CN202634207U - Rotating plate indexing driving structure of winding machine - Google Patents

Abstract

The utility model discloses a rotating plate indexing driving structure of a winding machine. The driving structure is characterized in that the structure comprises a motor that is installed below a working platform; the output shaft thereof penetrates the working platform and is extended above the working platform; a motor gear is arranged on the output shaft of the motor in a sleeved mode; a rotating plate is installed on a rotating plate bearing pedestal; an outer gear that is engaged with the motor gear is arranged at a position, corresponding to that of the motor gear, at the bottom of the rotating plate bearing pedestal; the rotating plate bearing pedestal is connected with a rotating plate main shaft by a bearing; and the bottom of the rotating plate main shaft is installed on the working platform by fixed bolts. According to the utility model, the motor uses the gear to drive the rotating plate bearing pedestal provided with the rotating plate to make rotations and a previous revolving cylinder transmission mode is replaced; and a stable working state is obtained. Moreover, the positioning precision is improved; the revolving angle can be controlled easily; and the production period and the production cost are reduced.

Description

Coil winding machine rotating disk calibration Drive Structure

Technical field

the utility model relates to a kind of inductance coil coil winding machine, relates in particular to a kind of coil winding machine rotating disk calibration Drive Structure.

Background technology

in the motor production process, at first first procedure is coiling, selects for use the silk of selecting to be fit to electric pressure to wrap lenticular wire; The lopping of shuttle type is processed in coiling on coil winding machine; But coiling Dan Ping around, Dan Li around, also can two flat transpositions around; Also can two flat transpositions upright around, confirm according to specific requirement.

two flat transposition vertical winding type coil winding machines are and on workbench, are provided with a rotating disk, and rotating disk is provided with the station of two line cup calibration; When a side station goes to coil winding machine head below, be processing stations, and opposite side is the wait station; Operating personnel can be positioned over the line cup calibration that needs coiling on the rotating disk, and the line cup calibration coiling of waiting to be on the processing stations is accomplished, and are rotated by the Drive Structure of rotating disk below; Rotating disk Rotate 180 degree, the exchange machining position waits for that the line cup calibration on the station is gone to the head below; Wait for coiling, and the line cup calibration that previous coiling is accomplished goes to the outside (near operation personnel side), operating personnel take off this line cup calibration; And put empty line cup calibration once more, so cycling, the processing mode of acquisition continuous operation.

In prior art, the driving mechanism of rotating disk is made up of rotary cylinder, and is as shown in Figure 1; Rotary cylinder 1 is arranged at workbench 2 belows; The drive end of rotary cylinder 1 is connected with rotating disk 3 central bottom, and when needs switched line cup calibration 4, rotary cylinder 1 starts; Rotate 180 degree back stalls, then wait for next time and rotating.At present, rotary cylinder 1 is from Japanese import mostly, so price is comparatively expensive, and procurement cycle is longer, can not adapt to the domestic production needs.In addition, rotary cylinder 1 job stabilization is poor, and location rotating disk 3 is difficult for, if deviation appears in rotating disk 3, just directly causes the coiling dislocation, influences the transaction capabilities and the rate of finished products of complete machine.

Summary of the invention

the utility model purpose provides a kind of coil winding machine rotating disk calibration Drive Structure, and through the improvement to structure, raising is controlled to rotating disk, and the location is convenient, avoids inconsistent phenomenon, improves rate of finished products, reduces production costs simultaneously.

for achieving the above object, the technical scheme that the utility model adopts is: a kind of coil winding machine rotating disk calibration Drive Structure comprises a motor; Said motor is installed on the workbench below; Its output shaft penetrates said workbench, extends to the workbench top, a sheathed motor gear on the said motor output shaft; Rotating disk is installed on the turntable shaft bearing; Said turntable shaft bearing bottom, the external tooth that corresponding said motor gear place is provided with and motor gear meshes, said turntable shaft bearing is connected with the rotating disk main shaft through bearing, and said rotating disk main shaft bottom is installed on the said workbench through set bolt.

In technique scheme, be arranged with a lock sleeve on the said motor output shaft, this lock sleeve is connected with said motor gear through screw.

In technique scheme, said bearing is a taper roll bearing.

In technique scheme, said bearing top is provided with the round nut that is connected with the rotating disk spindle thread, is provided with the stop pad between said round nut and the said bearing.

In technique scheme, said motor is an AC servo motor.Servomotor can make control rate and positional precision very accurate, can voltage signal be converted into torque and rotating speed with the drive controlling object.Therefore, adopt the AC servo machinery driving rotating disk, can improve rotation precision, be convenient to control.

Because the technique scheme utilization, the utility model compared with prior art has advantage:

1. owing to the Drive Structure that drives rotating disk in the utility model is made up of servomotor; The output shaft of servomotor is connected with motor gear, and motor gear and the engagement of turntable shaft bearing place tooth drive dial rotation; Compare with the structure that drives by rotary cylinder in the past; Transfer structure is more simplified, and the angle of servomotor rotation is more accurate, and is easy to control and adjustment;

2. with respect to rotary cylinder, the employing servomotor is a power source, and production cost descends, and the production cycle do not ordered the influence of imported equipments and parts working days, improve shipment efficient, satisfy the demand of domestic market;

are the mode transmission rotary power that meshes through motor gear and turntable shaft bearing of the utility model 3.; With the direct kind of drive comparison that is connected with the rotating disk main shaft of drive end in the past; Designs simplification; Install and safeguard more convenient, the rotating disk main shaft is static simultaneously do not change after, improve the steadiness of whole rotating disk calibration.

Description of drawings

Fig. 1 is the structural representation in the background technology;

Fig. 2 is a structural representation among the utility model embodiment one.

wherein: 1, rotary cylinder; 2, workbench; 3, rotating disk, 4, line cup calibration; 101, motor; 102, workbench; 103, output shaft; 104, motor gear; 105, rotating disk; 106, turntable shaft bearing; 107, external tooth; 108, bearing; 109, rotating disk main shaft; 110, set bolt; 111, lock sleeve; 112, screw, 113, upper bearing (metal); 114, round nut; 115, stop pad; 116, loam cake; 117, the anti-plate of protecting; 118, line cup calibration.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is further described:

embodiment one: referring to shown in Figure 2, a kind of coil winding machine rotating disk calibration Drive Structure comprises a motor 101; Said motor 101 is installed on workbench 102 belows; Its output shaft 103 penetrates said workbench 102, extends to workbench 102 tops, a sheathed motor gear 104 on the said motor output shaft 103; Rotating disk 105 is installed on the turntable shaft bearing 106; Said turntable shaft bearing 106 bottoms, corresponding said motor gear 104 places are provided with the external tooth 107 with motor gear 104 engagements, and said turntable shaft bearing 106 is connected with rotating disk main shaft 109 through bearing 108, and said rotating disk main shaft 109 bottoms are installed on the said workbench 102 through set bolt 110.

in the present embodiment; As shown in Figure 2, said motor 101 is an AC servo motor, is arranged with a lock sleeve 111 on the said motor output shaft 103; This lock sleeve 111 is connected with said motor gear 104 through screw 112; Said bearing 108 is upper and lower a pair of taper roll bearing, and the top of upper bearing (metal) 113 is provided with stop pad 115 by the round nut that is threaded with rotating disk main shaft 109 114 encapsulation between round nut 114 and the upper bearing (metal) 113.Said rotating disk 105 corresponding rotating disk main shafts 109 places are provided with loam cake 116, and loam cake 116 is fixed on the rotating disk 105 through screw 112, and loam cake 116 is provided with the anti-plate 117 of protecting, and when coiling, protection is positioned at operating personnel's job safety in the workbench outside.

Rotate by servomotor; Driving connected motor gear 104 rotates; Turntable shaft bearing 106 is through the external tooth 107 and motor gear 104 engagements of its bottom; Driven in the lump immediately, the rotating disk 105 that is installed on the turntable shaft bearing 106 rotates, and is installed on the operation of the line cup calibration 118 realization exchange stations on the rotating disk 105

Claims (5)

1. coil winding machine rotating disk calibration Drive Structure; It is characterized in that: comprise a motor, said motor is installed on the workbench below, and its output shaft penetrates said workbench; Extend to the workbench top; A sheathed motor gear on the said motor output shaft, rotating disk is installed on the turntable shaft bearing, said turntable shaft bearing bottom, the external tooth that corresponding said motor gear place is provided with and motor gear meshes; Said turntable shaft bearing is connected with the rotating disk main shaft through bearing, and said rotating disk main shaft bottom is installed on the said workbench through set bolt.

2. coil winding machine rotating disk calibration Drive Structure according to claim 1 is characterized in that: be arranged with a lock sleeve on the said motor output shaft, this lock sleeve is connected with said motor gear through screw.

3. coil winding machine rotating disk calibration Drive Structure according to claim 1, it is characterized in that: said bearing is a taper roll bearing.

4. according to claim 1 or 3 described coil winding machine rotating disk calibration Drive Structure, it is characterized in that: said bearing top is provided with the round nut that is connected with the rotating disk spindle thread, is provided with the stop pad between said round nut and the said bearing.

5. coil winding machine rotating disk calibration Drive Structure according to claim 1, it is characterized in that: said motor is an AC servo motor.

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