A kind of mining flotation device of total cross-section gas-lifting type microvesicle
The present invention relates to flotation technology field more particularly to a kind of mining flotation devices of total cross-section gas-lifting type microvesicle.
Flotation device is the abbreviation of floator, refers to the mechanical equipment for completing floatation process, in flotation device, through medicine is added
Agent treated ore pulp is inflated by stirring, so that some of which ore particle is selectively bonded on bubble, floating to ore pulp surface
It is scraped to form froth pulp, rest part is then retained in ore pulp, to achieve the purpose that detach mineral, the structure shape of flotation device
There are many formula, and the most commonly used is agitation impeller flotators at present, but the existing mining flotation device of total cross-section gas-lifting type microvesicle stirs
Mix structure mixing direction it is single cause to stir material stream move rule, and then stirring efficiency lowly makes processing efficiency reduce.
The purpose of the present invention is to solve disadvantages existing in the prior art, such as：It is floating that total cross-section gas-lifting type microvesicle is mining
Select machine stirring structure mixing direction is single to cause to stir the dynamic rule of material stream and then low, and proposing a kind of complete section of processing efficiency
The mining flotation device of face gas-lifting type microvesicle.
To achieve the goals above, present invention employs following technical solutions：
A kind of mining flotation device of total cross-section gas-lifting type microvesicle, including body pass through driving on the inner wall of the organism bottom
Motor is fixedly connected with auger plate, and the input and output material being connected to body top inner wall is fixedly connected at the top of the body
It struggles against, has been fixedly connected with mounting blocks on the inner wall at left and right sides of the body, side of the mounting blocks far from body inner wall is
Inclined-plane, side of the mounting blocks far from body inner wall are fixedly connected with stepper motor, and the mounting blocks are far from body inner wall
Side is fixedly connected with the limiting plate close to body roof side positioned at stepper motor, the limiting plate close to stepper motor one
Side offers limiting slot, and output end of the stepper motor far from mounting blocks side is threaded with pushing block by threaded rod,
Side of the pushing block far from stepper motor, which is fixed by the connecting rod, is connected with the first sinuous flow plate, and the pushing block is close to limit
The side of plate is slidably connected at by gag lever post on the inner surface of limiting slot, and side of the pushing block far from limiting plate, which is fixed, to be connected
It is connected to action plate, side of the action plate far from pushing block is fixedly connected with driving tooth block, on the inner wall at the body back side
It is connected with positioned at driving tooth block lower section and symmetrical two transmission gears, the transmission gear and master by installing bearing block
Connection is engaged between moving teeth block.
Preferably, the sliding groove below mounting blocks, the cunning are offered on the inner wall at left and right sides of the body
Driven tooth plate, the company of engagement between the driven tooth plate and transmission gear are slidably connected by sliding bar on the inner surface of dynamic slot
Preferably, the bottom end of the driven tooth plate is connected with drive link, the body or so by the first articulation piece
The spacing ring below sliding groove is fixedly connected with by board on the inner wall of both sides, the drive link is far from driven tooth
One end of plate is connected with catch bar by the second articulation piece, and the one end of the catch bar far from drive link is solid through spacing ring
Surely it is connected with the second sinuous flow plate.
Preferably, the quantity of the action plate side driving tooth block is no less than seven, the driving tooth block rectangular array,
The positive shape of driving tooth block is trapezoidal.
Preferably, the angle between side and vertical plane of the mounting blocks far from body inner wall is at 40 degree to 60 degree
Preferably, it is fixedly connected with sliding-aided mat on the inner surface of the limiting slot, is fixed on the outer surface of the gag lever post
It is connected with wear-resistant pad.
Compared with prior art, the beneficial effects of the invention are as follows：Setting stepper motor make the first sinuous flow plate in gag lever post and
The effect that is upset of direction is moved to stirring material stream under the action of limiting slot, then transmission gear is set and driven tooth plate plays profit
The effect upset again in direction is moved to stirring material stream with stepper motor powered the second sinuous flow plate, and then passes through sinuous flow twice
Achieve the effect that promote whole mixing quality and stirring efficiency, reaches promotion flotation device working efficiency by promoting stirring efficiency
Description of the drawings
Fig. 1 is a kind of structural schematic diagram of the mining flotation device of total cross-section gas-lifting type microvesicle proposed by the present invention；
Fig. 2 is a kind of enlarged drawing of the mining flotation device Fig. 1 of total cross-section gas-lifting type microvesicle proposed by the present invention.
In figure：1 body, 2 auger plates, 3 mounting blocks, 4 stepper motors, 5 limiting plates, 6 limiting slots, 7 threaded rods, 8 push away
Motion block, 9 first sinuous flow plates, 10 gag lever posts, 11 action plates, 12 driving tooth blocks, 13 transmission gears, 14 sliding grooves, 15 driven tooth plates,
16 drive links, 17 spacing rings, 18 catch bars, 19 second sinuous flow plates.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.
In the description of the present invention, it is to be understood that, term "upper", "lower", "front", "rear", "left", "right", "top",
The orientation or positional relationship of the instructions such as "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, merely to just
In the description present invention and simplify description, do not indicate or imply the indicated device or element must have a particular orientation, with
Specific azimuth configuration and operation, therefore be not considered as limiting the invention.
Referring to Fig.1-2, a kind of mining flotation device of total cross-section gas-lifting type microvesicle, including body 1, on the inner wall of 1 bottom of body
By driving motor it is fixedly connected with auger plate 2, the top of body 1 is fixedly connected with to be connected to 1 top inner wall of body
Hopper is passed in and out, mounting blocks 3, side of the mounting blocks 3 far from 1 inner wall of body have been fixedly connected on the inner wall of 1 left and right sides of body
For inclined-plane, the angle between side and vertical plane of the mounting blocks 3 far from 1 inner wall of body is between 40 degree to 60 degree, installation
Side of the block 3 far from 1 inner wall of body is fixedly connected with stepper motor 4, and side of the mounting blocks 3 far from 1 inner wall of body is fixedly connected
Have positioned at stepper motor 4 close to the limiting plate 5 of 1 roof side of body, limiting plate 5 opens up limited close to the side of stepper motor 4
Position slot 6, output end of the stepper motor 4 far from 3 side of mounting blocks are threaded with pushing block 8 by threaded rod 7, and pushing block 8 is remote
Side from stepper motor 4, which is fixed by the connecting rod, is connected with the first sinuous flow plate 9, and pushing block 8 passes through close to the side of limiting plate 5
Gag lever post 10 is slidably connected on the inner surface of limiting slot 6, and sliding-aided mat, gag lever post are fixedly connected on the inner surface of limiting slot 6
Wear-resistant pad is fixedly connected on 10 outer surface, side of the pushing block 8 far from limiting plate 5 is fixedly connected with action plate 11, action
Side of the plate 11 far from pushing block 8 is fixedly connected with driving tooth block 12, and the quantity of 11 side driving tooth block 12 of action plate is no less than
Seven, 12 rectangular array of driving tooth block, 12 positive shape of driving tooth block is trapezoidal, passes through peace on the inner wall at 1 back side of body
Dress bearing block is connected with positioned at 12 lower section of driving tooth block and symmetrical two transmission gears 13, transmission gear 13 and driving tooth
Connection is engaged between block 12, and the sliding groove 14 positioned at 3 lower section of mounting blocks, sliding are offered on the inner wall of 1 left and right sides of body
Driven tooth plate 15, the company of engagement between driven tooth plate 15 and transmission gear 13 are slidably connected by sliding bar on the inner surface of slot 14
It connects, the bottom end of driven tooth plate 15 is connected with drive link 16 by the first articulation piece, leads on the inner wall of 1 left and right sides of body
It crosses board and is fixedly connected with the spacing ring 17 positioned at 14 lower section of sliding groove, the one end of drive link 16 far from driven tooth plate 15 passes through
Second articulation piece is connected with catch bar 18, and the one end of catch bar 18 far from drive link 16 is fixedly connected with through spacing ring 17
Second sinuous flow plate 19.
In the present invention, when user uses the device, starting stepper motor 4 makes threaded rod 7 be rotated, threaded rod 7
Rotation makes pushing block 8 that the first sinuous flow plate 9 be pushed to upset stirring material stream dynamic direction under the action of gag lever post 10 and limiting slot 6
The movement of effect, pushing block 8 makes 12 Traction Drive gear 13 of driving tooth block rotate, and the rotation of transmission gear 13 makes catch bar 18 control
The action of the second sinuous flow plate 19 is made, the action of the second sinuous flow plate 19 plays the role of secondary stirring material stream of upsetting and moves direction, passes through
Upset the dynamic direction of stirring material stream twice to achieve the effect that promote mixing quality and efficiency, flotation device work effect is promoted to reach
The effect of rate.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
Any one skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.