CN205253243U - Pottery thick liquids secondary grinding device - Google Patents

Abstract

The utility model discloses a pottery thick liquids secondary grinding device, including corase grind ball mill, fine grinding ball mill and delivery pump, adopt and to grind ceramic raw materials through the corase grind ball -milling earlier, then will pass through slurry transferring that the corase grind formed and carry out the mode of grinding to the fine grinding ball mill, can reduce the milling time of ball mill when fineness of grind requires reaching by a wide margin, that is can reduce ceramic thick liquids and grind the electric energy that consumes. The utility model discloses equipment is including corase grind ball mill, fine grinding ball mill, delivery pump and frame, the corase grind ball mill includes big ballstone, corase grind barrel and roughly grinds the variable frequency speed governing(VFSG) motor that wherein big ballstone is placed in the corase grind barrel, roughly grinds the barrel including putting the thick liquid mouth, the fine grinding ball mill includes little ballstone, fine grinding barrel and fine grinding variable frequency speed governing(VFSG) motor, and wherein little ballstone is placed in the fine grinding barrel, and the fine grinding barrel includes into thick liquid mouth, and fine grinding variable frequency speed governing(VFSG) motor is used for driving the fine grinding barrel, the entry of delivery pump with put the thick liquid and mouthful link to each other, its export with advance the thick liquid and mouthful link to each other.

Description

A kind of ceramic size regrind equipment

Technical field

The utility model relates to ceramic production device field, relates in particular to a kind of ceramic size regrind equipment.

Background technology

Ball mill is after material is broken, then the key equipment of pulverizing. It is widely used in cement, silicate product, and the production industries such as New Building Materials, refractory material, chemical fertilizer, black and non-ferrous metal ore and glass ceramics, carry out dry type or wet type grinding to various ores and other grindability material.

Production of Ceramics raw material comprises the various materials such as sand, stone, in the process of making ceramic product, first needs raw materials for production ball milling form slurry. In prior art, the Ball-milling Time of ceramic size is about 14 hours, and the high Ball-milling Time of power consumption is long, not only causes energy consumption cost high, and the long service efficiency that also can affect ball mill of Ball-milling Time, affects slurry generation, causes slurry output not increase always.

Referring to Fig. 1, is the ball milling fineness curve of ceramic size. From ceramic raw ore material size, hardness, large sandstone account for whole 60%～70%; Ceramic raw ore material is ground to slurry fineness 10% left and right, only needs 4 hours, slurry fineness is ground to 0.8% needs 8 hours from 10%; From rough lapping very to thicker, i.e. slurry fineness>10%, the time is very short, is to be completed by large ballstone; And from thicker, i.e. slurry fineness>10% be ground to very carefully, i.e. slurry fineness<0.8%, will for a long time, mainly be completed by little ballstone; Ball mill, in the time of configuration ballstone, is taken into account ceramic raw ore material fineness size, hardness level; Cause this process time longer, configured large ballstone many, roughly grind effectively, but fine grinding effect is bad, and may Ball-milling Time longer, power consumption cost rises, ball milling utilization rate declines, and affects slurry output; If the configuration of bead stone is many, corase grind effect is bad, and Ball-milling Time can be elongated, affects equally power consumption and ball milling utilization rate; Above-mentioned large ballstone refers to: diameter is the ballstone of 40 to 70 ㎜; And little ballstone refers to: diameter is the ballstone of 10 to 40 ㎜.

Therefore, for above-mentioned situation, how to improve the structure of existing ball-grinding machine, thereby can solve the above problems, become those skilled in the art's important technological problems urgently to be resolved hurrily.

Utility model content

The utility model discloses a kind of ceramic size regrind equipment, comprise sizes of steel balls for coarse grinding mills, fine grinding ball mill and delivery pump, adopt first and by corase grind ball milling, ceramic raw material is ground, then the slurry forming through corase grind is delivered to the mode that fine grinding ball mill grinds, can in reaching fineness of grind requirement, significantly reduce the milling time of ball mill, that is can reduce ceramic size and grind the electric energy consuming.

The ceramic size regrind equipment that the utility model provides, comprises sizes of steel balls for coarse grinding mills, fine grinding ball mill, delivery pump and frame;

Described sizes of steel balls for coarse grinding mills comprises large ballstone, corase grind cylindrical shell and corase grind frequency control motor, and wherein said large ballstone is positioned in described corase grind cylindrical shell, and described corase grind cylindrical shell comprises blowing mouth, and described corase grind frequency control motor is used for driving described corase grind cylindrical shell;

Described fine grinding ball mill comprises little ballstone, fine grinding cylindrical shell and fine grinding frequency control motor, and wherein said little ballstone is positioned in described fine grinding cylindrical shell, and described fine grinding cylindrical shell comprises stock inlet, and described fine grinding frequency control motor is used for driving described fine grinding cylindrical shell;

The entrance of described delivery pump is connected with described blowing mouth, and its outlet is connected with described stock inlet;

Described delivery pump is for being delivered to described fine grinding ball mill by the slurry after described sizes of steel balls for coarse grinding mills is ground;

Described sizes of steel balls for coarse grinding mills, described fine grinding ball mill and described delivery pump are arranged in described frame.

Preferably,

Described equipment also comprises controlling organization;

Described controlling organization is connected with described sizes of steel balls for coarse grinding mills, described fine grinding ball mill and described delivery pump;

Described controlling organization is used for controlling described ceramic size regrind equipment;

Described controlling organization comprises touch-screen, controls button and/or knob.

Preferably,

Described delivery pump is sand suction pump.

Preferably,

Described equipment also comprises telecommunication mechanism, is connected with described controlling organization.

Preferably,

Described telecommunication mechanism comprises one or more in infrared module, bluetooth module, WIFI module or mobile communication module.

Preferably,

Described large ballstone comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm.

Preferably,

The rotating speed of described corase grind frequency control motor is 14 revs/min.

Preferably,

Described little ballstone comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm.

Preferably,

The rotating speed of described fine grinding frequency control motor is 10 revs/min.

Preferably,

Described large ballstone comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm;

The rotating speed of described corase grind frequency control motor is 14 revs/min;

Described little ballstone comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm;

The rotating speed of described fine grinding frequency control motor is 10 revs/min.

By above-mentioned improvement, ceramic size regrind equipment of the present utility model has the following advantages:

1, owing to having adopted the quick ball milling of sizes of steel balls for coarse grinding mills, then use the mode of fine grinding ball mill fine gtinding, can in reaching fineness requirement, significantly reduce the milling time of ceramic raw material;

2, the reduction of ball mill working time can reduce the consumption of electric energy;

3, due to the mode that adopts substep to grind, therefore can facilitate accurately the grinding situation of ceramic raw material is monitored.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of the utility model ceramic size regrind apparatus embodiments;

Fig. 2 is the structural representation that the utility model ceramic size regrind apparatus embodiments comprises embodiment controlling organization 4;

Fig. 3 is the structural representation that the utility model ceramic size regrind apparatus embodiments comprises telecommunication mechanism 5.

Detailed description of the invention

The utility model discloses a kind of ceramic size regrind equipment, comprise sizes of steel balls for coarse grinding mills, fine grinding ball mill and delivery pump, adopt first and by corase grind ball milling, ceramic raw material is ground, then the slurry forming through corase grind is delivered to the mode that fine grinding ball mill grinds, can in reaching fineness of grind requirement, significantly reduce the milling time of ball mill, that is can reduce ceramic size and grind the electric energy consuming.

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is known and detailed description, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiment. Based on the embodiment in the utility model, those of ordinary skill in the art are not making all other embodiment that obtain under creative work prerequisite, all belong to the scope of the utility model protection. Referring to Fig. 1 to Fig. 3, is the utility model ceramic size regrind equipment, comprises sizes of steel balls for coarse grinding mills 1, fine grinding ball mill 2, delivery pump 3 and frame;

Described sizes of steel balls for coarse grinding mills 1 comprises large ballstone 11, corase grind cylindrical shell 12 and corase grind frequency control motor 13, wherein said large ballstone 11 is positioned in described corase grind cylindrical shell 12, described corase grind cylindrical shell 12 comprises blowing mouth, and described corase grind frequency control motor 13 is for driving described corase grind cylindrical shell 12;

Described fine grinding ball mill 2 comprises bead stone 21, fine grinding cylindrical shell 22 and fine grinding frequency control motor 23, wherein said bead stone 21 is positioned in described fine grinding cylindrical shell 22, described fine grinding cylindrical shell 22 comprises stock inlet, and described fine grinding frequency control motor 23 is for driving described fine grinding cylindrical shell 22;

The entrance of described delivery pump 3 is connected with described blowing mouth, and its outlet is connected with described stock inlet;

Described delivery pump 3 is for being delivered to described fine grinding ball mill 2 by the slurry after described sizes of steel balls for coarse grinding mills 1 is ground;

Described sizes of steel balls for coarse grinding mills 1, described fine grinding ball mill 2 and described delivery pump 3 are arranged in described frame.

In the utility model, after ceramic raw material is matched, the corase grind cylindrical shell 12 that can put sizes of steel balls for coarse grinding mills 1 into carries out rough lapping, ceramic raw material is put into after corase grind cylindrical shell 12, and corase grind frequency control motor 13 drives corase grind cylindrical shell 12 to rotate, along with the rotation of corase grind cylindrical shell 12, large ballstone 11 in corase grind cylindrical shell 12 can constantly carry out projectile motion and ceramic raw material be smashed, reach setting value when ceramic raw material is ground to fineness, for example 10% time, sizes of steel balls for coarse grinding mills 1 quits work; The ceramic raw material grinding to form after slurry through sizes of steel balls for coarse grinding mills 1 is delivered to fine grinding ball mill 2 by delivery pump 3; The fine grinding frequency control motor 23 of fine grinding ball mill 2 drives fine grinding cylindrical shell 22 to rotate, along with the rotation of fine grinding cylindrical shell 22, bead stone 21 in fine grinding cylindrical shell 22 can constantly carry out projectile motion and slurry is carried out to fine grinding, when being ground to fineness, ceramic raw material reaches preset value, for example, below 0.8% after, sizes of steel balls for coarse grinding mills 1 quits work, and completes the grinding step to ceramic raw material.

Preferably,

Described equipment also comprises controlling organization 4;

Described controlling organization 4 is connected with described sizes of steel balls for coarse grinding mills 1, described fine grinding ball mill 2 and described delivery pump 3;

Described controlling organization 4 is for controlling described ceramic size regrind equipment;

Described controlling organization 4 comprises touch-screen, controls button and/or knob.

The utility model equipment can also comprise controlling organization 4, can regulate the parameters of equipment by controlling organization 4, rotating speed and working time that corase grind frequency control motor 13 or fine grinding frequency control motor 23 for example can be set by any one in touch-screen, control button and/or knob, do not limit herein. It should be noted that, above-mentioned touch-screen is the parameter such as grinding remaining time, grinding situation of display device in real time, does not limit herein.

Preferably,

Described delivery pump 3 is sand suction pump.

Delivery pump 3 of the present utility model can be sand suction pump, and sand suction pump is simple in structure and durability is strong, can significantly reduce equipment investment and maintenance cost.

Preferably,

Described equipment also comprises telecommunication mechanism 5, is connected with described controlling organization 4.

Preferably,

Described telecommunication mechanism 5 comprises one or more in infrared module, bluetooth module, WIFI module or mobile communication module.

Equipment of the present utility model can also comprise telecommunication mechanism 5, by telecommunication mechanism 5, user can realize remote monitoring and the Long-distance Control to equipment, equipment can also be included in to the intelligence of factory and produce net, and then can realize the unified allocation of resources to equipment, do not limit herein.

Preferably,

Described large ballstone 11 comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm.

Preferably,

The rotating speed of described corase grind frequency control motor 13 is 14 revs/min.

Preferably,

Described bead stone 21 comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm.

Preferably,

The rotating speed of described fine grinding frequency control motor 23 is 10 revs/min.

Preferably,

Described large ballstone 11 comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm;

The rotating speed of described corase grind frequency control motor 13 is 14 revs/min;

Described bead stone 21 comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm;

The rotating speed of described fine grinding frequency control motor 23 is 10 revs/min.

Ceramic size regrind equipment of the present utility model comprises sizes of steel balls for coarse grinding mills 1, fine grinding ball mill 2, delivery pump 3 and frame; Described sizes of steel balls for coarse grinding mills 1 comprises large ballstone 11, corase grind cylindrical shell 12 and corase grind frequency control motor 13, wherein said large ballstone 11 is positioned in described corase grind cylindrical shell 12, described corase grind cylindrical shell 12 comprises blowing mouth, and described corase grind frequency control motor 13 is for driving described corase grind cylindrical shell 12; Described fine grinding ball mill 2 comprises bead stone 21, fine grinding cylindrical shell 22 and fine grinding frequency control motor 23, wherein said bead stone 21 is positioned in described fine grinding cylindrical shell 22, described fine grinding cylindrical shell 22 comprises stock inlet, and described fine grinding frequency control motor 23 is for driving described fine grinding cylindrical shell 22; The entrance of described delivery pump 3 is connected with described blowing mouth, and its outlet is connected with described stock inlet; Described delivery pump 3 is for being delivered to described fine grinding ball mill 2 by the slurry after described sizes of steel balls for coarse grinding mills 1 is ground; Described sizes of steel balls for coarse grinding mills 1, described fine grinding ball mill 2 and described delivery pump 3 are arranged in described frame. Ceramic raw material is ground by corase grind ball milling 1 by adopting first, then the slurry forming through corase grind is delivered to the mode that fine grinding ball mill 2 grinds, ceramic size regrind equipment of the present utility model can significantly reduce the milling time of ball mill in reaching fineness of grind requirement, that is can reduce ceramic size and grind the electric energy consuming.

Above glass edge-grinding machine provided by the utility model is described in detail, for one of ordinary skill in the art, according to the thought of the utility model embodiment, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (10)

1. a ceramic size regrind equipment, is characterized in that, comprises sizes of steel balls for coarse grinding mills, fine grinding ball mill, delivery pump and frame;

Described sizes of steel balls for coarse grinding mills comprises large ballstone, corase grind cylindrical shell and corase grind frequency control motor, and wherein said large ballstone is positioned in described corase grind cylindrical shell, and described corase grind cylindrical shell comprises blowing mouth, and described corase grind frequency control motor is used for driving described corase grind cylindrical shell;

Described fine grinding ball mill comprises little ballstone, fine grinding cylindrical shell and fine grinding frequency control motor, and wherein said little ballstone is positioned in described fine grinding cylindrical shell, and described fine grinding cylindrical shell comprises stock inlet, and described fine grinding frequency control motor is used for driving described fine grinding cylindrical shell;

The entrance of described delivery pump is connected with described blowing mouth, and its outlet is connected with described stock inlet;

Described delivery pump is for being delivered to described fine grinding ball mill by the slurry after described sizes of steel balls for coarse grinding mills is ground;

Described sizes of steel balls for coarse grinding mills, described fine grinding ball mill and described delivery pump are arranged in described frame.

2. ceramic size regrind equipment according to claim 1, is characterized in that, described equipment also comprises controlling organization;

Described controlling organization is connected with described sizes of steel balls for coarse grinding mills, described fine grinding ball mill and described delivery pump;

Described controlling organization is used for controlling described ceramic size regrind equipment;

Described controlling organization comprises touch-screen, controls button and/or knob.

3. ceramic size regrind equipment according to claim 1, is characterized in that, described delivery pump is sand suction pump.

4. ceramic size regrind equipment according to claim 2, is characterized in that, described equipment also comprises telecommunication mechanism, is connected with described controlling organization.

5. ceramic size regrind equipment according to claim 4, is characterized in that, described telecommunication mechanism comprises one or more in infrared module, bluetooth module, WIFI module or mobile communication module.

6. according to the ceramic size regrind equipment described in any one in claim 1 to 5, it is characterized in that, described large ballstone comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm.

7. ceramic size regrind equipment according to claim 6, is characterized in that, the rotating speed of described corase grind frequency control motor is 14 revs/min.

8. according to the ceramic size regrind equipment described in any one in claim 1 to 5, it is characterized in that, described little ballstone comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm.

9. ceramic size regrind equipment according to claim 8, is characterized in that, the rotating speed of described fine grinding frequency control motor is 10 revs/min.

10. according to the ceramic size regrind equipment described in any one in claim 1 to 5, it is characterized in that,

Described large ballstone comprises that diameter is respectively the ballstone of 40mm, 50mm, 60mm and 70mm;

The rotating speed of described corase grind frequency control motor is 14 revs/min;

Described little ballstone comprises that diameter is respectively the ballstone of 10mm, 20mm, 30mm and 40mm;

The rotating speed of described fine grinding frequency control motor is 10 revs/min.