CN101357347A - Mill driving device for roller mill - Google Patents

Abstract

The invention relates to a milling transmission device for a roller-type milling, the roller-type milling includes a milling roller rolling on a milling disc. The milling transmission device comprises a bevel gear level for power input and at least one planetary gear level for power input at the milling disc side, the bevel gear level includes a toothed bevel gear and a vertical drive shaft, the vertical drive shaft is connected with the planetary gear level via a shaft joint. The bevel gear level includes a plurality of independent drivers to replace large-scale drivers, and also includes a bevel pinion correspondingly meshed with the bevel gear.

Description

The mill driving device that is used for roll mill

Technical field

The present invention relates to a kind of mill driving device that is used for roll mill, described roll mill has the roll of milling that rolls on pan mill, this mill driving device comprises that the bevel gear level that is used for input power and at least one are used for the planetary gear level in pan mill side power output, described bevel gear level has toothed bevel gear and vertical driving shaft, and this vertical driving shaft links to each other with the planetary gear level by shaft coupling.

Background technology

Roll mill is specially adapted to the comminution of minerals abrasive material, for example cement slurry, clinker, coal cinder and ore, and described roll mill has the pan mill of rotation, and the roll of milling that elasticity is pushed rolls on described pan mill.Usually be that the crushing operation of roll mill provides driving power with independent driving mechanism, this independent driving mechanism has drive motor and is used for driving rotatably the transmission mechanism of pan mill.Except pan mill was driven, the roll mill that the roll of milling is driven by means of additional independent driver also was known.

Usually, the pan mill driving mechanism has bevel gear and at least one planetary gear, and this pan mill driving mechanism is positioned at the below of pan mill and coupled.

The pair roller type grinding mill is about increasing production capacity, raising the efficiency and guarantee simultaneously that production cost demand low and that the production time is short improves constantly.The production capacity that increases roll mill causes needs to use corresponding large-scale mill driving device and bigger drive motor.Commercially available standard motor is no longer suitable, and must use specially designed motor, and this has increased production cost and has prolonged the production time.

Summary of the invention

The objective of the invention is to, a kind of mill driving device that is used for roll mill is provided, described mill driving device can be used for the roll mill of any model and rated capacity, and this mill driving device provides optimized load to distribute in the low relative weak point with the production time of cost.

For achieving the above object, according to the invention provides a kind of mill driving device that is used for roll mill, described roll mill has the roll of milling that rolls on pan mill, this mill driving device comprises that the bevel gear level that is used for input power and at least one are used for the planetary gear level in pan mill side power output, described bevel gear level has toothed bevel gear and vertical driving shaft, this vertical driving shaft links to each other with the planetary gear level by shaft coupling, described bevel gear level has some Standalone Drives to replace large-scale driver, also has the corresponding bevel pinion with the bevel gear engagement.

According to the present invention, described each Standalone Drives has drive axle and independent electric motors respectively, and is that electricity is synchronous between the described independent electric motors.The quantity of driving power and/or Standalone Drives depends on required roll mill capacity.Standalone Drives evenly distributes around public bevel gear or gear-box.The motor of described Standalone Drives is a horizontal motor, and removably or replaceably is connected with the driving shaft of Standalone Drives via shaft coupling.If one of Standalone Drives breaks down, described roll mill can work on by means of the Standalone Drives of remainder.The motor of described Standalone Drives is a vertical type motor, and its spur pinion is meshed with horizontally disposed public spur gear.

The mill driving device that is used for roll mill according to the present invention has the bevel gear level that is used for input power and at least one and is used for planetary gear level in the power output of pan mill side, and described bevel gear level replaces corresponding large-scale single driving mechanism with some independent driving mechanisms or driver.

Because around gear-box or public bevel gear Standalone Drives is set suitably on the bevel gear level, so can adopt less, commercially available assembly particularly, motor for example provides cost savings so significantly and has shortened the production time.

The Standalone Drives of bevel gear level all has separately independently bevel pinion, and the public bevel gear engagement of this bevel pinion and bevel gear level has corresponding structure equally and also can reduce cost.

Preferably another the important advantage that Standalone Drives evenly is set around public bevel gear or gear-box is that if one of some drivers or some motor break down, roll mill can work on by means of the driver of remainder.Use under the situation of large-scale drive motor in the bevel gear level of mill driving device, the fault of drive motor can cause whole grinding mill to quit work, and causes production loss.If one of some Standalone Drives of mill driving device of the present invention break down, roll mill also can continue operation with the power that reduces, and can change the driver of damage.

Suit to make the quantity and/or the power variable of Standalone Drives, and decide according to roller mill capacity required under the different situations.

The Standalone Drives of bevel gear level can use horizontal motor, equally also can use vertical type motor, and the spur pinion of this vertical type motor is meshed with horizontally disposed public spur gear or roller gear.

Suitable make that electricity distributes thereby help to optimize load synchronously between the separate drive motor.

Description of drawings

Describe the present invention below with reference to unique accompanying drawing, schematically shown the vertical cross-section diagram of roll mill transmission device of the present invention in the accompanying drawing with the form of height summary.

The specific embodiment

In this embodiment, mill driving device 2 is a secondary roll mill transmission device, and it is arranged in the gear-box 4 and has bevel gear level 10 and planetary gear level 5.

Planetary gear level 5 comprises the sun gear 6 that is positioned at the center and around the planetary gear 7 of this sun gear 6, and public internal gear or have internal gear or the ring gear of ring gear 9, and planetary gear 7 is supported in described internal gear or the ring gear 9.Separate and guiding planetary gear 7 by planet carrier 8, described planet carrier 8 links to each other by driven shaft 19 and power output the flange 3 and pan mill (not shown) on being positioned at this flange, and the drive one plays rotation.

By means of vertically driving shaft 21 and gear coupling 22, drive the sun gear 6 of planetary gear levels 5 by prime bevel gear level 10, the planetary gear 7 of rotation drives planet carriers 8 rotations, drives power output flange 3 rotations with pan mill thus.

In order to optimize bevel gear level 10 load transmission on every side, replace single master driver with a plurality of Standalone Drives, only show two Standalone Drives 11,12 in the accompanying drawings.

Standalone Drives 11,12 apparently, except described two Standalone Drives 11,12, can also or center on gear-box 4 or with uniform interval more driver is set in gear-box 4 toward each other around public bevel gear 20.For example, can be provided with four or altogether, can select to make the quantity of Standalone Drives consistent with the quantity of the roll of milling that on pan mill, rolls more than four Standalone Drives.

Standalone Drives 11,12 has independently bevel pinion 15,16 respectively, and each bevel pinion 15,16 drive axle 13,14 by level respectively links to each other with drive motor (not shown) independently.

Each bevel pinion 15,16 and 20 engagements of public bevel gear drive vertical driving shaft 21 thus, and drive output shaft or driving shaft 19 via planetary gear level 5, thereby drive pan mill.

Thus, mill driving device 2 of the present invention not only has optimization on planetary gear level 5 load distributes, and below bevel gear level 10 on also have optimization load distribute the secondary mill driving device shown in described mill driving device 2 is not limited to.

Because use a plurality of corresponding less Standalone Drives, thus commercially available assembly, particularly motor can be adopted, thus need not to carry out expensive special design, take advantage at cost with on the production time.

Described less separate drive motor (not shown) can be horizontal or vertical type motor.The independent electric motors of each Standalone Drives suitably is connected with driving shaft in detachable or removable mode by the shaft coupling (not shown), thereby can change fast where necessary.

Claims (7)

1. mill driving device that is used for roll mill, described roll mill has the roll of milling that rolls on pan mill, this mill driving device comprises that the bevel gear level (10) that is used for input power and at least one are used for the planetary gear level (5) in pan mill side power output, described bevel gear level (10) has toothed bevel gear (20) and vertical driving shaft (21), this vertical driving shaft (21) links to each other with planetary gear level (5) by shaft coupling (22), it is characterized in that, described bevel gear level (10) has some Standalone Drives (11,12), also has corresponding bevel pinion (15 with bevel gear (20) engagement to replace large-scale driver, 16).

2. mill driving device according to claim 1 is characterized in that, described each Standalone Drives (11,12) has drive axle (13,14) and independent electric motors respectively, and is that electricity is synchronous between the described independent electric motors.

3. mill driving device according to claim 1 and 2 is characterized in that, the quantity of driving power and/or Standalone Drives (11,12) depends on required roll mill capacity.

4. according to the described mill driving device of one of aforementioned claim, it is characterized in that Standalone Drives (11,12) evenly distributes around public bevel gear (20) or gear-box (4).

5. according to the described mill driving device of one of aforementioned claim, it is characterized in that, the motor of described Standalone Drives (11,12) is a horizontal motor, and removably or replaceably is connected with the driving shaft (13,14) of Standalone Drives (11,12) via shaft coupling.

6. according to the described mill driving device of one of aforementioned claim, it is characterized in that if one of Standalone Drives (11,12) breaks down, described roll mill can work on by means of the Standalone Drives of remainder.

7. according to the described mill driving device in one of claim 1 to 4 and 6, it is characterized in that the motor of described Standalone Drives (11,12) is a vertical type motor, its spur pinion is meshed with horizontally disposed public spur gear.

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