CN204308371U - Automatic operation machinery hand - Google Patents

Abstract

The utility model discloses a kind of automatic operation machinery hand, it is characterized in that, comprise be arranged in parallel door frame one, door frame two form main door frame, main door frame is provided with the Y-axis moving mechanism that can move up door frame one, door frame two side, and Y-axis moving mechanism is connected with door frame one, door frame two; Y-axis moving mechanism is provided with can the X-axis travel mechanism of movement in Y-axis moving mechanism, and X-axis travel mechanism is connected with switching mechanism by lifting shaft mechanism, and switching mechanism is provided with clamping limb.The utility model avoids operator's close contact pollution sources in tin lead welding process, and greatly reduce labourer's intensity, production efficiency, qualification rate and product quality are greatly enhanced, and have saved resource.

Description

Automatic operation machinery hand

Technical field

The utility model relates to a kind of automatic mechanism and man-machine operational module device, is specifically related to a kind of automatic operation machinery hand.

Background technology

Current radiator wicking welding is by manpower is frequently carried, workman is usually engaged in heavy manual labor, working environment has a large amount of pernicious gas and heat is discharged, field working conditions is very severe.Come according to automation in this operation, be characterized in the job task by various expection of having programmed, structure and performance have people and machine advantage separately concurrently, especially embody intelligence and the adaptability of people, also can improve working conditions, guarantee personal safety, reduce labour intensity, increase work efficiency, cost-saving etc.

Summary of the invention

To be solved in the utility modelly be that current radiator core body wicking welding sequence personnel labor intensity is high, operating environment is poor, body harm be large, poor welding quality and the problem such as production efficiency is low.

In order to solve the problem, the technical solution of the utility model there is provided a kind of automatic operation machinery hand, it is characterized in that, comprise be arranged in parallel door frame one, door frame two form main door frame, main door frame is provided with the Y-axis moving mechanism that can move up door frame one, door frame two side, and Y-axis moving mechanism is connected with door frame one, door frame two; Y-axis moving mechanism is provided with can the X-axis travel mechanism of movement in Y-axis moving mechanism, and X-axis travel mechanism is connected with switching mechanism by lifting shaft mechanism, and switching mechanism is provided with clamping limb.

Preferably, described Y-axis moving mechanism comprises the Y-axis moving beam that two are located at door frame one, door frame two top respectively, is provided with the precise linear guide one, tooth bar one and the moving assembly one that matches with precise linear guide one, tooth bar one respectively that are parallel to each other for a pair above every root Y-axis moving beam; Two moving assemblies one are connected by connecting rod; Moving assembly one comprises and is fixed on connecting rod end and the installing plate matched with precise linear guide one, is fixed on the servo power motor one on installing plate and is connected with servo power motor one and the travelling gear one matched with tooth bar one.

Preferably, described X-axis travel mechanism comprises X-axis seat movable cover plate, and Y-axis moving mechanism connecting rod is provided with X-axis moving beam, and X-axis moving beam is provided with the precise linear guide two, the tooth bar two that are parallel to each other for a pair; Match with precise linear guide two bottom X-axis seat movable cover plate, X-axis seat movable cover plate is provided with moving assembly two, and moving assembly two comprises the servo power motor two that is fixed on X-axis seat movable cover plate and is connected with servo power motor two and the travelling gear two matched with tooth bar two.

Preferably, described lifting shaft mechanism comprises the screw mandrel one be arranged in X-axis seat movable cover plate, screw mandrel one to be positioned at outside the epimere above X-axis seat movable cover plate from top to bottom cover successively self-aligning ball bearing, deep groove ball bearing one, thrust ball bearing, and self-aligning ball bearing, deep groove ball bearing one, thrust ball bearing are fixed by bearing block; Be provided with mount pad outside bearing block, mount pad is connected with X-axis seat movable cover plate; Be provided with servo power motor three above mount pad, servo power motor three is connected by key one with the top of screw mandrel one; Screw mandrel one is positioned at cover outside the hypomere below X-axis seat movable cover plate suspension rod, and suspension rod is connected by screw mandrel one nut with screw mandrel one, and screw mandrel one nut is fixedly connected with by pin with suspension rod; Outside suspension rod, cover has suspender sheath, and suspender sheath is fixedly connected with X-axis seat movable cover plate.

Preferably, described switching mechanism comprises trip shaft, and trip shaft is fixedly connected with by the suspension rod of deep groove ball bearing two with lifting shaft mechanism; Trip shaft is connected with spacer shell by key two, and spacer shell is connected with servo power motor four.

Preferably, described trip shaft is provided with locking nut and stop washer.

Preferably, the guide finger of suspension rod transfer and fixture orientation when described suspender sheath is provided with for preventing screw mandrel from rotating.

Preferably, described clamping limb comprises the clamp body be connected with the trip shaft of switching mechanism, and clamp body is provided with a pair grip block for holding workpiece, and every block grip block is connected with at least one single-column cylinder, and single-column cylinder is fixed on clamp body.

Preferably, the inner side of described grip block is provided with polyurethane sheet.

Preferably, described X-axis travel mechanism is provided with air blowing axle construction.

Preferably, described air blowing axle construction comprises and is fixed on screw mandrel holder in X-axis travel mechanism and blowning installation, and screw mandrel holder is provided with one group of screw mandrel be parallel to each other two and guide rail, and screw mandrel two, guide rail are equipped with straight line guide rail seat.

Preferably, described blowning installation comprises interconnective servo power motor five and blowing nozzle, and blowing nozzle is fixed on straight line guide rail seat.

Preferably, exhaust hood is provided with outside described main door frame.

After adopting the utility model, working environment, labour intensity, product quality etc. are all greatly improved and improve:

1. avoid operator close contact heavy metal, weldment smog pollution, welding dust etc. in tin lead welding process, greatly improve working environment (whole shopwork environment is obtained for lifting);

2. improve in welding operation to be lifted by two operators and be welded as mechanical arm clamps automatic welding, greatly reduce labourer's intensity;

3. optimize in welding operation and need two operators to be a name, and be promoted to people's per tour weld 120 from two people one class welding 80, production efficiency is greatly enhanced;

4. when solving human weld, accurately cannot grasp the shake of immersed solder time and solder cools process.Human weld's product percent of pass is low, the large and poor welding quality of follow-up repair welding workload, and after adopting the utility model, qualification rate and product quality are all greatly enhanced;

5. saved resource.During human weld, uneven, the repair welding of wicking causes by tin amount large more.After adopting the utility model, wicking is even and repair welding is few, reduces by the consumption of 20% by tin amount.

Accompanying drawing explanation

The structural representation of a kind of automatic operation machinery hand that Fig. 1 provides for the utility model;

Fig. 2 is the structural representation of Y-axis moving mechanism;

Fig. 3 is the structural representation of X-axis travel mechanism;

Fig. 4 is the structural representation of lifting shaft mechanism;

Fig. 5 is the structural representation of switching mechanism;

Fig. 6 is the structural representation of clamping limb;

Fig. 7 is the structural representation of air blowing axis mechanism;

Fig. 8 is the structural representation of electrical control cabinet.

Detailed description of the invention

For making the utility model become apparent, hereby with preferred embodiment, and accompanying drawing is coordinated to be described in detail below.

Embodiment

As shown in figures 1-8, for a kind of automatic operation machinery hand that the utility model provides, comprise the main door frame 2 of door frame one 2-1, the door frame two 2-2 formation be arranged in parallel, main door frame 2 is provided with the Y-axis moving mechanism 9 that can move up in door frame one 2-1, door frame two 2-2 side, and Y-axis moving mechanism 9 is connected with door frame one 2-1, door frame two 2-2; Y-axis moving mechanism 9 is provided with can the X-axis travel mechanism 5 of movement in Y-axis moving mechanism 9, and X-axis travel mechanism 5 is connected with switching mechanism 14 by lifting shaft mechanism 3, and switching mechanism 14 is provided with clamping limb 13.

As shown in Figure 2, Y-axis moving mechanism 9 comprises the Y-axis moving beam 9-1 that two are located at door frame one 2-1, door frame two 2-2 top respectively, the moving assembly one being provided with precise linear guide one 9-2, tooth bar one 9-5 be parallel to each other for a pair above every root Y-axis moving beam 9-1 and matching with precise linear guide one 9-2, tooth bar one 9-5 respectively; Two moving assemblies one are connected by a pair connecting rod 9-6; Moving assembly one comprises and is fixed on connecting rod 9-6 end and the installing plate 9-7 matched with precise linear guide one 9-2, is fixed on servo power motor one 9-3 on installing plate 9-7 and is connected with servo power motor one 9-3 and travelling gear one 9-4 matched with tooth bar one 9-5.

Servo power motor one 9-3 adopts ASD-B2 bank of power to be 2.0KW ECMA-E21320PS servo power motor, its moment of torsion is 9.5NM, task driven X-axis can reach precise positioning, and design translational speed is 21.65M/min(MAX), effective displacement 2800mm; Precise linear guide one 9-2 adopts guide rail HIWIN HGH/35/C/A/2/R, the sound negative load of servo power motor one 9-3 and precise linear guide one 9-2 is respectively 47.9KN and 77.0KN, and lifting shaft mechanism 3 and workpiece weight are carried by precise linear guide one 9-2.

As shown in Figure 3, X-axis travel mechanism 5 comprises X-axis seat movable cover plate 5-1, and a pair connecting rod 9-6 of Y-axis moving mechanism 9 is respectively equipped with X-axis moving beam 5-3, and X-axis moving beam 5-3 is provided with precise linear guide two 5-2, tooth bar two 5-4 that are parallel to each other for a pair; Match with precise linear guide two 5-2 bottom X-axis seat movable cover plate 5-1, X-axis seat movable cover plate 5-1 is provided with moving assembly two, and moving assembly two comprises servo power motor two 5-5 that is fixed on X-axis seat movable cover plate 5-1 and is connected with servo power motor two 5-5 and travelling gear two 5-6 matched with tooth bar two 5-4.

Servo power motor two 5-5 adopts ASD-B2 bank of power to be 1.5KW ECMQ-E21315PS servo power motor, precise linear guide two 5-2 adopts guide rail HIWIN HGH/25/C/A/2/R, both sound negative loads are respectively 34.4KN and 56.6KN, and lifting shaft mechanism 3 and workpiece weight are carried by precise linear guide two 5-2.The moment of torsion of servo power motor two 5-5 is that 7.16NM task driven lifting shaft mechanism 3 can reach precise positioning, and design translational speed is 39.56M/min(MAX), effective displacement 1500mm.

As shown in Figure 4, lifting shaft mechanism 3 comprises screw mandrel one 3-9 be arranged in X-axis seat movable cover plate 5-1, screw mandrel one 3-9 to be positioned at outside the epimere above X-axis seat movable cover plate 5-1 from top to bottom cover successively self-aligning ball bearing 3-4, deep groove ball bearing one 3-6, thrust ball bearing 3-7, and self-aligning ball bearing 3-4, deep groove ball bearing one 3-6, thrust ball bearing 3-7 are fixed by bearing block 3-5; Be provided with mount pad 3-3 outside bearing block 3-5, mount pad 3-3 is connected with X-axis seat movable cover plate 5-1; Be provided with servo power motor three 3-1 above mount pad 3-3, servo power motor three 3-1 is connected by key one 3-2 with the top of screw mandrel one 3-9; Screw mandrel one 3-9 is positioned at cover outside the hypomere below X-axis seat movable cover plate 5-1 suspension rod 3-12, and suspension rod 3-12 is connected by screw mandrel one nut 3-13 with screw mandrel one 3-9, and screw mandrel one nut 3-13 is fixedly connected with by pin 3-11 with suspension rod 3-12; Outside suspension rod 3-12, cover has suspender sheath, and suspender sheath is fixedly connected with X-axis seat movable cover plate 5-1.Suspender sheath can be spliced by multistage, adopts suspender sheath epimere 3-10, suspender sheath hypomere 3-14 two sections is spliced in the present embodiment.

Servo power motor three 3-1 adopts ASD-B2 bank of power to be 1.5KW ECMA-E21315PS servo power motor, screw mandrel one 3-9 adopts bearing screw mandrel HIWIN-5B2-FSB/810, both sound negative loads are respectively 1440kgf and 3840kgf, and clamp mechanism workpiece weight is carried by feed screw nut.The moment of torsion of servo power motor three 3-1 is 7.16NM, and design hoisting velocity is 1.5M/min(MAX), effective helical pitch distance is 950mm, and reductor is worm speed reducer i:30B.

As shown in Figure 5, switching mechanism 14 comprises trip shaft 14-7, and trip shaft 14-7 is fixedly connected with the suspension rod 3-12 of lifting shaft mechanism 3 by deep groove ball bearing two 14-6; Trip shaft 14-7 is connected with spacer shell 14-2 by key two 14-3, and spacer shell 14-2 is connected with servo power motor four 14-1.Trip shaft 14-7 is provided with locking nut 14-4 and stop washer 14-5.Suspender sheath is provided with guide finger 3-15, suspension rod transfer and fixture orientation when rotating for preventing screw mandrel.

Servo power motor four 14-1 adopts ASD-B2 bank of power to be 1.5KW ECMA-E21315PS servo power motor, its moment of torsion is 7.16NM, task driven switching mechanism can reach precise positioning, design reversal rate is 20rev/min(MAX), flip angle to be 360 ° of actual set be 180 ° come and go.

As shown in Figure 6, clamping limb 13 comprises the clamp body 13-1 be connected with the trip shaft 14-7 of switching mechanism 14, clamp body 13-1 is provided with a pair grip block 13-3 for holding workpiece, and every block grip block 13-3 is connected with two single-column cylinder 13-4, and single-column cylinder 13-4 is fixed on clamp body 13-1.The inner side of grip block 13-3 is provided with polyurethane sheet 13-2.

Single-column cylinder 13-4 adopts single-column cylinder SC40-150, and clamping force is adjustable.

As shown in Figure 7, X-axis travel mechanism 5 is provided with air blowing axle construction 4.Air blowing axle construction 5 comprises and is fixed on screw mandrel holder 4-4 on X-axis moving beam 5-3 and blowning installation, screw mandrel holder 4-4 be provided with one group be parallel to each other be positioned at middle screw mandrel two 4-3 and be positioned at two guide rail 4-6 of both sides, screw mandrel two 4-3, guide rail 4-6 are equipped with straight line guide rail seat 4-2.Blowning installation comprises interconnective servo power motor five 4-1 and blowing nozzle 4-4, and blowing nozzle 4-4 is fixed on straight line guide rail seat 4-2, and servo power motor five 4-1 is fixed on screw mandrel holder 4-4.

Servo power motor five 4-1 adopts ASD-B2 bank of power to be 0.75KW ECMQ-E21315PS servo power motor, its moment of torsion is 2.39NM, groundwork drives air blowing parts to reach precise positioning and to come and go fast, design translational speed is 100M/min(MAX), effective displacement 950mm.

Outside main door frame 2, an exhaust hood 6 is installed.The automatic operation machinery hand that the present embodiment provides also comprises the electrical control cabinet 1 for controlling manipulator behavior, as shown in Figure 8, electrical control cabinet 1 is provided with LED display 1-1, power supply indicator 1-14, run indicator 1-15, alarm lamp 1-16 and multiple control button: device start button 1-2, equipment stop button 1-3, initial point SR 1-4, emergency stop push button 1-5, fixture rotates forward button 1-6, move down button 1-7, move right button 1-8, movable button 1-9 backward, fixture invert button 1-10, move up button 1-11, be moved to the left button 1-12, move forward button 1-13 and clamp switch button 1-17.

Electrical control cabinet 1 gathers all control and is integrated, and whole driver part, cpu controller, main circuit, man-machinely all to pool together with CPU communication, and main operating position collects in man-machine interface and is convenient to direct control and facilities for observation operation state.

Before using, be placed in workpiece placement station 10 by workpiece 12 to be added, workpiece placement station 10, molten tin bath 7, reducing agent groove 8 are placed on below main door frame 2, and electrical control cabinet 1 is placed on outside main door frame 2, as shown in Figure 1.

action specification:

On switch board, man-machine interface is divided into two kinds of control modes: namely manually with automatic.

A. manually-manually press the practicable action alone of start button to run.

B. automatically-program of being stored by PLC is pressed start button and is automatically completed whole fluvial processes.

course of action:

Press device start button 1-2 → Y-axis moving mechanism 9, X-axis travel mechanism 5(two-axle interlocking) to shift to directly over workpiece 12 to be welded → lifting shaft mechanism 3 drops in the middle part of workpiece 12 to be welded → and clamping limb 13 clamps workpiece 12 → lifting shaft mechanism 3 to be welded and rises to rational position → Y-axis moving mechanism 9, X-axis travel mechanism 5 move to position (two-axle interlocking) directly over reducing agent groove 8 → workpiece 12 bottom surface to be welded drop to reducing agent liquid level 10mm under time delay (time is adjustable) → lifting shaft mechanism 3 rise, Y-axis moving mechanism 9 move to simultaneously molten tin bath 7 specify directly over → lifting shaft mechanism 3 drop to become 80 ° of angles with horizontal plane and workpiece 12 back edge (prime direction) just with molten tin bath 9 back edge height 3mm place (two-axle interlocking) → workpiece 12 slow circumvolve to be welded, simultaneously the main leaf bottom surface of workpiece 12 to be welded drop to become vertical with horizontal plane tin liquor upper surface below 10MM depths (two-axle interlocking) → vertical wicking of workpiece 12 to be welded weld time delay (time is adjustable) → lifting shaft mechanism 3 and rise to appointment and blow tin specified altitude assignment → Y-axis moving mechanism 9, X-axis travel mechanism 5 moves to blows tin assigned address → inflatable body 4 and comes and goes twice blowing → lifting shaft mechanism 3 and drop to appointment rotation height → switching mechanism 14 clockwise 180 ° of upsets → welding second → lifting shaft mechanism 3 and rise to specified altitude assignment → Y-axis moving mechanism 9, X-axis travel mechanism 5 move to (two-axle interlocking) directly over reducing agent groove 8 → workpiece 12 bottom surface to be welded drop to reducing agent liquid level 10mm under time delay (time is adjustable) → lifting shaft mechanism 3 rise, Y-axis moving mechanism 9 move to simultaneously molten tin bath 7 specify directly over → lifting shaft mechanism 3 drop to become 80 ° of angles with horizontal plane and workpiece 12 back edge prime direction just with molten tin bath 9 back edge height 3mm place (two-axle interlocking) → workpiece 12 slow circumvolve to be welded, simultaneously the main leaf bottom surface of workpiece 12 to be welded drop to become vertical with horizontal plane tin liquor upper surface below 10MM depths (two-axle interlocking) → vertical wicking of workpiece 12 to be welded weld time delay (time is adjustable) → lifting shaft mechanism 3 and rise to appointment and blow tin height → Y-axis moving mechanism 9, X-axis travel mechanism 5 moves to blows tin assigned address → inflatable body 4 and comes and goes twice blowing → lifting shaft mechanism 3 and drop to the counterclockwise 180 ° of upset → Y-axis moving mechanism 9 of appointment rotation height → switching mechanism 14, X-axis travel mechanism 5(two-axle interlocking) to move to directly over unloading position → lifting shaft mechanism 3 drops to specified altitude assignment and places workpiece 12 → clamping limb 13 to be welded and unclamp workpiece → lifting shaft mechanism 3 and rise to specified altitude assignment → press the whole welding process of device start button 1-2(to complete) → take away and welded product 11 → and placed workpiece 12 to be welded.

Claims (14)

1. an automatic operation machinery hand, it is characterized in that, comprise the main door frame (2) that the door frame one (2-1), the door frame two (2-2) that be arranged in parallel are formed, main door frame (2) is provided with the Y-axis moving mechanism (9) that can move up in door frame one (2-1), door frame two (2-2) side, and Y-axis moving mechanism (9) is connected with door frame one (2-1), door frame two (2-2); Y-axis moving mechanism (9) is provided with can in the X-axis travel mechanism (5) of the upper movement of Y-axis moving mechanism (9), and X-axis travel mechanism (5) is connected with switching mechanism (14) by lifting shaft mechanism (3), and switching mechanism (14) is provided with clamping limb (13).

2. automatic operation machinery hand as claimed in claim 1, it is characterized in that, described Y-axis moving mechanism (9) comprises the Y-axis moving beam (9-1) that two are located at door frame one (2-1), door frame two (2-2) top respectively, and every root Y-axis moving beam (9-1) top is provided with the precise linear guide one (9-2), tooth bar one (9-5) and the moving assembly one that matches with precise linear guide one (9-2), tooth bar one (9-5) respectively that are parallel to each other for a pair; Two moving assemblies one are connected by connecting rod (9-6); Moving assembly one comprises and is fixed on connecting rod (9-6) end and the installing plate (9-7) matched with precise linear guide one (9-2), is fixed on the servo power motor one (9-3) on installing plate (9-7) and is connected with servo power motor one (9-3) and the travelling gear one (9-4) matched with tooth bar one (9-5).

3. automatic operation machinery hand as claimed in claim 2, it is characterized in that, described X-axis travel mechanism (5) comprises X-axis seat movable cover plate (5-1), Y-axis moving mechanism (9) connecting rod (9-6) is provided with X-axis moving beam (5-3), and X-axis moving beam (5-3) is provided with the precise linear guide two (5-2), the tooth bar two (5-4) that are parallel to each other for a pair; Match with precise linear guide two (5-2) in X-axis seat movable cover plate (5-1) bottom, X-axis seat movable cover plate (5-1) is provided with moving assembly two, and moving assembly two comprises the servo power motor two (5-5) that is fixed on X-axis seat movable cover plate (5-1) and is connected with servo power motor two (5-5) and the travelling gear two (5-6) matched with tooth bar two (5-4).

4. automatic operation machinery hand as claimed in claim 3, it is characterized in that, described lifting shaft mechanism (3) comprises the screw mandrel one (3-9) be arranged in X-axis seat movable cover plate (5-1), screw mandrel one (3-9) be positioned at X-axis seat movable cover plate (5-1) top epimere outside from top to bottom successively cover have self-aligning ball bearing (3-4), deep groove ball bearing one (3-6), thrust ball bearing (3-7), self-aligning ball bearing (3-4), deep groove ball bearing one (3-6), thrust ball bearing (3-7) by bearing block (3-5) fix; Bearing block (3-5) outside is provided with mount pad (3-3), and mount pad (3-3) is connected with X-axis seat movable cover plate (5-1); Mount pad (3-3) top is provided with servo power motor three (3-1), and servo power motor three (3-1) is connected by key one (3-2) with the top of screw mandrel one (3-9); Screw mandrel one (3-9) is positioned at cover outside the hypomere below X-axis seat movable cover plate (5-1) suspension rod (3-12), suspension rod (3-12) is connected by screw mandrel one nut (3-13) with screw mandrel one (3-9), and screw mandrel one nut (3-13) is fixedly connected with by pin (3-11) with suspension rod (3-12); Suspension rod (3-12) outside cover has suspender sheath, and suspender sheath is fixedly connected with X-axis seat movable cover plate (5-1).

5. automatic operation machinery hand as claimed in claim 4, it is characterized in that, described switching mechanism (14) comprises trip shaft (14-7), and trip shaft (14-7) is fixedly connected with the suspension rod (3-12) of lifting shaft mechanism (3) by deep groove ball bearing two (14-6); Trip shaft (14-7) is connected with spacer shell (14-2) by key two (14-3), and spacer shell (14-2) is connected with servo power motor four (14-1).

6. automatic operation machinery hand as claimed in claim 5, it is characterized in that, described trip shaft (14-7) is provided with locking nut (14-4) and stop washer (14-5).

7. automatic operation machinery hand as claimed in claim 5, is characterized in that, the guide finger (3-15) of suspension rod transfer and fixture orientation when described suspender sheath is provided with for preventing screw mandrel from rotating.

8. automatic operation machinery hand as claimed in claim 5, it is characterized in that, described clamping limb (13) comprises the clamp body (13-1) be connected with the trip shaft of switching mechanism (14) (14-7), clamp body (13-1) is provided with a pair grip block (13-3) for holding workpiece, every block grip block (13-3) is connected with at least one single-column cylinder (13-4), and single-column cylinder (13-4) is fixed on clamp body (13-1).

9. automatic operation machinery hand as claimed in claim 8, it is characterized in that, the inner side of described grip block (13-3) is provided with polyurethane sheet (13-2).

10., as the automatic operation machinery hand in claim 1-9 as described in any one, it is characterized in that, described X-axis travel mechanism (5) is provided with air blowing axle construction (4).

11. automatic operation machinery hands as claimed in claim 10, it is characterized in that, described air blowing axle construction (5) comprises is fixed on screw mandrel holder (4-4) in X-axis travel mechanism (5) and blowning installation, screw mandrel holder (4-4) is provided with one group of screw mandrel be parallel to each other two (4-3) and guide rail (4-6), and screw mandrel two (4-3), guide rail (4-6) are equipped with straight line guide rail seat (4-2).

12. automatic operation machinery hands as claimed in claim 11, it is characterized in that, described blowning installation comprises interconnective servo power motor five (4-1) and blowing nozzle (4-4), and blowing nozzle (4-4) is fixed on straight line guide rail seat (4-2).

13. automatic operation machinery hands as claimed in claim 1, it is characterized in that, described main door frame (2) outside is provided with exhaust hood (6).

14. automatic operation machinery hands as claimed in claim 1, is characterized in that, also comprising the electrical control cabinet (1) for controlling manipulator behavior.