CN208897897U - Outbound cement transportation device intercommunicating structure - Google Patents

Abstract

The utility model relates to a kind of outbound cement transportation device intercommunicating structures.Including front-seat cement bunker, intermediate cement bunker, heel row cement bunker, front bucket elevator, intermediate bucket elevator, rear portion bucket elevator, first feed bin, second feed bin, third feed bin and the 4th feed bin, front-seat cement bunker, intermediate cement bunker, heel row cement bunker passes through front-seat outbound skewed slot respectively, intermediate outbound skewed slot, heel row outbound skewed slot is connect with intermediate bucket elevator, front-seat outbound skewed slot, intermediate outbound skewed slot, the first distribution box is respectively arranged on heel row outbound skewed slot, second distribution box, third distribution box, the sub-material mouth of first distribution box and third distribution box passes through the short skewed slot of the first sub-material respectively and the short skewed slot of third sub-material is connect with front bucket elevator and rear portion bucket elevator, the sub-material mouth of second distribution box is connect by the first tube seat component with third distribution box.The utility model structure is simple, avoids outbound bucket elevator from breaking down and generates shutdown, keeps shipping more smooth, improve production efficiency.

Description

Outbound cement transportation device intercommunicating structure

Technical field

The utility model relates to technical field of cement production, specifically a kind of outbound cement transportation device intercommunicating structure.

Background technique

In cement shipping systems, cement bunker is docked by outbound skewed slot with corresponding outbound bucket elevator, and is mentioned by bucket Machine and skewed slot in bulk give corresponding feed bin for ash, and the outbound bucket elevator of corresponding cement bunker is frequently necessary to safeguard and overhaul, and work as outbound When bucket elevator needs to safeguard or overhaul, corresponding outbound skewed slot is just unable to operate normally, thus will be directly affected and be given outbound skewed slot The shipping of the cement bunker of feed produces.

Utility model content

The utility model aims to solve the problem that the above problem, so that it is simple to provide a kind of structure, avoid outbound bucket elevator occur therefore Hinder and generate shutdown, makes shipping more smoothly outbound cement transportation device intercommunicating structure.

The utility model solves described problem, the technical solution adopted is that:

A kind of outbound cement transportation device intercommunicating structure, including it is front-seat cement bunker, intermediate cement bunker, heel row cement bunker, preceding Portion's bucket elevator, intermediate bucket elevator, rear portion bucket elevator, the first feed bin, the second feed bin, third feed bin and the 4th feed bin, front bucket mention Machine is connect by front-seat skewed slot in bulk with the first feed bin, the second feed bin, third feed bin, and intermediate bucket elevator passes through bulk mesophase skewed slot It is connect with the first feed bin, the second feed bin, third feed bin, the 4th feed bin, rear portion bucket elevator passes through heel row skewed slot in bulk and the first material Storehouse, the second feed bin, the connection of third feed bin, front-seat cement bunker, intermediate cement bunker, heel row cement bunker are oblique by front-seat outbound respectively Slot, intermediate outbound skewed slot, heel row outbound skewed slot are connect with intermediate bucket elevator, front-seat outbound skewed slot, intermediate outbound skewed slot, rear discharge The first distribution box, the second distribution box, third distribution box, point of the first distribution box and third distribution box are respectively arranged on the skewed slot of library Material mouth passes through the short skewed slot of the first sub-material respectively and the short skewed slot of third sub-material is connect with front bucket elevator and rear portion bucket elevator, and second point The sub-material mouth of hopper is connect by the first tube seat component with third distribution box.

The utility model by adopting the above technical scheme, compared with prior art, the feature protruded is:

Structure is simple, avoids outbound bucket elevator from breaking down and generates shutdown, keeps shipping more smooth, improves production effect Rate.

Preferably, the further technical solution of the utility model is:

First tube seat component includes that sequentially connected 90 ° of bend pipes, the short skewed slot of the second sub-material, 120 ° of bend pipes, the first sub-material are long Skewed slot, 90 ° of bend pipes are connect with the sub-material mouth of the second distribution box, and the long skewed slot of the first sub-material is connect with third distribution box.

The 4th distribution box is provided on heel row skewed slot in bulk, the sub-material mouth of the 4th distribution box is by the second tube seat component in Between skewed slot in bulk connection, when the failure of intermediate bucket elevator needs maintenance down, the material ash of heel row cement bunker passes through rear portion bucket The machine of mentioning is delivered to heel row skewed slot in bulk, and the material ash on heel row skewed slot in bulk leads to during the 4th distribution box and the second tube seat component be delivered to Between skewed slot in bulk, thus will material ash send to the 4th feed bin.

Second tube seat component includes 100 ° of bend pipes and the long skewed slot of the second sub-material, the feed end and the 4th distribution box of 100 ° of bend pipes The connection of sub-material mouth, the discharge end of 100 ° of bend pipes connect with the feed end of the long skewed slot of the second sub-material, the long skewed slot of the second sub-material out Material end is connect with bulk mesophase skewed slot.

First distribution box, the second distribution box, third distribution box, the 4th distribution box are three through slots, and two of three through slots go out Material mouth is provided with electric brake plate valve.

Front-seat cement bunker includes the first cement bunker, the 4th cement bunker connecting with front-seat outbound skewed slot, intermediate cement bunker packet The second cement bunker, the 5th cement bunker connecting with intermediate outbound skewed slot are included, heel row cement bunker includes connecting with heel row outbound skewed slot Third cement bunker, the 6th cement bunker.

Detailed description of the invention

Fig. 1 is the utility model embodiment structural schematic diagram；

Fig. 2 is the partial enlargement structural representation of A in Fig. 1；

Fig. 3 is the partial enlargement structural representation of B in Fig. 1；

In figure: the first cement bunker 1；Second cement bunker 2；Third cement bunker 3；4th cement bunker 4；5th cement bunker 5；6th Cement bunker 6；Front-seat outbound skewed slot 7；Intermediate outbound skewed slot 8；Heel row outbound skewed slot 9；Front-seat skewed slot 10 in bulk；Bulk mesophase skewed slot 11；Heel row skewed slot 12 in bulk；First feed bin 13；Second feed bin 14；Third feed bin 15；4th feed bin 16；Front bucket elevator 17；In Between bucket elevator 18；Rear portion bucket elevator 19；First distribution box 20；Second distribution box 21；Third distribution box 22；The short skewed slot of first sub-material 23；The short skewed slot 24 of second sub-material；The short skewed slot 25 of third sub-material；90 ° of bend pipes 26；120 ° of bend pipes 27；The long skewed slot 28 of first sub-material；Electricity Dynamic slide valve 29；4th distribution box 30；100 ° of bend pipes 31；The long skewed slot 32 of second sub-material.

Specific embodiment:

Below with reference to embodiment, the utility model is described in further detail, and purpose, which is only that, more fully understands the utility model Content, therefore, the cited case are not intended to limit the protection scope of the utility model.

Referring to Fig. 1, Fig. 2, Fig. 3, a kind of outbound cement transportation device intercommunicating structure, including front-seat cement bunker, intermediate cement Library, heel row cement bunker, front bucket elevator 17, intermediate bucket elevator 18, rear portion bucket elevator 19, the first feed bin 13, the second feed bin 14, the Three feed bins 15 and the 4th feed bin 16, front bucket elevator 17 pass through front-seat skewed slot 10 in bulk and the first feed bin 13, the second feed bin 14, the The connection of three feed bins 15, intermediate bucket elevator 18 pass through bulk mesophase skewed slot 11 and the first feed bin 13, the second feed bin 14, third feed bin 15, the 4th feed bin 16 connects, and rear portion bucket elevator 19 passes through heel row skewed slot 12 in bulk and the first feed bin 13, the second feed bin 14, third Feed bin 15 connects, and front-seat cement bunker, intermediate cement bunker, heel row cement bunker pass through front-seat outbound skewed slot 7, intermediate outbound skewed slot respectively 8, heel row outbound skewed slot 9 connect with intermediate bucket elevator 18, front-seat outbound skewed slot 7, centre outbound skewed slot 8, on heel row outbound skewed slot 9 It is respectively arranged with the first distribution box 20, the second distribution box 21, third distribution box 22, the first distribution box 20 and third distribution box 22 Sub-material mouth passes through the short skewed slot 23 of the first sub-material and the short skewed slot 25 of third sub-material and front bucket elevator 17 and rear portion bucket elevator 19 respectively The sub-material mouth of connection, the second distribution box 21 is connect by the first tube seat component with third distribution box 22.

First tube seat component includes sequentially connected 90 ° of bend pipes 26, the second sub-material 24,120 ° of bend pipes 27, first of short skewed slot Sub-material 28,90 ° of bend pipes 26 of long skewed slot are connect with the sub-material mouth of the second distribution box 21, the long skewed slot 28 of the first sub-material and third distribution box 22 connections.

The 4th distribution box 30 is provided on heel row skewed slot 12 in bulk, the sub-material mouth of the 4th distribution box 30 passes through the second tube seat group Part is connect with bulk mesophase skewed slot 11, when the failure of intermediate bucket elevator 18 needs maintenance down, the material ash of heel row cement bunker It is delivered to heel row skewed slot 12 in bulk by rear portion bucket elevator 19, the material ash on heel row skewed slot 12 in bulk leads to the 4th distribution box 30 and the Two tube seat components are delivered to bulk mesophase skewed slot 11, to sending material ash to the 4th feed bin 16.

Second tube seat component includes the feed end and the 4th of 100 ° of bend pipes 31 and long 32, the 100 ° of bend pipes 31 of skewed slot of the second sub-material The sub-material mouth of distribution box 30 connects, and the discharge end of 100 ° of bend pipes 31 is connect with the feed end of the long skewed slot 32 of the second sub-material, and second point Expect that the discharge end of long skewed slot 32 is connect with bulk mesophase skewed slot 11.

First distribution box 20, the second distribution box 21, third distribution box 22, the 4th distribution box 23 are three through slots, three through slots Two discharge ports be provided with electric brake plate valve 29.

Front-seat cement bunker includes the first cement bunker 1, the 4th cement bunker 4 connecting with front-seat outbound skewed slot 7, intermediate cement bunker Including the second cement bunker 2, the 5th cement bunker 5 connecting with intermediate outbound skewed slot 8, heel row cement bunker includes and heel row outbound skewed slot Third cement bunker 3, the 6th cement bunker 6 of 9 connections.

The utility model structure is simple, when a certain bucket elevator failure needs maintenance down, can be struggled against by other Machine operation is proposed for ash, avoids outbound bucket elevator from breaking down and generates shutdown, keep shipping more smooth, improve production efficiency.

The above is only the preferred feasible embodiment of the utility model, not thereby limits to the power of the utility model Sharp range, it is all with equivalence changes made by the utility model specification and its accompanying drawing content, it is both contained in the utility model Within interest field.

Claims (6)

1. a kind of outbound cement transportation device intercommunicating structure, including front-seat cement bunker, intermediate cement bunker, heel row cement bunker, front Bucket elevator, intermediate bucket elevator, rear portion bucket elevator, the first feed bin, the second feed bin, third feed bin and the 4th feed bin, front bucket elevator Connect by front-seat skewed slot in bulk with the first feed bin, the second feed bin, third feed bin, intermediate bucket elevator pass through bulk mesophase skewed slot and First feed bin, the second feed bin, third feed bin, the connection of the 4th feed bin, rear portion bucket elevator by heel row skewed slot in bulk and the first feed bin, Second feed bin, the connection of third feed bin, it is characterised in that: front-seat cement bunker, intermediate cement bunker, heel row cement bunker pass through front row respectively Outbound skewed slot, intermediate outbound skewed slot, heel row outbound skewed slot are connect with intermediate bucket elevator, front-seat outbound skewed slot, centre outbound skewed slot, The first distribution box, the second distribution box, third distribution box, the first distribution box and third sub-material are respectively arranged on heel row outbound skewed slot The sub-material mouth of case passes through the short skewed slot of the first sub-material respectively and the short skewed slot of third sub-material is connect with front bucket elevator and rear portion bucket elevator, The sub-material mouth of second distribution box is connect by the first tube seat component with third distribution box.

2. outbound cement transportation device intercommunicating structure according to claim 1, it is characterised in that: the first tube seat component includes Sequentially connected 90 ° of bend pipes, the short skewed slot of the second sub-material, 120 ° of bend pipes, the long skewed slot of the first sub-material, 90 ° of bend pipes and the second distribution box The connection of sub-material mouth, the long skewed slot of the first sub-material connect with third distribution box.

3. outbound cement transportation device intercommunicating structure according to claim 1, it is characterised in that: set on heel row skewed slot in bulk It is equipped with the 4th distribution box, the sub-material mouth of the 4th distribution box is connect by the second tube seat component with bulk mesophase skewed slot.

4. outbound cement transportation device intercommunicating structure according to claim 3, it is characterised in that: the second tube seat component includes 100 ° of bend pipes and the long skewed slot of the second sub-material, the feed end of 100 ° of bend pipes are connect with the sub-material mouth of the 4th distribution box, 100 ° of bend pipes Discharge end is connect with the feed end of the long skewed slot of the second sub-material, and the discharge end of the long skewed slot of the second sub-material is connect with bulk mesophase skewed slot.

5. outbound cement transportation device intercommunicating structure according to claim 1 or 3, it is characterised in that: the first distribution box, Two distribution boxes, third distribution box, the 4th distribution box are three through slots, and two discharge ports of three through slots are provided with electric flashboard Valve.

6. outbound cement transportation device intercommunicating structure according to claim 1, it is characterised in that: front-seat cement bunker include with The first cement bunker, the 4th cement bunker of front-seat outbound skewed slot connection, intermediate cement bunker include the connect with centre outbound skewed slot Two cement bunkers, the 5th cement bunker, heel row cement bunker include the third cement bunker connecting with heel row outbound skewed slot, the 6th cement bunker.