CN203095197U - Discharging system - Google Patents

Abstract

The utility model relates to a discharging system which comprises a storage hopper provided with a feed inlet and a discharge outlet. Particularly, the discharging system further comprises a dust removing device. The dust removing device comprises a dust collector, an air inlet mechanism and an air inlet guide pipe. The dust collector is provided with an air inlet, an air outlet and an ash discharge outlet. The air inlet mechanism is arranged on the storage hopper. The air inlet guide pipe is used for communicating the air inlet mechanism and the air inlet. The air inlet mechanism comprises a dust blocking membrane which is arranged at the feed inlet of the storage hopper and forms a hollow interlayer with the inner wall of the storage hopper. The upper end of the hollow interlayer is closed, and the lower end of the hollow interlayer is open. The air inlet mechanism further comprises a plurality of air inlet pipes, and two end portions of each air inlet pipe are respectively communicated with the hollow interlayer and the air inlet guide pie. The discharging system is capable of reducing dust discharge from the edge of the feed inlet of the storage hopper into the atmosphere, and reduces pollution of the dust to the air. Meanwhile, the dust collector is used for collecting material particles in the dust, and consequently material losses are reduced, and cost is saved.

Description

A kind of discharging system

Technical field

The utility model relates to a kind of discharging system.

Background technology

Discharging system as its name suggests, is transferred to warehouse with goods from some transportation devices exactly, all instruments of using in the whole operation process.For example, the harbour discharging system, it comprises loop wheel machine, storaging bucket, load-transfer device and gig.

When harbour is unloaded, especially in unloading during powder, the easiest pollution that causes environment.Its mainly be by loop wheel machine with the whole bag of powder with getting hold of, put into hopper, and then deliver to gig by load-transfer device, lifting is put in storage.In whole unloading process, because the production of powder must guarantee the drying of material, there is a certain amount of powder unavoidably in the dry material, in the loop wheel machine operating process, when powder with getting hold of, when putting into storaging bucket, air in the storaging bucket is up arranged, and air-flow gets up the powder belt in the powder, produces dust, part dust is arranged to atmosphere from the feed hole edges of storaging bucket, another part dust is along with the conveying of powder, and row makes whole harbour be in dusky state to atmosphere on load-transfer device, gross pollution the air of dock area, bring harm for the person of the operating personal of unloading.Yet at this problem, dust boot has been installed by most producers on load-transfer device, has stoped the dust that is in powder on the load-transfer device directly to airborne release, can improve the discharging of part dust in the course of conveying, but dust removing effects is still thorough inadequately.Promptly polluted environment, simultaneously, powder is in the process of transportation, and a spot of powder particle and dust are arranged together to atmosphere, have also caused the loss of material, the waste resource.

Summary of the invention

Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, a kind of improved discharging system is provided, it can reduce dust and arrange to atmosphere from the feed hole edges of storaging bucket, and the dust boot on being arranged on load-transfer device, when reducing unloading, dust is to the pollution of air, simultaneously by the material particles in the dust-precipitator collection dust, reduce the loss of material, save cost.

For solving the problems of the technologies described above, the utility model is taked following technical scheme:

A kind of discharging system, it comprises the storaging bucket with inlet point and discharging opening, particularly, discharging system also comprises dust collector, this dust collector comprises having admission port, the dust-precipitator of air extractor duct and dust inlet, be arranged on the air inlet mechanism on the storaging bucket, be used for air intake conduit that air inlet mechanism is connected with admission port, air inlet mechanism comprise the inlet point place that is arranged on storaging bucket and and the inwall of storaging bucket between form the dust-break mould of hollow interlayer, described hollow interlayer upper end closed, the lower end is opened wide, and air inlet mechanism also comprises the many blast pipes that both ends are connected with hollow interlayer and air intake conduit respectively.

Preferably, many blast pipes are along the circumferential rectangular distribution of storaging bucket.

More preferably, the inlet point of storaging bucket is a square.

Preferably, on four sidewalls of storaging bucket, be connected with at least one blast pipe respectively.Wherein be connected with two blast pipes on each sidewall for most preferably.

According to concrete enforcement and preferred aspect of the utility model, the air intake conduit comprises first guide duct that is connected with the admission port of dust-precipitator, along second guide duct of the circumferential setting of storaging bucket, second guide duct is connected with first guide duct and Duo Gen blast pipe respectively.

Preferably, a side of second guide duct disconnects, two port closed settings after the disconnection, and further, the air intake conduit also comprises and is used for disconnecting the blast pipe of side and the 3rd guide duct that second guide duct is connected with being positioned at second guide duct.

According to another concrete enforcement and preferred aspect of the utility model, discharging system also comprises blower fan and the chimney that is communicated with air inlet mechanism.

Preferably, the air extractor duct of dust-precipitator is connected with chimney by freeing pipe, and the air intake port of blower fan and air-out port are connected with air extractor duct and freeing pipe respectively.

In addition, the discharging system of the present utility model dust boot that also comprises the load-transfer device that is used for conveying articles and be located at load-transfer device top.

Preferably, the air intake conduit also is communicated with the inner space that dust boot limits.

Because adopt the enforcement of above technical scheme, the utility model compared with prior art has following advantage:

The utility model can reduce dust to be arranged to atmosphere from the feed hole edges of storaging bucket, reduces the pollution of dust to air, by the material particles in the dust-precipitator collection dust, reduces the loss of material simultaneously, the saving cost.

Description of drawings

Below in conjunction with specific embodiment, the utility model is described in more detail.

Fig. 1 is the structural representation of the utility model discharging system;

Fig. 2 overlooks enlarged diagram for local structure among Fig. 1;

Wherein: 1, storaging bucket; 10, inlet point; 11, discharging opening; 2, dust-precipitator; 20, admission port; 21, air extractor duct; 22, dust inlet; 3, air inlet mechanism; 30, dust-break mould; 31, blast pipe; 4, air intake conduit; 40, first guide duct; 41, second guide duct; 42, the 3rd guide duct; 5, hollow interlayer; 6, blower fan; 7, freeing pipe; 8, chimney.

The specific embodiment

As depicted in figs. 1 and 2, present embodiment provides a kind of discharging system, and it comprises loop wheel machine, storaging bucket 1, dust collector, blower fan 6, load-transfer device, dust boot, gig and chimney 8.

Above-mentioned storaging bucket 1 has inlet point 10 and discharging opening 11, and the inlet point 10 of storaging bucket 1 is a square; Dust collector, it comprise have admission port 20, the dust-precipitator of air extractor duct 21 and dust inlet 22, be arranged on the air inlet mechanism 3 on the storaging bucket 1, be used for the air intake conduit 4 that air inlet mechanism 3 is connected with admission port 20.Concrete air inlet mechanism 3 comprise inlet point 10 places that are arranged on storaging bucket 1 and with the inwall of storaging bucket 1 between form the dust-break mould 30 of hollow interlayer 5, the many blast pipes 31 that both ends are connected with hollow interlayer 5 and air intake conduit 4 respectively, hollow interlayer 5 upper end closeds wherein, the lower end is opened wide.

Above-mentioned many blast pipes 31 are along the circumferential rectangular distribution of storaging bucket 1.Blast pipe 31 has eight, and eight blast pipes 31 be evenly distributed in storaging bucket 1 around.

Air intake conduit 4 comprises first guide duct 40 that is connected with the admission port 20 of dust-precipitator 2, is connected with first guide duct 40 and Duo Gen blast pipe 31 respectively along second guide duct, 41, the second guide ducts 41 of the circumferential setting of storaging bucket 1.

In this example, a side of second guide duct 41 disconnects, and two port closed settings after the disconnection prevent loop wheel machine when work, maloperation and run into storaging bucket 1, and cause 41 gas leakage of second guide duct.Further, air intake conduit 4 also comprise be used for will be positioned at second guide duct 41 disconnect the blast pipe 31 of sides and the 3rd guide duct 42 that second guide duct 41 is connected.

In this example, the air extractor duct 21 of dust-precipitator 2 is connected with chimney 8 by freeing pipe 7, simultaneously for the more effective dust sucking-off that will be in the hollow interlayer 5, blower fan 6 is connected with air inlet mechanism 3, the concrete air intake port with blower fan 6 is connected with the air extractor duct 21 of dust-precipitator 2, the air-out port is connected with freeing pipe 7, and so not only favourable dust is drawn to the dust-precipitator 2 from hollow interlayer 5, but also the discharge of waste gas in the favourable dust-precipitator 2.

In addition, the dust boot that discharging system of the present utility model also comprises the load-transfer device that is used for conveying articles and covers on load-transfer device top is not (though figure shows, but be easy to expect), be communicated with the inner space that dust boot limits by air intake conduit 4 again, in the dust collecting fan 2 that the dust that is in the inner space of dust boot qualification can be led.

The concrete enforcement of present embodiment is as follows:

By loop wheel machine, goods with getting hold of, is put into storaging bucket, and then deliver to gig by load-transfer device, promote warehouse-in.At goods when storaging bucket is put in grab bucket, air in the storaging bucket is up arranged, air-flow gets up the powder belt in the goods, produce dust, part dust row is in the hollow interlayer of dust-break mould and storaging bucket formation, then, the dust that flows flows to the air intake conduit from the blast pipe that is connected with hollow interlayer, by the air intake conduit dust that flows is imported in the dust-precipitator from the admission port of dust-precipitator again, further, by the purification of dust-precipitator, the particle in the dust all is collected in the dust-precipitator, waste gas in the dust is arranged to chimney from the air extractor duct of dust-precipitator, thereby row is to atmosphere; Another part dust is along with goods, deliver on the load-transfer device from the discharging opening of storaging bucket, under the effect of dust boot, with the inner space of dust collection, simultaneously in the dust boot qualification, again by the air intake conduit, to be in the dust guiding dust-precipitator of the inner space that dust boot limits, by the purification of dust-precipitator, the particle in the dust all is collected in the dust-precipitator then, waste gas in the dust is arranged to chimney from the air extractor duct of dust-precipitator, thereby row is to atmosphere.Be collected in the particle in the dust-precipitator, discharge, directly can use it from the dust inlet of dust-precipitator, thus the loss of reduction material, energy savings.

In sum, this routine discharging system is communicated with the hollow interlayer that dust-break mould and storaging bucket constitute by air inlet mechanism and air intake conduit with dust-precipitator, reducing dust arranges to atmosphere from the feed hole edges of storaging bucket, and by inner space and the dust-precipitator connection of air intake conduit with dust boot, when reducing unloading, dust is to the pollution of air, simultaneously, material particles by in the dust-precipitator collection dust reduces the loss of material, saves cost.

More than the utility model has been done detailed description; its purpose is to allow the personage that is familiar with this art can understand content of the present utility model and is implemented; can not limit protection domain of the present utility model with this; all equivalences of doing according to spirit of the present utility model change or modify, and all should be encompassed in the protection domain of the present utility model.

Claims (10)

1. discharging system, it comprises the storaging bucket (1) of have inlet point (10) and discharging opening (11), it is characterized in that: described discharging system also comprises dust collector, described dust collector comprises having admission port (20), the dust-precipitator (2) of air extractor duct (21) and dust inlet (22), be arranged on the air inlet mechanism (3) on the described storaging bucket (1), be used for air intake conduit (4) that described air inlet mechanism (3) is connected with described admission port (20), described air inlet mechanism (3) comprise that the inlet point (10) that is arranged on described storaging bucket (1) is located and and the inwall of described storaging bucket (1) between form the dust-break mould (30) of hollow interlayer (5), described hollow interlayer (5) upper end closed, the lower end is opened wide, and described air inlet mechanism (3) also comprises the many blast pipes (31) that both ends are connected with described hollow interlayer (5) and described air intake conduit (4) respectively.

2. discharging system according to claim 1 is characterized in that: described many blast pipes (31) are along the circumferential rectangular distribution of described storaging bucket (1).

3. discharging system according to claim 1 and 2 is characterized in that: the inlet point (10) of described storaging bucket (1) is a square.

4. discharging system according to claim 3 is characterized in that: be connected with at least one described blast pipe (31) respectively on four sidewalls of described storaging bucket (1).

5. discharging system according to claim 1, it is characterized in that: described air intake conduit (4) comprises first guide duct (40) that is connected with the admission port (20) of described dust-precipitator (2), along second guide duct (41) of the circumferential setting of described storaging bucket (1), and described second guide duct (41) is connected with described first guide duct (40) and described many blast pipes (31) respectively.

6. discharging system according to claim 5, it is characterized in that: a side of described second guide duct (41) disconnects, two port closed settings after the disconnection, described air intake conduit (4) also comprise and are used for disconnecting the described blast pipe (31) of side and the 3rd guide duct (42) that described second guide duct (41) is connected with being positioned at described second guide duct (41).

7. discharging system according to claim 1 is characterized in that: described discharging system also comprises the blower fan (6) that is communicated with described air inlet mechanism (3).

8. discharging system according to claim 7, it is characterized in that: described dust collector also includes chimney (8), the air extractor duct (20) of described dust-precipitator (2) is connected with described chimney (8) by freeing pipe (7), and the air intake port of described blower fan (6) and air-out port are connected with described air extractor duct (20) and described freeing pipe (7) respectively.

9. discharging system according to claim 1 is characterized in that: the dust boot that described discharging system also comprises the load-transfer device that is used for conveying articles and is located at described load-transfer device top.

10. discharging system according to claim 9 is characterized in that: described air intake conduit (4) also is communicated with the inner space that described dust boot limits.

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