CN209936665U - Bearing outer ring transmission mechanism in grinding process - Google Patents

Abstract

The utility model belongs to the technical field of bearing inner race processing equipment technique and specifically relates to a grind bearing inner race transmission device in course of working, including first grinding machine and second grinding machine, be equipped with bearing inner race transmission device between first grinding machine and the second grinding machine, bearing inner race transmission device includes first support, and first support upper end is equipped with the material loading track, and first support upper end one side is fixed with the lifting machine, and lifting machine top one side is equipped with the unloading track, and the orbital import department of material loading track and unloading all is equipped with and expects full controlling means. The utility model discloses a grind bearing inner race transmission device in course of working, the bearing inner race gets into the material loading track after first grinding machine output, then in the tail end gets into the unloading track after being promoted by the lifting machine, then in the feed inlet of the smooth to second grinding machine in order, and then realize the transmission of bearing inner race, through the transmission speed of the whole transmission device upper bearing inner race of full controlling means control of material, realize its effectual transportation and operation.

Description

Bearing outer ring transmission mechanism in grinding process

Technical Field

The utility model belongs to the technical field of bearing inner race processing equipment technique and specifically relates to a grind bearing inner race transmission device in the course of working.

Background

In carrying out the course of working to the bearing inner race, need earlier use the grinding machine to carry out the external diameter to it and grind the processing, then carry the bearing inner race that the external diameter was processed to another grinding machine edge, then carry out the mill processing of internal diameter to it, need the staff to carry its bearing inner race of treating the processing at this in-process, and then just can realize the mill processing of bearing inner race, such transport circulation greatly reduced production efficiency, and need consume the manpower.

SUMMERY OF THE UTILITY MODEL

In order to overcome current bearing inner race and grind the course of working machining low efficiency, the labour consumes big not enough, the utility model provides a grind bearing inner race transmission device in the course of working, the bearing inner race gets into the material loading track after first grinding machine output, then in the tail end gets into the unloading track after being promoted by the lifting machine, then in the feed inlet of smooth to the second grinding machine in order, and then realize the transmission of bearing inner race, through the transmission speed of the whole transmission device upper bearing inner race of full controlling means control of material.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a grind bearing inner race transmission device in course of working, includes first grinding machine and second grinding machine, be equipped with bearing inner race transmission device between first grinding machine and the second grinding machine, bearing inner race transmission device includes first support, first support is located first grinding machine side and first support upper end and is fixed with the material loading track, first support upper end one side is fixed with the lifting machine, and lifting machine top one side is equipped with the unloading track, the unloading track is fixed in first support one side through the second support, the orbital import department of material loading track and unloading all is equipped with the full controlling means of a same material.

Further, it comprises laser emitter, laser receiver and PLC to fill the controlling means, laser emitter and laser receiver are fixed in respectively that unloading track or orbital track groove both sides of material loading are corresponding, laser emitter and laser receiver pass through signal line and connect PLC.

Further, including first grinding machine discharge gate intercommunication in the orbital feed inlet of material loading.

Further, a feed port of the second grinding machine is communicated with a discharge port of the discharging track.

Furthermore, the elevator comprises a driving wheel, a driven wheel, a conveying belt and a driving motor.

The beneficial effects of the utility model are that, the utility model discloses a grind bearing inner race transmission device in course of working, the bearing inner race gets into the material loading track after first grinding machine output, then in the tail end gets into the unloading track after being promoted by the lifting machine, then the feed inlet of smooth to the second grinding machine in order, and then realize the transmission of bearing inner race, through the transmission speed of the whole transmission device upper bearing inner race of full controlling means control of material, realize its effectual transportation and operation, this bearing inner race transmission device has reduced operating personnel's intensity of labour, simultaneously great improvement the production efficiency that the bearing inner race ground the processing.

Drawings

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

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic diagram of the fill control apparatus of FIG. 1;

fig. 3 is a schematic view of the hoist of fig. 1;

fig. 4 is a side view of fig. 3.

In the figure, 1, a first grinding machine, 2, a second grinding machine, 3, a bearing outer ring transmission mechanism, 4, a first support, 5, a feeding rail, 6, a lifting machine, 7, a discharging rail, 8, a second support, 9, a full-material control device, 10, a laser transmitter, 11, a laser receiver, 12, a PLC, 13, a driving wheel, 14, a driven wheel, 15, a conveying belt and 16 are driven by a motor.

Detailed Description

Fig. 1 is the utility model discloses a structural schematic diagram, a grind bearing inner race transmission device in course of working, including first grinding machine 1 and second grinding machine 2, be equipped with bearing inner race transmission device 3 between first grinding machine 1 and the second grinding machine 2, bearing inner race transmission device 3 includes first support 4, first support 4 is located first grinding machine 1 side and first support 4 upper end and is fixed with material loading track 5, first support 4 upper end one side is fixed with lifting machine 6, and 6 top one sides of lifting machine are equipped with unloading track 7, unloading track 7 is fixed in first support 4 one side through second support 8, material loading track 5 and unloading track 7's import department all are equipped with a same full controlling means 9 of material.

Referring to fig. 1 and 2, the full-material control device 9 is composed of a laser transmitter 10, a laser receiver 11 and a PLC12, the laser transmitter 10 and the laser receiver 11 are respectively fixed on two sides of a rail groove of the blanking rail 7 or the feeding rail 5 and correspond to each other, and the laser transmitter 10 and the laser receiver 11 are connected with the PLC12 through signal lines.

As shown in fig. 1, the discharge port of the first grinding machine 1 is communicated with the feed port of the feeding track 5. The feed inlet of the second grinding machine 2 is communicated with the discharge outlet of the blanking track 7.

As shown in fig. 3 and 4, the hoist 6 is composed of a driving pulley 13, a driven pulley 14, a belt 15, and a driving motor 16.

When the bearing outer ring is used, the bearing outer ring which enters the first grinding machine 1 after the outer diameter is ground is output from a discharge port of the first grinding machine 1 and then enters the feeding track 5, the bearing outer ring slides from the upper end to the lower end of the feeding track 5, then the bearing outer ring which slides to the tail end of the feeding track 5 is lifted by the elevator 6 and then enters the blanking track 7, the bearing outer ring slides from the upper end to the lower end of the blanking track 7 and then enters a feed port of the second grinding machine 2, and further the transmission of the bearing outer ring is realized, when the grinding processing of the second grinding machine 2 is too slow, the bearing outer ring can be sequentially stacked on the blanking track 7 until the bearing outer ring reaches a full-material control device 9 arranged on the blanking track 7, a laser emitter 10 and a laser receiver 11 on the full-material control device 9 are separated by the bearing outer ring, and then the laser receiver 11 sends a signal to the PLC12 to, bearing inner race can pile up in proper order on material loading track 5, it is located to reach the full controlling means 9 of material of installation on material loading track 5 until the bearing inner race, material laser emitter 10 and laser receiver 11 on the full controlling means 9 of material are cut off by the bearing inner race, and then laser receiver 11 signals transmission to PLC and then control first grinding machine 1 stop work and then realize the output of bearing inner race, through the transmission speed of the whole transmission device upper bearing inner race of full controlling means 9 control of material, realize its effectual transportation and operation, this bearing inner race transmission device has reduced operating personnel's intensity of labour, simultaneously great improvement the production efficiency that the bearing inner race ground.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (5)

1. The utility model provides a grind bearing inner race transmission device in course of working, includes first grinding machine (1) and second grinding machine (2), characterized by, be equipped with bearing inner race transmission device (3) between first grinding machine (1) and second grinding machine (2), bearing inner race transmission device (3) are including first support (4), first support (4) are located first grinding machine (1) side and first support (4) upper end and are fixed with material loading track (5), first support (4) upper end one side is fixed with lifting machine (6), and lifting machine (6) top one side is equipped with unloading track (7), unloading track (7) are fixed in first support (4) one side through second support (8), the import department of material loading track (5) and unloading track (7) all is equipped with a same full controlling means (9).

2. The bearing outer ring transmission mechanism in the grinding process is characterized in that the full-material control device (9) comprises a laser transmitter (10), a laser receiver (11) and a PLC (programmable logic controller) (12), the laser transmitter (10) and the laser receiver (11) are respectively fixed on two sides of a track groove of the blanking track (7) or the feeding track (5) and correspond to each other, and the laser transmitter (10) and the laser receiver (11) are connected with the PLC (12) through signal lines.

3. The bearing outer ring transmission mechanism in the grinding process is characterized in that a discharge hole of the first grinding machine (1) is communicated with a feed hole of the feeding rail (5).

4. The bearing outer ring transmission mechanism in the grinding process is characterized in that a feeding hole of the second grinding machine (2) is communicated with a discharging hole of the discharging rail (7).

5. The bearing outer ring transmission mechanism in the grinding process is characterized in that the lifting machine (6) is composed of a driving wheel (13), a driven wheel (14), a conveying belt (15) and a driving motor (16).

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