CN204159400U - Tandem continuous ball mill carry flow table - Google Patents

Abstract

Tandem continuous ball mill carry a flow table, belong to the ceramic product plant-scale equipment and ball-milling technology technical field.It is characterized in that: comprise cylinder (1), cover plate (4) and flange in the bottom (5), cover plate (4) offers the taper of discharge opening for middle part, one end that cover plate (4) diameter is large is fixedly connected with one end of cylinder (1), flange in the bottom (5) is fixed on the other end of cylinder (1), cylinder (1) inner side is provided with multiple dividing plate (3), the conical internal cavity of cover plate (4) is divided into multiple fan-shaped compartment (6) by dividing plate (3), arc plate (2) is respectively equipped with between adjacent two dividing plates (3), arc plate (2) one end is fixedly connected with corresponding dividing plate (3), the other end and corresponding dividing plate (3) interval are arranged, arc plate (2) axial both sides are tightly connected cover plate (4) and flange in the bottom (5) respectively.The utility model makes the discharge method of ball grinder be changed into by traditional overflow and carries stream.

Description

Tandem continuous ball mill carry flow table

Technical field

Tandem continuous ball mill carry flow table, belong to the ceramic product plant-scale equipment and ball-milling technology technical field, specifically a kind of tandem continuous ball mill is with carrying flow table.

Background technology

The discharge method of existing continuous ball mill mostly adopts overflow manner discharging, and overflow discharging must make liquid level in tank body higher than discharging opening.Liquid level is too high also produces buoyancy to mill ball medium, and due to the impact of slip buoyancy, mill ball medium in tank body is reduced to the pressure of ball grinder, grinding effect declines.Liquid level in tank body is higher, and the grinding effect of mill ball medium is lower.When tank body is level, charging aperture and discharge outlet are on same axis, and slip also can overflow at charging aperture, will cause resistance like this to charging, also can affect the mixed effect of charging and mill ball medium while overflowing to discharging opening.So there is a lot of continuous ball mill to adopt the mounting means of high in and low out, namely charging aperture is higher than discharging opening, and this mode there will be mill ball medium few situation more than in tank body, and grinding effect can be made to have a greatly reduced quality.

Summary of the invention

Problem to be solved in the utility model is: overcome the deficiencies in the prior art, provide a kind of and the discharge method of ball mill become from original overflow carry stream, make the Liquid level in ball mill tank at the tandem continuous ball mill of ideal position carry flow table.

The utility model solves the technical scheme that its technical problem adopts: this tandem continuous ball mill carry flow table, it is characterized in that: comprise cylinder, cover plate and flange in the bottom, cover plate is the taper that middle part offers discharge opening, one end that cover plate diameter is large is fixedly connected with one end of cylinder, flange in the bottom is fixed on the other end of cylinder, multiple dividing plate is provided with inside cylinder, the conical internal cavity of cover plate is divided into multiple fan-shaped compartment by dividing plate, arc plate is respectively equipped with between adjacent two dividing plates, arc plate one end is fixedly connected with corresponding dividing plate, the other end is arranged with corresponding baffle interval, the axial both sides of arc plate are tightly connected cover plate and flange in the bottom respectively.Carry flow table the discharge method of ball grinder to be changed into by traditional overflow carry stream, the liquid level in tank body can control at ideal position as required.

Preferably, described dividing plate also has the deflector stretching out discharge opening, and deflector reduces gradually along material transferring direction.Deflector makes material flow out along the discharging opening carrying flow table.

Preferably, kuppe is fixed with in the outside of described deflector.

Preferably, the radial inner end of described each dividing plate is all fixed on a cone cylinder, and cone cylinder and described cylinder are coaxially arranged.

Preferably, a ring flange is also fixed with outside described cylinder.The effect of ring flange is fixed on carrying flow table on ball crusher discharge end cover.

Preferably, the number of described compartment is 6 ~ 9.

Preferably, described arc plate is distributed in circumferentially same.

Compared with prior art, the beneficial effect that flow table has of carrying of tandem continuous ball mill of the present utility model is:

Carry flow table the discharge method of ball grinder to be changed into by traditional overflow carry stream, the liquid level in ball mill tank can control at ideal position as required, and charging is more smooth and easy; Reduce the buoyancy of slip to mill ball medium simultaneously, add the integral pressure of mill ball medium, substantially increase ball milling speed and ball milling effect.

Accompanying drawing explanation

Fig. 1 is the structural representation carrying flow table of tandem continuous ball mill.

Fig. 2 is the main TV structure schematic diagram carrying flow table of tandem continuous ball mill.

Fig. 3 is the left TV structure schematic diagram carrying flow table of tandem continuous ball mill.

In figure: 1, cylinder 2, arc plate 3, dividing plate 301, deflector 4, cover plate 5, flange in the bottom 6, compartment 7, kuppe 8, cone cylinder 9, ring flange.

Detailed description of the invention

Fig. 1 ~ 3 are embodiments of the present utility model, are described further below in conjunction with accompanying drawing 1 ~ 3 pair of the utility model.

Tandem continuous ball mill, comprise cylinder 1, cover plate 4 and flange in the bottom 5, cover plate 4 offers the taper of discharge opening for middle part, one end that cover plate 4 diameter is large is fixedly connected with one end of cylinder 1, flange in the bottom 5 is fixed on the other end of cylinder 1, multiple dividing plate 3 is provided with inside cylinder 1, the conical internal cavity of cover plate 4 is divided into multiple fan-shaped compartment 6 by dividing plate 3, arc plate 2 is respectively equipped with between adjacent two dividing plates 3, arc plate 2 one end is fixedly connected with corresponding dividing plate 3, the other end and corresponding dividing plate 3 interval are arranged, the axial both sides of arc plate 2 are tightly connected cover plate 4 and flange in the bottom 5 respectively.

Embodiment 1

Cover plate 4 is pyramidal structure, and there is a plane one end that cover plate 4 diameter is little, and plane offers discharge opening, and one end that cover plate 4 diameter is large is fixedly connected with one end of cylinder 1, and the other end of cylinder 1 is fixedly connected with flange in the bottom 5.Be provided with nine dividing plates 3 inside flexible 1, the conical internal cavity of cover plate 4 is divided into nine fan-shaped compartments 6 by dividing plate 3.The radial outer end of dividing plate 3 is connected with cylinder inner wall, and the radial inner end of dividing plate 3 is all fixed on one with on the coaxial cone cylinder 8 arranged of cylinder 1, the radial inner end of dividing plate 3 also can between link together.Dividing plate 3 also has the deflector 301 stretching out discharge opening, and deflector 301 reduces gradually along the direction of material transferring.The outside of deflector 301 is fixing by kuppe 7, is connected below kuppe 7 with cover plate 4.Be respectively equipped with an arc plate 2 between two adjacent dividing plates 3, arc plate 2 is fixedly connected with along carrying the rear end that flow table turns to corresponding dividing plate 3, and arc plate 2 is along carrying front end that flow table turns to and corresponding dividing plate 3 interval is arranged.Nine arc plates 2 are distributed in circumferentially same, and arc plate 2 is arranged on the position near cylinder 1, is fixed on 1/6th places of dividing plate 3.The axial both sides of arc plate 2 are tightly connected cover plate 4 and flange in the bottom 5 respectively.

The outside of cylinder 1 is also fixed with a ring flange 9, and ring flange 9 will be for carrying flow table and be fixed on the crusher discharge end cover of ball grinder.

The flow table of carrying of tandem continuous ball mill is stainless steel, is integrated by being welded to connect.During welding with flange in the bottom 5 for benchmark, first cylinder 1 spot welding is positioned on flange in the bottom 5, by the radial outer end of nine pieces of dividing plates 3 respectively spot welding be positioned on the inwall of cylinder 1, the other spot welding of lower portion of nine pieces of dividing plates 3 is positioned on flange in the bottom 5, full weld after having good positioning, the radial inner end again spot welding of nine blocks of vertebra cylinder plates being fixed on dividing plate 3 forms cone cylinder 8, then by all junctions full weld.Be positioned on flange in the bottom 5 by other for the lower portion of nine blocks of arc plates 2 spot welding, arc plate 2 is positioned on dividing plate 3 along proposing the rear end spot welding that flow table turns to, and arc plate 2 is unsettled along the front end of rotation direction, full weld after having good positioning.Again the spot welding of nine blocks of tapering plates is positioned at the position that on the upper edge of dividing plate 3 and dividing plate 3, edge matches, the part that nine pieces of level board upper edge that spot welding is positioned at dividing plate 3 respectively match with dividing plate 3, after having good positioning, all junctions full weld is formed cover plate 4.Finally by nine pieces of water conservancy diversion cover plates respectively spot welding be positioned on deflector 301 and cover plate 4 and form kuppe 7, after having good positioning, all junction full welds are formed one and overall funnelformly carry flow table.

Flange in the bottom 5 place carrying flow table is feed end, and kuppe 7 place is discharge end, and disk body inside is separated into nine compartments 6 by spaced nine pieces of dividing plates 3.

Carry the crusher discharge end cover inside that flow table is arranged on continuous ball mill, rubber sieve plate is bolted on flange in the bottom 5, during work, slip to be entered by funnelform large mouth after being sieved by rubber sieve plate and carries in the compartment 6 of flow table, carry flow table along with ball mill and rotate, compartment 6 is filled with slip and rotates, can flow out in compartment 6 to slip during certain altitude, through funnel tubulose kuppe 7 flow out.

Embodiment 2

Dividing plate 3 in cylinder 1 and arc plate 2 arrange six pieces respectively, and form six compartments 6, remaining structure, shape and installation and occupation mode are as embodiment 1.

The above, it is only preferred embodiment of the present utility model, be not restriction the utility model being made to other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the Equivalent embodiments of equivalent variations.But everyly do not depart from technical solutions of the utility model content, any simple modification, equivalent variations and the remodeling done above embodiment according to technical spirit of the present utility model, still belong to the protection domain of technical solutions of the utility model.

Claims (7)

1. a tandem continuous ball mill carry flow table, it is characterized in that: comprise cylinder (1), cover plate (4) and flange in the bottom (5), cover plate (4) offers the taper of discharge opening for middle part, one end that cover plate (4) diameter is large is fixedly connected with one end of cylinder (1), flange in the bottom (5) is fixed on the other end of cylinder (1), cylinder (1) inner side is provided with multiple dividing plate (3), the conical internal cavity of cover plate (4) is divided into multiple fan-shaped compartment (6) by dividing plate (3), arc plate (2) is respectively equipped with between adjacent two dividing plates (3), arc plate (2) one end is fixedly connected with corresponding dividing plate (3), the other end and corresponding dividing plate (3) interval are arranged, arc plate (2) axial both sides are tightly connected cover plate (4) and flange in the bottom (5) respectively.

2. tandem continuous ball mill according to claim 1 carry flow table, it is characterized in that: described dividing plate (3) also has the deflector (301) stretching out discharge opening, and deflector (301) reduces gradually along material transferring direction.

3. carry flow table according to tandem continuous ball mill according to claim 2, it is characterized in that: be fixed with kuppe (7) in the outside of described deflector (301).

4. tandem continuous ball mill according to claim 1 carry flow table, it is characterized in that: the radial inner end of described each dividing plate (3) is all fixed on cone cylinder (8), and cone cylinder (8) and described cylinder (1) are coaxially arranged.

5. tandem continuous ball mill according to claim 1 carry flow table, it is characterized in that: described cylinder (1) outside is also fixed with a ring flange (9).

6. tandem continuous ball mill according to claim 1 carry flow table, it is characterized in that: the number of described compartment (6) is 6 ~ 9.

7. tandem continuous ball mill according to claim 1 carry flow table, it is characterized in that: described arc plate (2) is distributed in circumferentially same.