CN204471378U - A kind of six-joint robot based on servo electric jar - Google Patents

Abstract

The utility model discloses a kind of six-joint robot based on servo electric jar, comprise base, rotation seat, the first pivoted arm, the second pivoted arm, the first counter-jib, the first servo electric jar, the two ends of the first servo electric jar are separately fixed on the first counter-jib and the first pivoted arm; The upper end thereof of the second pivoted arm has the 3rd pivoted arm, 3rd pivoted arm is provided with the second counter-jib, 3rd pivoted arm and the second counter-jib are positioned at the both sides of the second pivoted arm end, and the 3rd pivoted arm and the second counter-jib are integral type structure, be provided with the second servo electric jar between second counter-jib and the first counter-jib, the two ends of the second servo electric jar are separately fixed on the second counter-jib and the first counter-jib.Its reasonable in design, simple to operate, easy to use.Coordinate the accuracy and stability that can keep capturing by servo electric jar and counter-jib, simultaneously by the servomotor that servo electric jar replaces in the past, also can reduce manufacturing cost largely.

Description

A kind of six-joint robot based on servo electric jar

Technical field

The utility model relates to robotics, relates to a kind of six-joint robot based on servo electric jar specifically.

Background technology

Along with the popularization and application of industrial automation, robot widely uses.Wherein, six-joint robot with it comparatively flexibly, the advantage of highly versatile and occupy sizable ratio.But the between centers of conventional six-joint robot rotates and adopts servomotor and decelerator, and preparation cost is higher.

Therefore, utility model people of the present utility model needs a kind of new technology of design badly to improve its problem.

Utility model content

The utility model aims to provide the lower six-joint robot based on servo electric jar of a kind of preparation cost.

For solving the problems of the technologies described above, the technical solution of the utility model is:

A kind of six-joint robot based on servo electric jar, comprise base, the left side of described base is fixedly installed rotation seat, and the axis being parallel of described rotation seat is in horizontal plane, the lower end of the first pivoted arm is fixed on described rotation seat, and described first pivoted arm can around the axis reciprocating rotation of described rotation seat; The upper end of described first pivoted arm and the lower end of the second pivoted arm hinged, the lower end of described second pivoted arm is provided with the first counter-jib, described first counter-jib and described second pivoted arm are positioned at the both sides of described first pivoted arm end, described first counter-jib and described second pivoted arm are structure as a whole, be provided with the first servo electric jar between the free end of described first counter-jib and the lower end of described first pivoted arm, the two ends of described first servo electric jar are separately fixed on described first counter-jib and described first pivoted arm; The upper end thereof of described second pivoted arm has the 3rd pivoted arm, described 3rd pivoted arm is provided with the second counter-jib, described 3rd pivoted arm and described second counter-jib are positioned at the both sides of described second pivoted arm end, and described 3rd pivoted arm and described second counter-jib are integral type structure, be provided with the second servo electric jar between described second counter-jib and described first counter-jib, the two ends of described second servo electric jar are separately fixed on described second counter-jib and described first counter-jib.

Further, described 3rd pivoted arm is provided with the first rotating part, the output shaft of described first rotating part is consistent with the bearing of trend of described 3rd pivoted arm, the end winding support of the output shaft of described first rotating part is connected with the second rotating part, the axis horizontal of the output shaft of described second rotating part is arranged, the end winding support of the output shaft of described second rotating part is connected with the 3rd rotating part, and the output shaft of described 3rd rotating part is arranged straight down.

Further, it is hinged that the first connection rotating shaft is passed through in the upper end of described first pivoted arm and the lower end of the second pivoted arm, and it is hinged that the second connection rotating shaft is passed through in the upper end of described second pivoted arm and the lower end of described 3rd pivoted arm.

Further, the rotational angle of described second pivoted arm is-30 ° ~ 36 °, and the rotational angle of described 3rd pivoted arm is-10 ° ~ 20 °.

Further, the rotational angle of described rotation seat is ± 160 °, and the rotational angle of described first rotating part is ± 180 °, and the rotational angle of described second rotating part is-100 ° ~ 120 °, and the rotational angle of described 3rd rotating part is ± 180 °.

Further, described first connection rotating shaft and/or described second connection rotating shaft are bearing.

Further, described rotation seat and/or described first rotating part and/or described second rotating part and/or described 3rd rotating part are servomotor.

Further, described bearing is the light-duty bearing of precision that external diameter is greater than or equal to 200mm.

Further, the output shaft of described 3rd rotating part is provided with mechanical gripper straight down.

Adopt technique scheme, the utility model at least comprises following beneficial effect:

Six-joint robot based on servo electric jar described in the utility model, reasonable in design, simple to operate, easy to use.Coordinate the accuracy and stability that can keep capturing by servo electric jar and counter-jib, simultaneously by the servomotor that servo electric jar replaces in the past, also can reduce manufacturing cost largely.

Accompanying drawing explanation

Fig. 1 is the structural representation of the six-joint robot based on servo electric jar described in the utility model;

Fig. 2 is the structural representation of the six-joint robot in-position based on servo electric jar described in the utility model;

Fig. 3 is the structural representation that the six-joint robot based on servo electric jar described in the utility model exits position.

Wherein: 1. base, 2. rotation seat, 3. the first pivoted arm, 4. the second pivoted arm, 40. first connection rotating shafts, 41. first counter-jibs, 5. the first servo electric jar, 6. the 3rd pivoted arm, 60. second connection rotating shafts, 61. second counter-jibs, 62. balance weights, 7. the second servo electric jar, 8. the first rotating part, 9. the second rotating part, 10. the 3rd rotating part.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further illustrated.

As shown in Figure 1 to Figure 3, for meeting a kind of six-joint robot based on servo electric jar of the present utility model, comprise base 1, described base 1 is horizontal base, is arranged on level ground.The left side of described base 1 is fixedly installed rotation seat 2, and the axis being parallel of described rotation seat 2 is in horizontal plane, and the lower end of the first pivoted arm 3 is fixed on described rotation seat 2, and described first pivoted arm 3 can around the axis reciprocating rotation of described rotation seat 2; The upper end of described first pivoted arm 3 and the lower end of the second pivoted arm 4 hinged, the lower end of described second pivoted arm 4 is provided with the first counter-jib 41, described first counter-jib 41 and described second pivoted arm 4 are positioned at the both sides of described first pivoted arm 3 end, described first counter-jib 41 is structure as a whole with described second pivoted arm 4, be provided with the first servo electric jar 5 between the free end of described first counter-jib 41 and the lower end of described first pivoted arm 3, the two ends of described first servo electric jar 5 are separately fixed on described first counter-jib 41 and described first pivoted arm 3; The upper end thereof of described second pivoted arm 4 has the 3rd pivoted arm 6, described 3rd pivoted arm 6 is provided with the second counter-jib 61, described 3rd pivoted arm 6 and described second counter-jib 61 are positioned at the both sides of described second pivoted arm 4 end, and described 3rd pivoted arm 6 and described second counter-jib 61 are integral type structure, be provided with the second servo electric jar 7 between described second counter-jib 61 and described first counter-jib 41, the two ends of described second servo electric jar 7 are separately fixed at described second counter-jib 61 with on described first counter-jib 41.

In the present embodiment, the setting of two counter-jibs is mainly in order to provide opposing torque, thus ensures the balance in crawl process.Through test determination, the trimming moment of described first counter-jib 41 is 30% of described second pivoted arm 4 resultant couple, and the trimming moment of described second counter-jib 61 is 40% of described 3rd pivoted arm 6 resultant couple.After have employed the counter-jib structure described in the present embodiment, the six-joint robot described in the present embodiment is not only made to capture product more stable, simultaneously through experimental test display because of the minimizing of its trimming moment, thus comparablely do not have the armshaft of counter-jib structure to economize on electricity, reach significantly energy-conservation effect.Simultaneously by the servomotor that servo electric jar replaces in the past, not only can keep the accuracy that captures and stability, also can reduce manufacturing cost largely simultaneously, there are larger market prospects.

Preferably, described 3rd pivoted arm 6 is provided with the first rotating part 8, the output shaft of described first rotating part 8 is consistent with the bearing of trend of described 3rd pivoted arm 6, the end winding support of the output shaft of described first rotating part 8 is connected with the second rotating part 9, the axis horizontal of the output shaft of described second rotating part 9 is arranged, the end winding support of the output shaft of described second rotating part 9 is connected with the 3rd rotating part 10, and the output shaft of described 3rd rotating part 10 is arranged straight down.Described 3rd pivoted arm 6 is also provided with balance weight 62, and described balance weight 62 is contrary with the bearing of trend of the output shaft of described first rotating part 8, is mainly used in balancing overall center of gravity, makes it more stable when capturing product.

Preferably, it is hinged that the first connection rotating shaft 40 is passed through in the upper end of described first pivoted arm 3 and the lower end of the second pivoted arm 4, and it is hinged that the second connection rotating shaft 60 is passed through in the upper end of described second pivoted arm 4 and the lower end of described 3rd pivoted arm 6.

As shown in Figures 2 and 3, the rotational angle of described second pivoted arm 4 is-30 ° ~ 36 °, and the rotational angle of described 3rd pivoted arm 6 is-10 ° ~ 20 °.Preferably, the rotational angle of described rotation seat 2 is ± 160 °, and the rotational angle of described first rotating part 8 is ± 180 °, and the rotational angle of described second rotating part 9 is-100 ° ~ 120 °, and the rotational angle of described 3rd rotating part 10 is ± 180 °.

Preferably, described first connection rotating shaft 40 and/or described second connection rotating shaft 60 are bearing, described rotation seat 2 and/or described first rotating part 8 and/or described second rotating part 9 and/or described 3rd rotating part 10 are servomotor, described bearing is the light-duty bearing of precision that external diameter is greater than or equal to 200mm, and the output shaft of described 3rd rotating part 10 is provided with mechanical gripper straight down.Those skilled in the art should know; technical scheme described above is a kind of preferred embodiment of the present embodiment; be intended to absolutely prove that the present embodiment is not for the restriction to the present embodiment, any apparent formal argument and replacement are all within the protection domain of the present embodiment.

The operation principle of the present embodiment is: when deployed, guarantees that six-joint robot completes corresponding grasping movement by controlling servomotor to the first servo electric jar 5 and the second servo electric jar 7.Described first servo electric jar 5 passes through when ejecting or shrink to promote described first counter-jib 41, and then drives described second pivoted arm 4 to rotate around described first connection rotating shaft 40, thus can guarantee that the rotational angle of described second pivoted arm 4 is between-30 ° ~ 36 °; Described second servo electric jar 7 passes through when ejecting or shrink to promote described second counter-jib 61, and then drives described 3rd pivoted arm 6 to rotate around described second connection rotating shaft 60, thus the rotational angle can guaranteeing described 3rd pivoted arm 6 is-10 ° ~ 20 °; Can realize capturing product accurately with coordinating of counter-jib by servo electric jar.

The six-joint robot based on servo electric jar described in the present embodiment, reasonable in design, simple to operate, easy to use.Coordinate the accuracy and stability that can keep capturing by servo electric jar and counter-jib, simultaneously by the servomotor that servo electric jar replaces in the past, also can reduce manufacturing cost largely.

Above an embodiment of the present utility model has been described in detail, but described content is only the preferred embodiment that the utility model is created, and can not be considered to for limiting practical range of the present utility model.All any equivalent variations done according to the utility model application range, all should still be within patent covering scope of the present utility model.

Claims (9)

1. the six-joint robot based on servo electric jar, it is characterized in that, comprise base, the left side of described base is fixedly installed rotation seat, the axis being parallel of described rotation seat is in horizontal plane, the lower end of the first pivoted arm is fixed on described rotation seat, and described first pivoted arm can around the axis reciprocating rotation of described rotation seat; The upper end of described first pivoted arm and the lower end of the second pivoted arm hinged, the lower end of described second pivoted arm is provided with the first counter-jib, described first counter-jib and described second pivoted arm are positioned at the both sides of described first pivoted arm end, described first counter-jib and described second pivoted arm are structure as a whole, be provided with the first servo electric jar between the free end of described first counter-jib and the lower end of described first pivoted arm, the two ends of described first servo electric jar are separately fixed on described first counter-jib and described first pivoted arm; The upper end thereof of described second pivoted arm has the 3rd pivoted arm, described 3rd pivoted arm is provided with the second counter-jib, described 3rd pivoted arm and described second counter-jib are positioned at the both sides of described second pivoted arm end, and described 3rd pivoted arm and described second counter-jib are integral type structure, be provided with the second servo electric jar between described second counter-jib and described first counter-jib, the two ends of described second servo electric jar are separately fixed on described second counter-jib and described first counter-jib.

2. as claimed in claim 1 based on the six-joint robot of servo electric jar, it is characterized in that: described 3rd pivoted arm is provided with the first rotating part, the output shaft of described first rotating part is consistent with the bearing of trend of described 3rd pivoted arm, the end winding support of the output shaft of described first rotating part is connected with the second rotating part, the axis horizontal of the output shaft of described second rotating part is arranged, the end winding support of the output shaft of described second rotating part is connected with the 3rd rotating part, and the output shaft of described 3rd rotating part is arranged straight down.

3. as claimed in claim 2 based on the six-joint robot of servo electric jar, it is characterized in that: it is hinged that the first connection rotating shaft is passed through in the upper end of described first pivoted arm and the lower end of the second pivoted arm, it is hinged that the second connection rotating shaft is passed through in the upper end of described second pivoted arm and the lower end of described 3rd pivoted arm.

4., as claimed in claim 3 based on the six-joint robot of servo electric jar, it is characterized in that: the rotational angle of described second pivoted arm is-30 ° ~ 36 °, the rotational angle of described 3rd pivoted arm is-10 ° ~ 20 °.

5. the six-joint robot based on servo electric jar as described in as arbitrary in claim 2-4, it is characterized in that: the rotational angle of described rotation seat is ± 160 °, the rotational angle of described first rotating part is ± 180 °, the rotational angle of described second rotating part is-100 ° ~ 120 °, and the rotational angle of described 3rd rotating part is ± 180 °.

6., as claimed in claim 3 based on the six-joint robot of servo electric jar, it is characterized in that: described first connection rotating shaft and/or described second connection rotating shaft are bearing.

7. as claimed in claim 2 based on the six-joint robot of servo electric jar, it is characterized in that: described rotation seat and/or described first rotating part and/or described second rotating part and/or described 3rd rotating part are servomotor.

8., as claimed in claim 6 based on the six-joint robot of servo electric jar, it is characterized in that: described bearing is the light-duty bearing of precision that external diameter is greater than or equal to 200mm.

9., as claimed in claim 2 based on the six-joint robot of servo electric jar, it is characterized in that: the output shaft of described 3rd rotating part is provided with mechanical gripper straight down.