CN212449335U - Automatic guiding device for leaked materials - Google Patents

Abstract

The utility model discloses an automatic guiding device of hourglass material relates to mining equipment technical field. The automatic leaked material guiding device comprises a carriage, a vibration plate bearing wall, a vibration plate and an ash guiding plate, wherein the vibration plate is movably arranged above the vibration plate bearing wall, the vibration plate bottom surface is provided with a suspension rib plate according to the width central line distribution, the lower end of the suspension rib plate is provided with an ash conveying chute, and the ash conveying chute is provided with an ash conveying chute joint part. This automatic guiding device of hourglass material, simple structure, reasonable in design, compact structure, resources are saved, the limited space of rational utilization, safety ring protects, carry the carriage of outward transport in the lump with the inside material of leaking material and the vibration ore drawing machine of collecting through vibration ore drawing machine self power supply, alleviate worker's intensity of labour, avoid electric, personnel, environment because of leaking the material polluted environment, practice thrift the secondary simultaneously and fall to transport the expense that the stockyard used large-scale loading equipment and collected excitation electric locomotive empty wagon.

Description

Automatic guiding device for leaked materials

Technical Field

The utility model relates to a mining equipment technical field specifically is an automatic diverting device of hourglass material.

Background

The vibration ore drawing machine is one of important devices of large mine ore transfer loading trains in China at present. Mine) to the feed bin through the car, utilize the vibration board of the vibration ore drawing machine below the feed bin through the mode of vibration, with the ore in the feed bin along the board that shakes 15 with the ground slope, slide in the train carriage of outward transport through the vibration of vibration ore drawing machine. The vibration ore drawing machine has the following serious defects in the loading process due to the design problem:

1. because the vibration ore drawing machine is in the design, the ore can produce a lot of fine particles and powdery ores under the condition that the ores collided with each other in the processes of blasting and transporting are secondarily crushed by crushing equipment without considering the process that the ores are loaded on a vehicle, when the vibration ore drawing machine is used for loading and transporting a train, a large amount of powdery and granular materials fall down from gaps between adjacent vibrating plates arranged inside the vibration ore drawing machine, and a vibrating plate bin below the vibrating plates is enabled to be granular and dust everywhere.

2. If the vibration ore drawing machine after the work hours, will cause the board back that shakes, shake subaerial granule and dust below the board storehouse very much, contain a large amount of metal dusts in these ore dusts, inside this narrow and small space, install electrical equipment, the dust falls into the electrical equipment outside will influence electric radiating effect and can increase electrical equipment's circuit trouble simultaneously, seriously influences safety in production.

3. In the operation process, the vibrating plate bin below a vibrating plate of the vibrating ore drawing machine, and particles and dust falling on the ground below the vibrating plate bin need to be cleaned every 8 hours, a shovel with slow material leakage needs to be moved to an outlet of the vibrating plate bin from the innermost part in the long and narrow vibrating plate bin below the vibrating plate manually, then the shovel is thrown to the ground with the height drop of nearly three meters, and the falling materials thrown to the ground are then transported to a specified stockyard through a small manual cart for the second time. The cleaning of the vibrating plate bin below the vibrating plate of the primary vibrating ore drawing machine and the ground outside the vibrating plate bin requires about three hours of work of two workers, the vibrating ore drawing machine is in a parking state within the three hours, the workers can work, great physical injury is brought to the cleaning workers while production is severely restricted, and serious influence is caused to the surrounding environment due to serious material leakage.

4. Vibration plate storehouse, the subaerial material of clearing up out of plate storehouse outside of shaking of vibrating below the board of vibration ore drawing machine pile up appointed region, the material of clearing up out all is more tiny granule and dust, need prevent dust and outward transport to it, need coordinate the production dispatch in-process of outward transport to the material of clearing up out, coordinate outward transport vehicle, dispatch excitation electric locomotive empty wagon to stockyard, transport away through large-scale excavator loading, cause secondary pollution to the environment at the in-process of shipment.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides an automatic guiding device for leaked materials, which solves the problems that when a vibrating ore drawing machine is designed, in the process of loading ores, the ores are blasted, and the ores collided with each other in the transportation process can generate a plurality of fine particles and powdery ores under the condition that the ores are secondarily crushed by crushing equipment, so that when the vibrating ore drawing machine is used for loading and transporting a train, a large amount of powdery and granular materials fall down at gaps between adjacent vibrating plates arranged in the vibrating ore drawing machine, the vibrating plate bin below the vibrating plate is everywhere particles and dust, and meanwhile, after the vibrating ore drawing machine works for a plurality of hours, the back surface of the vibrating plate and the ground particles and dust below the vibrating plate bin are more, the ore dust contains a large amount of metal dust, and electric equipment is arranged in the space, the dust falls into the electrical equipment outside and will influence electric radiating effect and can increase electrical equipment's circuit trouble simultaneously, seriously influence safety in production, and shake the board storehouse below the board that shakes at the in-process vibration ore drawing machine shaking, shake every 8 hours of subaerial granule and the dust that drops below the board storehouse, need clear up the operation to its position, need artifical in the board storehouse that shakes of board storehouse long and narrow below the board that shakes, will move to the board storehouse exit that shakes earlier of a slow spade of leaking material from the inside, reuse spade throws the ground of nearly three meters height drops, the blanking of throwing ground is again through the manpower small handcart secondary to specified stockyard. Cleaning the vibrating plate bin below the vibrating plate of the primary vibrating ore drawing machine and the ground outside the vibrating plate bin requires about three hours of work of two workers, the vibratory ore drawing machine is in a parking state within the three hours, workers can work, great physical damage is brought to cleaning workers while production is severely restricted, serious material leakage causes serious influence on the surrounding environment, and a vibrating plate bin below a vibrating plate of the vibrating ore drawing machine, and a material stacking designated area cleaned on the ground outside the vibrating plate bin, the materials cleaned are all fine particles and dust, and need to be dustproof and transported outside, production scheduling needs to be coordinated in the process of transporting the cleaned materials outside, vehicles need to be transported outside, empty wagons of the shock excitation electric locomotive are dispatched to a stockyard, the large excavator is used for loading and transporting, and secondary pollution is caused to the environment in the loading and transporting process.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides an automatic guiding device of hourglass material, includes the carriage, shakes board bearing wall, shakes the board and leads the hawk, shake board bearing wall top activity and be provided with the board that shakes, shake the board bottom surface and be provided with according to width central line distribution and hang the gusset, the lower extreme that hangs the gusset is provided with the ash conveying chute, be provided with ash conveying chute joint position on the ash conveying chute, the fixed angle steel that is provided with in notch position distribution of ash conveying chute, the bottom of shaking the board is provided with shock excitation motor, shake board bearing wall and pass through the fixed couple that is provided with of inflation screw towards ash conveying chute one side wall, it sets up on the couple through hanging the position activity to lead the hawk, and spatial position is in ash conveying chute and shakes between the board and hang the both sides of gusset, it is fixed to be provided with the hawk.

Preferably, the ash guide plate hanging part consists of a hook, a hanging lug and a hanging lug base.

Preferably, the ash guide plate is formed by combining an A section, a B section, a C section, a D section and an E section.

Preferably, the ash conveying chute is formed by combining an F section, a G section, an H section and a J section.

Preferably, the vibration plate bearing walls on two sides below the vibration plate face the wall surface on one side of the ash conveying chute and are fixedly provided with hooks.

Preferably, the ash guide plate is movably arranged on the hook through a hanging part, the spatial position of the ash guide plate is positioned between the ash conveying chute and the vibration plate and on two sides of the hanging rib plate, and the ash guide plate which form a certain included angle with the bearing wall of the vibration plate are hung and arranged at the bottom of the vibration plate and are positioned in the ash conveying chute below the middle of the ash guide plates on two sides.

(III) advantageous effects

The utility model provides an automatic guiding device of hourglass material. The method has the following beneficial effects: this automatic guiding device of hourglass material, simple structure, reasonable in design, compact structure, resources are saved, the limited space of rational utilization, safety ring protects, carry the carriage of outward transport in the lump with the inside material of vibration ore drawing machine with the hourglass material of collection through vibration ore drawing machine self power supply in), alleviate worker's intensity of labour, avoid electric, personnel, environment because of leaking the material polluted environment, practice thrift the secondary simultaneously and fall to transport the windrow and use large-scale loading equipment and collect the expense of excitation electric locomotive empty wagon.

Drawings

FIG. 1 is a front view of the device of the present invention;

FIG. 2 is an isometric view of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic structural view of the hanging part of the ash guiding plate of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4 according to the present invention;

FIG. 6 is an assembly view of the ash guide plate of the present invention;

fig. 7 is a schematic structural view of the ash chute of the present invention.

In the figure: 1. a dust guide plate; 2. an ash conveying chute; 3. hanging a rib plate; 4. a carriage; 5. a vibrating plate bearing wall; 6. a vibrating plate; 7. leaking the materials; 8. an excitation motor; 9. a hanging part of the ash guide plate; 10. the joint part of the ash conveying chute; 11. hooking; 12. hanging a lug; 13. a suspension loop base; 14. a dust guide plate back plate; 15. an expansion screw; 16. angle steel; 17. partial view.

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. 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.

Referring to fig. 1-7, the present invention provides a technical solution: automatic guiding device leaks material, its characterized in that: the ash guide plate is characterized by comprising a carriage 4, a vibration plate bearing wall 5, a vibration plate 6 and an ash guide plate 1, wherein the ash guide plate 1 is movably arranged on a hook 11 through a hanging part 9, the spatial position is positioned between an ash conveying chute 2 and the vibration plate 6 and on two sides of a hanging rib plate 3, the ash guide plate 1 and the vibration plate bearing wall 5 form a certain included angle, the ash guide plate 1 is hung and installed at the bottom of the vibration plate 6 and is arranged at the ash conveying chute 2 below the middle of the ash guide plates 1 on two sides, the ash guide plate 1 is formed by combining an A section, a B section, a C section, a D section and an E section, the vibration plate 6 is movably arranged above the vibration plate bearing wall 5, the hook 11 is fixedly arranged on the wall surface of the vibration plate bearing wall 5 on two sides below the vibration plate 6 and facing the ash conveying chute 2, hanging rib plates 3 are distributed on the bottom surface of the vibration plate 6 according to a width central line, the lower end of the hanging rib plates 3 is provided with the ash conveying chute 2, the ash conveying chute 2, the fixed angle steel 16 that is provided with is distributed at the notch position of ash conveying chute 2, the bottom of shaking board 6 is provided with excitation motor 8, shake board bearing wall 5 and pass through the fixed couple 11 that is provided with of inflation screw 15 towards ash conveying chute 2 one side wall, it sets up on couple 11 through hanging position 9 activity to lead hawk 1, it hangs position 9 by couple 11 to lead the hawk, hangers 12 and hangers base 13 are constituteed, spatial position is in ash conveying chute 2 and shakes between the board 6 and hang the both sides of gusset 3, it leads hawk backplate 14 to lead hawk 1 fixed being provided with.

During operation, leaked materials collected in the ash conveying chute are automatically conveyed to an outward-conveying carriage through vibration of the vibrating ore drawing machine during operation.

The working process comprises two processes of collecting materials and guiding out, the leaked materials which leak through the gap of the vibrating plate slide into the ash conveying chute along the ash guide plates hung on the bearing walls of the vibrating plates at two sides below the vibrating plate, and the collecting process is completed. The ash conveying chute automatically conveys the collected leaked materials into a carriage for loading ores through vibration of the vibration ore drawing machine during working, and the leaked materials are guided out.

The automatic guiding device for the leaked materials is characterized in that the ash conveying chute is connected to the middle seam of the back face of the vibrating plate through the hanging rib plate, and a certain inclination angle is kept between the ash conveying chute and the horizontal ground. Firstly, the hook is fixed on the bearing walls of the vibrating plates on the two sides of the vibrating plate according to requirements, then the ash guide plate is hung on the hook, and the ash guide plate and the ash conveying chute are kept parallel.

The automatic material leakage guiding device does not need to be additionally provided with a power mechanism. The leaked materials 7 collected in the ash conveying chute 2 are automatically conveyed to the carriage 4 for outward transportation through the vibration of the vibrating ore drawing machine during working, the times of cleaning a stockyard by using large-scale loading machinery and a shock excitation electric locomotive are reduced, the waste of production resources and electric power resources is saved, and adverse factors influencing the surrounding environment are avoided.

Example 1

A U-shaped ash conveying chute 2 is formed by bending or welding steel plates with corresponding thicknesses into four sections, namely an F section, a G section, an H section, a J section and the like, F, G, H, J sections are connected with each other, and a bolt fastening connection mode is adopted between a ring groove and a buckle at the connection position. F. G, H, J connection method fig. seven shows, according to the technical requirement of the scheme: insert the other end inboard of F section with the one end of G section, use fixing bolt interconnect and fixed, the one end of H section is inserted the disect insertion G section other end inboard, adopts the bolt fastening mode, and the one end disect insertion H section other end inboard of J section is fixed with the bolt. Further describing the fourth figure, the angle steel 16 in the fourth figure is distributed and welded with the upper part of the opening of the ash conveying chute 2 to form a connecting part with the hanging rib plate 3.

Example 2

The hanging rib plate 3 is fixed, and the description of figure 4 is as follows: the lower extreme right angle welding of hanging gusset 3 has the steel sheet of corresponding thickness, use drilling machine supporting drilling two fixed screw with ash chute 2 upper shed angle steel 16, the bolt that will be less than the aperture passes and joins in marriage the drilling and will hang gusset 3 and fix on angle steel 16, the welding process welding is adopted with the connected mode at the vibrating plate 6 back of vibration ore drawing machine to the upper end of design installation hanging gusset 3, with the welding of the vibrating plate 6 back center strengthening rib together, accomplish vibrating plate 6, hang gusset 3 and ash chute 2 and form wholly. Further explaining the combined connection mode of the hanging rib plate 3, the ash conveying chute 2 and the ash guide plate 1, firstly, drawing a reference line to find an inclination angle with the ground before installation, considering that each section of the ash conveying chute 2 is connected with the hanging rib plate 3 together by a bolt, ensuring that the hanging rib plate 3 is welded with a reinforcing rib on the back of a vibrating plate 6 of the vibrating ore drawing machine, and ensuring that the ash conveying chute 2 is parallel to the reference line before welding. The ash guiding plate 1 is installed to be parallel to the ash chute 2. The ash guide plate is hung on the hook, and the ash guide plate and the ash conveying chute are kept parallel.

Example 3

A vibration ore drawing machine bin is internally divided into a plurality of small units with the same size, and the technical scheme of installing the ash guide plate on the right side of one unit is shown in the figure I. The ash guiding plate 1 is composed of the section 6A, B, C, D, E in fig. 6. The hanging part 9 is composed of two sections of angle steel of a hanging lug base 13, two sections of round steel of a hanging lug 12 and a hook 11 fixed on a vibrating plate bearing wall, and one ash guide plate is composed of two hanging parts 9. A steel plate strip is used as a back plate 14, the upper end of the back plate 14 is welded with the lower end of the angle steel of the hanging lug base 13 of the hanging part 9, the upper plane of the angle steel of the two hanging lug bases 13 and a bent steel plate are used as an ash guide plate 1, and one ash guide plate is composed of two back plates. The two hanging parts 9 and the two back plates 14 form the dust guide plate 1 together with the steel plate bent at a certain angle. The angle steel of the back plate 14 and the hanger base 13 is fully welded by electric welding, the hanger 12 and the hanger base 13 are connected by spot welding, and the upper plane of the angle steel of the hanger base 13 is connected with a bent steel plate by spot welding. Hook 11 is illustrated in figure five; one end of the steel plate is drilled with a hole for fixing, the other end of the steel plate is bent into a hook shape, the hook 11 is manufactured to be firstly hung at the hanging lug of the ash guide plate, the included angle between the hook and the ground is adjusted, the hole is drilled on the wall through the hole of the hook by a drill, and the hook is fixed on the wall by an expansion bolt 15. According to the sixth illustration: firstly, A, B, D, E sections are hung on the hook 11 according to requirements, and then C is put on two ends of the B and D sections of the dust guide plates and hung on the hook 11.

The automatic material leakage guiding device of the vibration ore drawing machine is of a simple steel structure, the ash conveying chute is connected to the middle seam of the back of the vibrating plate through the hanging rib plate, and the ash conveying chute and the horizontal ground keep a certain inclination angle. Firstly, the hook is fixed on the bearing walls of the vibrating plates on the two sides of the vibrating plate according to requirements, then the ash guide plate is hung on the hook, and the ash guide plate and the ash conveying chute are kept parallel.

To sum up, this automatic guiding device of hourglass material, simple structure, reasonable in design, compact structure, resources are saved, the limited space of rational utilization, safety ring protects, in the carriage of outward transportation is carried in the lump with the inside material of vibration ore drawing machine with the hourglass material of collection through vibration ore drawing machine self power supply, alleviates worker's intensity of labour, avoids electric, personnel, environment because of leaking the material polluted environment, practices thrift the secondary simultaneously and falls to transport the windrow and use large-scale loading equipment and collect the expense of excitation electric locomotive empty wagon.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 utility model provides an automatic guiding device of hourglass material which characterized in that: comprises a carriage (4), a vibration plate bearing wall (5), a vibration plate (6) and an ash guide plate (1), wherein the vibration plate (6) is movably arranged above the vibration plate bearing wall (5), the bottom surface of the vibration plate (6) is provided with a hanging rib plate (3) according to the width central line distribution, the lower end of the hanging rib plate (3) is provided with an ash conveying chute (2), the ash conveying chute (2) is provided with an ash conveying chute joint part (10), the notch part of the ash conveying chute (2) is fixedly provided with angle steel (16), the bottom of the vibration plate (6) is provided with an excitation motor (8), the vibration plate bearing wall (5) is fixedly provided with a hook (11) towards one side of the ash conveying chute (2) through an expansion screw (15), the ash guide plate (1) is movably arranged on the hook (11) through a hanging part (9), and the spatial position is positioned between the ash conveying chute (2) and the vibration plate (6) and at the two sides of the hanging rib plate (3), and an ash guide plate back plate (14) is fixedly arranged on the ash guide plate (1).

2. The automatic leaked material guiding device as claimed in claim 1, wherein: the hanging part (9) is composed of a hook (11), a hanging lug (12) and a hanging lug base (13).

3. The automatic leaked material guiding device as claimed in claim 1, wherein: the ash guide plate (1) is formed by combining an A section, a B section, a C section, a D section and an E section.

4. The automatic leaked material guiding device as claimed in claim 1, wherein: the ash conveying chute (2) is formed by combining an F section, a G section, an H section and a J section.

5. The automatic leaked material guiding device as claimed in claim 1, wherein: and hooks (11) are fixedly arranged on the vibration plate bearing walls (5) at two sides below the vibration plate (6) and face the wall surface at one side of the ash conveying chute (2).

6. The automatic leaked material guiding device as claimed in claim 1, wherein: the ash guide plate (1) is movably arranged on the hook (11) through a hanging part (9), the spatial position of the ash guide plate is positioned between the ash conveying chute (2) and the vibration plate (6) and on two sides of the hanging rib plate (3), and the ash guide plate (1) with a certain included angle with the vibration plate bearing wall (5) is installed at the bottom of the vibration plate (6) in a hanging manner and is positioned in the ash conveying chute (2) below the middle of the ash guide plate (1) on two sides.

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