CN203750615U - Stirring-type grinding cylinder body and grinding device - Google Patents

Abstract

The utility model relates to the technical field of grinding, and discloses a stirring-type grinding cylinder body and a grinding device. The grinding cylinder body comprises an inner cylinder body and an outer cylinder body; a cooling water channel is arranged between the inner cylinder body and the outer cylinder body; the inner cylinder wall is at least provided with a baffle plate; and when the baffle plates are more than two, the baffle plates are uniformly distributed along the periphery of the inner cylinder body wall at intervals. In operation, under the effect of a diffuser, grinding balls and materials rotate in the inner cylinder body at a high speed, so that the density distribution of materials and the grinding balls at the rotation direction gradually increase from interior to exterior; under the effect of the baffle structure, the grinding balls and the materials which are distributed close to the inner cylinder body move toward the diffuser direction intermittently; the grinding contact probability between the grinding balls and the materials which are distributed at different regions is increased; high-energy input is not necessary to be adopted to enable the materials and the grinding balls to generate a great speed so as to increase acting force in collision; the grinding efficiency technological effect is reached by adopting relative low energy input; and meanwhile, electricity energy can be saved, and the stirring-type grinding cylinder body and the grinding device are more environment-friendly.

Description

Stirring-type grinding cylinder and lapping device

Technical field

The utility model relates to grinding technique field, particularly a kind of stirring-type grinding cylinder and lapping device.

Background technology

In milling apparatus, conventionally by dispersion impeller or dispersion wheel, drive mill ball high-speed motion, between mill ball, extrusion and collision makes grinding material broken mutually, realization is ground particle, and by separator, ground material is separated with mill ball with the material not ground, make ground material output.

Existing grinding cylinder and lapping device are when work, under the effect of disperser high speed rotating, mill ball moves at cylinder inboard wall, make cannot to produce and contact with being distributed between the mill ball of disperser immediate area and material away from the mill ball of disperser and material, grinding efficiency is lower, and grinding efficiency is lower.

Summary of the invention

The technical problem that the utility model mainly solves is to provide a kind of stirring-type grinding cylinder and lapping device, this stirring-type grinding cylinder and lapping device can make can to grinding cylinder center, move off and on away from the mill ball of disperser and material, increase the mill ball of distribution zones of different and the grinding contact probability between material, reach and improve grinding efficiency technique effect.

In order to address the above problem, the utility model provides a kind of stirring-type grinding cylinder, this stirring-type grinding cylinder comprises inner barrel and outer cylinder body, between inner barrel and outer cylinder body, be provided with cool cycles aquaporin, on described inner barrel inwall, be at least provided with a deflection plate, when deflection plate is when more than two, deflection plate is uniformly distributed along inner core body wall peripheral clearance.

Say further, described deflection plate is along inner barrel inwall axioversion, spiral or parallel distribution.

Say further, described deflection plate cross section is triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, is less than another side and the level and smooth angle of inner barrel.

The utility model also provides a kind of stirring-type lapping device, this stirring-type lapping device comprises: grinding cylinder and be located at disperser and the material separator in grinding cylinder, wherein abrasive body comprises inner barrel and outer cylinder body, between inner barrel and outer cylinder body, be provided with cool cycles aquaporin, described grinding cylinder inner barrel inwall is provided with at least one deflection plate, when deflection plate is when more than two, deflection plate is uniformly distributed along inner core body wall peripheral clearance.

Say further, described deflection plate is along inner core body wall axioversion, spiral or parallel distribution.

Say further, described deflection plate cross section is triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, is less than another side and the level and smooth angle of inner barrel.

Say further, described disperser is cylindric, its top and bottom are respectively equipped with a plurality of axial holes, side is provided with two groups of radial holes that are comprised of a plurality of radial holes, between two groups of radial holes, be provided with axial isolation plate, same group of a plurality of radial holes are distributed in same plane, and each axial hole is independently communicated with each axial hole.

Say further the curved discrete shape of radially division board between the adjacent radial hole of the axial hole that homonymy is adjacent and homonymy.

Say further, described radially division board is simultaneously made as inclined-plane, and this inclined-plane is inner to axial hole.

The utility model stirring-type grinding cylinder comprises inner barrel and outer cylinder body, between inner barrel and outer cylinder body, be provided with cool cycles aquaporin, on described inner tube wall, be at least provided with a baffling knot tying, when deflection plate is when more than two, deflection plate is uniformly distributed along inner core body wall peripheral clearance.During work under the effect of disperser, mill ball and material high-speed rotate in inner barrel, making in rotation direction material and mill ball Density Distribution be from inside to outside gradually increases, the mill ball and the material that under the effect of this baffling structure, make to distribute near inner barrel move to disperser direction off and on, increase the mill ball of distribution zones of different and the grinding contact probability between material, and needn't adopt defeated high-energy input, make material and mill ball produce larger speed, active force while increasing collision, reach the less energy input of employing and realize grinding efficiency technique effect, can save electric energy simultaneously, environmental protection more.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, and accompanying drawing in describing is embodiment more of the present utility model, to those skilled in the art, do not paying under the prerequisite of creative work, can also obtain other accompanying drawings according to these accompanying drawings.

Fig. 1 is that the utility model stirring-type grinding cylinder embodiment is along its radial section structural representation.

Fig. 2 is A-A direction sectional structure schematic diagram.

Fig. 3 is another structural representation of deflection plate.

Fig. 4 is the another structural representation of deflection plate.

Fig. 5 is stirring-type lapping device example structure schematic diagram.

Fig. 6 is disperser structural representation.

Fig. 7 is along B-B direction sectional structure schematic diagram in Fig. 6.

Below in conjunction with embodiment, and with reference to accompanying drawing, the realization of the utility model object, functional characteristics and advantage are described further.

The specific embodiment

In order to make object, technical scheme and the advantage of utility model clearer, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, the every other embodiment that those of ordinary skills obtain under the prerequisite of not making creative work, belongs to the scope that the utility model is protected.

As depicted in figs. 1 and 2, the utility model provides a kind of stirring-type grinding cylinder embodiment.

This stirring-type grinding cylinder comprises inner barrel 11 and outer cylinder body 10, between inner barrel 11 and outer cylinder body 10, be provided with cool cycles aquaporin 3, on described inner barrel 11 walls, be at least provided with a baffling structure, this baffling structure comprises deflection plate 110, when deflection plate 110 is when more than two, deflection plate 110 is uniformly distributed along inner barrel 11 wall peripheral clearances.

Specifically, be arranged with water inlet and the delivery port being communicated with cool cycles aquaporin 3 on described outer cylinder body 10, the quantity of described deflection plate 110 determines according to the diameter of inner barrel 11, is generally 2 or 12 for well.Described deflection plate 110 cross sections are triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, are less than another side and the level and smooth angle of inner barrel, can when changing material and mill ball direction, reduce the kinetic energy rejection of material and mill ball simultaneously.The parallel distribution of described deflection plate 110, with outer cylinder body 10 central axes.

During work under the effect of disperser, mill ball and material high-speed rotate in inner barrel, making in rotation direction material and mill ball Density Distribution be from inside to outside gradually increases, the mill ball and the material that under the effect of this baffling structure, make to distribute near inner barrel move to disperser direction off and on, increase the mill ball of distribution zones of different and the grinding contact probability between material, and needn't adopt defeated high-energy input, make material and mill ball produce larger speed, active force while increasing collision, reach the less energy input of employing and realize grinding efficiency technique effect, can save electric energy simultaneously, environmental protection more.

As described in Fig. 3 and Fig. 4, deflection plate 110 is along inner barrel 11 wall axioversions or spiral setting, specifically, when being obliquely installed, deflection plate 110 can when grinding, make mill ball and material along in inner barrel 11 moving process, while forcing mill ball and material are moved up, reduce mill ball and material kinetic energy rejection simultaneously, in the dispersion wheel respective outer side edges with applicable, mill ball and material form and grind up and down circulation, mill ball and material are evenly distributed up and down inner barrel 11 is interior, the mill ball in each region and the speed of material movement are even, further improve grinding efficiency.

As shown in Figure 5, the utility model also provides a kind of stirring-type lapping device embodiment.

This stirring-type lapping device comprises; Grinding cylinder and be located at disperser 6 and the material separator (accompanying drawing does not indicate) in grinding cylinder, described disperser 6 and separator are connected by rotating shaft on or two respectively, wherein grinding cylinder comprises inner barrel 11 and outer cylinder body 10, between inner barrel 11 and outer cylinder body 10, be provided with cool cycles aquaporin 3, described inner barrel 11 inwalls are provided with at least one baffling structure, this baffling structure comprises deflection plate 110, when deflection plate 110 is when more than two, deflection plate 110 is uniformly distributed along inner barrel 11 periphery of inner wall gaps.

Specifically, be arranged with the interface 30 and the interface 31 that are communicated with cool cycles aquaporin 3 on described outer cylinder body 10, the quantity of described deflection plate 110 determines according to the diameter of inner barrel 11, is generally 2 or 12 for well.Described deflection plate 110 cross sections are triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, are less than another side and the level and smooth angle of inner barrel 11, can when changing material and mill ball direction, reduce the kinetic energy rejection of material and mill ball simultaneously.The parallel distribution of described deflection plate 110, with outer cylinder body 10 central axes.

During work under the effect of disperser, mill ball and material high-speed rotate in inner barrel, making in rotation direction material and mill ball Density Distribution be from inside to outside gradually increases, the mill ball and the material that under the effect of this baffling structure, make to distribute near inner barrel move to disperser direction off and on, increase the mill ball of distribution zones of different and the grinding contact probability between material, and needn't adopt defeated high-energy input, make material and mill ball produce larger speed, active force while increasing collision, reach the less energy input of employing and realize grinding efficiency technique effect, can save electric energy simultaneously, environmental protection more.

As described in Fig. 3 and Fig. 4, deflection plate 110 is along inner barrel 11 wall axioversions or spiral setting, specifically, when being obliquely installed, deflection plate 110 can when grinding, make mill ball and material along in inner barrel 11 moving process, while forcing mill ball and material are also moved up, reduce mill ball and material kinetic energy rejection simultaneously, in the dispersion wheel respective outer side edges with applicable, mill ball and material form and grind up and down circulation, mill ball and material are evenly distributed up and down inner barrel 11 is interior, the mill ball in each region and the speed of material movement are even, further improve grinding efficiency.

As shown in Figure 6, described disperser 6 is cylindric, its top and bottom are respectively equipped with a plurality of axial holes 61, side is provided with two groups of radial holes that are comprised of a plurality of radial holes 62, between two groups of radial holes, be provided with 64 axial isolation plates, a plurality of radial holes 62 of same group are distributed in same plane, and each axial hole 61 is independently communicated with each radial hole 62.The axial hole 61 that homonymy is adjacent or the curved discrete shape of the radially division board 60 between radial hole 62.Radially the curved discrete shape of division board 60 can make mill ball and material enter and to export at a high speed from radial hole 62 from axial hole 61 when disperser rotates, and mill ball and material speed resistance during its output are reduced to minimum.In order better to make mill ball and material can enter more fast in disperser, obtain continuous speed, radially division board 60 one sides are made as inclined-plane 65, and this inclined-plane 65 is inner to axial hole.As shown in Figure 7.

Above embodiment only, in order to the technical solution of the utility model to be described, is not intended to limit; Although the utility model is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or part technical characterictic is wherein equal to replacement, and these modifications or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (11)

1. a stirring-type grinding cylinder, comprises inner barrel and outer cylinder body, is provided with cool cycles aquaporin between inner barrel and outer cylinder body, it is characterized in that: on described inner barrel inwall, be at least provided with a deflection plate.

2. stirring-type grinding cylinder according to claim 1, is characterized in that:

When deflection plate is when more than two, deflection plate is uniformly distributed along inner core body wall peripheral clearance.

3. stirring-type grinding cylinder according to claim 1, is characterized in that:

Described deflection plate is along inner barrel inwall axioversion, spiral or parallel distribution.

4. stirring-type grinding cylinder according to claim 1, is characterized in that:

Described deflection plate cross section is triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, is less than another side and the level and smooth angle of inner barrel.

5. a stirring-type lapping device, comprises grinding cylinder and is located at disperser and the material separator in grinding cylinder, and wherein grinding cylinder comprises inner barrel and outer cylinder body, is provided with cool cycles aquaporin between inner barrel and outer cylinder body, it is characterized in that:

On described inner barrel inwall, be at least provided with a deflection plate.

6. stirring-type lapping device according to claim 5, is characterized in that:

When deflection plate is when more than two, deflection plate is uniformly distributed along inner core body wall peripheral clearance.

7. stirring-type lapping device according to claim 5, is characterized in that:

Described deflection plate is along inner core body wall axioversion, spiral or parallel distribution.

8. according to the stirring-type lapping device described in claim 5 or 7, it is characterized in that:

Described deflection plate cross section is triangular in shape, wherein towards mixing direction one side and the level and smooth angle of inner barrel, is less than another side and the level and smooth angle of inner barrel.

9. stirring-type lapping device according to claim 5, is characterized in that:

Described disperser is cylindric, its top and bottom are respectively equipped with a plurality of axial holes, and side is provided with two groups of radial holes that are comprised of a plurality of radial holes, between two groups of radial holes, is provided with axial isolation plate, same group of a plurality of radial holes are distributed in same plane, and each axial hole is independently communicated with each radial hole.

10. stirring-type lapping device according to claim 9, is characterized in that:

The curved discrete shape of radially division board between the adjacent radial hole of the axial hole that homonymy is adjacent and homonymy.

11. stirring-type lapping devices according to claim 8, is characterized in that:

Described radially division board is simultaneously made as inclined-plane, and this inclined-plane is to axial hole inner inclination.