CN108110976B

CN108110976B - Full-automatic glue dispensing assembly line for motor shell

Info

Publication number: CN108110976B
Application number: CN201711500989.2A
Authority: CN
Inventors: 余胜东
Original assignee: Wenzhou Polytechnic
Current assignee: Zhaoqing Gaoyao Hengjun Electric Appliance Co ltd
Priority date: 2017-12-30
Filing date: 2017-12-30
Publication date: 2020-06-23
Anticipated expiration: 2037-12-30
Also published as: CN108110976A; CN111211655A; CN111211655B

Abstract

The invention relates to the technical field of automation devices, in particular to a full-automatic glue dispensing assembly line for a motor shell. Full-automatic glue dispensing assembly line of motor casing, including transport mechanism: vertically and upwards positioning and placing the motor shell without glue dispensing and the motor shell with glue dispensing, transmitting the motor shell without glue dispensing to a position-adjusting workpiece-taking manipulator in the middle, and synchronously transmitting the motor shell with glue dispensing to a turnover workpiece-taking manipulator at the front end; a manipulator is got in transfer: a frame: the conveying mechanism, the position-adjusting and piece-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and piece-taking mechanical arm, the movable material-loading mechanism clamp, the general air valve and the PLC are all fixedly arranged on the conveying mechanism, the position-adjusting and piece-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and piece-taking mechanical arm, the movable. By utilizing the full-automatic glue dispensing assembly line for the motor shell, the glue dispensing, conveying and overturning work can be completely operated by only one person, the automatic glue dispensing, conveying and overturning work is realized, the automatic glue dispensing amount is uniform and reliable, and the glue dispensing position is always at the preset position in the motor shell, so that the working efficiency is further improved, and the labor cost is reduced.

Description

Full-automatic glue dispensing assembly line for motor shell

Technical Field

The invention relates to the technical field of automation devices, in particular to a full-automatic glue dispensing assembly line for a motor shell.

Background

Glue of the point of motor casing inner wall when installing electromagnetic tile is glued for manual operation among the prior art in the motor casing, glue earlier with artifical rubber coating on the motor casing inner wall promptly, scribble artifical orderly place a plurality of motor casings in the transport box whole artifical transportation to the manual assembly workshop of electromagnetic tile and assemble after gluing. Thus, there are three problems here: 1. manual gluing is carried out, and the gluing amount is very uneven; 2. the glue cannot be well coated on a fixed position during gluing; 3. the work efficiency is low, and the labor cost is higher.

Disclosure of Invention

The invention aims to solve the defects of the prior art, and provides a full-automatic glue dispensing assembly line for a motor shell, which is good in glue dispensing effect, high in working efficiency and low in labor cost.

The invention designs a full-automatic dispensing assembly line for a motor shell, which comprises a conveying mechanism: vertically and upwards positioning and placing the motor shell without glue dispensing and the motor shell with glue dispensing, transmitting the motor shell without glue dispensing to a position-adjusting workpiece-taking manipulator in the middle, and synchronously transmitting the motor shell with glue dispensing to a turnover workpiece-taking manipulator at the front end; a manipulator is got in transfer: synchronously grabbing the motor shell with the glue dispensed on the rotating mechanism and the motor shell without the glue dispensed on the conveying mechanism, conveying and positioning the motor shell without the glue dispensed on the rotating mechanism, and conveying and positioning the motor shell with the glue dispensed on the conveying mechanism again; a rotating mechanism: inclining the non-glued motor shell to one side for 30 degrees, and then rotating the motor shell for 360 degrees; glue dispensing mechanism: the glue discharging needle discharges glue by rotating along with the rotation of the motor shell; overturning and taking a mechanical arm: grabbing the glued motor shell on the conveying mechanism and overturning the glued motor shell by 180 degrees; portable material mechanism anchor clamps of carrying: conveying the motor shell subjected to glue dispensing and overturning to the next procedure; a PLC controller: the conveying mechanism, the position-adjusting and part-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and part-taking mechanical arm, the movable material-loading mechanism clamp and the general air valve are electrically connected with and controlled by the conveying mechanism, the position-adjusting and part-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and part-taking mechanical arm, the movable material; a frame: the conveying mechanism, the position-adjusting and piece-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and piece-taking mechanical arm, the movable material-loading mechanism clamp, the general air valve and the PLC are all fixedly arranged on the conveying mechanism, the position-adjusting and piece-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and piece-taking mechanical arm, the movable.

The working process of the structure is as follows: arranging a manual work to place the opening of the motor shell upwards on the conveying mechanism, grabbing the motor shell which is not subjected to glue dispensing and the motor shell which is subjected to glue dispensing on the rotating mechanism by the position-adjusting piece-taking mechanical hand, stopping conveying by the conveying mechanism, starting 180-degree rotation and position adjustment by the rotating mechanism after grabbing, putting the motor shell which is subjected to glue dispensing back on the conveying mechanism, placing the motor shell which is not subjected to glue dispensing on the rotating mechanism, performing glue dispensing work by the glue dispensing mechanism, moving the conveying mechanism forwards by one station, and performing automatic cycle work according to the glue dispensing operation; a manipulator is got in upset snatchs the motor casing of having glued the back and carries out 180 degrees upsets for motor casing's opening is down, for the electromagnetic tile assembly of next process prepares, and portable material loading mechanism anchor clamps are carried the motor casing location back that the opening is down to next process in.

The beneficial effect of above-mentioned device: the glue of its structure is glued, is carried and upset work only need alone can realize whole operations, and realizes that automatic point is glued, is carried and upset work, and automatic point volume is even reliable, and the point is glued the position and is predetermine the position in the motor housing all the time, has further promoted work efficiency, has reduced the cost of labor.

Further preferably, the conveying mechanism comprises a servo motor, a first support fixed on the rack, a conveying belt, a plurality of positioning seats fixed on the outer side surface of the conveying belt and used for positioning the motor shell, and two synchronous belt pulleys, wherein the two synchronous belt pulleys are fixed at two ends of the first support respectively, the servo motor is fixed with a synchronous belt pulley, the conveying belt is simultaneously and tightly sleeved on the two synchronous belt pulleys, and the servo motor is connected with the PLC and is controlled by the PLC. The structure of the conveyor belt conveying device has the advantages that the conveyor belt can move due to the rotation of the synchronous belt wheel, the conveyor belt moves to drive the first positioning seat to translate, so that the motor shell placed on the first positioning seat is conveyed, and the conveyor belt conveying device is stable and reliable in conveying.

Further preferably, a manipulator is got in positioning includes revolving cylinder one, be fixed in support two in the frame, the rotary rod, revolving cylinder one is fixed in the top of support two, the rotary rod is vertical form and is fixed in revolving cylinder one, two-phase corresponding side all is fixed with lift cylinder one on the fixing base at rotary rod top, all be fixed with the fixed plate on two lift cylinders one, the lateral surface of fixed plate is fixed with cylinder one, install tongs one on the cylinder one, revolving cylinder one, lift cylinder one and cylinder one all link to each other with the master valve. The gripper synchronously grabs the glued motor shell and the glued motor shell respectively under the action of the first two cylinders, the first lifting cylinder is used for moving the motor shell upwards to prevent the motor shell on the side from being knocked down, then the first rotating cylinder is used for replacing the positions of the two motor shells, the glued motor shells are conveyed to the first positioning seat, the glued motor shells are conveyed to the rotating mechanism for position adjustment, then automatic rotation is carried out on the inner wall of the motor shell, and automatic intelligent degree and working efficiency are improved.

Preferably, the rotating mechanism comprises a second rotating cylinder fixed on the rack, a third support fixed on the second rotating cylinder, and a third rotating cylinder fixed on the third support, a second positioning seat for positioning the motor shell is fixed on a rotating shaft of the third rotating cylinder after penetrating through the third support, and the second rotating cylinder and the third rotating cylinder are both connected with the main air valve. The structure utilizes the second rotary cylinder to incline the glue outlet of the glue dispensing needle after 30 degrees and the inner wall of the motor shell to be close to each other, the third rotary cylinder starts to work after the glue dispensing needle is out of glue so that the motor shell rotates by 360 degrees, the inner wall glue dispensing work of the motor shell is completed, the automatic glue dispensing is completely realized, the working efficiency is improved, and the labor cost is reduced.

Further preferably, the glue dispensing mechanism comprises a linear guide rail I, a linear guide rail II, a glue dispensing needle and a support frame IV fixed on the frame, the linear guide rail I is transversely fixed on a transverse plate at the top of the support frame IV, a support plate is longitudinally fixed on a slide block of the linear guide rail I, the linear guide rail II is fixed on a plate surface of the support plate, a glue dispenser is fixed on the slide block of the linear guide rail II, the glue dispensing needle is longitudinally fixed at a glue outlet of the glue dispenser, the glue dispensing needle corresponds to the position of the positioning seat II on the rotating mechanism, two end parts of the transverse plate at the top of the support frame IV are fixedly provided with a positioning plate I, a cylinder II is fixed on the positioning plate I at one end, a piston rod of the cylinder II is fixed with the slide block of the linear guide rail I, two end parts of the support plate are fixedly provided with a positioning plate II, a cylinder III is fixed on the positioning plate II at one end, the glue dispenser is connected with and controlled by the PLC controller. Its structure is after motor casing's slope work is accomplished, will glue the needle through cylinder two and remove to motor casing's top promptly, and cylinder three drives and glues the needle and move down, and after the needle is close to motor casing inner wall to gluing, glue the needle and begin to go out gluey, and motor casing begins 360 degrees rotations, realizes automated control point.

Further preferably, the overturning and part taking manipulator comprises a transverse translation cylinder, a longitudinal translation cylinder, a rotary cylinder four, a gripper two and a support five fixed on the rack, the transverse translation cylinder is fixed at the top of the support five, the longitudinal translation cylinder is fixed on a sliding block of the transverse translation cylinder, the rotary cylinder four is fixed on the sliding block of the longitudinal translation cylinder, the rotary cylinder four is fixed on a rotary end of the rotary cylinder four, the gripper two is installed on the cylinder four, and the transverse translation cylinder, the longitudinal translation cylinder, the rotary cylinder four and the cylinder four are all connected with a main air valve. The structure of the electromagnetic tile conveying mechanism is that a gripper is translated to the front part of the conveying mechanism through a transverse translation cylinder, and a motor shell which is located on a positioning seat I and dispensed is overturned for 180 degrees after being grabbed, so that an opening of the motor shell faces downwards, and preparation is made for assembling an electromagnetic tile of the next procedure.

Further preferably, the movable material loading clamp comprises a translation plate and a cylinder five, the translation plate is fixedly provided with a plurality of clamps, the cylinder five is fixed with the rack, and a piston rod of the cylinder five is fixed with the translation plate. The motor shell with the downward opening is sleeved on the clamp and then conveyed to the next procedure through the translation plate.

Drawings

FIG. 1 is the whole structure diagram of embodiment 1;

FIG. 2 is the whole structure diagram of embodiment 1 (II);

FIG. 3 is the whole structure diagram (III) of embodiment 1;

FIG. 4 is a schematic structural view of a transport mechanism of embodiment 1;

FIG. 5 is a schematic structural view of the positioning and picking robot of embodiment 1;

fig. 6 is a schematic structural view of the rotating mechanism of embodiment 1;

FIG. 7 is a schematic structural view of a dispensing mechanism of embodiment 1;

FIG. 8 is a schematic structural view of the reverse pick-up robot in accordance with embodiment 1;

fig. 9 is a schematic structural view of the movable loading mechanism jig of embodiment 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Example 1:

as shown in fig. 1 to 9, the full-automatic dispensing assembly line for the motor shell described in this embodiment includes a conveying mechanism 1, a positioning and taking manipulator 2, a rotating mechanism 3, a dispensing mechanism 4, an overturning and taking manipulator 5, a movable material loading mechanism clamp 6, a general air valve, a PLC controller, and a frame 7.

The conveying mechanism 1: after the motor shell without glue dispensing and the motor shell with glue dispensing are positioned and placed vertically with the door opening facing upwards, the motor shell without glue dispensing is transmitted to a position-adjusting workpiece-taking manipulator in the middle, and the motor shell with glue dispensing is synchronously transmitted to a turnover workpiece-taking manipulator at the front end; the conveying mechanism 1 comprises a servo motor 15, a first support 11 fixed on the rack 7, a conveying belt 12, a plurality of first positioning seats 13 and two synchronous belt pulleys 14, wherein the first positioning seats 13 and the two synchronous belt pulleys 14 are fixed on the outer side surface of the conveying belt 12 and used for positioning a motor shell, the two synchronous belt pulleys 14 are respectively fixed at two ends of the first support 11, the servo motor 15 is fixed with one synchronous belt pulley 14, the conveying belt 12 is simultaneously and tightly sleeved on the two synchronous belt pulleys 14, and the servo motor 15 is connected with a PLC (programmable logic controller) and. A sensor 16 can be arranged on the first bracket 11 for sensing whether the glued motor shell enters the grabbing range of the turnover pick-up manipulator 5.

The positioning and piece taking manipulator 2: synchronously grabbing the dispensed motor shell on the rotating mechanism 3 and the non-dispensed motor shell on the conveying mechanism 1, conveying and positioning the non-dispensed motor shell on the rotating mechanism 3, and re-conveying and positioning the dispensed motor shell on the conveying mechanism 1; the positioning and taking manipulator 2 comprises a first rotating cylinder 27, a second support 21 fixed on the rack 7, a rotating rod 26, the first rotating cylinder 27 is fixed at the pre-part of the second support 21, the rotating rod 26 is fixed on the first rotating cylinder 27 in a vertical manner, first lifting cylinders 22 are fixed on two corresponding side faces of a fixing seat at the top of the rotating rod 26, fixing plates 23 are fixed on the first lifting cylinders 22, first cylinders 24 are fixed on the outer side faces of the fixing plates 23, first grippers 25 are installed on the first cylinders 24, the first rotating cylinders 27, the first lifting cylinders 22 and the first cylinders 24 are connected with a general air valve.

A rotating mechanism 3: inclining the non-glued motor shell to one side for 30 degrees, and then rotating the motor shell for 360 degrees; the rotating mechanism 3 comprises a second rotating cylinder 31 fixed on the frame 7, a third support 32 fixed on the second rotating cylinder 31, and a third rotating cylinder 34 fixed on the third support 32, wherein a second positioning seat 33 for positioning the motor housing is fixed on the rotating shaft of the third rotating cylinder 34 after penetrating through the third support 32, and both the second rotating cylinder 31 and the third rotating cylinder 34 are connected with the main air valve. A limit structure or a limit sensor can be arranged on the second positioning seat to limit the number of the rotation cycles of the second positioning seat.

Glue dispensing mechanism 4: the glue dispensing needle 47 discharges glue by rotating along with the rotation of the motor shell; the dispensing mechanism 4 comprises a first linear guide rail 42, a second linear guide rail 44, a dispensing needle 47 and a fourth support frame 41 fixed on the frame 7, the first linear guide rail 42 is transversely fixed on a transverse plate 50 at the top of the fourth support frame 41, a support plate 43 is longitudinally fixed on a slide block of the first linear guide rail 42, the second linear guide rail 44 is fixed on a plate surface of the support plate 43, a dispensing device 46 is fixed on a slide block of the second linear guide rail 44, the dispensing needle 47 is longitudinally fixed at a dispensing opening of the dispensing device 46, the dispensing needle 47 corresponds to a second positioning seat on the rotating mechanism 3 in position, a first limiting plate 49 is fixed at two end parts of the transverse plate at the top of the fourth support frame 41, a second air cylinder 48 is fixed on the first limiting plate 49 at one end, a piston rod of the second air cylinder 48 is fixed with the slide block of the first linear guide rail 42, a second limiting plate 40 is fixed at two ends, and a piston rod of the air cylinder III 45 is fixed with a sliding block of the linear guide rail II 44, the air cylinder II 48 and the air cylinder III 45 are both connected with a master air valve, and the glue dispenser 46 is connected with and controlled by a PLC (programmable logic controller). The lower dead point of the dispensing needle is limited by a second limiting plate at the lower end of the dispensing needle to perform limiting work.

Overturning and taking manipulator 5: grabbing the glued motor shell on the conveying mechanism 1 and overturning the glued motor shell by 180 degrees; the overturning workpiece taking manipulator 5 comprises a transverse translation cylinder 52, a longitudinal translation cylinder 53, a rotary cylinder four 56, a cylinder four 54, a gripper two 55 and a support five 51 fixed on the rack 7, the transverse translation cylinder 52 is fixed at the top of the support five 51, the longitudinal translation cylinder 53 is fixed on a slide block of the transverse translation cylinder 52, the rotary cylinder four 56 is fixed on the slide block of the longitudinal translation cylinder 53, the cylinder four 54 is fixed on a rotary end of the rotary cylinder four 56, the gripper two 55 is installed on the cylinder four 54, and the transverse translation cylinder 52, the longitudinal translation cylinder 53, the rotary cylinder four 56 and the cylinder four 54 are all connected with a general air valve.

Portable material mechanism anchor clamps 6 that carry: conveying the motor shell subjected to glue dispensing and overturning to the next procedure; the movable material loading clamp 6 comprises a translation plate 62 and a five-cylinder 61, a plurality of clamps 63 are fixed on the translation plate 62, the five-cylinder 61 is fixed with the rack 7, and a piston rod of the five-cylinder 61 is fixed with the translation plate 62.

A PLC controller: the conveying mechanism 1, the position-adjusting and piece-taking mechanical arm 2, the rotating mechanism 3, the glue dispensing mechanism 4, the overturning and piece-taking mechanical arm 5, the movable type material loading mechanism clamp 6 and the general air valve are electrically connected with and controlled by the conveying mechanism, the position-adjusting and piece-taking mechanical arm 2, the rotating mechanism 3, the glue dispensing mechanism 4 and the overturning and piece-taking mechanical arm. The PLC controller is used for setting parameters of automatic work, sending work instructions and recording work time.

A frame: the conveying mechanism 1, the positioning and taking mechanical arm 2, the rotating mechanism 3, the glue dispensing mechanism 4, the overturning and taking mechanical arm 5, the movable loading mechanism clamp 6, the general air valve and the PLC (not shown in the figure) are all arranged and fixed on the conveying mechanism.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims

1. The utility model provides a full-automatic dispensing assembly line of motor casing which characterized in that, includes transport mechanism: vertically and upwards positioning and placing the motor shell without glue dispensing and the motor shell with glue dispensing, transmitting the motor shell without glue dispensing to a position-adjusting workpiece-taking manipulator in the middle, and synchronously transmitting the motor shell with glue dispensing to a turnover workpiece-taking manipulator at the front end; a manipulator is got in transfer: synchronously grabbing the motor shell with the glue dispensed on the rotating mechanism and the motor shell without the glue dispensed on the conveying mechanism, conveying and positioning the motor shell without the glue dispensed on the rotating mechanism, and conveying and positioning the motor shell with the glue dispensed on the conveying mechanism again; a rotating mechanism: inclining the non-glued motor shell to one side for 30 degrees, and then rotating the motor shell for 360 degrees; glue dispensing mechanism: the glue discharging needle discharges glue by rotating along with the rotation of the motor shell; overturning and taking a mechanical arm: grabbing the glued motor shell on the conveying mechanism and overturning the glued motor shell by 180 degrees; portable material mechanism anchor clamps of carrying: conveying the motor shell subjected to glue dispensing and overturning to the next procedure; a PLC controller: the conveying mechanism, the position-adjusting and part-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and part-taking mechanical arm, the movable material-loading mechanism clamp and the general air valve are electrically connected with and controlled by the conveying mechanism, the position-adjusting and part-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and part-taking mechanical arm, the movable material; a frame: the conveying mechanism, the position-adjusting and part-taking mechanical arm, the rotating mechanism, the glue dispensing mechanism, the overturning and part-taking mechanical arm, the movable material loading mechanism clamp, the general air valve and the PLC are all arranged and fixed on the conveying mechanism;

the conveying mechanism comprises a servo motor, a first support fixed on the rack, a conveying belt, a plurality of positioning seats fixed on the outer side surface of the conveying belt and used for positioning the motor shell, and two synchronous belt pulleys, wherein the two synchronous belt pulleys are respectively fixed at two ends of the first support;

the positioning and taking manipulator comprises a first rotating cylinder, a second bracket and a rotating rod, wherein the second bracket is fixed on the rack, the first rotating cylinder is fixed at the top of the second bracket, the rotating rod is vertically fixed on the first rotating cylinder, first lifting cylinders are fixed on two corresponding side surfaces of a fixed seat at the top of the rotating rod, fixed plates are fixed on the first lifting cylinders, a first cylinder is fixed on the outer side surface of each fixed plate, a first gripper is installed on the first cylinder, and the first rotating cylinder, the first lifting cylinders and the first cylinders are all connected with a main air valve;

the rotating mechanism comprises a second rotating cylinder fixed on the rack, a third support fixed on the second rotating cylinder and a third rotating cylinder fixed on the third support, a second positioning seat for positioning the motor shell is fixed after a rotating shaft of the third rotating cylinder penetrates through the third support, and the second rotating cylinder and the third rotating cylinder are both connected with the main air valve;

the glue dispensing mechanism comprises a first linear guide rail, a second linear guide rail, a glue dispensing needle and a fourth support frame fixed on a rack, wherein the first linear guide rail is transversely fixed on a transverse plate at the top of the fourth support frame, a support plate is longitudinally fixed on a slide block of the first linear guide rail, the second linear guide rail is fixed on the plate surface of the support plate, a glue dispenser is fixed on the slide block of the second linear guide rail, the glue dispensing needle is longitudinally fixed at a glue outlet of the glue dispenser, the glue dispensing needle corresponds to the position of a second positioning seat on a rotating mechanism, two end parts of the transverse plate at the top of the fourth support frame are fixedly provided with a first limiting plate, a second air cylinder is fixed on the first limiting plate at one end, a piston rod of the second air cylinder is fixed with the slide block of the first linear guide rail, two end parts of the support plate are fixedly provided with a second limiting plate, a third air cylinder is fixed on the second, the glue dispenser is connected with and controlled by the PLC controller;

the overturning and taking manipulator comprises a transverse translation cylinder, a longitudinal translation cylinder, a rotary cylinder IV, a gripper II and a support V fixed on the rack, the transverse translation cylinder is fixed at the top of the support V, the longitudinal translation cylinder is fixed on a sliding block of the transverse translation cylinder, the rotary cylinder IV is fixed on the sliding block of the longitudinal translation cylinder, the rotary end of the rotary cylinder IV is fixed with the cylinder IV, the gripper II is installed on the cylinder IV, and the transverse translation cylinder, the longitudinal translation cylinder, the rotary cylinder IV and the cylinder IV are all connected with a main air valve;

the movable material loading clamp comprises a translation plate and a cylinder five, wherein a plurality of clamps are fixed on the translation plate, the cylinder five is fixed with the rack, and a piston rod of the cylinder five is fixed with the translation plate.

2. The full-automatic glue dispensing production line for the motor shell according to claim 1, characterized by comprising the following steps of: manually placing the motor shell with an upward opening on the conveying mechanism, and simultaneously grabbing the motor shell without glue dispensing on the conveying mechanism and the motor shell with glue dispensing on the rotating mechanism by the positioning and taking manipulator; stopping conveying by the conveying mechanism, starting 180-degree rotation and position adjustment by the rotating mechanism after grabbing is finished, putting the glued motor shell back on the conveying mechanism, and putting the non-glued motor shell on the rotating mechanism; dispensing is carried out by using a dispensing mechanism, and a conveying mechanism moves forwards by one station; performing automatic cycle work according to the steps; the overturning and taking manipulator picks the glued motor shell and then overturns the motor shell for 180 degrees, so that the opening of the motor shell faces downwards to prepare for assembling the electromagnetic tiles in the next process; the movable material loading mechanism clamp positions the motor shell with the downward opening and then conveys the motor shell to the next procedure.