CN208082559U - A kind of cone crusher degree of eccentricity regulating mechanism - Google Patents

Abstract

The utility model discloses a kind of cone crusher degree of eccentricity regulating mechanism, arrange that a keyway, interior axially bored line are parallel with outer circle axis in outer eccentric bushing；Middle eccentric bushing endoporus and periphery arrange that multiple keyways, interior axially bored line intersect with outer circle axis；Interior eccentric bushing periphery arranges that a keyway, interior axially bored line intersect with outer circle axis；The periphery of middle eccentric bushing is matched with the endoporus of outer eccentric bushing, and middle eccentric bushing endoporus and interior eccentric bushing periphery match；Middle eccentric bushing is inserted into outer eccentric bushing endoporus, and is driven by key one；Eccentric bushing endoporus during interior eccentric bushing is inserted into, and be driven by key two；When adjusting stroke, axis both clockwise or counterclockwise rotation of the middle eccentric bushing along outer eccentric bushing arrive assignment key groove location；The axis of interior eccentric bushing eccentric bushing in reversely rotates, and arrives setting key groove location.It realizes in adjustment process, remains that main shaft is contacted with arm support bushing line, reduce internal stress, improve complete machine degree of eccentricity adjusting range.

Description

A kind of cone crusher degree of eccentricity regulating mechanism

Technical field

The utility model is related to a kind of cone crushers, and in particular to a kind of cone crusher degree of eccentricity adjusting machine Structure.

Background technology

Cone crusher is suitable for operation fine crushing in middle high rigidity material, is widely used in all kinds of minings and makees Industry.The degree of eccentricity of cone crusher and stroke are crusher Specifeca tion speeification, and the degree of eccentricity influences its stroke, Jin Erying Ring its crushing performance.For this purpose, the international mainstreams such as Sandvik producer uses double eccentric sleeves regulating mechanism.Pass through eccentric bushing in adjusting Spindle eccentricity degree is adjusted with the fit angle of outer eccentric bushing, and then adjusts its stroke, to meet the needs of different operating modes.However, Since axially bored line and outer circle axis are not parallel in interior eccentric bushing, the fit angle of inside and outside eccentric bushing is adjusted, main shaft will be caused Different with complete machine axial space, main shaft can not be bonded with upper arm support bushing, and main shaft is point contact with upper arm support bushing, influences its master Axis and upper arm support bushing stress.

Existing regulating mechanism includes：Outer eccentric bushing, lower bearing bracket, interior eccentric bushing, main shaft and upper arm support bushing, wherein interior eccentric Set and upper arm support bushing are sliding bearing.The inner hole of the periphery of interior eccentric bushing and outer eccentric bushing, and transmitted by key Power.Main shaft epimere is inserted into upper arm support bushing endoporus, and interior eccentric bushing endoporus is inserted into lower end.Pass through eccentric bushing in adjusting and outer bias The fit keyway of set converts main shaft angle, adjusts cone crusher stroke.

Outer eccentric bushing is the interior axially bored line eccentric bushing parallel with outer circle axis.The endoporus of eccentric bushing is furnished with keyway.

Interior eccentric bushing is interior axially bored line and the not parallel eccentric bushing of outer circle axis.The periphery of interior eccentric bushing is furnished with multiple keys Slot.

When not adjusting stroke, broken host main shaft intersects with complete machine axis.In shattering process, upper arm support bushing and main shaft Line contacts, and stress is preferable.

But when adjusting stroke, broken host main shaft is different with complete machine axis.In shattering process, upper arm support bushing and master Axis point contact, contact point stress are larger.Stress is excessive to be caused to fail to avoid contact with, the adjustable range of the stroke of existing scheme compared with It is small.

Since axially bored line in eccentric bushing and outer circle axis are not parallel, its main shaft and complete machine axis will be led to by adjusting its inclination angle Line is non-intersecting, and main shaft can not be bonded with upper arm support bushing, becomes point contact from line contact, and then influence its main shaft and upper arm support lining Cover stress.Therefore, stroke adjustable range is typically small.

Utility model content

Purpose：In order to overcome the deficiencies in the prior art, it is eccentric that the utility model provides a kind of cone crusher Spend regulating mechanism.

Technical solution：In order to solve the above technical problems, the technical solution adopted in the utility model is：

A kind of cone crusher degree of eccentricity regulating mechanism, it is characterised in that：Including outer eccentric bushing, key one, middle eccentric bushing, Key two, interior eccentric bushing, main shaft, upper arm support bushing；

At least one keyway of arrangement, interior axially bored line are parallel with outer circle axis in outer eccentric bushing；

Middle eccentric bushing endoporus and periphery arrange that multiple keyways, interior axially bored line intersect with outer circle axis；

Interior eccentric bushing periphery arranges that at least one keyway, interior axially bored line intersect with outer circle axis；

The periphery of middle eccentric bushing is matched with the endoporus of outer eccentric bushing, middle eccentric bushing endoporus and interior eccentric bushing periphery phase Cooperation；

Middle eccentric bushing is inserted into outer eccentric bushing endoporus, and is driven by key one；Eccentric bushing endoporus during interior eccentric bushing is inserted into, and by key Two transmissions；

When adjusting stroke, axis both clockwise or counterclockwise rotation of the middle eccentric bushing along outer eccentric bushing arrive assignment key groove location； The axis of interior eccentric bushing eccentric bushing in reversely rotates, and arrives setting key groove location.

Adjust stroke（The degree of eccentricity）It need to synchronize and replace mating upper arm support bushing.

The main shaft epimere is inserted into upper arm support bushing endoporus, and interior eccentric bushing endoporus is inserted into lower end.

Preferably, the cone crusher degree of eccentricity regulating mechanism, it is characterised in that：The outer eccentric bushing One keyway of interior arrangement.

Preferably, the cone crusher degree of eccentricity regulating mechanism, it is characterised in that：The interior eccentric bushing Periphery arranges a keyway.

Further, the both sides of the key one keyway card with keyway and middle eccentric bushing periphery in outer eccentric bushing respectively Connect cooperation.

Further, the both sides of the key two keyway with the keyway of middle eccentric bushing endoporus and interior eccentric bushing periphery respectively It is engaged by clamping.

Advantageous effect：Cone crusher degree of eccentricity regulating mechanism provided by the utility model can realize larger rush Journey adjustable range keeps main shaft and the contact of upper arm support bushing line, stress in adjustment process more reasonable.1. degree of eccentricity adjustment process In, which realizes that crusher axis remains that line contacts with upper arm support bushing, and stress is evenly reasonable；2. the degree of eccentricity and punching The adjustable range bigger of journey.

Description of the drawings

Fig. 1 and Fig. 2 is the schematic diagram of the utility model cone crusher degree of eccentricity regulating mechanism；

Fig. 3 and Fig. 4 is the structure chart of outer eccentric bushing；

Fig. 5 to Fig. 8 is the structure chart of middle eccentric bushing；

Fig. 9 and Figure 10 is the structure chart of interior eccentric bushing.

Specific implementation mode

The utility model is further described with reference to specific embodiment.

As depicted in figs. 1 and 2, be a kind of cone crusher degree of eccentricity regulating mechanism, including outer eccentric bushing 1, key 1, Middle eccentric bushing 3, key 24, interior eccentric bushing 5, main shaft 6, upper arm support bushing 7.Middle eccentric bushing 3 is inserted into 1 endoporus of outer eccentric bushing, and by key One 2 transmissions；3 endoporus of eccentric bushing during interior eccentric bushing 5 is inserted into, and be driven by key 24.6 epimere of main shaft is inserted into upper arm support bushing 7 5 endoporus of interior eccentric bushing is inserted into hole, lower end.

Operating process：When adjusting stroke, axis both clockwise of the middle eccentric bushing along outer eccentric bushing（Counterclockwise）Rotation is arrived specified Keyway position；The axis of interior eccentric bushing eccentric bushing in reversely rotates, and arrives setting key groove location.Adjust stroke（The degree of eccentricity）It needs same Step replaces mating upper arm support bushing.

As shown in Figure 3 and Figure 4, arrange that a keyway, interior axially bored line are parallel with outer circle axis in outer eccentric bushing 1.

As shown in Fig. 5 to Fig. 8,3 endoporus of middle eccentric bushing and periphery arrange multiple keyways, interior axially bored line and outer circle axis Intersection.

As shown in Figure 9 and Figure 10,5 periphery of interior eccentric bushing arranges that a keyway, interior axially bored line intersect with outer circle axis.

The above is only the preferred embodiment of the utility model, it should be pointed out that：For the common skill of the art For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and Retouching also should be regarded as the scope of protection of the utility model.

Claims (6)

1. a kind of cone crusher degree of eccentricity regulating mechanism, it is characterised in that：Including outer eccentric bushing, key one, middle eccentric bushing, key Two, interior eccentric bushing, main shaft, upper arm support bushing；

At least one keyway of arrangement, interior axially bored line are parallel with outer circle axis in outer eccentric bushing；

Middle eccentric bushing endoporus and periphery arrange that multiple keyways, interior axially bored line intersect with outer circle axis；

Interior eccentric bushing periphery arranges that at least one keyway, interior axially bored line intersect with outer circle axis；

The periphery of middle eccentric bushing is matched with the endoporus of outer eccentric bushing, and middle eccentric bushing endoporus and interior eccentric bushing periphery match It closes；

Middle eccentric bushing is inserted into outer eccentric bushing endoporus, and is driven by key one；Eccentric bushing endoporus during interior eccentric bushing is inserted into, and passed by key two It is dynamic；

When adjusting stroke, axis both clockwise or counterclockwise rotation of the middle eccentric bushing along outer eccentric bushing arrive assignment key groove location；It is interior inclined Heart set is reversely rotated along the axis of middle eccentric bushing, arrives setting key groove location.

2. cone crusher degree of eccentricity regulating mechanism according to claim 1, it is characterised in that：The main shaft epimere is inserted Enter upper arm support bushing endoporus, interior eccentric bushing endoporus is inserted into lower end.

3. cone crusher degree of eccentricity regulating mechanism according to claim 1, it is characterised in that：In the outer eccentric bushing Arrange a keyway.

4. cone crusher degree of eccentricity regulating mechanism according to claim 1, it is characterised in that：Outside the interior eccentric bushing Disc arranges a keyway.

5. cone crusher degree of eccentricity regulating mechanism according to claim 1, it is characterised in that：The both sides of the key one It is engaged by clamping respectively with the keyway of keyway and middle eccentric bushing periphery in outer eccentric bushing.

6. cone crusher degree of eccentricity regulating mechanism according to claim 1, it is characterised in that：The both sides of the key two It is engaged by clamping respectively with the keyway of the keyway of middle eccentric bushing endoporus and interior eccentric bushing periphery.