CN222137630U

CN222137630U - Aggregate transfer and transportation device

Info

Publication number: CN222137630U
Application number: CN202420922829.6U
Authority: CN
Inventors: 祝东坡; 刘秋瑜; 刘子豪; 蒋凯程; 黄宇轩
Original assignee: Zhejiang Jiaogong Jiangxin Mining Co ltd; Zhejiang Communications Construction Group Co Ltd
Current assignee: Zhejiang Jiaogong Jiangxin Mining Co ltd; Zhejiang Communications Construction Group Co Ltd
Priority date: 2024-04-30
Filing date: 2024-04-30
Publication date: 2024-12-10
Anticipated expiration: 2034-04-30

Abstract

The utility model discloses an aggregate transfer and transportation device, comprising a feeding mechanism, a horizontal conveying and dropping mechanism, a semi-finished product storage bin and a discharging mechanism, wherein the feeding section of the feeding mechanism is connected to a coarse crushing workshop and a mud removal workshop, the discharging section of the feeding mechanism is fixed on a mounting frame located above the horizontal conveying and dropping mechanism, the horizontal conveying and dropping mechanism is installed on a top frame located above the semi-finished product storage bin, the feeding port of the horizontal conveying and dropping mechanism is docked with the discharging port of the feeding mechanism, the discharging port of the horizontal conveying and dropping mechanism is docked with the feeding port of the semi-finished product bin, the discharging mechanism is installed on a bottom frame located below the semi-finished product storage bin, the feeding section of the discharging mechanism is docked with the discharging port of the semi-finished product bin, and the discharging port of the discharging mechanism is docked with the feeding port of the raw material bin of the medium crushing workshop. The utility model has the advantages of high working efficiency and low use cost.

Description

Aggregate transfer conveyer

Technical Field

The utility model relates to the technical field of aggregate production, in particular to an aggregate transfer and transportation device.

Background

The infrastructure construction is an important strength of economic development of China, along with the improvement of the urban level, the requirements for various aggregates are larger and larger, and the machine-made sand stone adopts raw materials such as natural stone materials excavated by mines, so that the machine-made sand stone has wide sources, can realize large-scale production and has good quality compared with natural river sand, and is widely used. The production of machine-made sand and stone comprises the process steps of coarse crushing and desliming, semi-finished product storage, medium and fine crushing, primary screening, shaping and sand making and secondary screening, and in the prior art, the aggregate transit conveying device is simple in layout and design and single in function, so that the machine-made sand and stone has a large lifting space in efficiency, energy conservation and cost.

Disclosure of utility model

In order to solve the defects in the prior art, the utility model provides the aggregate transit transportation device which has the advantages of high working efficiency and low use cost and can be better applied to industrialization.

In order to achieve the above object, the present utility model provides the following technical solutions:

The utility model provides an aggregate transfer conveyer, includes feed mechanism, horizontal conveying blanking mechanism, semi-manufactured goods storage storehouse and discharge mechanism, feed mechanism's feed section is connected with coarse crushing workshop and desilting workshop, feed mechanism's discharge section is fixed in the installation frame that is located horizontal conveying blanking mechanism top, horizontal conveying blanking mechanism installs in the top frame that is located semi-manufactured goods storage storehouse top, and feed inlet and feed mechanism's of horizontal conveying blanking mechanism discharge gate dock, and horizontal conveying blanking mechanism's discharge gate and semi-manufactured goods storehouse feed inlet dock, discharge mechanism installs in the bottom frame that is located semi-manufactured goods storage storehouse below, feed mechanism's feed section and semi-manufactured goods storehouse discharge gate dock, discharge mechanism's discharge gate and the former feed inlet in well garrulous workshop dock.

Preferably, a plurality of semi-finished product bin partitions are arranged in the semi-finished product storage bin, a semi-finished product bin feed inlet is formed in the top surface of each semi-finished product bin partition, and meanwhile, the discharge outlet of the horizontal conveying blanking mechanism is in butt joint with the semi-finished product bin feed inlet.

Preferably, the feeding mechanism comprises a feeding conveying roller and a feeding conveying belt which are arranged on the mounting frame, and the feeding conveying roller is driven by the feeding mechanism driving device to realize the circulating rotation of the feeding conveying belt.

Preferably, the horizontal conveying blanking mechanism comprises a horizontal conveying mechanism and a movable blanking device, wherein a feed inlet of the horizontal conveying mechanism is in butt joint with a feed outlet of the feed mechanism, a feed outlet of the horizontal conveying mechanism is in butt joint with a feed inlet of the movable blanking device, and a feed outlet of the movable blanking device is in butt joint with a feed inlet of the semi-finished product storage bin.

Preferably, the horizontal conveying mechanism comprises a horizontal conveying roller and a horizontal conveying belt which are arranged on the top frame, and the horizontal conveying roller is driven by a horizontal conveying mechanism driving device to realize the circulating rotation of the horizontal conveying belt.

Preferably, the movable blanking device comprises a device main body and a power device, wherein the bottom of the device main body is movably arranged on a top sliding rail through wheels, the top sliding rail is arranged on a top rack, the power device drives the device main body to move left and right along the top sliding rail, a feeding roller and a steering roller are arranged on the device main body, a horizontal conveying belt of the horizontal conveying mechanism is arranged on the outer surfaces of the feeding roller and the steering roller, a section of horizontal conveying belt at the feeding roller forms a discharge hole of the horizontal conveying belt and stretches into the feed hole of the device main body, a blanking pipe is arranged at the bottom of the device main body, and the discharge hole of the blanking pipe is in butt joint with the feed hole of a semi-finished product storage bin.

Preferably, the blanking pipe is a telescopic blanking pipe, a hoisting mechanism is arranged on the device main body, and the hoisting mechanism is connected with the outer side of the telescopic blanking pipe through a steel wire rope.

Preferably, a vibrating type discharging mechanism is arranged below the discharging hole of the semi-finished product bin, a discharging machine box of the vibrating type discharging mechanism is obliquely arranged on the supporting frame, a discharging vibrating motor is arranged on the outer side of the discharging machine box, the discharging hole of the discharging machine box is in butt joint with the guide frame, and the guide frame is fixed at the discharging hole.

Preferably, the discharging mechanism comprises a discharging conveying roller and a discharging conveying belt which are arranged on the bottom frame, and the discharging conveying roller is driven by a discharging mechanism driving device to realize the circulating rotation of the discharging conveying belt.

Preferably, the dust cover is installed at the discharge hole of the feeding mechanism, the dust cover is installed at the feed hole of the mobile blanking device, the dust cover is installed at the feed hole and the discharge hole of the semi-finished product storage bin, and the dust cover is installed at the discharge hole of the discharging mechanism.

The utility model has the following beneficial effects:

1. Through the arrangement of a plurality of semi-finished product bin partitions, the storage capacity is large, and the working efficiency and the product quality can be improved;

2. The horizontal conveying and blanking mechanism can realize uniform material distribution, and has high working efficiency and low use cost;

3. the feeding mechanism and the discharging mechanism can continuously operate, and the feeding mechanism and the discharging mechanism are convenient to operate, stable in operation, safe and reliable.

Drawings

FIG. 1 is a side view of an aggregate transit device of the present utility model;

FIG. 2 is a top view of an aggregate transit device of the present utility model;

FIG. 3 is an enlarged view of a front view and a horizontal conveying and blanking mechanism of the aggregate transit transportation device;

FIG. 4 is an enlarged view of a front view and a vibratory discharge mechanism of an aggregate transit transportation device according to the present utility model;

FIG. 5 is a diagram of the construction of a lifting conveyor belt of the aggregate transit device of the present utility model;

In the figure, the device comprises a 1-workshop main body, a 10-top frame, a 2-feeding mechanism, a 21-feeding mechanism driving device, a 22-discharge hole of the feeding mechanism, a 3-horizontal conveying blanking mechanism, a 31-horizontal conveying mechanism, a 311-horizontal conveying belt, a 312-feeding roller, a 313-steering roller, a 32-movable blanking device, a 321-device main body, a 322-power device, a 323-blanking pipe, a 4-semi-finished product storage bin, a 41-semi-finished product bin feed hole, a 42-semi-finished product bin discharge hole, a 43-vibration type discharge mechanism, a 5-discharge mechanism, a 51-guide frame, a 52-discharge mechanism driving device and a 53-discharge hole of the discharge mechanism.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Example 1

As shown in fig. 1-5, the aggregate transit transportation device provided by the utility model comprises a feeding mechanism 2, a horizontal conveying blanking mechanism 3, a semi-finished product storage bin 4 and a discharging mechanism 5 which are integrally arranged in a workshop main body 1, wherein a feeding section of the feeding mechanism 2 is connected with a coarse crushing workshop and a mud removing workshop, a discharging section of the feeding mechanism 2 is fixed on an installation frame positioned above the horizontal conveying blanking mechanism 3, the horizontal conveying blanking mechanism 3 is arranged on a top frame 10 positioned above the semi-finished product storage bin 4, a feeding port of the horizontal conveying blanking mechanism 3 is in butt joint with a discharging port 22 of the feeding mechanism, a discharging port of the horizontal conveying blanking mechanism 3 is in butt joint with a feeding port 41 of the semi-finished product storage bin 4, the discharging section of the discharging mechanism 5 is in butt joint with a discharging port 42 of the semi-finished product bin, a discharging port 53 of the discharging mechanism is in butt joint with a raw material bin feeding port of the workshop, the feeding mechanism 2 is used for conveying the crushed coarse crushing and mud removed and blanking to the horizontal conveying mechanism 3 which is conveyed to the horizontal conveying mechanism which is positioned above the semi-finished product storage bin 4, and the aggregate is not conveyed to the semi-finished product storage bin 4 in the horizontal conveying mechanism which is arranged in the semi-finished product storage bin 4, and the semi-finished product storage bin 4 is further processed in the semi-finished product storage bin 4.

The semi-manufactured goods storage bin 4 is internally provided with a plurality of semi-manufactured goods bin partitions, the top surface of each semi-manufactured goods bin partition is provided with a semi-manufactured goods bin feeding hole 41, the lower part of each semi-manufactured goods bin partition is of a hollow inverted cone structure, a semi-manufactured goods bin discharging hole 42 is arranged at the bottom center of the inverted cone structure, the inverted cone structure is designed to store and discharge aggregates better, and meanwhile, the discharging hole of the horizontal conveying blanking mechanism 3 is in butt joint with the semi-manufactured goods bin feeding hole 41, and aggregates can be conveyed and discharged to be stored in each semi-manufactured goods bin partition.

The feeding mechanism 2 comprises a feeding conveying roller and a feeding conveying belt which are arranged on an installation frame, the feeding conveying roller is driven by a feeding mechanism driving device 21 to realize the circulating rotation of the feeding conveying belt, and a carrier roller assembly with a supporting function is arranged in the feeding conveying belt.

The horizontal conveying blanking mechanism 3 comprises a horizontal conveying mechanism 31 and a movable blanking device 32, a feeding hole of the horizontal conveying mechanism 31 is in butt joint with a discharging hole 22 of the feeding mechanism, a discharging hole of the horizontal conveying mechanism 31 is in butt joint with a feeding hole of the movable blanking device 32, and a discharging hole of the movable blanking device 32 is in butt joint with a feeding hole of the semi-finished product storage bin 4.

The horizontal conveying mechanism 31 comprises a horizontal conveying roller and a horizontal conveying belt 311 which are arranged on the top frame 10, the horizontal conveying roller is driven by a driving device of the horizontal conveying mechanism 31 to realize the circulating rotation of the horizontal conveying belt 311, and a carrier roller assembly with a supporting function is arranged below the horizontal conveying belt 311.

The movable blanking device 32 comprises a device main body 321 and a power device 322, wherein the bottom of the device main body 321 is movably arranged on a top sliding rail through wheels, the top sliding rail is arranged on a top rack 10, the power device 322 drives the device main body 321 to move left and right along the top sliding rail, a feeding roller 312 and a steering roller 313 are arranged on the device main body 321, a horizontal conveying belt 311 of the horizontal conveying mechanism 31 is arranged on the outer surfaces of the feeding roller 312 and the steering roller 313, a section of horizontal conveying belt 311 positioned at the feeding roller 312 forms a discharge hole of the horizontal conveying belt 311 and stretches into the feed hole of the device main body 321, aggregates on the horizontal conveying belt 311 are fed into the device main body 321, a section of horizontal conveying belt 311 positioned at the steering roller 313 leaves the device main body 321, so that the movement of the horizontal conveying belt 311 and the movement of the device main body 321 are not interfered with each other, a blanking pipe 323 is arranged at the bottom of the device main body 321, and the discharge hole of the blanking pipe 323 is in butt joint with the feed hole of the semi-finished product storage bin 4.

It will be appreciated that, as long as the butt joint between the discharge port of the horizontal conveying blanking mechanism 3 and the feed port 41 of the semi-finished product bin can be realized, the horizontal conveying mechanism 31 in the utility model can also be arranged in an inclined or bending mode, and more than two feed mechanisms 2, horizontal conveying mechanisms 31, movable blanking devices 32 and discharge mechanisms 5 can also be arranged according to processing requirements.

The semi-manufactured goods storehouse discharge gate 42 has the ejection of compact frame that the slope set up, and ejection of compact frame below is provided with vibrating discharge mechanism 43, ejection of compact frame and vibrating discharge mechanism 43's feed inlet butt joint, vibrating discharge mechanism 43 includes the ejection of compact machine case, ejection of compact machine case slope is installed on the support frame, and ejection of compact machine case outside is provided with ejection of compact vibrating motor, and the discharge gate and the guide frame 51 butt joint of ejection of compact machine case, and guide frame 51 is fixed in discharge gate department and is provided with the inclined plane, plays the effect of accepting and buffering the aggregate.

The discharging mechanism 5 comprises a discharging conveying roller and a discharging conveying belt which are arranged on the bottom frame, the discharging conveying roller is driven by a discharging mechanism driving device 52 to realize the circulating rotation of the discharging conveying belt, and a carrier roller assembly with a supporting function is arranged in the discharging conveying belt.

The dust cover is installed to feed mechanism's discharge gate 22, and the dust cover is installed to the feed inlet of portable doffer 32, and the dust cover is installed to the feed inlet and the discharge gate of semi-manufactured goods storage bin 4 to and install the dust cover at discharge mechanism's discharge gate 53, set up each dust cover and can effectively control the raise dust diffusion, reduce the particulate matter quality in the air.

The utility model provides a control method of an aggregate transit transportation device, which comprises the following steps:

S1, preparing operation, namely driving a device main body 321 of the movable blanking device 32 to move to a first partition feeding hole of the semi-finished product storage bin 4 through a power device 322, and starting a horizontal conveying mechanism 31 driving device to drive a horizontal conveying roller to rotate so as to enable a horizontal conveying belt 311 to move forwards;

S2 feeding and conveying, namely conveying the aggregate to a discharge hole 22 of a feeding mechanism by a feeding conveying belt, discharging the aggregate to a horizontal conveying belt 311 below, and conveying the aggregate forwards by the horizontal conveying belt 311 until the aggregate moves to a feed hole of a movable blanking device 32 for preparation of blanking;

S3, blanking in a first partition, namely conveying aggregate on the horizontal conveying belt 311 into a first partition of the semi-finished product storage bin 4 through a blanking pipe 323, and continuously driving the horizontal conveying belt 311 to move and discharge until the aggregate in the first partition is piled up to a set height;

S4, continuously blanking, namely driving the movable blanking device 32 to move to a feed port of a second partition through the power device 322, and performing steps S2, S3 and S4 again to finish aggregate storage of the second partition, and the like until the last partition finishes aggregate storage;

s5, discharging operation, namely, aggregate falls onto a discharging machine box of the vibrating discharging mechanism 43 from the discharging hole 42 of the semi-finished product bin, a discharging vibrating motor is started, the aggregate is conveyed forwards in the discharging machine box and falls onto a discharging conveying belt through a guide frame 51, a discharging mechanism driving device 52 drives the discharging conveying belt to convey forwards to a discharging hole 53 of the discharging mechanism, and then the aggregate is discharged into a raw material bin of a middle crushing workshop.

Specifically, in the step S1, the horizontal conveying belt 311 is movably mounted on the feeding roller 312 and the guiding roller of the device main body 321, and a section of the horizontal conveying belt 311 located at the feeding roller 312 forms a discharge port of the horizontal conveying belt 311 and extends into the feeding port of the device main body 321, so that the discharge port of the horizontal conveying belt 311 is synchronously adjusted when the movable blanking device 32 moves, and the discharge port of the horizontal conveying belt 311 is always in butt joint with the feeding port of the device main body 321.

Example 2

The aggregate transit transportation device provided in embodiment 2 has the same main structure as that in embodiment 1, and is different in that the blanking pipe 323 of the mobile blanking device 32 is set to be a telescopic blanking pipe 323, a hoisting mechanism is mounted on the device main body 321 of the mobile blanking device 32, the hoisting mechanism is connected with the outer side of the telescopic blanking pipe 323 through a steel wire rope, and the hoisting mechanism can realize the height adjustment of a discharge hole of the telescopic blanking pipe 323 by pulling or releasing the steel wire rope.

The utility model provides a use method of an aggregate transit transportation device, which comprises the following steps:

S1, preparing for operation, namely driving a device main body 321 of a movable blanking device 32 to move to a first partition feeding port of a semi-finished product storage bin 4 through a power device 322, starting a horizontal conveying mechanism 31 driving device to drive a horizontal conveying roller to rotate so as to enable a horizontal conveying belt 311 to move forwards, and releasing a steel wire rope through a hoisting mechanism so that a discharging port of a telescopic blanking pipe 323 extends inwards from the partition feeding port to a set height so as to be convenient for feeding;

S3, blanking in a first partition, namely conveying aggregate on the horizontal conveying belt 311 into a first partition of a semi-finished product storage bin 4 through a telescopic blanking pipe 323, and after the aggregate is piled up to a certain height, pulling a steel wire rope through a hoisting mechanism to enable a discharge hole of the telescopic blanking pipe 323 to be lifted upwards, so that blanking is uniform, working efficiency is improved, and continuously driving the horizontal conveying belt 311 to move and discharge until the aggregate in the first partition is piled up to a set height;

S4, continuously blanking, namely pulling a steel wire rope through a hoisting mechanism to enable a discharge hole of a telescopic blanking pipe 323 to be lifted upwards until the discharge hole leaves a feed hole of a first partition of a semi-finished product storage bin 4, driving a movable blanking device 32 to move to a feed hole of a second partition by a power device 322, and performing steps S2, S3 and S4 again to finish aggregate storage of the second partition, and so on until the last partition finishes aggregate storage;

It should be noted that the above-mentioned embodiments are merely preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, and equivalent changes made on the basis of the above-mentioned embodiments are all within the scope of the present utility model.

Claims

1. The aggregate transfer conveying device is characterized by comprising a feeding mechanism, a horizontal conveying blanking mechanism, a semi-finished product storage bin and a discharging mechanism, wherein a feeding section of the feeding mechanism is connected with a coarse crushing workshop and a mud removing workshop, a discharging section of the feeding mechanism is fixed on an installation frame above the horizontal conveying blanking mechanism, the horizontal conveying blanking mechanism is installed on a top frame above the semi-finished product storage bin, a feeding hole of the horizontal conveying blanking mechanism is in butt joint with a discharging hole of the feeding mechanism, a discharging hole of the horizontal conveying blanking mechanism is in butt joint with a feeding hole of the semi-finished product bin, the discharging mechanism is installed on a bottom frame below the semi-finished product storage bin, a feeding section of the discharging mechanism is in butt joint with a discharging hole of the semi-finished product bin, and a discharging hole of the discharging mechanism is in butt joint with a raw material bin feeding hole of a medium crushing workshop.

2. The aggregate transit transportation device of claim 1, wherein a plurality of semi-finished product bin partitions are arranged in the semi-finished product storage bin, a semi-finished product bin feed port is arranged on the top surface of each semi-finished product bin partition, and meanwhile, a discharge port of the horizontal conveying blanking mechanism is in butt joint with the semi-finished product bin feed port.

3. The aggregate transit transportation device of claim 1, wherein the feeding mechanism comprises a feeding conveying roller and a feeding conveying belt which are arranged on the installation frame, and the feeding conveying roller is driven by a feeding mechanism driving device to realize the circulating rotation of the feeding conveying belt.

4. The aggregate transit transportation device of claim 1, wherein the horizontal conveying and blanking mechanism comprises a horizontal conveying mechanism and a movable blanking device, a feeding hole of the horizontal conveying mechanism is in butt joint with a discharging hole of the feeding mechanism, a discharging hole of the horizontal conveying mechanism is in butt joint with a feeding hole of the movable blanking device, and a discharging hole of the movable blanking device is in butt joint with a feeding hole of the semi-finished product storage bin.

5. The aggregate transit transportation device of claim 4, wherein the horizontal transportation mechanism comprises a horizontal transportation roller and a horizontal transportation belt which are arranged on the top frame, and the horizontal transportation roller is driven by a driving device of the horizontal transportation mechanism to realize the circulating rotation of the horizontal transportation belt.

6. The aggregate transit transportation device according to claim 4, wherein the movable blanking device comprises a device main body and a power device, wherein the bottom of the device main body is movably arranged on a top sliding rail through wheels, the top sliding rail is arranged on a top rack, the power device drives the device main body to move left and right along the top sliding rail, a feeding roller and a steering roller are arranged on the device main body, a horizontal conveying belt of the horizontal conveying mechanism is arranged on the outer surfaces of the feeding roller and the steering roller, a section of horizontal conveying belt at the feeding roller forms a discharge hole of the horizontal conveying belt and stretches into a feed hole of the device main body, a blanking pipe is arranged at the bottom of the device main body, and the discharge hole of the blanking pipe is in butt joint with the feed hole of the semi-finished product storage bin.

7. The aggregate transit transportation device as defined in claim 6, wherein the blanking pipe is a telescopic blanking pipe, a hoisting mechanism is mounted on the device body, and the hoisting mechanism is connected with the outer side of the telescopic blanking pipe through a steel wire rope.

8. The aggregate transit transportation device of claim 1, wherein a vibrating type discharging mechanism is arranged below the discharging hole of the semi-finished product bin, a discharging machine box of the vibrating type discharging mechanism is obliquely arranged on the supporting frame, a discharging vibrating motor is arranged outside the discharging machine box, the discharging hole of the discharging machine box is in butt joint with the guide frame, and the guide frame is fixed at the discharging hole.

9. The aggregate transit transportation device of claim 1, wherein the discharging mechanism comprises a discharging conveying roller and a discharging conveying belt which are arranged on the bottom frame, and the discharging conveying roller is driven by a driving device of the discharging mechanism to realize the circulating rotation of the discharging conveying belt.

10. The aggregate transit transportation device of claim 1, wherein the dust cover is arranged at the discharge port of the feeding mechanism, the dust cover is arranged at the feed port of the movable blanking device, the dust cover is arranged at the feed port and the discharge port of the semi-finished product storage bin, and the dust cover is arranged at the discharge port of the discharging mechanism.