CN201280579Y - Gap automatic regulating apparatus - Google Patents

Abstract

The utility model relates to an automatic gap-regulating device used for a gear quench machining tool. The device comprises a large cross skid platform, a small cross skid platform, an air cylinder, two balance springs, a guide rod and an inductor, wherein, the small cross skid platform and the inductor are connected on the large cross skid platform; the guide rod is connected on the small cross skid platform; the small cross skid platform regulates the opposite position between the guide rod and the inductor; and the gap between the inductor and a tooth surface of a tooth socket is automatically regulated under the actions of the two balance springs and the air cylinder. The automatic gap-regulating device disclosed by the utility model, as a mechanical device, replaces the expensive and complex automatic electric tracking system, has the advantages of simple structure, high precision, low cost, flexible and reliable actions and convenient operation, and at same time, reduces the labor intensity of manual operation and improves working efficiency.

Description

Automatic gap adjustment device

Technical field

The utility model relates to a kind of lash adjusting device, especially relates to a kind of automatic gap adjustment device that is used for the gear quenching lathe.

Background technology

Usually divide the induction hardened gear quenching lathe of tooth finishing the quenching of a teeth groove each time, forwarding next teeth groove to by the index table of clamping gear quenches, because the error of division of worktable, the physical construction gap of worktable and the error of gear itself, make quenching inducer and tooth surface between the gap inhomogeneous, repeatedly the progressive error behind the calibration also may cause quenching inducer and tooth surface generation grazing, because quenching inducer and tooth surface spacing directly influence the depth of hardening and the quenching hardness of tooth surface, therefore, when gear quenching, control accuracy to quenching inducer and tooth surface spacing is had relatively high expectations, quenching inducer and the gap between the tooth surface that above-mentioned reason causes are inhomogeneous, can cause flank of tooth depth of hardening inequality, the quenching hardness of the flank of tooth is also uneven, thereby causes gear quenching off quality.At present domestic branch tooth quenching machine adopts mostly and manually follows the tracks of operation, inefficiency, it is inhomogeneous to quench, the qualification rate of gear quenching is lower, and the same category of device of import adopts the spacing of the electrical system of a transmitter and a cover costliness from motion tracking control quenching inducer and teeth groove surface, the equipment input cost height of this control mode usually, complex structure, failure rate height, maintenance difficult, use cost are also very high.

The utility model content

The applicant is at above-mentioned problem, carried out research and improved, provide a kind of simple in structure, precision is high, cost is low, flexible movements are reliable, easy to maintenance, the automatic gap adjustment device that can adjust inductor block and tooth surface spacing automatically.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of automatic gap adjustment device comprises:

The grand cross slide unit, the upper slide stationary installation is in the travel mechanism of lathe, upper slide and middle slide plate are slidingly connected by last line slideway, middle slide plate and lower skateboard are slidingly connected by following line slideway, last line slideway installation direction is vertical mutually with following line slideway installation direction, and stationary installation has counterbalance weight under the middle slide plate;

Little cross slid platform, little upper slide is fixedly connected on the lower skateboard of described grand cross slide unit, little upper slide and little middle slide plate are slidingly connected by the little line slideway of going up, be provided with the upper screw rod nut body between little upper slide and the little middle slide plate, the screw mandrel axis direction of upper screw rod nut body is consistent with little last line slideway direction; Little middle slide plate and little lower skateboard are slidingly connected by little following line slideway, are provided with down leading screw and nut mechanism between little middle slide plate and the little lower skateboard, and the screw mandrel axis direction of following leading screw and nut mechanism is consistent with little following line slideway direction; Little last line slideway installation direction is vertical mutually with little following line slideway installation direction;

Cylinder, its cylinder body stationary installation is in the travel mechanism of lathe, and its piston rod connects the middle slide plate of described grand cross slide unit;

Two equalizing springs, device support the both sides that are contained in described counterbalance weight respectively in the lower skateboard of described grand cross slide unit, the other end of two equalizing springs supports the side that is contained in described lower skateboard;

Tail rod, cylindrical, be connected by strut fixation on the little lower skateboard of described little cross slid platform, in the time of in working order, tail rod is pressed on by on the flank of tooth of quenching gear tooth slot;

Inductor block, its shape of cross section is fixedly connected on by support on the lower skateboard of described grand cross slide unit with corresponding by the teeth groove of quenching gear.

Further:

Described two equalizing springs are sleeved on the slide bar, and counterbalance weight slides on the slide bar, slide bar by its two ends nut apparatus between the two sides of lower skateboard.

Described slide bar two ends are respectively equipped with the regulating sleeve of adjustable springs power, and the regulating sleeve spiral shell is contained in the side of lower skateboard, and the one end supports an end that is contained in equalizing spring.

Described pole is provided with internal tooth tail rod and external tooth tail rod, and described support is provided with corresponding internal tooth inductor block and external tooth inductor block.

Technique effect of the present utility model is:

1. the disclosed a kind of automatic gap adjustment device of the utility model substitutes expensive, complicated automatic electric tracking system with mechanism, and is simple in structure, the precision height, cost is low, and flexible movements are reliable, and is easy to maintenance, simultaneously, reduced the manual labour intensity of workman, increased work efficiency.

2. the side of lower skateboard is provided with regulating sleeve, the elasticity of adjustment spring easily, thus adjust the pressure of tail rod to the teeth groove flank of tooth.

3. be provided with internal tooth tail rod, external tooth tail rod and corresponding internal tooth inductor block and external tooth inductor block simultaneously, applicable to quenching to internal wheel and outer rotor.

Description of drawings

Fig. 1 is the utility model structural representation.

Fig. 2 is the structural representation of grand cross slide unit.

Fig. 3 is that the A of Fig. 2 is to view.

Fig. 4 is the structural representation of little cross slid platform.

Fig. 5 is the vertical view of Fig. 4.

Fig. 6 is a fundamental diagram of the present utility model.

Among the figure:

The travel mechanism of leading screw and nut mechanism 4-pole 5-guide post 501-internal tooth guide post 502-external tooth guide post 6-inductor 601-internal tooth inductor 602-external tooth inductor 7-inductor support 8-balancing spring 9-slide bar 10-regulating sleeve 11-nut 12-cage 13-transformer 14-backflow row 15-ring gear 16-external gear 17-lathe under the little lower line slideway 306-upper screw rod nut body 307-of the little upper line slideway 305-of the line slideway 106-balance weight 2-cylinder 201-support little lower skateboard 304-of the 202-little middle slide plate 303-of the little upper slide 302-of the little cross slid platform 301-of support 3-under the upper line slideway 105-of 1-grand cross slide unit 101-upper slide 102-middle slide plate 103-lower skateboard 104-

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.

As Fig. 1,2,3,4, shown in 5, the utility model comprises grand cross slide unit 1 and little cross slid platform 3, upper slide 101 stationary installations of grand cross slide unit 1 are in the travel mechanism 17 (Fig. 2) of lathe, upper slide 101 is slidingly connected by last line slideway 104 with middle slide plate 102, middle slide plate 102 is slidingly connected by following line slideway 105 with lower skateboard 103, last line slideway 104 installation directions are vertical mutually with following line slideway 105 installation directions, the slip direction that is to say line slideway 104 is vertical mutually with following line slideway 105 slip directions, and 102 times stationary installations of middle slide plate have counterbalance weight 106 (Fig. 3).In the travel mechanism 17 of lathe, the piston rod of cylinder 2 connects the middle slide plate 102 of grand cross slide unit 1 to the cylinder body of cylinder 2 by support 202 by support 201 stationary installations.Two equalizing springs 8 install respectively in lower skateboard 103 in the both sides of counterbalance weight 106, one end of two equalizing springs 8 supports the both sides that are contained in counterbalance weight 106 respectively, the other end of two equalizing springs 8 supports the side that is contained in lower skateboard 103 respectively, in the present embodiment, two equalizing springs 8 are sleeved on the slide bar 9, counterbalance weight 106 slides on the slide bar 9, slide bar 9 two ends are respectively equipped with the regulating sleeve 10 of adjustable springs power, regulating sleeve 10 spiral shells are contained in the side of lower skateboard 103, one end of regulating sleeve 10 supports an end that is contained in equalizing spring 8, slide bar 9 is installed between the two sides of lower skateboard 103 by the nut 11 at its two ends, the length of rotary regulating sleeve 10 adjustable and balancing springs 8, thereby the spring force of adjustment equalizing spring 8.The flexible middle slide plate 102 that makes of the piston rod of cylinder 2 slides along the direction of last line slideway 104,103 edge line slideway 105 directions slips down under external force of lower skateboard.The little upper slide 301 of little cross slid platform 3 is fixedly connected on by cage 12 on the lower skateboard 103 of grand cross slide unit 1, and transformer 13, the row of backflow 14 etc. are installed in the cage 12, and they move with grand cross slide unit 1.Little upper slide 301 is slidingly connected by the little line slideway 304 of going up with little middle slide plate 302, be provided with upper screw rod nut body 306 between little upper slide 301 and the little middle slide plate 302, the screw mandrel axis direction of upper screw rod nut body 306 is consistent with little last line slideway 304 directions, and the screw mandrel that rotates upper screw rod nut body 306 can make little middle slide plate 302 move along little line slideway 304 directions that go up; Little middle slide plate 302 is slidingly connected by little line slideway 305 down with little lower skateboard 303, be provided with down leading screw and nut mechanism 307 between little middle slide plate 302 and the little lower skateboard 303, the screw mandrel axis direction of following leading screw and nut mechanism 307 is consistent with little following line slideway direction, and rotating down, the screw mandrel of leading screw and nut mechanism 307 can make little lower skateboard 303 move along little line slideway 305 directions down; For a short time, go up line slideway 304 installation directions and little line slideway 305 installation directions are vertical mutually down, that is to say that the little slip direction that goes up line slideway 304 is vertical mutually with the slip direction of little line slideway 305 down.Tail rod 5 is a cylindrical bar, its diameter is by the modulus of quilt quenching gear, decisions such as the number of teeth, when quenching, tail rod 5 is pressed on by (as Fig. 6) on the flank of tooth of quenching gear tooth slot, tail rod 5 is fixedly connected on the little lower skateboard 303 of little cross slid platform 3 by pole 4, inductor block 6 is fixedly connected on the lower skateboard 103 of grand cross slide unit by inductor block support 7, the shape of cross section of inductor block 6 is with consistent by the teeth groove of quenching gear, even with flank of tooth maintenance gap when quenching, in the present embodiment, pole 4 is provided with internal tooth tail rod 501 and external tooth tail rod 502, inductor block support 7 is provided with corresponding internal tooth inductor block 601 and external tooth inductor block 602, internal tooth tail rod 501 carries out hardening step with 601 teamworks of internal tooth inductor block to ring gear 15, and external tooth tail rod 502 carries out hardening step with external tooth inductor block 602 teamwork external gear wheels 16.

Principle of work of the present utility model:

As Fig. 6 and Fig. 1,2,3,4, shown in 5, moving of grand cross slide unit 1 both direction respectively by cylinder 2 and equalizing spring 8 controls, the little cross slid platform 3 of device on grand cross slide unit 1 reaches down by above-mentioned upper screw rod nut body 306, and leading screw and nut mechanism 307 control both directions move, tail rod 5 is fixedly connected on the little cross slid platform 3 by pole 4, inductor block 6 is fixedly connected on the grand cross slide unit 1 by inductor block support 7, adjusting little cross slid platform 3 can make tail rod 5 shift to and inductor block 6 relative suitable positions, promptly when inductor block 6 in the central position of teeth groove and suitable with the spacing of the flank of tooth, tail rod 5 holds out against on the flank of tooth of adjacent sheaves, and this moment, tail rod 5 was fixed with the relative position of inductor block 6.When the quenching of finishing a teeth groove, enter when next teeth groove quenched, because the possible error of division, the physical construction gap of worktable and the error of gear itself causes the position of this teeth groove and the position of a last teeth groove that certain deviation is arranged, keep certain pressure that tail rod 5 is held out against on the flank of tooth of adjacent sheaves by cylinder 2, because the lower skateboard 103 of grand cross slide unit 1 floats, thereby guarantee inductor block 6 and even by the spacing between the quenching teeth groove flank of tooth between two equalizing springs 8.

Adjustment operating process of the present utility model:

1. coarse adjustment: at first crawl starts the travel mechanism 17 of lathe, allow inductor block 6 arbitrary teeth groove near gear rings, but do not contact teeth groove, make inductor block 6 from 3 millimeters of tooth tops with interior position, guarantee that simultaneously tail rod 5 lower ends stretch out 20 millimeters of workpiece belows,, regulate worktable if inductor block is not aimed at teeth groove, make worktable at a slow speed clockwise or be rotated counterclockwise, guarantee that inductor block 6 just in time aims at teeth groove; Regulate little cross slid platform 3 simultaneously, if tail rod 5 is not aimed at contiguous teeth groove, regulate tail rod 5 by finely tuning little cross slid platform 3, assurance tail rod 5 is also just in time aimed at adjacent teeth groove, the travel mechanism 17 of manual regulation lathe, make inductor block 6 enter teeth groove, regulate little cross slid platform 3 simultaneously and make tail rod 5 lean addendum flank, two equalizing springs 8 are at meta at this moment, and lower skateboard 103 is in equilibrium state, cylinder 2 is not ventilated, and cylinder 2 piston rods are in retracted state.

2. fine setting: after adjusting, cylinder 2 ventilations, the pressure of cylinder 2 is pressed on the flank of tooth tail rod 5, regulate little cross slid platform 3, tail rod 5 is all around moved, and inductor block also moves thereupon, and the gap that makes the inductor block 6 and the flank of tooth is in 0.1 millimeter, inductor block can not contact Tooth during adjusting, in order to avoid inductor block 6 stress deformations.After mixing up, write down the machine tool control system parameter of this moment, be the quenching starting point.The air pressure adjustment of cylinder 2 at 0.3～0.4MPa, is guaranteed that tail rod 5 all the time on the flank of tooth near teeth groove, guarantees tail rod 5 simultaneously not because of stressed excessive the distortion, and the gap of inductor block 6 and the teeth groove flank of tooth is all the time in 0.1 millimeter.After above-mentioned adjustment is finished, because tail rod 5 locks with the relative position of inductor block 6, when next teeth groove is quenched, if there is certain deviation the position of this teeth groove and a last teeth groove, keep certain pressure that tail rod 5 is held out against on the flank of tooth of adjacent sheaves by cylinder 2, the lower skateboard 103 of grand cross slide unit 1 floats between two equalizing springs 8, thereby guarantee inductor block 6 and even, thereby guarantee that the inductor block 6 and the gap tracking of the flank of tooth remain in 0.1 millimeter by the spacing between the quenching teeth groove flank of tooth.

The utility model not only is used for the gear quenching lathe, can also be used in other similar lathes.

Claims (4)

1. automatic gap adjustment device is characterized in that comprising:

The grand cross slide unit, the upper slide stationary installation is in the travel mechanism of lathe, upper slide and middle slide plate are slidingly connected by last line slideway, middle slide plate and lower skateboard are slidingly connected by following line slideway, last line slideway installation direction is vertical mutually with following line slideway installation direction, and stationary installation has counterbalance weight under the middle slide plate;

Little cross slid platform, little upper slide is fixedly connected on the lower skateboard of described grand cross slide unit, little upper slide and little middle slide plate are slidingly connected by the little line slideway of going up, be provided with the upper screw rod nut body between little upper slide and the little middle slide plate, the screw mandrel axis direction of upper screw rod nut body is consistent with little last line slideway direction; Little middle slide plate and little lower skateboard are slidingly connected by little following line slideway, are provided with down leading screw and nut mechanism between little middle slide plate and the little lower skateboard, and the screw mandrel axis direction of following leading screw and nut mechanism is consistent with little following line slideway direction; Little last line slideway installation direction is vertical mutually with little following line slideway installation direction;

Cylinder, its cylinder body stationary installation is in the travel mechanism of lathe, and its piston rod connects the middle slide plate of described grand cross slide unit;

Two equalizing springs, device support the both sides that are contained in described counterbalance weight respectively in the lower skateboard of described grand cross slide unit, the other end of two equalizing springs supports the side that is contained in described lower skateboard;

Tail rod, cylindrical, be connected by strut fixation on the little lower skateboard of described little cross slid platform, in the time of in working order, tail rod is pressed on by on the flank of tooth of quenching gear tooth slot;

Inductor block, its shape of cross section is fixedly connected on by support on the lower skateboard of described grand cross slide unit with corresponding by the teeth groove of quenching gear.

2. according to the described automatic gap adjustment device of claim 1, it is characterized in that: described two equalizing springs are sleeved on the slide bar, and counterbalance weight slides on the slide bar, slide bar by its two ends nut apparatus between the two sides of lower skateboard.

3. according to the described automatic gap adjustment device of claim 2, it is characterized in that: described slide bar two ends are respectively equipped with the regulating sleeve of adjustable springs power, and the regulating sleeve spiral shell is contained in the side of lower skateboard, and the one end supports an end that is contained in equalizing spring.

4. according to the described automatic gap adjustment device of claim 1, it is characterized in that: described pole is provided with internal tooth tail rod and external tooth tail rod, and described support is provided with corresponding internal tooth inductor block and external tooth inductor block.

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