CN204789350U - Multidimensional detection robot - Google Patents

Abstract

The utility model discloses a multidimensional detection robot, include: a top, this vision detection system includes: for transporting the assembly line of work piece, be used for detecting the work piece vision detection system, connect this vision detection system's multidimension motion control system, vision detection system locates the assembly line can absorb the device at the multidimension motion of a plurality of directions adjustment output shaft position and angle, the image that is fixed in the output shaft terminal. The utility model discloses absorb the device with the image and install on the output shaft of multidimension motion, through multidimension motion transform output the shaft position and angle, realized that single image absorbs a plurality of degrees of freedom motion of device, has accomplished the multidimensional detection discernment to being examined the work piece.

Description

A kind of multi-dimensions test robot

Technical field

The utility model relates to technical field of vision detection, is specifically related to a kind of multi-dimensions test robot.

Background technology

Vision-based detection replaces human eye measure and judge with machine exactly.Vision-based detection refers to that will be ingested target by machine vision product converts picture signal to, sends special image processing system to, according to pixel distribution and the information such as brightness, color, is transformed into digitized signal; Picture system carries out various computing to extract clarification of objective to these signals, and then controls on-the-spot device action according to the result differentiated.Vision-based detection is used in the production of product, assembling or packaging usually.

Traditional sensing techniques vision system is fixed, only has detected workpiece to arrive assigned address by travelling belt, carries out detection and differentiates.There is following shortcoming in traditional sensing techniques:

1, high to the transport accuracy requirement of travelling belt, if the position of workpiece has deviation can affect the testing result of vision system, reduce the validity of detection;

2, vision system can only meet the low side demand of workpiece sensing, detects, there is check frequency at specific direction to workpiece, cannot adapt to the multi-faceted testing requirement of workpiece.

Utility model content

For solving the problems of the technologies described above, the utility model proposes a kind of multi-dimensions test robot, this multi-dimensions test robot can not only realize the multi-dimensions test identification of workpiece, and require lower to the transport clamping of workpiece, self-adaptative adjustment and compensation can be done in certain limit according to the physical location of workpiece, eliminate the impact of location of workpiece deviation, improve detection efficiency.

The technical solution adopted in the utility model is, design a kind of multi-dimensions test robot, comprise: for transport workpiece streamline, for detecting the vision detection system of workpiece, connecting the multi-dimensional movement control system of this vision detection system, vision detection system is located at the top of streamline, and this vision detection system comprises: can adjust the multi-dimensional movement mechanism of position of output axle and angle, be fixed on the image-pickup device of described output shaft end in multiple directions.

Wherein, multi-dimensional movement mechanism comprises: column, be connected to principal post one side Mobile base moving up and down, one end and Mobile base hinged can horizontal hunting armed lever, with the described armed lever other end hinged can horizontal hunting rotation seat, to be vertically located on rotation seat bottom surface can along the turret of own axis, horizontal cross is located at can along the output shaft of own axis on turret, image-pickup device is fixed on output the tip of the axis.

The electric push-pull device that can promote Mobile base and move up and down is provided with in column, first electric rotary body that can swing with semaphore is provided with in Mobile base, be provided with the second electric rotary body driving rotation seat self to rotate, the 3rd electric rotary body driving turret to rotate in rotation seat, on turret, horizontal cross is fixed with the 4th electric rotary body driving output shaft to rotate.Electric push-pull device, the first electric rotary body, the second electric rotary body, the 3rd electric rotary body are all connected with multi-dimensional movement control system with the 4th electric rotary body.

Multi-dimensional movement control system comprises: the multi-dimensional movement controller be connected with vision detection system, the human-computer interaction device be connected with multi-dimensional movement controller and manual handling equipment.

The middle part of streamline is provided with the frame of an inner hollow, and the travelling belt of streamline is through frame, and vision detection system is fixed in frame, is provided with the electric cabinet be positioned at below travelling belt bottom frame, and multi-dimensional movement controller is located in this electric cabinet.Streamline two ends and middle part are equipped with the position transducer for detecting the location of workpiece, and position transducer is connected with multi-dimensional movement controller.

The output terminal of streamline is also interval with many group limiting plate assemblies, and often organize limiting plate assembly and comprise two limiting plates be oppositely arranged on streamline, the spacing between two limiting plates can be held workpiece and pass.

Housing shroud has casing, and casing is provided with the installing port with human-computer interaction device's dimensional fits, and bottom of shell side is provided with the cabinet door coordinated with electric cabinet position, and the two ends of casing are provided with the opening passed for streamline, and aperture position is provided with and hangs curtain.

Multi-dimensional movement controller also connects a panalarm, and cabinet top is located at by panalarm.

Compared with prior art, image-pickup device is arranged on the output shaft of multi-dimensional movement mechanism by the utility model, by position and the angle of multi-dimensional movement mechanism alternation output shaft, achieve multiple degree of freedom motions of single image capturing apparatus, complete the multi-dimensions test identification to examined workpiece, require low to the clamping transport of workpiece, and detect non-blind area in the dimensional space of setting.

Accompanying drawing explanation

Below in conjunction with embodiment and accompanying drawing, the utility model is described in detail, wherein:

Fig. 1 is the schematic appearance of the utility model entirety;

Fig. 2 is the cut-away view of the utility model entirety;

Fig. 3 is the stereographic map of the utility model vision detection system;

Fig. 4 is the planimetric map of the utility model vision detection system.

Embodiment

As shown in Figure 1, 2, the multi-dimensions test robot that the utility model proposes, comprising: for transport workpiece streamline 1, for detecting the vision detection system of workpiece, connecting the multi-dimensional movement control system of this vision detection system 2.

Vision detection system 2 comprises: can adjust the multi-dimensional movement mechanism 21 of position of output axle and angle, be fixed on the image-pickup device 22 of output shaft end in multiple directions.Vision detection system 2 is set up in above the middle part of streamline 1, and the below that workpiece delivers to vision detection system 2 by streamline 1 is detected.Wherein, image-pickup device 22 can be set to industrial camera.

As shown in Figure 3,4, multi-dimensional movement mechanism 21 comprises: column 211, Mobile base 212, armed lever 213, rotation seat 214, turret 215 and output shaft 216.

One side of column 211 is provided with two chutes longitudinally arranged, the side adjacent with column 211 of Mobile base 212 is provided with the slide block coordinated with chute, the electric push-pull device that can promote slide block and move up and down is provided with in column 211, slide block stretches in column 211 through chute and fixes with the push-pull shaft of electric push-pull device, changes upper-lower position by the mobile Mobile base 212 that drives of slide block.

One end of armed lever 213 is hinged on Mobile base 212 bottom surface, first electric rotary body that can swing with semaphore 213 is provided with in Mobile base 212, the first vertical jointed shaft is provided with between armed lever 213 and Mobile base 212, the bottom of the first jointed shaft is fixing with armed lever 213, top is connected with the rotation axis of the first electric rotary body, starts the first electric rotary body and can swing armed lever 213.

Rotation seat 214 is hinged on the end face of armed lever 213 other end, the second electric rotary body driving rotation seat 214 self to rotate is provided with in rotation seat 214, the housing bottom of the second electric rotary body is fixed on armed lever 213, rotation axis vertical and rotation seat 214 is fixed, and starts the second electric rotary body and swingable rotation seat 214.

The swinging end bottom surface of rotation seat 214 is provided with turret 215 straight down, is provided with the 3rd electric rotary body driving turret 215 to rotate along own axes in rotation seat 214, starts the 3rd electric rotary body and rotatable turret 215.

Output shaft 216 horizontal cross is arranged on turret 215, on turret 215, horizontal cross is fixed with the 4th electric rotary body 217, rotating shaft and the output shaft 216 of the 4th electric rotary body 217 are in transmission connection, and starting the 4th electric rotary body can rotary output axis 216.

Wherein, image-pickup device 22 is fixed on the end of output shaft 216, the height and position of image-pickup device 22 can be adjusted by Mobile base 214, by the swing of armed lever 213 and rotation seat 214, and the rotation of turret 215 can adjust the right position of image-pickup device 22 at surface level, the angle of inclination of image-pickup device 22 and surface level can be adjusted by the rotation of output shaft 216, thus realize the five degree of freedom motion of single image capturing apparatus 22, simultaneously, streamline also can adjust the front and back position of workpiece below image-pickup device 22, to complete the multi-dimensions test identification to examined workpiece.In the present embodiment, armed lever 213 length is 250mm, and rotating range is ± 90 °, and rotation seat 214 length is 150mm, and rotating range is ± 100 °, and the stroke up and down of Mobile base 212 is 200mm, and rotating range is ± 360 °.

As shown in Figure 2, multi-dimensional movement control system comprises: the multi-dimensional movement controller be connected with vision detection system 2, the human-computer interaction device 3 be connected with multi-dimensional movement controller and manual handling equipment 4.Electric push-pull device, the first electric rotary body, the second electric rotary body, the 3rd electric rotary body are all connected with multi-dimensional movement controller with the 4th electric rotary body, are controlled the coordinate of multi-dimensional movement mechanism 2 auto modification image-pickup device 22 by multi-dimensional movement controller.Multi-dimensional movement mechanism 2 can also be multi-shaft interlocked, through the calculating Automatic Optimal motion planning of multi-dimensional movement controller, the five degree of freedom of image-pickup device 22 moves the fast automatic adjustment orientation and focal length that achieve the different depth of field of complex object, and multidimensional vision detects non-blind area, and detection efficiency is high.

Wherein, streamline 1 two ends and middle part are equipped with the position transducer 5 for detecting the location of workpiece, and position transducer 5 is connected with multi-dimensional movement controller.

In the present embodiment, as shown in Figure 1, the middle part of streamline 1 is provided with the frame 6 of an inner hollow, the travelling belt of streamline 1 is through frame 6, vision detection system 2 is fixed in frame 6, be provided with the electric cabinet 61 be positioned at below streamline 1 bottom frame 6, multi-dimensional movement controller is located in this electric cabinet 61.The output terminal of streamline 1 is also interval with many group limiting plate assemblies, often organize limiting plate assembly and comprise two limiting plates 7 be oppositely arranged on streamline, spacing between two limiting plates 7 can be held workpiece and pass, and limiting plate 7 pairs of workpiece carry out spacing to ensure that the position of workpiece on streamline 1 there will not be skew.Frame 6 is covered with casing 8, and casing 8 is provided with the installing port with human-computer interaction device 3 dimensional fits, and casing 8 bottom sides is provided with the cabinet door 81 coordinated with electric cabinet 61 position, and the two ends of casing 8 are provided with the opening passed for streamline 1, and aperture position is provided with and hangs curtain 82.

Multi-dimensional movement controller also connects a panalarm 9, and casing 8 top is located at by panalarm 9, and panalarm 9 can be alarm lamp, and when robot breaks down, the light of the alarm lamp place of sending out different colours or flicker etc. are to notify operating personnel.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (9)

1. a multi-dimensions test robot, it is characterized in that comprising: for transport workpiece streamline (1), for detecting the vision detection system (2) of workpiece, connecting the multi-dimensional movement control system of this vision detection system (2), described vision detection system (2) is located at the top of streamline (1), and this vision detection system (2) comprising: can adjust the multi-dimensional movement mechanism (21) of position of output axle and angle, be fixed on the image-pickup device (22) of described output shaft end in multiple directions.

2. multi-dimensions test robot as claimed in claim 1, it is characterized in that, described multi-dimensional movement mechanism (21) comprising: column (211), be connected to principal post (211) side Mobile base moving up and down (212), one end and Mobile base (212) is hinged can the armed lever (213) of horizontal hunting, with described armed lever (213) other end is hinged can the rotation seat (214) of horizontal hunting, vertically being located at can along the turret of own axis (215) on rotation seat (214) bottom surface, horizontal cross is located at can along the output shaft of own axis (216) on turret, described image-pickup device (22) is fixed on the end of output shaft (216).

3. multi-dimensions test robot as claimed in claim 2, it is characterized in that, the electric push-pull device that can promote Mobile base (212) and move up and down is provided with in described column (211), first electric rotary body that can swing with semaphore (213) is provided with in described Mobile base (212), the second electric rotary body driving rotation seat (214) self to rotate is provided with in described rotation seat (214), drive the 3rd electric rotary body that turret (215) rotates, the upper horizontal cross of described turret (215) is fixed with the 4th electric rotary body (217) driving output shaft (216) to rotate,

Described electric push-pull device, the first electric rotary body, the second electric rotary body, the 3rd electric rotary body are all connected with described multi-dimensional movement control system with the 4th electric rotary body.

4. the multi-dimensions test robot as described in above-mentioned any one claim, it is characterized in that, described multi-dimensional movement control system comprises: the multi-dimensional movement controller be connected with vision detection system, the human-computer interaction device (3) be connected with multi-dimensional movement controller and manual handling equipment (4).

5. multi-dimensions test robot as claimed in claim 4, it is characterized in that, described streamline (1) two ends and middle part are equipped with the position transducer (5) for detecting the location of workpiece, and described position transducer (5) is connected with described multi-dimensional movement controller.

6. multi-dimensions test robot as claimed in claim 5, it is characterized in that, the middle part of described streamline (1) is provided with the frame (6) of an inner hollow, the travelling belt of described streamline (1) is through described frame (6), described vision detection system (2) is fixed in frame (6), described frame (6) bottom is provided with the electric cabinet (61) be positioned at below travelling belt, and described multi-dimensional movement controller is located in this electric cabinet (61).

7. multi-dimensions test robot as claimed in claim 6, it is characterized in that, the output terminal of described streamline (1) is also interval with many group limiting plate assemblies, often organize limiting plate assembly and comprise two limiting plates (7) be oppositely arranged on streamline, the spacing between two limiting plates (7) can be held workpiece and pass.

8. multi-dimensions test robot as claimed in claims 6 or 7, it is characterized in that, described frame (6) is covered with casing (8), described casing (8) is provided with the installing port with human-computer interaction device (3) dimensional fits, casing (8) bottom sides is provided with the cabinet door (81) coordinated with electric cabinet position, the two ends of casing (8) are provided with the opening passed for streamline, and described aperture position is provided with and hangs curtain (82).

9. multi-dimensions test robot as claimed in claim 8, it is characterized in that, described multi-dimensional movement controller also connects a panalarm (9), and cabinet top is located at by described panalarm (9).