CN205733291U - Three grades of deceleration transmission main shaft driving structures of heavy tooth milling machine - Google Patents

Abstract

The utility model discloses three grades of deceleration transmission main shaft driving structures of a kind of heavy tooth milling machine, including motor, the first power transmission shaft, second driving shaft, the 3rd power transmission shaft and main shaft；Described first power transmission shaft, second driving shaft, the 3rd power transmission shaft and main shaft are arranged in parallel；The output shaft of motor is by the connection of shaft coupling and the first power transmission shaft, and the first power transmission shaft and second driving shaft are engaged by gear and realize deceleration transmission；Second driving shaft and the 3rd power transmission shaft realize deceleration transmission by gear engagement；3rd power transmission shaft and main shaft are engaged by gear and realize deceleration transmission；Realize the motor three grades of deceleration to main shaft, thus meet the high pulling torque demand of the main shaft of heavy tooth milling machine.

Description

Three grades of deceleration transmission main shaft driving structures of heavy tooth milling machine

Technical field

This utility model belongs to machine tool technology field, and the three grades of transmission main shafts relating in particular to a kind of heavy tooth milling machine drive Structure.

Background technology

For general tooth gear milling machine, its main shaft generally uses single-stage or double reduction to drive structure, this structure The moment of torsion of drive shaft is limited, it is impossible to meet the process requirements to large gear.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that three grades of deceleration transmission of a kind of heavy tooth milling machine Main shaft driving structure.

This utility model is achieved through the following technical solutions:

Three grades of deceleration transmission main shaft driving structures of a kind of heavy tooth milling machine, including motor, the first power transmission shaft, the second transmission Axle, the 3rd power transmission shaft and main shaft；

Motor is fixed on main spindle box, and the output shaft of motor is connected by the right-hand member of shaft coupling and the first power transmission shaft, and first passes The first front support bearing, the first ring flange, the first gear and the first rear support bearing it is disposed with from left to right on moving axis； Be disposed with from left to right on described second driving shaft the second gear, the second front support bearing, the second ring flange, the 3rd Gear and the second rear support bearing；Be disposed with from left to right on described 3rd power transmission shaft the 3rd front support bearing, the 4th Gear, the 5th gear and the 3rd rear support bearing, three-flange dish；Prop up before being disposed with the 4th from left to right on main shaft Support bearing, the 4th rear support bearing and the 6th gear；

Described first power transmission shaft, second driving shaft, the 3rd power transmission shaft and main shaft are arranged in parallel, wherein, and the first transmission First gear of axle and the 3rd gear engagement of second driving shaft；Second gear of second driving shaft and the of the 3rd power transmission shaft Five gear engagements；4th gear of the 3rd power transmission shaft and the 6th gear engagement of main shaft；

In technique scheme, the first front support bearing of described first power transmission shaft, the second front support of second driving shaft 3rd rear support bearing of bearing and the 3rd power transmission shaft is at same perpendicular；First rear support of described first power transmission shaft Second rear support bearing of bearing and second driving shaft is at same perpendicular；3rd front support bearing of the 3rd power transmission shaft With the 4th rear support bearing of main shaft at same perpendicular.

In technique scheme, the first ring flange of the first power transmission shaft, the second ring flange of second driving shaft and the 3rd pass The three-flange dish of moving axis is fixed on main spindle box.

The advantage of utility model and having the beneficial effect that

During motor rotation of the present utility model, revolved by the first power transmission shaft, second driving shaft, the 3rd power transmission shaft drive shaft Turn, it is achieved the motor three grades of deceleration to main shaft, thus meet the high pulling torque demand of the main shaft of heavy tooth milling machine.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Wherein: 1 is motor, 2 is the first power transmission shaft, and 2-1 is the first front support bearing, and 2-2 is the first ring flange, 2-3 Being the first gear, 2-4 is the first rear support bearing, and 3 is second driving shaft, and 3-1 is the second gear, and 3-2 is before second Support bearing, 3-3 is the second ring flange, and 3-4 is the 3rd gear, and 3-5 is the second rear support bearing, and 4 is the 3rd power transmission shaft, 4-1 is the 3rd front support bearing, and 4-2 is the 4th gear, and 4-3 is the 5th gear, and 4-4 is the 3rd rear support bearing, 4-5 Being three-flange dish, 5 is main shaft, and 5-1 is the 4th front support bearing, and 5-2 is the 4th rear support bearing, and 5-3 is the 6th tooth Wheel.

Detailed description of the invention

The technical solution of the utility model is further illustrated below in conjunction with specific embodiment.

Seeing accompanying drawing 1, three grades of deceleration transmission main shaft driving structures of a kind of heavy tooth milling machine, including motor the 1, first transmission Axle 2, second driving shaft the 3, the 3rd power transmission shaft 4 and main shaft 5；

Motor 1 is fixed on main spindle box by motor flange dish 1-1, and the output shaft of motor passes through shaft coupling and the first transmission The right-hand member of axle 2 connects, and the first power transmission shaft 2 is disposed with the first front support bearing 2-1, the first ring flange from left to right 2-2, the first gear 2-3 and the first rear support bearing 2-4；Second it is disposed with from left to right on described second driving shaft 3 Gear 3-1, the second front support bearing 3-2, the second ring flange 3-3, the 3rd gear 3-4 and the second rear support bearing 3-5； The 3rd front support bearing 4-1, the 4th gear 4-2, the 5th gear it is disposed with from left to right on described 3rd power transmission shaft 4 4-3 and the 3rd rear support bearing 4-4, three-flange dish 4-5；The 4th front support axle it is disposed with from left to right on main shaft 5 Hold 5-1, the 4th rear support bearing 5-2 and the 6th gear 5-3.

Described first power transmission shaft 2, second driving shaft the 3, the 3rd power transmission shaft 4 and main shaft 5 are arranged in parallel, wherein, the First gear 2-3 of one power transmission shaft 2 and the 3rd gear 3-4 engagement of second driving shaft 3, its gear ratio is 3:1；Second Second gear 3-1 of power transmission shaft 3 and the 5th gear 4-3 engagement of the 3rd power transmission shaft 4, its gear ratio is 3:1；3rd passes 4th gear 4-2 of moving axis 4 and the 6th gear 5-3 engagement of main shaft 5, its gear ratio is 4:1；

First front support bearing 2-1 of described first power transmission shaft 2, the second front support bearing 3-2 of second driving shaft 3 and 3rd rear support bearing 4-4 of three power transmission shafts 4 is at same perpendicular；First rear support of described first power transmission shaft 2 Second rear support bearing 3-5 of bearing 2-4 and second driving shaft 3 is at same perpendicular；The 3rd of 3rd power transmission shaft 4 4th rear support bearing 5-2 of front support bearing 4-1 and main shaft 5 is at same perpendicular.

First ring flange 2-2 of the first power transmission shaft 2, the second ring flange 3-2 of second driving shaft 3 and the 3rd power transmission shaft 4 Three-flange dish 4-2 is fixed on main spindle box.

During motor rotation, rotated by the first power transmission shaft 2, second driving shaft the 3, the 3rd power transmission shaft 4 drive shaft, it is achieved The motor three grades of deceleration to main shaft, thus meet the high pulling torque demand of the main shaft of heavy tooth milling machine.

Above this utility model is done exemplary description, it should explanation, without departing from core of the present utility model In the case of, any simple deformation, amendment or other those skilled in the art can not spend creative work etc. Protection domain of the present utility model is each fallen within replacing.

Claims (3)

1. three grades of deceleration transmission main shaft driving structures of a heavy tooth milling machine, it is characterised in that: include motor, the first biography Moving axis, second driving shaft, the 3rd power transmission shaft and main shaft；

Motor is fixed on main spindle box, and the output shaft of motor is connected by the right-hand member of shaft coupling and the first power transmission shaft, and first passes The first front support bearing, the first ring flange, the first gear and the first rear support bearing it is disposed with from left to right on moving axis； Be disposed with from left to right on described second driving shaft the second gear, the second front support bearing, the second ring flange, the 3rd Gear and the second rear support bearing；Be disposed with from left to right on described 3rd power transmission shaft the 3rd front support bearing, the 4th Gear, the 5th gear and the 3rd rear support bearing, three-flange dish；Prop up before being disposed with the 4th from left to right on main shaft Support bearing, the 4th rear support bearing and the 6th gear；

Described first power transmission shaft, second driving shaft, the 3rd power transmission shaft and main shaft are arranged in parallel, wherein, and the first transmission First gear of axle and the 3rd gear engagement of second driving shaft；Second gear of second driving shaft and the of the 3rd power transmission shaft Five gear engagements；4th gear of the 3rd power transmission shaft and the 6th gear engagement of main shaft.

Three grades of deceleration transmission main shaft driving structures of heavy tooth milling machine the most according to claim 1, it is characterised in that: First front support bearing of described first power transmission shaft, the second front support bearing and the 3rd of the 3rd power transmission shaft the of second driving shaft Rear support bearing is at same perpendicular；First rear support bearing of described first power transmission shaft and the second of second driving shaft Rear support bearing is at same perpendicular；3rd front support bearing of the 3rd power transmission shaft and the 4th rear support bearing of main shaft At same perpendicular.

Three grades of deceleration transmission main shaft driving structures of heavy tooth milling machine the most according to claim 1, it is characterised in that: The three-flange dish of the first ring flange of the first power transmission shaft, the second ring flange of second driving shaft and the 3rd power transmission shaft is fixed on On main spindle box.