position suitable for processing, the lifting cylinder 205 on the connecting frame 204 is used for outputting power to drive the output end to be lifted to the proper height, the bearing sleeve frame 206 is used for lifting the bearing frame 206 is used for operating to the proper height after the bearing frame 206 is lifted to the proper height, the mechanical clamp 2010 at one end of the mechanical arm 209 is used for operating the proper angle position after the end arm 208 is operated, when in use is used for adaptively clamping the product, when in use, the output end of the base seat 209 is used for driving the product is used for adaptively clamping the cut, when in use, the output end of the self-contained output end is used for driving the product to drive the output end to be driven to the cut to the end to be mounted to the product to the proper angle, when in use, the servo cylinder is used for driving the output end is mounted to be mounted to a high to the output end to be 303 is used for driving the output to be driven by the output end is used for driving the output end to be is used for driving a good to be can is used for driving a proper angle to be can is used for operating when can is used for operating. And uses the waste cartridge 103 to carry and store the waste.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (6)

1. The drawing corner cutting mechanism applied to the inner plate of the automobile rear wheel cover comprises a bearing lifting assembly (1) and a cutting forming mechanism (3) and is characterized in that a positioning clamping mechanism (2) assembled by bolts is arranged above the inner end of the bearing lifting assembly (1), and the cutting forming mechanism (3) assembled by the bolts is arranged above the outer end of the bearing lifting assembly (1);

The cutting and forming mechanism (3) comprises an end-to-frame (301), a top base (302), an upper cylinder (303), a lifting base (304), a motor base (305), a servo motor (306) and a saw disc (307), wherein the end-to-frame (301) is connected with the upper side of the outer end of the bearing lifting assembly (1) through bolts, the top end of the end-to-frame (301) is provided with the top base (302), the inner bottom side of the top base (302) is provided with the lifting base (304) of the output end of the upper cylinder (303), the inner end side of the lifting base (304) is provided with the motor base (305), and one side of the motor base (305) is provided with the saw disc (307) connected with the output end of the servo motor (306).

2. The drawing and chamfering mechanism applied to an inner plate of a rear wheel cover of an automobile according to claim 1, wherein the saw disc (307) is of a circular cutter-shaped structure, and the upper cylinder (303) and the lifting base (304) are symmetrically distributed by a central axis of the motor base (305).

3. The drawing corner cutting mechanism for the inner plate of the rear wheel cover of the automobile according to claim 1, wherein the bearing lifting assembly (1) comprises a cushion block (101), a bearing table (102), a waste box (103), a lower cylinder (104), a push rod (105), a gear box (106), a transmission gear (107), a swinging strip (108) and a carrying frame (109), the bearing table (102) is arranged on the top side of the cushion block (101), the waste box (103) sleeved by bolts is arranged on the inner side of the bearing table (102), and the push rod (105) connected with the output end of the lower cylinder (104) is arranged above the waste box (103).

4. The drawing corner cutting mechanism applied to the inner plate of the automobile rear wheel cover according to claim 3, wherein a gear box (106) is arranged on the top side of the pushing rod (105), a transmission gear (107) is arranged on the inner side of the gear box (106), a swinging strip (108) is arranged at the output end of the transmission gear (107), and a carrying frame (109) is arranged at the outer end of the swinging strip (108).

5. The drawing corner cutting mechanism for the inner plate of the rear wheel cover of the automobile according to claim 3, wherein the positioning and clamping mechanism (2) comprises a double groove (201), a screw rod group (202), a sliding block (203), a connecting frame (204), a lifting cylinder (205), a bearing sleeve frame (206), an electric rotating seat (207), an end arm (208), a mechanical power arm (209) and a mechanical clamp (2010), the double groove (201) is connected above two ends of the waste box (103) through bolts, the sliding block (203) for installing the connecting frame (204) is connected on the double groove (201) through the screw rod group (202) in a threaded mode, and the bearing sleeve frame (206) connected with the output end of the lifting cylinder (205) is arranged above the connecting frame (204).

6. The drawing and chamfering mechanism applied to an inner plate of a rear wheel cover of an automobile as set forth in claim 5, wherein an electric rotating seat (207) is arranged on the inner side of the bearing housing frame (206), an end arm (208) is arranged on the output end side of the electric rotating seat (207), a mechanical power arm (209) is arranged on the inner side of one end of the end arm (208), and a mechanical clamp (2010) is arranged at the output end of the mechanical power arm (209).