阅读说明：本技术 一种袋装物料进仓的输送系统 (Conveying system for bagged materials to enter bin ) 是由 江龙跃 柏勉 于 2019-12-16 设计创作，主要内容包括：本发明公开一种袋装物料进仓的输送系统,包括：拆包机,拆包机的上端设有原料进口,拆包机的下端设有原料出口,拆包机用于拆封及输送袋装料；中间仓,中间仓的上端设有入料口,拆包机的下端插入入料口内,中间仓的下端设有出料口,中间仓用于方便袋装料集中下落；振动筛,振动筛设于中间仓内,振动筛位于原料出口的下方；发送罐,发送罐与出料口相连通；日仓,日仓通过物料输送管与发送罐相连通；仓顶除尘器,仓顶除尘器设于日仓上,仓顶除尘器用于收集日仓内的粉尘。本发明更高效、洁净、自动,使得物料在输送过程中物料损耗更小,操作工人日常工作量更少,且满足日益严峻的环保要求。(The invention discloses a conveying system for bagged materials into a bin, which comprises: the upper end of the bale breaker is provided with a raw material inlet, the lower end of the bale breaker is provided with a raw material outlet, and the bale breaker is used for unpacking and conveying bags for charging; the upper end of the middle bin is provided with a feeding port, the lower end of the bale breaker is inserted into the feeding port, the lower end of the middle bin is provided with a discharging port, and the middle bin is used for facilitating concentrated falling of the bagged materials; the vibrating screen is arranged in the middle bin and is positioned below the raw material outlet; the delivery tank is communicated with the discharge hole; the daily bin is communicated with the sending tank through a material conveying pipe; the bin top dust remover is arranged on the day bin and used for collecting dust in the day bin. The invention is more efficient, clean and automatic, so that the material loss is less in the material conveying process, the daily workload of operators is less, and the increasingly severe environmental protection requirements are met.)

1. A system for feeding bagged materials into a bin, comprising:

the device comprises a bale breaker, a bag opening machine and a bag conveying machine, wherein the upper end of the bale breaker is provided with a raw material inlet, the lower end of the bale breaker is provided with a raw material outlet, and the bale breaker is used for unsealing and conveying bags for charging;

the upper end of the middle bin is provided with a feeding port, the lower end of the bale breaker is inserted into the feeding port, the lower end of the middle bin is provided with a discharging port, and the middle bin is used for facilitating concentrated falling of the bagged materials;

the vibrating screen is arranged in the intermediate bin and is positioned below the raw material outlet;

the sending tank is communicated with the discharge hole;

the daily bin is communicated with the sending tank through a material conveying pipe;

the dust remover is arranged on the day bin and used for collecting dust in the day bin.

2. The bagged material warehousing conveyor system of claim 1, further comprising: the column type cantilever crane is arranged on one side of the bale breaker, and a lifting appliance mechanism of the column type cantilever crane is positioned above the bale breaker.

3. The bagged material warehousing conveying system of claim 1, wherein a first steel support is arranged in the intermediate bin, and the vibrating screen is arranged on the first steel support.

4. The bagged material warehousing conveying system of claim 1, wherein a second steel support is arranged on the intermediate bin, an upper cover plate is arranged at the upper end of the intermediate bin, the upper cover plate and the bale breaker are both placed on the second steel support, the feeding port is arranged on the upper cover plate, and inspection doors are arranged on the upper cover plate and the side wall of the intermediate bin.

5. The bagged material warehousing conveyor system of claim 1, wherein said vibrating screen comprises: at least one screen cloth and vibrating motor, the screen cloth is located in the intermediate bin, vibrating motor with the screen cloth transmission is connected.

6. The bagged material warehousing conveying system of claim 1, wherein the upper end of the bale breaker is cylindrical, the cross section of the upper end of the bale breaker is circular or square, and the lower end of the bale breaker is inverted conical; the upper end of intermediate bin is the tube-shape setting, the transversal of the upper end of intermediate bin personally submits circularly or squarely, the lower extreme of intermediate bin is the back taper setting.

7. The bagged material warehousing conveying system of claim 1, wherein a movable door is arranged at a material outlet of the bale breaker.

8. The bagged material warehouse entry conveying system according to claim 1, wherein the bale breaker is provided with a bale breaking dust collector, and the bale breaking dust collector is used for adsorbing raised dust generated by the bale breaker in a bale breaking process.

9. The bagged material warehousing conveying system of claim 1, wherein the sending tank is a pneumatic sending tank.

10. The bagged material warehousing conveying system of claim 1, wherein the top bin dust collector is a bag-type dust collector or a filter cartridge dust collector.

Technical Field

The invention relates to the technical field of production conveying equipment in industries such as building materials, metallurgy, ceramics, chemical engineering and the like, in particular to a conveying system for bagged materials to enter a bin.

Background

In a raw material system of factories in industries such as building materials, metallurgy, ceramics, chemical engineering and the like, a lot of various raw materials enter the factories in ton bags or half ton bags and are stored in bagged raw material warehouses.

Bagged raw materials are conveyed to a raw material workshop feeding position from a bagged warehouse by a forklift, an electric hoist or the forklift is used for assisting in feeding, bags are manually unpacked to enter an intermediate bin, and then the bagged raw materials are conveyed to a reverse conveying bin by a belt conveyor, a bucket elevator, a vibrating feeder and other traditional equipment.

Fork truck transports the bagged material to the way in raw materials workshop from the bagging-off storehouse, and some bagged materials can cause material leakage, spill material in the transportation because the sack is sealed untight or the sack is damaged.

The traditional equipment such as a belt conveyor, a bucket elevator and a vibrating feeder is used for conveying materials, and the problems of material leakage along the process, dust flying at a sealed and untight place and severe operating environment can be caused in the conveying process.

Disclosure of Invention

Aiming at the problems of the existing material conveying mode, the conveying system for the bagged materials to enter the bin is more efficient, cleaner and automatic, so that the materials are less in material loss in the conveying process, the daily workload of operators is less, and the increasingly severe environment-friendly requirements are met.

The specific technical scheme is as follows:

a bagged material tote conveyor system, comprising: the device comprises a bale breaker, a bag opening machine and a bag conveying machine, wherein the upper end of the bale breaker is provided with a raw material inlet, the lower end of the bale breaker is provided with a raw material outlet, and the bale breaker is used for unsealing and conveying bags for charging;

the upper end of the middle bin is provided with a feeding port, the lower end of the bale breaker is inserted into the feeding port, the lower end of the middle bin is provided with a discharging port, and the middle bin is used for facilitating concentrated falling of the bagged materials;

the vibrating screen is arranged in the intermediate bin and is positioned below the raw material outlet;

the sending tank is communicated with the discharge hole;

the daily bin is communicated with the sending tank through a material conveying pipe;

the dust remover is arranged on the day bin and used for collecting dust in the day bin.

The bagged material warehousing conveying system further comprises: the column type cantilever crane is arranged on one side of the bale breaker, and a lifting appliance mechanism of the column type cantilever crane is positioned above the bale breaker.

In the bagged material warehouse entry conveying system, the middle warehouse is internally provided with the first steel support, and the vibrating screen is arranged on the first steel support.

In the bagged material warehouse entry conveying system, the middle warehouse is provided with the second steel support, the upper end of the middle warehouse is provided with the upper cover plate, the upper cover plate and the bale breaker are both placed on the second steel support, the feeding port is formed in the upper cover plate, and the upper cover plate and the side wall of the middle warehouse are both provided with the inspection doors.

The bagged material warehousing conveying system comprises a vibrating screen, wherein the vibrating screen comprises: at least one screen cloth and vibrating motor, the screen cloth is located in the intermediate bin, vibrating motor with the screen cloth transmission is connected.

In the bagged material warehousing conveying system, the upper end of the bale breaker is arranged in a cylindrical shape, the cross section of the upper end of the bale breaker is circular or square, and the lower end of the bale breaker is arranged in an inverted cone shape; the upper end of intermediate bin is the tube-shape setting, the transversal of the upper end of intermediate bin personally submits circularly or squarely, the lower extreme of intermediate bin is the back taper setting.

In the bagged material warehousing conveying system, a movable door is arranged at a raw material outlet of the bale breaker.

The bagged material warehouse-entering conveying system is characterized in that the bale breaker is provided with a bale breaking dust remover, and the bale breaking dust remover is used for adsorbing raised dust generated by the bale breaker in the bale breaker during the bale breaker breaking process.

In the bagged material warehousing conveying system, the sending tank is a pneumatic sending tank.

In the bagged material warehousing conveying system, the bin top dust remover is a bag-type dust remover or a filter cartridge dust remover.

Compared with the prior art, the technical scheme has the positive effects that:

the invention has the advantages of closed conveying, no leakage along the process, high efficiency, cleanness and automation, less material loss in the conveying process of the material, waste prevention, less daily workload of operators, environmental pollution prevention and meeting increasingly severe environmental protection requirements.

Drawings

FIG. 1 is a schematic diagram of the overall construction of a bagged material feeding conveyor system according to the present invention;

in the drawings: 1. a bale breaker; 2. a middle bin; 3. vibrating screen; 4. a sending tank; 5. a daily warehouse; 6. a dust remover at the top of the bin; 7. a material conveying pipe; 8. a column type cantilever crane; 9. and an upper cover plate.

Detailed Description

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

Fig. 1 is a schematic view of the overall structure of a bagged material warehousing conveying system of the present invention, and fig. 1 shows a bagged material warehousing conveying system according to a preferred embodiment, which includes: bale breaker 1, intermediate bin 2, shale shaker 3, delivery tank 4, day storehouse 5 and storehouse top dust remover 6, the upper end of bale breaker 1 is equipped with the raw materials import, the lower extreme of bale breaker 1 is equipped with the raw materials export, bale breaker 1 is used for unsealing and carries the bag to feed, the upper end of intermediate bin 2 is equipped with the pan feeding mouth, the lower extreme of bale breaker 1 inserts in the pan feeding mouth, the lower extreme of intermediate bin 2 is equipped with the discharge gate, intermediate bin 2 is used for making things convenient for the bag to feed to concentrate the whereabouts, shale shaker 3 is located intermediate bin 2, shale shaker 3 is located the below of raw materials export, delivery tank 4 is linked together with the discharge gate, day storehouse 5 is linked together with delivery tank 4 through material conveyer pipe 7, storehouse top dust remover 6 is located on day storehouse 5, storehouse top dust remover 6 is used for collecting the dust in day storehouse 5.

Preferably, the raw material inlet is provided at an end of an upper end of the bale breaker 1 or a sidewall of the upper end of the bale breaker 1.

Preferably, the canister 4 may be placed in a pit or on the ground. The sending form can be dense phase conveying, semi-dense phase conveying and dilute phase conveying.

Preferably, material entering the canister 4 may fall into the canister solely by gravity, or may be sucked into the canister by negative pressure from the canister 4.

Preferably, material conveying pipe 7 connects the end at the strength transmission jar, and the material sends into each day storehouse through compressed air in material conveying pipe 7, and material conveying pipe 7 can send jar 4 to correspond a day storehouse 5 for one, can send jar 4 to correspond a plurality of day storehouses 5 for one, can send jar 4 to correspond a day storehouse 5 for a plurality of, also can send jar 4 to correspond a plurality of day storehouses 5 for a plurality of, carries the form nimble various.

Preferably, the material conveying pipe 7 can be made of seamless steel pipes, stainless steel pipes, ceramic lining pipes and the like, and different materials can be conveyed by selecting different pipeline materials.

Further, as a preferred embodiment, the bagged material warehousing conveying system further comprises: the column type cantilever crane 8, column type cantilever crane 8 locate one side of bale breaker 1, and column type cantilever crane 8's hoist mechanism is located bale breaker 1's top.

Further, as a preferred embodiment, a first steel support is arranged in the intermediate bin 2, and the vibrating screen 3 is arranged on the first steel support. Preferably, a first steel support is used to support the vibrating screen 3.

Further, as a preferred embodiment, the intermediate bin 2 is provided with a second steel support, the upper end of the intermediate bin 2 is provided with an upper cover plate 9, the upper cover plate 9 and the bale breaker 1 are both placed on the second steel support, the feeding port is arranged on the upper cover plate 9, and the upper cover plate 9 and the side wall of the intermediate bin 2 are both provided with inspection doors.

Preferably, the inspection door of the upper cover plate 9 is used for observing the blanking condition in the middle bin.

Preferably, the side of the intermediate bin 2 is provided with a viewing door for examining and repairing the vibrating screen 3 and observing the conditions in the bin, and the oversize material can be taken out through the viewing door.

Further, as a preferred embodiment, the vibrating screen 3 includes: at least one screen cloth and vibrating motor, the screen cloth is located in the intermediate bin, and vibrating motor is connected with the screen cloth transmission. Preferably, the screen with the corresponding mesh number can be selected according to the granularity of the materials.

The above are merely preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The present invention also has the following embodiments in addition to the above:

in a further embodiment of the present invention, please continue to refer to fig. 1, the upper end of the bale breaker 1 is arranged in a cylindrical shape, the cross section of the upper end of the bale breaker 1 is circular or square, and the lower end of the bale breaker 1 is arranged in an inverted cone shape.

In a further embodiment of the present invention, the upper end of the intermediate bin 2 is disposed in a cylindrical shape, the cross section of the upper end of the intermediate bin 2 is circular or square, and the lower end of the intermediate bin 2 is disposed in an inverted conical shape.

In a further embodiment of the invention, the material outlet of the bale breaker 1 is provided with a movable door. Preferably, a movable door is provided on a side wall of the lower end of the bale breaker 1, and a worker can open the movable door to unseal the ton bag.

In a further embodiment of the invention, the bale breaking dust remover is arranged on the bale breaking machine and used for adsorbing the raised dust generated by the bale breaking machine in the bale breaking process.

In a further embodiment of the invention, the sending tank 4 is a pneumatic sending tank.

In a further embodiment of the invention, the top bin dust collector 6 is a bag-type dust collector or a cartridge dust collector. Preferably, the top dust remover 6 is rectangular or cylindrical.

The bagged material of the present invention may be fed to the material inlet by means of a forklift, crane or electric hoist.

Preferably, the pneumatic conveying system can be placed at the feeding position of a raw material workshop, and a reasonable position is selected in a factory according to the requirement of process arrangement.

The invention has the advantages of closed conveying, no leakage along the process, high efficiency, cleanness and automation, less material loss in the conveying process of the material, waste prevention, less daily workload of operators, environmental pollution prevention and meeting increasingly severe environmental protection requirements.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.