CN211640497U

CN211640497U - Premixed concrete feeding system

Info

Publication number: CN211640497U
Application number: CN201821895990.XU
Authority: CN
Inventors: 王新泉
Original assignee: Hangzhou Jiangrun Technology Co Ltd
Current assignee: Fujian Hengchao Construction Development Co., Ltd
Priority date: 2018-11-16
Filing date: 2018-11-16
Publication date: 2020-10-09
Anticipated expiration: 2028-11-16

Abstract

The utility model relates to a premixed concrete feeding system, which comprises a conveyor belt, a high-level proportioning bin, a stirring bin and a discharging bin; the material bin is sequentially provided with a high-position proportioning bin, a stirring bin and a discharging bin in a layering mode from top to bottom, the conveying belt extends upwards to the high-position proportioning bin, and the material bin and the conveying belt are supported by supporting columns; a bidirectional conveying belt is arranged in the high-level batching bin, a storage tank and a scale are arranged on one side of the bidirectional conveying belt, a conveying hole is formed in the other side of the bidirectional conveying belt, and batching is filled in the storage tank; a water storage barrel is arranged in the stirring bin, a tap water pipe and a faucet are arranged above the water storage barrel, and a scale is arranged on one side of the water storage barrel. The utility model has the advantages that: the utility model discloses placed two-way conveyer belt in high-order proportioning bins, on two-way conveyer belt was put to the material that the staff will weigh, during the staff can empty the material on the two-way conveyer belt into the hole on the delivery port next door, this process staff need not to reciprocate to walk about and can accomplish the supply of each item material of concrete.

Description

Premixed concrete feeding system

Technical Field

The utility model relates to a concrete building field, in particular to premixed concrete feeding system.

Background

At present, concrete is generally produced on a mixing building, an aggregate bin is arranged on the top layer of the mixing building, and aggregates can directly enter a mixer for mixing after being metered. Compared with the traditional mixing plant, the construction efficiency is improved by about one fifth. The aggregate storehouse at traditional stirring station is below, and the aggregate measurement back needs to use lifting means to transport the aggregate in the mixer, can't directly get into the mixer. Although the construction efficiency of the mixing plant is greatly improved compared with the traditional mixing plant, the production flow in the mixing plant still has an optimized space. The aggregate bin that stirs upstairs only corresponds a mixer usually, if set up many mixers simultaneous workings, need divide a plurality of aggregate bins in the mixer top to need the staff to make a round trip to carry different aggregates, this kind of method efficiency of construction is lower, consumes the manpower.

Therefore, it is very important to find a premixed concrete feeding system with high efficiency and labor saving.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough among the prior art, provide a premixed concrete feeding system.

The premixed concrete feeding system comprises a conveying belt, a high-level proportioning bin, a stirring bin and a discharging bin; the material bin is sequentially provided with a high-position proportioning bin, a stirring bin and a discharging bin in a layering mode from top to bottom, the conveying belt extends upwards to the high-position proportioning bin, and the material bin and the conveying belt are supported by supporting columns; a bidirectional conveying belt is arranged in the high-level batching bin, a storage tank and a scale are arranged on one side of the bidirectional conveying belt, a conveying hole is formed in the other side of the bidirectional conveying belt, and batching is filled in the storage tank; a water storage barrel is arranged in the stirring bin, a tap water pipe and a water faucet are arranged above the water storage barrel, a scale is arranged on one side of the water storage barrel, a transmission channel is arranged in the stirring bin corresponding to each conveying hole, and a stirrer is arranged below the transmission channel; a discharge hole is arranged in the discharge bin corresponding to each stirrer.

Preferably, the method comprises the following steps: coarse stones, medium stones, fine stones, coarse sand, medium sand, fine sand, fly ash and cement are respectively arranged in each storage tank, a conveying belt and a conveying hole are correspondingly arranged in each storage tank, and a scale is arranged between every two adjacent storage tanks.

The utility model has the advantages that:

1. the utility model discloses placed two-way conveyer belt in high-order proportioning bins, on two-way conveyer belt was put to the material that the staff will weigh, during the staff can empty the material on the two-way conveyer belt into the hole on the delivery port next door, this process staff need not to reciprocate to walk about and can accomplish the supply of each item material of concrete.

2. The utility model discloses refine each item material of concrete, the material includes coarse aggregate material, well building stones, fine stone material, coarse sand material, well sand material, fine sand material, fly ash, cement respectively, then prepares according to the best mix proportion in laboratory. Divide into sand material, building stones, fly ash, cement with the material with traditional concrete and compare, the utility model discloses a controllability is higher.

Drawings

FIG. 1 is a schematic illustration of a ready mix concrete feeding system;

fig. 2 is a sectional view a-a in fig. 1.

Description of reference numerals: 1-a conveyor belt; 2-coarse stone; 3-medium stone; 4-fine stone; 5, coarse sand; 6, medium sand; 7-fine sand; 8-a support column; 9-a delivery hole; 10-a bidirectional conveyor belt; 11-weighing; 12-high-level proportioning bins; 13-a transmission channel; 14, a stirrer; 15-a discharge hole; 16-fly ash; 17-cement; 18-a tap water pipe; 19-a water storage barrel; 20, a storage tank; 21-stirring bin; 22-discharge bin.

Detailed Description

The present invention will be further described with reference to the following examples. The following description of the embodiments is merely provided to aid in understanding the invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

The premixed concrete feeding system comprises a conveying belt 1, a high-level batching bin 12, a stirring bin 21 and a discharging bin 22; the material bin is sequentially provided with a high-position burdening bin 12, a stirring bin 21 and a discharging bin 22 in a layering mode from top to bottom, the conveying belt 1 extends upwards to the high-position burdening bin 12, and the material bin and the conveying belt 1 are supported by supporting columns 8; a bidirectional conveying belt 10 is arranged in the high-level batching bin 15, a storage tank 20 and a scale 11 are arranged on one side of the bidirectional conveying belt 10, a conveying hole 9 is formed in the other side of the bidirectional conveying belt 10, and batching is filled in the storage tank 20; a water storage barrel 19 is arranged in the stirring bin 21, a tap water pipe 18 and a water faucet are arranged above the water storage barrel 19, a scale 11 is arranged on one side of the water storage barrel 19, a transmission channel 13 is arranged in the stirring bin 21 corresponding to each conveying hole 9, and a stirrer 14 is arranged below the transmission channel 13; the discharging bin 22 is provided with a discharging hole 15 corresponding to each blender 14.

Each storage tank 20 is respectively filled with rough stones 2, medium stones 3, fine stones 4, coarse sand 5, medium sand 6, fine sand 7, fly ash 16 and cement 17, each storage tank 20 is correspondingly provided with a conveyor belt 1 and a conveying hole 9, and a scale 11 is arranged between the adjacent storage tanks 20.

The operation method of the ready-mixed concrete feeding system comprises the following steps:

(1) and (5) conveying the concrete material. The inclined conveyor belt 1 is used for conveying concrete materials (including coarse stones, medium stones, fine stones, coarse sand, medium sand, fine sand, fly ash and cement) to the high-level proportioning bin 12. There are 8 conveyor belts 1, which correspond to 8 concrete materials.

(2) And (5) measuring concrete materials. And calculating the mass of each material of the concrete according to the mixing ratio in a laboratory.

(3) And weighing concrete materials. A scale 11 is provided adjacent to the reservoir 20 for each material and the scale 11 is then used to accurately weigh the mass calculated by laboratory proportioning.

(4) And (4) distributing concrete materials. The weighed concrete material is placed on the bi-directional conveyor 10 and the material moves along the bi-directional conveyor 10 to both sides so that each mixer 14 can dispense the concrete material without the need for the builder to move around.

(5) The concrete material is poured. The worker transports the material on the bi-directional conveyor 10 through the delivery holes 9 into the blender 14. The high-level batching bin 12 can efficiently deliver concrete material to the mixing bin 21 to 8 mixers 14 at the same time.

(6) The water is weighed and poured. The water mass is accurately controlled by the scale 11 and the weighed water is then poured from above the mixer 14.

(7) And (5) stirring the concrete. The mixer 14 is turned on to mix the concrete.

Claims

1. Premixed concrete feeding system, its characterized in that: comprises a conveyor belt (1), a high-level proportioning bin (12), a stirring bin (21) and a discharging bin (22); the material bin is sequentially layered from top to bottom and provided with a high-position burdening bin (12), a stirring bin (21) and a discharging bin (22), the conveying belt (1) extends upwards to the high-position burdening bin (12), and the material bin and the conveying belt (1) are supported by supporting columns (8); a bidirectional conveying belt (10) is arranged in the high-position batching bin (12), a storage tank (20) and a scale (11) are arranged on one side of the bidirectional conveying belt (10), a conveying hole (9) is formed in the other side of the bidirectional conveying belt (10), and batching is filled in the storage tank (20); a water storage barrel (19) is arranged in the stirring bin (21), a tap water pipe (18) and a water faucet are arranged above the water storage barrel (19), a scale (11) is arranged on one side of the water storage barrel (19), a transmission channel (13) is arranged in the stirring bin (21) corresponding to each conveying hole (9), and a stirrer (14) is arranged below each transmission channel (13); a discharge hole (15) is arranged in the discharge bin (22) corresponding to each stirrer (14).

2. The ready mixed concrete feeding system according to claim 1, characterized in that: the storage tank is characterized in that coarse stones (2), medium stones (3), fine stones (4), coarse sand (5), medium sand (6), fine sand (7), fly ash (16) and cement (17) are respectively arranged in each storage tank (20), each storage tank (20) is correspondingly provided with a conveying belt (1) and a conveying hole (9), and a scale (11) is arranged between every two adjacent storage tanks (20).