CN117385167A - Pellet engineering pelletizing equipment and pellet engineering pelletizing system - Google Patents

Abstract

The invention discloses pellet engineering pelletizing equipment which comprises a pelletizer, a ball receiving belt machine, a roller screen, a chute group, a traveling belt machine, a wide belt machine and a bulk material belt machine, wherein the width direction of the chute group is consistent with the length direction of the bulk material belt machine, so that the width design of the chute group is not limited, the width of the chute group is widened, and meanwhile, the chute group is designed into a straight cylinder structure, and the phenomena of bulk material sticking, blocking and the like caused by accumulation of powder and unqualified green pellets in the chute group are avoided, thereby improving the production efficiency of the pellet engineering pelletizing equipment. The invention also discloses a pelletizing system for pellet engineering.

Description

Pellet engineering pelletizing equipment and pellet engineering pelletizing system

Technical Field

The invention relates to the technical field of pellet engineering pelletizing equipment, in particular to pellet engineering pelletizing equipment and a pellet engineering pelletizing system.

Background

The pelletization of the iron ore concentrate is a very critical workshop in the pellet engineering of the belt roasting machine, and the quality grade of the green pellets determines the yield, quality and energy consumption of the pellets. With the requirements of larger and larger scale and high automation degree of a single production line of the belt type roasting pellet project, the original pelletizing process can not meet the requirements.

With the expansion of the scale of the belt roasting machine, the demand of green pellets is continuously increased, the number of the pelletizers is increased, and the pelletizing is also increased. The increase of the pelletizing quantity causes uneven green pellets on the wide belt conveyor below the roller screen, the chute is easy to be stuck, and the chute needs to be cleaned for many times, so that the production efficiency is influenced.

Therefore, how to improve the production efficiency of the pellet engineering pelletizing equipment is a technical problem that the skilled person needs to solve at present.

Disclosure of Invention

In view of the above, the present invention aims to provide a pellet engineering pelletizing device and a pellet engineering pelletizing system, so as to improve the production efficiency of the pellet engineering pelletizing device;

in order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a pellet engineering balling equipment, includes balling machine, ball receiving tape machine, roller screen, swift current groove group, walking tape machine, wide tape machine and bulk cargo tape machine, wherein:

the pelletizer is used for preparing green pellets;

the ball receiving tape machine is arranged below the balling machine and is used for receiving green balls;

the roller screen is arranged at a ball outlet of the ball receiving adhesive tape machine and is used for screening raw balls;

the first end of the chute group is connected with the roller screen, and the second end of the chute group is connected with the bulk material rubber belt machine and is used for conveying unqualified raw balls to the bulk material rubber belt machine;

the bulk material belt conveyor is used for recycling unqualified green balls;

the width direction of the chute group is consistent with the length direction of the bulk material adhesive tape machine, and the chute group is of a straight cylinder structure;

the walking belt conveyor is arranged below the roller screen and is used for conveying qualified green balls;

the wide tape machine is arranged below the end part of the walking tape machine and is used for receiving qualified green balls.

Optionally, in the pellet engineering pelletizing device, the chute group includes a first chute and a second chute, wherein:

the first chute is arranged close to a ball outlet of the ball receiving adhesive tape machine and is used for conveying raw balls with diameters smaller than a preset diameter to the bulk adhesive tape machine;

the second chute is arranged far away from a ball outlet of the ball receiving adhesive tape machine and is used for conveying raw balls with diameters larger than a preset diameter to the bulk adhesive tape machine;

the walking belt conveyor is arranged between the first chute and the second chute.

Optionally, in the pellet engineering pelletizing device, a ball outlet of the ball receiving tape machine is inclined downwards along a direction approaching to the roller screen.

Optionally, in the pellet engineering pelletizing device, a vertical distance between a ball outlet of the ball receiving tape machine and the roller screen is smaller than 350mm.

Optionally, in the pellet engineering pelletizing device, the travelling rubber belt machine comprises a travelling wheel, and the travelling wheel is arranged at the bottom of the travelling rubber belt machine and used for travelling the travelling rubber belt machine.

Optionally, in the pellet engineering pelletizing device, the pellet engineering pelletizing device further comprises a feed bin and a quantitative feeder, wherein the feed bin is used for providing raw materials required for preparing the green pellets, and the quantitative feeder is arranged above the pelletizer and is used for continuously feeding the pelletizer.

Optionally, in the pellet engineering pelletizing device, the pellet engineering pelletizing device further comprises a vibration hopper, wherein the vibration hopper is arranged between the bin and the quantitative feeder.

Optionally, in the pellet engineering pelletizing device, the pelletizer comprises a pellet surface, a first end of the constant feeder is connected with the vibration hopper, and a second end of the constant feeder is arranged close to the pellet surface.

According to the pellet engineering ball making equipment provided by the invention, the width direction of the chute group is consistent with the length direction of the bulk material adhesive tape machine, so that the width design of the chute group is not limited, the width of the chute group is widened, meanwhile, the chute group is designed into a straight cylinder structure, and the phenomena of bulk material adhesion, blocking and the like caused by accumulation of powder and unqualified green pellets in the chute group are avoided, thereby improving the production efficiency of the pellet engineering ball making equipment.

A pellet engineered pelletizing system comprising two or more pellet engineered pelletizing devices as in any one of the above.

Optionally, in the pellet engineering pelletizing system, two pelletizing machines arranged oppositely are used as a pair, and the pellet engineering pelletizing system comprises a pair of and more than one pellet engineering pelletizing equipment.

The pellet engineering pelletizing system provided by the invention has all the technical effects of the pellet engineering pelletizing system because of the pellet engineering pelletizing system, and is not repeated herein.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a workflow diagram of a pellet engineered pelletizing apparatus disclosed in an embodiment of the present invention;

FIG. 2 is a front view of a pellet engineered pelletizing apparatus disclosed in an embodiment of the present invention;

FIG. 3 is a side view of a pellet engineered pelletizing apparatus disclosed in an embodiment of the present invention;

wherein:

the device comprises a balling machine 100, a balling disk surface 101, a ball receiving tape machine 200, a roller screen 300, a walking tape machine 400, a moving wheel 401, a wide tape machine 500, a bulk material tape machine 600, a first chute 700, a second chute 701, a storage bin 800, a vibrating hopper 801 and a quantitative feeder 900.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without novel efforts, are intended to fall within the scope of this invention.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top surface", "bottom surface", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the indicated positions or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limitations of the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 2 to 3, the pellet mill disclosed by the invention comprises a balling machine 100, a ball receiving tape machine 200, a roller screen 300, a chute group, a running tape machine 400, a wide tape machine 500 and a bulk tape machine 600, wherein the balling machine 100 is used for preparing green balls, the ball receiving tape machine 200 is arranged below the balling machine 100 and is used for receiving the green balls, the roller screen 300 is arranged at a ball outlet of the ball receiving tape machine 200 and is used for screening the green balls, a first end of the chute group is connected with the roller screen 300, a second end of the chute group is connected with the bulk tape machine 600 and is used for conveying the unqualified green balls to the bulk tape machine 600, the bulk tape machine 600 is used for recovering the unqualified green balls, the width direction of the chute group is consistent with the length direction of the bulk tape machine 600, the chute group is of a straight cylinder structure, the running tape machine 400 is arranged below the roller screen 300 and is used for conveying the qualified green balls, and the wide tape machine 500 is arranged below the end of the running tape machine 400 and is used for receiving the qualified green balls. According to the pellet engineering ball making equipment provided by the invention, the width direction of the chute group is consistent with the length direction of the bulk material tape machine 600, so that the width design of the chute group is not limited, the width of the chute group is widened, meanwhile, the chute group is designed into a straight cylinder structure, and the phenomena of bulk material adhesion, blocking and the like caused by accumulation of powder and unqualified green pellets in the chute group are avoided, thereby improving the production efficiency of the pellet engineering ball making equipment.

As shown in fig. 1, in order to illustrate the operation of the pellet mill pelletizing apparatus according to the present invention, when the pellet mill pelletizing apparatus is used, raw materials required for preparing green pellets are processed into green pellets by the pelletizer 100, the green pellets fall to the ball receiving tape machine 200, and reach the roller screen 300 through the ball outlet of the ball receiving tape machine 200, the roller distance of the roller screen 300 near the ball outlet of the ball receiving tape machine 200 is small, the gap between the rollers of the roller screen 300 far from the ball outlet of the ball receiving tape machine 200 is large, the gap between the rollers of the roller screen 300 is large, the gap between the powder and the unqualified green pellets falls to the bulk material roller machine 600 through the chute group below the roller screen 300, the bulk material tape machine 600 recovers the raw pellets, the gap in the middle of the roller screen 300 is adapted to the diameter of the qualified green pellets, the qualified green pellets fall to the traveling tape machine 400, and the traveling tape machine 400 conveys the green pellets to the wide tape machine 500, thereby completing the preparation and conveyance of the green pellets.

To optimize the above technical solution, the chute set includes a first chute 700 and a second chute 701, wherein the first chute 700 is arranged close to the ball outlet of the ball receiving tape machine 200 for delivering green balls with a diameter smaller than a preset diameter to the bulk material tape machine 600, the second chute 701 is arranged away from the ball outlet of the ball receiving tape machine 200 for delivering green balls with a diameter larger than the preset diameter to the bulk material tape machine 600, and the traveling tape machine 400 is arranged between the first chute 700 and the second chute 701. Specifically, the first chute 700 is designed to be widened, so that the first chute 700 is prevented from being blocked by pellets and bulk materials, and the subsequent screening efficiency of the roller screen 300 is prevented from being affected. Specifically, the above-mentioned preset diameter is a diameter range of qualified green pellets preset in production, taking green pellets with a diameter of 8 mm-16 mm as an example of qualified green pellets, the first chute 700 is used for conveying green pellets with a diameter of less than 8mm to the bulk material tape machine 600, and the second chute 701 is used for conveying green pellets with a diameter of more than 16mm to the bulk material tape machine 600. Further, the width of the second chute 701 is greater than 16mm to ensure that green pellets having a volume greater than that of acceptable green pellets fall from the second chute 701 into the bulk tape machine 600. In use, acceptable green balls with diameters between 8mm and 16mm on the roller screen 300 fall to the walking belt conveyor 400, and the walking belt conveyor 400 conveys the acceptable green balls to the wide belt conveyor 500, so that the conveying of the acceptable green balls is completed. Through widening first chute 700 to and with first chute 700 and second chute 701 design as straight section of thick bamboo structure, can avoid bulk cargo and green ball to block up the swift current groove group, save the time that the manual work was clear away, thereby improved pellet engineering balling equipment's life and production efficiency.

To optimize the above technical solution, the ball outlet of the ball-catching adhesive tape machine 200 is inclined downward in a direction approaching the roller screen 300. Specifically, because the roller screen 300 is arranged below the ball receiving tape machine 200, the ball outlet of the ball receiving tape machine 200 is designed to be inclined, so that the green balls conveyed by the ball receiving tape machine are subjected to inertial force and gravity simultaneously when falling, the speed of forward movement after falling on the roller screen 300 can be increased, and the stay time on the roller screen 300 can be shortened, thereby improving the screening efficiency of the roller screen 300 on the green balls, namely improving the production efficiency of the pellet engineering pelletizing equipment.

In order to optimize the technical scheme, the vertical distance between the ball outlet of the ball receiving tape machine 200 and the roller screen 300 is less than 350mm. Specifically, an operator can adjust the inclination angle of the ball outlet of the ball receiving tape machine 200 and the vertical distance between the ball outlet of the ball receiving tape machine 200 and the roller screen 300 according to the weight and the volume of the green balls required to be produced by the pellet engineering pelletizing equipment, and design the vertical distance between the ball outlet of the ball receiving tape machine 200 and the roller screen 300 to be less than 350mm according to actual use and data measurement and calculation, so that the ball receiving tape machine can be suitable for the production requirements of most green balls, and meanwhile, the production efficiency of the pellet engineering pelletizing equipment is met, and the vertical distance between the ball outlet of the ball receiving tape machine 200 and the roller screen 300 is less than 350mm to be the optimal distance.

In order to optimize the above technical solution, the walking belt conveyor 400 includes a moving wheel 401, and the moving wheel 401 is disposed at the bottom of the walking belt conveyor 400 for moving the walking belt conveyor 400. Specifically, the moving wheel 401 drives the running tape machine 400 to move in a direction approaching and moving away from the wide tape machine 500. When the wide adhesive tape machine 500 is used, the wide adhesive tape machine 500 is arranged below the end part of the walking adhesive tape machine 400, the moving wheel 401 drives the walking adhesive tape machine 400 to move along the direction close to or far away from the wide adhesive tape machine 500, and qualified green balls uniformly fall onto the wide adhesive tape machine 500 from the end part of the walking adhesive tape machine 400, so that accurate and uniform distribution of the wide adhesive tape machine 500 is realized. The arrangement can realize accurate position of the blanking point of the qualified green pellets, and can be adjusted, thereby realizing accurate and uniform distribution of the wide tape machine 500 and improving the production efficiency of the pellet engineering pelletizing equipment.

In order to optimize the technical scheme, the pellet engineering pelletizing device further comprises a storage bin 800 and a quantitative feeder 900, wherein the storage bin 800 is used for providing raw materials required for preparing green pellets, and the quantitative feeder 900 is arranged above the pelletizer 100 and is used for continuously feeding the pelletizer 100. In use, raw materials required for preparing green pellets are arranged inside the bin 800, quantitatively conveyed to the pelletizer 100 by the quantitative feeder 900, and prepared into green pellets by the pelletizer 100. By arranging the quantitative feeder 900, the amount of the raw materials reaching the pelletizer 100 can be ensured to be standard, the continuous production requirement of green pellets can be met, and the continuous production of the green pellets is prevented from being influenced by too much or too little raw materials, so that the production efficiency of the pelletizing equipment for pellet engineering is improved.

In order to optimize the technical solution described above, the pellet mill further comprises a vibrating funnel 801, the vibrating funnel 801 being arranged between the silo 800 and the dosing machine 900. Specifically, the vibration funnel 801 is used for accelerating the whereabouts of raw materials, avoids raw materials to pile up and stop up, avoids the raw materials adhesion to the bin wall of feed bin 800, simultaneously, vibration funnel 801 can increase the bulk of raw materials to avoid the raw materials caking, make the raw materials carry to the constant feeder 900 for the optimal state of waiting to produce, in order to further improve the production efficiency of pellet engineering pelletization equipment.

To optimise the solution described above, the pelletizer 100 comprises a pellet face 101, a first end of the dosing machine 900 being connected to a vibrating hopper 801, a second end of which is arranged close to the pellet face 101. Specifically, the second end of the dosing machine 900 is disposed above the sphere surface 101, opposite to the sphere surface 101, so as to make the raw materials fall smoothly, and at the same time make the operator perform inspection, and make the maintenance of the equipment more convenient.

A pellet engineered pelletizing system comprising two or more pellet engineered pelletizing devices as in any one of the above. Specifically, when the pellet engineering pelletizing system includes two pellet engineering pelletizing devices, the pelletizers 100 of the two pellet engineering pelletizing devices are relatively arranged so that operators can carry out inspection and equipment maintenance is more convenient, meanwhile, the two pellet engineering pelletizing devices can share one wide tape machine 500, the wide tape machine 500 is arranged below the end parts of the two traveling tape machines 400, and the two traveling tape machines 400 can all distribute the wide tape machines 500, so that continuous production of green pellets is completed, and the space utilization rate and the production efficiency of the pellet engineering pelletizing system are improved.

In order to optimize the technical solution, the pellet engineering pelletizing system comprises a pair of and more than one pellet engineering pelletizing equipment by using two opposite pelletizing machines 100 as a pair. Specifically, two oppositely disposed pelletizers 100 are oppositely disposed with their pelletizer faces 101. Specifically, when the pelletizers 100 of the pellet engineering pelletizing apparatus are all arranged and share one wide tape machine 500, the pellet engineering pelletizing apparatus are distributed in two rows, so that the production efficiency of the pellet engineering pelletizing system can be improved to the greatest extent and the space utilization of the pellet engineering pelletizing system can be improved.

The pellet engineering pelletizing system provided by the invention has all the technical effects of the pellet engineering pelletizing system because of the pellet engineering pelletizing system, and is not repeated herein.

The invention has the advantages that:

(1) The production efficiency of the pellet engineering pelletizing equipment can be improved;

(2) The space utilization rate of the pellet engineering pelletizing system can be improved;

(3) The service life of the pellet engineering pelletizing equipment is prolonged.

It should be noted that the pellet engineering pelletizing device and the pellet engineering pelletizing system provided by the invention can be used in the technical field of pellet engineering pelletizing devices or other fields. Other fields are any field other than the technical field of pellet engineering pelletizing equipment. The above is merely an example, and the application fields of the pellet engineering pelletizing device and the pellet engineering pelletizing system provided by the invention are not limited.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The utility model provides a pellet engineering balling equipment which characterized in that includes balling machine, ball receiving tape machine, roller screen, swift current groove group, walking tape machine, wide tape machine and bulk cargo tape machine, wherein:

the pelletizer is used for preparing green pellets;

the ball receiving tape machine is arranged below the balling machine and is used for receiving green balls;

the roller screen is arranged at a ball outlet of the ball receiving adhesive tape machine and is used for screening raw balls;

the first end of the chute group is connected with the roller screen, and the second end of the chute group is connected with the bulk material rubber belt machine and is used for conveying unqualified green balls to the bulk material rubber belt machine;

the bulk material tape machine is used for recycling unqualified green pellets;

the width direction of the chute group is consistent with the length direction of the bulk material belt conveyor, and the chute group is of a straight cylinder structure;

the walking belt conveyor is arranged below the roller screen and is used for conveying qualified green balls;

the wide tape machine is arranged below the end part of the walking tape machine and is used for receiving qualified green balls.

2. The pellet mill of claim 1 wherein the chute group comprises a first chute and a second chute, wherein:

the first chute is arranged close to a ball outlet of the ball receiving adhesive tape machine and is used for conveying raw balls with diameters smaller than a preset diameter to the bulk adhesive tape machine;

the second chute is arranged far away from a ball outlet of the ball receiving adhesive tape machine and is used for conveying raw balls with diameters larger than a preset diameter to the bulk adhesive tape machine;

the walking belt conveyor is arranged between the first chute and the second chute.

3. The pellet mill of claim 1 wherein the ball outlet of the ball receiving tape machine is inclined downwardly in a direction approaching the roller screen.

4. A pelletizing engineering pelletizing apparatus according to claim 3, characterized in that the vertical distance between the ball outlet of the ball receiving tape machine and the roller screen is less than 350mm.

5. The pellet mill as claimed in claim 1, wherein the traveling taping machine includes a moving wheel disposed at a bottom of the traveling taping machine for moving the traveling taping machine.

6. The pellet mill of claim 1 further comprising a silo for providing raw materials required for the production of green pellets and a dosing machine disposed above the pelletizer for continuously feeding the pelletizer.

7. The pellet mill of claim 6 further comprising a vibrating hopper disposed between the silo and the dosing machine.

8. The pellet mill pelletizing apparatus of claim 7 wherein the pelletizer includes a pellet face, the first end of the dosing machine being connected to the vibrating hopper and the second end being disposed adjacent the pellet face.

9. A pelletizing system comprising two or more pelletizing apparatus according to any one of claims 1 to 8.

10. The pellet mill pelletizing system of claim 9, wherein two opposed pelletizers are provided as a pair, the pellet mill pelletizing system including one or more pairs of the pellet mill pelletizing equipment.