CN216308891U - Workpiece reference surface positioning detection device - Google Patents

Abstract

The utility model discloses a workpiece reference surface positioning and detecting device. A target workpiece to be detected in the device is placed on the workpiece conveying and conveying module, the workpiece fixing clamp is arranged on one side close to the tail end of the conveying and conveying module, the image acquisition and detection module is arranged on the other side close to the tail end of the conveying and conveying module, and the workpiece fixing clamp is electrically connected with the workpiece conveying and conveying module and the image acquisition and detection module respectively. When the proximity sensor detects a target workpiece, the workpiece conveying module stops, and the workpiece fixing clamp fixes the target workpiece to be detected; and an industrial camera and a laser displacement sensor of the image acquisition and detection module acquire key points of a reference surface of the target workpiece, so that related information of the reference surface is obtained, and the reference surface of the workpiece is positioned and detected. The utility model adopts a non-contact mode to carry out positioning detection on the reference surface of the workpiece, realizes automatic detection of the reference surface and improves the detection precision and efficiency.

Description

Workpiece reference surface positioning detection device

Technical Field

The utility model belongs to a workpiece positioning and detecting device in the field of machine vision, and particularly relates to a workpiece reference surface positioning and detecting device.

Background

The datum plane positioning detection is an important part in the workpiece size detection process, and the datum plane can ensure the machining precision, improve the detection precision and reduce the detection difficulty. The accurate positioning of the reference surface provides a scale and position reference for measurement, the detection precision of the size and the position of other surfaces is improved and ensured, and the detection speed and the detection efficiency are improved.

With the rapid development of information technology and robot technology, the content covered by the robot control technology is more and more abundant. As a new digital control device, the industrial robot has gained wide attention once coming out, and the functions are gradually improved after the constant exploration of experts, scholars and scientific researchers at home and abroad. The robot technology and the vision technology are combined and widely applied to the fields of object recognition, virtual reality, industrial detection and the like, and the vision technology can flexibly obtain three-dimensional information, position information, size information and the like of an object under various conditions.

With the continuous development of industry, the positioning detection of the workpiece reference surface develops towards the direction of automation, rapidness and high precision, the traditional manual positioning detection method is troublesome in operation, complex in process and low in efficiency, the detection accuracy is related to the operation mode of operators, strong uncertainty exists, and the method does not accord with the development trend of the current and future industries.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a workpiece reference surface positioning detection device, which adopts the combination of a robot mechanical arm, a camera and a laser displacement sensor, can realize the quick positioning, the high-efficiency measurement and the high-precision detection of the workpiece reference surface, can realize the quick and high-precision positioning detection of the large workpiece reference surface to be detected, liberates manpower, improves the detection efficiency and improves the automation of the reference surface detection.

In order to realize the purpose of the utility model, the technical scheme adopted by the utility model is as follows:

the device comprises a workpiece conveying and conveying module, a workpiece fixing clamp and an image acquisition and detection module;

the target workpiece to be detected is placed on the workpiece transportation and transmission module, the workpiece fixing clamp is arranged on one side close to the tail end of the transportation and transmission module, the image acquisition and detection module is arranged on the other side close to the tail end of the transportation and transmission module, and the workpiece fixing clamp is respectively and electrically connected with the workpiece transportation and transmission module and the image acquisition and detection module; the target workpiece to be detected is conveyed from the starting end to the tail end of the workpiece conveying and conveying module, when the target workpiece to be detected is conveyed to the position close to the tail end, the workpiece conveying and conveying module stops conveying, the workpiece fixing clamp fixes the target workpiece to be detected, the image acquisition and detection module positions and detects the reference surface of the target workpiece to be detected, then the workpiece conveying and conveying module continues conveying, and positioning and detection of the reference surface of the next target workpiece to be detected are started.

The workpiece conveying module comprises a belt conveyor, a conveyor belt controller and a proximity sensor;

the belt conveyor mainly comprises a conveyor belt and a frame, wherein the conveyor belt is arranged on the frame, the target workpiece to be detected is placed on the conveyor belt for conveying, a conveyor belt controller is fixedly arranged on one side of the frame close to the starting end of the conveyor belt, a proximity sensor and a workpiece fixing clamp are fixedly arranged on one side of the frame close to the tail end of the conveyor belt, the proximity sensor is arranged between two clamping ends of the workpiece fixing clamp and used for detecting the target workpiece to be detected, and the workpiece fixing clamp is used for fixing the target workpiece to be detected; the conveyor belt controller is respectively electrically connected with the proximity sensor and the workpiece fixing clamp, the proximity sensor is also electrically connected with the workpiece fixing clamp, an image acquisition and detection module is arranged on the other side of the rack close to the tail end of the conveyor belt, and the workpiece fixing clamp is electrically connected with the image acquisition and detection module.

The image acquisition and detection module comprises a base, an industrial camera, a laser displacement sensor, a storage rack, a six-axis mechanical arm and a mechanical arm controller;

the bottom fixed mounting of six arms is in the base, and arm controller fixed mounting is in one side of base and controls the motion of six arms, and the arm controller is connected with the work piece fixation clamp electricity, and industry camera and laser displacement sensor pass through supporter fixed mounting at the execution end of six arms, and industry camera and laser displacement sensor's optical axis is parallel, and industry camera is used for shooing and treats the target work piece of waiting, and laser displacement sensor is used for detecting the height of waiting to treat the key point on the target work piece reference surface.

Intervals are arranged among the proximity sensor, the workpiece fixing clamp, the image acquisition and detection module and the tail end of the conveyor belt

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, six mechanical arms and machine vision are combined, height information of key points on the reference surface of the workpiece is automatically detected and positioned in a non-contact manner through an industrial camera, and the reference surface information is further obtained, so that the detection precision and speed are improved, the labor is saved, the reject ratio of the product is reduced, and the automation degree of production is improved.

Drawings

FIG. 1 is a general block diagram of the apparatus of the present invention.

FIG. 2 is an enlarged view of a portion of the apparatus of the present invention.

FIG. 3 is a distribution diagram of the various keypoints of the reference plane.

In the figure: 1. the system comprises a belt conveyor, 2, a conveyor belt controller, 3, a target workpiece to be detected, 4, an industrial camera, 5, a laser displacement sensor, 6, a six-axis mechanical arm, 7, a workpiece fixing clamp, 8, a proximity sensor, 9, a mechanical arm controller and 10, a storage rack.

Detailed Description

The utility model is described in further detail below with reference to the figures and the embodiments.

As shown in fig. 1, the device comprises a workpiece conveying and conveying module, a workpiece fixing clamp 7 and an image acquisition and detection module;

the target workpiece 3 to be detected is placed on the workpiece transportation and transmission module, the workpiece fixing clamp 7 is arranged on one side close to the tail end of the transportation and transmission module, the image acquisition and detection module is arranged on the other side close to the tail end of the transportation and transmission module, and the workpiece fixing clamp 7 is electrically connected with the workpiece transportation and transmission module and the image acquisition and detection module respectively; the target workpiece 3 to be detected is conveyed from the starting end to the tail end of the workpiece conveying and conveying module, when the target workpiece 3 to be detected is conveyed to the position close to the tail end, the workpiece conveying and conveying module stops conveying, the workpiece fixing clamp 7 fixes the target workpiece 3 to be detected, the image acquisition and detection module positions and detects the reference surface of the target workpiece 3 to be detected, then the workpiece conveying and conveying module continues conveying, and positioning and detection of the reference surface of the next target workpiece 3 to be detected are started.

The workpiece conveying and conveying module comprises a belt conveyor 1, a conveyor belt controller 2 and a proximity sensor 8;

the belt conveyor 1 mainly comprises a conveyor belt and a frame, wherein the conveyor belt is arranged on the frame, a target workpiece 3 to be detected is placed on the conveyor belt for conveying, a conveyor belt controller 2 is fixedly arranged on one side of the frame close to the starting end of the conveyor belt, a proximity sensor 8 and a workpiece fixing clamp 7 are fixedly arranged on one side of the frame close to the tail end of the conveyor belt, the proximity sensor 8 is arranged between two clamping ends of the workpiece fixing clamp 7, the proximity sensor 8 is used for detecting the target workpiece 3 to be detected, and the workpiece fixing clamp 7 is used for fixing the target workpiece 3 to be detected; the conveyor belt controller 2 is respectively electrically connected with the proximity sensor 8 and the workpiece fixing clamp 7, the proximity sensor 8 is also electrically connected with the workpiece fixing clamp 7, an image acquisition detection module is arranged on the other side of the rack close to the tail end of the conveyor belt, and the workpiece fixing clamp 7 is electrically connected with the image acquisition detection module.

As shown in fig. 2, the image acquisition and detection module includes a base, an industrial camera 4, a laser displacement sensor 5, a shelf 10, a six-axis robot arm 6 and a robot arm controller 9;

the bottom fixed mounting of six arms 6 is in the base, base and ground fixed connection, arm controller 9 fixed mounting is in one side of base and controls the motion of six arms 6, arm controller 9 is connected with work piece fixation clamp 7 electricity, industrial camera 4 and laser displacement sensor 5 pass through supporter 10 fixed mounting at the execution end of six arms 6, industrial camera 4 and laser displacement sensor 5's optical axis is parallel, industrial camera 4 is used for shooting and waits to detect target work piece 3, laser displacement sensor 5 is used for detecting the height of waiting to detect the key point on the target work piece 3 reference surface.

All be provided with the interval between proximity sensor 8, work piece fixation clamp 7, image acquisition detection module and the conveyer belt end, in the concrete implementation, proximity sensor 8 is apart from the terminal 0.5 meter of conveyer belt, and work piece fixation clamp 7's the centre gripping end far away is apart from the terminal 0.7 meter of conveyer belt, and image acquisition detection module's six arms 6 are apart from the terminal 0.7 meter of conveyer belt.

The device of the utility model is implemented as follows:

the belt conveyor 1 is electrified to be started, the conveyor belt conveys a target workpiece 3 to be detected to a workpiece fixing clamp 7 at a constant speed, when the target workpiece 3 to be detected reaches a proximity sensor 8 on a rack, the proximity sensor 8 sends a signal to the conveyor belt controller 2 and the workpiece fixing clamp 7 when detecting the target workpiece 3 to be detected, the conveyor belt controller 2 controls the conveyor belt to stop moving, two clamping ends of the workpiece fixing clamp 7 extend towards the middle of the conveyor belt, so that the target workpiece 3 to be detected is fixed, and the target workpiece 3 to be detected is fixed between the two clamping ends of the workpiece fixing clamp 7. Then the workpiece fixing clamp 7 sends an action signal to the six-axis mechanical arm controller 9, the six-axis mechanical arm starts to move to the front of the workpiece reference surface, the industrial camera 4 shoots and collects image information of the target workpiece 3 to be detected, then the mechanical arm controller 9 controls the mechanical arms to move to the key point position of the reference surface one by one, the laser displacement sensor collects the key point position information of the workpiece reference surface, and at least three key point position information is collected, as shown in fig. 3. The key points are specifically holes, grooves, positioning columns, bulges and the like arranged on the reference surface.

After the industrial camera 4 and the laser displacement sensor 5 collect the image and the position information of the detected target workpiece 3, the mechanical arm controller 9 sends an instruction to control the six-axis mechanical arm 6 to return to the initial position, and simultaneously sends a signal to the workpiece fixing clamp 7, so that the workpiece fixing clamp 7 acts to loosen the target workpiece 3 to be detected, after the target workpiece is loosened, the workpiece fixing clamp 7 sends a signal to the conveyor belt controller 2, the belt conveyor belt 1 recovers the uniform motion, and the detected workpiece meeting the detection standard is conveyed to the next link of the production line.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can understand that the modifications or substitutions within the technical scope of the present invention are included in the scope of the present invention, and therefore, the scope of the present invention should be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a work piece reference surface location detection device which characterized in that: comprises a workpiece conveying and transmitting module, a workpiece fixing clamp (7) and an image acquisition and detection module;

a target workpiece (3) to be detected is placed on the workpiece transportation and transmission module, a workpiece fixing clamp (7) is arranged on one side close to the tail end of the transportation and transmission module, an image acquisition and detection module is arranged on the other side close to the tail end of the transportation and transmission module, and the workpiece fixing clamp (7) is electrically connected with the workpiece transportation and transmission module and the image acquisition and detection module respectively; the target workpiece (3) to be detected is conveyed to the tail end from the starting end of the workpiece conveying module, when the target workpiece (3) to be detected is conveyed to the position close to the tail end, the workpiece conveying module stops conveying, the workpiece fixing clamp (7) fixes the target workpiece (3) to be detected, the image acquisition detection module positions and detects the datum plane of the target workpiece (3) to be detected, and then the workpiece conveying module continues conveying to start positioning and detection of the datum plane of the next target workpiece (3) to be detected.

2. The workpiece reference surface positioning and detecting device according to claim 1, wherein: the workpiece conveying and conveying module comprises a belt conveyor (1), a conveyor belt controller (2) and a proximity sensor (8);

the belt conveyor (1) mainly comprises a conveyor belt and a rack, the conveyor belt is installed on the rack, a target workpiece (3) to be detected is placed on the conveyor belt for conveying, a conveyor belt controller (2) is fixedly installed on one side of the rack close to the starting end of the conveyor belt, a proximity sensor (8) and a workpiece fixing clamp (7) are fixedly installed on one side of the rack close to the tail end of the conveyor belt, the proximity sensor (8) is arranged between two clamping ends of the workpiece fixing clamp (7), the proximity sensor (8) is used for detecting the target workpiece (3) to be detected, and the workpiece fixing clamp (7) is used for fixing the target workpiece (3) to be detected; the conveyor belt controller (2) is respectively electrically connected with the proximity sensor (8) and the workpiece fixing clamp (7), the proximity sensor (8) is also electrically connected with the workpiece fixing clamp (7), an image acquisition detection module is arranged on the other side of the rack close to the tail end of the conveyor belt, and the workpiece fixing clamp (7) is electrically connected with the image acquisition detection module.

3. The workpiece reference surface positioning and detecting device according to claim 1, wherein: the image acquisition and detection module comprises a base, an industrial camera (4), a laser displacement sensor (5), a storage rack (10), a six-axis mechanical arm (6) and a mechanical arm controller (9);

the bottom fixed mounting of six arms (6) is in the base, arm controller (9) fixed mounting is in one side of base and controls the motion of six arms (6), arm controller (9) are connected with work piece fixation clamp (7) electricity, industry camera (4) and laser displacement sensor (5) are through supporter (10) fixed mounting's execution end in six arms (6), the optical axis of industry camera (4) and laser displacement sensor (5) is parallel, industry camera (4) are used for shooing and wait to detect target work piece (3), laser displacement sensor (5) are used for detecting the height of waiting to detect the key point on target work piece (3) reference surface.

4. The workpiece reference surface positioning detection apparatus according to claim 2, wherein: intervals are arranged among the proximity sensor (8), the workpiece fixing clamp (7), the image acquisition detection module and the tail end of the conveyor belt.

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