CN205905046U - Scalable blowing joint of getting - Google Patents

Abstract

The utility model provides a scalable blowing joint of getting, the root installation of first scraper bowl and second scraper bowl is in the same place, big underarm end is connected on the base, first telescopic link one end is connected on the base, the first telescopic link other end is connected with triangular connecting plate's first angle, triangular connecting plate's second angle is connected on big arm, triangular connecting plate's the third angle and the one end of second telescopic link are connected, the other end of second telescopic link is connected in the pivot of revolute pair no. 1, first sliding sleeve suit is connected in big arm upper end on the second telescopic link and through revolute pair seven. Originally, get that the blowing joint has overcome that robot arm weight is big, the rigidity is poor, inertia is big, joint error accumulative total scheduling problem, can use in complex operation such as welding, spraying, transport, loading and unloading, assembly, pile up neatly.

Description

A kind of scalable picking and placeing expects joint

Technical field

This utility model is related to mechanical field, and specifically a kind of scalable picking and placeing expects joint.

Background technology

Increased by the demand picking that mechanical arm carries out object.Pick refer to from the mixed and disorderly multiple objects piled up according to One object of secondary holding is simultaneously transported to the place specified.In the case that the mixed and disorderly object piled up is picked, for arranging The cost spatially of each parts feeder, for operating the temporal cost of each parts feeder to have time-varying many.

Traditional mechanical arm has the advantages that structure is simple, low cost, work space are big, but, comparatively cascade machine Device people's rigidity low it is impossible to be applied at a high speed, the big occasion carrying；Piling leads to that robot arm weight is big, poor rigidity, inertia Greatly, the problems such as joint error adds up, mechanism dynamic poor-performing is it is difficult to meet the requirement carrying at a high speed piling.With motor The development of technology and the raising of control technology, controllable mechanical mechanism provides wide development space for engineering machinery, also exists New requirements at the higher level are proposed on serviceability.

Utility model content

This utility model is directed to the deficiencies in the prior art, provides a kind of scalable picking and placeing to expect joint.

To achieve these goals, this utility model employs technical scheme below:

A kind of scalable picking and placeing expects joint, including the first scraper bowl, the second scraper bowl, large arm, base, the first expansion link, triangle Connecting plate, the second expansion link, the first sliding sleeve, first connecting rod, the 3rd expansion link, second connecting rod, the second sliding sleeve, third connecting rod, Four expansion links, fourth link, the 3rd sliding sleeve and walking mechanism.

The root of the first scraper bowl and the second scraper bowl passes through rotation secondary and is installed together.

Large arm lower end is passed through rotation secondary two and is connected on base, and first expansion link one end is passed through rotation secondary three and is connected to base On, the first expansion link other end is connected with first jiao of triangular connecting plate by rotation secondary four, and second jiao of triangular connecting plate leads to Cross rotation secondary five to be connected in large arm, the third angle of triangular connecting plate is passed through rotation secondary six and is connected with one end of the second expansion link, The other end of the second expansion link is connected in the rotating shaft rotating secondary, and the first sliding sleeve is sleeved on the second expansion link and by rotating Secondary seven are connected to large arm upper end.

First connecting rod one end is passed through rotation secondary eight and is connected on the second half section of the second expansion link, and the first connecting rod other end passes through Rotate secondary nine to be connected with the 3rd expansion link one end, the 3rd expansion link other end passes through rotation secondary ten and is connected to the first scraper bowl back, Second connecting rod one end is passed through rotation secondary 11 and is connected in the front half section of the second expansion link, and it is secondary that the second connecting rod other end passes through rotation 12 are connected on the second sliding sleeve, and the second sliding sleeve is sleeved on the 3rd expansion link.

Third connecting rod one end is passed through rotation secondary 13 and is connected on the second half section of the second expansion link, and the third connecting rod other end leads to Cross rotation secondary 14 to be connected with the 4th expansion link one end, the 4th expansion link other end passes through rotation secondary 15 and is connected to the second scraper bowl Back, fourth link one end is passed through rotation secondary 16 and is connected in the front half section of the second expansion link, and the fourth link other end passes through Rotate secondary 17 to be connected on the 3rd sliding sleeve, the 3rd sliding sleeve is sleeved on the 4th expansion link.

Base passes through rotation secondary 18 and is connected in walking mechanism.

Compared with prior art, the beneficial effect that this utility model possesses:

This utility model has that no cumulative error, precision are higher, compact conformation, large carrying capacity, rigidity are high and end is held The features such as row device inertia is little, driving means are placed in the position on fixed platform or close to fixed platform, and such motion parts are lightweight, Speed is high, and dynamic response is good, has that work space is big, rigidity is high, bearing capacity is strong, inertia is little and end effector precision height etc. Advantage, can apply in the complex jobs such as welding, spraying, carrying, handling, assembling, piling, effectively raise labour efficiency, Product quality and stability aspect improve a lot.Not only have that work space is big, flexible movements, reliability high, also have simultaneously There is low cost of manufacture, the advantages of maintaining is simple.

Brief description

Fig. 1 is the scalable structural representation one picking and placeing material joint of the present invention.

Fig. 2 is the scalable structural representation two picking and placeing material joint of the present invention.

Specific embodiment

Below by embodiment, the technical solution of the utility model is further elaborated.

Embodiment 1

A kind of scalable picking and placeing expects joint, stretches including the first scraper bowl 18, the second scraper bowl 19, large arm 20, base 21, first Bar 22, triangular connecting plate 23, the second expansion link 24, the first sliding sleeve 25, first connecting rod 26, the 3rd expansion link 27, second connecting rod 28, Second sliding sleeve 29, third connecting rod 30, the 4th expansion link 31, fourth link 32, the 3rd sliding sleeve 33 and walking mechanism,

The root of the first scraper bowl 18 and the second scraper bowl 19 passes through rotation secondary 1 and is installed together,

Large arm 20 lower end is passed through rotation secondary 22 and is connected on base 21, and the first expansion link 22 one end is passed through rotation secondary 33 and connected It is connected on base 21, the first expansion link 22 other end is connected with first jiao of triangular connecting plate 23 by rotation secondary 44, triangle is even Second jiao of fishplate bar 23 passes through to rotate secondary 55 and is connected in large arm 20, the third angle of triangular connecting plate 23 pass through to rotate secondary 66 with One end of second expansion link 24 connects, and the other end of the second expansion link 24 is connected in the rotating shaft rotating secondary 1, the first sliding sleeve 25 It is sleeved on the second expansion link 24 and be connected to large arm 20 upper end by rotating secondary 77,

First connecting rod 26 one end is passed through rotation secondary 88 and is connected on the second half section of the second expansion link 24, and first connecting rod 26 is another One end is passed through rotation secondary 99 and is connected with the 3rd expansion link 27 one end, and the 3rd expansion link 27 other end passes through rotation secondary 10 and connects At the first scraper bowl 18 back, second connecting rod 28 one end is passed through rotation secondary 11 and is connected in the front half section of the second expansion link 24, Second connecting rod 28 other end passes through rotation secondary 12 and is connected on the second sliding sleeve 29, and the second sliding sleeve 29 is sleeved on the 3rd expansion link On 27,

Third connecting rod 30 one end is passed through rotation secondary 13 and is connected on the second half section of the second expansion link 24, third connecting rod 30 The other end is passed through rotation secondary 14 and is connected with the 4th expansion link 31 one end, and the 4th expansion link 31 other end passes through to rotate secondary 15 15 are connected to the second scraper bowl 19 back, and fourth link 32 one end is passed through to rotate secondary 16 first halfs being connected to the second expansion link 24 Duan Shang, fourth link 32 other end passes through rotation secondary 17 and is connected on the 3rd sliding sleeve 33, and the 3rd sliding sleeve 33 is sleeved on the 4th On expansion link 31,

Base 21 passes through rotation secondary 18 and is connected in walking mechanism.

Claims (1)

1. a kind of scalable pick and place material joint it is characterised in that including the first scraper bowl, the second scraper bowl, large arm, base, first stretching Contracting bar, triangular connecting plate, the second expansion link, the first sliding sleeve, first connecting rod, the 3rd expansion link, second connecting rod, the second sliding sleeve, Three connecting rods, the 4th expansion link, fourth link, the 3rd sliding sleeve and walking mechanism,

The root of the first scraper bowl and the second scraper bowl passes through rotation secondary and is installed together,

Large arm lower end is passed through rotation secondary two and is connected on base, and first expansion link one end is passed through rotation secondary three and is connected on base, The first expansion link other end is connected with first jiao of triangular connecting plate by rotation secondary four, and second jiao of triangular connecting plate is passed through to turn Dynamic secondary five are connected in large arm, and the third angle of triangular connecting plate is passed through rotation secondary six and is connected with one end of the second expansion link, and second The other end of expansion link is connected in the rotating shaft rotating secondary, and the first sliding sleeve is sleeved on the second expansion link and by rotating secondary seven It is connected to large arm upper end,

First connecting rod one end is passed through rotation secondary eight and is connected on the second half section of the second expansion link, and the first connecting rod other end passes through to rotate Secondary nine are connected with the 3rd expansion link one end, and the 3rd expansion link other end passes through rotation pair ten and is connected to the first scraper bowl back, and second Connecting rod one end is passed through rotation secondary 11 and is connected in the front half section of the second expansion link, and the second connecting rod other end passes through to rotate secondary 12 It is connected on the second sliding sleeve, the second sliding sleeve is sleeved on the 3rd expansion link,

Third connecting rod one end is passed through rotation secondary 13 and is connected on the second half section of the second expansion link, and the third connecting rod other end passes through to turn Dynamic secondary 14 are connected with the 4th expansion link one end, and the 4th expansion link other end passes through rotation secondary 15 and is connected to the second scraper bowl back of the body Portion, fourth link one end is passed through rotation secondary 16 and is connected in the front half section of the second expansion link, and the fourth link other end passes through to turn Dynamic secondary 17 are connected on the 3rd sliding sleeve, and the 3rd sliding sleeve is sleeved on the 4th expansion link,

Base passes through rotation secondary 18 and is connected in walking mechanism.