CN214877311U

CN214877311U - Ammonia water dredging device for semi-coke bin

Info

Publication number: CN214877311U
Application number: CN202120373871.3U
Authority: CN
Inventors: 周海涛; 李习文; 党广社
Original assignee: Shenmu Calcium Carbide Group Energy Development Co ltd
Current assignee: Shenmu Calcium Carbide Group Energy Development Co ltd
Priority date: 2021-02-10
Filing date: 2021-02-10
Publication date: 2021-11-26
Anticipated expiration: 2031-02-10

Abstract

The utility model provides a blue charcoal feed bin aqueous ammonia is dredged device belongs to chemical product preparation technical field, and it includes blue charcoal feed bin, emergent discharge gate and blue charcoal feed opening, and emergent discharge gate and blue charcoal feed opening all communicate with the inner chamber of blue charcoal feed bin, and the below of emergent discharge gate is provided with the aqueous ammonia water catch bowl, aqueous ammonia water catch bowl and emergent discharge gate intercommunication. Can collect the aqueous ammonia that flows from emergent discharge gate through the aqueous ammonia water catch bowl, store the aqueous ammonia in the aqueous ammonia water catch bowl, avoided because emergent discharge gate is sealed not tight, the aqueous ammonia flows subaerial along emergent discharge gate, influences the condition of ground environment and takes place.

Description

Ammonia water dredging device for semi-coke bin

Technical Field

The utility model belongs to the technical field of chemical product preparation facilities, a blue charcoal preparation facilities technique is related to, specifically blue charcoal feed bin aqueous ammonia is dredged the device.

Background

In the semi-coke preparation process, semi-coke is required to be sprayed with cooling water in order to cool the semi-coke, the cooling water sprayed on the semi-coke reacts with the semi-coke to generate ammonia water, the cooling water spraying process is carried out before the semi-coke enters a large bunker, but the generated ammonia water and a semi-coke finished product enter a large semi-coke bunker for storage. Be provided with two discharge gates on blue big feed bin of charcoal, one is the discharge gate of normal work, and the other one is the emergent discharge gate when the discharge gate of normal work breaks down, because emergent discharge gate and blue big feed bin are sealed not tight, leads to the aqueous ammonia in the big feed bin of blue charcoal to flow along emergent discharge gate, flows subaerial, the polluted environment.

SUMMERY OF THE UTILITY MODEL

The aqueous ammonia that flows in the emergent discharge gate to above-mentioned blue big feed bin of charcoal can directly flow subaerial, influences the problem of ground environment, the utility model provides a blue charcoal feed bin aqueous ammonia is dredged the device, and it sets up the aqueous ammonia water catch bowl on emergent discharge gate, collects the aqueous ammonia in the aqueous ammonia collecting vat, and the aqueous ammonia that has solved emergent discharge gate directly flows subaerial, influences the problem of ground environment. The specific technical scheme is as follows:

blue charcoal feed bin aqueous ammonia is dredged device, including blue charcoal feed bin, emergent discharge gate and blue charcoal feed opening all communicate with the inner chamber of blue charcoal feed bin, the lower extreme of emergent discharge gate is provided with the aqueous ammonia water catch bowl, aqueous ammonia water catch bowl and emergent discharge gate intercommunication, the emergent discharge gate setting is at the lateral part of blue charcoal feed bin.

Further inject, the below of blue charcoal feed opening is provided with defeated material mechanism, defeated material mechanism is connected with blue charcoal drying furnace.

Further limiting, an ammonia water guide pipe is communicated with the ammonia water collecting tank, an outlet of the ammonia water guide pipe is opposite to the material conveying mechanism, and an included angle of 30-60 degrees is formed between the central axis of the ammonia water guide pipe and the central axis of the semi-coke feed opening.

Further inject, blue charcoal feed opening sets up in the bottom of blue charcoal feed bin, emergent discharge gate sets up on blue charcoal feed bin's lateral wall.

Further limiting, a feed opening valve is arranged at the semi-coke feed opening.

Further limiting, the feed opening valve is an electric liquid gate valve.

Further limit, defeated material mechanism is defeated material belt.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses blue charcoal feed bin aqueous ammonia is dredged device, it includes blue charcoal feed bin, emergent discharge gate and blue charcoal feed opening, and emergent discharge gate and blue charcoal feed opening all communicate with blue charcoal feed bin's inner chamber, are provided with the aqueous ammonia water catch bowl at the lower extreme of emergent discharge gate, and aqueous ammonia water catch bowl and emergent discharge gate intercommunication, emergent discharge gate setting are at the lateral part of blue charcoal feed bin. Can collect the aqueous ammonia that flows from emergent discharge gate through the aqueous ammonia water catch bowl, store the aqueous ammonia in the aqueous ammonia water catch bowl, avoided because emergent discharge gate is sealed not tight, the aqueous ammonia flows subaerial along emergent discharge gate, influences the condition of ground environment and takes place.

2. The ammonia water collecting tank is communicated with an ammonia water guide pipe, and the outlet of the ammonia water guide pipe is opposite to the material conveying mechanism. The ammonia water collected in the ammonia water collecting tank can be guided to the material conveying mechanism through the ammonia water guide pipe, is mixed with the semi-coke on the material conveying mechanism, and is conveyed to the semi-coke drying furnace for drying.

3. The semi-coke discharging opening is provided with a discharging opening valve, and the discharging flow of the semi-coke can be conveniently adjusted through the discharging opening valve.

Drawings

Fig. 1 is a schematic structural view of an ammonia water dredging device of a semi-coke bin of the present invention;

the device comprises a 1-semi-coke bin, a 2-emergency discharge port, a 3-ammonia water collecting tank, a 4-ammonia water guide pipe, a 5-conveying belt, a 6-feed port valve and a 7-semi-coke feed port.

Detailed Description

The technical solution of the present invention is further explained below with reference to the drawings and examples, but the present invention is not limited to the embodiments explained below.

The utility model discloses blue charcoal feed bin aqueous ammonia is dredged device, including blue charcoal feed bin 1, emergent discharge gate 2 and blue charcoal feed opening 7 all communicate with blue charcoal feed bin 1's inner chamber, and emergent discharge gate 2's lower extreme is provided with aqueous ammonia water catch bowl 3, aqueous ammonia water catch bowl 3 and emergent discharge gate 2 intercommunication, and emergent discharge gate 2 sets up the lateral part at blue charcoal feed bin 1. A material conveying mechanism is arranged below the semi-coke feed opening 7 and is connected with the semi-coke drying furnace. An ammonia water guide pipe 4 is communicated with the ammonia water collecting tank 3, the outlet of the ammonia water guide pipe 4 is opposite to the material conveying mechanism, and an included angle of 30-60 degrees is formed between the central axis of the ammonia water guide pipe 4 and the central axis of the semi-coke feed opening 7. Blue charcoal feed opening 7 sets up in the bottom of blue charcoal feed bin 1, and emergent discharge gate 2 sets up on blue charcoal feed bin 1's lateral wall. And a feed opening valve 6 is arranged at the semi-coke feed opening 7. The feed opening valve 6 is an electric liquid gate valve. The material conveying mechanism is a material conveying belt 5.

Example 1

Refer to fig. 1, the blue charcoal feed bin aqueous ammonia of this embodiment is dredged device, it includes blue charcoal feed bin 1, emergent discharge gate 2 and blue charcoal feed opening 7 all communicate with blue charcoal feed bin 1's inner chamber, blue charcoal feed opening 7 sets up under blue charcoal feed bin 1, emergent discharge gate 2 sets up on blue charcoal feed bin 1's lateral wall, be provided with feed opening valve 6 in blue charcoal feed opening 7 department, feed opening valve 6 is electronic liquid push-pull valve, defeated material mechanism is defeated material belt 5, defeated material mechanism is connected with blue charcoal drying furnace, the intercommunication has aqueous ammonia 3 on emergent discharge gate 2, aqueous ammonia collecting vat 3 sets up on the lower extreme face of emergent discharge gate 2, be 30 contained angles between the central axis of aqueous ammonia honeycomb duct 4 and the central axis of blue charcoal feed opening 7, aqueous ammonia water catch bowl 3 is hemispherical.

Example 2

Different from embodiment 1, this implementation blue charcoal feed bin aqueous ammonia is dredged device, and its defeated material mechanism is carried for the chain, and the intercommunication has aqueous ammonia honeycomb duct 4 on aqueous ammonia water catch bowl 3, and aqueous ammonia honeycomb duct 4 connects on the lower terminal surface of aqueous ammonia water catch bowl 3, and the export of aqueous ammonia honeycomb duct 4 just right with defeated material mechanism, is 60 contained angles between the central axis of aqueous ammonia honeycomb duct 4 and the central axis of blue charcoal feed opening 7. The rest is the same as in example 1.

Blue charcoal feed bin aqueous ammonia of this embodiment is dredged device, and it is when using, and the aqueous ammonia that flows from emergent discharge gate 2 can concentrate and collect in aqueous ammonia water catch bowl 3, and the aqueous ammonia of collecting in the aqueous ammonia catch bowl 3 passes through aqueous ammonia honeycomb duct 4 water conservancy diversion to defeated material mechanism on, aqueous ammonia and blue charcoal material mix on defeated material mechanism to carry to blue charcoal drying furnace in through defeated material mechanism, dry blue charcoal in blue charcoal drying furnace.

The material conveying mechanism of the utility model is not limited to conveying belt 6 and chain conveying, and any structural member can play a conveying role; the utility model discloses a feed opening valve 6 is not limited to electronic liquid push-pull valve and manual picture peg, and any structure that can play the effect of closing, adjusting blue charcoal feed bin or unloading flow all can, and the contained angle between the central axis of aqueous ammonia honeycomb duct 4 and blue charcoal feed opening 7 can be according to actual adjustment to be not limited to the angle that above-mentioned embodiment was injectd.

Claims

1. Blue charcoal feed bin aqueous ammonia is dredged device, including blue charcoal feed bin (1), emergent discharge gate (2) and blue charcoal feed opening (7) all communicate with the inner chamber of blue charcoal feed bin (1), its characterized in that, the lower extreme of emergent discharge gate (2) is provided with aqueous ammonia water catch bowl (3), aqueous ammonia water catch bowl (3) and emergent discharge gate (2) intercommunication, emergent discharge gate (2) set up the lateral part at blue charcoal feed bin (1).

2. The semi-coke bunker ammonia water dredging device as claimed in claim 1, characterized in that a material conveying mechanism is arranged below the semi-coke feed opening (7), and the material conveying mechanism is connected with a semi-coke drying furnace.

3. The semi-coke bunker ammonia water dredging device as claimed in claim 2, characterized in that the ammonia water collecting tank (3) is communicated with an ammonia water guide pipe (4), an outlet of the ammonia water guide pipe (4) is opposite to the material conveying mechanism, and an included angle of 30-60 degrees is formed between the central axis of the ammonia water guide pipe (4) and the central axis of the semi-coke feed opening (7).

4. The semi-coke bin ammonia water dredging device according to any one of claims 1-3, characterized in that the semi-coke feed opening (7) is arranged at the bottom of the semi-coke bin (1), and the emergency discharge opening (2) is arranged on the side wall of the semi-coke bin (1).

5. The semi-coke bunker ammonia water dredging device of claim 4, characterized in that a feed opening valve (6) is arranged at the semi-coke feed opening (7).

6. The semi-coke bunker ammonia water dredging device as claimed in claim 5, characterized in that the feed opening valve (6) is an electric liquid gate valve.

7. The semi-coke silo ammonia water dredging device as claimed in claim 2 or 3, characterized in that the material conveying mechanism is a material conveying belt (5).