CN204525479U - A kind of lifting five axis robot - Google Patents

Abstract

The utility model provides a kind of lifting five axis robot, comprise pedestal (1), horizontal Primary Location device (2), horizontal accurate positioning device (3), Z axis telecontrol equipment (4), angular adjustment apparatus (5), product clamp device (6), horizontal Primary Location device (2) is installed on pedestal (1), horizontal accurate positioning device (3) is installed on horizontal Primary Location device (2), Z axis telecontrol equipment (4) is installed on horizontal accurate positioning device (3), angular adjustment apparatus (5) is installed on Z axis telecontrol equipment (4), product clamp device (6) is installed on angular adjustment apparatus (5), horizontal Primary Location device (2) realizes horizontal Primary Location, horizontal accurate positioning device (3) realizes level and accurately locates, Z axis telecontrol equipment (4) realizes Z-direction motion accurately location, angular adjustment apparatus (5) realizes angle adjustment, product clamp device (6) gripping product.This lifting five axis robot operating efficiency is high, and flexibility is good, and can two products of gripping simultaneously.

Description

A kind of lifting five axis robot

Technical field

The utility model relates to industry mechanical arm technical field, and particularly one lifts five axis robot.

Background technology

Manipulator is a kind of automation equipment with gripping and travelling workpiece function used in automated production process, and it is a kind of new device grown up in mechanization, automated production process.In recent years, along with the extensive use of electronic technology particularly electronic computer, the research and production of robot has become the emerging technology developed rapidly in high-tech sector, it facilitates the development of manipulator more, makes the combination that manipulator can realize with mechanization and automation better.Manipulator can replace the mankind to complete danger, repeat scissors and paste, alleviates human labour intensity, improves labour productive forces.Manipulator obtains application more and more widely, and in machinery industry, it can be used for parts assembling, the carrying, handling etc. of processing work.At present, manipulator has developed into an important component part in flexible manufacturing system and FMC FMC.Machine tool and manipulator are formed a flexible manufacturing system (FMS) or FMC jointly, during it is adapted to, small lot batch manufacture, huge work transfer device can be saved, compact conformation, and adaptability is very strong.When workpiece changes, flexible manufacturing system is easy to change, and is conducive to enterprise and constantly updates marketable kind, improve the quality of products, adapt to the needs of market competition better.

Now artificial three axles of industrial machine on the market or four axis robot, have certain limitation in practice, such as during clamping articles, once can only gripping product, and inefficiency, flexibility is also poor.

Utility model content

For above-mentioned prior art, it is high that technical problem to be solved in the utility model is to provide a kind of operating efficiency, and flexibility is good, and precision is high, good stability, and lifting five axis robot of energy gripping simultaneously two products.

In order to solve the problems of the technologies described above, the utility model provides a kind of lifting five axis robot, comprise pedestal, horizontal Primary Location device, horizontal accurate positioning device, Z axis telecontrol equipment, angular adjustment apparatus, product clamp device, described horizontal Primary Location device is installed on described pedestal, described horizontal accurate positioning device is installed on described horizontal Primary Location device, described Z axis telecontrol equipment is installed on described horizontal accurate positioning device, described angular adjustment apparatus is installed on described Z axis telecontrol equipment, described product clamp device is installed on described angular adjustment apparatus, described horizontal Primary Location device realizes horizontal Primary Location, described horizontal accurate positioning device realizes level and accurately locates, described Z axis telecontrol equipment realizes Z-direction motion accurately location, described angular adjustment apparatus realizes angle adjustment, described product clamp device gripping product.

Further improvement of the utility model is, described horizontal Primary Location device comprises the first stepper motor, base plate, the first decelerator, principal arm, described first stepper motor is provided with the first stepper motor output shaft, described first stepper motor is installed on described base plate, under described first decelerator is installed on described base plate, described first stepper motor output shaft is connected with described first decelerator, and one end of described principal arm is connected with described first decelerator.

Further improvement of the utility model is, described horizontal accurate positioning device comprises the second stepper motor, the second decelerator, auxiliary, described second stepper motor is provided with the second stepper motor output shaft, described second stepper motor, the second decelerator are installed on one end of described auxiliary respectively, described second stepper motor output shaft is connected with described second decelerator, and described second decelerator is connected with the other end of described principal arm.

Further improvement of the utility model is, described Z axis telecontrol equipment comprises the 3rd stepper motor, 3rd stepper motor installing plate, first synchronous pulley, second synchronous pulley, Timing Belt, guide rail, slide block, tooth bar, tooth bar mount pad, bearing pin, described 3rd stepper motor is provided with the 3rd stepper motor output shaft, described 3rd stepper motor is installed on described 3rd stepper motor installing plate, described 3rd stepper motor installing plate is fixedly connected with the other end of described auxiliary, described first synchronous pulley is fixedly installed in described 3rd stepper motor output shaft, described second synchronous pulley is rotationally connected by described bearing pin and described 3rd stepper motor installing plate, described Timing Belt respectively with described first synchronous pulley, second synchronous belt pulley transmission connects, described guide rail is fixedly installed in described 3rd stepper motor installing plate, described guide rail is connected with described skid, described tooth bar is installed on described tooth bar mount pad, described tooth bar mount pad is fixedly connected with described slide block, described tooth bar is engaged with described Timing Belt.

Further improvement of the utility model is, described angular adjustment apparatus comprises the 4th stepper motor, the 4th stepper motor installing plate, torsion plate, torque stand, described 4th stepper motor is provided with the 4th stepper motor output shaft, described 4th stepper motor is installed on described 4th stepper motor installing plate, described 4th stepper motor installing plate is fixedly connected with described slide block, described torsion plate is fixedly installed in described 4th stepper motor output shaft, and described torque stand is fixedly installed in torsion plate.

Further improvement of the utility model is, described product clamp device comprises finger cylinder, the first jaw, the second jaw, sucker, sucker fixed block, described finger cylinder is provided with two pneumatic-fingers, described first jaw, the second jaw are installed on described two pneumatic-fingers respectively, described sucker is installed on described finger cylinder by sucker fixed block, under described finger cylinder is installed on described torque stand.

Further improvement of the utility model is, described first decelerator, the second decelerator are all harmonic speed reducer.

Further improvement of the utility model is, described angular adjustment apparatus also comprises force snesor, and described force snesor is installed between described torsion plate, torque stand.

Further improvement of the utility model is, described Z axis telecontrol equipment also comprises cushion pad, and described cushion pad is fixedly installed in described 3rd stepper motor installing plate top, buffering when moving upward for described slide block.

Further improvement of the utility model is, described Z axis telecontrol equipment also comprises Timing Belt strainer, described Timing Belt strainer comprises adjustment block, trip bolt, tensioning screw, described 3rd stepper motor installing plate bottom is provided with regulating tank, square cavity, described bearing pin is fixedly installed in described adjustment block, described adjustment block is placed in described square cavity also to loosen with it and connects, described trip bolt passes described regulating tank and is threaded with described adjustment block, described tensioning screw is threaded with described adjustment block through the through hole bottom described 3rd stepper motor installing plate.

Compared with prior art; after the utility model adopts the horizontal Primary Location of horizontal Primary Location device; horizontal accurate positioning device again level is accurately located; then Z axis telecontrol equipment realizes Z-direction motion accurately location; then angular adjustment apparatus adjusts suitable angle, then product clamp device gripping product; This lifting five axis robot operating efficiency is high, and flexibility is good, and precision is high, good stability.Described angular adjustment apparatus and product clamp device are all set to two groups simultaneously, and so just energy gripping simultaneously two products, realize the function of two products of gripping simultaneously.

Accompanying drawing explanation

Fig. 1 is stereogram of the present utility model;

Fig. 2 is the stereogram after the utility model removes pedestal;

Fig. 3 is horizontal Primary Location device stereogram of the present utility model;

Fig. 4 is the stereo unfolding figure of Fig. 3;

Fig. 5 is horizontal accurate positioning device stereogram of the present utility model;

Fig. 6 is the stereo unfolding figure of Fig. 5;

Fig. 7 is Z axis telecontrol equipment stereogram of the present utility model;

Fig. 8 is the 3rd stepper motor installing plate stereogram of the present utility model;

Fig. 9 is the stereo unfolding figure of Fig. 7;

Figure 10 is angular adjustment apparatus stereogram of the present utility model;

Figure 11 is product clamp device stereogram of the present utility model;

Figure 12 is the stereo unfolding figure of Figure 10;

Figure 13 is the stereo unfolding figure of Figure 11.

In figure, each component names is as follows:

1-pedestal;

2-horizontal Primary Location device;

21-the first stepper motor;

22-base plate;

23-the first decelerator;

24-principal arm;

241-the first Angle ambiguity block;

242-the second Angle ambiguity block;

3-horizontal accurate positioning device;

31-the second stepper motor;

32-the second decelerator;

33-auxiliary;

4-Z axis telecontrol equipment;

401-the three stepper motor;

402-the three stepper motor installing plate;

4021-regulating tank;

4022-square cavity;

403-the first synchronous pulley;

404-the second synchronous pulley;

405-Timing Belt;

406-guide rail;

407-slide block;

408-tooth bar;

409-tooth bar mount pad;

410-bearing pin;

411-cushion pad;

412-Timing Belt strainer;

4121-adjustment block;

4122-trip bolt;

4123-tensioning screw;

5-angular adjustment apparatus;

51-the four stepper motor;

52-the four stepper motor installing plate;

53-torsion plate;

54-torque stand;

55-force snesor;

6-product clamp device;

61-finger cylinder;

611-pneumatic-finger;

62-the first jaw;

63-the second jaw;

64-sucker;

65-sucker fixed block.

Detailed description of the invention

To illustrate below in conjunction with accompanying drawing and detailed description of the invention further illustrates the utility model.

As shown in Figures 1 and 2, a kind of lifting five axis robot, comprise pedestal 1, horizontal Primary Location device 2, horizontal accurate positioning device 3, Z axis telecontrol equipment 4, angular adjustment apparatus 5, product clamp device 6, described horizontal Primary Location device 2 is installed on described pedestal 1, described horizontal accurate positioning device 3 is installed on described horizontal Primary Location device 2, described Z axis telecontrol equipment 4 is installed on described horizontal accurate positioning device 3, described angular adjustment apparatus 5 is installed on described Z axis telecontrol equipment 4, described product clamp device 6 is installed on described angular adjustment apparatus 5, described horizontal Primary Location device 2 realizes horizontal Primary Location, described horizontal accurate positioning device 3 realizes level and accurately locates, described Z axis telecontrol equipment 4 realizes Z-direction motion accurately location, described angular adjustment apparatus 5 realizes angle adjustment, described product clamp device 6 gripping product.

Particularly; as shown in Figures 3 and 4; described horizontal Primary Location device 2 comprises the first stepper motor 21, base plate 22, first decelerator 23, principal arm 24; described first stepper motor 21 is provided with the first stepper motor output shaft; described first stepper motor 21 is fixedly installed on described base plate 22; described first decelerator 23 is fixedly installed in described base plate 22 times; described first stepper motor output shaft is fixedly connected with described first decelerator 23, and one end of described principal arm 24 is fixedly connected with described first decelerator 23; Described first decelerator 23 is harmonic speed reducer, and described base plate 22 is fixedly installed in described pedestal 1 time.

Particularly; as shown in Figures 5 and 6; described horizontal accurate positioning device 3 comprises the second stepper motor 31, second decelerator 32, auxiliary 33; described second stepper motor 31 is provided with the second stepper motor output shaft; described second stepper motor 31, second decelerator 32 is fixedly installed in one end of described auxiliary 33 respectively; described second stepper motor output shaft is fixedly connected with described second decelerator 32, and described second decelerator 32 is fixedly connected with the other end of described principal arm 24; Described second decelerator 32 is harmonic speed reducer.

Particularly, as Fig. 7, shown in Fig. 8 and Fig. 9, described Z axis telecontrol equipment 4 comprises the 3rd stepper motor 401, 3rd stepper motor installing plate 402, first synchronous pulley 403, second synchronous pulley 404, Timing Belt 405, guide rail 406, slide block 407, tooth bar 408, tooth bar mount pad 409, bearing pin 410, described 3rd stepper motor 401 is provided with the 3rd stepper motor output shaft, described 3rd stepper motor 401 is fixedly installed in described 3rd stepper motor installing plate 402 back side, the back side of described 3rd stepper motor installing plate 402 is fixedly connected with the other end of described auxiliary 33, described first synchronous pulley 403 is fixedly installed in described 3rd stepper motor output shaft, described second synchronous pulley 404 is rotationally connected with described 3rd stepper motor installing plate 402 by described bearing pin 410, described Timing Belt 405 respectively with described first synchronous pulley 403, second synchronous pulley 404 is in transmission connection, described guide rail 406 is fixedly installed in before described 3rd stepper motor installing plate 402, described guide rail 406 is slidably connected with described slide block 407, described tooth bar 408 is fixedly installed in described tooth bar mount pad 409, described tooth bar mount pad 409 is fixedly connected with described slide block 407, described tooth bar 408 is engaged with described Timing Belt 405, the quantity of described guide rail 406, slide block 407, tooth bar 408, tooth bar mount pad 409, bearing pin 410 is all 2.Preferably, described Z axis telecontrol equipment 4 also comprises two cushion pads 411, and described two cushion pads 411 are fixedly installed in described 3rd stepper motor installing plate 402 top respectively, buffering when moving upward for described slide block 407.Described Z axis telecontrol equipment 4 also comprises Timing Belt strainer 412, described Timing Belt strainer 412 comprises adjustment block 4121, trip bolt 4122, tensioning screw 4123, described 3rd stepper motor installing plate 402 bottom is provided with regulating tank 4021, square cavity 4022, described bearing pin 410 is fixedly installed in described adjustment block 4121, described adjustment block 4121 is placed in described square cavity 4022 also to loosen with it and connects, described trip bolt 4122 passes described regulating tank 4021 and is threaded with described adjustment block 4121, described tensioning screw 4123 is threaded with described adjustment block 4121 through the through hole bottom described 3rd stepper motor installing plate 402, unclamp described trip bolt 4122, and turn described tensioning screw 4123 up and down and can realize Timing Belt 405 tensioning or unclamp.

Particularly, as shown in Figure 10 and Figure 12, described angular adjustment apparatus 5 comprises the 4th stepper motor 51, the 4th stepper motor installing plate 52, torsion plate 53, torque stand 54, described 4th stepper motor 51 is provided with the 4th stepper motor output shaft, described 4th stepper motor 51 is fixedly installed in described 4th stepper motor installing plate 52, described 4th stepper motor installing plate 52 is fixedly connected with described slide block 407, described torsion plate 53 is fixedly installed in described 4th stepper motor output shaft, and described torque stand 54 is fixedly installed in torsion plate 53.

Particularly, as shown in Figure 11 and Figure 13, described product clamp device 6 comprises finger cylinder 61, first jaw 62, second jaw 63, sucker 64, sucker fixed block 65, described finger cylinder 61 is provided with two pneumatic-fingers 611, described first jaw 62, second jaw 63 is fixedly installed in described two pneumatic-finger 611 places respectively, described sucker 64 is fixedly installed in described finger cylinder 61 by sucker fixed block 65, and described finger cylinder 61 is fixedly installed in described torque stand 54 times.Described angular adjustment apparatus 5 also comprises force snesor 55, and described force snesor 55 is fixedly installed between described torsion plate 53, torque stand 54, and described force snesor 55 is for measuring power when product drawn by described sucker 64.Described angular adjustment apparatus 5 and product clamp device 6 are all two groups, so that energy gripping simultaneously two products, raise the efficiency, save man-hour.

Preferably; as shown in Figure 4; described principal arm 24 is also provided with the first Angle ambiguity block 241, second Angle ambiguity block 242; described first Angle ambiguity block 241 is fixedly installed in one end place near described principal arm 24, and described first Angle ambiguity block 241 is for controlling the maximum anglec of rotation of described principal arm 24; Described first Angle ambiguity block 242 is fixedly installed in the other end place near described principal arm 24, and described second Angle ambiguity block 242 is for controlling the maximum anglec of rotation of described auxiliary 33.

The utility model also comprises control system, and described control system is for controlling the work of described first stepper motor 21, second stepper motor 31, the 3rd stepper motor 401, the 4th stepper motor 51, finger cylinder 61.

Operation principle of the present utility model is as follows:

Horizontal Primary Location: control system sends signal and rotates to described first stepper motor 21, first stepper motor output shaft and drive described principal arm 24 to rotate by the first decelerator 23, drives together with the auxiliary 33 that connects with principal arm 24 simultaneously and rotates to assigned address;

Level is accurately located: control system sends signal and rotates to described second stepper motor 31, second stepper motor output shaft and drive described auxiliary 33 to rotate to assigned address by the second decelerator 32, realizes accurately locating;

Z-direction is accurately located: control system sends signal to described 3rd stepper motor 401, 3rd stepper motor output shaft rotates and passes through the first synchronizing wheel 403, second synchronizing wheel 404 drives described Timing Belt 405 to drive and moves up and down, described Timing Belt 405 drives described tooth bar 408 to move together, described tooth bar 408 is with movable slider 407 to move up and down along guide rail 406 by tooth bar mounting blocks 409, described slide block 407 drives the 4th stepper motor 51 be attached thereto, finger cylinder 61 moves up and down together, finally reach sucker 65 accurately to locate in the Z-axis direction, adsorb product,

Angle accurate adjustment is located: control system sends signal to described 4th stepper motor 51; described 4th stepper motor output shaft rotates and drives described product clamp device 6 to rotate together by torsion plate 53, torque stand 54, finally reaches the object of angle accurate adjustment location;

Gripping product: control system sends signal to described finger cylinder 61, two pneumatic-fingers 611 described in described finger cylinder 61 task driven work gripping or unclamp product.

The utility model has the advantage of; after the utility model adopts the horizontal Primary Location of horizontal Primary Location device; horizontal accurate positioning device again level is accurately located; then Z axis telecontrol equipment realizes Z-direction motion accurately location; then angular adjustment apparatus adjusts suitable angle, then product clamp device gripping product; This lifting five axis robot operating efficiency is high, and flexibility is good, and precision is high, good stability.Described angular adjustment apparatus and product clamp device are all set to two groups simultaneously, and so just energy gripping simultaneously two products, realize the function of two products of gripping simultaneously.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. lifting five axis robot, it is characterized in that: comprise pedestal (1), horizontal Primary Location device (2), horizontal accurate positioning device (3), Z axis telecontrol equipment (4), angular adjustment apparatus (5), product clamp device (6), described horizontal Primary Location device (2) is installed on described pedestal (1), described horizontal accurate positioning device (3) is installed on described horizontal Primary Location device (2), described Z axis telecontrol equipment (4) is installed on described horizontal accurate positioning device (3), described angular adjustment apparatus (5) is installed on described Z axis telecontrol equipment (4), described product clamp device (6) is installed on described angular adjustment apparatus (5), described horizontal Primary Location device (2) realizes horizontal Primary Location, described horizontal accurate positioning device (3) realizes level and accurately locates, described Z axis telecontrol equipment (4) realizes Z-direction motion accurately location, described angular adjustment apparatus (5) realizes angle adjustment, described product clamp device (6) gripping product.

2. lifting as claimed in claim 1 five axis robot, it is characterized in that: described horizontal Primary Location device (2) comprises the first stepper motor (21), base plate (22), first decelerator (23), principal arm (24), described first stepper motor (21) is provided with the first stepper motor output shaft, described first stepper motor (21) is installed on described base plate (22), under described first decelerator (23) is installed on described base plate (22), described first stepper motor output shaft is connected with described first decelerator (23), one end of described principal arm (24) is connected with described first decelerator (23).

3. lifting as claimed in claim 2 five axis robot, it is characterized in that: described horizontal accurate positioning device (3) comprises the second stepper motor (31), second decelerator (32), auxiliary (33), described second stepper motor (31) is provided with the second stepper motor output shaft, described second stepper motor (31), second decelerator (32) is installed on one end of described auxiliary (33) respectively, described second stepper motor output shaft is connected with described second decelerator (32), described second decelerator (32) is connected with the other end of described principal arm (24).

4. lifting as claimed in claim 3 five axis robot, it is characterized in that: described Z axis telecontrol equipment (4) comprises the 3rd stepper motor (401), 3rd stepper motor installing plate (402), first synchronous pulley (403), second synchronous pulley (404), Timing Belt (405), guide rail (406), slide block (407), tooth bar (408), tooth bar mount pad (409), bearing pin (410), described 3rd stepper motor (401) is provided with the 3rd stepper motor output shaft, described 3rd stepper motor (401) is installed on described 3rd stepper motor installing plate (402), described 3rd stepper motor installing plate (402) is fixedly connected with the other end of described auxiliary (33), described first synchronous pulley (403) is fixedly installed in described 3rd stepper motor output shaft, described second synchronous pulley (404) is rotationally connected by described bearing pin (410) and described 3rd stepper motor installing plate (402), described Timing Belt (405) respectively with described first synchronous pulley (403), second synchronous pulley (404) is in transmission connection, described guide rail (406) is fixedly installed in described 3rd stepper motor installing plate (402), described guide rail (406) and described slide block (407) are slidably connected, described tooth bar (408) is installed on described tooth bar mount pad (409), described tooth bar mount pad (409) is fixedly connected with described slide block (407), described tooth bar (408) is engaged with described Timing Belt (405).

5. lifting as claimed in claim 4 five axis robot, it is characterized in that: described angular adjustment apparatus (5) comprises the 4th stepper motor (51), 4th stepper motor installing plate (52), torsion plate (53), torque stand (54), described 4th stepper motor (51) is provided with the 4th stepper motor output shaft, described 4th stepper motor (51) is installed on described 4th stepper motor installing plate (52), described 4th stepper motor installing plate (52) is fixedly connected with described slide block (407), described torsion plate (53) is fixedly installed in described 4th stepper motor output shaft, described torque stand (54) is fixedly installed in torsion plate (53).

6. lifting as claimed in claim 5 five axis robot, it is characterized in that: described product clamp device (6) comprises finger cylinder (61), first jaw (62), second jaw (63), sucker (64), sucker fixed block (65), described finger cylinder (61) is provided with two pneumatic-fingers (611), described first jaw (62), second jaw (63) is installed on described two pneumatic-fingers (611) respectively, described sucker (64) is installed on described finger cylinder (61) by sucker fixed block (65), under described finger cylinder (61) is installed on described torque stand (54).

7. lifting five axis robot as described in any one of claim 3 to 6, is characterized in that: described first decelerator (23), the second decelerator (32) are all harmonic speed reducer.

8. lifting five axis robot as described in claim 5 or 6, it is characterized in that: described angular adjustment apparatus (5) also comprises force snesor (55), described force snesor (55) is installed between described torsion plate (53), torque stand (54).

9. lifting five axis robot as described in any one of claim 4 to 6, it is characterized in that: described Z axis telecontrol equipment (4) also comprises cushion pad (411), described cushion pad (411) is fixedly installed in described 3rd stepper motor installing plate (402) top, buffering when moving upward for described slide block (407).

10. lifting five axis robot as described in any one of claim 4 to 6, it is characterized in that: described Z axis telecontrol equipment (4) also comprises Timing Belt strainer (412), described Timing Belt strainer (412) comprises adjustment block (4121), trip bolt (4122), tensioning screw (4123), described 3rd stepper motor installing plate (402) bottom is provided with regulating tank (4021), square cavity (4022), described bearing pin (410) is fixedly installed in described adjustment block (4121), described adjustment block (4121) is placed in described square cavity (4022) also to loosen with it and connects, described trip bolt (4122) is through described regulating tank (4021) and be threaded with described adjustment block (4121), described tensioning screw (4123) is threaded with described adjustment block (4121) through the through hole of described 3rd stepper motor installing plate (402) bottom.