CN204770979U - Last unloader of gear -hobbing machine - Google Patents

Abstract

The utility model discloses a last unloader of gear -hobbing machine, including feed mechanism, unloading mechanism, transfer mechanism, manipulator group, layering setting about feed mechanism and the unloading mechanism, the transfer establishment of institution is in feed mechanism's the output and the input department of unloading mechanism, and transfer mechanism is including the upset pole that can pick the work piece, and the upset pole can rotate between the input of feed mechanism's output and unloading mechanism around the rotation axis, manipulator group establishes the side in transfer mechanism, including two telescopic manipulators. According to above -mentioned technical scheme, one of two manipulators pick from the upset pole and wait to process the work piece, and the upset pole is handed to to work piece that the completion will have been processed to another manipulator, and the upset pole passes on the work piece to the unloading mechanism in again. Because layering setting about feed mechanism and the unloading mechanism, so, unloader can sparingly occupy the space of lathe in the automation.

Description

A kind of handling equipment of gear-hobbing machine

Technical field:

The utility model relates to gear-hobbing machine equipment, in particular to a kind of handling equipment of gear-hobbing machine.

Background technology:

For saving cost of labor, improve the efficiency of work processing, chain digital control gear hobbing machine of the prior art generally adopts automatic input mechanism and automatic output mechanism that workpiece to be processed is sent into the processing stations of gear-hobbing machine, and the workpiece machined is exported gear-hobbing machine.But, the automatic input mechanism that chain digital control gear hobbing machine of the prior art adopts and automatic output mechanism are in head and the tail hinge-like, entirety is type linearly, so, not only take the space that lathe is larger, and, need two staff respectively in the feed end charging of automatic input mechanism, in the discharge end discharging of automatic output mechanism.

As Fig. 1, a kind of gear shaft 90, its both ends of the surface offer internal taper hole, and this kind of gear shaft is the processing work of chain digital control gear hobbing machine.

Utility model content:

The technical problem that the utility model solves: for the gear shaft shown in Fig. 1, the automatic input mechanism that chain digital control gear hobbing machine of the prior art adopts and automatic output mechanism are in head and the tail hinge-like, entirety is type linearly, not only take the space that lathe is larger, and, need two staff respectively in the feed end charging of automatic input mechanism, in the discharge end discharging of automatic output mechanism.

The utility model provides following technical scheme:

A handling equipment for gear-hobbing machine, comprises feed mechanism, cutting agency, transfer mechanism, manipulator group;

Described feed mechanism and cutting agency include input and output; Described feed mechanism and cutting agency include double driving-chain, and the arbitrary row's driving-chain in described double driving-chain forms pivoted loop; Described double driving-chain is provided with work supporting block, and work supporting block is used for carrier gear axle;

On described feed mechanism and cutting agency, lower leaf is arranged;

Described transfer mechanism is located at the output of feed mechanism and the input end of cutting agency, described transfer mechanism comprises transfer support, the rotating shaft of the servomotor be arranged on transfer support, the hollow be arranged on servo motor shaft, the first dual piston cylinder be arranged in rotating shaft, be arranged on a pair turning rod on the first dual piston cylinder piston in opposite directions, the top of a pair turning rod is provided with a pair gripper jaw in opposite directions, and a pair turning rod is coordinated with the internal taper hole at gear shaft two ends by a pair gripper jaw and captured gear shaft; Described turning rod can rotate between the output and the input of cutting agency of feed mechanism around rotating shaft;

Described manipulator group is located at the side of transfer mechanism, and described manipulator group comprises the first manipulator, the second manipulator, manipulator support; Described first manipulator comprises the first telescopic arm, the first cleft hand be arranged on the first telescopic arm; Described second manipulator comprises the second telescopic arm, the second cleft hand be arranged on the second telescopic arm; Described first manipulator and the second manipulator are arranged on manipulator support, and manipulator support is slidably mounted on horizontal slide rail.

By technique scheme, feed mechanism carries workpiece to be processed to transfer mechanism direction, workpiece to be processed is to transfer mechanism place, during the output of i.e. feed mechanism, the turning rod of transfer mechanism captures workpiece (i.e. gear shaft) to be processed from feed mechanism, and the turning rod of transfer mechanism rotates a certain angle; The first manipulator in manipulator group captures from the processing stations of gear-hobbing machine the workpiece machined, afterwards, manipulator support slides on horizontal slide rail, and move to transfer mechanism place with the first manipulator and the second manipulator, workpiece to be processed is caught away from turning rod by the second cleft hand under the stretching, extension of the second telescopic arm, afterwards, second telescopic arm shrinks, afterwards, the first cleft hand under the stretching, extension of the first telescopic arm by the Workpiece transfer that machined to turning rod, afterwards, the first telescopic arm shrinks; Afterwards, the turning rod of transfer mechanism continues to rotate, and is placed on cutting agency, exports the workpiece machined to predetermined station by cutting agency by the workpiece machined received.Wherein, the direction of described feed mechanism and cutting agency conveying workpieces is contrary.

By technique scheme, because lower leaf on feed mechanism and cutting agency is arranged, so the handling equipment of gear-hobbing machine described in the utility model can save the space taking lathe; Simultaneously, because the input of feed mechanism and the output of cutting agency are positioned at same end side, therefore, the utility model only needs a staff to discharge workpiece at the input of feed mechanism or the output of cutting agency or arrange, and is conducive to the reduction of production human cost.

Describe in detail the one of feed mechanism, cutting agency, transfer mechanism, manipulator group structure and position relationship as the utility model, described feed mechanism is positioned at the top of cutting agency; Described turning rod can be rotated counterclockwise input to cutting agency around rotating shaft from the output of feed mechanism; Described turning rod is in level when feed mechanism captures gear shaft, is rotated counterclockwise 90 degree afterwards in vertical state; Described first manipulator and the second manipulator are all obliquely installed; When first telescopic arm drives the first cleft hand to move back and forth back and forth, the axial line place plane of motion of the gear shaft that the first cleft hand captures is the first plane of motion; When second telescopic arm drives the second cleft hand to move back and forth back and forth, the axial line place plane of motion of the gear shaft that the second cleft hand captures is the second plane of motion; First plane of motion and the second plane of motion have an intersecting lens, this intersecting lens be in the axis parallel of the gear shaft on the turning rod of vertical state and be positioned in same level.

As described above, described turning rod is in level when original position, namely from grabbing workpiece feed mechanism; After being rotated counterclockwise 90 degree, be in vertical state, now, manipulator group moves to transfer mechanism place, and the second manipulator stretches the workpiece to be processed captured on turning rod, and after contraction, the first manipulator stretches, by the Workpiece transfer completed on it to turning rod.The completing of said process occurs in the first cleft hand described in the utility model and the second cleft hand intersecting lens when overlapping with workpiece axial line.Afterwards, turning rod continues to be rotated counterclockwise 135 degree, is placed on cutting agency by the workpiece completing processing.

As the one explanation of the utility model to feed mechanism concrete structure, described feed mechanism comprises material loading built up construction, two material loading gyroaxises, two groups of material loading sprocket wheels, described two material loading gyroaxises are arranged on the two ends of material loading built up construction, described two groups of material loading sprocket wheels are arranged on two material loading gyroaxises respectively, and the double driving-chain of described feed mechanism is arranged on two groups of material loading sprocket wheels.

Based on the above-mentioned explanation to feed mechanism, described material loading built up construction is arranged on material loading sectional shelf-unit; Described material loading sectional shelf-unit comprises the material loading stake body, the horizontally disposed material loading movable bracket that vertically arrange; Described material loading stake body hollow, material loading screw mandrel, the material loading nut coordinated with material loading screw mandrel, the material loading master gear of pair of meshing and material loading pinion is provided with in the material loading stake body of hollow, the end face of material loading stake body is articulated with the material loading adjusting lever vertically arranged, the sidewall of material loading stake body is offered the material loading chute moved towards up and down; One end of described material loading movable bracket is stretched in material loading chute and is fixedly connected with material loading nut, described material loading screw mandrel is vertically articulated in material loading stake body, described material loading pinion is fixed on the top of material loading screw mandrel, and described material loading master gear is fixed on the bottom of material loading adjusting lever; Described material loading built up construction is arranged on material loading movable bracket.

As described above, when staff need adjust the height of feed mechanism, rotary loading adjusting lever, material loading adjusting lever drives the rotation of material loading screw mandrel by material loading master gear and material loading pinion, material loading screw mandrel drives material loading lift nut, material loading nut drives material loading movable bracket to be elevated along the material loading chute of material loading stake body, and material loading movable bracket drives feed mechanism lifting.Improve as one, the bottom of described material loading chute is provided with material loading limiting plate, in order to limit the lowest order of feed mechanism.

As the one explanation of the utility model to cutting agency concrete structure, described cutting agency comprises blanking built up construction, two blanking gyroaxises, two groups of blanking sprocket wheels, described two blanking gyroaxises are arranged on the two ends of blanking built up construction, described two groups of blanking sprocket wheels are arranged on two blanking gyroaxises respectively, and the double driving-chain of described cutting agency is arranged on two groups of blanking sprocket wheels.

Based on the above-mentioned explanation to cutting agency, described blanking built up construction is arranged on blanking sectional shelf-unit; Described blanking sectional shelf-unit comprises the blanking stake body, the horizontally disposed blanking movable bracket that vertically arrange; Described blanking stake body hollow, blanking screw mandrel, the blanking nut coordinated with blanking screw mandrel, the blanking master gear of pair of meshing and blanking pinion is provided with in the blanking stake body of hollow, the end face of blanking stake body is articulated with the blanking adjusting lever vertically arranged, the sidewall of blanking stake body is offered the blanking chute moved towards up and down; One end of described blanking movable bracket is stretched in blanking chute and is fixedly connected with blanking nut, described blanking screw mandrel is vertically articulated in blanking stake body, described blanking pinion is fixed on the top of blanking screw mandrel, and described blanking master gear is fixed on the bottom of blanking adjusting lever; Described blanking built up construction is arranged on blanking movable bracket.

The operation principle of above-mentioned blanking adjusting lever adjustment cutting agency height is same as the operation principle of material loading adjusting lever adjustment feed mechanism height.Improve as one, the bottom of described blanking chute is provided with blanking limiting plate, in order to limit the lowest order of cutting agency.

As the one explanation of the utility model to the first manipulator and the second manipulator in manipulator group, described first cleft hand and the second cleft hand include pair of finger pawl, the second dual piston cylinder, and described pair of finger pawl is arranged on the piston of the second dual piston cylinder in opposite directions; Described first telescopic arm and the second telescopic arm include installing plate, connecting plate, magnetic coupling Rodless cylinder, cylinder mounting plate, described second dual piston cylinder is installed on a mounting board, described installing plate is arranged on an end face of connecting plate, the other end of connecting plate connects the piston of magnetic coupling Rodless cylinder, described magnetic coupling Rodless cylinder is arranged on cylinder mounting plate, and cylinder mounting plate is arranged on manipulator support.

Accompanying drawing illustrates:

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

Fig. 1 is the processing work gear shaft 90 of gear-hobbing machine described in the utility model;

Fig. 2 is the structural representation of the handling equipment of a kind of gear-hobbing machine of the utility model;

Fig. 3 is the combining structure schematic diagram of feed mechanism 10 in Fig. 2, cutting agency 20, transfer mechanism 30;

Fig. 4 in Fig. 3 from the structural representation of the combining structure gained of feed mechanism described in top view 10, cutting agency 20, transfer mechanism 30;

Fig. 5 is A place enlarged drawing in Fig. 3;

Fig. 6 is B place enlarged drawing in Fig. 4;

Fig. 7 is C place enlarged drawing in Fig. 4;

Fig. 8 is the structural representation of manipulator combination 60 in Fig. 2;

Fig. 9 is the structural representation of material loading stake body 41 in Fig. 3;

Figure 10 is the sectional view of Fig. 9.

Symbol description in figure:

10, feed mechanism; 100, double driving-chain; 200, work supporting block; 11, material loading built up construction; 12, material loading gyroaxis; 13, material loading sprocket wheel;

20, cutting agency; 21, blanking built up construction; 22, blanking gyroaxis; 23, blanking sprocket wheel;

30, transfer mechanism; 31, transfer support; 32, servomotor; 33, rotating shaft; 34, turning rod; 35, gripper jaw;

40, material loading sectional shelf-unit; 41, material loading stake body; 411, material loading screw mandrel; 412, material loading nut; 413, material loading master gear; 414, material loading pinion; 415, material loading adjusting lever; 416, material loading chute; 417, material loading limiting plate; 42, material loading movable bracket;

50, blanking sectional shelf-unit; 51, blanking stake body; 52, blanking movable bracket;

60, manipulator combination; 61, the first manipulator; 610, the first telescopic arm; 611, the first cleft hand; 62, the second manipulator; 620, the second telescopic arm; 621, the second cleft hand; 63, manipulator support; 640, pawl is pointed; 650, the second dual piston cylinder; 660, installing plate; 670, connecting plate; 680, magnetic coupling Rodless cylinder; 690, cylinder mounting plate;

90, gear shaft.

Detailed description of the invention:

Gear shaft 90 is the mach workpiece of gear hobbing described in utility model as shown in Figure 1.

As Fig. 2, a kind of handling equipment of gear-hobbing machine, comprises feed mechanism 10, cutting agency 20, transfer mechanism 30, manipulator group 60.

Composition graphs 3, Fig. 4, Fig. 5, described feed mechanism and cutting agency include input and output; Described feed mechanism and cutting agency include double driving-chain 100, and the arbitrary row's driving-chain in described double driving-chain forms pivoted loop; Described double driving-chain is provided with work supporting block 200, and work supporting block is used for carrier gear axle 90.

As Fig. 3, on described feed mechanism 10 and cutting agency 20, lower leaf is arranged; And described feed mechanism 10 is positioned at the top of cutting agency 20.

Above-mentioned feed mechanism 10, as Fig. 3, comprise material loading built up construction 11, two material loading gyroaxises 12, two groups of material loading sprocket wheels 13, described two material loading gyroaxises are arranged on the two ends of material loading built up construction, described two groups of material loading sprocket wheels are arranged on two material loading gyroaxises respectively, and the double driving-chain 100 of described feed mechanism is arranged on two groups of material loading sprocket wheels.

In above-mentioned feed mechanism 10, as Fig. 3, material loading built up construction 11 is arranged on material loading sectional shelf-unit 40; Composition graphs 9, Figure 10, described material loading sectional shelf-unit comprises the material loading stake body 41, the horizontally disposed material loading movable bracket 42 that vertically arrange; Described material loading stake body hollow, material loading screw mandrel 411, the material loading nut 412 coordinated with material loading screw mandrel, the material loading master gear 413 of pair of meshing and material loading pinion 414 is provided with in the material loading stake body of hollow, the end face of material loading stake body is articulated with the material loading adjusting lever 415 vertically arranged, the sidewall of material loading stake body is offered the material loading chute 416 moved towards up and down; One end of described material loading movable bracket is stretched in material loading chute and is fixedly connected with material loading nut, described material loading screw mandrel is vertically articulated in material loading stake body, described material loading pinion is fixed on the top of material loading screw mandrel, and described material loading master gear is fixed on the bottom of material loading adjusting lever; Described material loading built up construction is arranged on material loading movable bracket.Wherein, the bottom of described material loading chute 416 is provided with material loading limiting plate 417.

Above-mentioned cutting agency 20, as Fig. 3, comprise blanking built up construction 21, two blanking gyroaxises 22, two groups of blanking sprocket wheels 23, described two blanking gyroaxises are arranged on the two ends of blanking built up construction, described two groups of blanking sprocket wheels are arranged on two blanking gyroaxises respectively, and the double driving-chain 100 of described cutting agency is arranged on two groups of blanking sprocket wheels.

In above-mentioned cutting agency 20, as Fig. 3, described blanking built up construction 21 is arranged on blanking sectional shelf-unit 50; Described blanking sectional shelf-unit comprises the blanking stake body 51, the horizontally disposed blanking movable bracket 52 that vertically arrange; Described blanking stake body hollow, blanking screw mandrel, the blanking nut coordinated with blanking screw mandrel, the blanking master gear of pair of meshing and blanking pinion is provided with in the blanking stake body of hollow, the end face of blanking stake body is articulated with the blanking adjusting lever vertically arranged, the sidewall of blanking stake body is offered the blanking chute moved towards up and down; One end of described blanking movable bracket is stretched in blanking chute and is fixedly connected with blanking nut, described blanking screw mandrel is vertically articulated in blanking stake body, described blanking pinion is fixed on the top of blanking screw mandrel, and described blanking master gear is fixed on the bottom of blanking adjusting lever; Described blanking built up construction is arranged on blanking movable bracket.Wherein, the bottom of described blanking chute is provided with blanking limiting plate.

Composition graphs 3, Fig. 4, Fig. 6, Fig. 7, described transfer mechanism 30 is located at the output of feed mechanism and the input end of cutting agency.Described transfer mechanism comprises transfer support 31, the rotating shaft 33 of the servomotor 32 be arranged on transfer support, the hollow be arranged on servo motor shaft, the first dual piston cylinder be arranged in rotating shaft, be arranged on a pair turning rod 34 on the first dual piston cylinder piston in opposite directions, the top of a pair turning rod is provided with a pair gripper jaw 35 in opposite directions, and a pair turning rod is coordinated with the internal taper hole at gear shaft 90 two ends by a pair gripper jaw and captured gear shaft; Described turning rod can rotate between the output and the input of cutting agency of feed mechanism around rotating shaft.

As Fig. 2, described manipulator group 60 is arranged on the side of transfer mechanism.As Fig. 8, described manipulator group comprises the first manipulator 61, second manipulator 62, manipulator support 63; Described first manipulator comprises the first telescopic arm 610, the first cleft hand 611 be arranged on the first telescopic arm; Described second manipulator comprises the second telescopic arm 620, the second cleft hand 621 be arranged on the second telescopic arm; Described first manipulator and the second manipulator are arranged on manipulator support, and manipulator support is slidably mounted on horizontal slide rail.

In above-mentioned manipulator group 60, as Fig. 8, described first cleft hand 611 and the second cleft hand 621 include pair of finger pawl 640, second dual piston cylinder 650, and described pair of finger pawl is arranged on the piston of the second dual piston cylinder in opposite directions; Described first telescopic arm 610 and the second telescopic arm 620 include installing plate 660, connecting plate 670, magnetic coupling Rodless cylinder 680, cylinder mounting plate 690, described second dual piston cylinder is installed on a mounting board, described installing plate is arranged on an end face of connecting plate, the other end of connecting plate connects the piston of magnetic coupling Rodless cylinder, described magnetic coupling Rodless cylinder is arranged on cylinder mounting plate, and cylinder mounting plate is arranged on manipulator support 63.

As Fig. 2, the matching relationship of above-mentioned material loading machinery 10, cutting agency 20, transfer mechanism 30, manipulator group 60 is as follows:

Described turning rod 34 can be rotated counterclockwise input to cutting agency around rotating shaft 33 from the output of feed mechanism; Described turning rod is in level when feed mechanism captures gear shaft 90, is rotated counterclockwise 90 degree afterwards in vertical state; Described first manipulator 61 and the second manipulator 62 are all obliquely installed; When first telescopic arm 610 drives the first cleft hand 611 to move back and forth back and forth, the axial line place plane of motion of the gear shaft 90 that the first cleft hand captures is the first plane of motion 601; When second telescopic arm 620 drives the second cleft hand 621 to move back and forth back and forth, the axial line place plane of motion of the gear shaft that the second cleft hand captures is the second plane of motion 602; First plane of motion and the second plane of motion have an intersecting lens, this intersecting lens be in the axis parallel of the gear shaft on the turning rod 34 of vertical state and be positioned in same level.

In real work, feed mechanism 10 carries workpiece to be processed to transfer mechanism 30 direction, i.e. gear shaft 90, workpiece to be processed is to transfer mechanism 30 place, during the output of i.e. feed mechanism 10, the turning rod 34 of transfer mechanism 30 captures workpiece to be processed from feed mechanism 10, and the turning rod 34 of transfer mechanism rotates a certain angle; The first manipulator 61 in manipulator group 60 captures from the processing stations of gear-hobbing machine the workpiece machined, afterwards, manipulator support 63 slides on horizontal slide rail, transfer mechanism 30 place is moved to the first manipulator 61 and the second manipulator 62, workpiece to be processed is caught away from turning rod 34 by the second cleft hand 621 under the stretching, extension of the second telescopic arm 620, afterwards, second telescopic arm 620 shrinks, afterwards, first cleft hand 611 under the stretching, extension of the first telescopic arm 610 by the Workpiece transfer that machined to turning rod 34, afterwards, the first telescopic arm 610 shrinks; Afterwards, the turning rod 34 of transfer mechanism 30 continues to rotate, and is placed on cutting agency 20, exports the workpiece machined to predetermined station by cutting agency 20 by the workpiece machined received.Wherein, the direction of described feed mechanism 10 and cutting agency 20 conveying workpieces is contrary.

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 handling equipment for gear-hobbing machine, comprises feed mechanism (10), cutting agency (20); Described feed mechanism and cutting agency include input and output; Described feed mechanism and cutting agency include double driving-chain (100), and the arbitrary row's driving-chain in described double driving-chain forms pivoted loop; Described double driving-chain is provided with work supporting block (200), work supporting block is used for carrier gear axle (90);

It is characterized in that:

Described feed mechanism (10) and the upper lower leaf of cutting agency (20) are arranged;

The output of described feed mechanism and the input end of cutting agency are provided with transfer mechanism (30), described transfer mechanism comprises transfer support (31), be arranged on the servomotor (32) on transfer support, be arranged on the rotating shaft (33) of the hollow on servo motor shaft, be arranged on the first dual piston cylinder in rotating shaft, be arranged on a pair turning rod (34) on the first dual piston cylinder piston in opposite directions, the top of a pair turning rod is provided with a pair gripper jaw (35) in opposite directions, a pair turning rod is coordinated with the internal taper hole at gear shaft (90) two ends by a pair gripper jaw and is captured gear shaft, described turning rod can rotate between the output and the input of cutting agency of feed mechanism around rotating shaft,

The side of described transfer mechanism is provided with manipulator group (60), and described manipulator group comprises the first manipulator (61), the second manipulator (62), manipulator support (63); Described first manipulator comprises the first telescopic arm (610), the first cleft hand (611) be arranged on the first telescopic arm; Described second manipulator comprises the second telescopic arm (620), the second cleft hand (621) be arranged on the second telescopic arm; Described first manipulator and the second manipulator are arranged on manipulator support, and manipulator support is slidably mounted on horizontal slide rail.

2. the handling equipment of a kind of gear-hobbing machine as claimed in claim 1, is characterized in that:

Described feed mechanism (10) is positioned at the top of cutting agency (20);

Described turning rod (34) can be rotated counterclockwise input to cutting agency around rotating shaft (33) from the output of feed mechanism;

Described turning rod is in level when feed mechanism captures gear shaft (90), is rotated counterclockwise 90 degree afterwards in vertical state;

Described first manipulator (61) and the second manipulator (62) are all obliquely installed; When first telescopic arm (610) drives the first cleft hand (611) to move back and forth back and forth, the axial line place plane of motion of the gear shaft (90) that the first cleft hand captures is the first plane of motion (601); When second telescopic arm (620) drives the second cleft hand (621) to move back and forth back and forth, the axial line place plane of motion of the gear shaft that the second cleft hand captures is the second plane of motion (602); First plane of motion and the second plane of motion have an intersecting lens, this intersecting lens be in the axis parallel of the gear shaft on the turning rod (34) of vertical state and be positioned in same level.

3. the handling equipment of a kind of gear-hobbing machine as claimed in claim 1, is characterized in that:

Described feed mechanism (10) comprises material loading built up construction (11), two material loading gyroaxises (12), two groups of material loading sprocket wheels (13), described two material loading gyroaxises are arranged on the two ends of material loading built up construction, described two groups of material loading sprocket wheels are arranged on two material loading gyroaxises respectively, and the double driving-chain (100) of described feed mechanism is arranged on two groups of material loading sprocket wheels;

Described cutting agency (20) comprises blanking built up construction (21), two blanking gyroaxises (22), two groups of blanking sprocket wheels (23), described two blanking gyroaxises are arranged on the two ends of blanking built up construction, described two groups of blanking sprocket wheels are arranged on two blanking gyroaxises respectively, and the double driving-chain (100) of described cutting agency is arranged on two groups of blanking sprocket wheels.

4. the handling equipment of a kind of gear-hobbing machine as claimed in claim 3, is characterized in that:

Described material loading built up construction (11) is arranged on material loading sectional shelf-unit (40); Described material loading sectional shelf-unit comprises the material loading stake body (41), the horizontally disposed material loading movable bracket (42) that vertically arrange; Described material loading stake body hollow, material loading screw mandrel (411), the material loading nut (412) coordinated with material loading screw mandrel, the material loading master gear (413) of pair of meshing and material loading pinion (414) is provided with in the material loading stake body of hollow, the end face of material loading stake body is articulated with the material loading adjusting lever (415) vertically arranged, the sidewall of material loading stake body is offered the material loading chute (416) moved towards up and down; One end of described material loading movable bracket is stretched in material loading chute and is fixedly connected with material loading nut, described material loading screw mandrel is vertically articulated in material loading stake body, described material loading pinion is fixed on the top of material loading screw mandrel, and described material loading master gear is fixed on the bottom of material loading adjusting lever; Described material loading built up construction is arranged on material loading movable bracket;

Described blanking built up construction (21) is arranged on blanking sectional shelf-unit (50); Described blanking sectional shelf-unit comprises the blanking stake body (51), the horizontally disposed blanking movable bracket (52) that vertically arrange; Described blanking stake body hollow, blanking screw mandrel, the blanking nut coordinated with blanking screw mandrel, the blanking master gear of pair of meshing and blanking pinion is provided with in the blanking stake body of hollow, the end face of blanking stake body is articulated with the blanking adjusting lever vertically arranged, the sidewall of blanking stake body is offered the blanking chute moved towards up and down; One end of described blanking movable bracket is stretched in blanking chute and is fixedly connected with blanking nut, described blanking screw mandrel is vertically articulated in blanking stake body, described blanking pinion is fixed on the top of blanking screw mandrel, and described blanking master gear is fixed on the bottom of blanking adjusting lever; Described blanking built up construction is arranged on blanking movable bracket.

5. the handling equipment of a kind of gear-hobbing machine as claimed in claim 4, is characterized in that: the bottom of described material loading chute (416) is provided with material loading limiting plate (417); The bottom of described blanking chute is provided with blanking limiting plate.

6. the handling equipment of a kind of gear-hobbing machine as claimed in claim 1, is characterized in that:

Described first cleft hand (611) and the second cleft hand (621) include pair of finger pawl (640), the second dual piston cylinder (650), and described pair of finger pawl is arranged on the piston of the second dual piston cylinder in opposite directions; Described first telescopic arm (610) and the second telescopic arm (620) include installing plate (660), connecting plate (670), magnetic coupling Rodless cylinder (680), cylinder mounting plate (690), described second dual piston cylinder is installed on a mounting board, described installing plate is arranged on an end face of connecting plate, the other end of connecting plate connects the piston of magnetic coupling Rodless cylinder, described magnetic coupling Rodless cylinder is arranged on cylinder mounting plate, and cylinder mounting plate is arranged on manipulator support (63).