CN204431249U - Full-automatic numerical control manipulator - Google Patents

Abstract

The utility model discloses a kind of full-automatic numerical control manipulator, comprise two joints or more piece turning arm, crane, reversing frame, counter-balanced carriage and handgrip, the head of each turning arm, tail is connected by servo rotary mechanism I, the arm body of first segment turning arm is installed on column by servo rotary mechanism II, described crane is installed on the tail end of minor details turning arm by servo elevating mechanism, described reversing frame is installed on crane by servo turning mechanism, two handgrips are installed on a reversing frame and left side, the right side is symmetrical in the centre of gyration of reversing frame, described counter-balanced carriage is installed on the head end of first segment turning arm by servo travel mechanism, the active section arm body length of first segment turning arm is greater than counterweight section arm body length.Working range of the present utility model can design according to demand, meets requirement to working range with changing the height of column and the length of turning arm and joint number.

Description

Full-automatic numerical control manipulator

(1) technical field:

The utility model relates to manipulator, is specially a kind of full-automatic numerical control manipulator.

(2) background technology:

Along with the development of China's industrial technology, at machining and other manufacture field, progressively move towards Automated condtrol, this is the needs of social development, simultaneously the inexorable trend of also scientific technological advance.Need to be engaged in the various equipment operated by people at present in China especially can constantly reduce, finally can be automatically controlled and replaced.Automated condtrol realizes its function based on automatic manipulator, use two kinds of automatic manipulators in producing at present.

The first is truss formula machine automatization feeding manipulator, its running orbit can only be parallelly linearly to run, all Working positions must be point-blank could use, people or other auxiliary equipment can only to be adopted when Working position changes to ensure the position that material is placed in it and can captures in material initial laying, running orbit limitation is large.

The second is import robot, mainly relies on import at present, expensive.The action of finishing the work and requiring is stretched with the song of mechanical arm by this robot, it is only limited to mechanical arm length at the width range of upper and lower height and working region bent can reach the place reached, working range is very limited, can only be supplied to a station operation.

(3) utility model content:

For the deficiencies in the prior art, technical problem to be solved in the utility model be propose a kind of can the full-automatic numerical control manipulator of operation on a large scale.

The full-automatic numerical control manipulator that can solve the technical problem, its technical scheme comprises two joints or more piece turning arm, crane, reversing frame, counter-balanced carriage and handgrip, the head of each turning arm, tail is connected by servo rotary mechanism I, the arm body of first segment turning arm is installed on column by servo rotary mechanism II, described crane is installed on the tail end of minor details turning arm by servo elevating mechanism, described reversing frame is installed on crane by servo turning mechanism, two handgrips are installed on a reversing frame and left side, the right side is symmetrical in the centre of gyration of reversing frame, described counter-balanced carriage is installed on the head end of first segment turning arm by servo travel mechanism, the active section arm body length of first segment turning arm is greater than counterweight section arm body length.

In said structure, in large-scale space, handgrip is controlled flexibly by digital control system multiaxis (more than four axles), can realize that handgrip is remote, the compound action (lifting, whereabouts, location, transfer etc.) of high-low-position, thus complete between different station the crawl of workpiece and placement.

A kind of structure of described servo rotary mechanism II comprises rotating shaft, axle sleeve, intermeshing driver pinion and driven gear wheel and servomotor, described rotating shaft is vertically installed on the support at column top, the axle sleeve be installed on first segment turning arm arm body is installed in rotating shaft by bearing, described driven gear wheel is installed on axle sleeve, described driver pinion is installed on the output shaft of servomotor, and described servomotor is installed on support; Servomotor drives axle sleeve to rotate by gear drive, thus realizes the rotation of first segment turning arm.

A kind of structure of described servo elevating mechanism I comprises rotating shaft, axle sleeve, intermeshing driver pinion and driven gear wheel and servomotor, described rotating shaft is vertically installed on the support of prosthomere turning arm, the axle sleeve be located on lower joint turning arm is installed in rotating shaft by bearing, described driven gear wheel is installed on axle sleeve, described driver pinion is installed on the output shaft of servomotor, and described servomotor is installed on support; Servomotor drives axle sleeve to rotate by gear drive, thus realizes the rotation of lower joint turning arm.

A kind of structure of described servo elevating mechanism comprises pitch wheel and tooth bar, the guide post be slidably matched and fairlead and servomotor, described fairlead is located on the support of minor details turning arm, described guide post is located on crane, described tooth bar is installed on crane, described gear is installed on the output shaft of servomotor, and described servomotor is installed on support; Servomotor, by the transmission of rack-and-pinion, drives crane to rise and declines.

A kind of structure of described servo turning mechanism comprises servomotor, and described servomotor is by support installing on crane, and described reversing frame is installed on servomotor output shaft straight down; The rotation of servomotor directly rotates back to pivoted frame.

A kind of structure of described servo travel mechanism comprises the guide rail and slide, the screw mandrel screwed and nut and servomotor that are slidably matched, described guide rail by support installing in first segment turning arm, described counter-balanced carriage is installed on slide, described screw mandrel is parallel to guide rails assembling in suspension, described nut is built in slide, described servomotor is installed on support, one end of its output shaft connection wire rod; The screw nut driving subband that rotates through of servomotor moves slide and moves on guide rail, thus the position realizing counter-balanced carriage is moved.

For adapting to the crawl to different workpieces, described handgrip adopts pneumatic jaw type handgrip.

In conventional design, described swivel arm design is that two joints can meet production requirement.

The beneficial effects of the utility model:

1, the utility model is a kind of full automatic manipulator being carried out programming Control by digital control system, can program according to any demand, carry out control by PLC to be connected with other machine any, form the working operating mode that a whole set of is desirable, perform instruction accurately.

2, working range of the present utility model can design according to demand, meets requirement to working range with changing the height of column and the length of turning arm and joint number.

3, the utility model can make straight line on any position, and circular arc, oblique line run; Brachium can be designed arbitrarily according to the span of station, at least 4 of a machining cell and the feeding, discharge (regulating the speed according to processing beat) of above machine can be supplied to.

4, the utility model can apply to the working environment that some are not suitable for people's work, as hot operation district, low-temperature working district, dust workspace, chemicals workspace, nuclear radiation district, hazardous area, all work affecting health and safety can adopt this patent manipulator to substitute.

(4) accompanying drawing illustrates:

Fig. 1 is the structural representation of a kind of embodiment of the utility model.

Fig. 2 is the A direction view in Fig. 1 embodiment.

Figure number identifies: 1, turning arm; 2, crane; 3, reversing frame; 4, handgrip; 5, column; 6, counter-balanced carriage; 7, rotating shaft; 8, axle sleeve; 9, driver pinion; 10, driven gear wheel; 11, servomotor; 12, gear; 13, tooth bar; 14, guide post; 15, fairlead; 16, cable; 17, cantilever.

(5) detailed description of the invention:

Below in conjunction with accompanying drawing illustrated embodiment, the technical solution of the utility model is described further.

The utility model full-automatic numerical control manipulator adopts two joint turning arm 1 and two pneumatic jaw type handgrips 4, in described two joint turning arms 1, the length of first segment turning arm 1 and rugosity are all greater than length and the rugosity of second section turning arm 1, the head end of second section turning arm 1 connects the tail end of (hinge) first segment turning arm 1 by servo rotary mechanism I, the arm body of first segment turning arm 1 installs (hinge) on column 5 by servo rotary mechanism II, hinge installation site distance first segment turning arm 1 head end is about 1/3 of first segment turning arm 1 overall length, namely hinge installation site distance first segment turning arm 1 tail end is about 2/3 (the active section arm body length of first segment turning arm) of first segment turning arm 1 overall length, the head end of first segment turning arm 1 is provided with counter-balanced carriage 6 by servo travel mechanism, two handgrips 4 are installed on the two ends, bottom of reversing frame 3 and the left and right centre of gyration being symmetrical in reversing frame 3, described reversing frame 3 is installed on crane 2 by servo turning mechanism, described crane 2 is installed on the tail end of second section turning arm 1 by servo elevating mechanism, as shown in Figure 1 and Figure 2.

The gear-box that described servo rotary mechanism II comprises rotating shaft 7, axle sleeve 8, intermeshing driver pinion 9 and driven gear wheel 10 are formed and servomotor 11, described gear-box is by the top of support installing in column 5, concrete: described rotating shaft 7 vertically fixedly mounts, described axle sleeve 8 is installed in rotating shaft 7 by bearing, described driven gear wheel 10 is coaxially installed with axle sleeve 8, described driver pinion 9 is installed on the output shaft of servomotor 11, and described servomotor 11 is installed on support; Described axle sleeve 8 is installed on the arm body of first segment turning arm 1, or the head end of the affixed first segment turning arm 1 of described axle sleeve 8, and symmetrical in the other direction with first segment turning arm 1, a cantilever 17 is fixed on axle sleeve 8, as shown in Figure 1.

Described servo travel mechanism comprises the guide rail and slide, the screw mandrel screwed and nut and servomotor 11 that are slidably matched, described guide rail by support installing in first segment turning arm 1 head end (or being installed on cantilever 17 outer end), described counter-balanced carriage 6 is installed on slide, described screw mandrel is parallel to guide rails assembling on support, described nut is built in slide, described servomotor 11 is installed on support, the outer end of the output shaft connection wire rod of servomotor 11, as shown in Figure 1.

Described servo elevating mechanism I comprises rotating shaft 7, axle sleeve 8, intermeshing driver pinion 9 and driven gear wheel 10 and servomotor 11, described rotating shaft 7 is vertically fixedly arranged on the support of first segment turning arm 1 tail end, described axle sleeve 8 is installed in rotating shaft 7 by bearing, described driven gear wheel 10 is coaxially installed on axle sleeve 8, described driver pinion 9 is installed on the output shaft of servomotor 11, described servomotor 11 is installed on support, the head end of second section turning arm 1 is located at by axle sleeve 8, as shown in Figure 1.

Described servo elevating mechanism comprises pitch wheel 12 and tooth bar 13, the guide post 14 be slidably matched and fairlead 15 and servomotor 11, the fairlead 15 of the upper and lower alignment of left and right two cover is located on the support of second section turning arm 1 tail end, two guide posts 14 are vertically located at (correspondence and left and right two is overlapped fairlead 15 and is slidably matched) on crane 2, described tooth bar 13 is vertically installed on crane 2, described gear 12 is installed on the output shaft of servomotor 11, described servomotor 11 is installed on support, as shown in Figure 1.

Described servo turning mechanism comprises servomotor 11, described servomotor 11 by support installing on crane 2, the centre of gyration position of described reversing frame 3 by support installing on servomotor 11 output shaft straight down, as shown in Figure 1 and Figure 2.

The equal correspondence of servomotor 11 of each servo control mechanism is connected with respective circuit, each circuit is summarized in after column 5 with the digital control system of the form connection control platform of cable 16, after lengthening cable 16, console can away from production equipment, be particularly suitable for various danger, chemical industry, dust, burn into high temperature, width are penetrated etc. is unfavorable for the severe working environment of health, as shown in Figure 1.

Under the control that programs of digital control system, the utility model by the rotation of the rotation of first segment turning arm 1, second section turning arm 1, crane 2 move up and down the rotation with reversing frame 3, the single axial movement of handgrip 4 or the interlock of any interlock of diaxon or the interlock of any three axles or any four axles can be realized, with the crawl requirement of satisfied different operating mode to workpiece.

The utility model is suitable for mechanical processing industry instantly and is also not enough to purchase automatic production line completely in economic strength, or equipment component also do not possess the condition automatically controlled under realize the automatic control of individual unit, form automatic and semi-automatic machining production line.

Claims (8)

1. full-automatic numerical control manipulator, it is characterized in that: comprise two joints or more piece turning arm (1), crane (2), reversing frame (3), counter-balanced carriage (6) and handgrip (4), the head of each turning arm (1), tail is connected by servo rotary mechanism I, the arm body of first segment turning arm (1) is installed on column (5) by servo rotary mechanism II, described crane (2) is installed on the tail end of minor details turning arm (1) by servo elevating mechanism, described reversing frame (3) is installed on crane (2) by servo turning mechanism, it is upper and left that two handgrips (4) are installed on reversing frame (3), the right side is symmetrical in the centre of gyration of reversing frame (3), described counter-balanced carriage (6) is installed on the head end of first segment turning arm (1) by servo travel mechanism, the active section arm body length of first segment turning arm (1) is greater than counterweight section arm body length.

2. full-automatic numerical control manipulator according to claim 1, it is characterized in that: described servo rotary mechanism II comprises rotating shaft (7), axle sleeve (8), intermeshing driver pinion (9) and driven gear wheel (10) and servomotor (11), described rotating shaft (7) is vertically fixedly arranged on the support at column (5) top, the axle sleeve (8) be installed on first segment turning arm (1) arm body is installed in rotating shaft (7) by bearing, described driven gear wheel (10) is installed on axle sleeve (8), described driver pinion (9) is installed on the output shaft of servomotor (11), described servomotor (11) is installed on support.

3. full-automatic numerical control manipulator according to claim 1, it is characterized in that: described servo elevating mechanism I comprises rotating shaft (7), axle sleeve (8), intermeshing driver pinion (9) and driven gear wheel (10) and servomotor (11), described rotating shaft (7) is vertically fixedly arranged on the support of prosthomere turning arm (1), the axle sleeve (8) be located on lower joint turning arm (1) is installed in rotating shaft (7) by bearing, described driven gear wheel (10) is installed on axle sleeve (8), described driver pinion (9) is installed on the output shaft of servomotor (11), described servomotor (11) is installed on support.

4. full-automatic numerical control manipulator according to claim 1, it is characterized in that: described servo elevating mechanism comprises pitch wheel (12) and tooth bar (13), the guide post (14) be slidably matched and fairlead (15) and servomotor (11), described fairlead (15) is located on the support of minor details turning arm (1), described guide post (14) is located on crane (2), described tooth bar (13) is installed on crane (2), described gear (12) is installed on the output shaft of servomotor (11), described servomotor (11) is installed on support.

5. full-automatic numerical control manipulator according to claim 1, it is characterized in that: described servo turning mechanism comprises servomotor (11), described servomotor (11) is by support installing on crane (2), and described reversing frame (3) is installed on servomotor (11) output shaft straight down.

6. full-automatic numerical control manipulator according to claim 1, it is characterized in that: described servo travel mechanism comprises the guide rail and slide, the screw mandrel screwed and nut and servomotor (11) that are slidably matched, described guide rail by support installing in first segment turning arm (1), described counter-balanced carriage (6) is installed on slide, described screw mandrel is parallel to guide rails assembling in suspension, described nut is built in slide, described servomotor (11) is installed on support, one end of its output shaft connection wire rod.

7. full-automatic numerical control manipulator according to claim 1, is characterized in that: described handgrip (4) is pneumatic jaw type handgrip.

8. according to the full-automatic numerical control manipulator in claim 1 ~ 7 described in any one, it is characterized in that: described turning arm (1) is two joints.