CN218006080U - Adhesive tape sticking mechanism of motor online conductive adhesive tape sticking production line - Google Patents

Abstract

The utility model relates to a rubberizing tape mechanism of online electrically conductive sticky tape production line of motor, it includes translation motor, translation seat, elevator motor, lift seat and rubberizing tape subassembly, and the rubberizing tape subassembly is located on the lift seat, and the rubberizing tape subassembly includes rubberizing tape elevator motor, rubberizing tape lifting screw, nut piece down, rubberizing tape elevator seat down, go up double-layered sticky tape cylinder, lower double-layered sticky tape cylinder, go up double-layered sticky tape arm and lower double-layered sticky tape arm, the utility model discloses a translation motor and elevator motor drive respectively and paste the translation of rubberizing tape subassembly and go up and down, and rubberizing tape elevator seat down drive vertical electrically conductive sticky tape translation and lift, and rubberizing tape elevator motor drive rubberizing tape lifting screw forward rotates or the reverse rotation, and rubberizing tape elevator seat and lower sticky tape elevator seat paste the upper end and the lower extreme of electrically conductive sticky tape respectively on the upper end cover and the lower end cover of motor, consequently, the utility model discloses an automation degree is high, and rubberizing tape speed, production efficiency is high.

Description

Adhesive tape sticking mechanism of motor online conductive adhesive tape sticking production line

Technical Field

The utility model relates to a technical field of motor production line, in particular to sticky tape mechanism of online conductive adhesive tape production line of pasting of motor.

Background

At present, the upper end cover of motor, the bottom end cover facing is equipped with electrically conductive sticky tape, electrically conductive sticky tape is used for eliminating the motor upper end cover, the potential difference of bottom end cover, when preventing that the motor from using, burn out the inside spare part of motor, electrically conductive sticky tape's both ends are connected with upper end cover, bottom end cover respectively, all the other electrically conductive sticky tapes bond on the shell of motor, but at present, electrically conductive sticky tape on the motor is that the manual work is pasted and is gone, artifical sticky tape process is many moreover, artifical sticky tape's effect is poor, low efficiency, can't paste the sticky tape on line. There is therefore a need for further improvements in existing motor production lines.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can paste sticky tape on line, paste sticky tape efficient, effectual motor pastes the sticky tape mechanism of conductive adhesive tape production line on line.

The purpose of the utility model is realized like this:

a tape pasting mechanism of a motor online conductive tape pasting production line comprises a translation motor, a translation seat, a lifting motor, a lifting seat and a tape pasting assembly, wherein the translation seat is horizontally and slidably arranged on a rack, the translation motor is arranged on the rack, and drives the translation seat to horizontally slide, the lifting seat is arranged on the frame in a vertically sliding manner, the lifting motor is arranged on the translation seat, and drives the lifting seat to slide up and down, the adhesive tape sticking component is arranged on the lifting seat and comprises an adhesive tape sticking lifting motor, an adhesive tape sticking lifting screw rod, an upper nut block, a lower nut block, an upper adhesive tape sticking lifting seat, a lower adhesive tape sticking lifting seat, an upper adhesive tape clamping air cylinder, a lower adhesive tape clamping air cylinder, an upper adhesive tape clamping arm and a lower adhesive tape clamping arm, the adhesive tape lifting screw is vertically and rotatably arranged on the lifting seat, the adhesive tape lifting motor is arranged on the lifting seat, and drives the adhesive tape lifting screw rod to rotate, the adhesive tape lifting screw rod comprises a forward threaded rod and a reverse threaded rod which are fixedly connected up and down, the upper adhesive tape lifting seat and the lower adhesive tape lifting seat are arranged on the lifting seat in a vertically sliding manner, the upper adhesive tape lifting seat is positioned above the lower adhesive tape lifting seat, the upper nut block and the lower nut block are respectively fixedly connected with the upper adhesive tape lifting seat and the lower adhesive tape lifting seat, the upper nut block and the lower nut block are respectively in threaded connection with the forward threaded rod and the reverse threaded rod, the upper adhesive tape clamping arm is horizontally arranged on the upper adhesive tape lifting seat in a sliding manner, the upper adhesive tape clamping cylinder is arranged on the upper adhesive tape lifting seat, and drives the upper adhesive tape clamping arm to horizontally slide, the lower adhesive tape clamping arm is horizontally arranged on the lower adhesive tape lifting seat in a sliding way, the lower adhesive tape clamping cylinder is arranged on the lower adhesive tape sticking lifting seat and drives the lower adhesive tape clamping arm to horizontally slide. The translation motor is in transmission connection with a translation seat screw nut, and the lifting motor is in transmission connection with a lifting seat screw nut. The utility model discloses a translation motor and elevator motor drive rubberizing tape subassembly translation and lift respectively, rubberizing tape lift seat and lower rubberizing tape lift seat drive vertical conductive adhesive tape translation and lift, thereby realize pressing conductive adhesive tape on motor housing, in addition, rubberizing tape lift motor drive rubberizing tape lifting screw forward rotation or antiport, thereby make rubberizing tape lifting screw drive nut piece and lower nut piece slip in opposite directions or back of the body mutually slip, when rubberizing tape lift seat and lower rubberizing tape lift seat slip in opposite directions, rubberizing tape lift seat pastes the upper end and the lower extreme of above-mentioned conductive adhesive tape respectively on the upper end cover and the lower end cover of motor with lower rubberizing tape lift seat, thereby realize compressing tightly the upper end and the lower end cover of motor respectively with conductive adhesive tape, lower both ends. Therefore, the utility model discloses an degree of automation is high, and the rubberizing tape is fast, production efficiency is high.

The utility model can be further improved as follows.

The quantity of rubberizing tape subassembly is two, two a left side right side of rubberizing tape subassembly sets up on the seat that goes up and down, consequently, the utility model discloses a have two rubberizing tape stations, production efficiency is higher.

The middle part of the lifting seat is provided with a lifting guide plate, the two sides of the lifting guide plate are provided with lifting guide rails along the height direction, and the upper and lower sliding of the upper adhesive tape lifting seat and the lower adhesive tape lifting seat are arranged on the lifting guide rails on one side of the lifting seat, so that the upper adhesive tape lifting seat and the lower adhesive tape lifting seat can stably lift.

The lower adhesive tape clamping arm and the lower adhesive tape clamping arm are L-shaped, so that the conductive adhesive tape is convenient to clamp.

The adhesive tape component further comprises an adhesive tape pre-pressing rod and an adhesive tape pre-pressing spring, the adhesive tape pre-pressing rod is horizontally arranged on the adhesive tape lifting seat under the adhesive tape pre-pressing rod in a sliding mode, the adhesive tape pre-pressing spring is arranged between the adhesive tape pre-pressing rod and the adhesive tape lifting seat under the adhesive tape pre-pressing rod, the adhesive tape pre-pressing rod is located between the upper adhesive tape lifting seat and the lower adhesive tape lifting seat, and therefore the middle portion of the conductive adhesive tape can be guaranteed to be pressed on the side wall of the shell of the motor.

The beneficial effects of the utility model are as follows:

the utility model discloses a translation motor and elevator motor drive sticky tape subassembly translation and lift respectively, sticky tape lift seat drives vertical conductive adhesive tape translation and lift with sticky tape lift seat down, thereby realize pressing conductive adhesive tape on motor housing, additionally, sticky tape lift motor drive sticky tape lifting screw forward rotation or antiport, thereby make sticky tape lifting screw drive upper nut piece and lower nut piece slip in opposite directions or mutually carry on the back mutually and slide, when sticky tape lift seat and sticky tape lift seat slip in opposite directions down, sticky tape lift seat pastes the upper end of above-mentioned conductive adhesive tape and lower extreme respectively with sticky tape lift seat down on the upper end cover of motor and lower end cover, thereby realize with conductive adhesive tape the upper and lower both ends compress tightly respectively on the upper end cover and the lower end cover of motor. Therefore, the utility model discloses an degree of automation is high, and the rubberizing tape is fast, production efficiency is high.

Drawings

Fig. 1 is the structure schematic diagram of the production line for sticking the conductive adhesive tape on line by the motor of the utility model.

Fig. 2 is a schematic structural diagram of another angle of the production line for sticking the conductive adhesive tape on line by the motor of the present invention.

Fig. 3 is a schematic structural diagram of a third angle of the motor on-line conductive adhesive tape attaching production line of the present invention.

Fig. 4 is a side view of the production line for sticking the conductive adhesive tape on line by the motor of the utility model.

Fig. 5 is the structure schematic diagram of the utility model after the adhesive tape storing mechanism, the motor conveying line and the motor lifting and rotating mechanism are omitted.

Fig. 6 is a schematic view of the structure of fig. 5 at another angle.

Fig. 7 is a schematic structural view of the tape attaching mechanism of the present invention.

Fig. 8 is another angle structure diagram of the tape attaching mechanism of the present invention.

Fig. 9 is a plan view of the taping mechanism of the present invention.

Fig. 10 is a side view of the taping mechanism of the present invention.

Fig. 11 isbase:Sub>A cross-sectional view atbase:Sub>A-base:Sub>A in fig. 10.

Fig. 12 is a schematic structural view of the motor lifting and rotating mechanism of the present invention.

Fig. 13 is another angle structure diagram of the motor lifting and rotating mechanism of the present invention.

Fig. 14 is a schematic structural view of the tape cutting mechanism of the present invention.

Fig. 15 is another angle structure diagram of the tape cutting mechanism of the present invention.

Fig. 16 is a schematic structural view of the motor of the present invention without the conductive adhesive tape attached.

Fig. 17 is a schematic structural view of the motor after being pasted with the conductive adhesive tape.

Fig. 1 to 6 show an initial position and a final position of the conductive tape on the taping mechanism.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

In a first embodiment, as shown in fig. 1 to 17, an online motor conductive tape attaching production line includes a rack 1, a tape storing mechanism 5, a motor conveying line 6, a motor lifting and rotating mechanism 3, a tape attaching mechanism 2, and a tape cutting mechanism 4.

The adhesive tape storage mechanism 5 is arranged on the machine frame 1 and is used for supplying the conductive adhesive tape 9 to the adhesive tape sticking mechanism 2,

and the motor conveying line 6 is positioned beside the rack 1 and is used for conveying a motor.

The motor rotation alignment mechanism 3 is arranged on the rack 1 and used for lifting the motor on the motor conveying line 6 and rotating the motor so that the adhesive tape sticking mechanism 2 sticks the conductive adhesive tape 9 on the motor.

The adhesive tape sticking mechanism 2 is arranged on the rack 1 and used for sticking the conductive adhesive tape 9 to a motor on the motor lifting and rotating mechanism 3.

The adhesive tape cutting mechanism 4 is arranged on the rack 1 and used for cutting the conductive adhesive tape 9 on the adhesive tape storing mechanism 5.

As a more specific technical solution of the present invention.

Paste sticky tape mechanism 2 and include translation motor 21, translation seat 22, elevator motor 23, lift seat 24 and two paste sticky tape subassemblies 20, translation seat horizontal slip sets up in the frame, translation motor 21 locates on frame 1 to drive translation seat 22 horizontal slip, translation motor 21 is connected with translation seat 22 screw-nut transmission, the lift seat slides from top to bottom and sets up in the frame, elevator motor 23 locates on translation seat 22 to drive lift seat 24 and slide from top to bottom, elevator motor 23 is connected with lift seat 24 screw-nut transmission, and two paste sticky tape subassemblies one left and right sides set up on lift seat 24.

A motor shaft of the lifting motor 23 is provided with a lifting screw rod 215, and the lifting screw rod 215 is in threaded connection with a screw hole on the lifting seat 24.

The tape sticking assembly comprises a tape sticking lifting motor 25, a tape sticking lifting screw rod 216, an upper nut block 212, a lower nut block 213, a tape sticking lifting seat 28, a lower tape sticking lifting seat 29, an upper tape clamping cylinder 26, a lower tape clamping cylinder 27, an upper tape clamping arm 210, a lower tape clamping arm 211, a tape pre-pressing rod 217 and a tape pre-pressing spring 218, wherein the tape sticking lifting screw rod 216 vertically rotates and is arranged on the lifting seat 24, the tape sticking lifting motor 25 is arranged on the lifting seat 24 and drives the tape sticking lifting screw rod 216 to rotate, the tape sticking lifting screw rod 216 comprises a forward threaded rod 201 and a reverse threaded rod 202 which are fixedly connected up and down, the tape sticking lifting seat 28 and the lower tape sticking lifting seat 29 are vertically and slidably arranged on the lifting seat 24, the upper tape sticking lifting seat 28 is arranged above the lower tape sticking lifting seat 29, the upper nut block 212 and the lower nut block 213 are respectively fixedly connected with the tape sticking lifting seat 28 and the lower tape sticking lifting seat 29, the upper nut block 212 and the lower tape sticking nut block 213 are respectively connected with the forward threaded rod 213, the upper tape sticking lifting seat 26, the upper tape clamping arm is horizontally and horizontally slides and drives the tape clamping arm to horizontally and the upper tape clamping cylinder 211, the upper tape clamping arm 26.

The forward threaded rod 201 and the reverse threaded rod 202 are connected through a coupler 222.

The middle part of lift seat 24 is equipped with lift deflector 214, the both sides of lift deflector 214 are equipped with lift guide 219 along the direction of height, two the rubberizing tape subassembly sets up respectively on the lift guide 219 of the both sides of lift seat 24.

The lower adhesive tape clamping arm 211 and the lower adhesive tape clamping arm 211 are L-shaped.

The tape pre-pressing rod 217 is horizontally arranged on the lower adhesive tape lifting seat 29 in a sliding manner, the tape pre-pressing spring 218 is arranged between the tape pre-pressing rod 217 and the lower adhesive tape lifting seat 29, and the tape pre-pressing rod 217 is arranged between the upper adhesive tape lifting seat 28 and the lower adhesive tape lifting seat 29.

Motor lifting and drop rotating mechanism 3 includes fixing base 31, alignment lift cylinder 32, alignment lifter plate 33, alignment motor 34 and two alignment subassemblies 310, fixing base 31 is located in frame 1, alignment lift cylinder 32 is located on fixing base 31 to drive alignment lifter plate 33 and slide from top to bottom, and two alignment subassemblies 310 a left side and a right side set up on alignment lifter plate 33, alignment subassembly 310 includes alignment pivot 35 and alignment clamping jaw cylinder, alignment motor 34 is located on alignment lifter plate 33 to it is rotatory to drive two alignment pivots 35, the lower extreme of alignment pivot 35 is located to the alignment clamping jaw cylinder, its left clamping jaw 39 of alignment clamping jaw cylinder drive, right clamping jaw 38 open or fold.

A driving gear 311 is arranged on a motor shaft of the alignment motor 34, driven gears 312 are arranged at the upper ends of the two alignment rotating shafts 35, and the driving gear 311 is connected with the driven gears 312 through a transmission toothed belt 36.

Cut sticky tape mechanism 4 including mount pad 41, cut sticky tape translation cylinder 42 and cut sticky tape clamping jaw cylinder 43, mount pad 41 is located on frame 1, cut sticky tape translation cylinder 42 and locate on mount pad 41 to the drive is cut sticky tape clamping jaw cylinder 43 horizontal slip, cut sticky tape clamping jaw cylinder 43 and locate on the slip table of cutting sticky tape translation cylinder 42, cut sticky tape clamping jaw cylinder 43 and drive its left sticky tape clamping jaw 44, right sticky tape clamping jaw 45 and open or fold, be equipped with on the left side sticky tape clamping jaw 44 andor the right sticky tape clamping jaw 45 and cut the sticky tape sword.

The motor conveying line 6 is provided with an adhesive tape pressing cylinder 8, an adhesive tape pressing sliding seat 80 is arranged on a cylinder rod of the adhesive tape pressing cylinder 8, and a first adhesive tape pressing block 81 and a second adhesive tape pressing block 82 are arranged on the adhesive tape pressing sliding seat 80 at an upper-lower interval.

The utility model discloses a theory of operation is:

the utility model discloses before the work, the workman installs the conducting resin area circle on two sticky tape installation wheels at sticky tape storage mechanism 5 earlier, cut sticky tape translation cylinder 42 drive and cut sticky tape clamping jaw cylinder 43 and remove preset position toward one side, left sticky tape clamping jaw 44 and right sticky tape clamping jaw 45 just are located the dead ahead of rubberizing tape subassembly, then the workman will be electrically conductive the tip of the conducting resin area 9 on enclosing on drawing left sticky tape clamping jaw 44 and the right sticky tape clamping jaw 45 of cutting sticky tape clamping jaw cylinder 43, cut sticky tape clamping jaw cylinder 43 drive left sticky tape clamping jaw 44 and right sticky tape clamping jaw 45 and clip the tip of conducting resin area 9.

The utility model discloses the during operation, the workman starts the online conductive adhesive tape production line of pasting of whole motor, motor transfer chain 6 constantly carries motor to motor elevating and rotating mechanism 3's below, cylinder jack-up pay-off frock 7 on the motor transfer chain 6, follow and move alignment lifter plate 33 and descend before alignment lifter cylinder 32, alignment clamping jaw cylinder drive left clamping jaw 39, motor 100 on the above-mentioned pay-off frock 7 is cliied to right clamping jaw 38, it rises to follow alignment lifter cylinder 32 drive alignment lifter plate 33, alignment motor 34 drives the same angle of alignment pivot 35 syntropy rotation of two alignment subassemblies 310 through the hold-in range after that, alignment pivot 35 drives alignment clamping jaw cylinder and motor 100 is rotatory, it is just to conductive adhesive tape 9 to the sticky tape pre-pasting position on the motor housing, so that sticky tape mechanism 2 comes conductive adhesive tape 9.

Meanwhile, the tape pasting mechanism 2 is started, the upper tape clamping cylinder 26 and the lower tape clamping cylinder 27 respectively drive the upper tape clamping arm 210 and the lower tape clamping arm 211 to move forwards, the upper tape clamping arm 210 and the lower tape clamping arm 211 are in an open state, then the translation motor 21 drives the translation seat 22 to move forwards, the lifting motor 23 drives the lifting seat 24 to move upwards again, so that the tape pasting component moves forwards first and then rises, at the moment, the left tape clamping jaw 44 and the right tape clamping jaw 45 are in a closed state, the upper tape clamping arm 210 and the lower tape clamping arm 211 are in an open state, the left tape clamping jaw 44 and the right tape clamping jaw 45 do not obstruct the upper tape clamping arm 210 and the lower tape clamping arm 211 to rise, the upper tape clamping arm 210 and the lower tape clamping arm 211 move forwards to be right under the left tape clamping jaw 44 and the right tape clamping jaw 45 and then rise, the upper tape clamping arm 210 and the lower tape clamping arm 211 rise to be right above the left tape clamping jaw 44 and the right tape clamping jaw 45, at the moment, the end part of the conductive adhesive tape 9 is positioned between the lower adhesive tape clamping arm 211 and the front end of the lower adhesive tape lifting seat 29, the conductive adhesive tape 9 is positioned between the upper adhesive tape clamping arm 210 and the front end of the upper adhesive tape lifting seat 28, the upper adhesive tape clamping cylinder 26 and the lower adhesive tape clamping cylinder 27 drive the upper adhesive tape clamping arm 210 and the lower adhesive tape clamping arm 211 to move backwards respectively, the conductive adhesive tape 9 is clamped by the upper adhesive tape clamping arm 210 and the front end of the upper adhesive tape lifting seat 28 in the front-back direction, the end part of the conductive adhesive tape 9 is clamped by the lower adhesive tape clamping arm 211 and the front end of the lower adhesive tape lifting seat 29 in the front-back direction, then the adhesive tape cutting clamping jaw cylinder 43 drives the left adhesive tape clamping jaw 44 and the right adhesive tape clamping jaw 45 to loosen the end part of the conductive adhesive tape 9, the adhesive tape cutting translation cylinder 42 drives the adhesive tape cutting clamping jaw cylinder 43 to move backwards, the adhesive tape cutting jaw cylinder 43 does not block the upper adhesive tape lifting seat 28 and the lower adhesive tape lifting seat 29 from descending, then the lifting motor 23 drives the lifting seat 24 to descend, the upper adhesive tape clamping arm 210 and the lower adhesive tape clamping arm 211 pull the conductive adhesive tape to descend vertically until the upper adhesive tape clamping arm 210 and the lower adhesive tape clamping arm 211 descend to the positions below the left adhesive tape clamping jaw 44 and the right adhesive tape clamping jaw 45, the adhesive tape shearing translation cylinder 42 drives the adhesive tape shearing clamping jaw cylinder 43 to move to one side, the conductive adhesive tape 9 is located between the left adhesive tape clamping jaw 44 and the right adhesive tape clamping jaw 45, the adhesive tape shearing clamping jaw cylinder 43 drives the left adhesive tape clamping jaw 44 and the right adhesive tape clamping jaw 45 to fold, the adhesive tape shearing knife shears the conductive adhesive tape 9, the left adhesive tape clamping jaw 44 and the right adhesive tape clamping jaw 45 simultaneously clamp the conductive adhesive tape 9, and the sheared small section of the conductive adhesive tape 9 is clamped at the front end of the upper adhesive tape lifting seat 28 and the front end of the lower adhesive tape lifting seat 29.

After that, the lifting motor 23 drives the lifting seat 24 to descend, at this time, the motor is located right in front of the small section of the conductive adhesive tape 9, then the translation motor 21 drives the translation seat 22 to move forward, the upper adhesive tape lifting seat 28 and the lower adhesive tape lifting seat 29 drive the small section of the conductive adhesive tape 9 to move forward, the adhesive tape pre-pressing rod 217 presses the conductive adhesive tape 9 against the side surface of the housing of the motor 100, the conductive adhesive tape 9 is firstly tightly attached to the side surface of the housing of the motor 100, at this time, the upper adhesive tape lifting seat 28 is located above the upper end cover 101 of the motor 100, the lower adhesive tape lifting seat 29 is located below the lower end cover 102 of the motor 100, then, the adhesive tape lifting motor 25 drives the adhesive tape lifting screw 216 to rotate forward, the adhesive tape lifting screw 216 drives the upper nut block 212 and the lower nut block 213 to slide toward each other, that the upper nut block 212 descends, the lower nut block 213 ascends, the upper adhesive tape lifting seat 28 and the lower adhesive tape lifting seat 29 slide toward each other, the upper adhesive tape lifting seat 28 and the lower adhesive tape lifting seat 29 respectively attach the upper end of the conductive adhesive tape 9 to the upper end of the upper adhesive tape 9 to the upper end of the motor cover, the lower adhesive tape clamping cylinder 26 and the lower adhesive clamping arm 210 of the motor 100, and the lower adhesive tape clamping cylinder 26.

Then, the taping lifting motor 25 drives the taping lifting screw 216 to rotate reversely, the taping lifting screw 216 drives the upper nut block 212 and the lower nut block 213 to slide back and forth, the taping lifting seat 28 and the lower taping lifting seat 29 leave the upper end cover and the lower end cover of the motor respectively, then the translation motor 21 drives the translation seat 22 to move backwards, the taping lifting seat 28 and the lower taping lifting seat 29 move backwards away from the motor, the upper tape clamping arm 210 and the lower tape clamping arm 211 move backwards to be right below the left tape clamping jaw 44 and the right tape clamping jaw 45, then the upper tape clamping cylinder 26 and the lower tape clamping cylinder 27 drive the upper tape clamping arm 210 and the lower tape clamping arm 211 to move forwards respectively, the upper tape clamping arm 210 and the lower tape clamping arm 211 are in an open state, the lifting motor 23 drives the lifting seat 24 to move upwards again, and the upper tape clamping arm 210 and the lower tape clamping arm 211 rise to be right above the left tape clamping jaw 44 and the right tape clamping jaw 45 again to take out a section of the conductive tape to prepare for next taping.

Then, the alignment motor 34 drives the alignment rotating shafts 35 of the two alignment assemblies 310 to rotate 180 degrees, the conductive adhesive tape 9 on the motor faces away from the adhesive tape sticking mechanism 2, the alignment lifting cylinder 32 drives the alignment lifting plate 33 to descend along with the alignment lifting cylinder until the motor stuck with the conductive adhesive tape 9 descends to a feeding tool of the motor conveying line 6, then the alignment clamping jaw cylinder drives the left clamping jaw 39 and the right clamping jaw 38 to loosen the motor stuck with the conductive adhesive tape 9, the conductive adhesive tape 9 on the motor faces the adhesive tape pressing sliding seat 80 at the moment, the adhesive tape pressing sliding seat 80 is driven to move along with the adhesive tape pressing cylinder 8, the first adhesive tape pressing block 81 and the second adhesive tape pressing block 82 respectively press the conductive adhesive tape 9 on the upper end cover and the lower end cover of the motor along with the adhesive tape pressing cylinder 8 to drive the adhesive tape pressing sliding seat 80 to retreat, the first adhesive tape pressing block 81 and the second adhesive tape pressing block 82 are separated from the motor, then the motor conveying line 6 conveys the two stuck motors, the adhesive tape sticking mechanism 3, the adhesive tape sticking mechanism 2 and the adhesive tape shearing mechanism 4 can convey the adhesive tape behind the motor conveying line 6 continuously, and further realize the motor mass production of the adhesive tape. Therefore, the utility model discloses the work of pasting of the electrically conductive sticky tape 9 of motor has been accomplished.

Claims (5)

1. A tape pasting mechanism of a motor online conductive tape pasting production line is characterized by comprising a translation motor, a translation seat, a lifting motor, a lifting seat and a tape pasting assembly, wherein the translation seat is horizontally arranged on a rack in a sliding manner, the translation motor is arranged on the rack and drives the translation seat to horizontally slide, the lifting seat is vertically arranged on the rack in a sliding manner, the lifting motor is arranged on the translation seat and drives the lifting seat to vertically slide, the tape pasting assembly is arranged on the lifting seat and comprises a tape pasting lifting motor, a tape pasting lifting screw rod, an upper nut block, a lower nut block, an upper tape pasting lifting seat, a lower tape pasting lifting seat, an upper tape clamping air cylinder, a lower tape clamping air cylinder, an upper tape clamping arm and a lower tape clamping arm, the tape pasting lifting screw rod is vertically arranged on the lifting seat in a rotating manner, the tape pasting lifting motor is arranged on the lifting seat, and drives the adhesive tape lifting screw rod to rotate, the adhesive tape lifting screw rod comprises a forward threaded rod and a reverse threaded rod which are fixedly connected up and down, an upper adhesive tape lifting seat and a lower adhesive tape lifting seat are arranged on the lifting seat in a vertically sliding manner, the upper adhesive tape lifting seat is positioned above the lower adhesive tape lifting seat, an upper nut block and a lower nut block are respectively and fixedly connected with the upper adhesive tape lifting seat and the lower adhesive tape lifting seat, the upper nut block and the lower nut block are respectively and threadedly connected with the forward threaded rod and the reverse threaded rod, an upper adhesive tape clamping arm is horizontally and slidably arranged on the upper adhesive tape lifting seat, an upper adhesive tape clamping air cylinder is arranged on the upper adhesive tape lifting seat and drives an upper adhesive tape clamping arm to horizontally slide, the lower adhesive tape clamping arm is horizontally and slidably arranged on the lower adhesive tape lifting seat, and the lower adhesive tape clamping air cylinder is arranged on the lower adhesive tape lifting seat, and drives the lower adhesive tape clamping arm to horizontally slide.

2. The tape attaching mechanism of the motor on-line conductive tape attaching production line as claimed in claim 1, wherein the number of the tape attaching assemblies is two, and the two tape attaching assemblies are arranged on the lifting seat one from left to right.

3. The tape attaching mechanism of an on-line conductive tape attaching production line of a motor as claimed in claim 2, wherein a lifting guide plate is provided in the middle of the lifting base, lifting guide rails are provided on both sides of the lifting guide plate in the height direction, and the upper tape lifting base and the lower tape lifting base are slidably provided up and down on the lifting guide rails on one side of the lifting base.

4. The tape sticking mechanism of the motor on-line conductive tape sticking production line according to claim 1, wherein the lower tape clamping arm and the lower tape clamping arm are L-shaped.

5. The tape attaching mechanism of an on-line conductive tape attaching production line of a motor as claimed in claim 1, wherein said tape attaching assembly further comprises a tape pre-pressing rod and a tape pre-pressing spring, said tape pre-pressing rod is horizontally slidably disposed on the lower tape lifting base, said tape pre-pressing spring is disposed between the tape pre-pressing rod and the lower tape lifting base, and said tape pre-pressing rod is disposed between the upper tape lifting base and the lower tape lifting base.

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