CN205392958U - Controllable grit material level system of disposition interconnected system of developments - Google Patents
Controllable grit material level system of disposition interconnected system of developments Download PDFInfo
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- CN205392958U CN205392958U CN201620178088.0U CN201620178088U CN205392958U CN 205392958 U CN205392958 U CN 205392958U CN 201620178088 U CN201620178088 U CN 201620178088U CN 205392958 U CN205392958 U CN 205392958U
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- feed bin
- chute
- vibrosieve
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Abstract
The utility model provides a controllable grit material level system of disposition interconnected system of developments, relates to construction technical field, and that solves improves the level to join in marriage the technical problem of efficiency. This system's involving vibrations sieve, and install the branch workbin in the shale shaker below, be equipped with a plurality of feed bins in dividing the workbin, the lower extreme discharge gate of each feed bin all is equipped with the bin gate, and the upper end feed inlet of each feed bin docks with each discharging channel's of shale shaker discharge end one by one, be equipped with a flash chute in the branch workbin, the flash chute has a down dip from the right side to left hand to pass each feed bin from the right side in proper order to a left side, set up the import of a plurality of flashs and the export of a plurality of flashs that correspond each feed bin on the flash chute respectively. The system provided by the utility model, it is succinctly with low costs to compare traditional device design, has saved a plurality of withdrawal of currency from circulation belt feeders, and overall area is little, and easy operation, proportion developments are controllable, have simplified traditional process, and the operation is joined in marriage to completion level that can "High quality".
Description
Technical field
This utility model relates to technical field of building construction, especially relates to a kind of dynamically controlled sand material level match system.
Background technology
In highway construction or building trade, in order to meet different demands, it is necessary to the sand material of different-grain diameter is carried out proportioning by a certain percentage.Traditional equipment carry out a grade timing generally require wait sand material completion of processing discharging after, again through a series of withdrawal of currency from circulation belts, be transmitted back to grating equipment and complete grating.Grating ratio needs manually to be controlled, and whole equipment or system are very complicated, inefficient.
Utility model content
Technical problem to be solved in the utility model is to provide the dynamically controlled sand material level match system that a kind of material grating efficiency is high.
For achieving the above object, the technical solution of the utility model is: a kind of dynamically controlled sand material level match system, including vibrosieve, and is arranged on the distribution box below vibrosieve, it is characterized in that: described vibrosieve has multiple tapping channel, in described distribution box, be provided with multiple feed bin;
Each feed bin is laid from right to left successively, and the upper end of each feed bin offers charging aperture, and the lower end of each feed bin offers discharging opening, and the discharging opening of each feed bin is designed with bin gate, and the charging aperture of each feed bin docks one by one with the discharge end of each tapping channel of vibrosieve;
A flash chute it is provided with in described distribution box, described flash chute is a body downward-sloping from right to left, the right-hand member mouth of pipe of flash chute stretches into from right to left in first feed bin, and the right-hand member mouth of pipe top of flash chute is provided with the striker plate falling into flash chute for blanking above block resistance, the groove body of flash chute sequentially passes through each feed bin from right to left, and the flash chute segmentation in other feed bins except first feed bin from right to left, on the cell wall of upside, all offer a flash import, and on the cell wall of downside, offer a flash outlet.
Further, this system also includes disintegrating machine, and is used for material from low-lift to high-order elevator;
The left end mouth of pipe of described flash chute receives the charging aperture of disintegrating machine, and the discharging opening of disintegrating machine receives the charging aperture of elevator, and the discharging opening of elevator receives the charging aperture of vibrosieve.
Further, each flash outlet of described flash chute is equipped with sealing up a door for the flash controlling this flash outlet aperture.
Further, the dynamic angle of repose of the angle of inclination >=solid accumulation of described flash chute.
The beneficial effects of the utility model are:
It is low that this utility model compares the legacy equipment succinct cost of design, eliminates some withdrawal of currency from circulation belt feeders, and overall floor space is little, simple to operate, ratio is dynamically controlled, simplify conventional processes, it is possible to high-quality and efficient completes grating operation, have the advantages that material grating efficiency is high.
Accompanying drawing explanation
Fig. 1 is the structural representation of the dynamically controlled sand material level match system of this utility model embodiment;
Fig. 2 is one of structural upright sectional view of distribution box in the dynamically controlled sand material level match system of this utility model embodiment;
Fig. 3 is the two of the structural upright sectional view of the distribution box in the dynamically controlled sand material level match system of this utility model embodiment.
Detailed description of the invention
Illustrate embodiment of the present utility model is described in further detail below in conjunction with accompanying drawing; but the present embodiment is not limited to this utility model; every employing analog structure of the present utility model and similar change thereof; all should listing protection domain of the present utility model in, the pause mark in this utility model all represents the relation of sum.
As shown in Figure 1 to Figure 3, a kind of dynamically controlled sand material level match system that this utility model embodiment provides, including vibrosieve 1, and is arranged on the distribution box 2 below vibrosieve 1, it is characterized in that: described vibrosieve 1 has multiple tapping channel 11, in described distribution box 2, be provided with multiple feed bin 21;
Each feed bin 21 is laid from right to left successively, the upper end of each feed bin 21 offers charging aperture, the lower end of each feed bin 21 offers discharging opening, and the discharging opening of each feed bin 21 is designed with bin gate 3, and the charging aperture of each feed bin 21 docks one by one with the discharge end of each tapping channel 11 of vibrosieve 1;
A flash chute 6 it is provided with in described distribution box 2, described flash chute 6 is a body downward-sloping from right to left, the right-hand member mouth of pipe of flash chute 6 stretches into from right to left in first feed bin 21, and the right-hand member mouth of pipe top of flash chute 6 is provided with the striker plate 63 falling into flash chute for blanking above block resistance, the groove body of flash chute 6 sequentially passes through each feed bin 21 from right to left, and the flash chute segmentation in other feed bins except first feed bin from right to left, on the cell wall of upside, all offer a flash import 61, and on the cell wall of downside, offer a flash outlet 62.
This utility model embodiment also includes disintegrating machine 4, and is used for material from low-lift to high-order elevator 5;
The left end mouth of pipe of described flash chute 6 receives the charging aperture of disintegrating machine 4, and the discharging opening of disintegrating machine 4 receives the charging aperture of elevator 5, and the discharging opening of elevator 5 receives the charging aperture of vibrosieve 1.
In this utility model embodiment, each flash of described flash chute 6 outlet 62 is equipped with sealing up a door (not shown) for the flashes controlling this flash outlet aperture.
In this utility model embodiment, the dynamic angle of repose of the angle of inclination >=solid accumulation of described flash chute.
The grading method of the dynamically controlled sand material level match system of this utility model embodiment is as follows:
Sand material putting into vibrosieve 1, utilizes 1 sand material of vibrosieve by particle diameter screening for after multiple product material, each product material after being sieved by each tapping channel 11 of vibrosieve is respectively fed to each feed bin 21 in distribution box;
When not having grating to require, the product material in each feed bin 21 respectively exports through the bin gate 3 of feed bin discharge hole;
Need multiple product material therein is carried out a grade timing, to load in each feed bin treating grating product material, the bin gate of each feed bin except first feed bin from left to right is closed, and the bin gate of from left to right first feed bin is opened, and the flash outlet in the flash chute segmentation in this feed bin opened, and other flashes on flash chute are exported closing;
nullSuch as the product material in right two feed bins (from right to left second feed bin) is carried out grating with the product material in right three feed bins (from right to left the 3rd feed bin),Then the bin gate of right two feed bins is closed,And the bin gate of right three feed bins is opened,And the flash outlet in the flash chute segmentation in right three feed bins is opened,And other flashes on flash chute are exported closing,When the height of the flash import stored up in the flash chute segmentation highly exceeded in right two feed bins of the product material in right two feed bins,Product material in right two feed bins enters flash chute by this flash import,And slid underneath to the left,And when sliding into right three feed bin place,Export from the flash the flash chute segmentation in right three feed bins and enter right three feed bins,Thus mixing with the product material in right three feed bins,In this course,Each particle diameter sand material ratio can be controlled by the size of the control system each feed inlet and outlet of control,Then it is transported to first feed bin recovery from left to right by flash chute beyond part or is transported to disintegrating machine by flash chute and does over again,Disintegrating machine do over again after material then again send vibrosieve back to by elevator.Owing to, in this process, the sand material of various grain size specification is in dynamically, and grating process directly mixes, it is no longer necessary to extra mix and blend operation can directly be output into and meet the finished product material that grating requires.
Claims (4)
1. a dynamic controlled sand material level match system, including vibrosieve, and is arranged on the distribution box below vibrosieve, it is characterised in that: described vibrosieve has multiple tapping channel, is provided with multiple feed bin in described distribution box;
Each feed bin is laid from right to left successively, and the upper end of each feed bin offers charging aperture, and the lower end of each feed bin offers discharging opening, and the discharging opening of each feed bin is designed with bin gate, and the charging aperture of each feed bin docks one by one with the discharge end of each tapping channel of vibrosieve;
A flash chute it is provided with in described distribution box, described flash chute is a body downward-sloping from right to left, the right-hand member mouth of pipe of flash chute stretches into from right to left in first feed bin, and the right-hand member mouth of pipe top of flash chute is provided with the striker plate falling into flash chute for blanking above block resistance, the groove body of flash chute sequentially passes through each feed bin from right to left, and the flash chute segmentation in other feed bins except first feed bin from right to left, on the cell wall of upside, all offer a flash import, and on the cell wall of downside, offer a flash outlet.
2. dynamically controlled sand material level match system according to claim 1, it is characterised in that: this system also includes disintegrating machine, and is used for material from low-lift to high-order elevator;
The left end mouth of pipe of described flash chute receives the charging aperture of disintegrating machine, and the discharging opening of disintegrating machine receives the charging aperture of elevator, and the discharging opening of elevator receives the charging aperture of vibrosieve.
3. dynamically controlled sand material level match system according to claim 1, it is characterised in that: each flash outlet of described flash chute is equipped with sealing up a door for the flash controlling this flash outlet aperture.
4. dynamically controlled sand material level match system according to claim 1, it is characterised in that: the dynamic angle of repose of the angle of inclination >=solid accumulation of described flash chute.
Priority Applications (1)
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CN201620178088.0U CN205392958U (en) | 2016-03-09 | 2016-03-09 | Controllable grit material level system of disposition interconnected system of developments |
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CN201620178088.0U CN205392958U (en) | 2016-03-09 | 2016-03-09 | Controllable grit material level system of disposition interconnected system of developments |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598031A (en) * | 2016-03-09 | 2016-05-25 | 上海岚致环保科技有限公司 | System and method for dynamically and controllably grading aggregate |
CN110127388A (en) * | 2018-02-09 | 2019-08-16 | 中冶宝钢技术服务有限公司 | Slag processing system |
-
2016
- 2016-03-09 CN CN201620178088.0U patent/CN205392958U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598031A (en) * | 2016-03-09 | 2016-05-25 | 上海岚致环保科技有限公司 | System and method for dynamically and controllably grading aggregate |
CN110127388A (en) * | 2018-02-09 | 2019-08-16 | 中冶宝钢技术服务有限公司 | Slag processing system |
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