CN112935787A - Cylindrical part moving and assembling mechanism - Google Patents

Abstract

The invention provides a cylindrical part moving and assembling mechanism which comprises a plane fine adjustment mechanism, a lifting frame, a first tool, a second tool, an inner air foot group and an outer air foot group, wherein the lifting frame is arranged on the plane fine adjustment mechanism; lifting frame fixed mounting is equipped with interior sufficient group of gas to the top surface of plane fine-tuning, the outer frame of plane fine-tuning is equipped with outer sufficient group of gas, one side of outer frame is equipped with distance sensor and camera, lifting frame's four corners all is equipped with a frame linear guide, be equipped with a frock between frame linear guide and No. two frame linear guide, a frock middle part is pegged graft to lifting frame through a screw rod, be equipped with No. two frocks between No. three frame linear guide and No. four frame linear guide, No. two frock middle parts are pegged graft to lifting frame through No. two screw rods. The invention can complete high-precision, high-stability, flexible and maneuvering assembly and high-stability zero-gravity two-dimensional plane motion physical experiment assembly.

Description

Cylindrical part moving and assembling mechanism

Technical Field

The invention belongs to the field of air floatation equipment, and particularly relates to a cylindrical part moving and assembling mechanism.

Background

The air floatation mechanical equipment is more and more widely applied, the friction force between two parts can be greatly reduced, the stability of relative movement of the parts is ensured, the energy consumption is saved, the air floatation principle is that an air floatation channel is arranged on the lower part and blows air downwards through the air floatation channel, and the friction force between the upper part and the lower part is greatly reduced under the action of the air, so that the micro-adjustment of the upper part is facilitated. At present, accurate positioning and adjustment are required to be carried out in the processing and detecting processes of large-caliber high-precision complex parts, locking is required after adjustment, the adjustment is too slow due to the adoption of the traditional thinking and the purely mechanical adjustment, the adjusting speed is low, the adjusting precision is not easy to guarantee, when the large-scale complex parts are large in size or heavy in weight, the requirement on the power of a driving source for adjustment is high, and the energy consumption is high.

Disclosure of Invention

In view of this, the invention aims to provide a cylindrical part moving and assembling mechanism which can complete high-precision, high-stability, flexible and maneuvering assembly and high-stability zero-gravity two-dimensional plane motion physical experiment assembly.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a cylindrical part moving and assembling mechanism comprises a plane fine adjustment mechanism, a lifting frame, a first tool, a second tool, an inner air foot group and an outer air foot group;

the lifting frame is fixedly arranged on the top surface of the plane fine adjustment mechanism, the inner frame of the plane fine adjustment mechanism is provided with an inner air foot set, the outer frame of the plane fine adjustment mechanism is provided with an outer air foot set, one side of the outer frame is provided with a distance sensor and a camera,

lifting frame's four corners all is equipped with a frame linear guide, be frame linear guide respectively No. one, No. two frame linear guide, No. three frame linear guide and No. four frame linear guide, be equipped with the frock between frame linear guide and No. two frame linear guide, No. one the frock middle part is pegged graft to lifting frame through a screw rod, be equipped with the frock No. two between No. three frame linear guide and No. four frame linear guide, No. two the frock middle part is pegged graft to lifting frame through No. two screw rods, rotate a screw rod and No. two screw rods, can realize the altitude mixture control to a frock, No. two the frock.

Furthermore, the plane fine adjustment mechanism comprises an outer frame, an inner frame, a rotating frame, a first moving component, a second moving component, a first fine adjustment component, a second fine adjustment component and a rotating adjustment component,

the middle part of the outer frame is provided with an outer frame groove, the inner frame is arranged in the outer frame groove in the middle part of the outer frame, the rotating frame is connected to the middle part of the inner frame in a sliding mode, rotation of the rotating frame relative to the inner frame is achieved, the top of the outer frame is provided with a first moving assembly, the left side of the outer frame is provided with a second moving assembly, the bottom of the outer frame is provided with a first fine adjustment assembly, and the right side of the outer frame is provided;

the edge of internal frame four sides is equipped with the guide rail No. one respectively, No. two guide rails, No. three guide rails and No. four guide rails, a removal slider and a guide rail sliding connection of a removal subassembly, No. two removal sliders and No. two guide rail sliding connection of No. two removal subassemblies, a fine setting slider and No. three guide rail sliding connection of a fine setting subassembly, No. two fine setting sliders and No. four guide rail sliding connection of No. two fine setting subassemblies, realize being connected between outer frame and the internal frame, the inboard of a removal subassembly is equipped with the rotation adjusting part, the rotation motor that rotates the adjusting part mutually supports with the rotation rack that sets up on the rotating frame, realize rotating frame's fine setting.

Furthermore, an inner frame groove is formed in the middle of the inner frame, an annular connecting piece is arranged in the center of the inner frame groove, and the rotating frame is connected to the lower surface of the annular connecting piece to realize concentric rotation of the rotating frame relative to the annular connecting piece; the circumferential inner surface of the inner frame groove is connected to the circumferential outer surface of the annular connecting piece through three connecting beams;

the three connecting beams are spaced by 120 degrees in pairs, and the three connecting beams divide the area between the inner frame and the annular connecting piece into 3 same fan-shaped rotation adjusting areas.

Furthermore, a moving assembly and a moving assembly are the same in structure, the moving assembly comprises a moving seat and a moving sliding block, two ends of the moving seat are respectively provided with a moving guide post, two ends of the moving sliding block are respectively provided with a moving guide hole corresponding to the moving guide post, and the two moving guide posts are respectively sleeved on the two moving guide holes, so that the moving sliding block can move relative to the moving seat.

Furthermore, the first fine adjustment assembly and the second fine adjustment assembly are identical in structure, the first fine adjustment assembly comprises a first fine adjustment seat, a first fine adjustment sliding block and a first fine adjustment motor, fine adjustment guide posts are arranged at two ends of the first fine adjustment seat respectively, fine adjustment guide holes corresponding to the fine adjustment guide posts are arranged at two ends of the first fine adjustment sliding block respectively, and the two fine adjustment guide posts are sleeved with the two fine adjustment guide holes respectively, so that the first fine adjustment sliding block can move relative to the first fine adjustment seat; one side of a first fine adjustment sliding block is provided with a first fine adjustment motor, the output end of the first fine adjustment motor penetrates through the first fine adjustment sliding block to be in threaded connection with a first fine adjustment seat, and fine adjustment of the first fine adjustment sliding block is achieved through the operation of the first fine adjustment motor.

Further, a first fine tuning motor works to realize the moving fine tuning of the inner frame in the Y-axis direction; and the second fine tuning motor works to realize the moving fine tuning of the inner frame in the X-axis direction.

Further, the tops of the first tool and the second tool are both arc-shaped structures and are used for being matched with the cylindrical part, and the moving stability of the cylindrical part is guaranteed.

Further, the inner air foot group comprises 3 inner air foot bodies, and the 3 inner air foot bodies can be simultaneously switched on and off and are uniformly distributed on the lower surface of the inner frame; outer air foot group includes 3 outer air foot bodies, and 3 outer air foot bodies also can open and close gas simultaneously, and evenly distributed is at the lower surface of outer frame.

Furthermore, No. one frame linear guide, No. two frame linear guide, No. three frame linear guide and No. four frame linear guide for control frock and No. two frock go up and down in the vertical direction.

Further, the distance sensor is used for determining the relative position distance of the two sets of cylindrical part moving assembly mechanisms in the X axial direction; the camera is used for CCD imaging acquisition and adjusting the relative position distance of the two sets of cylindrical part moving and assembling mechanisms in the Y axial direction.

Compared with the prior art, the cylindrical part moving and assembling mechanism has the following advantages:

(1) according to the cylindrical part moving and assembling mechanism, cylindrical structures with different diameters or part clamping mechanical interfaces with mechanical mounting surfaces with different sizes and high adaptability can be clamped on the cylindrical structure or part clamping mechanical interfaces with mechanical mounting surfaces for assembling, and the clamping tool can be replaced according to different diameter requirements.

(2) According to the cylindrical part moving and assembling mechanism, the clamping tool can be matched with a linear guide rail, a screw rod and the like to perform vertical precise adjustment.

(3) The cylindrical part moving and assembling mechanism is realized by rotating the adjusting assembly, and the rotating frame is precisely adjusted in the plane angle.

(4) According to the cylindrical part moving and assembling mechanism, the adjustment of the X-axis direction, the Y-axis direction and the plane angle is realized through a precise structure in a small space, so that the space is saved, and the cost is saved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a moving and assembling mechanism for cylindrical parts according to an embodiment of the present invention;

FIG. 2 is a schematic bottom view of a cylindrical part moving and assembling mechanism according to an embodiment of the present invention;

fig. 3 is a schematic view of a planar fine adjustment mechanism according to an embodiment of the present invention.

Description of reference numerals:

1. an outer frame; 2. an inner frame; 21. an annular connector; 22. a connecting beam; 23. rotating the regulating area; 3. a rotating frame; 31. rotating the rack; 4. a first mobile component; 41. a first movable seat; 42. moving the sliding block I; 43. moving the guide post; 5. a second mobile component; 6. a first fine adjustment component; 61. a first fine tuning seat; 62. a first fine adjustment sliding block; 63. a first fine tuning motor; 64. fine adjustment of the guide post; 7. a second fine adjustment component; 8. rotating the adjusting assembly; 81. rotating the adjusting motor; 9. a first guide rail; 10. a lifting frame; 101. a first frame linear guide rail; 102. a second frame linear guide rail; 103. a third frame linear guide rail; 11. a first tool; 12. a second tool; 13. an inner air foot group; 14. an outer air foot group; 15. a distance sensor; 16. a camera is provided.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

A cylindrical part moving and assembling mechanism, as shown in fig. 1 to 3; the device comprises a plane fine adjustment mechanism, a lifting frame 10, a first tool 11, a second tool 12, an inner air foot group 13 and an outer air foot group 14;

the lifting frame 10 is fixedly installed on the top surface of the plane fine adjustment mechanism, the inner frame 2 of the plane fine adjustment mechanism is provided with an inner air foot group 13, the outer frame 1 of the plane fine adjustment mechanism is provided with an outer air foot group 14, one side of the outer frame 1 is provided with a distance sensor 15 and a camera 16,

lifting frame 10's four corners all is equipped with a frame linear guide, be frame linear guide 101 respectively, No. two frame linear guide 102, No. three frame linear guide 103 and No. four frame linear guide, be equipped with a frock 11 between frame linear guide 101 and No. two frame linear guide 102, No. 11 middle parts of a frock are pegged graft to lifting frame 10 through a screw rod, be equipped with No. two frock 12 between No. three frame linear guide 103 and No. four frame linear guide, No. two 12 middle parts of frock are pegged graft to lifting frame 10 through No. two screw rods, rotate a screw rod and No. two screw rods, can realize the altitude mixture control to a frock 11, No. two frock 12.

The plane fine adjustment mechanism comprises an outer frame 1, an inner frame 2, a rotating frame 3, a first moving component 4, a second moving component 5, a first fine adjustment component 6, a second fine adjustment component 7 and a rotating adjustment component 8,

the middle part of the upper surface of the outer frame 1 is provided with an outer frame groove, the inner frame 2 is arranged in the outer frame groove in the middle part of the outer frame 1, the rotating frame 3 is connected to the middle part of the inner frame 2 in a sliding mode to realize the rotation of the rotating frame 3 relative to the inner frame 2, the top of the outer frame 1 is provided with a first moving assembly 4, the left side of the outer frame 1 is provided with a second moving assembly 5, the bottom of the outer frame 1 is provided with a first fine adjustment assembly 6, and the right side of the outer frame 1;

the edge of internal frame 2 four sides is equipped with guide rail 9 No. one respectively, No. two guide rails, No. three guide rails and No. four guide rails, a removal slider 42 and a guide rail 9 sliding connection of a removal subassembly 4, No. two removal sliders and No. two guide rail sliding connection of No. two removal subassemblies 5, a fine setting slider 62 and No. three guide rail sliding connection of a fine setting subassembly 6, No. two fine setting sliders and No. four guide rail sliding connection of No. two fine setting subassemblies 7, realize being connected between outer frame 1 and the internal frame 2, the inboard of a removal subassembly 4 is equipped with rotation adjusting part 8, the rotation motor that rotates adjusting part 8 mutually supports with the rotation rack 31 that sets up on rotating frame 3, realize rotating frame 3's fine setting.

An inner frame groove is formed in the middle of the inner frame 2, an annular connecting piece 21 is arranged in the center of the inner frame groove, and the rotating frame 3 is connected to the lower surface of the annular connecting piece 21, so that the rotating frame 3 can concentrically rotate relative to the annular connecting piece 21; the circumferential inner surface of the inner frame groove is connected to the circumferential outer surface of the annular connecting member 21 through three connecting beams 22, respectively;

the three connecting beams 22 are spaced 120 ° apart from each other and the three connecting beams 22 divide the area between the inner frame 2 and the ring connector 21 into 3 identical sector-shaped rotation adjustment zones 23.

The first moving assembly 4 and the second moving assembly 5 are identical in structure, the first moving assembly 4 comprises a moving base 41 and a moving sliding block 42, two ends of the moving base 41 are respectively provided with a moving guide column 43, two ends of the moving sliding block 42 are respectively provided with a moving guide hole corresponding to the moving guide column 43, the two moving guide columns 43 are respectively sleeved on the two moving guide holes, and the first moving sliding block 42 moves relative to the first moving base 41.

The first fine adjustment assembly 6 and the second fine adjustment assembly 7 are identical in structure, the first fine adjustment assembly 6 comprises a first fine adjustment seat 61, a first fine adjustment sliding block 62 and a first fine adjustment motor 63, two ends of the first fine adjustment seat 61 are respectively provided with a fine adjustment guide column 64, two ends of the first fine adjustment sliding block 62 are respectively provided with a fine adjustment guide hole corresponding to the fine adjustment guide columns 64, the two fine adjustment guide columns 64 are respectively sleeved with the two fine adjustment guide holes, and the first fine adjustment sliding block 62 can move relative to the first fine adjustment seat 61; one side of the first fine adjustment sliding block 62 is provided with a first fine adjustment motor 63, the output end of the first fine adjustment motor 63 penetrates through the first fine adjustment sliding block 62 to be in threaded connection with the first fine adjustment seat 61, and fine adjustment of the first fine adjustment sliding block 62 is achieved through operation of the first fine adjustment motor 63.

The movement fine adjustment of the inner frame 2 in the Y-axis direction is realized by controlling the first fine adjustment motor 63 to work or manually operating; the movement fine adjustment of the inner frame 2 in the X-axis direction is realized by controlling the work or manual operation of a second fine adjustment motor; the fine adjustment of the angle of the rotating frame 3 is realized by controlling the operation of the rotation adjusting motor 81 or by manual operation.

The tops of the first tool 11 and the second tool 12 are both arc-shaped structures and are used for being matched with the cylindrical part, and the moving stability of the cylindrical part is guaranteed. Frock 11 and No. two frock 12 are the detachable connection, can change the specification of frock 11, No. two frock 12 according to the cylindricality part of different diameter specifications to realize the adaptation of frock 11, No. two frock 12 to the cylindricality part.

The inner air foot group 13 comprises 3 inner air foot bodies, and the 3 inner air foot bodies can be simultaneously switched on and off and are uniformly distributed on the lower surface of the inner frame 2; the outer air foot group 14 comprises 3 outer air foot bodies, and the 3 outer air foot bodies can be simultaneously switched on and off and are uniformly distributed on the lower surface of the outer frame 1.

The first frame linear guide rail 101, the second frame linear guide rail 102, the third frame linear guide rail 103 and the fourth frame linear guide rail are used for controlling the first tool 11 and the second tool 12 to lift in the vertical direction.

The distance sensor 15 is used for determining the relative position distance of the two sets of cylindrical part moving assembly mechanisms in the X axial direction; the camera 16 is used for CCD imaging acquisition and adjusting the relative position distance of the two sets of cylindrical part moving assembly mechanisms in the Y axial direction.

The cylindrical part moving and assembling mechanism is suitable for scientific detection of loads and corresponding devices for high-precision, high-stability, flexible and maneuvering assembly and high-stability zero-gravity two-dimensional plane motion physical experiment assembly. When in use, the device comprises two sets of cylindrical part moving and assembling mechanisms with basically consistent configurations. The movable assembly mechanism can perform zero-gravity friction-free air floating type plane free movement on the surface of a flat marble table with air floating use conditions. The assembled columnar parts are respectively clamped on the two movable assembling mechanisms, and the two movable assembling mechanisms can finish high-precision and high-stability flexible maneuvering assembly under the action of manpower or automatic adjustment through a high-precision measuring system and a high-precision adjusting system;

the movable assembling mechanism has a high-stability air suspension structure, the assembled movable table body can be suspended on the surface of a marble through the inner air foot group 13 and the outer air foot group 14 and can move reliably, stably and without friction, the outer air foot group 14 plays a main supporting role, the ventilation state is realized during working, the inner air foot group 13 plays a regulating role, the whole movable assembling mechanism can move on the assembling platform freely during ventilation, the movable assembling mechanism cannot move and is centered by self friction force after air is cut off, and the XY axis and angle can be precisely adjusted in a small range through the first fine adjusting component 6, the second fine adjusting component 7 and the rotary adjusting component 8 on the outer frame 1,

through the high-precision measuring and adjusting device, the spatial assembling position and angle information can be measured in real time in the assembling process so as to guide the assembling process.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a cylindricality part removes assembly devices which characterized in that: the device comprises a plane fine adjustment mechanism, a lifting frame, a first tool, a second tool, an inner air foot group and an outer air foot group;

the lifting frame is fixedly arranged on the top surface of the plane fine adjustment mechanism, the inner frame of the plane fine adjustment mechanism is provided with an inner air foot set, the outer frame of the plane fine adjustment mechanism is provided with an outer air foot set, one side of the outer frame is provided with a distance sensor and a camera,

lifting frame's four corners all is equipped with a frame linear guide, be frame linear guide respectively No. one, No. two frame linear guide, No. three frame linear guide and No. four frame linear guide, be equipped with the frock between frame linear guide and No. two frame linear guide, No. one the frock middle part is pegged graft to lifting frame through a screw rod, be equipped with the frock No. two between No. three frame linear guide and No. four frame linear guide, No. two the frock middle part is pegged graft to lifting frame through No. two screw rods, rotate a screw rod and No. two screw rods, can realize the altitude mixture control to a frock, No. two the frock.

2. The cylindrical part moving and assembling mechanism according to claim 1, wherein: the plane fine adjustment mechanism comprises an outer frame, an inner frame, a rotating frame, a first moving component, a second moving component, a first fine adjustment component, a second fine adjustment component and a rotating adjustment component,

the middle part of the outer frame is provided with an outer frame groove, the inner frame is arranged in the outer frame groove in the middle part of the outer frame, the rotating frame is connected to the middle part of the inner frame in a sliding mode, rotation of the rotating frame relative to the inner frame is achieved, the top of the outer frame is provided with a first moving assembly, the left side of the outer frame is provided with a second moving assembly, the bottom of the outer frame is provided with a first fine adjustment assembly, and the right side of the outer frame is provided;

the edge of internal frame four sides is equipped with the guide rail No. one respectively, No. two guide rails, No. three guide rails and No. four guide rails, a removal slider and a guide rail sliding connection of a removal subassembly, No. two removal sliders and No. two guide rail sliding connection of No. two removal subassemblies, a fine setting slider and No. three guide rail sliding connection of a fine setting subassembly, No. two fine setting sliders and No. four guide rail sliding connection of No. two fine setting subassemblies, realize being connected between outer frame and the internal frame, the inboard of a removal subassembly is equipped with the rotation adjusting part, the rotation motor that rotates the adjusting part mutually supports with the rotation rack that sets up on the rotating frame, realize rotating frame's fine setting.

3. The cylindrical part moving and assembling mechanism according to claim 2, wherein: an inner frame groove is formed in the middle of the inner frame, an annular connecting piece is arranged in the center of the inner frame groove, and the rotating frame is connected to the lower surface of the annular connecting piece to realize concentric rotation of the rotating frame relative to the annular connecting piece; the circumferential inner surface of the inner frame groove is connected to the circumferential outer surface of the annular connecting piece through three connecting beams;

the three connecting beams are spaced by 120 degrees in pairs, and the three connecting beams divide the area between the inner frame and the annular connecting piece into 3 same fan-shaped rotation adjusting areas.

4. The cylindrical part moving and assembling mechanism according to claim 2, wherein: the first moving assembly and the second moving assembly are identical in structure, the first moving assembly comprises a first moving seat and a first moving sliding block, two ends of the first moving seat are respectively provided with a moving guide post, two ends of the first moving sliding block are respectively provided with a moving guide hole corresponding to the moving guide posts, and the two moving guide posts are respectively sleeved on the two moving guide holes to realize movement of the first moving sliding block relative to the first moving seat.

5. The cylindrical part moving and assembling mechanism according to claim 2, wherein: the first fine adjustment assembly and the second fine adjustment assembly are identical in structure, the first fine adjustment assembly comprises a first fine adjustment seat, a first fine adjustment sliding block and a first fine adjustment motor, fine adjustment guide posts are arranged at two ends of the first fine adjustment seat respectively, fine adjustment guide holes corresponding to the fine adjustment guide posts are arranged at two ends of the first fine adjustment sliding block respectively, and the two fine adjustment guide posts are sleeved to the two fine adjustment guide holes respectively so as to realize the movement of the first fine adjustment sliding block relative to the first fine adjustment seat; one side of a first fine adjustment sliding block is provided with a first fine adjustment motor, the output end of the first fine adjustment motor penetrates through the first fine adjustment sliding block to be in threaded connection with a first fine adjustment seat, and fine adjustment of the first fine adjustment sliding block is achieved through the operation of the first fine adjustment motor.

6. The cylindrical part moving and assembling mechanism according to claim 5, wherein: the first fine tuning motor works to realize the moving fine tuning of the inner frame in the Y-axis direction; and the second fine tuning motor works to realize the moving fine tuning of the inner frame in the X-axis direction.

7. The cylindrical part moving and assembling mechanism according to claim 1, wherein: the top of the first tool and the top of the second tool are both arc-shaped structures and are used for being matched with the cylindrical part, and the moving stability of the cylindrical part is guaranteed.

8. The cylindrical part moving and assembling mechanism according to claim 1, wherein: the inner air foot group comprises 3 inner air foot bodies, and the 3 inner air foot bodies can be simultaneously switched on and off and are uniformly distributed on the lower surface of the inner frame; outer air foot group includes 3 outer air foot bodies, and 3 outer air foot bodies also can open and close gas simultaneously, and evenly distributed is at the lower surface of outer frame.

9. The cylindrical part moving and assembling mechanism according to claim 2, wherein: the first frame linear guide rail, the second frame linear guide rail, the third frame linear guide rail and the fourth frame linear guide rail are used for controlling the first tool and the second tool to lift in the vertical direction.

10. The cylindrical part moving and assembling mechanism according to claim 1, wherein: the distance sensor is used for determining the relative position distance of the two sets of cylindrical part moving assembly mechanisms in the X axial direction; the camera is used for CCD imaging acquisition and adjusting the relative position distance of the two sets of cylindrical part moving and assembling mechanisms in the Y axial direction.

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