CN220689984U - Hub processing hole site mechanical detection device - Google Patents

Abstract

The utility model discloses a mechanical detection device for hub machining hole sites, which belongs to the technical field of hub detection and aims to solve the problems of high labor intensity, easy omission and false detection of the existing manual detection of hub machining hole sites.

Description

Hub processing hole site mechanical detection device

Technical Field

The utility model belongs to the technical field of hub detection, and particularly relates to the technical field of multi-specification hub hole position detection for hub production.

Background

The hub is a cylindrical barrel shaped with the inner profile of the tire supporting the tire and a metal member centrally mounted on the axle. The hub has various types according to the diameter, width, forming mode and different materials; the hub after drilling needs to be subjected to hole site detection operation in the hub machining process, the hub is various in variety, corresponding drilling diameters and hole pitches are different, traditional manual detection is adopted, detection task quantity is heavy, error detection is easy to cause, detection omission and other conditions are easy to occur, pure visual detection is adopted, and due to burrs around the hub hole, visual identification is affected, and accurate detection cannot be achieved.

Disclosure of Invention

The utility model aims at: the mechanical detection device for the machining hole site is used for solving the problems that the existing hub is various in variety, large in labor intensity in manual detection, easy to misplug, missed in detection and incapable of accurately detecting due to vision.

The technical scheme adopted by the utility model is as follows:

the utility model provides a wheel hub processing hole site machinery detection device, includes unable adjustment base, bearing frame, big synchronous pulley, rotatory lift cylinder, thrust bearing and detects the lift cylinder, the guide rail is all installed to unable adjustment base both sides, install the base that slides on the guide rail, install lifting rotary unit supporting seat and detecting unit supporting seat on the base that slides, the unable adjustment base below is installed the position and is switched the cylinder, and the position is switched the cylinder and is linked to each other with the base that slides through the position switching cylinder connecting piece, through the position switching cylinder motion, drives the base motion that slides.

Further, the bearing pedestal and the servo motor are arranged on the lifting rotary unit supporting seat, the bearing is arranged on the bearing pedestal, the bearing is connected with the spline shaft through a spline shaft connecting piece, the large synchronous pulley is connected with the spline shaft through a large pulley tensioning sleeve, the top of the spline shaft is provided with a rotary tray, the bottom of the spline shaft is provided with a lifting cylinder connecting piece, the thrust bearing is arranged on a thrust bearing mounting shaft, the driving end of the rotary lifting cylinder is connected with the lifting cylinder connecting piece through the thrust bearing mounting shaft, the flange end of the rotary lifting cylinder is connected with the sliding base through the rotary lifting cylinder connecting piece, the servo motor is provided with a servo motor connecting piece, and the small synchronous pulley is connected with the servo motor connecting piece through a small pulley tensioning sleeve and is connected with the large synchronous pulley through a synchronous belt.

Still further, detect the lift cylinder and install on detecting the unit supporting seat, install the detection dish mount pad on the detecting the unit supporting seat, install 5 detection modules and 3 sensors of blowing on the detection dish mount pad.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

the mechanical detection device for the hub machining hole site is short in time for manual detection compared with detection efficiency of the hub aperture and the hole pitch, high in precision, labor intensity is reduced, and production efficiency is greatly improved.

Drawings

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

FIG. 2 is a schematic view of the rear side of the three-dimensional structure of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

1-fixing a base; 2-a sliding base; 3-a servo motor; 4-small synchronous pulleys; 5-a synchronous belt; 6-a large synchronous pulley; 7-rotating a tray; 8-rotating a lifting cylinder; 9-detecting a lifting cylinder; 10-detecting a disc; 11-an air blowing detection module; 12-position switching cylinder; 13-thrust bearings; 14-spline shaft; 15-lifting cylinder connector; 16-bearings; 17-a guide rail; 18-limiting blocks; 19-a rotary unit support base; 20-a detection unit supporting seat; 21-a spline shaft connection; 22-a large belt pulley tensioning sleeve; 23-a small belt pulley tensioning sleeve; 24-detecting a disc mounting seat; 25-bearing seat, 26-position switching cylinder connector, 27-thrust bearing mounting shaft, 28-rotating lifting cylinder connector, 29-servo motor connector and 30-sensor.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Examples

As shown in fig. 1 to 3, a mechanical detection device for hub machining hole sites is provided, a servo motor 3 is connected with a small synchronous pulley 4 through a servo motor connecting piece 29, the small synchronous pulley 4 is connected with a large synchronous pulley 6 through a synchronous belt 5, the large synchronous pulley 6 is connected with a spline shaft 14 through a spline shaft connecting piece 21, one end of the spline shaft 14 is connected with a rotary tray 7, the other end of the spline shaft is connected with a rotary lifting cylinder 8 through a lifting cylinder connecting piece 15, after the spline shaft 14 has the characteristics of being capable of performing rotary motion and linear motion, the rotary lifting cylinder 8 pushes the spline shaft 14 to lift the rotary tray 7, the hub on the rotary tray is driven to lift up together, then the servo motor 3 drives the large synchronous pulley 6 to rotate through driving the small synchronous pulley 4, at this moment, the spline shaft 14 drives the hub to rotate, a vision lens above the hub detects the hole site to rotate to a fixed angle, a feedback signal is fed back to the servo motor 3, the servo motor 3 stops rotating, s subsequently rotates the lifting cylinder 8 to be lowered onto the drum, then a position switching cylinder 12 extends, after a sliding base 2 is contacted with a limiting block 18, the sliding base 2 stops moving, a detection unit is driven to move down, a wheel hub detection unit is driven to lift up and a wheel hub detection module 11 is driven to lift up and the wheel hub detection module is completely, the wheel is driven to lift up and down, the wheel detection module is completely, and the blowing detection module is driven to detect the wheel is blown by the wheel is positioned, and the blowing air, and the blowing detection module is completely, and the blowing detection module is detected. The whole detection is completed, the hubs with various specifications can be detected by replacing the detection disc, and flexible production is realized.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (3)

1. The utility model provides a wheel hub processing hole site machinery detection device, includes unable adjustment base (1), bearing frame (25), big synchronous pulley (6), rotatory lift cylinder (8), thrust bearing and detects lift cylinder (9), its characterized in that: guide rails (17) are arranged on two sides of the fixed base (1), a sliding base (2) is arranged on the guide rails (17), a lifting rotary unit supporting seat (19) and a detecting unit supporting seat (20) are arranged on the sliding base (2), a position switching cylinder (12) is arranged below the fixed base (1), and the position switching cylinder (12) is connected with the sliding base (2) through a position switching cylinder connecting piece (26) and moves through the position switching cylinder (12) to drive the sliding base (2) to move.

2. The hub machining hole site mechanical detection device of claim 1, wherein: bearing frame (25) and servo motor (3) are installed on lifting rotary unit supporting seat (19), install bearing (16) on bearing frame (25), bearing (16) link to each other with spline shaft (14) through spline shaft connecting piece (21), big synchronous pulley (6) link to each other with spline shaft (14) through big band pulley tight cover (22), rotatory tray (7) are installed at spline shaft (14) top, lift cylinder connecting piece (15) are installed to spline shaft (14) bottom, thrust bearing installs on thrust bearing installation axle (27), rotatory lift cylinder (8) drive end links to each other with lift cylinder connecting piece (15) through thrust bearing installation axle (27), rotatory lift cylinder (8) flange end links to each other with base (2) that slides through rotatory lift cylinder connecting piece (28), install servo motor connecting piece (29) on servo motor (3), little synchronous pulley (4) link to each other with servo motor connecting piece (29) through little band pulley tight cover (23), little synchronous pulley (4) link to each other with synchronous pulley (6) through little synchronous pulley (5).

3. The hub machining hole site mechanical detection device of claim 1, wherein: the detection lifting cylinder (9) is arranged on the detection unit supporting seat (20), a detection disc mounting seat (24) is arranged on the detection unit supporting seat (20), and 5 blowing detection modules and 3 sensors (30) are arranged on the detection disc mounting seat (24).