CN204819123U - Clearance adjustment mechanism and buffing machine between runner stone, lower mill - Google Patents

Abstract

The utility model provides a clearance adjustment mechanism between runner stone, the lower mill, which comprises a frame, be equipped with runner stone, lower mill and elevating system in the frame, elevating system with the runner stone is connected, elevating system includes driving motor, reduction gear, lifting gear, lifter rack and barrel, driving motor passes through the reduction gear with lifting gear connects, lifting gear with lift toothed bar mesh, the lifter rack is fixed on the barrel. The utility model also provides a buffing machine that has clearance adjustment mechanism. The beneficial effects of the utility model are that: accessible driving motor drives lifting gear through the reduction gear and rotates, and under lifting gear's effect, the lifter rack drives the barrel and carries out the elevating movement to drive the runner stone and carry out the elevating movement, can conveniently adjust the clearance between runner stone, the lower mill, also can improve the clearance adjustment precision between runner stone, the lower mill, reduce the defective products rate.

Description

Gap adjusting mechanism between a kind of upper millstone, lower millstone and sanding machine

Technical field

The utility model relates to sanding machine, particularly relates to the gap adjusting mechanism between a kind of upper millstone, lower millstone and sanding machine.

Background technology

Gap between the upper millstone of conventional polished machine, lower millstone is difficult to regulate, and the low precision of adjustment, causes defective products rate high.

Summary of the invention

In order to solve the problems of the prior art, the utility model provides gap adjusting mechanism between a kind of upper millstone, lower millstone and sanding machine.

The utility model provides the gap adjusting mechanism between a kind of upper millstone, lower millstone, comprise frame, described frame is provided with upper millstone, lower millstone and elevating mechanism, described elevating mechanism is connected with described upper millstone, described elevating mechanism comprises drive motors, decelerator, lifter wheel, lifter rack and cylindrical shell, described drive motors is connected with described lifter wheel by described decelerator, described lifter wheel is meshed with described lifter rack, described lifter rack is fixed on described cylindrical shell, and described cylindrical shell is connected with described upper millstone.

As further improvement of the utility model, described frame is gantry frame, and described frame is provided with axle sleeve, and described cylindrical shell runs through described axle sleeve and is connected with described upper millstone.

As further improvement of the utility model, described cylindrical shell and described axle sleeve are moving sets.

As further improvement of the utility model, described cylindrical shell both sides are equipped with described lifter rack, and lifter rack described in every bar is all to there being a described lifter wheel.

As further improvement of the utility model, described drive motors is servomotor, and described decelerator is worm reducer, described lifter rack and described upper millstone perpendicular.

As further improvement of the utility model, described frame is provided with grating scale, and described grating scale parallels with described lifter rack, and described grating scale is electrically connected with controller, and described controller is electrically connected with described drive motors.

As further improvement of the utility model, described lower millstone is provided with external tooth post chassis, and described upper millstone, lower millstone parallel.

As further improvement of the utility model, described upper millstone is provided with water spray flange, described cylindrical shell lower end and described water spray Flange joint.

As further improvement of the utility model, described water spray flange is provided with abrasive blasting and cuts fluid apertures, and described abrasive blasting is cut fluid apertures and is connected with grinding fluid pipeline.

The utility model additionally provides a kind of sanding machine with gap adjusting mechanism, comprises as the gap adjusting mechanism between the upper millstone according to any one of above-mentioned, lower millstone.

The beneficial effects of the utility model are: pass through such scheme, lifter wheel is driven to rotate by drive motors through decelerator, under the effect of lifter wheel, lifter rack drives cylindrical shell to carry out elevating movement, thus drive upper millstone to carry out elevating movement, conveniently can regulate the gap between upper millstone, lower millstone, also can improve the gap adjustment precision between upper millstone, lower millstone, reduce defective products rate.

Accompanying drawing explanation

Fig. 1 is the structural representation of the gap adjusting mechanism between a kind of upper millstone of the utility model, lower millstone;

The structural representation of the water spray flange of the gap adjusting mechanism between a kind of upper millstone of Fig. 2 the utility model, lower millstone;

The structural representation of the water spray flange of the gap adjusting mechanism between a kind of upper millstone of Fig. 3 the utility model, lower millstone.

Detailed description of the invention

To illustrate below in conjunction with accompanying drawing and detailed description of the invention further illustrates the utility model.

Drawing reference numeral in Fig. 1 to Fig. 3 is: frame 1; Upper millstone 2; External tooth post chassis 3; Upper millstone 4; Drive motors 5; Decelerator 6; Lifter wheel 7; Lifter rack 8; Cylindrical shell 9; Grating scale 10; Axle sleeve 11; Water spray flange 12.

As shown in Figure 1 to Figure 3, a kind of upper millstone 4, gap adjusting mechanism between lower millstone 2, comprise frame 1, described frame 1 is provided with upper millstone 4, lower millstone 2 and elevating mechanism, described elevating mechanism is connected with described upper millstone 4, described elevating mechanism comprises drive motors 5, decelerator 6, lifter wheel 7, lifter rack 8 and cylindrical shell 9, described drive motors 5 is connected with described lifter wheel 7 by described decelerator 6, described lifter wheel 7 is meshed with described lifter rack 8, described lifter rack 8 is fixed on described cylindrical shell 9, described cylindrical shell 9 is connected with described upper millstone 4.

As shown in Figure 1 to Figure 3, described frame 1 is gantry frame, and described frame 1 is provided with axle sleeve 11, and described cylindrical shell 9 runs through described axle sleeve 11 and is connected with described upper millstone 4.

As shown in Figure 1 to Figure 3, described cylindrical shell 9 and described axle sleeve 11 are moving sets, to be led described cylindrical shell 9, make the elevating movement of described cylindrical shell 9 more stable by axle sleeve 11.

As shown in Figure 1 to Figure 3, described cylindrical shell 9 both sides are equipped with described lifter rack 8, lifter rack 8 described in every bar is all to there being a described lifter wheel 7, namely described decelerator 6, lifter wheel 7, lifter rack 8 all arrange two and symmetrical along described cylindrical shell 9, can improve the stability of the elevating movement of described cylindrical shell 9 further.

As shown in Figure 1 to Figure 3, described drive motors 5 is preferably servomotor, and described decelerator 6 is preferably worm reducer (described decelerator 6 also can be other decelerators), and described lifter rack 8 is perpendicular with described upper millstone 4.

As shown in Figure 1 to Figure 3, described frame 1 is provided with grating scale 10, described grating scale 10 parallels with described lifter rack 8, described grating scale 10 is electrically connected with controller, described controller is electrically connected with described drive motors 1, detects the lifting amount of described cylindrical shell 9, then feed back to controller by described grating scale 10, control drive motors 1 by controller and carry out respective drive, realize closed-loop control.

As shown in Figure 1 to Figure 3, described lower millstone 2 is provided with external tooth post chassis 3, and described upper millstone 4, lower millstone 2 parallel.

As shown in Figure 1 to Figure 3, described upper millstone 4 is provided with water spray flange 12, and described cylindrical shell 9 lower end is connected with described water spray flange 12.

As shown in Figure 1 to Figure 3, described water spray flange 12 is provided with abrasive blasting and cuts fluid apertures, and described abrasive blasting is cut fluid apertures and is connected with grinding fluid pipeline, can cut fluid apertures spray grinding fluid through grinding fluid pipeline by abrasive blasting.

As shown in Figure 1 to Figure 3, lower millstone 2 is fixed together with lower millstone seat, and lower millstone seat is independently, is not connected with between frame 1.

As shown in Figure 1 to Figure 3, a kind of sanding machine with gap adjusting mechanism, comprises as the gap adjusting mechanism between the upper millstone 4 according to any one of above-mentioned, lower millstone 2.

A kind of upper millstone 4 that the utility model provides, gap adjusting mechanism between lower millstone 2, lifter wheel 7 is driven to rotate by drive motors 5 through decelerator 6, under the effect of lifter wheel 7, lifter rack 8 drives cylindrical shell 9 to carry out elevating movement, thus drive upper millstone 4 to carry out elevating movement, the lifting amount of described cylindrical shell 9 is detected by described grating scale 10, feed back to controller again, control drive motors 1 by controller and carry out respective drive, realize closed-loop control, thus complete between upper millstone 4 and lower millstone 2 and regulate to precise gaps, the gap between automatic fine adjustment upper millstone 4 and lower millstone 2 can be achieved, thus meet the processing request of product.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. the gap adjusting mechanism between a upper millstone, lower millstone, it is characterized in that: comprise frame, described frame is provided with upper millstone, lower millstone and elevating mechanism, described elevating mechanism is connected with described upper millstone, described elevating mechanism comprises drive motors, decelerator, lifter wheel, lifter rack and cylindrical shell, described drive motors is connected with described lifter wheel by described decelerator, described lifter wheel is meshed with described lifter rack, described lifter rack is fixed on described cylindrical shell, and described cylindrical shell is connected with described upper millstone.

2. the gap adjusting mechanism between upper millstone according to claim 1, lower millstone, is characterized in that: described frame is gantry frame, and described frame is provided with axle sleeve, and described cylindrical shell runs through described axle sleeve and is connected with described upper millstone.

3. the gap adjusting mechanism between upper millstone according to claim 2, lower millstone, is characterized in that: described cylindrical shell and described axle sleeve are moving sets.

4. the gap adjusting mechanism between upper millstone according to claim 2, lower millstone, is characterized in that: described cylindrical shell both sides are equipped with described lifter rack, and lifter rack described in every bar is all to there being a described lifter wheel.

5. the gap adjusting mechanism between upper millstone according to claim 2, lower millstone, is characterized in that: described drive motors is servomotor, and described decelerator is worm reducer, described lifter rack and described upper millstone perpendicular.

6. the gap adjusting mechanism between upper millstone according to claim 1, lower millstone, it is characterized in that: described frame is provided with grating scale, described grating scale parallels with described lifter rack, and described grating scale is electrically connected with controller, and described controller is electrically connected with described drive motors.

7. the gap adjusting mechanism between upper millstone according to claim 1, lower millstone, is characterized in that: described lower millstone is provided with external tooth post chassis, and described upper millstone, lower millstone parallel.

8. the gap adjusting mechanism between upper millstone according to claim 1, lower millstone, is characterized in that: described upper millstone is provided with water spray flange, described cylindrical shell lower end and described water spray Flange joint.

9. the gap adjusting mechanism between upper millstone according to claim 8, lower millstone, is characterized in that: described water spray flange is provided with abrasive blasting and cuts fluid apertures, and described abrasive blasting is cut fluid apertures and is connected with grinding fluid pipeline.

10. there is a sanding machine for gap adjusting mechanism, it is characterized in that, comprise the gap adjusting mechanism between upper millstone as claimed in any one of claims 1-9 wherein, lower millstone.