CN201855738U - Alternating variable-speed return transmission magnetic separation mechanism - Google Patents
Alternating variable-speed return transmission magnetic separation mechanism Download PDFInfo
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- CN201855738U CN201855738U CN2010206075460U CN201020607546U CN201855738U CN 201855738 U CN201855738 U CN 201855738U CN 2010206075460 U CN2010206075460 U CN 2010206075460U CN 201020607546 U CN201020607546 U CN 201020607546U CN 201855738 U CN201855738 U CN 201855738U
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- rotating shaft
- gear train
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- elliptic gear
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Abstract
The utility model discloses an alternating variable-speed return transmission magnetic separation mechanism which comprises a motor, an outer rotating shaft, an inner rotating shaft, a first eccentric elliptical gear set, a second eccentric elliptical gear set, a driving wheel, a tap hole, a discharging port, an airtight isolation arc plate, a first magnet set, a second magnet set and a magnet fixed block, wherein the motor is in transmission connection with the driving wheel; the first eccentric elliptical gear set is connected with the outer rotating shaft; the first eccentric elliptical gear set is meshed with the second eccentric elliptical gear set; the driving wheel is connected with the first eccentric elliptical gear set and the second eccentric elliptical gear set; the second magnet set is connected with the inner rotating shaft to form integrity through the magnet fixed block; the first magnet set is fixed on the outer rotating shaft; the airtight isolation arc plate is positioned outside the first magnet set and the second magnet set; and the tap hole and the discharging port are arranged below the airtight isolation arc plate. The alternating variable-speed return transmission magnetic separation mechanism effectively separates iron materials of various complex shapes.
Description
Technical field
The utility model relates to a kind of transmission magnetic separation mechanism, particularly a kind of alternation speed backhaul transmission magnetic separation mechanism.
Background technology
Along with the increasingly extensive application of permanent-magnet concentration technology in every profession and trade, existing magnetic plant structure can not be competent at diversified feed separation requirement fully.The tradition magnetic plant is used for adsorbing powdery, granular irony more, and special a little when the material state, as unconventional states such as long hair shape, bulk, pencils, then easily forms the waterfall shape magnetic that magnetic field absorption forms and connects and can not break away from magnetic field and result in blockage shutdown.
The utility model content
Technical problem to be solved in the utility model provides the fast backhaul transmission of a kind of alternation magnetic separation mechanism, and it effectively separates various complicated form irony materials.
For solveing the technical problem, the utility model provides the fast backhaul transmission of a kind of alternation magnetic separation mechanism, it is characterized in that, alternation speed backhaul transmission magnetic separation mechanism comprises motor, the outward turning rotating shaft, interior rotating shaft, the first eccentric elliptic gear train, the second eccentric elliptic gear train, driving wheel, tapping hole, discharging opening, airtight isolation arc plate, first group of magnets, second group of magnets and magnet fixed block, motor is in transmission connection with the drive driving wheel, the first eccentric elliptic gear train is connected with the outward turning rotating shaft, the first eccentric elliptic gear train and the second eccentric elliptic gear train are meshed, the driving wheel and the first eccentric elliptic gear train, the second eccentric elliptic gear train links to each other, second group of magnets is connected as a single entity by magnet fixed block and interior rotating shaft, first group of magnets is fixed in the outward turning rotating shaft, airtight isolation arc plate is positioned at the outside of first group of magnets and second group of magnets, tapping hole, discharging opening is below airtight isolation arc plate.
Preferably, the fast backhaul transmission of described alternation magnetic separation mechanism also comprises charging aperture, and charging aperture is positioned at the top of airtight isolation arc plate.
Positive progressive effect of the present utility model is: the utility model forms two rotating mechanisms at the iron tramp of isolating by airtight isolation arc plate in material adsorption zone noncontact replacing uniform rotation in the absorption material with magnet structure, near the tapping hole position time, one group of magnet mechanism at first produces a quick jerking movement away from the outer iron tramp of dividing plate, causes the no magnetic blanking time of a long period simultaneously in the tapping hole position so that iron tramp has grace time to break away from magnetic field and discharge from tapping hole.This moment, another group magnet mechanism began the action of first group of magnet mechanism of repetition, thereby two groups of magnet mechanism alternate cycles are finished the continuous process of tapping a blast furnace.
Description of drawings
Fig. 1 is the structural representation of the utility model one embodiment.
The specific embodiment
Lift a preferred embodiment below, and come the clearer the utility model that intactly illustrates in conjunction with the accompanying drawings.
As shown in Figure 1, the utility model alternation speed backhaul transmission magnetic separation mechanism comprises motor 1, outward turning rotating shaft 2, interior rotating shaft 3, the first eccentric elliptic gear train 4, the second eccentric elliptic gear train 5, driving wheel 6, tapping hole 7, discharging opening 8, airtight isolation arc plate 9, first group of magnets 10, second group of magnets 11, charging aperture 12 and magnet fixed block 13, motor 1 is in transmission connection with drive driving wheel 6, the first eccentric elliptic gear train 4 is connected with outward turning rotating shaft 2, the first eccentric elliptic gear train 4 and the second eccentric elliptic gear train 5 are meshed, the driving wheel 6 and the first eccentric elliptic gear train 4, the second eccentric elliptic gear train 5 links to each other, second group of magnets 11 is connected as a single entity by magnet fixed block 13 and interior rotating shaft 3, first group of magnets 10 is fixed in the outward turning rotating shaft 2, airtight isolation arc plate 9 is positioned at the outside of first group of magnets 10 and second group of magnets 11, tapping hole 7, discharging opening 8 is below airtight isolation arc plate 9, charging aperture 12 is positioned at the top of airtight isolation arc plate 9 and is used for charging, and airtight isolation arc plate 9 is separated blanking district and magnetic separator mechanism part.
The quick return driving magnet mechanism that processing contains big metal impurities has the quick return function, motor 1 is done uniform rotation by passing band drive driving wheel 6, driving wheel 6 links to each other with the driving tooth of the first eccentric elliptic gear train 4, the second eccentric elliptic gear train 5 by bearing pin and synchronously rotates, and the driving tooth of the first eccentric elliptic gear train 4, the second eccentric elliptic gear train 5 is meshed with driven tooth.The driven tooth of the first eccentric elliptic gear train 4 is connected with outward turning rotating shaft 2 with one of axle sleeve letter structure rotating shaft; The driven tooth of the second eccentric elliptic gear train 5 with axle sleeve letter structure in another rotating shaft 3 be connected, second group of magnets 11 and first group of magnets 10 respectively account for 1/4 space, circular section approximately, group of magnets and rotating mechanism are sealed isolates arc plate 9 and isolates with the blanking cavity airtight, and tapping hole 7 and discharging opening 8 are at the magnet motor spindle and be used for separation of iron and nonmetal.
During work, driven by motor driving wheel 6 turns clockwise, and drive the first eccentric elliptic gear train 4, the driving tooth of the second eccentric elliptic gear train 5 rotates, because the first eccentric elliptic gear train 4 and the second eccentric elliptic gear train 5 have the advantages that a speed circulation is respectively arranged in a rotation period, therefore when second group of magnets 11 the short radius of the second eccentric elliptic gear train 5 with low speed rotation irony is adsorbed on the airtight isolation arc plate 9 near the blanking initial position in the cycle and under the rotary magnetic field effect to lower slider, this moment, first group of magnets 10 was under the transmission of the second eccentric elliptic gear train 5, be in the major radius period of motion, just the iron tramp with fast rotational absorption produces to tapping hole 7 directions, above tapping hole, first group of magnets 10 is around the eccentric shaft quick return and gradually away from airtight isolation arc plate 9, and magnetic---the process of no magnetic a little less than above tapping hole, forming, thereby make the iron tramp that is taken to tapping hole top by magnet break away from the effect in magnetic field and obtain certain no magnetic freely falling body time and discharge from tapping hole 7, this moment, the first eccentric elliptic gear train 4 went to the major radius cycle, thereby driving first group of magnets 10 gets back to the magnet zone, below of charging aperture 12 fast and carries out magnetic separation, at this moment, second group of magnets 11 is in magnetic separation zone mouth and is about to repeat action that first group of magnets 10 finished to finish the deferrization process, therefore, the combination of section internal magnet maintains the enough low speed time of staying in charging magnetic separation district all the time in the unit interval.
Though more than described the specific embodiment of the present utility model, but those skilled in the art is to be understood that, these only illustrate, and under the prerequisite that does not deviate from principle of the present utility model and essence, can make numerous variations or modification to these embodiments.Therefore, protection domain of the present utility model is limited by appended claims.
Claims (2)
1. alternation speed backhaul transmission magnetic separation mechanism, it is characterized in that, alternation speed backhaul transmission magnetic separation mechanism comprises motor, the outward turning rotating shaft, interior rotating shaft, the first eccentric elliptic gear train, the second eccentric elliptic gear train, driving wheel, tapping hole, discharging opening, airtight isolation arc plate, first group of magnets, second group of magnets and magnet fixed block, motor is in transmission connection with the drive driving wheel, the first eccentric elliptic gear train is connected with the outward turning rotating shaft, the first eccentric elliptic gear train and the second eccentric elliptic gear train are meshed, the driving wheel and the first eccentric elliptic gear train, the second eccentric elliptic gear train links to each other, second group of magnets is connected as a single entity by magnet fixed block and interior rotating shaft, first group of magnets is fixed in the outward turning rotating shaft, airtight isolation arc plate is positioned at the outside of first group of magnets and second group of magnets, tapping hole, discharging opening is below airtight isolation arc plate.
2. the fast backhaul transmission of alternation as claimed in claim 1 magnetic separation mechanism is characterized in that, the fast backhaul transmission of described alternation magnetic separation mechanism also comprises charging aperture, and charging aperture is positioned at the top of airtight isolation arc plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010206075460U CN201855738U (en) | 2010-11-15 | 2010-11-15 | Alternating variable-speed return transmission magnetic separation mechanism |
Applications Claiming Priority (1)
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CN2010206075460U CN201855738U (en) | 2010-11-15 | 2010-11-15 | Alternating variable-speed return transmission magnetic separation mechanism |
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CN201855738U true CN201855738U (en) | 2011-06-08 |
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CN2010206075460U Expired - Fee Related CN201855738U (en) | 2010-11-15 | 2010-11-15 | Alternating variable-speed return transmission magnetic separation mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102463194A (en) * | 2010-11-15 | 2012-05-23 | 上海金匙环保科技有限公司 | Alternative-variable-speed return stroke transmission magnetic separation mechanism |
-
2010
- 2010-11-15 CN CN2010206075460U patent/CN201855738U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102463194A (en) * | 2010-11-15 | 2012-05-23 | 上海金匙环保科技有限公司 | Alternative-variable-speed return stroke transmission magnetic separation mechanism |
CN102463194B (en) * | 2010-11-15 | 2013-10-09 | 上海金匙环保科技有限公司 | Alternative-variable-speed return stroke transmission magnetic separation mechanism |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110608 Termination date: 20131115 |