CN211732819U - Walking type cinder cleaning conveyor - Google Patents

Abstract

The utility model discloses a walking type cinder cleaning conveyor, which relates to cleaning and conveying equipment for coal mine underground roadway accumulated coal scraps, and comprises a driving unloading part, a walking feeding part, a flexible shaftless helical blade and a rubber hose; the driving discharging part consists of a frame, a power source, a coupler, a driving shaft and a discharging pipe groove; the walking feeding part consists of a walking frame, an operating handle, an annular fixing clamp, a power source, a driving wheel shaft, a driving wheel, a driven wheel, a shovel plate part, a right-handed blade shaft supporting seat, a left-handed blade shaft supporting seat and a conical end shaft, and two ends of the flexible shaftless spiral blade are fixedly connected with the driving shaft and the conical end shaft respectively; the rubber hose is sleeved outside the flexible shaftless helical blade, and two ends of the rubber hose are respectively fixedly connected with the discharging pipe groove and the shovel plate part; this equipment can initiatively impel and get the material, realizes that the coal cinder clearance is carried, and delivery route flexible arranges in a flexible way in narrow tunnel, has reduced coal cinder clearance personnel quantity, has improved coal cinder clearance work efficiency.

Description

Walking type cinder cleaning conveyor

Technical Field

The utility model relates to a clearance that is used for colliery underworkings to pile up coal cinder carries technical field, particularly, especially relates to a quick clearance conveying equipment that is used for colliery underworkings to pile up coal cinder.

Background

Gas drainage in coal seam drilling is an important measure for preventing and controlling gas disasters in coal mines. In coal seam drilling and hydraulic punching process, a large amount of coal cinder are piled up in the tunnel after discharging from the drilling, bring very big inconvenience for tunnel drilling site operation drilling equipment and the workman that comes and goes, seriously influenced the standardized image of mine, the colliery need arrange special cleaning personnel regularly to carry out manual cleaning to accumulational coal cinder, utilize the spade to pack the coal cinder into the mine car, cleaning work intensity of labour is big, operational environment is abominable, the cost of labor of colliery production has been improved.

Disclosure of Invention

To the coal cinder problem of piling up that the sediment brought is arranged in drilling of above-mentioned coal seam when preventing and treating gas in coal enterprise, the utility model provides a walking cinder clearance conveyer. The device is provided with a walking feeding part, and the continuous walking propulsion of the walking feeding part can ensure that the coal scraps in the coal scrap pile are continuously conveyed by a coal scrap cleaning conveyor and loaded into a mine car.

The specific technical scheme is as follows: a walking type cinder cleaning conveyor comprises a driving discharging part, a walking feeding part, a flexible shaftless helical blade and a rubber hose; the driving discharging part consists of a frame, a power source, a coupler, a driving shaft and a discharging pipe groove; the walking feeding part consists of a walking frame, an operating handle, an annular fixing clamp, a power source, a driving wheel shaft, a driving wheel, a driven wheel, a shovel plate part, a right-handed blade shaft supporting seat, a left-handed blade shaft supporting seat and a conical end shaft.

The power source for driving the discharging part can be power equipment such as an electric motor, a hydraulic motor or a pneumatic motor; a supporting hole is formed in the side wall, close to the power source, of the discharging pipe groove of the driving discharging part, a transition pipe is welded to the side wall on the opposite side in a penetrating mode, and the center line of the supporting hole and the center line of the transition pipe are on the same axis; the power source and the discharge pipe groove are respectively and fixedly arranged on the frame, the power source is connected with the driving shaft through the coupler, and the driving shaft penetrates into the discharge pipe groove through the bearing hole on the side wall of the discharge pipe groove.

The power source of the walking feeding part can be power equipment such as an electric motor, a hydraulic motor or a pneumatic motor; the driving wheel shaft of the walking feeding part is hinged to the bottom of the walking frame, and two ends of the driving wheel shaft are fixedly connected with driving wheels respectively; the shovel plate part of the walking feeding part is fixedly connected to the front end of the walking frame in the advancing direction; the operation handle of the walking feeding part is fixed at the rear end of the walking frame; the power source is in transmission connection with the driving wheel shaft through a belt; an annular fixing clamp is fixedly arranged at the position, close to the middle, of the walking frame of the walking feeding part; the shovel plate part of the walking feeding part consists of a base, an arc shovel plate, a connecting pipe, a right-handed blade shaft bearing frame, a left-handed blade shaft bearing frame and a longitudinal bearing frame; the right-handed blade bearing frame and the left-handed blade bearing frame are welded and fixed on the inner side of the arc shovel plate, and the longitudinal bearing frame is welded and fixed on the tops of the right-handed blade bearing frame and the left-handed blade bearing frame.

The right-handed blade shaft of the walking feeding part is hinged and fixed by a right-handed blade shaft supporting seat and a right-handed blade shaft supporting frame of the shovel plate part, the left-handed blade shaft is hinged and fixed by a left-handed blade shaft supporting seat and a left-handed blade shaft supporting frame of the shovel plate part, and the right-handed blade shaft supporting seat and the left-handed blade shaft supporting seat are respectively fixed on a base of the shovel plate part by bolts; the right-handed blade shaft and the left-handed blade shaft are respectively connected with a power source of the walking feeding part through belt transmission, and the rotating directions of the blades of the right-handed blade shaft and the blades of the left-handed blade shaft are opposite.

The conical end shaft of the walking feeding part is hinged with the longitudinal supporting frame of the shovel plate part, and the conical part of the conical end shaft is provided with a feeding spiral blade.

Two ends of the flexible shaftless helical blade are fixedly connected with a driving shaft of the driving discharging part and a conical end shaft of the walking feeding part by U-shaped clamps respectively; the rubber hose is sleeved outside the flexible shaftless helical blade, one end of the rubber hose is fixedly connected with the transition pipe of the discharge pipe slot of the driving discharge part through a hoop, and the other end of the rubber hose is fixedly connected with the connecting pipe of the shovel plate part through the hoop after passing through the annular fixing clamp of the walking feeding part.

The beneficial effects of the utility model are that, a walking cinder clearance conveyer can constantly advance forward, and the coal cinder carries the toper dead axle position department in the middle of the shovel board under the pushing action of the dextrorotation blade axle of walking feeding portion and levogyration blade axle, under the pushing action of the epaxial feed helical blade of toper dead axle and flexible shaftless helical blade, the coal cinder is carried the discharge gate department of the pipe chute of unloading of drive portion of unloading along the pipe wall of rubber hose and is fallen into the mine car, the utility model discloses simple structure, convenient to use can initiatively advance, realizes carrying the clearance of coal cinder, and delivery path flexible, equipment arrangement is nimble in narrow tunnel in the pit, has reduced the quantity of coal cinder clearance staff, has reduced workman's intensity of labour, has improved the work efficiency of coal cinder clearance, has reached the purpose of subtracting the people to carry the effect.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the driving discharging part of the present invention.

Fig. 3 is a bottom view of the drive discharge portion of fig. 2.

Fig. 4 is a schematic structural view of the discharge pipe chute of the driving discharge part of the present invention.

Fig. 5 is a schematic structural view of the walking feeding portion of the present invention.

Fig. 6 is a right side view of the walk feed of fig. 5.

Fig. 7 is a schematic structural view of the shovel plate portion of the walking feeding portion of the present invention.

Detailed Description

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, a walking type cinder cleaning conveyor comprises a driving discharging part 3, a walking feeding part 5, a flexible shaftless helical blade 2 and a rubber hose 4; the driving discharging part 3 consists of a frame 31, a power source 32, a coupling 33, a driving shaft 35 and a discharging pipe groove 34; the walking feeding part 5 is composed of a walking frame 502, an operation handle 501, an annular fixing clamp 510, a power source 504, a driving wheel shaft 505, a driving wheel 506, a driven wheel 503, a shovel plate part 509, a right-handed blade shaft 511, a right-handed blade shaft supporting seat 507, a left-handed blade shaft 512, a left-handed blade shaft supporting seat 508 and a conical end shaft 513.

The power source 32 for driving the discharging part 3 can be a power device such as an electric motor, a hydraulic motor or a pneumatic motor; a support hole 341 is formed in the side wall of the discharge pipe groove 34 of the driving discharge part 3 close to one side of the power source, a transition pipe 342 is welded in the opposite side wall in a penetrating manner, and the center line of the support hole 341 and the center line of the transition pipe 342 are on the same axis; the power source 32 and the discharge pipe chute 34 are respectively fixedly arranged on the frame 31, the power source 32 is connected with the driving shaft 35 through the coupling 33, and the driving shaft 35 penetrates into the discharge pipe chute 34 through the supporting hole 341 on the side wall of the discharge pipe chute 34.

The power source 504 of the walking feeding part 5 can be a power device such as an electric motor, a hydraulic motor or a pneumatic motor; a driving wheel shaft 505 of the walking feeding part 5 is hinged to the bottom of the walking frame 502, and two ends of the driving wheel shaft 505 are fixedly connected with a driving wheel 506 respectively; the shovel plate 509 of the traveling feeder 5 is fixedly coupled to the front end of the traveling frame 502 in the forward direction by a base 5091; the operation handle 501 of the walking feeding part 5 is fixed at the rear end of the walking frame 502; the power source 504 is coupled with the drive axle 505 by belt drive; an annular fixing clip 510 is fixedly arranged at the middle position of the walking frame 502 of the walking feeding part 5; the shovel plate part 509 of the walking feeding part 5 consists of a base 5091, an arc-shaped shovel plate 5092, a connecting pipe 5096, a right-handed blade shaft support 5093, a left-handed blade shaft support 5095 and a longitudinal support 5094; the right-handed blade shaft support 5093 and the left-handed blade shaft support 5095 are welded to the inner side of the arc shovel 5092, and the longitudinal support 5094 is welded to the top of the right-handed blade shaft support 5093 and the left-handed blade shaft support 5095.

The right-handed blade shaft 511 of the walking feeding part 5 is hinged and fixed by a right-handed blade shaft supporting seat 507 and a right-handed blade shaft supporting frame 5093 of the shovel plate part 509, the left-handed blade shaft 512 is hinged and fixed by a left-handed blade shaft supporting seat 508 and a left-handed blade shaft supporting frame 5095 of the shovel plate part 509, and the right-handed blade shaft supporting seat 507 and the left-handed blade shaft supporting seat 508 are respectively fixed on a base 5091 of the shovel plate part 509 by bolts; the right-handed blade shaft 511 and the left-handed blade shaft 512 are respectively coupled to the power source 504 of the traveling feeder 5 by belt drive, and the blades of the right-handed blade shaft 511 and the blades of the left-handed blade shaft 512 rotate in opposite directions.

The tapered end shaft 513 of the walking feeding part 5 is hinged with the longitudinal supporting frame 5094 of the shovel board part 509, and the tapered part of the tapered end shaft 513 is provided with a feeding helical blade 514.

Two ends of the flexible shaftless helical blade 2 are fixedly connected with a driving shaft 35 of the driving discharging part 3 and a conical end shaft 513 of the walking feeding part 5 by a U-shaped clamp 8 and a U-shaped clamp 9 respectively; the rubber hose 4 is sleeved outside the flexible shaftless helical blade 2, one end of the rubber hose is fixedly connected with the transition pipe 342 of the discharge pipe groove 34 of the driving discharge part 3 by a clamp 7, and the other end of the rubber hose passes through the annular fixing clamp 510 of the walking feed part 5 and is fixedly connected with the connecting pipe 5096 of the shovel plate part 509 by a clamp 6.

When accumulated coal dust needs to be cleaned, the mine car 1 is pushed to the lower part of the rack 31 of the driving discharging part 3, the discharging opening of the discharging pipe groove 34 is opposite to the mine car 1, the walking feeding part 5 is pushed to the side of the coal dust pile, when the power source 504 of the walking feeding part 5 works, the output shaft of the power source 504 drives the driving wheel shaft 505 and the driving wheel 506 to rotate together through the belt transmission mechanism, and the walking feeding part 5 is pushed forwards; meanwhile, the output shaft of the power source 504 drives the right-handed blade shaft 511 and the left-handed blade shaft 512 to rotate through a belt transmission mechanism, and because the rotating directions of the blades of the right-handed blade shaft 511 and the blades of the left-handed blade shaft 512 are opposite, the coal dust is continuously conveyed to the position of the conical end shaft 513 in the middle of the shovel plate part 509 by the right-handed blade shaft 511 and the left-handed blade shaft 512; meanwhile, the power source 32 for driving the discharging part 3 works, the output shaft of the power source 32 drives the driving shaft 35 to rotate through the coupling 33, the driving shaft 35 drives the flexible shaftless helical blade 2 fixedly connected with the driving shaft to rotate together, the flexible shaftless helical blade 2 drives the conical end shaft 513 fixedly connected with the flexible shaftless helical blade to rotate together, and under the pushing action of the feeding helical blade 514 on the conical end shaft 513 and the flexible shaftless helical blade 2, the coal dust is conveyed to the discharging opening of the discharging pipe groove 34 for driving the discharging part 3 along the pipe wall of the rubber hose 4 and falls into the mine car 1.

In the description of the present invention, it should be understood that the terms "front", "back", "left", "right", "center", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the scope of the present invention.

Claims (6)

1. The utility model provides a walking cinder clearance conveyer which characterized in that: comprises a driving discharging part, a walking feeding part, a flexible shaftless helical blade and a rubber hose; the driving discharging part consists of a frame, a power source, a coupler, a driving shaft and a discharging pipe groove; the walking feeding part consists of a walking frame, an operating handle, an annular fixing clamp, a power source, a driving wheel shaft, a driving wheel, a driven wheel, a shovel plate part, a right-handed blade shaft supporting seat, a left-handed blade shaft supporting seat and a conical end shaft.

2. A walking type cinder cleaning conveyor as claimed in claim 1, wherein: the power source for driving the discharging part can be power equipment such as an electric motor, a hydraulic motor or a pneumatic motor; a supporting hole is formed in the side wall, close to the power source, of the discharging pipe groove of the driving discharging part, a transition pipe is welded to the side wall on the opposite side in a penetrating mode, and the center line of the supporting hole and the center line of the transition pipe are on the same axis; the power source and the discharge pipe groove are respectively and fixedly arranged on the frame, the power source is connected with the driving shaft through the coupler, and the driving shaft penetrates into the discharge pipe groove through the bearing hole on the side wall of the discharge pipe groove.

3. A walking type cinder cleaning conveyor as claimed in claim 1, wherein: the power source of the walking feeding part can be power equipment such as an electric motor, a hydraulic motor or a pneumatic motor; the driving wheel shaft of the walking feeding part is hinged to the bottom of the walking frame, and two ends of the driving wheel shaft are fixedly connected with driving wheels respectively; the shovel plate part of the walking feeding part is fixedly connected to the front end of the walking frame in the advancing direction; the operation handle of the walking feeding part is fixed at the rear end of the walking frame; the power source is in transmission connection with the driving wheel shaft through a belt; an annular fixing clamp is fixedly arranged at the position, close to the middle, of the walking frame of the walking feeding part; the shovel plate part of the walking feeding part consists of a base, an arc shovel plate, a connecting pipe, a right-handed blade shaft bearing frame, a left-handed blade shaft bearing frame and a longitudinal bearing frame; the right-handed blade bearing frame and the left-handed blade bearing frame are welded and fixed on the inner side of the arc shovel plate, and the longitudinal bearing frame is welded and fixed on the tops of the right-handed blade bearing frame and the left-handed blade bearing frame.

4. A walking type cinder cleaning conveyor as claimed in claim 1 or claim 3, wherein: the right-handed blade shaft of the walking feeding part is hinged and fixed by a right-handed blade shaft supporting seat and a right-handed blade shaft supporting frame of the shovel plate part, the left-handed blade shaft is hinged and fixed by a left-handed blade shaft supporting seat and a left-handed blade shaft supporting frame of the shovel plate part, and the right-handed blade shaft supporting seat and the left-handed blade shaft supporting seat are respectively fixed on a base of the shovel plate part by bolts; the right-handed blade shaft and the left-handed blade shaft are respectively connected with a power source of the walking feeding part through belt transmission, and the rotating directions of the blades of the right-handed blade shaft and the blades of the left-handed blade shaft are opposite.

5. A walking type cinder cleaning conveyor as claimed in claim 1 or claim 3, wherein: the conical end shaft of the walking feeding part is hinged with the longitudinal supporting frame of the shovel plate part, and the conical part of the conical end shaft is provided with a feeding spiral blade.

6. A walking type cinder cleaning conveyor as claimed in claim 1, wherein: two ends of the flexible shaftless helical blade are fixedly connected with a driving shaft of the driving discharging part and a conical end shaft of the walking feeding part by U-shaped clamps respectively; the rubber hose is sleeved outside the flexible shaftless helical blade, one end of the rubber hose is fixedly connected with the transition pipe of the discharge pipe slot of the driving discharge part through a hoop, and the other end of the rubber hose is fixedly connected with the connecting pipe of the shovel plate part through the hoop after passing through the annular fixing clamp of the walking feeding part.

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