CN211711743U - Rapid sand and stone material transportation system - Google Patents

Abstract

The utility model provides a rapid sand and stone material transportation system, which solves the problems that the prior art has high sand and stone material transportation cost and low transportation speed, and influences the tunneling engineering; the conveying mechanism is arranged at a use place, and one end of the conveying mechanism is adjacent to a material stacking place; the material buffer zone is communicated with the outside through a material conveying channel; the material conveying channel comprises a material inlet and a material outlet, and the material inlet is arranged adjacent to the other end of the conveying mechanism; one end of the material storage mechanism is communicated with the temporary storage area; the other end is arranged in the transportation area; the utility model provides an grit material rapid transit system need not to use high strength's buffer etc. and then can not influence the progress of tunnelling engineering in reducing the cost of transportation.

Description

Rapid sand and stone material transportation system

Technical Field

The utility model relates to a material transport field under the ore deposit especially indicates a grit material rapid transit system.

Background

The mining area can comprise a soft rock structure according to different geologies, wherein a roadway driving support mode is usually carried out in a mode of combining anchor net shotcreting support and inverted bottom arch shotcreting support; the average daily excavation and preparation chamber footage in a mining area is about 30-40 m, the footage per meter of a roadway needs to be sprayed with concrete 1.5-2.9 m3, and the sand and stone materials needed to be used are huge;

in the prior art, after loading on a well, the sand and stone materials are transported to a wellhead through an electric locomotive, and then are transferred to a rail stone door through a secondary well, and are distributed to each construction site; in the transportation mode, the equipment needs to be replaced for many times, and the transportation route is long, so that the problems of increased labor cost, occupation of transportation vehicles and the like are caused in the process; in addition, transportation is carried out in the mode, so that transportation cost is increased, and meanwhile, a plurality of potential safety hazards exist. When the tunneling speed is accelerated, the transportation capacity is limited by adopting a transportation mode of cage lifting and mine car matching, so that the material transportation speed cannot meet the construction requirement, the tunneling construction is influenced, and the tunneling engineering cannot meet the requirements of recovery continuation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a grit material rapid transit system has solved among the prior art the high and transport speed of cost of transportation of grit material and has hanged down, influences the problem of tunnelling engineering.

The technical scheme of the utility model is realized like this:

a rapid transit system for grit material comprising:

the conveying mechanism is arranged at a use place, and one end of the conveying mechanism is adjacent to the material stacking place;

the material buffer zone is communicated with the outside through a material conveying channel; the material conveying channel comprises a material inlet and a material outlet, and the material inlet is arranged adjacent to the other end of the conveying mechanism;

one end of the material storage mechanism is communicated with the temporary storage area; the other end is arranged in the transportation area.

As a further technical solution, the method further comprises: and the monitoring device is arranged in the temporary storage area.

As a further technical scheme, the storage mechanism comprises:

one end of the storage bin is communicated with the temporary storage area;

and the discharging machine is communicated with the other end of the storage bin and is arranged in the transportation area.

Preferably, the discharging machine is a coal feeder.

Preferably, one end of the storage bin close to the discharging machine is of a conical structure.

Preferably, the distance between the axis of the discharge port and the edge of the discharge port close to the material storage mechanism is 1.5 m.

Preferably, the material conveying channel is a material conveying pipeline.

Preferably, the material conveying channel is a channel arranged on drilling equipment.

The utility model discloses technical scheme carries the material of ground is stacked to the material through transport mechanism, makes the material carried the position of defeated material way feed inlet, and conveys the material through defeated material way, makes the material enter into the temporary storage area, and along with entering into the increase of temporary storage area material volume, the material of temporary storage area can be gradual enters into storage mechanism, stores the material through discharge mechanism, and when needs use, the inside material of storage mechanism discharges, makes the material discharge on the vehicle of transportation area, realizes the transportation of material, the technical scheme of the utility model, make full use of the nature of material pile up and the creep nature of receiving the impact, compare with prior art and need not to use high strength's buffer etc. and then can be when reducing cost of transportation, do not influence the progress of tunnelling engineering.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the utility model relates to a grit material rapid transit system.

In the figure:

1-a transport mechanism; 2-a material buffer zone; 3-a material conveying channel; 31-a feed port; 32-a discharge hole; 4-a material storage mechanism; 41-a storage bin; 42-a discharging machine; 5-a transportation area; 6-monitoring device.

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 efforts belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a grit material rapid transit system, include:

the conveying mechanism 1 is arranged at a use place, and one end of the conveying mechanism is adjacent to a material stacking place; in the utility model, the conveying mechanism 1 is preferably a conveying belt, materials (sand and stone materials) can be placed on the conveying belt through operators or using operating equipment and the like, and the materials are conveyed through the conveying belt;

the material buffer area 2 is communicated with the outside through a material conveying channel 3; the material conveying channel 3 comprises a feeding hole and a discharging hole 32, and the feeding hole is arranged adjacent to the other end of the conveying mechanism 1; when the conveying mechanism 1 conveys the materials to the tail end of the conveying mechanism 1, the materials enter the material conveying channel 3 under the action of the gravity of the materials; and along with the self gravity, the material passes through the material buffer area 2 when boring and falls down, in the utility model, the material conveying channel 3 is a material conveying pipeline; the material conveying channel 3 can also be a channel arranged on drilling equipment; the utility model is not limited according to the actual situation;

as shown in fig. 1, when a material passes through a material conveying channel 3 and reaches a material buffer area 2, because a platform is arranged in the material buffer area 2 for temporary storage after falling from the material conveying channel 3, the material passing through the material conveying channel 3 or falling on the platform for temporary storage of the material is increased gradually because the material falls continuously, and when the material on the platform reaches a certain amount, because the platform is arranged close to a discharging mechanism 42, when the material amount on the platform is within a long material amount output platform bearing range, the exceeding material flows into the discharging mechanism 42; moreover, in the utility model, preferably, the distance from the axis of the discharge port 32 to the edge of the discharge port 32 close to the material storage mechanism 4 is 1.5 m; thus, the platform forms a certain space for temporary storage of materials; when the bearing range of the space is exceeded, the materials enter the material storage mechanism 4;

in the environment, the natural accumulation of materials and the impacted creep property can be fully utilized; when the materials fall to the material buffer area 2 after passing through the material conveying channel 3, the impact force of the falling materials can be buffered due to the arrangement of the platform, the materials falling into the discharging mechanism 42 can enter the discharging mechanism 42 at a speed lower than the falling speed due to the gradual increase of the materials, and the continuously falling materials can be buffered through the materials existing on the platform as well due to the gradual increase of the materials on the platform;

one end of the material storage mechanism 4 is communicated with the temporary storage area; the other end is arranged in the transportation area 5; the materials in the material buffer area 2 are obtained and stored; in the utility model, the material can be measured according to the actual situation, and the amount of the material stored in the material storage mechanism 4 generally exceeds the usage amount of one day; wherein the content of the first and second substances,

the storage mechanism 4 comprises a storage bin 41 and a discharging machine 42, and one end of the storage bin 41 is communicated with the temporary storage area; the discharging machine 42 is communicated with the other end of the storage bin 41 and is arranged in the transportation area 5; that is, the material falling from the platform enters the storage bin 41 and is stored through the storage bin 41; discharging the materials in the storage bin 41 through a discharging device according to the requirement; in the utility model, preferably, the discharging machine 42 is a coal feeder; specifically, a quantitative coal feeder can be selected, so that the vehicles in the transportation area 5 can be discharged quantitatively; further realizing quantitative transportation;

in addition, in the utility model, one end of the storage bin 41 close to the discharging machine 42 is of a conical structure; therefore, the materials entering the storage bin 41 can be collected by the material outlet port under the self gravity all the time, and the discharging effect of the discharging machine 42 is improved;

in the utility model, in order to better know the working state, the utility model is preferably provided with a monitoring device 6, and the monitoring device 6 is arranged in the temporary storage area; in the utility model, the preferred monitoring device 6 is a camera, which monitors the environment of the temporary storage area all the time, and particularly monitors the material discharge condition of the material conveying channel 3 and the material piling condition on the platform; and further corresponding processing can be carried out according to the monitoring condition.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A rapid transit system for grit material, comprising:

the conveying mechanism (1) is arranged at the use place, and one end of the conveying mechanism is adjacent to the material stacking place;

the material buffer area (2) is communicated with the outside through a material conveying channel (3); the material conveying channel (3) comprises a feeding hole (31) and a discharging hole (32), and the feeding hole (31) is adjacent to the other end of the conveying mechanism (1);

the material storage mechanism (4) is used for acquiring and storing the materials in the material buffer area (2), and one end of the material storage mechanism is communicated with the temporary storage area; the other end is arranged in the transportation area (5).

2. The rapid grit material transport system as in claim 1 further comprising: and the monitoring device (6) is arranged in the temporary storage area.

3. A rapid transit system of grit material as in claim 1, characterized in that said storage means (4) comprise:

a storage bin (41) with one end communicated with the temporary storage area;

and the discharging machine (42) is communicated with the other end of the storage bin (41) and is arranged in the transportation area (5).

4. A rapid sand and gravel transport system as claimed in claim 3, wherein said discharge machine (42) is a coal feeder.

5. A rapid transit system for aggregate of sand and stone according to claim 3, characterized in that the end of said storage silo (41) adjacent to said outfeed machine (42) is of conical configuration.

6. A rapid transit system for aggregate according to claim 1, characterized in that the distance from the axis of said outfeed opening (32) to the edge of said storage means (4) adjacent to said outfeed opening (32) is 1.5 m.

7. A rapid transit system for aggregate of sand and stone according to claim 1, characterized in that said conveyor channel (3) is a conveyor channel.

8. A system for the rapid transport of aggregate of sand and stone according to claim 1, characterized in that said conveyor channel (3) is a passage provided in a drilling apparatus.

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