CN217458064U - Powdery and granular material collecting, distributing, protecting and supplying system - Google Patents

Abstract

The utility model discloses a likepowder and granular material collection and distribution protect and supply system, the device includes: a general loading and unloading distribution station and a plurality of sub loading and unloading distribution stations; the master load and unload dispensing station comprises: the factory building is closed, and a container for containing powdery and granular materials is placed inside the factory building; the feeding end of the charging equipment is arranged outside the closed workshop and is connected with the discharge port of the transportation tank car, and the discharge end of the charging equipment corresponds to the feed port of the container; the first dust removing equipment is arranged in the closed factory building, an air suction port of the first dust removing equipment is correspondingly arranged on one side of the feed port of the container, and the first dust removing equipment is used for sucking away materials overflowed from the feed port of the container when the containers are charged, so that powder is prevented from polluting the environment; the sub-load distribution station includes: a discharge workshop; and a second dust removing device. The utility model is used for among the conveying system of solving present likepowder and granular material, the handling transportation of material is open operation, and degree of automation is low, and work efficiency is low, can the polluted environment problem simultaneously.

Description

Powdery and granular material distributed and protected supply system

Technical Field

The utility model relates to a likepowder and granular materials conveying equipment technical field, in particular to likepowder and granular materials collection and distribution protect supplies system.

Background

At present, powdery granular products such as fly ash, cement, stone powder, mineral powder, grains, chemical raw materials, PVC and the like are generally put into a container, are transported for a long distance by a train, a road and a water-transport ship and then are transported by an automobile until being transported to a factory for utilization. However, the powdery and granular products are loaded and unloaded in an open environment, the automation degree is low, the working efficiency is low, and meanwhile, a lot of dust is generated in the loading and unloading process to cause air pollution, so that the environment-friendly requirement of the current society is not met.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model provides a likepowder and granular materials collection and distribution protect supplies system.

In order to achieve the above object, the technical solution of the present invention is specifically as follows:

a powder and particle material collecting, distributing, protecting and supplying system comprises: a general loading and unloading distribution station and a plurality of sub loading and unloading distribution stations;

the master load and unload dispensing station comprises:

the factory building is closed, and a container for containing powdery and granular materials is placed inside the factory building;

the feeding end of the charging equipment is arranged outside the closed workshop and is connected with the discharge port of the transportation tank car, and the discharge end of the charging equipment corresponds to the feed port of the container;

the first dust removing equipment is arranged in the closed factory building, an air suction port of the first dust removing equipment is correspondingly arranged on one side of the feed port of the container, and the first dust removing equipment is used for sucking away materials overflowed from the feed port of the container when the containers are charged, so that the environment pollution caused by powder materials is prevented;

the sub-load distribution station includes:

a discharge workshop;

the second dust removal equipment is arranged in the unloading factory building and is used for sucking away overflowed materials during unloading so as to prevent powder from polluting the environment;

the unloading frame can transport the container into an unloading factory and unload the material in the container;

the elevator is arranged on one side of the unloading factory building, and the inlet end of the elevator is arranged in the unloading factory building;

at least one charging bin is arranged on one side of the elevator, the top feeding end of the charging bin is correspondingly connected with the discharging end of the elevator, and the bottom discharging end of the charging bin is provided with a car loader for conveying materials to a transfer tank car.

The sub-loading and unloading distribution station further comprises a third dust removal device arranged at the top of the loading bin.

A loadometer is arranged in the closed workshop, and the container is placed on the loadometer and used for controlling the loading capacity.

The charging apparatus includes:

the two conveying pipelines are arranged outside the closed plant, the other conveying pipeline is arranged inside the closed plant, the inlet ends of the two conveying pipelines are respectively provided with a conveying allocating valve, the conveying allocating valves are connected with the discharge port of the transportation tank car through suction equipment, and the outlet ends of the two conveying pipelines are respectively arranged at two sides of the container;

the conveying pipeline arranged inside the closed plant is vertically arranged in the closed plant from the outside of the closed plant through the underground of the closed plant; and the outlet ends of the two conveying pipelines are provided with rotary conveying bodies for rotating according to the position of the feed inlet of the container.

The first dust removing apparatus includes:

the dust remover is arranged at the top of the closed workshop;

the top dust suction pipe is arranged at the top of the inner wall of the closed workshop, and the outlet end of the top dust suction pipe is connected with a dust collection port of the dust remover through an air cylinder electromagnetic valve;

the side dust suction pipe is arranged on one side of the feed inlet of the container, and the outlet end of the side dust suction pipe is connected with a dust collection port at the bottom of the dust remover;

and the dust remover air exhaust pipeline is arranged outside the closed workshop, the inlet end of the dust remover air exhaust pipeline is connected with an air outlet of the dust remover, and the outlet end of the dust remover air exhaust pipeline is connected with the dust collection fan.

The first dust removing equipment further comprises an operating platform which is correspondingly arranged at the lower part of the side dust suction pipe and the dust remover, and the operating platform is connected through a ladder for equipment maintenance.

And the second dust removing equipment and the third dust removing equipment are both bag type dust collectors, and dust collecting pipes are arranged on air inlets of the second dust removing equipment, and the air inlets of the dust collecting pipes correspond to the inlet ends of the elevators.

The discharge frame comprises:

a walking frame;

and the overturning platform is arranged on the upper part of the walking frame, one end of the overturning platform is hinged with the corresponding end of the walking frame, and the other end of the overturning platform is connected with the walking frame in a matching way through a telescopic mechanism.

The material inlet of the hoister is connected with the bottom outlet end of a feed hopper arranged underground in the unloading workshop through a material conveying chute.

The number of the charging bins is four, the top of each charging bin is correspondingly connected with the discharging end of the elevator, and the bottom of each charging bin is provided with a material guide hopper; the outlet ends of any two material guide hoppers are connected with the car loader through Y-shaped material guide pipes and used for batching.

The beneficial effects of the utility model are that: the utility model utilizes a general loading and unloading distribution station and a plurality of sub loading and unloading distribution stations, the general loading and unloading distribution station plans the materials to be distributed and distributed, a transportation tank car transports the materials to the general loading and unloading distribution station, after a charging device is connected with the transportation tank car, the materials are transported into a container in a closed factory building, a first dust removing device sucks away the materials overflowed from a feed inlet of the container to prevent the powder from polluting the environment, the container 4 is hoisted into a train by a transporting device and transported to each sub loading and unloading distribution station, the container is transported into a discharging factory building by a discharging frame, and the materials in the container are discharged to enter an inlet end of a hoisting machine, the dust materials overflowed in the process are sucked away by a second dust removing device to prevent the powder from polluting the environment, the hoisting machine hoists the materials to transport the materials into a loading bin, when the materials enter the loading bin, because the loading bin is a closed container, in order to enable materials to enter smoothly, the air inside the materials must overflow, and when the materials overflow, the materials often emit dust together to cause environmental pollution, therefore, the third dust removal equipment is used for exhausting the materials in the charging bin, fly ash dust is absorbed completely, the materials enter the charging bin and then are stored in the charging bin, and when downstream units need the materials, a feed inlet of a transport tank car is connected with a loading machine, and then the materials are conveyed to the transport tank car. As a preferred technical solution, the first dust removing apparatus includes: dust remover, top dust absorption pipe and side dust absorption pipe will overflow respectively and scatter the dust and the dust near container feed inlet of closing the factory building upside, and the dust after the absorption gets into the dust remover, and the dust remover passes through dust remover exhaust pipe and is connected with the fan that gathers dust, and is clean with the dust filtration, and dust collection efficiency is high, and is effectual. As an optimal technical scheme, the second dust removing device and the third dust removing device are both bag type dust collectors, so that the dust removing effect is improved, and meanwhile, the use cost is reduced. As a preferred technical solution, the discharging frame comprises: walking frame and upset platform, telescopic machanism will overturn platform one end jack-up for the container is to the entrance point slope of lifting machine, and the material is emptyd and is got into the lifting machine, and is simple high-efficient, has improved work efficiency. As an optimal technical scheme, the charging bin is provided with four, the top of each charging bin is correspondingly connected with the discharging end of the elevator, the bottom of each charging bin is provided with the material guide hopper, the storage capacity of the bin is improved, and the outlet ends of any two material guide hoppers are connected with the car loader through Y-shaped material guide pipes in order to meet the batching requirements of downstream units on different materials.

Drawings

Fig. 1 is a schematic structural view of the final assembly and disassembly station of the present invention.

Figure 2 is a side view of the final loading and unloading station of the present invention.

Fig. 3 is a schematic structural view of the sub-loading and unloading distribution station of the present invention.

Fig. 4 is a schematic structural view of the material guiding hopper of the present invention.

Fig. 5 is a schematic structural view of the discharging frame of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in combination with the following embodiments. It should be understood that the description is intended for purposes of illustration only and is not intended to limit the scope of the present disclosure. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

A system for distributed containment of powdery and granular materials, comprising: a general loading and unloading distribution station and a plurality of sub loading and unloading distribution stations;

as shown in fig. 1 and 2, the total loading and unloading distribution station comprises: a closed factory building 13, wherein a container 4 for containing powdery and granular materials is placed inside; the feeding end of the charging equipment is arranged outside the closed workshop 13 and is connected with the discharge port of the transportation tank car, and the discharge end of the charging equipment corresponds to the feed port of the container 4; the first dust removing equipment is arranged in the closed factory building 13, an air suction port of the first dust removing equipment is correspondingly arranged on one side of the feed port of the container 4, and the first dust removing equipment is used for sucking away materials overflowed from the feed port of the container 4 when the materials are charged into the container 4, so that the environment pollution caused by powder materials is prevented;

as shown in fig. 3 and 5, the sub-loading and unloading distribution station includes: a discharge workshop 15; the second dust removal equipment 14 is arranged in the unloading factory building 15 and is used for sucking away overflowed materials during unloading so as to prevent powder from polluting the environment; the discharging frame 25 can transport the container 4 into the discharging workshop 15 and discharge the materials in the container 4; the elevator 18 is arranged on one side of the discharge workshop 15, and the inlet end of the elevator is arranged in the discharge workshop 15; and the charging bin 20 is arranged on one side of the elevator 18, the top feeding end of the charging bin is correspondingly connected with the discharging end of the elevator 18, and the bottom discharging end of the charging bin is provided with a car loader 21 for conveying materials to the transfer tank car.

As shown in FIG. 3, the sub-station further comprises a third dust-removing device 19 provided on top of the hopper 20.

As shown in fig. 1 and 2, a weighbridge 10 is provided in the closed building 13, and the container 4 is placed on the weighbridge 10 for controlling the loading amount.

As shown in fig. 1 and 2, the charging apparatus includes: two conveying pipelines 8, one is arranged outside the closed factory building 13, the other is arranged inside the closed factory building 13, the inlet ends of the two conveying pipelines 8 are both provided with a conveying allocating valve 9, the conveying allocating valve 9 is connected with the discharge port of the transport tank car through a suction device, and the outlet ends of the two conveying pipelines 8 are respectively arranged at two sides of the container 4; the conveying pipeline 8 arranged inside the closed plant 13 passes through the underground of the closed plant 13 from the outside of the closed plant 13 and is finally vertically arranged in the closed plant 13; the outlet ends of the two conveying pipelines 8 are provided with rotary conveying bodies 7 for rotating according to the position of the feeding hole of the container 4.

As shown in fig. 1 and 2, the first dust removing apparatus includes: the dust remover 1 is arranged at the top of the closed workshop 13; the top dust suction pipe 24 is arranged at the top of the inner wall of the closed workshop 13, and the outlet end of the top dust suction pipe is connected with a dust collection port of the dust remover 1 through the cylinder electromagnetic valve 5; the side dust suction pipe 6 is arranged at one side of the feed inlet of the container 4, and the outlet end of the side dust suction pipe is connected with a dust collection port at the bottom of the dust remover 1; and the dust collector exhaust duct 2 is arranged outside the closed workshop 13, the inlet end of the dust collector exhaust duct is connected with the exhaust outlet of the dust collector 1, and the outlet end of the dust collector exhaust duct is connected with the dust collection fan 3.

As shown in fig. 1 and 2, the first dust removing apparatus further comprises an operation platform 11, which is correspondingly arranged at the lower part of the side dust suction pipe 6 and the dust remover 1, and the operation platform 11 is connected with the ladder 12 for equipment maintenance.

As shown in fig. 3, the second dust removing device 14 and the third dust removing device 19 are both bag type dust collectors, and a dust suction pipe is arranged at an air inlet of the second dust removing device 14, and the air inlet of the dust suction pipe corresponds to the inlet end of the hoisting machine 18.

As shown in fig. 5, the discharge frame 25 includes: a walking frame; and the overturning platform is arranged on the upper part of the walking frame, one end of the overturning platform is hinged with the corresponding end of the walking frame, and the other end of the overturning platform is connected with the walking frame in a matching way through a telescopic mechanism.

As shown in FIG. 5, the inlet of the elevator 18 is connected to the bottom outlet of a hopper 16 placed under the floor of the discharge house 15 via a delivery chute 17.

As shown in fig. 3 and 4, four charging bins 20 are provided, the top of each charging bin 20 is correspondingly connected with the discharging end of the elevator 18, and the bottom of each charging bin 20 is provided with a material guide hopper 22; the outlet ends of any two material guiding hoppers 22 are connected with the car loader 21 through Y-shaped material guiding pipes 23 and used for batching.

The utility model discloses a general loading and unloading distribution station sets up in the material place of production, the overall planning allotment of being convenient for is gathered and dispersed, in operation, at first the transportation tank car transports the material to general loading and unloading distribution station in unison, the suction equipment of general loading and unloading distribution station is connected with the discharge gate of transportation tank car, open and carry allotment valve 9, and start dust remover 1 and dust collecting fan 3, the material gets into sealed factory building 13 from the transportation tank car through pipeline 8, carry into container 4, in this process, the material that spills over is siphoned away by top dust absorption pipe 24 and side dust absorption pipe 6, observe weighbridge 10, when the material in container 4 loads to the regulation tonnage, stop feeding, through the equipment of transporting on with the handling on the train, and transport each sub-loading and unloading distribution station, in sub-loading and unloading distribution station, hoist container 4 on discharge frame 25 through handling equipment, utilize the walking frame, the unloading frame 25 is pulled into the unloading factory building 15, the second dust removing device 14 is firstly started, then the telescopic mechanism is started to enable the overturning platform to jack up one end of the container 4, so that the materials in the container 4 can be poured into the feed hopper 16, the materials enter the feed inlet of the lifting machine 18 through the conveying chute 17, the powder materials overflowed in the process are absorbed by the dust suction pipe of the second dust removing device 14, the lifting machine 18 is started, the lifting machine 18 lifts and conveys the materials into the charging bins 20, when the materials enter the charging bins 20, because the charging bins 20 are closed containers, in order to enable the materials to smoothly enter, the air in the charging bins must be overflowed, and when the air overflows, the dust materials are often discharged together to cause environmental pollution, therefore, when the third dust removing device 19 is used for exhausting the charging bins 20, the fly ash is completely absorbed, and the materials enter the charging bins 20, the storage is carried out in the charging bin 20, if downstream units have the batching demand, materials with different purposes or specifications can be loaded into different charging bins 20, the charging bin 20 provided with the Y-shaped material guide pipe 23 between the charging bins 20 is selected, the Y-shaped material guide pipe 23 is provided with flow rate and flow rate control equipment such as a flow valve and the like which are convenient for batching in proportion, so that the downstream batching demand is convenient, when the downstream units need to supply materials, a transport tank car enters the lower part of the charging bin 20, the loading machine 21 is connected with a feeding hole of the tank car, the materials enter the tank car, the loading is finished, when the materials need to be batched, the feeding hole of the tank car is connected with the loading machine 21 on the Y-shaped material guide pipe 23, the feeding amount is controlled by using the flow rate and flow rate control equipment, the batching is carried out in proportion, and after the loading is finished, the transport tank car transports the materials to the downstream units.

Wherein, in order to improve the working efficiency, the delivery chute 17 is selected from an air delivery chute, and the elevator 18 is connected with the top of each charging bin 20 through the air delivery chute, namely, after the elevator 18 lifts the material up, the material is sent into each charging bin 20 through the air delivery chute.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. The utility model provides a powdery and granular material collection and distribution supplies system which characterized in that includes: a general loading and unloading distribution station and a plurality of sub loading and unloading distribution stations;

the master load and unload dispensing station comprises:

a closed factory building (13) in which a container (4) for containing powdery and granular materials is placed;

the feeding end of the charging equipment is arranged outside the closed workshop (13) and is connected with the discharge hole of the transportation tank car, and the discharge end of the charging equipment corresponds to the feed hole of the container (4);

the first dust removing equipment is arranged in the closed factory building (13), an air suction port of the first dust removing equipment is correspondingly arranged on one side of a feed port of the container (4), and the first dust removing equipment is used for sucking away materials overflowed from the feed port of the container (4) when the containers (4) are charged, so that the environment pollution caused by powder materials is prevented;

the sub-load distribution station includes:

a discharge workshop (15);

the second dust removal equipment (14) is arranged in the unloading workshop (15) and is used for sucking away overflowed materials during unloading so as to prevent powder from polluting the environment;

the discharging frame (25) can transport the container (4) into a discharging workshop (15) and discharge the materials in the container (4);

the elevator (18) is arranged on one side of the unloading factory building (15), and the inlet end of the elevator is arranged in the unloading factory building (15);

the loading bin (20) is arranged on one side of the elevator (18), the top feeding end of the loading bin is correspondingly connected with the discharging end of the elevator (18), and the bottom discharging end of the loading bin is provided with a car loader (21) used for conveying materials to the transfer tank car.

2. A bulk storage and distribution system for powdered and granular materials according to claim 1, characterized by the fact that said sub-station further comprises a third dust-removing device (19) placed on top of the hopper (20).

3. The system for collecting, distributing and supplying powdery and granular materials according to claim 1, characterized in that a loadometer (10) is arranged in the closed factory building (13), and the container (4) is placed on the loadometer (10) for controlling the loading amount.

4. A bulk powder and granular material collection and distribution system according to claim 3, wherein said charging means comprises:

the two conveying pipelines (8), one is arranged outside the closed workshop (13), the other is arranged inside the closed workshop (13), the inlet ends of the two conveying pipelines (8) are respectively provided with a conveying and allocating valve (9), the conveying and allocating valves (9) are connected with the discharge port of the transportation tank car through suction equipment, and the outlet ends of the two conveying pipelines (8) are respectively arranged at two sides of the container (4);

the conveying pipeline (8) arranged inside the closed workshop (13) passes through the underground of the closed workshop (13) from the outside of the closed workshop (13) and is finally vertically arranged in the closed workshop (13); the outlet ends of the two conveying pipelines (8) are provided with rotary conveying bodies (7) for rotating according to the position of the feed inlet of the container (4).

5. The system of claim 1, wherein the first dust removing device comprises:

the dust remover (1) is arranged at the top of the closed workshop (13);

the top dust suction pipe (24) is arranged at the top of the inner wall of the closed workshop (13), and the outlet end of the top dust suction pipe is connected with a dust collection port of the dust remover (1) through an air cylinder electromagnetic valve (5);

the side dust suction pipe (6) is arranged on one side of the feed inlet of the container (4), and the outlet end of the side dust suction pipe is connected with a dust collection port at the bottom of the dust remover (1);

and the dust collector exhaust duct (2) is arranged outside the closed workshop (13), the inlet end of the dust collector exhaust duct is connected with the exhaust outlet of the dust collector (1), and the outlet end of the dust collector exhaust duct is connected with the dust collection fan (3).

6. The powder and particle material collecting, distributing, protecting and supplying system as claimed in claim 5, wherein the first dust removing device further comprises an operation platform (11) correspondingly arranged at the lower part of the side dust suction pipe (6) and the dust remover (1), and the operation platform (11) is connected through a ladder (12) for equipment maintenance.

7. The powder and granular material collecting, distributing, protecting and supplying system of claim 2, characterized in that the second dust removing device (14) and the third dust removing device (19) are both bag type dust collectors, and a dust suction pipe is arranged at the air inlet of the second dust removing device (14), and the air inlet of the dust suction pipe corresponds to the inlet end of the elevator (18).

8. A bulk powder and granular material collection and distribution system according to claim 1, wherein said discharge frame (25) comprises:

a walking frame;

and the overturning platform is arranged on the upper part of the walking frame, one end of the overturning platform is hinged with the corresponding end of the walking frame, and the other end of the overturning platform is connected with the walking frame in a matching way through a telescopic mechanism.

9. A bulk and distribution system for powdery and granular materials according to claim 1, characterized in that the inlet of the elevator (18) is connected to the bottom outlet of a feed hopper (16) placed under the discharge house (15) through a delivery chute (17).

10. The distributed powder and granular material supplying system according to claim 1, wherein the number of the charging bins (20) is four, the top of each charging bin (20) is correspondingly connected with the discharging end of the lifter (18), and the bottom of each charging bin (20) is provided with a material guiding hopper (22); the outlet ends of any two material guide hoppers (22) are connected with the car loader (21) through Y-shaped material guide pipes (23) and used for batching.

Images