CN212012418U - Rotating mechanism capable of being automatically locked - Google Patents

Abstract

The utility model provides a rotary mechanism capable of automatically locking, which comprises a rotary part and a fixed part, wherein the rotary part comprises a rotary table, a rotary shaft and a rotary shaft mounting seat, the lower end of the rotary table is connected with the rotary shaft, the lower end of the rotary shaft is provided with a first clutch block, the rotary shaft mounting seat is sleeved outside the rotary shaft, the upper end of the rotary shaft mounting seat is fixed on a rotary table, and two sides of the rotary shaft mounting seat are both connected with autorotation locking rods; the fixed part includes lifter plate, mounting bracket and rotatory motor power, is equipped with two rotation unblock push rods on the lifter plate, and two rotation unblock push rods set up with two rotation locking levers relatively, and rotatory motor power is located the mounting bracket below, and its power output shaft upper end cover is equipped with the shaft coupling, but shaft coupling upper end swing joint has second separation and reunion piece. The utility model has the advantages that: the utility model discloses a two second cylinders promote second clutch piece and first clutch piece respectively and part to make rotation portion and fixed part, thereby the cable takes place winding problem when can effectively avoiding rotation portion revolution.

Description

Rotating mechanism capable of being automatically locked

Technical Field

The utility model relates to an insert magnetic shoe equipment technical field, especially relate to a rotary mechanism that can lock automatically.

Background

The magnetic shoe is generally a shoe-shaped magnet used in a permanent magnet motor, and in the production of a motor rotor, the process of inserting the magnetic shoe is an important process which restricts the productivity of a motor rotor production line; because the magnetic shoe is inserted into the motor rotor, the precision requirement on the rotating angle of the position of the tool disc and the time control of inserting the magnetic shoe are high. The traditional installation of the motor rotor magnetic shoe is generally that the magnetic shoe is inserted manually, so that the working efficiency is low, the uncontrollable factors of manual operation are more, the quality of the inserted magnetic shoe is unstable, and the expected effect cannot be achieved.

Automatic magnetic shoe inserting equipment has appeared in the market at present, but the automatic magnetic shoe inserting equipment in the prior art has the problems in operation, because the magnetic shoe inserting equipment has a plurality of same stations, the stations can rotate all the time to transfer materials, and the jig needs to rotate when in work, the power of the rotation of the jig is provided with a cable, and if the jig revolves along with the jig, the cable carried by the jig can be wound.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention provides a rotating mechanism capable of automatically locking.

The embodiment of the utility model provides a rotary mechanism that can lock automatically, including rotation portion and fixed part, the rotation portion is located the fixed part top, and its lower extreme with fixed part upper end swing joint, rotation portion includes revolving stage, rotation axis and rotation axis mount pad, the mould tool is inlayed above the revolving stage, the revolving stage lower extreme is connected the rotation axis, the rotation axis lower extreme is equipped with first clutch piece, the rotation axis mount pad cover is located outside the rotation axis, and its upper end is fixed on the revolving table, rotation axis mount pad both sides all can swing joint have the rotation locking lever; the fixed part includes lifter plate, mounting bracket and rotatory motor power, but lifter plate swing joint is in on the mounting bracket, just be equipped with two rotation unblock push rods on the lifter plate, two rotation unblock push rod and two the rotation locking lever sets up relatively, the mounting bracket is fixed on fixed table, rotatory motor power is located the mounting bracket below, and its power output shaft pot head is equipped with the shaft coupling, the shaft coupling is installed on the lifter plate and its upper end is followed the lifter plate middle part is worn out, shaft coupling upper end swing joint has the second separation and reunion piece, the second separation and reunion piece with first separation and reunion piece sets up relatively.

Furthermore, be equipped with two second cylinders in the mounting bracket, two the second cylinder is located the shaft coupling left and right sides, and two the power take off end of second cylinder all connects the lifter plate.

Further, a jig seat is arranged above the rotating table, and the die jig is embedded in the jig seat.

Furthermore, two arc-shaped notches are formed in the rotating platform and are respectively located right above the two autorotation locking rods.

Furthermore, first cylinders are arranged on two sides of the rotating shaft mounting seat, and power output ends of the two first cylinders are connected with the two autorotation locking rods respectively.

Furthermore, the lower ends of the two first cylinders are connected with a connecting plate, and a through hole for the first clutch block to pass through is formed in the middle of the connecting plate.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the utility model discloses a rotary mechanism that can lock automatically is through two the second cylinder promotes respectively the second separation and reunion piece with first separation and reunion piece parts, so that the rotation portion with the fixed part parts, thereby can effectively avoid the winding problem takes place for the cable during rotation portion revolution.

Drawings

Fig. 1 is a schematic structural diagram of a rotating mechanism capable of automatically locking according to the present invention.

Fig. 2 is a front view of the structure of the automatic locking rotary mechanism of the present invention.

Fig. 3 is a right side view of the rotating mechanism capable of automatically locking according to the present invention.

In the figure: 100-rotating part, 101-rotating platform, 102-rotating shaft, 103-rotating shaft mounting seat, 104-die jig, 105-first clutch block, 106-autorotation locking rod, 107-jig seat, 108-arc notch, 109-first air cylinder, 110-connecting plate, 111-through hole, 200-fixing part, 201-lifting plate, 202-mounting frame, 203-rotating power motor, 204-autorotation unlocking push rod, 205-coupler, 206-second clutch block, 207-second air cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be further described below with reference to the accompanying drawings.

Referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present invention provides an automatic locking rotation mechanism, which includes a rotation portion 100 and a fixing portion 200, wherein the rotation portion 100 is located above the fixing portion 200, and a lower end of the rotation portion is movably connected to an upper end of the fixing portion 200.

The rotating portion 100 includes a rotating platform 101, a rotating shaft 102 and a rotating shaft mounting seat 103, a mold fixture 104 is embedded above the rotating platform 101, in this embodiment, a fixture seat 107 is arranged above the rotating platform 101, the mold fixture 104 is embedded in the fixture seat 107, the lower end of the rotating platform 101 is connected to the rotating shaft 102, a first clutch block 105 is arranged at the lower end of the rotating shaft 102, the rotating shaft mounting seat 103 is sleeved outside the rotating shaft 102, the upper end of the rotating shaft mounting seat is fixed on a rotating table (not shown in the drawings), two sides of the rotating shaft mounting seat 103 can be movably connected to rotation locking rods 106, two arc notches 108 are arranged on the rotating platform 101, the two arc notches 108 are respectively located right above the two rotation locking rods 106, two sides of the rotating shaft mounting seat 103 are respectively provided with first air cylinders 109, and power output ends of the two first air cylinders 109 are respectively connected to the two rotation locking rods 106, the two first air cylinders 109 are respectively used for pushing the two rotation locking rods 106 to be combined with or separated from the two arc notches 108 on the rotating platform 101, and specifically, when the rotating part 100 needs to rotate along with the rotary table, the two first cylinders 109 respectively push the two rotation locking rods 106 to separate from the two arc-shaped notches 108, when the rotating part 100 needs to rotate, the two first cylinders 109 respectively push the two rotation locking rods 106 to combine with the two arc-shaped notches 108, the lower ends of the two first cylinders 109 are connected with a connecting plate 110, a through hole 111 for the first clutch block 105 to pass through is formed in the middle of the connecting plate 110, in this embodiment, the starting switches (not shown in the drawings) of the two first cylinders 109 are both located on the lower surface of the connecting plate 110, and the two starting switches are respectively located right below the two first cylinders 109.

The fixing portion 200 includes a lifting plate 201, a mounting frame 202 and a rotary power motor 203, the lifting plate 201 is movably connected to the mounting frame 202, two rotation unlocking push rods 204 are disposed on the lifting plate 201, the two rotation unlocking push rods 204 are disposed opposite to the two rotation locking rods 106, the mounting frame 202 is fixed on a fixed table (not shown in the drawings), two second cylinders 207 are disposed in the mounting frame 202, the two second cylinders 207 are disposed on the left and right sides of the coupler 205, power output ends of the two second cylinders 207 are connected to the lifting plate 201, in this embodiment, the two second cylinders 207 are used for pushing the lifting plate 201 to ascend or descend, so that the two rotation unlocking push rods 204 ascend or descend along with the lifting plate 201, when the lifting plate 201 ascends, the two rotation unlocking push rods 204 ascend and prop against the two starting switches, so that the two first air cylinders 109 are started to separate the two rotation locking rods 106 from the two arc notches 108, when the lifting plate 201 descends, the two rotation unlocking push rods 204 descend and release the two starting switches, so that the two first air cylinders 109 are started to combine the two rotation locking rods 106 with the two arc notches 108.

The rotating power motor 203 is located below the mounting frame 202, a coupler 205 is sleeved on an upper end of a power output shaft of the rotating power motor 203, the coupler 205 is installed on the lifting plate 201, and an upper end of the coupler 205 penetrates out of the middle of the lifting plate 201, in this embodiment, the rotating power motor 203 is used for driving the coupler 205 to rotate, so that the coupler 205 drives the second clutch block 206 to rotate, the upper end of the coupler 205 is movably connected with a second clutch block 206, the second clutch block 206 is arranged opposite to the first clutch block 105, when the lifting plate 201 is pushed to ascend by the two second cylinders 207, both the coupler 205 and the second clutch block 206 ascend along with the lifting plate 201, and thus the second clutch block 206 is combined with the first clutch block 105; when the two second cylinders 207 drive the lifting plate 201 to descend, the shaft coupler 205 and the second clutch piece 206 both descend along with the lifting plate 201, so that the second clutch piece 206 is separated from the first clutch piece 105, and at this time, the rotating part 100 is separated from the fixing part 200.

The utility model discloses a concrete operation process does:

when the die jig 104 needs to revolve, controlling the two second cylinders 207 to drive the lifting plate 201 to descend, and the coupler 205 and the second clutch block 206 both descend along with the lifting plate 201, so that the second clutch block 206 is separated from the first clutch block 105, and meanwhile, the two rotation unlocking push rods 204 also descend and release the two starting switches, so that the two first cylinders 109 are started to enable the two rotation locking rods 106 to be combined with the two arc-shaped notches 108, and at this time, the rotating part 100 is completely separated from the fixing part 200, so that the die jig 104 can revolve under the drive of the rotary table; when the mold jig 104 needs to rotate, the two second cylinders 207 are controlled to drive the lifting plate 201 to ascend, the coupler 205 and the second clutch block 206 both ascend along with the lifting plate 201, so that the second clutch block 206 is combined with the first clutch block 105, at this time, the rotating part 100 is combined with the fixing part 200, and the two rotation unlocking push rods 204 also ascend and push against the two starting switches, so that the two first cylinders 109 are started to separate the two rotation locking rods 106 from the two arc notches 108, the second clutch block 206 can sequentially pass through the first clutch block 105 and the rotating shaft 102 to drive the rotating platform 101 to rotate under the driving of the rotating power motor 203, and the mold jig 104 can rotate under the driving of the rotating platform 101.

The utility model discloses a rotary mechanism that can lock automatically is through two second cylinder 207 promotes respectively second clutch piece 206 with first clutch piece 105 parts, so that rotation portion 100 with fixed part 200 parts, thereby can effectively avoid the winding problem takes place for the cable when rotation portion 100 revolves.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The embodiments and features of the embodiments described herein may be combined with each other without conflict.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. The utility model provides a rotary mechanism that can lock automatically which characterized in that: the rotary table comprises a rotating part and a fixed part, wherein the rotating part is positioned above the fixed part, the lower end of the rotating part is movably connected with the upper end of the fixed part, the rotating part comprises a rotary table, a rotary shaft and a rotary shaft mounting seat, a mold jig is embedded above the rotary table, the lower end of the rotary table is connected with the rotary shaft, the lower end of the rotary shaft is provided with a first clutch block, the rotary shaft mounting seat is sleeved outside the rotary shaft, the upper end of the rotary shaft mounting seat is fixed on the rotary table, and two sides of the rotary shaft mounting seat can be movably; the fixed part includes lifter plate, mounting bracket and rotatory motor power, but lifter plate swing joint is in on the mounting bracket, just be equipped with two rotation unblock push rods on the lifter plate, two rotation unblock push rod and two the rotation locking lever sets up relatively, the mounting bracket is fixed on fixed table, rotatory motor power is located the mounting bracket below, and its power output shaft pot head is equipped with the shaft coupling, the shaft coupling is installed on the lifter plate and its upper end is followed the lifter plate middle part is worn out, shaft coupling upper end swing joint has the second separation and reunion piece, the second separation and reunion piece with first separation and reunion piece sets up relatively.

2. An automatically lockable rotary mechanism according to claim 1, characterized in that: two second cylinders are arranged in the mounting frame and located on the left side and the right side of the coupler, and the power output ends of the second cylinders are connected with the lifting plate.

3. An automatically lockable rotary mechanism according to claim 1, characterized in that: the fixture seat is arranged above the rotating platform, and the die fixture is embedded in the fixture seat.

4. An automatically lockable rotary mechanism according to claim 3, characterized in that: two arc-shaped notches are formed in the rotating platform and are respectively positioned right above the two autorotation locking rods.

5. An automatically lockable rotary mechanism according to claim 1, characterized in that: and two sides of the rotating shaft mounting seat are respectively provided with a first air cylinder, and the power output ends of the two first air cylinders are respectively connected with the two autorotation locking rods.

6. An automatically lockable rotary mechanism according to claim 5, wherein: the lower ends of the two first cylinders are connected with a connecting plate, and the middle part of the connecting plate is provided with a through hole for the first clutch block to pass through.

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