CN215182716U - Non-pillar sublevel caving method mining model demonstration device - Google Patents

Abstract

The utility model relates to a non-sill pillar sublevel caving method mining model demonstration device, which comprises a lifting component, a moving component, a damping component, a clamping component and a lifting plate, wherein the lifting component is arranged on the lifting plate; the utility model belongs to the technical field of the mining model, specifically indicate a height through adjustable device of lifting unit, and then the more convenient demonstration that carries on, through the direction of the adjustable demonstration of removal subassembly, can avoid in the demonstration process because vibrations cause destruction to the model through damper assembly, can press from both sides the model tightly through clamping assembly, avoid taking place to drop in the demonstration process and cause the no sill pillar segmentation caving method mining model presentation device of destruction to the model.

Description

Non-pillar sublevel caving method mining model demonstration device

Technical Field

The utility model belongs to the technical field of the mining model, specifically indicate a no sill pillar sublevel caving method mining model presentation device.

Background

At present, a sill pillar-free sublevel caving mining method is mostly adopted in mining of large and medium underground mines at home and abroad. The sublevel caving method without sill pillar is to divide the ore blocks into sublevels and carry out stoping operations such as ore falling, ore removal and the like in sublevel access without digging a special ore removal bottom structure. The mining method generally divides a mine into a plurality of mining middle sections from top to bottom, and then divides a plurality of stoping subsections in each mining middle section.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a height through adjustable device of lifting unit, and then the more convenient demonstration that carries on, through the direction of the adjustable demonstration of removal subassembly, can avoid in the demonstration process because vibrations cause destruction to the model through damper assembly, can press from both sides the model tightly through clamping assembly, avoid taking place to drop in the demonstration process and cause the no sill pillar segmentation caving method mining model presentation device of destruction to the model.

The utility model adopts the following technical scheme: the utility model relates to a non-sill pillar sublevel caving method mining model demonstration device, which comprises a lifting component, a moving component, a damping component, a clamping component and a lifting plate, wherein the lifting component is arranged on the lifting plate, the moving component is arranged on the lifting plate, the damping component is arranged on the moving component, the clamping component is arranged on the damping component, the lifting component comprises a lifting driving wheel, a lifting driven wheel, a lifting motor, a lifting screw rod, a lifting connecting plate, a lifting sleeve and a lifting guide rod, the lifting driving wheel is rotatably arranged on the lifting plate, the lifting driven wheel is meshed with the lifting driving wheel, the lifting guide rod is arranged at two sides of the lifting plate, the lifting sleeve is slidably arranged on the lifting guide rod, the lifting connecting plate is arranged on the lifting sleeves at two sides, the lifting screw rod is arranged on the lifting driven wheel, the lifting screw is meshed with the lifting connecting plate, the lifting motor is arranged on the lifting plate, and the output end of the lifting motor is connected with the lifting driving wheel.

Furthermore, the moving assembly comprises a moving motor, a fixed support plate, a moving screw, a moving plate and a sliding plate, the fixed support plate is arranged on two sides of the lifting plate, the moving screw is rotatably arranged on the fixed support plate, the sliding plate is slidably arranged on the fixed support plate, the moving plate is fixedly arranged on the sliding plate, the moving plate is slidably arranged on the lifting plate, the moving plate is in threaded connection with the moving screw, the moving motor is arranged on the fixed support plate, and the output end of the moving motor is connected with the moving screw.

Further, the damping assembly comprises a damping plate, a damping guide rod, a damping sleeve and a damping spring, the damping sleeve is arranged on two sides of the movable plate, the damping guide rod is slidably arranged in the damping sleeve, the damping plate is arranged on the damping guide rod, one end of the damping spring is arranged on the damping plate, the other end of the damping spring is arranged on the movable plate, and the damping spring is sleeved on the damping guide rod and the damping sleeve.

Further, the clamping assembly comprises a clamping motor, a clamping fixing plate, a placing plate, a clamping screw and a clamping sliding plate, wherein the clamping fixing plate is arranged on the two sides of the damping plate, the clamping screw is rotatably arranged on the clamping fixing plate, the placing plate is arranged on the clamping fixing plate, the clamping sliding plate is slidably arranged on the two sides of the placing plate, and the clamping sliding plate is in threaded connection with the clamping screw.

Furthermore, a sliding wheel is arranged on the lifting sleeve.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is a no pillar segmentation caving method mining model presentation device, through the height of the adjustable device of lifting unit, and then the convenient demonstration that carries on, through the direction of the adjustable demonstration of removal subassembly, can avoid in the demonstration process because vibrations cause destruction to the model through damper assembly, can press from both sides the model tightly through clamping assembly, avoids taking place to drop in the demonstration process and causes destruction to the model.

Drawings

Fig. 1 is the utility model relates to a no sill pillar sublevel caving method mining model presentation device's overall structure schematic diagram.

The lifting device comprises a lifting component 1, a lifting component 2, a moving component 3, a damping component 4, a clamping component 5, a lifting plate 6, a lifting driving wheel 7, a lifting driven wheel 8, a lifting motor 9, a lifting screw rod 10, a lifting connecting plate 11, a lifting sleeve 12, a lifting guide rod 13, a moving motor 14, a fixed supporting plate 15, a moving screw rod 16, a moving plate 17, a sliding plate 18, a damping plate 19, a damping guide rod 20, a damping sleeve 21, a damping spring 22, a clamping motor 23, a clamping fixed plate 24, a placing plate 25, a clamping screw rod 26, a clamping sliding plate 27 and a sliding wheel.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the utility model relates to a sill pillar-free sublevel caving method mining model demonstration device, which comprises a lifting component 1, a moving component 2, a damping component 3, a clamping component 4 and a lifting plate 5, wherein the lifting component 1 is arranged on the lifting plate 5, the moving component 2 is arranged on the lifting plate 5, the damping component 3 is arranged on the moving component 2, the clamping component 4 is arranged on the damping component 3, the lifting component 1 comprises a lifting driving wheel 6, a lifting driven wheel 7, a lifting motor 8, a lifting screw 9, a lifting connecting plate 10, a lifting sleeve 11 and a lifting guide rod 12, the lifting driving wheel 6 is rotatably arranged on the lifting plate 5, the lifting driven wheel 7 is engaged with the lifting driving wheel 6, the lifting guide rod 12 is arranged on two sides of the lifting plate 5, the lifting sleeve 11 is slidably arranged on the lifting guide rod 12, the lifting connecting plate 10 is arranged on the lifting sleeves 11 on the two sides, the lifting screw 9 is arranged on the lifting driven wheel 7, the lifting screw 9 is meshed with the lifting connecting plate 10, the lifting motor 8 is arranged on the lifting plate 5, and the output end of the lifting motor 8 is connected with the lifting driving wheel 6.

Further, the moving assembly 2 includes a moving motor 13, a fixed support plate 14, a moving screw 15, a moving plate 16 and a sliding plate 17, the fixed support plate 14 is disposed on two sides of the lifting plate 5, the moving screw 15 is rotatably disposed on the fixed support plate 14, the sliding plate 17 is slidably disposed on the fixed support plate 14, the moving plate 16 is fixedly disposed on the sliding plate 17, the moving plate 16 is slidably disposed on the lifting plate 5, the moving plate 16 is in threaded connection with the moving screw 15, the moving motor 13 is disposed on the fixed support plate 14, and an output end of the moving motor 13 is connected with the moving screw 15.

Further, damper assembly 3 includes shock attenuation board 18, shock attenuation guide bar 19, shock attenuation sleeve 20 and damping spring 21, both sides on movable plate 16 are located to shock attenuation sleeve 20, shock attenuation guide bar 19 slidable locates in shock attenuation sleeve 20, shock attenuation board 18 is located on shock attenuation guide bar 19, damping spring 21 one end is located on shock attenuation board 18, the other end of damping spring 21 is located on movable plate 16, damping spring 21 overlaps and locates on shock attenuation guide bar 19 and shock attenuation sleeve 20.

Further, the clamping assembly 4 includes a clamping motor 22, a clamping fixing plate 23, a placing plate 24, a clamping screw 25, and a clamping slide plate 26, wherein the clamping fixing plate 23 is disposed on both sides of the damping plate 18, the clamping screw 25 is rotatably disposed on the clamping fixing plate 23, the placing plate 24 is disposed on the clamping fixing plate 23, the clamping slide plate 26 is slidably disposed on both sides of the placing plate 24, and the clamping slide plate 26 is threadedly coupled with the clamping screw 25.

Further, a sliding wheel 27 is arranged on the lifting sleeve 11.

When the device is used, a worker firstly places a model on a placing plate 24, then starts the device, then a clamping motor 22 is started, then clamps and drives a clamping screw 25 to rotate on a clamping fixing plate 23, then the clamping screw 25 drives a clamping sliding plate 26 to move on the placing plate 24, the clamping motor 22 stops when a clamping sliding plate 2 clamps the model, so as to realize clamping of the model, then a lifting motor 8 is started, then the lifting motor 8 drives a lifting driving wheel 6 to rotate, then the lifting driving wheel 6 drives a lifting driven wheel 7 to rotate, then the lifting driven wheel 7 drives a lifting screw 9 to rotate, then the lifting screw 9 drives a lifting guide rod 12 to slide in a lifting sleeve 11 through a lifting connecting plate 10, then the lifting guide rod 12 drives a lifting plate 5 to move, the lifting motor 8 stops after the height is adjusted, so as to realize the height adjustment effect, when the lifting guide rod needs to move, the moving motor 13 is started, then the moving motor 13 drives the moving screw 15 to rotate on the fixed supporting plate 14, then the moving screw 15 drives the moving plate 16 to move, then the moving plate 16 drives the sliding plate 17 to move, and further the moving effect is realized, when the shock absorber receives the shock, the shock absorber plate 18 drives the shock absorber guide rod 19 to slide in the shock absorber sleeve 20, and meanwhile, the shock absorber plate 18 and the sliding plate 17 compress the shock absorber spring 21, and further the shock absorber effect is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a no sill pillar sublevel caving method mining model presentation device which characterized in that: comprises a lifting component, a moving component, a damping component, a clamping component and a lifting plate, wherein the lifting component is arranged on the lifting plate, the moving component is arranged on the lifting plate, the damping component is arranged on the moving component, the clamping component is arranged on the damping component, the lifting component comprises a lifting driving wheel, a lifting driven wheel, a lifting motor, a lifting screw rod, a lifting connecting plate, a lifting sleeve and a lifting guide rod, the lifting driving wheel is rotatably arranged on the lifting plate, the lifting driven wheel is meshed with the lifting driving wheel, the lifting guide rod is arranged on two sides of the lifting plate, the lifting sleeve is slidably arranged on the lifting guide rod, the lifting connecting plate is arranged on the lifting sleeve on two sides, the lifting screw rod is arranged on the lifting driven wheel, the lifting screw rod is meshed with the lifting connecting plate, and the lifting motor is arranged on the lifting plate, the output end of the lifting motor is connected with a lifting driving wheel.

2. The sill-pillar-free sublevel caving mining model demonstration device of claim 1, wherein: the movable assembly comprises a movable motor, a fixed supporting plate, a movable screw, a movable plate and a sliding plate, the fixed supporting plate is arranged on two sides of the lifting plate, the movable screw is rotatably arranged on the fixed supporting plate, the sliding plate is slidably arranged on the fixed supporting plate, the movable plate is fixedly arranged on the sliding plate, the movable plate is slidably arranged on the lifting plate, the movable plate is in threaded connection with the movable screw, the movable motor is arranged on the fixed supporting plate, and the output end of the movable motor is connected with the movable screw.

3. The sill-pillar-free sublevel caving mining model demonstration device of claim 2, wherein: the damping assembly comprises a damping plate, a damping guide rod, a damping sleeve and a damping spring, the damping sleeve is arranged on two sides of the movable plate, the damping guide rod is slidably arranged in the damping sleeve, the damping plate is arranged on the damping guide rod, one end of the damping spring is arranged on the damping plate, the other end of the damping spring is arranged on the movable plate, and the damping spring is sleeved on the damping guide rod and the damping sleeve.

4. The sill-pillar-free sublevel caving mining model demonstration device of claim 3, wherein: the clamping assembly comprises a clamping motor, a clamping fixed plate, a placing plate, a clamping screw and a clamping sliding plate, wherein the clamping fixed plate is arranged on the two sides of the damping plate, the clamping screw is rotatably arranged on the clamping fixed plate, the placing plate is arranged on the clamping fixed plate, the clamping sliding plate is slidably arranged on the two sides of the placing plate, and the clamping sliding plate is in threaded connection with the clamping screw.

5. The sill-pillar-free sublevel caving mining model demonstration device of claim 4, wherein: the lifting sleeve is provided with a sliding wheel.

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