CN204770990U - Gear hobbing knife rest of little modulus numerical control gear -hobbing machine - Google Patents

Abstract

The utility model discloses a gear hobbing knife rest of little modulus numerical control gear -hobbing machine, scurry sword part, knife rest tailstock part including knife rest somatic part branch, knife rest main shaft part, knife rest. Knife rest main shaft part including the tool rest slide, install headstock, main shaft, the cutter arbor of pin joint in the headstock on the tool rest slide, tool rest slide sliding fit is on the knife rest somatic part divides, be equipped with torque motors in the headstock, torque motors's rotor is fixed on the main shaft, and torque motors's stator is installed on the inside wall of headstock, the cutter arbor is installed on the main shaft. The sword partial fixing is scurried on the tool rest slide to the knife rest, and the pin joint of sword part is scurried to the knife rest has the lead screw, and the nut on the lead screw is fixed on the knife rest somatic part divides. Sliding fit is on the tool rest slide for knife rest tailstock part, and knife rest tailstock part supports the tail end of cutter arbor. The utility model discloses torque motors's rotor snap -on has realized the fragmentary transmission of power transmission on the main shaft, avoided the driving error, is favorable to improving the rotary precision of main shaft.

Description

A kind of hobbing knife rest of low module chain digital control gear hobbing machine

Technical field:

The utility model relates to gear-hobbing machine equipment, in particular to a kind of hobbing knife rest of low module chain digital control gear hobbing machine.

Background technology:

The hobbing knife rest of low module chain digital control gear hobbing machine, by prior art, motor by the transmission device (as gear mechanism) of intermediate link by power transmission to the main shaft of hobbing knife rest.Because transmission device certainly exists driving error, so the transmission device of intermediate link is unfavorable for the rotating accuracy improving main shaft.

Utility model content:

The technical problem that the utility model solves: the hobbing knife rest of low module chain digital control gear hobbing machine of the prior art (can machining worm), due to motor by the transmission device of intermediate link by power transmission to the main shaft of hobbing knife rest, therefore, the driving error that transmission device itself has will affect the rotating accuracy of main shaft.

The utility model provides following technical scheme:

A hobbing knife rest for low module chain digital control gear hobbing machine, comprises tool-post structure part, tool spindle part, knife rest alters cutter part, knife rest tailstock portion;

Described tool spindle part comprises sliding carriage, the main spindle box be arranged on sliding carriage, the main shaft be articulated in main spindle box, knife bar; Sliding carriage is slidably fitted in the top plane of tool-post structure part, and sliding carriage can move along the top plane of tool-post structure part as horizontal linear; Be provided with torque motor in described main spindle box, the rotor of described torque motor is fixed on main shaft, and the stator of described torque motor is arranged on the madial wall of main spindle box; Described knife bar is horizontally disposed with, and the front end of knife bar is arranged on main shaft, and major axis horizontal is arranged;

Described knife rest alters cutter partial fixing on sliding carriage, and knife rest is altered cutter part and is articulated with screw mandrel, and screw mandrel is horizontally disposed with, and screw mandrel is combined with nut, and described nut is fixed in tool-post structure part;

Described knife rest tailstock portion is slidably fitted on sliding carriage, and knife rest tailstock portion props up the tail end of knife bar.

By technique scheme, the rotor of torque motor described in the utility model is directly fixed on main shaft, so, motor described in the utility model saves land power transmission to main shaft without adapter ring, achieve the Zero-drive Chain of power transmission, avoid driving error, be conducive to the rotating accuracy improving main shaft.

By technique scheme, operation principle of the present utility model is: torque motor drive shaft rotates, and main shaft drives knife bar to rotate, and knife bar drives the cutter be arranged on knife bar to rotate with processing work; Screw mandrel can drive tool spindle part to move relative to tool-post structure part of horizontal with the cooperation of nut, and then the cutter on knife bar is moved horizontally, and to make full use of each tooth of cutter, saves the cost of charp tool; Knife rest tailstock portion props up the tail end of knife bar, make knife bar and on cutter operate steadily.

As the one explanation of the utility model cutter setting frame main shaft portion, described main shaft is articulated in main spindle box by five groups of main shaft bearings, and described five groups of main shaft bearings comprise first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing, the 4th group of main shaft bearing, the 5th group of main shaft bearing; Described first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing, the 4th group of main shaft bearing are arranged on the front end of main shaft, wherein, first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing are arranged on the front end of main shaft side by side, be provided with and be arranged on the main shaft outer separator cooperatively interacted on main shaft and main shaft inner spacing collar between the 4th group of main shaft bearing and the 3rd group of main shaft bearing; Described 5th group of main shaft bearing is arranged on the rear end of main shaft; Described torque motor is between the front-end and back-end of main shaft.As described above, because torque motor driving torque is large, adds five groups of high precision high rigidity main shaft bearings and coordinate, the rotating accuracy of main shaft and operating characteristic are considerably beyond the main shaft of electro spindle or other structures.

One as the utility model cutter setting frame main shaft portion illustrates, the front end of described knife bar is arranged on main shaft by the first coning sleeve; Described first coning sleeve centre offers bellmouth, and the first coning sleeve is arranged on the front end face of main shaft, and the front end of knife bar is arranged in the bellmouth of the first coning sleeve.Hobbing knife rest of the prior art is opened in main shaft top by installing the bellmouth of knife bar, and its machining accuracy difficulty greatly and not easily ensure; Bellmouth and main shaft separate by the utility model, and described bellmouth is opened on the first coning sleeve, and so, not only precision improves greatly, and processing technology simplifies greatly.Wherein, described bellmouth is 7:24 bellmouth.

One as the utility model cutter setting frame tailstock portion illustrates, described knife rest tailstock portion comprises latch, connecting plate, oil cylinder, knife rest boot, gyroaxis; Described latch is slidably fitted on sliding carriage, latch can move along sliding carriage as horizontal linear, described connecting plate connects the piston rod of latch and oil cylinder, oil cylinder is arranged on sliding carriage, described knife rest boot is arranged on latch, described gyroaxis is articulated in knife rest boot by the angular contact ball bearing that four are set up in parallel, and gyroaxis is against the tail end of knife bar.As described above, oil cylinder drives connecting plate by piston rod, and connecting plate drives latch to move as horizontal linear on sliding carriage, makes gyroaxis prop up the tail end of knife bar; The gyroaxis propping up knife bar tail end is synchronous rotary along with the rotation of knife bar.

Based on the above-mentioned explanation for knife rest tailstock portion, as the utility model, the one of wherein gyroaxis is improved, described gyroaxis comprises axis body and the second coning sleeve, described second coning sleeve centre offers bellmouth, second coning sleeve is arranged on the end face of axis body, and described gyroaxis is against the tail end of knife bar by the bellmouth of the second coning sleeve.Bellmouth and gyroaxis separate by the utility model, and described bellmouth is opened on the second coning sleeve, and so, not only precision improves greatly, and processing technology simplifies greatly.

The one of altering cutter part as the utility model cutter setting frame illustrates, described knife rest alter cutter part comprise alter knife support, alter cutter frame, large synchronous pulley, small synchronous pulley, servomotor; Described screw mandrel is articulated in alters knife support and alters in cutter frame, described knife support of altering is fixed on sliding carriage, alter cutter frame and alter knife support and be fixedly connected with, described large synchronous pulley is arranged on screw mandrel, large synchronous pulley is connected with small synchronous pulley by Timing Belt, and small synchronous pulley is connected with servomotor.As described above, described servomotor can be fixed on knife rest and alter cutter part, also tool spindle part can be fixed on, driven by servomotor small synchronous pulley rotates, small synchronous pulley drives large synchronous pulley to rotate, large synchronous pulley drives screw mandrel to rotate, and the nut being fixed on tool-post structure part orders about by screw mandrel the knife rest be fixedly connected with and alters cutter part and tool spindle part does horizontal linear displacement along tool-post structure part, so make knife bar and on cutter do horizontal linear displacement.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is the general structure schematic diagram of the hobbing knife rest of a kind of low module chain digital control gear hobbing machine of the utility model;

Fig. 2 is the structural representation of Fig. 1 intermediate slide main shaft portion 20;

Fig. 3 is A place enlarged drawing in Fig. 1;

Fig. 4 is the structural representation that cutter part 30 altered by Fig. 1 intermediate slide.

Symbol description in figure:

10, tool-post structure part;

20, tool spindle part; 21, sliding carriage; 22, main spindle box; 23, main shaft; 24, knife bar; 25, torque motor; 251, the rotor of torque motor; 252, the stator of torque motor; 261, first group of main shaft bearing; 262, second group of main shaft bearing; 263, the 3rd group of main shaft bearing; 264, the 4th group of main shaft bearing; 265, the 5th group of main shaft bearing; 271, main shaft outer separator; 272, main shaft inner spacing collar; 28, the first coning sleeve;

30, cutter part altered by knife rest; 31, screw mandrel; 32, nut; 33, knife support is altered; 34, cutter frame is altered; 35, large synchronous pulley; 36, small synchronous pulley; 37, servomotor;

40, knife rest tailstock portion; 41, latch; 42, connecting plate; 43, oil cylinder; 44, knife rest boot; 45, gyroaxis; 451, axis body; 452, the second coning sleeve; 46, centripetal ball bearing for the treatment of others with sincerity.

Detailed description of the invention:

As Fig. 1, a kind of hobbing knife rest of low module chain digital control gear hobbing machine, comprises tool-post structure part 10, tool spindle part 20, knife rest alters cutter part 30, knife rest tailstock portion 40.

As Fig. 2, described tool spindle part 20 comprises sliding carriage 21, the main spindle box 22 be arranged on sliding carriage, the main shaft 23 be articulated in main spindle box, knife bar 24; Sliding carriage is slidably fitted in the top plane of tool-post structure part, and sliding carriage can move along the top plane of tool-post structure part as horizontal linear; Described knife bar is horizontally disposed with, and the front end of knife bar is arranged on main shaft, and major axis horizontal is arranged.

In above-mentioned tool spindle part 20, as Fig. 2, be provided with torque motor 25 in described main spindle box 22, the rotor 251 of described torque motor is fixed on main shaft, and the stator 252 of described torque motor is arranged on the madial wall of main spindle box.

In above-mentioned tool spindle part 20, as Fig. 2, the front end of described knife bar 24 is arranged on main shaft 23 by the first coning sleeve 28; Described first coning sleeve centre offers bellmouth, and the first coning sleeve is arranged on the front end face of main shaft, and the front end of knife bar is arranged in the bellmouth of the first coning sleeve.

In above-mentioned tool spindle part 20, as Fig. 2, described main shaft 23 is articulated in main spindle box 22 by five groups of main shaft bearings, and described five groups of main shaft bearings comprise first group of main shaft bearing, 261, second group of main shaft bearing 262, the 3rd group of main shaft bearing 263, the 4th group of main shaft bearing 264, the 5th group of main shaft bearing 265; Described first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing, the 4th group of main shaft bearing are arranged on the front end of main shaft, wherein, first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing are arranged on the front end of main shaft side by side, be provided with and be arranged on the main shaft outer separator 271 cooperatively interacted on main shaft and main shaft inner spacing collar 272 between the 4th group of main shaft bearing and the 3rd group of main shaft bearing; Described 5th group of main shaft bearing is arranged on the rear end of main shaft; Described torque motor 25 is between the front-end and back-end of main shaft.

As Fig. 3, described knife rest tailstock portion 40 is slidably fitted on sliding carriage, and knife rest tailstock portion props up the tail end of knife bar.

Above-mentioned knife rest tailstock portion 40, as Fig. 3, described knife rest tailstock portion 40 comprises latch 41, connecting plate 42, oil cylinder 43, knife rest boot 44, gyroaxis 45; Described latch is slidably fitted on sliding carriage 21, latch can move along sliding carriage as horizontal linear, described connecting plate connects the piston rod of latch and oil cylinder, oil cylinder is arranged on sliding carriage, described knife rest boot is arranged on latch, described gyroaxis is articulated in knife rest boot by four angular contact ball bearings be set up in parallel 46, and gyroaxis is against the tail end of knife bar 24.

In above-mentioned knife rest tailstock portion 40, as Fig. 3, described gyroaxis 45 comprises axis body 451 and the second coning sleeve 452, and described second coning sleeve centre offers bellmouth, second coning sleeve is arranged on the end face of axis body, and described gyroaxis is against the tail end of knife bar 24 by the bellmouth of the second coning sleeve.

As Fig. 4, described knife rest is altered cutter part 30 and is fixed on sliding carriage, and knife rest is altered cutter part and is articulated with screw mandrel 31, and screw mandrel is horizontally disposed with, and screw mandrel is combined with nut 32, and described nut is fixed in tool-post structure part.

Cutter part 30 altered by above-mentioned knife rest, as Fig. 4, comprise alter knife support 33, alter cutter frame 34, large synchronous pulley 35, small synchronous pulley 36, servomotor 37; Described screw mandrel 31 is articulated in alters knife support and alters in cutter frame, described knife support of altering is fixed on sliding carriage 21, alter cutter frame and alter knife support and be fixedly connected with, described large synchronous pulley is arranged on screw mandrel, large synchronous pulley is connected with small synchronous pulley by Timing Belt, and small synchronous pulley is connected with servomotor.

In practical operation, torque motor 25 drive shaft 23 rotates, and main shaft 23 drives knife bar 24 to rotate, and knife bar 24 drives the cutter be arranged on knife bar 24 to rotate with processing work; Screw mandrel 31 and the cooperation of nut 32 can drive the relative tool-post structure part 10 of tool spindle part 20 to move horizontally, and then the cutter on knife bar 24 is moved horizontally, and to make full use of each tooth of cutter, save the cost of charp tool; Knife rest tailstock portion 40 props up the tail end of knife bar 24, make knife bar 24 and on cutter operate steadily.

Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (6)

1. a hobbing knife rest for low module chain digital control gear hobbing machine, comprises tool-post structure part (10), tool spindle part (20), knife rest alters cutter part (30), knife rest tailstock portion (40);

Described tool spindle part (20) comprises sliding carriage (21), the main spindle box (22) be arranged on sliding carriage, the main shaft (23) be articulated in main spindle box, knife bar (24); Sliding carriage is slidably fitted in the top plane of tool-post structure part, and sliding carriage can move along the top plane of tool-post structure part as horizontal linear; Described knife bar is horizontally disposed with, and the front end of knife bar is arranged on main shaft, and major axis horizontal is arranged;

Described knife rest is altered cutter part (30) and is fixed on sliding carriage, and knife rest is altered cutter part and is articulated with screw mandrel (31), and screw mandrel is horizontally disposed with, and screw mandrel is combined with nut (32), and described nut is fixed in tool-post structure part;

Described knife rest tailstock portion (40) is slidably fitted on sliding carriage, and knife rest tailstock portion props up the tail end of knife bar;

It is characterized in that:

Be provided with torque motor (25) in described main spindle box (22), the rotor (251) of described torque motor is fixed on main shaft, and the stator (252) of described torque motor is arranged on the madial wall of main spindle box.

2. the hobbing knife rest of a kind of low module chain digital control gear hobbing machine as claimed in claim 1, it is characterized in that: described main shaft (23) is articulated in main spindle box (22) by five groups of main shaft bearings, described five groups of main shaft bearings comprise first group of main shaft bearing (261), second group of main shaft bearing (262), the 3rd group of main shaft bearing (263), the 4th group of main shaft bearing (264), the 5th group of main shaft bearing (265); Described first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing, the 4th group of main shaft bearing are arranged on the front end of main shaft, wherein, first group of main shaft bearing, second group of main shaft bearing, the 3rd group of main shaft bearing are arranged on the front end of main shaft side by side, be provided with and be arranged on the main shaft outer separator (271) cooperatively interacted on main shaft and main shaft inner spacing collar (272) between the 4th group of main shaft bearing and the 3rd group of main shaft bearing; Described 5th group of main shaft bearing is arranged on the rear end of main shaft; Described torque motor (25) is between the front-end and back-end of main shaft.

3. the hobbing knife rest of a kind of low module chain digital control gear hobbing machine as claimed in claim 1, is characterized in that: the front end of described knife bar (24) is arranged on main shaft (23) by the first coning sleeve (28); Described first coning sleeve centre offers bellmouth, and the first coning sleeve is arranged on the front end face of main shaft, and the front end of knife bar is arranged in the bellmouth of the first coning sleeve.

4. the hobbing knife rest of a kind of low module chain digital control gear hobbing machine as claimed in claim 1, is characterized in that: described knife rest tailstock portion (40) comprises latch (41), connecting plate (42), oil cylinder (43), knife rest boot (44), gyroaxis (45); Described latch is slidably fitted on sliding carriage (21), latch can move along sliding carriage as horizontal linear, described connecting plate connects the piston rod of latch and oil cylinder, oil cylinder is arranged on sliding carriage, described knife rest boot is arranged on latch, described gyroaxis is articulated in knife rest boot by four angular contact ball bearings be set up in parallel (46), and gyroaxis is against the tail end of knife bar (24).

5. the hobbing knife rest of a kind of low module chain digital control gear hobbing machine as claimed in claim 4, it is characterized in that: described gyroaxis (45) comprises axis body (451) and the second coning sleeve (452), described second coning sleeve centre offers bellmouth, second coning sleeve is arranged on the end face of axis body, and described gyroaxis is against the tail end of knife bar (24) by the bellmouth of the second coning sleeve.

6. the hobbing knife rest of a kind of low module chain digital control gear hobbing machine as claimed in claim 1, is characterized in that: described knife rest alter cutter part (30) comprise alter knife support (33), alter cutter frame (34), large synchronous pulley (35), small synchronous pulley (36), servomotor (37); Described screw mandrel (31) is articulated in alters knife support and alters in cutter frame, described knife support of altering is fixed on sliding carriage (21), alter cutter frame and alter knife support and be fixedly connected with, described large synchronous pulley is arranged on screw mandrel, large synchronous pulley is connected with small synchronous pulley by Timing Belt, and small synchronous pulley is connected with servomotor.