CN203018628U - Robot flexible stamping workpiece carrying system based on vision system - Google Patents

Abstract

The utility model discloses a robot flexible stamping workpiece carrying system based on a vision system. A vision positioning system shoots the position of a stamping workpiece placed on a positioning platform and performs coordinate analysis of the stamping workpiece; final coordinate data is transmitted to a robot control system; the robot control system controls arms of a robot to run, so that a clamp can quickly and accurately clamp the stamping workpiece to stamping equipment for stamping; after stamping is finished, the robot control system controls the arms of the robot to run, so that the clamp clamps the stamped workpiece to a discharging platform; the whole carrying process is finished by the carrying robot; automation of carrying is realized; the labor intensity of workers is low; and the efficiency is high.

Description

A kind of robot flexibility stamped workpieces handling system based on vision system

Technical field

The utility model relates to a kind of stamped workpieces handling system, is specifically related to a kind of robot flexibility stamped workpieces handling system based on vision system.

Background technology

The high temperature punching press refers to workpiece to be punched punch forming in the heating furnace heat treated is placed on pressing equipment, to obtain the metallic stamping pieces of excellent comprehensive mechanical property, the common employing of current industry manually is carried to described pressing equipment punching press with to be punched after described heating furnace heating, or employing special mechanical equipment, yet, with upper type, following defective is arranged: the large and high temperature workpiece heat radiation to be punched of a dead lift intensity, large to the human injury, in addition, artificial or adopt the special-purpose machinery handling efficiency low, be difficult to the demand that is adapted to produce in enormous quantities.

The utility model content

For the problem that prior art exists, the purpose of this utility model is to provide a kind of robot flexibility stamped workpieces handling system based on vision system, and it can realize that efficient is high to the automation of punching press workpiece handling.

a kind of robot flexibility stamped workpieces handling system based on vision system that the utility model provides, be located between heating furnace and pressing equipment, it comprises locating platform, vision positioning system, transfer robot, platform of blanking and switch board, described locating platform, described platform of blanking and described pressing equipment are all in the operating radius of described transfer robot, described switch board is controlled described locating platform, described vision positioning system, described transfer robot and described platform of blanking, wherein

described locating platform is in abutting connection with described heating furnace setting, in order to the stamping parts of carrying through described heating furnace heating, described locating platform comprises the locating platform base, the straight feeding device, the first drive unit, the first sense switch and the second sense switch, wherein, described straight feeding device is located on described locating platform base, and driving it by described the first drive unit moves horizontally, described the first sense switch and described the second sense switch are located on described locating platform base, and correspondence is near the two ends of described locating platform base respectively, further, the unlatching drive module setting of corresponding described the first drive unit of described the first sense switch, when described the first sense switch detects described stamping parts, described the first drive unit is opened the described straight feeding device of drive and is moved, move horizontally so that be placed in the described stamping parts of described straight feeding device, the shutdown drive module setting of corresponding described the first drive unit of described the second sense switch, when described the second sense switch detects described stamping parts, described the first drive unit is shut down, and this moment, described stamping parts be located at the baffle plate of described locating platform base away from an end of described heating furnace and contact, so that described stamping parts is parked in the position location,

described vision positioning system is taken pictures and coordinate setting in order to the described stamping parts that is opposite to described position location, and the elements of a fix data of described stamping parts are passed to described transfer robot, described vision positioning system comprises mounting bracket, adjustable support, camera lens and information processing system, wherein, described adjustable support is installed on the upper end of described mounting bracket, and can the up and down WidFin, described camera lens is installed on described adjustable support, described camera lens is opposite to the described stamping parts of described position location and takes pictures, by described information processing system, described stamping parts being carried out coordinate analysis processes, and the elements of a fix information of the described stamping parts after described information processing system will be processed is passed to described transfer robot,

Described platform of blanking comprises platform of blanking base and horizontal blanking device, and wherein, described horizontal blanking device is installed on described platform of blanking base, and drives it by the second drive unit and move horizontally;

described transfer robot comprises mounting seat, the robot arm, the instrument fast replacing device, fixture and the robot control system of controlling described robot arm action, wherein, described robot arm is rotatably installed on described mounting seat, described fixture is installed on the free end of described robot arm via described instrument fast replacing device, the communication mutually of described information processing system and described robot control system, by this, described robot control system receives the elements of a fix information of described stamping parts, be placed in the described stamping parts of described position location to described pressing equipment to control the fast and accurately gripping of described robot arm.

Further; driver module is shut down in the time-delay of concrete corresponding described the first drive unit of described the second sense switch; when described the second sense switch detects described stamping parts; described the first drive unit postpones to shut down after a certain setting-up time; to guarantee that each described stamping parts all contacts with described baffle plate, so that described stamping parts is total parked in described position location.

Further, described the first drive unit is drive motors, described straight feeding device comprises many roller shafts and a plurality of roller, wherein, described many roller shafts are connected with described the first drive unit by driving chain, to realize synchronous rotation, a plurality of described rollers are installed on the described roller shaft of each root, thereby the described stamping parts of high temperature is supported by described roller, and contact area is little and little to described straight feeding device heat injury.

Further, described locating platform comprises that the 3rd sense switch is located between described the first sense switch and described the second sense switch, the deceleration module of corresponding described the first drive unit of described the 3rd sense switch arranges, when described the 3rd sense switch detects described stamping parts, described the first drive unit runs slowly, move thereby described stamping parts was in than jogging speed before stopping at described position location, thereby the little motion of inertia is steady.

Further, described locating platform comprises that further lifting body is installed on below described camera lens, described lifting body comprises base plate, a plurality of push rod and the 3rd drive unit, when described stamping parts during in the described position location of described locating platform, described the 3rd drive unit drives the described stamping parts of described push rod jack-up and takes pictures for described camera lens, thereby, can adjust the distance of described stamping parts and described camera lens, so that take.

Further, on described base plate, background board is installed, described background board is described stamping parts and described the 3rd drive unit interval, with prevent described stamping parts to described the 3rd drive unit heat radiation.

Further; described vision positioning system further comprises light source and light source protective plate; described light source protective plate is installed on the top of described mounting bracket and is positioned at the below of described camera lens; further comprise lens protective cover, with further increase shooting effect and the described light source of protection and described camera lens.

Further, described adjustable support reaches horizontal fine motion via two adjusting bolts up and down to regulate it.

Further, the quantity of described platform of blanking is a plurality of, and each described horizontal blanking device is provided with for the accommodating material frame of described stamping parts after punch forming.

Further, comprise storing the fixture storage rack of fixture, described fixture storage rack is positioned at the operating radius of described transfer robot, thereby, can further enlarge described conveying robot transport operation scope, adapting to the transport operation needs of different workpieces, and then improve the flexibility of system.

Based on disclosing of above technical scheme, the utility model possesses following beneficial effect:

a kind of robot flexibility stamped workpieces handling system based on vision system that the utility model provides, described vision positioning system is opposite to the position of the described stamping parts of described locating platform and takes pictures and coordinate analysis, and final coordinate data is sent to described robot control system, described robot control system is controlled described robot arm action, so that the described stamping parts of described fixture gripping rapidly and accurately carries out punching press to described pressing equipment, after punching press finishes, described robot control system is controlled described robot arm action, so that the described stamping parts after described fixture gripping punch forming is to described platform of blanking, whole handling process is completed by described transfer robot, and realization carrying automation, hand labor intensity is little and efficient is high.

Description of drawings

The top view of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 1 provides for the utility model;

The locating platform of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 2 provides for the utility model and the front-view schematic diagram of vision positioning system;

The locating platform of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 3 provides for the utility model and the schematic side view of vision positioning system;

The schematic perspective view of the locating platform of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 4 provides for the utility model;

The schematic top plan view of the locating platform of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 5 provides for the utility model;

The schematic perspective view of the vision positioning system of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 6 provides for the utility model;

The schematic perspective view of the platform of blanking of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 7 provides for the utility model;

The schematic top plan view of the material frame of a kind of robot flexibility stamped workpieces handling system based on vision system that Fig. 8 provides for the utility model.

The drawing reference numeral explanation

Heating furnace 100

Pressing equipment 200

Stamping parts 300

Locating platform 1

Locating platform base 11 straight feeding device 12 roller shafts 121

Roller 122 first drive unit 13 first sense switches 14

The second sense switch 15 the 3rd sense switch 16 baffle plates 17

Driving chain 18 lifting body 19 base plates 191

Push rod 192 the 3rd drive unit 193 background boards 194

Described vision positioning system 2

Mounting bracket 21 adjustable support 22 camera lenses 23

Light source 24 light source protective plate 25 lens protective covers 26

Platform of blanking 3

Horizontal blanking device 32 second drive units 33 of platform of blanking base 31

Material frame 34

Described transfer robot 4

Mounting seat 41 robot arm 42 instrument fast replacing devices 43

Fixture 44

Fixture storage rack 5

Switch board 6

Man machine operation interface 7

The specific embodiment

Further illustrate the technical solution of the utility model below in conjunction with accompanying drawing and by the specific embodiment:

For the problem that prior art exists, the purpose of this utility model is to provide a kind of robot flexibility stamped workpieces handling system based on vision system, and it can realize that efficient is high to the automation of punching press workpiece handling.

see also Fig. 1 and Fig. 2, a kind of robot flexibility stamped workpieces handling system based on vision system that the utility model provides, be located between heating furnace 100 and pressing equipment 200, it comprises locating platform 1, vision positioning system 2, transfer robot 4, platform of blanking 3 and switch board 6, wherein, described locating platform 1, described platform of blanking 3 and described pressing equipment 200 are all in the operating radius of described transfer robot 4, described switch board 6 is controlled described locating platform 1, described vision positioning system 2, described transfer robot 4 and described platform of blanking 3, in the present embodiment, further be provided with the man machine operation interface 7 that reads and operate for operating personnel, and in order to store the fixture storage rack 5 of fixture 44, described fixture storage rack 5 is positioned at the operating radius of described transfer robot 4, thereby, can further enlarge described transfer robot 4 transport operation scopes, to adapt to the transport operation needs of different workpieces, and then improve the flexibility of system, certainly, the design is not limited to this, also described fixture storage rack 5 and described man machine operation interface 7 can be set.

see also Fig. 2 to Fig. 5, described locating platform 1 arranges in abutting connection with described heating furnace 100, in order to the stamping parts 300 of carrying through described heating furnace 100 heating, described locating platform 1 comprises locating platform base 11, straight feeding device 12, the first drive unit 13, the first sense switch 14 and the second sense switch 15, described straight feeding device 12 is located on described locating platform base 11, and driving it by described the first drive unit 13 moves horizontally, described the first sense switch 14 and described the second sense switch 15 are located on described locating platform base 11, described the first sense switch 14 is near the end setting of described locating platform base 11 near described heating furnace 100, described the second sense switch 15 is near the end setting of described locating platform base 11 away from described heating furnace 100, further, the unlatching drive module setting of described first sense switch 14 corresponding described the first drive units 13, when described the first sense switch 14 detects described stamping parts 300, described the first drive unit 13 is opened the described straight feeding device 12 of drive and is moved, move horizontally so that be placed in the described stamping parts 300 of described straight feeding device 12, the shutdown drive module setting of described the first drive unit 13 of described correspondence, when described the second sense switch 15 detects described stamping parts 300, described the first drive unit 13 is shut down, and this moment, described stamping parts 300 be located at the baffle plate 17 of described locating platform base 11 away from an end of described heating furnace 100 and contact, so that described stamping parts 300 is parked in the position location (not label).

See also Fig. 2, Fig. 3 and Fig. 5; in the present embodiment; driver module is shut down in the time-delay of described second sense switch 15 concrete corresponding described the first drive units 13; when described the second sense switch 15 detects described stamping parts 300; described the first drive unit 13 postpones to shut down after a certain setting-up time; to guarantee that each described stamping parts 300 all contacts with described baffle plate 17, so that described stamping parts 300 can be parked in described position location exactly.

See also Fig. 2, Fig. 3 and Fig. 5, in the present embodiment, described the first drive unit 13 is drive motors, described straight feeding device 12 comprises many roller shafts 121 and a plurality of roller 122, wherein, described many roller shafts 121 are connected with described the first drive unit 13 by driving chain 18, to realize synchronous rotation, on the described roller shaft 121 of each root, a plurality of described rollers 122 are installed, thereby, from described heating furnace 100 out the described stamping parts 300 of high temperature supported by described roller 122, contact area is little and little to described straight feeding device 12 heat injuries.

See also Fig. 2, Fig. 3 and Fig. 5, in the present embodiment, described locating platform 1 comprises that further the 3rd sense switch 16 is located between described the first sense switch 14 and described the second sense switch 15, the deceleration module of described the 3rd sense switch 16 corresponding described the first drive units 13 arranges, when described the 3rd sense switch 16 detects described stamping parts 300, described the first drive unit 13 runs slowly, thereby, can guarantee that described stamping parts 300 can be parked in described position location reposefully.

See also Fig. 2 to Fig. 3, in the present embodiment, described locating platform 1 comprises that further lifting body 19 is installed on described camera lens 23 belows, described lifting body 19 comprises base plate 191, a plurality of push rod 192 and the 3rd drive unit 193, particularly, described the 3rd drive unit 193 is cylinder, and certainly described the 3rd drive unit 193 drives and also can be other.

see also Fig. 1 to Fig. 3 and Fig. 6, described vision positioning system 2 is taken pictures and coordinate setting in order to the described stamping parts 300 that is opposite to described position location, and the elements of a fix data of described stamping parts 300 are passed to described transfer robot 4, described vision positioning system 2 comprises mounting bracket 21, adjustable support 22, camera lens 23 and information processing system (not shown), wherein, described adjustable support 22 is installed on the upper end of described mounting bracket 21, and can the up and down WidFin, in the present embodiment, described adjustable support 22 reaches horizontal fine motion via two adjusting bolts (not shown) up and down to regulate it, the design is not limited to this, described adjustable support 22 also can be regulated by other devices.Described camera lens 23 is installed on described adjustable support 22, described camera lens 23 is taken pictures in order to the described stamping parts 300 that is opposite to described position location, by described information processing system, described stamping parts 300 is carried out coordinate analysis and process, and the elements of a fix information of the described stamping parts 300 of described information processing system after processing is passed to described transfer robot 4.

See also Fig. 2 to Fig. 3, in the present embodiment, when described stamping parts 300 during in the described position location of described locating platform 1, described the 3rd drive unit 193 drives the described push rod 192 described stamping parts 300 of jack-up and takes pictures for described camera lens 23, thereby, can adjust the distance of described stamping parts 300 and described camera lens 23, so that take.

See also Fig. 2, in the present embodiment, on described base plate 191, background board 194 is installed, described background board 194 is described stamping parts 300 and described the 3rd drive unit 193 intervals, with prevent 300 pairs of described the 3rd drive units 193 of described stamping parts heat radiation.

See also Fig. 2, Fig. 3 and Fig. 6; further; in the present embodiment; described vision positioning system 2 comprises light source 24 and light source protective plate 25; described light source protective plate 25 is installed on the top of described mounting bracket 21 and is positioned at the below of described camera lens 23; further comprise camera lens 23 protective covers 26, with further increase shooting effect and the described light source 24 of protection and described camera lens 23.

See also Fig. 7 and Fig. 8, described platform of blanking 3 comprises platform of blanking base 31 and horizontal blanking device 32, wherein, described horizontal blanking device 32 is installed on described platform of blanking base 31, and driving it by the second drive unit 33 moves horizontally, in the present embodiment, the quantity of described platform of blanking 3 is a plurality of, and each described horizontal blanking device 32 is provided with for the accommodating material frame 34 of described stamping parts 300 after punch forming, the design is not limited to this, described material frame 34 can not arrange yet, and the quantity of described platform of blanking 3 can be one.

see also Fig. 1 and Fig. 2, described transfer robot 4 comprises mounting seat 41, robot arm 42, instrument fast replacing device 43, fixture 44 and the robot control system of controlling described robot arm 42 actions, wherein, described robot arm 42 is rotatably installed on described mounting seat 41, described fixture 44 is installed on the free end of described robot arm 42 via described instrument fast replacing device 43, the communication mutually of described information processing system and described robot control system, by this, described robot control system receives the elements of a fix information of described stamping parts 300, be placed in the described stamping parts 300 of described position location to described pressing equipment 200 to control the fast and accurately gripping of described robot arm 42, in the present embodiment, described instrument fast replacing device 43 can be chosen the instrument fast replacing device that U.S. ATI industrial automation Co., Ltd produces, so that being installed, different fixtures adapts to different described stamping parts 300 gripping needs.

See also Fig. 1 to Fig. 3 and Fig. 7, be provided with control system and respective lines in described switch board 6, to control described robot control system, described the first drive unit 13, described the second drive unit 33 and described the 3rd drive unit 193 etc., in the present embodiment, described switch board 6 can be controlled and show by described man machine operation interface 7.

Based on disclosing of above technical scheme, the utility model possesses following beneficial effect:

1, hand labor intensity is little and efficient is high: a kind of robot flexibility stamped workpieces handling system based on vision system that the utility model provides, described vision positioning system 2 is opposite to the position of the described stamping parts 300 of described locating platform 1 and takes pictures and coordinate analysis, and final coordinate data is sent to described robot control system, described robot control system is controlled described robot arm 42 actions, so that the described fixture 44 described stamping parts 300 of gripping carry out punching press to described pressing equipment 200, after punching press finishes, described robot control system is controlled described robot arm 42 actions, so that the described stamping parts 300 after described fixture 44 gripping punch formings is to described platform of blanking 3, whole handling process is completed and realizes carrying automation by described transfer robot 4, hand labor intensity is little and efficient is high.

2, high temperature protection setting, specifically the described locating platform 1 of finger is adopted by described roller 122 described stamping parts 300 contacts area of support little, little to described straight feeding device 12 heat injuries, and be provided with described background board 194 in described elevating mechanism, reduce the heat radiation of 300 pairs of described the 3rd drive units 193 of described stamping parts.

3, flexible high: as to be provided with described fixture 44 bracing frames in system and can to deposit a plurality of described fixtures 44, and described fixture 44 is installed on the free end of described robot arm 42 via described instrument fast replacing device 43, thereby, described robot control system can be controlled the different described fixtures 44 of described robot arm 42 quick-replaceables automatically, adapting to the transport operation needs of different workpieces, and then improve the flexibility of system.

4, system run all right: described locating platform 1 is provided with described the 3rd sense switch 16, thereby, described stamping parts 300 was in than jogging speed before stopping at described position location moves, thereby the little motion of inertia is steady.

5, artificial blanking intensity is little: system comprises a plurality of described platform of blankings 3, manually removes material intensity thereby alleviate.

The above has carried out exemplary description to the utility model by reference to the accompanying drawings; obvious realization of the present utility model is not subject to the restrictions described above; as long as the various improvement of having adopted method design of the present utility model and technical scheme to carry out; or without improving, design of the present utility model and technical scheme are directly applied to other occasion, all in protection domain of the present utility model.

Claims (10)

1. robot flexibility stamped workpieces handling system based on vision system, be located between heating furnace and pressing equipment, it is characterized in that, it comprises locating platform, vision positioning system, transfer robot, platform of blanking and switch board, described locating platform, described platform of blanking and described pressing equipment are all in the operating radius of described transfer robot, described switch board is controlled described locating platform, described vision positioning system, described transfer robot and described platform of blanking, wherein

described locating platform is in abutting connection with described heating furnace setting, in order to the stamping parts of carrying through described heating furnace heating, described locating platform comprises the locating platform base, the straight feeding device, the first drive unit, the first sense switch and the second sense switch, wherein, described straight feeding device is located on described locating platform base, and driving it by described the first drive unit moves horizontally, described the first sense switch and described the second sense switch are located on described locating platform base, and correspondence is near the two ends of described locating platform base respectively, further, the unlatching drive module setting of corresponding described the first drive unit of described the first sense switch, when described the first sense switch detects described stamping parts, described the first drive unit is opened the described straight feeding device of drive and is moved, move horizontally so that be placed in the described stamping parts of described straight feeding device, the shutdown drive module setting of corresponding described the first drive unit of described the second sense switch, when described the second sense switch detects described stamping parts, described the first drive unit is shut down, and this moment, described stamping parts be located at the baffle plate of described locating platform base away from an end of described heating furnace and contact, so that described stamping parts is parked in the position location,

described vision positioning system is taken pictures and coordinate setting in order to the described stamping parts that is opposite to described position location, and the elements of a fix data of described stamping parts are passed to described transfer robot, described vision positioning system comprises mounting bracket, adjustable support, camera lens and information processing system, wherein, described adjustable support is installed on the upper end of described mounting bracket, and can the up and down WidFin, described camera lens is installed on described adjustable support, described camera lens is opposite to the described stamping parts of described position location and takes pictures, by described information processing system, described stamping parts being carried out coordinate analysis processes, and the elements of a fix information of the described stamping parts after described information processing system will be processed is passed to described transfer robot,

Described platform of blanking comprises platform of blanking base and horizontal blanking device, and wherein, described horizontal blanking device is installed on described platform of blanking base, and drives it by the second drive unit and move horizontally;

described transfer robot comprises mounting seat, the robot arm, the instrument fast replacing device, fixture and the robot control system of controlling described robot arm action, wherein, described robot arm is rotatably installed on described mounting seat, described fixture is installed on the free end of described robot arm via described instrument fast replacing device, the communication mutually of described information processing system and described robot control system, by this, described robot control system receives the elements of a fix information of described stamping parts, be placed in the described stamping parts of described position location to described pressing equipment to control the fast and accurately gripping of described robot arm.

2. the robot flexibility stamped workpieces handling system based on vision system according to claim 1; it is characterized in that; driver module is shut down in the time-delay of concrete corresponding described the first drive unit of described the second sense switch; when described the second sense switch detected described stamping parts, described the first drive unit postponed to shut down after a certain setting-up time.

3. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, it is characterized in that, described the first drive unit is drive motors, described straight feeding device comprises many roller shafts and a plurality of roller, wherein, described many roller shafts are connected with described the first drive unit by driving chain, to realize synchronous rotation, a plurality of described rollers are installed on the described roller shaft of each root.

4. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, it is characterized in that, described locating platform comprises that the 3rd sense switch is located between described the first sense switch and described the second sense switch, the deceleration module of corresponding described the first drive unit of described the 3rd sense switch arranges, when described the 3rd sense switch detected described stamping parts, described the first drive unit ran slowly.

5. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, it is characterized in that, described locating platform comprises that further lifting body is installed on below described camera lens, described lifting body comprises base plate, a plurality of push rod and the 3rd drive unit, during in the described position location of described locating platform, described the 3rd drive unit drives the described stamping parts of described push rod jack-up and takes pictures for described camera lens when described stamping parts.

6. the robot flexibility stamped workpieces handling system based on vision system according to claim 5, is characterized in that, on described base plate, background board is installed, and described background board is with described stamping parts and described the 3rd drive unit interval.

7. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, it is characterized in that, described vision positioning system further comprises light source and light source protective plate, described light source protective plate is installed on the top of described mounting bracket and is positioned at the below of described camera lens, further comprises lens protective cover.

8. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, is characterized in that, described adjustable support reaches horizontal fine motion via two adjusting bolts up and down to regulate it.

9. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, it is characterized in that, the quantity of described platform of blanking is a plurality of, and each described horizontal blanking device is provided with for the accommodating material frame of described stamping parts after punch forming.

10. the robot flexibility stamped workpieces handling system based on vision system according to claim 1, is characterized in that, it further comprises storing the fixture storage rack of fixture, and described fixture storage rack is positioned at the operating radius of described transfer robot.

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