CN211689315U - Mechanical arm device for spinning automatic processing - Google Patents

Abstract

The utility model discloses a manipulator device for spinning automatic processing, which comprises a mobile device and a cutting arm, wherein the mobile device comprises a fixed frame, a transverse moving mechanism, a longitudinal moving mechanism and a vertical moving mechanism, the cutting arm comprises an arm seat, a clamping mechanism and a cutting mechanism which are arranged on the arm seat, the transverse moving mechanism can drive the cutting arm to move in the front and back directions, the longitudinal moving mechanism can drive the cutting arm to move in the left and right directions, the vertical moving mechanism can drive the cutting arm to move in the up and down directions, thereby automatically realizing the movement of the cutting arm in a three-dimensional space, simultaneously, the clamping mechanism drives two clamping arms to approach or move away in opposite directions through a clamping driving unit, the spinning can be clamped into a bundle, a feed driving unit drives a sliding seat to move back and forth, a rotary driving unit drives a cutting disc to rotate, and further automatically realize the cutting of, and the cut spinning can be transported to a set position, so that the automation degree and the processing efficiency are improved.

Description

Mechanical arm device for spinning automatic processing

Technical Field

The utility model relates to a cutting equipment's field, in particular to a manipulator device for spinning automatic processing.

Background

At present, hollow fiber membranes are widely applied to the fields of industrial production such as petrochemical industry, medicine, textile printing and dyeing, food, paper making and the like, wastewater treatment and the like, fiber spinning is cut after production is completed, most of existing spinning cutting methods are manual cutting, a worker clamps and fixes spinning into a bundle during operation, then the cutting of the spinning is completed by using a cutting tool, then the bundle is bundled, then the bundle is carried and moved to a set position, time and labor are consumed in the processes of fixing the bundle by spinning, cutting, bundling, moving and the like, the automation degree is low, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a manipulator device for spinning automatic processing to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The technical scheme adopted for solving the technical problems is as follows:

a robot apparatus for automated spinning processes, comprising: the cutting device comprises a mobile device and a cutting arm, wherein the mobile device comprises a rectangular fixed frame, a transverse moving mechanism, a longitudinal moving mechanism and a vertical moving mechanism;

the transverse moving mechanism comprises two transverse sliding rails extending forwards and backwards and a transverse moving plate seat extending leftwards and rightwards, the two transverse sliding rails are respectively fixed on a left frame and a right frame of the fixed frame, the left end and the right end of the moving plate seat are respectively connected with the two transverse sliding rails in a sliding mode, and a transverse driving assembly capable of driving the transverse moving plate seat to move forwards and backwards is arranged between the transverse moving plate seat and the fixed frame;

the longitudinal moving mechanism comprises a longitudinal fixed seat fixed on the transverse moving plate seat, a longitudinal sliding rail arranged on the longitudinal fixed seat in a left-right extending manner, and a longitudinal moving plate seat connected with the longitudinal sliding rail in a sliding manner, wherein a longitudinal driving assembly capable of driving the longitudinal fixed seat to move left and right is arranged between the longitudinal fixed seat and the longitudinal moving plate seat;

the vertical moving mechanism comprises a vertical moving plate seat extending up and down and a vertical sliding rail extending up and down and arranged on the vertical moving plate seat, the vertical moving plate seat is connected with the longitudinal moving plate seat in a sliding manner through the vertical sliding rail, and a vertical driving assembly capable of driving the vertical moving plate seat to move up and down is arranged between the vertical moving plate seat and the longitudinal moving plate seat;

the cutting arm comprises an arm seat fixedly arranged at the lower end of the vertical moving plate seat, a clamping mechanism arranged on the arm seat and a cutting mechanism;

the clamping mechanism comprises a clamping driving unit arranged on the arm seat and two clamping arms oppositely arranged on the left and right sides, the clamping driving unit is in transmission connection with the two clamping arms respectively, and the clamping driving unit drives the two clamping arms to be close to each other or be far away from each other in a back-to-back manner;

cutting mechanism includes cutting assembly and feed drive assembly, feed drive assembly including around can sliding mounting the sliding seat on the arm seat, with the feed drive unit that the sliding seat transmission is connected, the sliding seat sets up in the below of two arm lock, cutting assembly includes rotatable installation in the cutting dish of sliding seat front end, with the rotatory drive unit that the axle center transmission of cutting dish is connected, the cutting dish axis is the upper and lower extension setting.

As a further improvement of the above technical solution, the lateral driving assembly includes a lateral driving motor mounted on the lateral moving plate base, a rack extending forward and backward and mounted on the fixed frame, and a driving rotating shaft extending left and right and rotatably mounted on the lateral moving plate base, the lateral driving motor is in transmission connection with the driving rotating shaft through a first synchronous pulley transmission structure, and the driving rotating shaft is coaxially connected with a gear meshed with the rack.

As a further improvement of the above technical solution, the number of the racks is two, the two racks are respectively fixed on the left frame and the right frame of the fixed frame, the number of the gears is two, and the two gears are respectively engaged with the two racks.

As a further improvement of the above technical solution, the longitudinal driving assembly includes a longitudinal driving motor installed in the longitudinal fixing base, a longitudinal screw rod rotatably installed in the longitudinal fixing base in a left-right extending manner, and a longitudinal nut seat fixedly installed on the longitudinal moving plate seat, the longitudinal driving motor is in transmission connection with the longitudinal screw rod, and the longitudinal nut seat is in threaded transmission connection with the longitudinal screw rod.

As a further improvement of the technical scheme, the vertical driving assembly comprises a vertical driving motor vertically installed at the upper end of the vertical moving plate seat, a vertical screw rod extending vertically and rotatably installed in the vertical moving plate seat, and a vertical nut seat fixedly installed on the vertical moving plate seat, the vertical driving motor is in transmission connection with the upper end of the vertical screw rod, and the vertical screw rod is in threaded transmission connection with the vertical nut seat.

As a further improvement of the above technical scheme, the arm lock is a front and back extension setting, and the front ends of two arm locks are provided with the clamping jaw, and two clamping jaws are left and right relative settings, centre gripping drive unit includes two centre gripping cylinders of fixed mounting on the arm seat, the centre gripping cylinder is left and right extension setting, and two centre gripping cylinders are connected with the rear end transmission of two arm locks respectively.

As a further improvement of the above technical solution, the cutting disc is coaxially connected with a rotation shaft, the cutting disc is rotatably connected with the front end of the sliding seat through the rotation shaft, the rotation driving unit includes a rotation motor fixedly mounted on the rear end of the sliding seat, and the rotation motor is in transmission connection with the rotation shaft through a second synchronous pulley transmission structure.

As a further improvement of the above technical scheme, the feed driving unit includes a feed electric push rod fixedly mounted on the arm base, the feed electric push rod extends around being, the feed electric push rod is connected with the sliding base in a transmission manner, the left side and the right side of the sliding base are both connected with feed sliding rails extending around being, and a guide sliding seat slidably connected with the feed sliding rails is fixed on the arm base.

As a further improvement of the above technical solution, a plurality of cutting blades extending outward are mounted on the outer circumference of the cutting disc, and the plurality of cutting blades are arranged in an annular interval arrangement.

The utility model has the advantages that: when the spinning machine is used, the fixed frame is hung and fixed, the transverse driving component can drive the transverse moving plate seat to move back and forth along the transverse sliding rail so as to drive the cutting arm to move in the front and back directions, the longitudinal driving component can drive the longitudinal fixed seat to move left and right along the longitudinal sliding rail so as to drive the cutting arm to move in the left and right directions, the vertical driving component can drive the vertical moving plate seat to move up and down along the vertical sliding rail so as to drive the cutting arm to move up and down, thereby automatically realizing the movement of the cutting arm in a three-dimensional space, enabling the cutting arm to move to a certain position in the three-dimensional space for operation, when in cutting, firstly, the clamping mechanism drives the two clamping arms to approach each other through the clamping driving unit, the two clamping arms clamp a spinning yarn together, then the feed driving unit drives the sliding seat to move forward, and, cutting the spinning through the cutting disc to the automatic cutting that realizes the spinning can be tied up to the spinning simultaneously, and rethread mobile device transports the spinning to the position of settlement, and this device still can only carry out the centre gripping through the fixture on the cutting arm to the spinning, thereby can tie up and remove the spinning alone, improves degree of automation, improves machining efficiency.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a schematic front view of an embodiment of a robot apparatus according to the present invention, wherein two arrows respectively indicate a forward direction and a backward direction, wherein two arrows respectively indicate an upward direction and a downward direction, and wherein two arrows respectively indicate a left direction and a right direction;

FIG. 2 is an enlarged view A of a portion of FIG. 1, wherein the two arrows respectively indicate a forward direction and a backward direction, wherein the two arrows respectively indicate an upward direction and a downward direction, wherein the two arrows respectively indicate a left direction and a right direction;

FIG. 3 is a partial enlarged view B of FIG. 1;

fig. 4 is a partial enlarged view C of fig. 1;

fig. 5 is a rear view of an embodiment of the robot apparatus according to the present invention, wherein two arrows respectively indicate a forward direction and a backward direction, wherein two arrows respectively indicate an upward direction and a downward direction, and wherein two arrows respectively indicate a left direction and a right direction;

fig. 6 is a partial enlarged view D in fig. 5;

fig. 7 is a partial enlarged view E of fig. 5;

fig. 8 is a front view of an embodiment of a robot apparatus provided by the present invention;

fig. 9 is a partial enlarged view F in fig. 8;

fig. 10 is a partial enlarged view G in fig. 8.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are used, the meaning is one or more, the meaning of a plurality of words is two or more, and the meaning of more than, less than, more than, etc. is understood as not including the number, and the meaning of more than, less than, more than, etc. is understood as including the number.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 10, the following embodiments are made of a manipulator device for automatic spinning processing of the present invention:

a robot apparatus for automated spinning processes, comprising: the cutting device comprises a mobile device 100 and a cutting arm 600, wherein the mobile device 100 comprises a rectangular fixed frame 200, a transverse moving mechanism 300, a longitudinal moving mechanism 400 and a vertical moving mechanism 500;

the transverse moving mechanism 300 comprises two transverse sliding rails 310 extending back and forth and a transverse moving plate seat 320 extending left and right, the two transverse sliding rails 310 are respectively fixed on the left frame and the right frame of the fixed frame 200, the left end and the right end of the moving plate seat are respectively connected with the two transverse sliding rails 310 in a sliding manner, and a transverse driving component capable of driving the transverse moving plate seat 320 to move back and forth is arranged between the transverse moving plate seat 320 and the fixed frame 200;

the longitudinal moving mechanism 400 comprises a longitudinal fixing seat 410 fixed on the transverse moving plate seat 320, a longitudinal sliding rail 420 extending from left to right and arranged on the longitudinal fixing seat 410, and a longitudinal moving plate seat 430 connected with the longitudinal sliding rail 420 in a sliding manner, wherein a longitudinal driving assembly capable of driving the longitudinal fixing seat 410 to move left and right is arranged between the longitudinal fixing seat 410 and the longitudinal moving plate seat 430;

the vertical moving mechanism 500 comprises a vertical moving plate seat 510 extending up and down and a vertical sliding rail 520 extending up and down and arranged on the vertical moving plate seat 510, the vertical moving plate seat 510 is slidably connected with a longitudinal moving plate seat 430 through the vertical sliding rail 520, and a vertical driving assembly capable of driving the vertical moving plate seat 510 to move up and down is arranged between the vertical moving plate seat 510 and the longitudinal moving plate seat 430;

the cutting arm 600 comprises an arm base 700 fixedly installed at the lower end of the vertical moving plate base 510, a clamping mechanism 800 installed on the arm base 700 and a cutting mechanism 900;

the clamping mechanism 800 comprises a clamping driving unit arranged on the arm base 700 and two clamping arms 810 arranged oppositely left and right, the clamping driving unit is respectively in transmission connection with the two clamping arms 810, and the clamping driving unit drives the two clamping arms 810 to approach towards each other or to move away from each other back to back;

cutting mechanism 900 includes cutting assembly and feed drive assembly, feed drive assembly including can around slidable mounting in the sliding seat 910 on arm seat 700, with the feed drive unit that sliding seat 910 transmission is connected, sliding seat 910 sets up in the below of two arm lock 810, cutting assembly includes the rotatable rotatory drive unit who installs in the cutting dish 920 of sliding seat 910 front end, is connected with the axle center transmission of cutting dish 920, the setting of extending about the cutting dish 920 axis is.

When the cutting machine is used, the fixed frame 200 is hung and fixed, the transverse driving component can drive the transverse moving plate seat 320 to move back and forth along the transverse sliding rail 310 so as to drive the cutting arm 600 to move back and forth, the longitudinal driving component can drive the longitudinal fixed seat 410 to move left and right along the longitudinal sliding rail 420 so as to drive the cutting arm 600 to move left and right, the vertical driving component can drive the vertical moving plate seat 510 to move up and down along the vertical sliding rail 520 so as to drive the cutting arm 600 to move up and down, thereby automatically realizing the movement of the cutting arm 600 in a three-dimensional space, enabling the cutting arm 600 to move to a certain position in the three-dimensional space for operation, when in cutting, firstly, the clamping mechanism 800 drives the two clamping arms 810 to approach each other through the clamping driving unit, the two clamping arms 810 clamp a spinning yarn together, and then the feed driving unit drives the sliding seat, simultaneously the rotation driving unit drive cutting dish 920 is rotatory, cuts the spinning through cutting dish 920 to automatically, realize the cutting to the spinning, can tie up the spinning simultaneously, rethread mobile device 100 transports the spinning to the position of setting for, and this device still can only carry out the centre gripping to the spinning through fixture 800 on the cutting arm 600, thereby can tie up and remove the spinning alone, realize multi-functionally, improve degree of automation, improve machining efficiency.

In some embodiments, two clamping mechanisms 800 are provided, the two clamping mechanisms 800 are arranged at an interval from top to bottom, the cutting disc 920 is arranged between the two clamping mechanisms 800, and the two clamping mechanisms 800 further respectively clamp two sides of the position to be cut of the spun yarn, so that the spun yarn is prevented from being scattered, and the spinning cutting precision can be ensured.

In some embodiments, the transverse driving assembly includes a transverse driving motor 330 mounted on the transverse moving plate holder 320, a rack 340 mounted on the fixed frame 200 in a manner of extending back and forth, and a driving rotating shaft 350 rotatably mounted on the transverse moving plate holder 320 in a manner of extending left and right, the transverse driving motor 330 is in driving connection with the driving rotating shaft 350 through a first synchronous pulley transmission structure, and a gear 360 in meshing connection with the rack 340 is coaxially connected to the driving rotating shaft 350. When the cutting arm 600 needs to move back and forth, the transverse driving motor 330 drives the driving rotating shaft 350 to rotate through the first synchronous belt wheel transmission structure, the driving rotating shaft 350 drives the transverse moving plate seat 320 to move back and forth through the meshing of the gear 360 and the rack 340, so that the back and forth movement of the cutting arm 600 is realized, the accuracy of the movement of the cutting arm 600 can be improved through the meshing connection of the gear 360 and the rack 340, and the first synchronous belt wheel transmission structure is specifically a structure in which the driving belt wheel and the driven belt wheel are in transmission connection through a transmission belt.

In some embodiments, there are two racks 340, two racks 340 are fixed on the left frame and the right frame of the fixed frame 200, respectively, and two gears 360 are provided, and the two gears 360 are engaged with the two racks 340, respectively. This can improve the stability of the lateral movement plate holder 320, keep the left and right ends of the lateral movement plate holder 320 moving synchronously, and avoid the phenomenon of jamming due to tilting.

In some embodiments, the longitudinal driving assembly includes a longitudinal driving motor installed in the longitudinal fixing base 410, a longitudinal screw rod rotatably installed in the longitudinal fixing base 410 in a left-right extending manner, and a longitudinal nut base fixedly installed on the longitudinal moving plate base 430, wherein the longitudinal driving motor is in transmission connection with the longitudinal screw rod, and the longitudinal nut base is in threaded transmission connection with the longitudinal screw rod. When the cutting arm 600 needs to move left and right, the longitudinal driving motor drives the longitudinal screw rod to rotate, the longitudinal screw rod drives the longitudinal moving plate seat 430 to move left and right in a mode of being in threaded transmission connection with the longitudinal nut seat, the front and back movement of the cutting arm 600 is achieved, and the accuracy of the left and right movement of the cutting arm 600 can be improved through the threaded transmission connection of the screw rod and the nut.

In some embodiments, the vertical driving assembly includes a vertical driving motor 530 vertically installed on the upper end of the vertical moving plate base 510, a vertical screw rod rotatably installed in the vertical moving plate base 510 in an up-and-down extending manner, and a vertical nut base fixedly installed on the longitudinal moving plate base 430, wherein the vertical driving motor 530 is in transmission connection with the upper end of the vertical screw rod, and the vertical screw rod is in threaded transmission connection with the vertical nut base. When the cutting arm 600 needs to move up and down, the vertical driving motor 530 drives the vertical screw rod to rotate, the vertical screw rod drives the vertical moving plate seat 510 to move up and down in a mode of being in threaded transmission connection with the vertical nut seat, the up and down movement of the cutting arm 600 is achieved, and the accuracy of the up and down movement of the cutting arm 600 can be improved through the threaded transmission connection of the screw rod and the nut.

In some embodiments, the clamping arms 810 extend forwards and backwards, the clamping jaws 811 are disposed at the front ends of the two clamping arms 810, the two clamping jaws 811 are disposed opposite to each other from left to right, the clamping driving unit includes two clamping cylinders 820 fixedly mounted on the arm base 700, the clamping cylinders 820 extend from left to right, and the two clamping cylinders 820 are respectively in transmission connection with the rear ends of the two clamping arms 810. The clamping arm 810 grabs the spinning through the clamping jaw 811, the clamping jaw 811 is sunken form, can form annular clamping area when two clamping jaws 811 are in the same place, and the spinning is by the centre gripping in clamping area, and two centre gripping cylinders 820 drive two clamping arm 810 actions respectively, and one can improve the speed of centre gripping or unclamping, and then improves machining efficiency, and two come also to improve the clamping-force of two clamping arm 810, avoid the spinning not hard up and influence the precision of cutting.

In some embodiments, the cutting disk 920 is coaxially connected with a rotating shaft 930, the cutting disk 920 is rotatably connected with the front end of the sliding seat 910 through the rotating shaft 930, the rotary driving unit includes a rotary motor 940 fixedly mounted on the rear end of the sliding seat 910, and the rotary motor 940 is in transmission connection with the rotating shaft 930 through a second synchronous pulley transmission structure. The second synchronous pulley transmission structure is also a structure for realizing transmission connection between the conventional driving pulley and the conventional driven pulley through a transmission belt, when cutting is performed, the rotating motor 940 drives the rotating shaft 930 to rotate through the second synchronous pulley transmission structure, and the rotating shaft 930 drives the cutting disc 920 to rotate, so that the spinning is cut.

In some embodiments, the feed driving unit includes a feed electric push rod 950 fixedly installed on the arm base 700, the feed electric push rod 950 extends forward and backward, the feed electric push rod 950 is connected with a sliding base 910 in a transmission manner, both the left side and the right side of the sliding base 910 are connected with feed sliding rails 911 extending forward and backward, and a guide sliding base 710 slidably connected with the feed sliding rails 911 is fixed on the arm base 700. The sliding seat 910 is driven by the feeding electric push rod 950 to move back and forth, and when feeding or retracting, under the guidance of the guide sliding seat 710 and the feeding sliding rail 911, the sliding seat 910 can slide back and forth along the guide sliding seat 710, so as to improve the sliding fluency of the sliding seat 910, and prevent the cutting disc 920 from tilting due to deviation of the movement of the sliding seat 910.

In some embodiments, a plurality of outwardly extending cutting blades 921 are mounted on the outer circumference of the cutting disk 920, and the plurality of cutting blades 921 are arranged in an annular interval. The cutting disk 920 cuts the spun yarn by a plurality of cutting blades 921, improving the cutting efficiency.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (9)

1. The utility model provides a manipulator device for spinning automatic processing which characterized in that: the method comprises the following steps:

the mobile equipment (100) comprises a rectangular fixed frame (200), a transverse moving mechanism (300), a longitudinal moving mechanism (400) and a vertical moving mechanism (500);

the transverse moving mechanism (300) comprises two transverse sliding rails (310) extending front and back and a transverse moving plate seat (320) extending left and right, the two transverse sliding rails (310) are respectively fixed on a left frame and a right frame of the fixed frame (200), the left end and the right end of the moving plate seat are respectively connected with the two transverse sliding rails (310) in a sliding manner, and a transverse driving assembly capable of driving the transverse moving plate seat (320) to move back and forth is arranged between the transverse moving plate seat (320) and the fixed frame (200);

the longitudinal moving mechanism (400) comprises a longitudinal fixed seat (410) fixed on the transverse moving plate seat (320), a longitudinal slide rail (420) extending left and right and arranged on the longitudinal fixed seat (410), and a longitudinal moving plate seat (430) connected with the longitudinal slide rail (420) in a sliding manner, wherein a longitudinal driving assembly capable of driving the longitudinal fixed seat (410) to move left and right is arranged between the longitudinal fixed seat (410) and the longitudinal moving plate seat (430);

the vertical moving mechanism (500) comprises a vertical moving plate seat (510) extending up and down and a vertical sliding rail (520) extending up and down and arranged on the vertical moving plate seat (510), the vertical moving plate seat (510) is in sliding connection with the longitudinal moving plate seat (430) through the vertical sliding rail (520), and a vertical driving assembly capable of driving the vertical moving plate seat (510) to move up and down is arranged between the vertical moving plate seat (510) and the longitudinal moving plate seat (430);

the cutting arm (600) comprises an arm seat (700) fixedly arranged at the lower end of the vertical moving plate seat (510), a clamping mechanism (800) arranged on the arm seat (700) and a cutting mechanism (900);

the clamping mechanism (800) comprises a clamping driving unit arranged on the arm seat (700) and two clamping arms (810) oppositely arranged left and right, the clamping driving unit is respectively in transmission connection with the two clamping arms (810), and the clamping driving unit drives the two clamping arms (810) to be close to each other or be away from each other back to back;

cutting mechanism (900) includes cutting assembly and feed drive assembly, feed drive assembly including around can sliding mounting slide holder (910) on arm seat (700), the feed drive unit who is connected with slide holder (910) transmission, slide holder (910) set up in the below of two arm lock (810), cutting assembly includes rotatable installation in cutting dish (920) of slide holder (910) front end, the rotary driving unit who is connected with the axle center transmission of cutting dish (920), cutting dish (920) axis is the upper and lower extension setting.

2. The manipulator device for spinning automatic processing according to claim 1, characterized in that: the transverse driving assembly comprises a transverse driving motor (330) installed on a transverse moving plate seat (320), a rack (340) installed on a fixed frame (200) in a front-back extending mode, a driving rotating shaft (350) installed on the transverse moving plate seat (320) in a left-right extending mode, wherein the transverse driving motor (330) is in transmission connection with the driving rotating shaft (350) through a first synchronous pulley transmission structure, and the driving rotating shaft (350) is coaxially connected with a gear (360) which is meshed with the rack (340) and is connected with the gear.

3. The manipulator device for spinning automatic processing according to claim 2, characterized in that: the two racks (340) are arranged, the two racks (340) are respectively fixed on the left frame and the right frame of the fixed frame (200), the two gears (360) are arranged, and the two gears (360) are respectively meshed with the two racks (340).

4. The manipulator device for spinning automatic processing according to claim 1, characterized in that: the longitudinal driving assembly comprises a longitudinal driving motor arranged in a longitudinal fixed seat (410), a longitudinal screw rod which extends left and right and can be rotatably arranged in the longitudinal fixed seat (410), and a longitudinal nut seat fixedly arranged on a longitudinal moving plate seat (430), wherein the longitudinal driving motor is in transmission connection with the longitudinal screw rod, and the longitudinal nut seat is in threaded transmission connection with the longitudinal screw rod.

5. The manipulator device for spinning automatic processing according to claim 1, characterized in that: the vertical driving assembly comprises a vertical driving motor (530) which is vertically installed at the upper end of a vertical moving plate seat (510), a vertical screw rod which is vertically extended and can be rotatably installed in the vertical moving plate seat (510), and a vertical nut seat which is fixedly installed on the vertical moving plate seat (430), wherein the vertical driving motor (530) is in transmission connection with the upper end of the vertical screw rod, and the vertical screw rod is in threaded transmission connection with the vertical nut seat.

6. The manipulator device for spinning automatic processing according to claim 1, characterized in that: extend the setting around arm lock (810) is, all is provided with clamping jaw (811) at the front end of two arm lock (810), and relative setting about two clamping jaw (811) are, centre gripping drive unit includes two centre gripping cylinders (820) of fixed mounting on arm seat (700), extend the setting about centre gripping cylinder (820) are, and two centre gripping cylinders (820) are connected with the rear end transmission of two arm lock (810) respectively.

7. The manipulator device for spinning automatic processing according to claim 1, characterized in that: the cutting disc (920) is coaxially connected with a rotating shaft (930), the cutting disc (920) is rotatably connected with the front end of the sliding seat (910) through the rotating shaft (930), the rotary driving unit comprises a rotary motor (940) fixedly installed on the rear end of the sliding seat (910), and the rotary motor (940) is in transmission connection with the rotating shaft (930) through a second synchronous pulley transmission structure.

8. The manipulator device for spinning automatic processing according to claim 1, characterized in that: the feed drive unit includes feed electric putter (950) of fixed mounting on arm seat (700), feed electric putter (950) are the front and back extension setting, feed electric putter (950) are connected with sliding seat (910) transmission, the left side and the right side of sliding seat (910) all are connected with feed slide rail (911) that extend around being be fixed with on arm seat (700) with feed slide rail (911) sliding connection's direction slide (710).

9. The manipulator device for spinning automatic processing according to claim 1, characterized in that: a plurality of cutting blades (921) extending outwards are mounted on the outer circumference of the cutting disk (920), and the cutting blades (921) are arranged in an annular interval mode.

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