CN106735564A - Saw blade transmission shaft mechanism - Google Patents

Abstract

The invention discloses saw blade transmission shaft mechanism, including saw blade, rotation B axle mechanism and lifting X-axis mechanism, rotation B axle mechanism includes locking device, RV reductors and B axle servomotor, saw blade is fixed on locking device, locking device connects RV reductors, and RV reductor power connector B axle servomotors, lifting X-axis mechanism includes X-axis servomotor and screw body, X-axis servomotor power connector screw body, screw body connection RV reductors and B axle servomotor.This invention simplifies the axial assembling structure of rotation B axle, reduce transmission link, improve transmission accuracy, while increased lifting X-axis mechanism, realize saw blade rotation and elevating movement.

Description

Saw blade transmission shaft mechanism

Technical field

It is more particularly to a kind of not only to have driven saw blade to rotate but also saw blade liter can be driven the invention belongs to blades machining field The driving shaft mechanism of drop.

Background technology

Saw blade gear grinding machine typically using B axle mechanism realize saw blade high speed rotate, existing B axle mechanism along rotary shaft axle To installing reductor, bearing etc., but the angular error of reductor is larger, precision is not high, and also needed during using bearings Axial seal is set so that axially entirety assembling structure is complicated, transmission link is more, have impact on saw blade rotation transmission effect and Transmission accuracy, while the height of saw blade can not be adjusted, have impact on to knife precision.

The content of the invention

The invention aims to provide a kind of saw blade transmission shaft mechanism, it is ensured that saw blade realizes saw blade while rotation Lifting.

According to an aspect of the invention, there is provided saw blade transmission shaft mechanism, including saw blade, rotation B axle mechanism and lifting X Axis mechanism, rotation B axle mechanism includes locking device, RV reductors and B axle servomotor, and saw blade is fixed on locking device, locks Device connects RV reductors, and RV reductor power connector B axle servomotors, lifting X-axis mechanism includes X-axis servomotor and screw mandrel Mechanism, X-axis servomotor power connector screw body, screw body connection RV reductors and B axle servomotor.

It is direct-connected with B axle servomotor using high-precision RV reductors, the rotation of B axle servomotor rotation driving RV reductors Turn, it is easy for installation so as to realize the rotary motion of saw blade, drive mechanism is simplified, reduce transmission link, Reliable guarantee saw The Adjustment precision of piece anterior angle；While X-axis servomotor drive screw mechanism, screw body drive locking device, RV reductors and B Axle servomotor realizes the elevating movement of saw blade.

In some embodiments, locking device includes saw blade fixing axle, housing screw and attachment screw, saw blade fixing axle Saw blade lower platen, saw blade, saw blade top board, locking pressure plate and locking nut are nested and fixed successively, the center of saw blade is provided with saw Piece centralized positioning set, saw blade centralized positioning set is socketed on saw blade fixing axle, and axial compression in pressure on saw blade lower platen, saw blade Plate, locking pressure plate is built in locking nut, and attachment screw is threadedly connected to locking pressure plate and locking nut, and housing screw screw thread connects Locking nut is connected to, and is pressed in locking pressure plate, in saw blade top board, saw blade is fixed for locking nut, locking pressure plate axial compression The lower end of axle is nested and fixed ring flange.Thus, saw blade centralized positioning set ensure that saw blade fixing axle is located at the center of saw blade, make Obtain reliable and stable when saw blade rotates at a high speed；Turn housing screw is tightened against locking nut so that locking nut once locks saw blade Top board, while housing screw is resisted against locking pressure plate so that locking pressure plate secondary locking saw blade top board, by locking pressure plate And after the two-layer locking of locking nut, locking nut will not be loosened, and saw blade circumferencial direction will not be produced during locking Displacement, it is ensured that accuracy of the saw blade to knife；Meanwhile, locking pressure plate and locking nut are connected by attachment screw, can be in saw Piece once takes out when unlocking, easy to operate.

In some embodiments, ring flange is connected with turntable, and turntable is socketed on RV reductors, the end face of turntable RV reductors are fixed on, the body portion of RV reductors is nested and fixed lifting axle sleeve, and lifting axle sleeve is nested and fixed adapter flange, Adapter flange is socketed on the sleeve part of RV reductors, and the sleeve part of RV reductors is fixed by socket in the axle portion of B axle servomotor, turns Acting flange is fixed on the motor section of B axle servomotor.Thus, B axle servomotor is fixed on adapter flange, and RV reductors are fixed on Turntable, B axle servomotor rotation driving RV reductors rotation, so as to realize the rotary motion of saw blade.

In some embodiments, screw body includes ball screw and nut, and ball screw, nut are built in lifting shaft Set, the motor shaft of X-axis servomotor connects ball screw by shaft coupling, and ball screw is socketed with support base, nut successively, props up Support cover for seat is connected to support base pinboard, is fixed by mounting flange between support base pinboard, the motor body of X-axis servomotor, Nut is nested and fixed adpting flange, and adpting flange passes through circumferential position-limit mechanism and connects lifting axle sleeve, the two ends point of lifting axle sleeve Body portion and the adpting flange of RV reductors are not fixed on.Thus, X-axis servomotor drives ball screw rotary motion, and leads to The worm drive for crossing ball screw and nut cause that nut realizes linear motion, and nut drives lifting axle sleeve and locking device, RV Reductor, B axle servomotor realize the elevating movement of saw blade.

In some embodiments, circumferential position-limit mechanism includes that lifting shaft positioning shaft sleeve, line slide rail fixed plate, straight line are slided Rail, linear slider and slide plate, lifting shaft positioning shaft sleeve are socketed on lifting axle sleeve, and are fixed on support base pinboard, line slide rail Fixed plate is fixed on the outer wall of lifting shaft positioning shaft sleeve, and line slide rail is fixed on line slide rail fixed plate, and linear slider slides peace Loaded on line slide rail, along the axially arranged of lifting axle sleeve, slide plate is fixed on linear slider to line slide rail, and adpting flange is fixed on cunning Plate.Thus, by linear slider along line slide rail slip position-limiting action so that adpting flange drive lifting axle sleeve OQ t Axle positioning shaft sleeve elevating movement, and circumferential movement will not be produced, while also ensure that lifting axle sleeve and lifting shaft positioning shaft sleeve Between axiality.

In some embodiments, the first skeleton oil seal is passed through between the sleeve part of adapter flange and RV reductors. Thus, the first outside framework oil seal prevents the oil leakage of RV reductors internal lubrication.

In some embodiments, sealed by the second O-ring between lifting axle sleeve and the body portion of RV reductors.By This, the second O-ring prevents the coolant in blades machining from entering lifting axle sleeve.

In some embodiments, the end face of turntable is sealed with the bearing of RV reductors by the 3rd O-ring.By This, the 3rd O-ring prevents the coolant in blades machining from entering RV reductors.

In some embodiments, the upper socket of lifting shaft positioning shaft sleeve has the first O-ring, lifting shaft positioning shaft sleeve, Pass through the second skeleton oil seal between lifting axle sleeve.Thus, the first O-ring prevents the coolant in blades machining from entering lifting The bottom of axle positioning shaft sleeve, the second skeleton oil seal prevents the coolant of blades machining from entering in lifting axle sleeve lifting process In lifting shaft positioning shaft sleeve.

In some embodiments, lifting shaft positioning shaft sleeve is provided with proximity switch, and lifting axle sleeve is provided with buting iron, proximity switch Lifting position for sensing buting iron.Thus, when buting iron blocks proximity switch, proximity switch is able to detect that saw blade lifting is transported Dynamic position, improves elevating movement precision.

This invention simplifies the axial assembling structure of rotation B axle, reduce transmission link, improve transmission accuracy, while Lifting X-axis mechanism is increased, saw blade rotation and elevating movement is realized.

Brief description of the drawings

Fig. 1 is the front sectional view of the saw blade transmission shaft mechanism of an embodiment of the present invention；

Fig. 2 is the left view sectional view of locking device shown in Fig. 1.

Specific embodiment

The invention will now be described in further detail with reference to the accompanying drawings.

As shown in figure 1, the saw blade transmission shaft mechanism includes saw blade 5, rotation B axle mechanism 13 and lifting X-axis mechanism 17.

As shown in Figure 1, 2, rotation B axle mechanism 13 includes locking device 12, RV reductors 14 and B axle servomotor 15, lock Tight device 12 includes saw blade fixing axle 1, housing screw 2 and attachment screw 3, saw blade fixing axle 1 be socketed successively saw blade lower platen 4, Saw blade 5, saw blade top board 6, locking pressure plate 7 and locking nut 8, saw blade 5 are saw blade, on saw blade lower platen 4, saw blade 5, saw blade Pressing plate 6 is fixed with the interference fit of saw blade fixing axle 1 respectively, and locking pressure plate 7 is built in locking nut 8, and housing screw 2 is threadedly coupled In locking nut 8, and compressed against locking pressure plate 7.Housing screw 2 has two, is soket head cap screw, tightens housing screw When 2, locking nut 8, the axial compression of locking pressure plate 7 are in saw blade top board 6.Attachment screw 3 is threadedly connected to locking pressure plate 7 and lock Tight nut 8, attachment screw 3 has two, is soket head cap screw, and saw blade centralized positioning set 9 is embedded in the center of saw blade 5, in saw blade Heart positioning sleeve 9 is socketed on saw blade fixing axle 1 and interference fit is fixed, and saw blade centralized positioning covers 9 axial compressions in saw blade lower platen 4th, saw blade top board 6, so as to ensure that saw blade fixing axle 1 is located at the center of saw blade 5 so that stabilization can when saw blade 5 rotates at a high speed Lean on, the end of saw blade fixing axle 1 is socketed with ring flange 10 and interference fit is fixed, the riveting of saw blade top board 6 there are two handles 11, During dismounting, hold handle 11 and be easy to take out saw blade top board 6 from the top of saw blade 5, and then take out saw blade 5.

Turn housing screw 2 and be tightened against locking nut 8 so that locking nut 8 once locks saw blade top board 6, while Housing screw 2 is resisted against locking pressure plate 7 so that the secondary locking saw blade top board 6 of locking pressure plate 7, by locking pressure plate 7 and locking After the two-layer locking of nut 8, locking nut 8 will not be loosened, and the position of the circumferencial direction of saw blade 5 will not be produced during locking Move, it is ensured that accuracy of the saw blade 5 to knife.Locking pressure plate 7 and locking nut 8 are connected by attachment screw 3, is unlocked in saw blade 5 When locking pressure plate 7 and locking nut 8 can once be taken out, it is easy to operate.

Ring flange 10 is connected with turntable 16, and turntable 16 is socketed on RV reductors 14, and the end face of turntable 16 is in Hex screw is fixed on RV reductors 14, and the body portion 141 of RV reductors 14 is socketed and is fixed with lifting by soket head cap screw Axle sleeve 18, lifting axle sleeve 18 is socketed and is fixed with adapter flange 19 by soket head cap screw, and adapter flange 19 is socketed on RV decelerations The sleeve part 142 of machine 14, the sleeve part 142 of RV reductors 14 is socketed and is fixed on B axle servomotor 15 by soket head cap screw Axle portion 151, adapter flange 19 is fixed on the motor section 152 of B axle servomotor 15 by soket head cap screw.

Direct-connected with B axle servomotor 15 using high-precision RV reductors 14, the rotation driving RV of B axle servomotor 15 slows down Machine 14 rotates, easy for installation so as to realize the high speed rotary motion of saw blade 5, simplifies drive mechanism, reduces transmission link, The Reliable guarantee anterior angle Adjustment precision of saw blade 5.

As shown in figure 1, lifting X-axis mechanism 17 includes X-axis servomotor 20 and screw body 21, screw body 21 includes rolling Pearl screw rod 22 and nut 23, ball screw 22, nut 23 are built in lifting axle sleeve 18, and the motor shaft 201 of X-axis servomotor 20 leads to The connection ball screw 22 of shaft coupling 24 is crossed, ball screw 22 is socketed with support base 25, nut 23, support base 25 successively from bottom to top Support base pinboard 26 is socketed with, mounting flange is passed through between support base pinboard 26, the motor body 202 of X-axis servomotor 20 27 fix, and nut 23 is nested and fixed adpting flange 28, and adpting flange 28 passes through circumferential position-limit mechanism 29 and connects lifting axle sleeve 18, The two ends of lifting axle sleeve 18 are individually fixed in body portion 141 and the adpting flange 28 of RV reductors 14.

Circumferential position-limit mechanism 29 includes that lifting shaft positioning shaft sleeve 30, line slide rail fixed plate 31, line slide rail 32, straight line are slided Block 33 and slide plate 34, lifting shaft positioning shaft sleeve 30 are socketed on lifting axle sleeve 18, and are fixed on support base pinboard 26, line slide rail Fixed plate 31 is fixed on the outer wall of lifting shaft positioning shaft sleeve 30, and line slide rail 32 is fixed on line slide rail fixed plate 31, and straight line is slided Block 33 is slidably mounted on line slide rail 32, and line slide rail 32 is axially arranged along lifting axle sleeve 18, and slide plate 34 is fixed on straight line cunning Block 33, adpting flange 28 is fixed on slide plate 34.Lifting shaft positioning shaft sleeve 30 is provided with proximity switch 35, and lifting axle sleeve 18 is provided with buting iron 36, proximity switch 35 is used to sense the lifting position of buting iron 36.When buting iron 36 blocks proximity switch 35, proximity switch 35 can The position of the elevating movement of saw blade 5 is detected, elevating movement precision is improve.

Sealed by the first outside framework oil seal 37 between the sleeve part 142 of adapter flange 19 and RV reductors 14, prevent RV from subtracting The oil leakage of the internal lubrication of fast machine 14.It is close by the second O-ring 38 between lifting axle sleeve 18 and the body portion 141 of RV reductors 14 Envelope, the coolant in preventing saw blade 5 from processing enters lifting axle sleeve 18.The end face of turntable 16 is fixed with the screw of RV reductors 14 Place is sealed by the 3rd O-ring 39, and the coolant in preventing saw blade 5 from processing enters RV reductors 14.Lifting shaft positioning shaft sleeve 30 Upper socket have the first O-ring 40, prevent saw blade 5 process in coolant enter lifting shaft positioning shaft sleeve 30 bottom.Rise Sealed by the second outside framework oil seal 41 between drop axle positioning shaft sleeve 30, lifting axle sleeve 18, prevented in the lifting process of lifting axle sleeve 18 Only the coolant of the processing of saw blade 5 enters in lifting shaft positioning shaft sleeve 30.

X-axis servomotor 20 drives the rotary motion of ball screw 22, and the spiral biography for passing through ball screw 22 and nut 23 Dynamic to cause that nut 23 realizes linear motion, nut 23 drives lifting axle sleeve 18 and locking device 12, RV reductors 14, B axle servo Motor 15 realizes the elevating movement of saw blade 5, meanwhile, by linear slider 33 along line slide rail 32 slip position-limiting action so that Adpting flange 28 drives the elevating movement of 18 OQ t axle positioning shaft sleeve of lifting axle sleeve 30, and will not produce circumferential movement, together When also ensure that axiality between lifting axle sleeve 18 and lifting shaft positioning shaft sleeve 30.

Above-described is only some embodiments of the present invention.For the person of ordinary skill of the art, not On the premise of departing from the invention design, various modifications and improvements can be made, these belong to protection model of the invention Enclose.

Claims (10)

1. saw blade transmission shaft mechanism, it is characterised in that including saw blade (5), rotation B axle mechanism (13) and lift X-axis mechanism (17), Rotation B axle mechanism (13) includes locking device (12), RV reductors (14) and B axle servomotor (15), the saw blade (5) Locking device (12) is fixed on, the locking device (12) connects RV reductors (14), RV reductors (14) the power connector B Axle servomotor (15), lifting X-axis mechanism (17) includes X-axis servomotor (20) and screw body (21), and the X-axis is watched Motor (20) power connector screw body (21) is taken, the screw body (21) connects RV reductors (14) and B axle servomotor (15)。

2. saw blade transmission shaft mechanism according to claim 1, it is characterised in that the locking device (12) is solid including saw blade Dead axle (1), housing screw (2) and attachment screw (3), the saw blade fixing axle (1) are nested and fixed saw blade lower platen successively (4), saw blade (5), saw blade top board (6), locking pressure plate (7) and locking nut (8), the center of the saw blade (5) is provided with saw blade Centralized positioning set (9), the saw blade centralized positioning set (9) is socketed on saw blade fixing axle (1), and axial compression in saw blade lower platen (4), saw blade top board (6), the locking pressure plate (7) is built in locking nut (8), and the attachment screw (3) is threadedly connected to Locking pressure plate (7) and locking nut (8), the housing screw (2) are threadedly connected to locking nut (8), and are pressed in locking pressure Plate (7), the locking nut (8), locking pressure plate (7) axial compression in saw blade top board (6), the saw blade fixing axle (1) Lower end is nested and fixed ring flange (10).

3. saw blade transmission shaft mechanism according to claim 2, it is characterised in that the ring flange (10) is connected with turntable (16), the turntable (16) is socketed on RV reductors (14), and the end face of the turntable (16) is fixed on RV reductors (14), The body portion (141) of the RV reductors (14) is nested and fixed lifting axle sleeve (18), and the lifting axle sleeve (18) is fixed by socket There is adapter flange (19), the adapter flange (19) is socketed on the sleeve part (142) of RV reductors (14), the RV reductors (14) sleeve part (142) is fixed by socket the axle portion (151) in B axle servomotor (15), and the adapter flange (19) is fixed on B The motor section (152) of axle servomotor (15).

4. saw blade transmission shaft mechanism according to claim 3, it is characterised in that the screw body (21) includes ball spiral shell Bar (22) and nut (23), the ball screw (22), nut (23) are built in lifting axle sleeve (18), the X-axis servomotor (20) motor shaft (201) connects ball screw (22) by shaft coupling (24), and the ball screw (22) is socketed with branch successively Support seat (25), nut (23), the support base (25) are socketed with support base pinboard (26), the support base pinboard (26), X It is fixed by mounting flange (27) between the motor body (202) of axle servomotor (20), nut (23) company of being nested and fixed Acting flange (28), the adpting flange (28) connects lifting axle sleeve (18), the lifting axle sleeve by circumferential position-limit mechanism (29) (18) two ends are individually fixed in body portion (141) and the adpting flange (28) of RV reductors (14).

5. saw blade transmission shaft mechanism according to claim 4, it is characterised in that the circumferential position-limit mechanism (29) includes rising Drop axle positioning shaft sleeve (30), line slide rail fixed plate (31), line slide rail (32), linear slider (33) and slide plate (34), it is described Lifting shaft positioning shaft sleeve (30) is socketed on lifting axle sleeve (18), and is fixed on support base pinboard (26), and the line slide rail is consolidated Fixed board (31) is fixed on the outer wall of lifting shaft positioning shaft sleeve (30), and the line slide rail (32) is fixed on line slide rail fixed plate (31), the linear slider (33) is slidably mounted on line slide rail (32), and the line slide rail (32) is along lifting axle sleeve (18) Axially arranged, the slide plate (34) is fixed on linear slider (33), and the adpting flange (28) is fixed on slide plate (34).

6. saw blade transmission shaft mechanism according to claim 3, it is characterised in that the adapter flange (19) subtracts with the RV Sealed by the first outside framework oil seal (37) between the sleeve part (142) of fast machine (14).

7. saw blade transmission shaft mechanism according to claim 3, it is characterised in that the lifting axle sleeve (18) subtracts with the RV Sealed by the second O-ring (38) between the body portion (141) of fast machine (14).

8. saw blade transmission shaft mechanism according to claim 3, it is characterised in that the end face of the turntable (16) with it is described The bearing of RV reductors (14) is sealed by the 3rd O-ring (39).

9. saw blade transmission shaft mechanism according to claim 5, it is characterised in that the lifting shaft positioning shaft sleeve (30) it is upper Portion is socketed with the first O-ring (40), and the second outside framework oil seal is passed through between the lifting shaft positioning shaft sleeve (30), lifting axle sleeve (18) (41) seal.

10. saw blade transmission shaft mechanism according to claim 5, it is characterised in that the lifting shaft positioning shaft sleeve (30) sets There is proximity switch (35), the lifting axle sleeve (18) is provided with buting iron (36), and the proximity switch (35) is for sensing buting iron (36) Lifting position.