CN218560475U - Intelligent full-automatic loading device of coal - Google Patents

Abstract

The utility model discloses a coal intelligent full-automatic loading device, which comprises a concave cement block, a weighing sensor and a loading support, wherein the weighing sensor is arranged on the concave cement block; the utility model relates to a coal automatic loading technical field, through the quantitative measurement loading structure earlier with the even tiling of coal raw materials in the inboard of concave type transfer case, measure the weight of coal through concave type transfer case simultaneously, arrive certain weight after, the inboard in carriage is drained in the steady lift to reach the even tiling of stable ration in the inboard in carriage.

Description

Intelligent full-automatic loading device of coal

Technical Field

The utility model relates to a coal automatic loading technical field specifically is a coal intelligent full-automatic loading device.

Background

The highway coal transportation is used as an important supplement of railway and waterway coal transportation, and has the characteristics of high flexibility, small occupied area, good adaptability to terrain conditions, low manufacturing cost, various transportation equipment types and the like. In main coal production bases and coal transit harbor abdominal areas, part of middle and short distance direct road transportation or port road transportation is always available. In recent years, along with the great increase of economic development on coal demand, railway transport capacity is becoming more and more compact, highway coal transportation is developing faster, and the phenomena of raw material accumulation and dust splashing are easy to occur in the existing feeding.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the intelligent full-automatic loading device for the coal comprises a concave cement block, a weighing sensor and a loading support, wherein the weighing sensor is installed on the concave cement block, the loading support is installed on the concave cement block, and a quantitative measurement loading structure is installed on the loading support;

the quantitative measurement feeding structure comprises: the device comprises a raw material box, an L-shaped drainage tube, a loading blade shaft, a loading driving machine, a pair of shielding plates, a pair of concave limiting slideways, a pair of horizontal adjusting driving machines, a pair of horizontal adjusting gears, a pair of horizontal adjusting racks, a concave transfer box, a plurality of vertical limiting shafts, a plurality of vertical sleeved springs, a weight tension sensor and a discharging assembly;

the raw material box is installed on the feeding support, the L-shaped drainage tube is inserted on the raw material box, the feeding blade shaft is inserted on the L-shaped drainage tube through a bearing, the feeding driving machine is installed on the L-shaped drainage tube, the driving end of the feeding driving machine is connected to the feeding blade shaft, a discharging hole is formed in the bottom end of the L-shaped drainage tube, a pair of concave limiting slideways are installed on two sides of the discharging hole, a pair of shielding plates are respectively and movably inserted on the inner sides of the pair of concave limiting slideways, a pair of horizontal adjusting driving machines are installed on the feeding support, a pair of horizontal adjusting racks are respectively installed on the pair of shielding plates, and a pair of horizontal adjusting gears are respectively installed on the driving ends of the pair of horizontal adjusting driving machines, the feeding support is provided with a pair of concave lifting grooves, the concave transfer case is sleeved on the L-shaped drainage tube and movably inserted inside the pair of concave lifting grooves, the vertical limiting shafts are movably inserted inside the pair of concave lifting grooves respectively, the vertical limiting shafts are movably inserted on the concave transfer case, the vertical sleeving springs are sleeved on the vertical limiting shafts respectively, the weight tension sensor is installed on the feeding support and connected to the concave transfer case, and the discharging assembly is installed at the bottom end of the concave transfer case.

Preferably, the discharging assembly comprises: the device comprises a pair of discharge plates, a pair of rotating shafts, two pairs of magnet strips and a pair of electromagnet strips;

the concave transfer box is provided with a discharge opening, a pair of rotating shafts are respectively inserted on the pair of discharge plates, the pair of rotating shafts are respectively inserted on the pair of discharge plates through bearings, the two pairs of magnet strips are respectively arranged on the pair of discharge plates, and the pair of electromagnet strips are arranged on the discharge opening.

Preferably, a plurality of convex sliding blocks are arranged on the concave transfer box, a plurality of concave slideways are arranged on the L-shaped drainage tube, and the convex sliding blocks are movably inserted into the inner sides of the concave slideways respectively.

Preferably, the raw material tank is provided with a pair of right-angled blocks.

Preferably, a plurality of ball grooves are formed in each of the pair of shielding plates, and moving balls are arranged on the inner sides of the ball grooves.

Preferably, a plurality of pressure triggers are respectively arranged on the inner sides of the pair of concave lifting grooves.

Advantageous effects

The utility model provides a coal intelligent full-automatic loading device. The method has the following beneficial effects: this intelligent full-automatic loading device of coal measures the loading structure earlier the even tiling of coal raw materials in the inboard of concave type transfer case through the ration, measures the weight of coal through concave type transfer case simultaneously, reachs certain weight after, the inboard of drainage to the carriage of stably going up and down to reach the even tiling of stable ration in the inboard of carriage.

Drawings

Fig. 1 is the utility model discloses a schematic diagram is cut a section to intelligent full-automatic loading device's of coal main sight.

Fig. 2 is a schematic side view and section view of an intelligent full-automatic coal loading device.

Fig. 3 is a partially enlarged view of "a" in fig. 1.

In the figure: 1. a concave cement block; 2. a weighing sensor; 3. a feeding support; 4. a raw material tank; 5. an L-shaped drainage tube; 6. a loading blade shaft; 7. a feeding driver; 8. a shielding plate; 9. a concave limiting slideway; 10. a horizontal adjustment drive machine; 11. a horizontal adjustment gear; 12. a horizontal adjustment rack; 13. a concave transfer box; 14. a vertical limiting shaft; 15. vertically sleeving a spring; 16. a stripper plate; 17. a rotating shaft.

Detailed Description

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.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Examples

As shown in fig. 1-3, the weighing sensor 2 is mounted on the concave cement block 1, the feeding support 3 is mounted on the concave cement block 1, and a quantitative measurement feeding structure is mounted on the feeding support 3;

specifically, the quantitative measurement feeding structure comprises: the device comprises a raw material box 4, an L-shaped drainage tube 5, a feeding blade shaft 6, a feeding driving machine 7, a pair of shielding plates 8, a pair of concave limiting slideways 9, a pair of horizontal adjusting driving machines 10, a pair of horizontal adjusting gears 11, a pair of horizontal adjusting racks 12, a concave transfer box 13, a plurality of vertical limiting shafts 14, a plurality of vertical sleeved springs 15, a weight tension sensor and a discharging assembly;

specifically, the raw material box 4 is mounted on the feeding support 3, the L-shaped draft tube 5 is inserted into the raw material box 4, the feeding blade shaft 6 is inserted into the L-shaped draft tube 5 through a bearing, the feeding driver 7 is mounted on the L-shaped draft tube 5, the driving end of the feeding driver 7 is connected to the feeding blade shaft 6, the bottom end of the L-shaped draft tube 5 is provided with a discharge hole, a pair of concave limiting slideways 9 are mounted on both sides of the discharge hole, a pair of concave limiting slideways 8 are movably inserted into the inner sides of the pair of concave limiting slideways 9, a pair of horizontal adjusting drivers 10 are mounted on the feeding support 3, a pair of horizontal adjusting racks 12 are mounted on the pair of concave limiting slideways 8, a pair of horizontal adjusting gears 11 are mounted on the driving ends of the pair of horizontal adjusting drivers 10, a pair of horizontal adjusting gears 11 are engaged with the pair of horizontal adjusting racks 12, a pair of concave lifting and vertical adjusting gears 13 are mounted on the lifting and vertically mounted on a plurality of concave lifting sensors 14, the lifting and vertical lifting sensors are mounted on the concave lifting and vertical lifting and mounting shaft of the lifting and mounting rack 13, the discharge assembly is mounted on the bottom end of the concave transfer box 13.

It should be noted that, in the above, coal inside the raw material tank 4 on the feeding support 3 is guided to the inside of the L-shaped drainage tube 5 through the L-shaped drainage tube 5, the bottom end of the L-shaped drainage tube 5 is shielded by the pair of shielding plates 8, the feeding driver 7 operates to drive the feeding blade shaft 6 on the driving end of the feeding driver 7 to rotate, raw material inside the L-shaped drainage tube 5 is pushed on the pair of shielding plates 8 through the rotating feeding blade shaft 6, the horizontal adjusting driver 10 operates to respectively drive the horizontal adjusting gears 11 on the driving end of the pair of horizontal adjusting driver 10 to operate, the horizontal adjusting gear 11 drives the horizontal adjusting rack 12 engaged with the gear thereof, the shielding plate 8 thereon is driven by the horizontal adjusting rack 12, so that the shielding plate 8 horizontally stretches along the inside of the concave limiting slide 9, thereby achieving the purpose of respectively performing position adjustment on the pair of shielding plates 8 between the pair of concave limiting slide 9, thereby achieving the purpose of changing the position of the gap between the pair of shielding plates 8, thereby achieving the purpose of uniformly spreading the raw material in the middle of the middle rotary box according to different requirements, more and more the coal is discharged through the concave rotary box, and more the concave type rotary box, and more the coal weight of the coal is detected by the vertical rotary box, and more the coal is detected by the concave type rotary box, and more the weight of the coal, and more the coal is detected by the concave type rotary box, and more the coal lifting sensor 13, and more the coal.

As shown in fig. 1-3, the discharging assembly comprises: a pair of discharge plates 16, a pair of rotation shafts 17, two pairs of magnet bars, and a pair of electromagnet bars;

specifically, a discharge opening is formed in the concave type transit box 13, a pair of the rotating shafts 17 are respectively inserted into a pair of the discharge plates 16, the pair of the rotating shafts 17 are respectively inserted into a pair of the discharge plates 16 through bearings, two pairs of the magnet bars are respectively mounted on the pair of the discharge plates 16, and a pair of the electromagnet bars are mounted on the discharge opening.

It should be noted that, in the above, by disconnecting the pair of electromagnet strips, the electromagnet strips are not fixed to the pair of magnet strips through magnetic adsorption, and the pair of rotating plates are respectively rotated along the pair of rotating shafts 17, so that coal inside the concave transfer box 13 is guided to the inside of the carriage, and meanwhile, by reducing the weight of the concave transfer box 13, the plurality of vertical sleeved springs 15 push the concave transfer box 13, so that the concave transfer box 13 is pushed back to the original position.

As a preferable scheme, further, a plurality of convex sliding blocks are arranged on the concave transit box 13, a plurality of concave sliding ways are arranged on the L-shaped drainage tube 5, and the convex sliding blocks are respectively movably inserted into the inner sides of the concave sliding ways.

Preferably, the material tank 4 is provided with a pair of right-angled blocks.

Preferably, the pair of shielding plates 8 is provided with a plurality of ball grooves, and the inner sides of the plurality of ball grooves are provided with moving balls.

Preferably, a plurality of pressure triggers are respectively arranged on the inner sides of the pair of concave lifting grooves.

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.

Claims (6)

1. The intelligent full-automatic loading device for coal comprises a concave cement block, a weighing sensor and a loading support, and is characterized in that the weighing sensor is installed on the concave cement block, the loading support is installed on the concave cement block, and a quantitative measurement loading structure is installed on the loading support;

the quantitative measurement feeding structure comprises: the device comprises a raw material box, an L-shaped drainage tube, a feeding blade shaft, a feeding driving machine, a pair of shielding plates, a pair of concave limiting slideways, a pair of horizontal adjusting driving machines, a pair of horizontal adjusting gears, a pair of horizontal adjusting racks, a concave transfer box, a plurality of vertical limiting shafts, a plurality of vertical sleeved springs, a weight tension sensor and a discharging assembly;

the raw material box is arranged on the feeding support, the L-shaped drainage tube is inserted on the raw material box, the feeding blade shaft is inserted on the L-shaped drainage tube through a bearing, the feeding driving machine is arranged on the L-shaped drainage tube, the driving end of the feeding driving machine is connected on the feeding blade shaft, the bottom end of the L-shaped drainage tube is provided with a discharge hole, a pair of concave limiting slideways are arranged on two sides of the discharge hole, a pair of shielding plates are respectively and movably inserted on the inner sides of the pair of concave limiting slideways, a pair of horizontal adjusting driving machines are arranged on the feeding support, a pair of horizontal adjusting racks are respectively arranged on the pair of shielding plates, and a pair of horizontal adjusting gears are respectively arranged on the driving ends of the pair of horizontal adjusting driving machines, the feeding support is provided with a pair of concave lifting grooves, the concave transfer case is sleeved on the L-shaped drainage tube and movably inserted inside the pair of concave lifting grooves, the vertical limiting shafts are movably inserted inside the pair of concave lifting grooves respectively, the vertical limiting shafts are movably inserted on the concave transfer case, the vertical sleeving springs are sleeved on the vertical limiting shafts respectively, the weight tension sensor is installed on the feeding support and connected to the concave transfer case, and the discharging assembly is installed at the bottom end of the concave transfer case.

2. The intelligent full-automatic coal loading device according to claim 1, wherein the discharging assembly comprises: the device comprises a pair of discharge plates, a pair of rotating shafts, two pairs of magnet strips and a pair of electromagnet strips;

the concave transfer box is provided with a discharge opening, a pair of rotating shafts are respectively inserted on the pair of discharge plates, the pair of rotating shafts are respectively inserted on the pair of discharge plates through bearings, the two pairs of magnet strips are respectively arranged on the pair of discharge plates, and the pair of electromagnet strips are arranged on the discharge opening.

3. The intelligent full-automatic coal loading device according to claim 2, wherein a plurality of convex sliding blocks are arranged on the concave transit box, a plurality of concave slideways are arranged on the L-shaped drainage tube, and a plurality of convex sliding blocks are respectively movably inserted into the inner sides of the concave slideways.

4. The intelligent full-automatic coal loading device according to claim 3, wherein a pair of right-angled blocks is arranged on the raw material box.

5. The intelligent full-automatic coal loading device according to claim 4, wherein a plurality of ball grooves are formed in each of the pair of shielding plates, and moving balls are arranged on the inner sides of the plurality of ball grooves.

6. The intelligent full-automatic coal loading device according to claim 5, wherein a plurality of pressure triggers are respectively arranged on the inner sides of the pair of concave lifting grooves.

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