CN211081848U - Geological acquisition monitoring device used in coal mining - Google Patents

Abstract

The utility model belongs to the monitoring devices field, especially, a be arranged in coal mining geology to gather monitoring devices, because the workman needs to carry out the analysis to the coal cinder when monitoring to current colliery geology, and the coal in the colliery mine hole is adopted down the time because the piece head is great, can't monitor and the analysis to increased colliery geology monitoring personnel's the monitoring degree of difficulty problem, the following scheme is proposed to the present, and it includes the control box, the welding of one side bottom of control box has first board, and the welding of top one side of first board has the second board, and bolt fixedly connected with push rod motor is passed through to one side of second board, and the welding has the slurcam on the output shaft of push rod motor, and the welding of one side bottom of slurcam has the diaphragm, and sliding seal installs left side board and right side board in the control box. The utility model discloses the practicality is good, smashes through effectual coal charge to the convenience monitors and the analysis, easy operation to the coal charge after smashing.

Description

Geological acquisition monitoring device used in coal mining

Technical Field

The utility model relates to a monitoring devices technical field especially relates to a be arranged in coal mining geology to gather monitoring devices.

Background

In China, coal is a main energy source, and the development of national economy is directly influenced by whether coal mines can be safely produced or not. In the engineering of coal mine production and tunnel excavation, complex geological abnormal conditions are often encountered, and if the conditions are not clearly explored in advance, accidents such as collapse, water inrush and gas outburst are often caused, so that serious economic loss and safety problems are caused.

When the coal mine geology is monitored, workers need to analyze coal blocks, and when coal in a coal mine hole is mined, the coal blocks cannot be monitored and analyzed due to the fact that the block heads are large, so that the monitoring difficulty of coal mine geology monitoring personnel is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving and exist among the prior art because the workman need carry out the analysis to the coal cinder when colliery geological monitoring, and the coal in the colliery mine hole is adopted because the piece head is great, can't monitor and the analysis when getting off to the monitoring degree of difficulty shortcoming of colliery geological monitoring personnel has been increased, and the geological acquisition monitoring devices who is arranged in the coal mining who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A geological acquisition monitoring device used in coal mining comprises an operation box, wherein a first plate is welded at the bottom of one side of the operation box, a second plate is welded at one side of the top of the first plate, a push rod motor is fixedly connected to one side of the second plate through a bolt, a push plate is welded on an output shaft of the push rod motor, a transverse plate is welded at the bottom of one side of the push plate, a left side plate and a right side plate are installed in the operation box in a sliding and sealing mode, the transverse plate is welded with the left side plate, a plurality of first tamping rods and a plurality of second tamping rods are respectively welded at one side, which is close to each other, of the left side plate and the right side plate, a contact plate is welded at the top of one side of the push plate, a rotary hole and a rotary groove are formed in the top of the operation box, the same rotary shaft is installed in the rotary hole and the rotary groove, the top welding of one side of slide has the horizontal plate, and the horizontal plate contacts with the contact plate, and the fixed cover in the outside of pivot is equipped with the gear, and the welding of one side of horizontal plate near the pivot has the rack, and the gear meshes with the rack mutually.

Preferably, the bottom welding of control box has two support piece, and the welding of one side that two support piece are close to each other has same putting board, and the material receiving box has been placed at the top of putting board.

Preferably, the bottom of the operation box is provided with a discharge hole, and a filter plate is fixedly connected in the discharge hole through a bolt to filter the coal.

Preferably, the top of the operation box is provided with a feed hole, and a sealing plug is clamped in the feed hole.

Preferably, one side of the operation box is provided with a transverse hole, and the transverse plate is slidably mounted in the transverse hole.

Preferably, the same spring is welded between the sliding plate and the inner wall of one side of the sliding groove, so that the sliding plate can return to the original position.

In the utility model, a geology collection monitoring devices for coal mining, put the coal that is mined in the coal mine into the control box, start the push rod motor, the push plate drives the diaphragm and moves, make the contact plate contact with the horizontal plate, then make the output shaft of push rod motor move in the horizontal round trip, the contact plate drives the horizontal plate and moves, slide extrusion spring, make the horizontal plate move in the horizontal round trip, the horizontal plate drives the rack and moves, the gear drives the pivot and rotates, the pivot drives the cam and rotates, the cam drives the right side board and moves, make left side board and right side board move in opposite directions, left side board and right side board drive first ram and second ram respectively and move, first ram and second ram pulverize the coal charge, the coal charge after pulverizing falls into the material receiving box, the workman can monitor and analyze the coal charge after pulverizing at this moment, the monitoring difficulty of coal mine geological monitoring personnel is reduced.

The utility model discloses the practicality is good, smashes through effectual coal charge to the convenience monitors and the analysis, easy operation to the coal charge after smashing.

Drawings

Fig. 1 is a schematic structural diagram of a geological acquisition monitoring device used in coal mining according to the present invention;

Fig. 2 is a schematic structural diagram of a part a of a geological acquisition monitoring device for coal mining according to the present invention;

Fig. 3 is the utility model provides a part B's schematic structure diagram for geological acquisition monitoring devices among coal mining.

In the figure: 1. an operation box; 2. a first plate; 3. a second plate; 4. a push rod motor; 5. a push plate; 6. a transverse plate; 7. a left side plate; 8. a right side plate; 9. a first ram; 10. a second ram; 11. a contact plate; 12. a rotating shaft; 13. a cam; 14. a slide plate; 15. a spring; 16. a horizontal plate; 17. a gear; 18. a rack; 19. and (4) filtering the plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Referring to fig. 1-3, a geological acquisition monitoring device used in coal mining comprises an operation box 1, a first plate 2 is welded at the bottom of one side of the operation box 1, a second plate 3 is welded at one side of the top of the first plate 2, a push rod motor 4 is fixedly connected with one side of the second plate 3 through bolts, a push plate 5 is welded on an output shaft of the push rod motor 4, a transverse plate 6 is welded at the bottom of one side of the push plate 5, a left side plate 7 and a right side plate 8 are slidably and hermetically installed in the operation box 1, the transverse plate 6 is welded with the left side plate 7, a plurality of first tamping rods 9 and a plurality of second tamping rods 10 are respectively welded at one side of the left side plate 7 and the right side plate 8, a contact plate 11 is welded at the top of one side of the push plate 5, a rotary hole and a rotary groove are formed in the top of the operation box 1, the same rotary shaft 12 is rotatably installed in the, cam 13 contacts with right side board 8, and the spout has been seted up at the top of control box 1, and slidable mounting has slide 14 in the spout, and the welding of one side top of slide 14 has horizontal plate 16, and horizontal plate 16 contacts with contact plate 11, and the fixed cover in the outside of pivot 12 is equipped with gear 17, and the welding of one side of horizontal plate 16 near pivot 12 has rack 18, and gear 17 meshes with rack 18 mutually.

In this embodiment, the bottom welding of control box 1 has two support piece, and the welding of one side that two support piece are close to each other has same place the board, and the material receiving box has been placed at the top of placing the board.

In this embodiment, the discharge opening has been seted up to the bottom of control box 1, and there is filter plate 19 through bolt fixedly connected with in the discharge opening, filters the coal charge.

In this embodiment, the top of operation box 1 has seted up the feed port, and the clamping has the sealing plug in the feed port.

In this embodiment, a cross hole is formed in one side of the operation box 1, and the cross plate 6 is slidably mounted in the cross hole.

In this embodiment, the same spring 15 is welded between the sliding plate 14 and the inner wall of one side of the sliding chute, so that the sliding plate 14 can return to the original position.

In the utility model, when in use, coal mined from a coal mine hole is put into the operation box 1, then the push rod motor 4 is started, the push rod motor 4 is controlled by the control switch, the push rod motor 4 is powered by the storage battery, the output shaft of the push rod motor 4 drives the push plate 5 to move, the push plate 5 drives the transverse plate 6 to move, the push plate 5 drives the contact plate 11 to move, so that the contact plate 11 is contacted with the horizontal plate 16, coal is conveniently added into the operation box 1 through the feed hole at the beginning, then the output shaft of the push rod motor 4 moves back and forth in the transverse direction, the contact plate 11 drives the horizontal plate 16 to move, the horizontal plate 16 drives the sliding plate 14 to move, the sliding plate 14 extrudes the spring 15, so that the horizontal plate 16 moves back and forth in the transverse direction, the horizontal plate 16 drives the rack 18 to move, the rack 18 drives the gear 17 to rotate, gear 17 drives pivot 12 and rotates, pivot 12 drives cam 13 and rotates, cam 13 extrudes right side board 8 and drives right side board 8 and remove, make left side board 7 and right side board 8 remove in opposite directions, left side board 7 and right side board 8 drive first stamp-block 9 and second stamp-block 10 respectively and remove, first stamp-block 9 and second stamp-block 10 carry out shredding to the coal charge, fall into when the coal charge after smashing reaches the aperture that filter plate 19 satisfied and connect the material box, the workman can monitor and the analysis to the coal charge after smashing this moment, geological coal monitoring personnel's the monitoring degree of difficulty has been reduced.

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 geological acquisition monitoring device for coal mining comprises an operation box (1) and is characterized in that a first plate (2) is welded at the bottom of one side of the operation box (1), a second plate (3) is welded at one side of the top of the first plate (2), a push rod motor (4) is fixedly connected to one side of the second plate (3) through bolts, a push plate (5) is welded on an output shaft of the push rod motor (4), a transverse plate (6) is welded at the bottom of one side of the push plate (5), a left side plate (7) and a right side plate (8) are installed in the operation box (1) in a sliding sealing mode, the transverse plate (6) is welded with the left side plate (7), a plurality of first tamping rods (9) and a plurality of second tamping rods (10) are welded at one side, which the left side plate (7) and the right side plate (8) are close to each other, a contact plate (11) is welded at the, the top of control box (1) has been seted up and has been changeed hole and rotary trough, same pivot (12) have been installed to commentaries on classics hole and rotary trough internal rotation, the fixed cover in outside of pivot (12) is equipped with two cam (13), cam (13) contact with right side board (8), the spout has been seted up at the top of control box (1), slidable mounting has slide (14) in the spout, one side top welding of slide (14) has horizontal plate (16), horizontal plate (16) contact with contact plate (11), the fixed cover in outside of pivot (12) is equipped with gear (17), one side welding that horizontal plate (16) are close to pivot (12) has rack (18), gear (17) and rack (18) mesh mutually.

2. The geological acquisition and monitoring device for coal mining as claimed in claim 1, characterized in that two supporting members are welded at the bottom of the operation box (1), one side of the two supporting members close to each other is welded with the same placing plate, and a material receiving box is placed at the top of the placing plate.

3. The geological acquisition and monitoring device for coal mining according to claim 1, characterized in that the bottom of the operation box (1) is provided with a discharge hole, and a filter plate (19) is fixedly connected in the discharge hole through a bolt.

4. The geological acquisition and monitoring device for coal mining as claimed in claim 1, wherein the top of the operation box (1) is provided with a feeding hole, and a sealing plug is clamped in the feeding hole.

5. The geological acquisition and monitoring device for coal mining as claimed in claim 1, characterized in that one side of the operation box (1) is provided with a transverse hole, and the transverse plate (6) is slidably mounted in the transverse hole.

6. Geological acquisition monitoring device for coal mining according to claim 1, characterized in that the same spring (15) is welded between said sliding plate (14) and one side of the inner wall of the chute.

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