CN204954609U - Intelligence carbon brush revolves wheel conveyor structure that arc machine was made to head - Google Patents

Abstract

The utility model discloses an intelligence carbon brush revolves wheel conveyor structure that arc machine was made to head, it includes: the gyro wheel support frame, the vertical power input shaft who installs on the gyro wheel support frame, with the gyro wheel support frame be connected and upper portion stretch out in the first roller shaft and the second roller shaft of gyro wheel support frame, be located linear guide's both sides, a drive assembly who is connected with power input shaft, the secondary drive subassembly of being connected with power input shaft, install respectively in first roller shaft and epaxial first gyro wheel of second gyro wheel and second gyro wheel, be used for with the last carbon brush contact of linear guide will the carbon brush is carried extremely the grinding station. The utility model discloses a wheel conveyor constructs, simple structure, and the transmission is reliable, can at the uniform velocity send the carbon brush that linear guide transported into the grinding station, and the pay -off is even, the carbon brush steady quality that makes the grinding come out, nos ripple, and the trouble is few, the maintenance of being convenient for, improve equipment utilization ratio and production efficiency.

Description

Intelligence carbon brush revolves the roller delivery mechanism that head makes arc machine

Technical field

The utility model relates to carbon brush processing technique field, particularly relates to a kind of intelligent carbon brush and revolves the roller delivery mechanism that head makes arc machine.

Background technology

In prior art, to carbon brush revolve head play arc process time, all adopt many complete equipments to complete, namely, grinding chamfering device is first adopted to carry out grinding, chamfered to carbon brush, employing is revolved head apparatus and is revolved head process to the carbon brush after grinding chamfering again, and finally employing is beaten arc equipment and carried out playing arc process to the carbon brush revolved after head process.Adopt above-mentioned processing method, there is following shortcoming: 1, equipment is various, improve the purchase cost of enterprise to equipment, and multiple equipment power consumption is large, is unfavorable for environmental protection; 2, need to pass on carbon brush at multiple equipment room, the operator therefore needed is more, has both improve the recruitment cost of enterprise, also easily causes cut to carbon brush passing in the process of carbon brush, makes carbon brush Quality Down, increases production cost; 3, multiple equipment is processed respectively, and operation is many, and production efficiency is low, and the quality processing product is unstable.

Summary of the invention

The purpose of this utility model is exactly to solve above-mentioned Problems existing, a kind of intelligent carbon brush is provided to revolve the roller delivery mechanism that head makes arc machine, its structure is simple, reliable transmission, the carbon brush that the first line slideway transports at the uniform velocity can be sent into grinding station, feeding is even, make grinding carbon brush steady quality out, non-ripple, and fault is few, be convenient to safeguard, improve utilization rate of equipment and installations and production efficiency.

For realizing above-mentioned purpose of the present utility model, the utility model provides a kind of intelligent carbon brush to revolve the roller delivery mechanism that head makes arc machine, the carbon brush that the first line slideway making arc machine for intelligent carbon brush being revolved head transports at the uniform velocity is delivered to grinding station place, it comprises: be arranged on intelligent carbon brush and revolve head and beat rolling wheel support frame on the workbench of arc machine, be positioned at the below of described first line slideway; Vertically be installed on the power input shaft on rolling wheel support frame; To be connected with rolling wheel support frame and top stretches out in the first roller shaft and second roller shaft of rolling wheel support frame, to be positioned at the both sides of described first line slideway, and to be parallel to power input shaft respectively; The first transmission component be connected with power input shaft, for passing to the first roller shaft by the rotary power of power input shaft; The second transmission component be connected with power input shaft, for the rotary power of power input shaft is passed to the second roller shaft, and the direction of rotation of the second roller shaft is contrary with the direction of rotation of the first roller shaft; Be installed on the first roller on the first roller shaft and the second roller shaft and the second roller respectively, for contacting with the carbon brush on described first line slideway and described carbon brush being delivered to described grinding station.

Wherein, described first transmission component comprises: be installed on the input gear on described power input shaft; Be arranged on the first self adaptation power transmission shaft on described rolling wheel support frame, with described power input shaft and described first roller shaft parallel respectively and be placed between diaxon; To be arranged on the first self adaptation power transmission shaft and the first self adaptation gear be connected with a joggle with input gear; Be arranged on the first gear be connected on described first roller shaft and with the first self adaptation gears meshing.

Wherein, described second transmission component comprises: to be installed on described rolling wheel support frame and to be parallel to reversing shaft and the second self adaptation power transmission shaft of described power input shaft respectively; Be arranged on the tumbler gear on described reversing shaft, be connected with a joggle with the input gear on described power input shaft; To be arranged on described second self adaptation power transmission shaft and the second self adaptation gear be connected with a joggle with tumbler gear; Be arranged on the second gear be connected on described second roller shaft and with the second self adaptation gears meshing.

Further, the spacing adjusting part for regulating spacing between described first roller shaft and described second roller shaft is also comprised.

Wherein, described spacing adjusting part comprises: be arranged on the first turning rolls for the first roller shaft described in support on described rolling wheel support frame and the second turning rolls for the second roller shaft described in support respectively; The adjusting rod be installed on two side frames of described rolling wheel support frame is rotated at its two ends, and adjusting rod and the first turning rolls, the second turning rolls are with contrary being threaded of rotation direction; Connect first connecting plate for guaranteeing spacing between diaxon of the first roller shaft and described first self adaptation power transmission shaft; Connect second connecting plate for guaranteeing spacing between diaxon of the first self adaptation power transmission shaft and power input shaft; Connect the 3rd connecting plate for guaranteeing spacing between diaxon of the second roller shaft and described second self adaptation power transmission shaft; Connect the 4th connecting plate for guaranteeing spacing between diaxon of the second self adaptation power transmission shaft and reversing shaft; Wherein, by rotating described adjusting rod, the spacing between described first turning rolls and described second turning rolls is made to increase or reduce.

Preferably, the axis of described adjusting rod carries the direction of carbon brush vertical with described first line slideway.

Further, the power transfer assembly for driving it to rotate be connected with described power input shaft is also comprised.

Compared with prior art, intelligent carbon brush of the present utility model revolve roller delivery mechanism that head makes arc machine and have that structure is simple, reliable transmission, the carbon brush that line slideway transports at the uniform velocity can be sent into grinding station, feeding evenly, grinding carbon brush steady quality out, non-ripple, fault be few, be convenient to safeguard, utilization rate of equipment and installations and the high advantage of production efficiency.

Below in conjunction with accompanying drawing, the utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is that the intelligent carbon brush with roller delivery mechanism of the present utility model revolves the three-dimensional perspective that head makes arc machine;

Fig. 2 a is the perspective view of carbon brush to be processed;

Fig. 2 b is the perspective view of the carbon brush after grinding chamfered;

Fig. 2 c be through revolve head play arc process after the perspective view of carbon brush;

Fig. 3 is the perspective view of a roller delivery mechanism of the present utility model angle;

Fig. 4 is the perspective view of another angle of roller delivery mechanism of the present utility model.

Detailed description of the invention

As shown in Figure 1, for the intelligent carbon brush with roller delivery mechanism of the present utility model revolves the three-dimensional perspective that head makes arc machine, as seen from the figure, this intelligent carbon brush revolve head beat arc machine comprise workbench 1 and be arranged on workbench 1 as lower member: for carbon brush 12a (as shown in Figure 2 a) to be processed being sorted successively and the directed vibrating tray structure 11 exporting inclined guide rails 31 to; Be positioned at the wire-packing mechanism 4 for vertically stretching under the brush alignment of carbon brush 12a that transported below inclined guide rails 31; The first line slideway 33 that its one end is connected with the ending vertical of inclined guide rails 31, the carbon brush 12a entering the first line slideway 33 is fed forward by it under the effect of vibration of the first horizontal tremble mechanism 32; Have and be positioned at the first roller 55 of first line slideway 33 left and right sides and the roller delivery mechanism 5 of the second roller 56, carbon brush 12a for being transported by the first line slideway 33 is at the uniform velocity delivered to grinding station place, and this grinding station is arranged on the front of roller delivery mechanism 5 along carbon brush 12a direction of feed; Be arranged on the grinding attachment 6 at grinding station place, it carries out grinding process to the top end face of carbon brush 12a to be processed; Be arranged on the facing attachment 7 at the chamfering station place in grinding attachment 6 front along carbon brush 12a direction of feed, it carries out edge chamfering process to the carbon brush having ground top end face, and the carbon brush 12b after grinding chamfered as shown in Figure 2 b; The second line slideway 34 that its one end communicates with the end of the first line slideway 33, under the effect of vibration of the second horizontal tremble mechanism 35, the carbon brush 12b after the grinding chamfering entering the second line slideway 34 is fed forward, to enter importing station from the end of the second line slideway 34, and revolve head by revolving head unit 8 and beating arc device 9 couples of carbon brush 12b and play arc process successively, final formation carbon brush 12c as shown in Figure 2 c, and by discharger 2, carbon brush 12c is discharged.

Wherein, importing station of the present utility model, revolve a station, beat arc station, discharge station and be all arranged on rotating disk 1a, along with the rotation of rotating disk 1a, be transplanted on each station place successively by entering the carbon brush 12b through grinding chamfered importing station, and adopt the device being arranged on each station place to carry out respective handling to carbon brush.

Wherein, roller delivery mechanism of the present utility model is used for the carbon brush 12a that the first line slideway 33 transports at the uniform velocity to be delivered to grinding station place, so that when grinding attachment 6 couples of carbon brush 12a carry out grinding, grinding corrugated ripple can not be gone out on to be ground of carbon brush 12a, thus improve the grinding quality of carbon brush, reduce production cost.

As shown in Figure 3, Figure 4, the perspective view watching roller delivery mechanism gained of the present utility model from two different angles respectively, from Fig. 3, Fig. 4, roller delivery mechanism 5 of the present utility model comprises: be arranged on the rolling wheel support frame 50 on workbench 1, it is positioned at the below of the first line slideway 33, for the support platform of each component as roller delivery mechanism; Vertically be installed on the power input shaft 51 on rolling wheel support frame 50, it rotates under the driving of connected power transfer assembly, and preferably, power transfer assembly adopts the structure of motor-driven drive sprockets chain drive part (not shown); To be connected with rolling wheel support frame 50 and top stretches out in the first roller shaft 522 and the second roller shaft 533 of rolling wheel support frame 50, to lay respectively at the both sides of the first line slideway 33, and be parallel to power input shaft 51 respectively; The first transmission component be connected with power input shaft 51, for passing to the first roller shaft 522 by the rotary power of power input shaft 51; The second transmission component be connected with power input shaft 51, for the rotary power of power input shaft 51 is passed to the second roller shaft 533, and the direction of rotation of the second roller shaft 533 is contrary with the direction of rotation of the first roller shaft 522; Be installed on the first roller 55 and the second roller 56 on the first roller shaft 522 and the second roller shaft 533 respectively, for contacting with the left and right both ends of the surface of the carbon brush 12a that the first line slideway 33 transports and by active force during relative rotation, carbon brush 12a being delivered to grinding station place.

Wherein, as shown in Figure 3, Figure 4, the first transmission component of the present utility model comprises: be installed on the input gear 523 on power input shaft 51; Be arranged on the first self adaptation power transmission shaft 521 on rolling wheel support frame 50, with power input shaft 51 and the first roller shaft 522 parallel respectively and be placed between diaxon, the first self adaptation power transmission shaft 521 can regulate self-position accordingly according to the position of the first roller shaft 522; To be arranged on the first self adaptation power transmission shaft 521 and the first self adaptation gear 524 be connected with a joggle with input gear 523; To be arranged on the first roller shaft 522 and the first gear 525 be connected with a joggle with the first self adaptation gear 524.

When power input shaft 51 rotates, drive the input gear 523 on it to rotate, thus drive rotate with the first self adaptation gear 524 that input gear 523 is connected by gear teeth meshing; When first self adaptation gear 524 rotates, drive the first self adaptation power transmission shaft 521 be fixedly connected with it to rotate, drive simultaneously and rotated by the first gear 525 of gear teeth meshing with it; When first gear 525 rotates, drive the first roller shaft 522 be fixedly connected with it to rotate, thus drive the first roller 55 be fixedly installed on the first roller shaft 522 to rotate.

And as shown in Figure 3, Figure 4, the second transmission component of the present utility model comprises: to be installed on rolling wheel support frame 50 and to be parallel to reversing shaft 531 and the second self adaptation power transmission shaft 532 of power input shaft 51 respectively; Be arranged on the tumbler gear 534 on reversing shaft 531, be connected by gear teeth meshing with the input gear 523 on power input shaft 51; To be arranged on the second self adaptation power transmission shaft 532 and the second self adaptation gear 535 be connected with a joggle with tumbler gear 534; And to be arranged on the second roller shaft 533 and the second gear 536 be connected with a joggle with the second self adaptation gear 535.Wherein, the second self adaptation power transmission shaft 532 can regulate self-position accordingly according to the position of the second roller shaft 533.

When power input shaft 51 rotates, drive the input gear 523 on it to rotate, thus drive rotate with the tumbler gear 534 that input gear 523 is connected by gear teeth meshing; When tumbler gear 534 rotates, be make System of Rotating about Fixed Axis around the reversing shaft 531 be fixedly connected with rolling wheel support frame 50, meanwhile, drive the second self adaptation gear 535 be connected with a joggle with tumbler gear 534 to rotate; When second self adaptation gear 535 rotates, drive the second self adaptation power transmission shaft 532 be fixedly connected with it to rotate, drive simultaneously and rotated by the second gear 536 of gear teeth meshing with it; When second gear 536 rotates, drive the second roller shaft 533 be fixedly connected with it to rotate, thus drive the second roller 56 be fixedly installed on the second roller shaft 533 to rotate.

Preferably, spacing between first roller 55 of the present utility model and the second roller 56 is adjustable, that is, the spacing between the first roller shaft 522 and the second roller shaft 533 can regulate, thus making roller delivery mechanism of the present utility model can carry the carbon brush of different size, adaptability is wider.Accordingly, roller delivery mechanism of the present utility model, except above-mentioned each component, also comprises the spacing adjusting part for regulating spacing between the first roller shaft 522 and the second roller shaft 533.

Wherein, spacing adjusting part of the present utility model comprises: be arranged on the first turning rolls 542 for support first roller shaft 522 on rolling wheel support frame 50 and the second turning rolls 549 for support second roller shaft 533 respectively; The adjusting rod 541 be installed on two side frames of rolling wheel support frame 50 is rotated at its two ends, adjusting rod 541 adopts contrary being threaded of rotation direction to be integrated with the first turning rolls 542, second turning rolls 549 respectively, and the axis of adjusting rod 541 carries the direction of carbon brush 12a vertical with the first line slideway 33; Connect first connecting plate 544 for guaranteeing spacing between diaxon of the first roller shaft 522 and the first self adaptation power transmission shaft 521; Connect second connecting plate 543 for guaranteeing spacing between diaxon of the first self adaptation power transmission shaft 521 and power input shaft 51; Connect the 3rd connecting plate 546 for guaranteeing spacing between diaxon of the second roller shaft 533 and the second self adaptation power transmission shaft 532; Connect the 4th connecting plate 545 for guaranteeing spacing between diaxon of the second self adaptation power transmission shaft 532 and reversing shaft 531; Wherein, by rotation adjusting lever 541, make the spacing between the first turning rolls 542 and the second turning rolls 549 increase or reduce, thus make the spacing between two roller shafts increase or reduce.In addition, the adjusting handle 547 of the convenient operation adjusting rod 541 be arranged in the part stretching out in outside rolling wheel support frame 50 of adjusting rod 541 is also comprised.

Such as, when needing the spacing between adjustment first roller 55 and the second roller 56, clockwise (or counterclockwise) rotate adjusting handle 547, make two side frames of adjusting rod 541 precession rolling wheel support frame 50, because adjusting rod 541 and the first turning rolls 542 and the second turning rolls 549 are respectively by contrary being threaded of rotation direction, thus along with the rotation of adjusting rod 541, make the first turning rolls 542 and the second turning rolls 549 along adjusting rod 541 axial relative near or away from, thus to drive and spacing between the first roller shaft 522 that the first turning rolls 542 and the second turning rolls 549 are rotationally connected respectively and the second roller shaft 533 reduces or increases, and then drive the spacing between the first roller 55 and the second roller 56 reduce or increase.

When between the first roller shaft 522 and the second roller shaft 533, spacing changes, in order to adapt to the change of spacing between diaxon, make power input shaft 51 and the first roller shaft 522, power transmission between second roller shaft 533 keeps stable, the first connecting plate 544 be connected with the first roller shaft 522 and the first self adaptation power transmission shaft 521 respectively by its two ends on the one hand guarantees the spacing between the first roller shaft 522 and the first self adaptation power transmission shaft 521, and guarantee the spacing between the first self adaptation power transmission shaft 521 and power input shaft 51 by the second connecting plate 543, make the first self adaptation power transmission shaft 521 can along with the corresponding adjustment self-position of the first roller shaft 522, to guarantee the reliable of the first transmission component power transmission and stability, on the other hand, the 3rd connecting plate 546 be connected with the second roller shaft 533 and the second self adaptation power transmission shaft 532 respectively by its two ends guarantees the spacing between the second roller shaft 533 and the second self adaptation power transmission shaft 532, and guarantee the spacing between the second self adaptation power transmission shaft 532 of being connected with its two ends and reversing shaft 531 by the 4th connecting plate 545, make the second self adaptation power transmission shaft 532 can along with the corresponding adjustment self-position of the second roller shaft 533, to guarantee the reliable of the second transmission component power transmission and stability.

Further, conveniently adjusting rod 541 is arranged on rolling wheel support frame 50, and guarantee the installation stability of adjusting rod 541 on rolling wheel support frame 50 is longitudinal (longitudinally referring to the direction perpendicular to adjusting rod axis), described two side frames of rolling wheel support frame 50 offer a pair installing hole extended longitudinally respectively, adjusting rod 541 is placed on rolling wheel support frame 50 by installing hole, accordingly, the a pair adjusting rod briquetting 548 removably connected respectively with described two side frames of rolling wheel support frame 50 is installed in a pair installing hole, adjusting rod 541 is fixed on rolling wheel support frame 50.

To sum up, roller delivery mechanism of the present utility model adopts gear drive to drive a pair roller to rotate carbon brush is delivered to grinding station, stable drive, reliable, carbon brush transporting velocity is even, and avoiding the carbon brush that prior art is uneven to transporting velocity when adopting worm-drive driving rolls to rotate during carbon brush grinding, grinding goes out is generation that is corrugated, poor quality situation.

Although be explained in detail the utility model above; but the utility model is not limited thereto; those skilled in the art can modify according to principle of the present utility model; therefore, all various amendments carried out according to principle of the present utility model all should be understood to fall into protection domain of the present utility model.

Claims (7)

1. intelligent carbon brush revolves the roller delivery mechanism that head makes arc machine, and the carbon brush that the first line slideway making arc machine for intelligent carbon brush being revolved head transports at the uniform velocity is delivered to grinding station place, it is characterized in that, comprising:

Be arranged on intelligent carbon brush to revolve head and beat rolling wheel support frame on the workbench of arc machine, be positioned at the below of described first line slideway;

Vertically be installed on the power input shaft on rolling wheel support frame;

To be connected with rolling wheel support frame and top stretches out in the first roller shaft and second roller shaft of rolling wheel support frame, to be positioned at the both sides of described first line slideway, and to be parallel to power input shaft respectively;

The first transmission component be connected with power input shaft, for passing to the first roller shaft by the rotary power of power input shaft;

The second transmission component be connected with power input shaft, for the rotary power of power input shaft is passed to the second roller shaft, and the direction of rotation of the second roller shaft is contrary with the direction of rotation of the first roller shaft;

Be installed on the first roller on the first roller shaft and the second roller shaft and the second roller respectively, for contacting with the carbon brush on described first line slideway and described carbon brush being delivered to described grinding station.

2. roller delivery mechanism according to claim 1, is characterized in that, described first transmission component comprises:

Be installed on the input gear on described power input shaft;

Be arranged on the first self adaptation power transmission shaft on described rolling wheel support frame, with described power input shaft and described first roller shaft parallel respectively and be placed between diaxon;

To be arranged on the first self adaptation power transmission shaft and the first self adaptation gear be connected with a joggle with input gear;

Be arranged on the first gear be connected on described first roller shaft and with the first self adaptation gears meshing.

3. roller delivery mechanism according to claim 2, is characterized in that, described second transmission component comprises:

To be installed on described rolling wheel support frame and to be parallel to reversing shaft and the second self adaptation power transmission shaft of described power input shaft respectively;

Be arranged on the tumbler gear on described reversing shaft, be connected with a joggle with the input gear on described power input shaft;

To be arranged on described second self adaptation power transmission shaft and the second self adaptation gear be connected with a joggle with tumbler gear;

Be arranged on the second gear be connected on described second roller shaft and with the second self adaptation gears meshing.

4. roller delivery mechanism according to claim 3, is characterized in that, also comprises the spacing adjusting part for regulating spacing between described first roller shaft and described second roller shaft.

5. roller delivery mechanism according to claim 4, is characterized in that, described spacing adjusting part comprises:

Be arranged on the first turning rolls for the first roller shaft described in support on described rolling wheel support frame and the second turning rolls for the second roller shaft described in support respectively;

The adjusting rod be installed on two side frames of described rolling wheel support frame is rotated at its two ends, and adjusting rod and the first turning rolls, the second turning rolls are with contrary being threaded of rotation direction;

Connect first connecting plate for guaranteeing spacing between diaxon of the first roller shaft and described first self adaptation power transmission shaft;

Connect second connecting plate for guaranteeing spacing between diaxon of the first self adaptation power transmission shaft and power input shaft;

Connect the 3rd connecting plate for guaranteeing spacing between diaxon of the second roller shaft and described second self adaptation power transmission shaft;

Connect the 4th connecting plate for guaranteeing spacing between diaxon of the second self adaptation power transmission shaft and reversing shaft;

Wherein, by rotating described adjusting rod, the spacing between described first turning rolls and described second turning rolls is made to increase or reduce.

6. roller delivery mechanism according to claim 5, is characterized in that, the axis of described adjusting rod carries the direction of carbon brush vertical with described first line slideway.

7. roller delivery mechanism according to claim 1, is characterized in that, also comprises the power transfer assembly for driving it to rotate be connected with described power input shaft.