CN209968594U - Perlite ore or zeolite ore beneficiation process production line with high square flat screen - Google Patents

Perlite ore or zeolite ore beneficiation process production line with high square flat screen Download PDF

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CN209968594U
CN209968594U CN201822131463.8U CN201822131463U CN209968594U CN 209968594 U CN209968594 U CN 209968594U CN 201822131463 U CN201822131463 U CN 201822131463U CN 209968594 U CN209968594 U CN 209968594U
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郭晓勇
朱金超
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Abstract

The utility model provides a perlite ore or zeolite ore beneficiation process production line with a square plansifter, which comprises a crusher, a conveyor, a middle crusher, a lifter and the square plansifter; the zeolite ore beneficiation process production line with the square plansifter comprises a crusher, a conveyor, a pulverizer, a negative pressure conveying system and the square plansifter; the method is characterized in that a high square flat screen has higher screening rate on fine materials and powdery materials in the grain processing industry (mainly applied to the wheat milling industry), so that the screening of the perlite ore and the zeolite ore is processed, the quality of the perlite ore is improved, and the tailing proportion is reduced; the uniformity and quality of the zeolite mineral powder particles are improved.

Description

Perlite ore or zeolite ore beneficiation process production line with high square flat screen
Technical Field
The utility model belongs to the mineral processing technology field. In particular to equipment in a production line of a perlite ore or zeolite ore beneficiation process.
Background
In the domestic existing production and processing industries of perlite ore and zeolite ore, a regular ore dressing process is not available, and the process is simple. The screening equipment in the process generally adopts a vibrating screen (mainly a linear vibrating screen). However, at the present stage, no vibrating screen can be used for effectively screening fine materials and powdery materials by the method, so that the rate of tailings is increased seriously due to the fact that the unscreened rate of ore sand or ore powder is high in the processing process.
Disclosure of Invention
Aiming at the defects in the prior art, the utility model discloses the pearlite ore or zeolite ore beneficiation process production line of high square flat screen utilizes high square flat screen to handle the screening of pearlite ore and zeolite ore in grain processing industry (mainly be applied to wheat flour process trade) to the characteristics that fine material and powdery material all have higher net rate, improves the quality of pearlite ore sand, reduces the tailing proportion; the uniformity and quality of the zeolite mineral powder particles are improved.
In order to achieve the purpose, the technical scheme of the utility model is as follows:
a perlite ore beneficiation process production line provided with a square plansifter; including breaker, conveyer, well rubbing crusher, lifting machine, high square flat screen, pearlite ore raw materials gets into the breaker, and the breaker carries out coarse crushing with pearlite ore raw materials, and the pearlite ore after the coarse crushing conveys to well rubbing crusher through the conveyer, and the pearlite ore after the well crushing is carried to high square flat screen through the lifting machine and is sieved, and the pearlite ore after the screening exports from the finished product, and the unqualified material export output through the flat screen of the pearlite ore after the screening.
A zeolite ore beneficiation process production line provided with a square plansifter; including breaker, conveyer, milling machine, negative pressure conveying system, high square flat screen, its characterized in that: the zeolite ore raw material enters a crusher, the crusher coarsely crushes the zeolite ore raw material, the coarsely crushed zeolite ore is conveyed to a pulverizer through a conveyor, pulverized zeolite ore powder is screened through a negative pressure conveying system at the upper end of the pulverizer after entering a square flat screen, the screened zeolite ore powder is output from a finished product outlet, and unqualified zeolite ore after screening is output through a unqualified material outlet of the flat screen.
Furthermore, the square plansifter can be divided into a single plansifter, a double plansifter, a four-bin type square plansifter, a six-bin type square plansifter, an eight-bin type square plansifter and the like according to the number of the screen bins of the square plansifter, and each screen bin is provided with a feeding hole. The material screening device is arranged in a process link needing screening, and can be divided into different screening bins according to the capacity requirement, so that the number of the screening bins needing screening is adjusted, the material enters the screening bins through the feed inlet of each screening bin to be screened, and each screening bin is provided with 8 discharge outlets for selection.
Furthermore, each screen cabin of the square plansifter can automatically adjust the internal structure of the screen cabin according to the requirements of the screening classification number, the screening length and the screening area.
Furthermore, a middle crusher in the perlite ore beneficiation process production line with the square plansifter adopts a sand making machine, the sand making machine performs middle crushing on perlite ore, and the crushed perlite ore is conveyed to the square plansifter through a lifter to be screened.
Further, in the zeolite ore beneficiation process production line with the square plansifter, the pulverizer adopts a Raymond mill, the negative pressure conveying system comprises a fan, an air pipe, a discharger, an air seal device and a dust remover, the Raymond mill grinds the zeolite ore, the grinded zeolite ore powder is extracted through the air pipe of the negative pressure conveying system, and the discharger and the air seal device of the negative pressure conveying system enter the square plansifter to be screened.
Has the advantages that: the utility model discloses pearlite ore or zeolite ore beneficiation process production line with high square flat screen utilizes high square flat screen to all have the screening of higher net rate to the characteristics of fine material and powdery material to handle pearlite ore and zeolite ore in grain processing trade (mainly be applied to wheat powder process trade), improves the quality of pearlite ore sand, reduces the tailing proportion, improves zeolite ore powder's the degree of consistency and product quality.
Drawings
FIG. 1 is a schematic diagram of the production line of the perlite ore dressing process with a square plansifter of the utility model
FIG. 2 is a schematic view of the zeolite ore dressing process production line with a square plansifter of the utility model
FIG. 3 is a graph comparing the screening efficiency of an experimental high square flat screen and an experimental vibrating screen 80-mesh screen
FIG. 4 is a graph showing the comparison of the screening efficiency of an experimental high square flat screen and an experimental vibrating screen with a 140-mesh screen
FIG. 5 is a graph showing the comparison of the sieving efficiency of an experimental high square flat sieve and an experimental vibrating sieve 170 mesh sieve
In the figure, 1-a crusher, 2-a conveyor, 3-a middle crusher, 4-a hoister, 5-a high square flat screen, 6-a finished product outlet, 7-an unqualified material outlet, 8-a pulverizer, 9-an air pipe, 10-a discharger, 11-an air shutter, 12-a fan and 13-a dust remover.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings and examples.
Referring to fig. 1, a perlite ore beneficiation process production line provided with a square plansifter; including breaker (1), conveyer (2), well rubbing crusher (3), lifting machine (4), high square flat screen (5), pearlite ore raw materials gets into breaker (1), breaker (1) carries out coarse crushing with pearlite ore raw materials, pearlite ore after the coarse crushing conveys to well rubbing crusher (3) through conveyer (2), the pearlite ore after the well crushing is carried to high square flat screen (5) through lifting machine (4) and is sieved, the pearlite ore after the screening exports from finished product export (6), the unqualified material export (7) output through the flat screen of pearlite ore after the screening.
Furthermore, a middle crusher (3) in the perlite ore beneficiation process production line provided with the square plansifter adopts a sand making machine, the sand making machine performs middle crushing on perlite ore, and the crushed perlite ore is conveyed to the square plansifter (5) through a lifter (4) to be screened.
Referring to fig. 2, a zeolite ore beneficiation process production line provided with a square plansifter; including breaker (1), conveyer (2), milling machine (8), negative pressure conveying system, square plansifter (5), zeolite ore raw materials gets into breaker (1), breaker (1) carries out the coarse crushing with zeolite ore raw materials, zeolite ore after the coarse crushing passes through conveyer (2) and conveys to milling machine (8), zeolite ore powder after the crocus passes through the negative pressure conveying system of milling machine (8) upper end and sieves through getting into square plansifter (5), zeolite ore powder after the screening is exported from finished product export (6), unqualified through the unqualified material export (7) output of plansifter of zeolite ore after the screening.
Further, zeolite ore beneficiation process production line with square plansifter in milling machine (8) adopt the Raymond mill, negative pressure conveying system contain fan (12), tuber pipe (9), tripper (10), air seal machinery (11), dust remover (13), the Raymond mill carry out the crocus to the zeolite ore, zeolite ore powder after the crocus passes through tuber pipe (9) extraction of negative pressure conveying system, gets into square plansifter (5) through negative pressure conveying system's tripper (10) and air seal machinery (11) and sieves.
Further, the square plansifter (5) can be divided into a single screen, a double screen, a four-bin type square plansifter, a six-bin type square plansifter, an eight-bin type square plansifter and the like according to the number of the screen bins, and each screen bin is provided with a feeding hole; the material screening device is arranged in a process link needing screening, and can be divided into different screening bins according to the capacity requirement, so that the number of the screening bins needing screening is adjusted, the material enters the screening bins through the feed inlet of each screening bin to be screened, and each screening bin is provided with 8 discharge outlets for selection.
Furthermore, each screen cabin of the square plansifter can automatically adjust the internal structure of the screen cabin according to the requirements of the screening classification number, the screening length and the screening area.
Aiming at the comparison of screening efficiency of the high-square flat screen and the vibrating screen in perlite ore and zeolite ore, an experiment is carried out, data are recorded, the high-square flat screen and the vibrating screen for the experiment are respectively provided with screens with 80 meshes, 140 meshes and 170 meshes, perlite tailings and zeolite ore powder are screened, the time of 20 seconds, 40 seconds, 60 minutes, 80 minutes, 100 minutes, 120 minutes, 140 minutes, 160 minutes and 180 seconds are respectively screened, the weight of objects above and below the screen is counted, and the screening efficiency of the high-square flat screen and the vibrating screen for the experiment is compared. The results are shown in Table 1.
TABLE 1 comparison table of screening efficiency of high-square flat screen and vibrating screen in pearlite ore and zeolite ore
Figure BSA0000176120720000031
TABLE 2 analysis of experimental screening data
Figure BSA0000176120720000032
The data analysis for the experimental results table 1 is detailed in table 2, and data analysis graphs are prepared, which are detailed in fig. 3, 4 and 5. According to the experimental data analysis table 2 and the graph 3, fig. 4 and fig. 5 show that the perlite tailings sieved by the experimental high square flat screen are sieved about 60s by adopting an 80-mesh screen, and the perlite tailings sieved by the experimental vibrating screen are sieved about 80s by adopting an 80-mesh screen; the experimental high square flat screen sieve adopts an 80-mesh screen to sieve the zeolite mineral powder after 20 seconds, and the experimental vibrating screen sieve adopts an 80-mesh screen to sieve the zeolite mineral powder after 60 seconds. Screening the perlite tailings screened by the experimental high-square flat screen by adopting a 140-mesh screen for about 60 seconds, and screening the perlite tailings screened by the experimental vibrating screen by adopting a 140-mesh screen for about 120 seconds; the experimental high square flat screen sieve is used for sieving the zeolite mineral powder for about 40 seconds, and the experimental vibrating screen sieve is used for sieving the zeolite mineral powder for about 100 seconds. Screening perlite tailings screened by an experimental high-square flat screen by using a 170-mesh screen for about 80s, and screening perlite tailings screened by an experimental vibrating screen by using a 170-mesh screen for about 160 s; the experimental high square flat screen sieve is used for sieving the zeolite mineral powder for 60 seconds and is sieved at left and right, and the experimental vibrating screen sieve is used for sieving the zeolite mineral powder for 180 seconds and is sieved at left and right.
The analysis of the experimental data shows that the screening efficiency of the experimental high-square flat screen for screening the perlite tailings and the zeolite mineral powder is higher than that of the experimental vibrating screen, and the experimental vibrating screen is not suitable for screening fine materials and powdery materials.
The above descriptions are the detailed descriptions of the present invention with reference to the preferred embodiments, and the specific implementation of the present invention cannot be considered as limited to these, and the simple deduction and replacement made without departing from the spirit of the present invention should be considered as the protection scope of the present invention.

Claims (8)

1. Perlite ore beneficiation process production line with square plansifter comprises a crusher, a conveyor, a middle crusher, a lifter and the square plansifter, and is characterized in that: perlite ore raw materials enter a crusher, the crusher coarsely crushes the perlite ore raw materials, the coarsely crushed perlite ore is conveyed to a middle crusher through a conveyor, the middle crushed perlite ore is conveyed to a square plansifter through an elevator to be screened, the screened perlite ore is output from a finished product outlet, and the screened perlite ore is unqualified and is output through a plane sifter unqualified material outlet.
2. The perlite ore beneficiation process production line with the square plansifter of claim 1, wherein the square plansifter is divided into a single screen, a double screen, a four-bin type square plansifter, a six-bin type square plansifter, an eight-bin type square plansifter and the like according to the number of the screening bins, and each screening bin has a feeding hole; the material screening device is arranged in a process link needing screening, and can be divided into different screening bins according to the capacity requirement, so that the number of the screening bins needing screening is adjusted, the material enters the screening bins through the feed inlet of each screening bin to be screened, and each screening bin is provided with 8 discharge outlets for selection.
3. The production line for the perlite ore beneficiation process provided with the square plansifter according to the claim 1, wherein each screen cabin of the square plansifter can automatically adjust the internal structure of the screen cabin according to the screening classification number, the screening length and the screening area.
4. The perlite ore beneficiation process production line provided with the square plansifter of claim 1, wherein the middle crusher adopts a sand making machine, the sand making machine performs middle crushing on perlite ore, and the crushed perlite ore is conveyed to the square plansifter through an elevator to be screened.
5. Zeolite ore dressing technology production line with high square flat screen, including breaker, conveyer, milling machine, negative pressure conveying system, high square flat screen, its characterized in that: the zeolite ore raw material enters a crusher, the crusher coarsely crushes the zeolite ore raw material, the coarsely crushed zeolite ore is conveyed to a pulverizer through a conveyor, pulverized zeolite ore powder is screened through a negative pressure conveying system at the upper end of the pulverizer after entering a square flat screen, the screened zeolite ore powder is output from a finished product outlet, and unqualified zeolite ore after screening is output through a unqualified material outlet of the flat screen.
6. The production line of claim 5, wherein the pulverizer adopts a Raymond mill, the negative pressure conveying system comprises a fan, an air duct, a discharger, an air seal device and a dust remover, the Raymond mill grinds zeolite ore, and the grinded zeolite ore powder is extracted through the air duct of the negative pressure conveying system and enters the square flat screen for screening through the discharger and the air seal device of the negative pressure conveying system.
7. The production line of claim 5, wherein the square plansifter is divided into a single screen, a double screen, a four-bin square plansifter, a six-bin square plansifter, an eight-bin square plansifter and the like according to the number of the screening bins, and each screening bin has a feeding hole; the material screening device is arranged in a process link needing screening, and can be divided into different screening bins according to the capacity requirement, so that the number of the screening bins needing screening is adjusted, the material enters the screening bins through the feed inlet of each screening bin to be screened, and each screening bin is provided with 8 discharge outlets for selection.
8. A zeolite ore dressing process production line with a square plansifter according to claim 5, wherein each screen cabin of the square plansifter can automatically adjust the internal structure of the screen cabin according to the requirements of the screening classification type, the screening length and the screening area.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109513513A (en) * 2018-12-19 2019-03-26 郭晓勇 Perlite ore or Zeolite mineral ore-dressing technique production line equipped with square plansifter

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109513513A (en) * 2018-12-19 2019-03-26 郭晓勇 Perlite ore or Zeolite mineral ore-dressing technique production line equipped with square plansifter

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