CN203316839U

CN203316839U - Automatic chamfering machine

Info

Publication number: CN203316839U
Application number: CN2013200933993U
Authority: CN
Inventors: 梁呈旺
Original assignee: Individual
Current assignee: Yuhuan County New Machine Tool Works (general Partnership)
Priority date: 2013-03-01
Filing date: 2013-03-01
Publication date: 2013-12-04
Anticipated expiration: 2023-03-01

Abstract

The utility model provides an automatic chamfering machine, belongs to the technical field of mechanical equipment and solves the problems of more fins and lower process accuracy of a chamfer processed by conventional automatic chamfering equipment. The automatic chamfering machine comprises a base, a vibrating feeder, a feeding track, a cutter component and a spindle box arranged on the base, wherein the vibrating feeder is communicated with the feeding track; a spindle capable of fixing a to-be-processed workpiece and driving the to-be-processed workpiece to rotate is arranged on the spindle box; a conveying mechanism capable of conveying a workpiece at the discharge opening of the feeding track to the end part of the spindle is also arranged on the base; the cutter component can perform translational motion in the axial direction of the spindle and conduct chamfering processing on the to-be-processed workpiece fixed on the spindle. The automatic chamfering machine further comprises a kick-off mechanism which is arranged on the spindle and capable of kicking a workpiece off the spindle. The automatic chamfering machine has the advantages of higher chamfering precision and higher processing efficiency.

Description

A kind of automatic chamfering machine

Technical field

The utility model belongs to mechanical equipment technical field, relates to a kind of beveler, particularly a kind of automatic chamfering machine.

Background technology

Existing hollow cylindrical workpiece or hollow sphere workpiece, spool as ball valve, its inner bore chamfering is normally processed on engine lathe, in chamfer machining, by manual mode, spool is arranged on the main shaft of lathe, rotation by main shaft band movable valve plug makes cutting tool carry out chamfering to the endoporus of spool one end, when the endoporus to the spool other end carries out chamfering, need to reinstall spool, make cutter carry out chamfer machining to the endoporus of the other end of spool, it is inefficiency not only, and easily makes workpiece scrap.

A kind of double end automatic chamfering equipment [application number: 201210214345.8 as the Chinese patent literature proposition; Granted publication number: CN102728686A], it is comprised of frame, vibrating feeding mechanism, top, bottom position mechanism, punching chamfers mechanism, shedding mechanism and clamp mechanism; Frame mainly consists of base plate, intermediate plate and main fixed block, intermediate plate is vertically set on base plate, main fixed block is arranged on the sidewall of intermediate plate one side, main fixed block offers horizontal channel I, horizontal channel II and vertical channel, article three, the mutual square crossing of passage, and form the woollen machining position at infall; Wherein, the blanking channel of vibrating feeding mechanism and top, bottom position mechanism are arranged on the two ends up and down of main fixed block vertical channel, punching chamfers mechanism and shedding mechanism are separately positioned on the two ends of main fixed block horizontal channel I, and two clamping elements of clamp mechanism are arranged on IIDe two ends, main fixed block horizontal channel; Vibrating feeding mechanism will need the woollen of processing to be transported to the woollen machining position by the conveying passage, by clamp mechanism by the woollen clamping and positioning, then complete the chamfering at two sides to woollen by punching chamfers mechanism and shedding mechanism, finally by shedding mechanism, the woollen processed is released to the woollen machining position.But this double end automatic chamfering equipment adopts the mode of punching press to carry out punching chamfers to workpiece, make that the chamfering burr of processing is more and chamfer angle technique precision processing is lower.

The utility model content

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed the automatic chamfering machine that a kind of machining accuracy is higher and working (machining) efficiency is higher.

The purpose of this utility model can realize by following technical proposal: a kind of automatic chamfering machine, comprise base, vibrating bunker, feeding track, toolbox and be arranged on the main spindle box on base, described vibrating bunker is connected with described feeding track, described main spindle box is provided with fixedly workpiece to be processed also can drive the main shaft that described workpiece to be processed rotates, it is characterized in that, also be provided with on described base and the workpiece at the discharging opening place of described feeding track can be transported to the feed mechanism of spindle nose, described toolbox can carry out chamfer machining along the translation of main-shaft axis direction and to be processed of being fixed on main shaft, this automatic chamfering machine also comprises that the material toggling mechanism that is arranged on main shaft and described material toggling mechanism can dial workpiece fall from main shaft.

Adding man-hour, hollow cylindrical workpiece or hollow sphere workpiece (as spool) are put on vibrating bunker, by vibrating bunker, workpiece is outputed to the exit of feeding track in order one by one, the workpiece that will be positioned at the exit of feeding track by feed mechanism again is delivered to the end of main shaft, workpiece is fixed in the end of main shaft, then main shaft drives the workpiece rotation, move workpiece is carried out to chamfer machining along the main-shaft axis direction by toolbox, after processing, material toggling mechanism by workpiece under main shaft is dialled, in order to carry out the chamfer machining of next workpiece, have advantages of that the precision of chamfering is higher and working (machining) efficiency is higher, this automatic chamfering machine also has simple in structure simultaneously, the advantage that manufacturing cost is lower.The positioning workpieces principle of main shaft refers to automatic ball valve core processing machine tool [application number: 201120076859.2; Granted publication number: CN202079287U].

In above-mentioned automatic chamfering machine, described base is provided with planker one and can drives described planker one makes the radially driving mechanism one of reciprocal translation along described main shaft.

In above-mentioned automatic chamfering machine, described feed mechanism is arranged on an end of described planker one, described feed mechanism comprises tubular feed cylinder and feeding cylinder, the cylinder body of described feeding cylinder is fixed on described planker one and the axis of described feeding cylinder and the axis of described main shaft be arranged in parallel, the front end of described feed cylinder has opening that can positioning workpieces, and the rear end of described feed cylinder is connected mutually with the piston rod of described feeding cylinder.

When feeding, driving mechanism drive planker one translation make feed cylinder be opened on the workpiece that is positioned at the feeding track place over against, drive the feed cylinder translation by the feed cylinder of workpiece location by feeding cylinder, by feeding cylinder, reset, and driving mechanism one drive planker one translation make feed cylinder move to its opening and main shaft over against position, promote by feeding cylinder the workpiece that the feed cylinder translation will be positioned at feed cylinder and be delivered on main shaft, have advantages of simple in structure, carry convenient, be convenient to control.

In above-mentioned automatic chamfering machine, the inwall of described feed cylinder is provided with several grooves, described groove is uniformly distributed centered by the axis of described feed cylinder, be equipped with spring and ball in described groove, under the elastic force effect of described spring, the sidewall of described ball protrudes from the sidewall of the inner chamber of described feed cylinder.When feeding cylinder promotion feed cylinder is positioned in feed cylinder by workpiece, under the elastic force effect of spring, make ball be resisted against the outside face of workpiece, workpiece and feed cylinder are located; When workpiece is delivered to main shaft, main shaft is positioned at workpiece on main shaft, drives feed cylinder by feeding cylinder and resets, and ball overcomes the elastic force retraction of corresponding spring, makes workpiece break away from feed cylinder, has simple in structure, locating effect advantage preferably.

In above-mentioned automatic chamfering machine, described feed mechanism is arranged on an end of described planker one, described feed mechanism comprises clamping cylinder and feeding cylinder, the cylinder body of described feeding cylinder is fixed on described planker one, one end of described clamping cylinder be can holding workpiece jaws, the other end of described clamping cylinder is that cylinder body and described cylinder body are fixed on the piston rod of described feeding cylinder.Promote the clamping cylinder translation by feeding cylinder, make the jaws of clamping cylinder relative with the workpiece at feeding track place, by again by clamping cylinder by piece-holder, reset by feeding cylinder, driving clamping cylinder, and driving mechanism one drive planker one translation clamping cylinder is moved make workpiece and main shaft over against position, promoting by feeding cylinder the workpiece that the clamping cylinder translation will be positioned at clamping cylinder is delivered on main shaft, after main shaft is located workpiece, clamping cylinder unclamps, feed mechanism drives clamping cylinder and resets, have simple in structure, it is convenient to carry, be convenient to the advantage of controlling.

In above-mentioned automatic chamfering machine, described driving mechanism one comprises and being horizontally disposed with and cylinder body is fixed on the cylinder one on described base, the axis of described cylinder one and the axis of described main shaft are perpendicular, and the piston rod of described oil cylinder one is connected mutually with described planker one.Drive reciprocal translational motion of planker by oil cylinder one, have advantages of that conveying is stable, easy for installation.Cylinder adopts oil cylinder to substitute a moment, and as another kind of mode, driving mechanism one adopts motor one, screw mandrel one and reaches screw one, motor one is fixed on base, screw mandrel one axially is connected on base, and screw one is fixed on planker one, and described screw one is connected with screw mandrel one screw thread.

In above-mentioned automatic chamfering machine, the lower end of described planker one is fixed with slide rail one, and the axis of the axis of described slide rail one and described cylinder one is set in parallel, and described base is provided with the slide block one be complementary with described slide rail one.Be provided with slide rail one and slide block one between planker one and base, make planker one have guide effect preferably, reduced wearing and tearing, as another kind of mode, the lower end of planker one is fixed with slide block one, and base is provided with the slide rail one be complementary with slide block one.

In above-mentioned automatic chamfering machine, also be provided with planker two on the other end of described planker one and can drive the driving mechanism two that axis that described planker two works are parallel to described main shaft moves back and forth, described toolbox is arranged on described planker two.When workpiece is positioned on main shaft, main shaft drives workpiece and rotates, and driving mechanism two drive plankers two are done translational motion makes toolbox carry out chamfer machining to workpiece.Toolbox comprises the base of tool and is fixed on the cutter on the base of tool.During the chamfering of processing work one end, can adopt the toolbox with a cutter, when needing the chamfering at processing work two ends, can adopt the toolbox of two cutters, add man-hour, two toolboxs lay respectively at the outside, two ends of workpiece, while by driving mechanism two, driving planker two along the main-shaft axis translation, make two cutters carry out chamfer machining to an end of corresponding workpiece respectively, by the angle of cutter is set, make this automatic chamfering machine can process outer rim chamfering and inner bore chamfering.

In above-mentioned automatic chamfering machine, described driving mechanism two comprises motor two, screw mandrel two and screw two, described motor two is fixed on described planker one, described screw mandrel two axially is connected on described planker two and the axis of described screw mandrel two and the axis of described main shaft be arranged in parallel, described screw two is fixed on planker two, and described screw two is connected with screw mandrel two screw threads.The rotation that motor two drives screw mandrel two drives the axis direction translation of planker two along main shaft, make toolbox carry out chamfer machining to workpiece, as another kind of mode, driving mechanism two can adopt cylinder two, the cylinder body of cylinder two is fixed on planker one, and the piston rod of cylinder two and planker two-phase are connected.

In above-mentioned automatic chamfering machine, described material toggling mechanism comprises and is set on main shaft and tubular material toggling seat and can drive the driving mechanism three of described material toggling seat along the reciprocal translation of axis direction of described main shaft.Drive the reciprocal translation of material toggling seat by driving mechanism three, when main shaft is located workpiece, one end of workpiece is resisted against the sidewall of material toggling seat, and main shaft is by behind the workpiece location, but workpiece adds man-hour, driving mechanism three drives material toggling seat rollback, after driving mechanism two drive toolboxs carry out chamfer machining to workpiece, main shaft unclamps workpiece, and driving mechanism three drives the translations of material toggling seat, workpiece is dialled from main shaft, in order to carry out processing next time.

In above-mentioned automatic chamfering machine, described driving mechanism three is for to be hinged on the cylinder three on main spindle box, and an end of described cylinder three and a push rod is hinged, and a described end is hinged on main spindle box, and the middle part of described push rod is connected mutually with described material toggling seat.Drive push rod by cylinder and swing, realize the reciprocal translation of material toggling seat, there is advantage simple in structure, easy for installation.As another kind of scheme, driving mechanism three is connected in the cylinder three on main spindle box for cylinder body, and the piston rod of cylinder three is along the axis direction setting of main shaft, and the outer end of piston rod is connected mutually with the material toggling seat.

In above-mentioned automatic chamfering machine, be provided with the material toggling piece in described material toggling seat and described material toggling piece is set on described main shaft, between described material toggling piece and described material toggling seat, be provided with the driving mechanism four that can drive the reciprocal translation of relative described its axis direction of material toggling seat of described material toggling piece.

In above-mentioned automatic chamfering machine, described driving mechanism four is vertical setting for being fixed on cylinder four on described material toggling seat and the axis of described cylinder four piston rods and described main shaft, the piston rod of described cylinder four is fixed with two push pedals through described material toggling seat, the sidewall of described push pedal is provided with gathering sill, the both sides of described material toggling piece are equipped with convex body, and described convex body all is embedded on described gathering sill.Gathering sill is inclined to set, and when cylinder four promotes push pedals, does reciprocal translation when moving, and the material toggling piece makes the axis direction translation of material toggling piece along main shaft along the guiding of convex body and gathering sill, realization stopping and location workpiece.As another kind of mode, the sidewall of push pedal is provided with convex body, and the both sides of material toggling piece are equipped with gathering sill, and convex body all is embedded on described gathering sill, and convex body can adopt roller to substitute.

In above-mentioned automatic chamfering machine, described material toggling mechanism comprises the rod for stiring materials that is located at main shaft one side and is strip, the axis of described rod for stiring materials and described main-shaft axis are perpendicular, be fixed with cylinder five on described main spindle box, the piston rod of described cylinder five is connected mutually with described rod for stiring materials and described cylinder five can drive described rod for stiring materials work along the reciprocal translation of described main-shaft axis.Drive the reciprocal translation of rod for stiring materials by cylinder five, when main shaft is located workpiece, one end of workpiece is resisted against the sidewall of rod for stiring materials, and main shaft is by behind the workpiece location, but workpiece adds man-hour, cylinder five drives rod for stiring materials rollback, after driving mechanism two drive toolboxs carry out chamfer machining to workpiece, main shaft unclamps workpiece, and cylinder five drives rod for stiring materials translations, workpiece is dialled from main shaft, in order to carry out processing next time.

In above-mentioned automatic chamfering machine, the exit of described feeding track is provided with the push rod of some madial walls perpendicular to described feeding track, be equipped with spring between the madial wall of described push rod and described feeding track, under the elastic force effect of described spring, described push rod has the axial trend of side shifting outward along push rod all the time.When the workpiece in the opening of feed cylinder and feeding track exit over against the time, the end face of described feed cylinder is all relative with the end position of push rod, when feeding cylinder promotion feed cylinder moves toward the exit of feeding track, the end face of feed cylinder pushes up and bears down on one bar and make the past retrude of push rod, and workpiece can be entered in feed cylinder.

Compared with prior art, this automatic chamfering machine has the following advantages:

The workpiece that 1, by feed mechanism, will be positioned at the exit of feeding track is delivered to the end of main shaft, main shaft drives the workpiece rotation, drive toolboxs by driving mechanism two and do translational motion workpiece is carried out to chamfer machining, have advantages of that the precision of chamfering is higher and working (machining) efficiency is higher;

2, promote by feeding cylinder the workpiece that the feed cylinder translation will be positioned at feed cylinder and be delivered on main shaft, have advantages of simple in structure, carry convenient, be convenient to control;

3, this automatic chamfering machine also have advantages of simple in structure, manufacturing cost is lower.

The accompanying drawing explanation

Fig. 1 is the perspective view of this automatic chamfering machine.

Fig. 2 is the partial schematic sectional view of the feed cylinder of this automatic chamfering machine.

Fig. 3 be this automatic chamfering machine feed cylinder overlook cross-sectional schematic.

In figure, 1, base; 2, vibrating bunker; 3, feeding track; 4, toolbox; 5, main spindle box; 6, main shaft; 7, feed mechanism; 7a, feed cylinder; 7b, feeding cylinder; 7c, ball; 8, material toggling mechanism; 8a, material toggling seat; 8b, driving mechanism three; 8c, push rod; 9, planker one; 10, driving mechanism one; 10a, cylinder one; 11, planker two; 12, driving mechanism two; 12a, motor two; 13, material toggling piece; 14, push rod.

The specific embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

As shown in Figures 1 to 3, a kind of automatic chamfering machine, comprise base 1, vibrating bunker 2, feeding track 3, toolbox 4 and be arranged on the main spindle box 5 on base 1, vibrating bunker 2 is connected with feeding track 3, and main spindle box 5 is provided with fixedly workpiece to be processed also can drive the main shaft 6 of to be processed rotation.Base 1 is provided with planker 1 and can drives planker 1 makes the radially driving mechanism 1 of reciprocal translation along main shaft 6, driving mechanism 1 comprises and being horizontally disposed with and cylinder body is fixed on cylinder one 10a on base 1, the axis of cylinder one 10a and the axis of main shaft 6 are perpendicular, and the piston rod of cylinder one 10a is connected mutually with planker 1.The lower end of planker 1 is fixed with slide rail one, and the axis of the axis of slide rail one and cylinder one 10a is set in parallel, and base 1 is provided with the slide block one be complementary with slide rail one.Be provided with slide rail one and slide block one between planker 1 and base 1, make planker 1 have guide effect preferably, reduced wearing and tearing, as another kind of mode, the lower end of planker 1 is fixed with slide block one, and base 1 is provided with the slide rail one be complementary with slide block one.

One end of planker 1 also is provided with and the workpiece at the discharging opening place of feeding track 3 can be transported to the feed mechanism 7 of main shaft 6 ends, feed mechanism 7 comprises tubular feed cylinder 7a and feeding cylinder 7b, the cylinder body of feeding cylinder 7b is fixed on planker 1, the axis of the axis of feeding cylinder 7b and main shaft 6 be arranged in parallel, the front end of feed cylinder 7a has opening that can positioning workpieces, and the rear end of feed cylinder 7a is connected mutually with the piston rod of feeding cylinder 7b.If the inner chamber of feed cylinder 7a is provided with 4 grooves, 4 grooves are uniformly distributed centered by the axis of feed cylinder 7a, are equipped with spring and ball 7c in groove, and under the elastic force effect of spring, the sidewall of ball 7c protrudes from the sidewall of the inner chamber of feed cylinder 7a.

As another kind of mode, feed mechanism 7 is drawn together clamping cylinder and feeding cylinder 7b, the cylinder body of feeding cylinder 7b is fixed on planker 1, one end of clamping cylinder be can holding workpiece jaws, the cylinder body that the other end of clamping cylinder is cylinder body and clamping cylinder is fixed on the piston rod of feeding cylinder 7b.Promote the clamping cylinder translation by feeding cylinder 7b, make the jaws of clamping cylinder relative with the workpiece at feeding track place, by clamping cylinder by piece-holder, driving clamping cylinder by feeding cylinder 7b again resets, and driving mechanism 1 drive planker one 9 translations clamping cylinder is moved make workpiece and main shaft over against position, the workpiece that will be positioned at clamping cylinder by the translation of feeding cylinder 7b promotion clamping cylinder is delivered on main shaft, after main shaft 6 is located workpiece, clamping cylinder unclamps, feeding cylinder 7b clamping cylinder resets, have simple in structure, it is convenient to carry, be convenient to the advantage of controlling.

Also be provided with planker 2 11 on the other end of planker 1 and can drive planker 2 11 and make to be parallel to the driving mechanism 2 12 that the axis of main shaft 6 moves back and forth, toolbox 4 is arranged on planker 2 11.Driving mechanism 2 12 comprises motor two 12a, screw mandrel two and screw two, motor two 12a are fixed on planker 1, and screw mandrel two axially is connected on planker 2 11, and the axis of the axis of screw mandrel two and main shaft 6 be arranged in parallel, screw two is fixed on planker 2 11, and screw two is connected with screw mandrel two screw threads.

This automatic chamfering machine also comprises the material toggling mechanism 8 be arranged on main shaft 6, and material toggling mechanism 8 can dial workpiece fall from main shaft 6.Material toggling mechanism 8 comprises and is set on main shaft 6 and tubular material toggling seat 8a and can drive driving mechanism three 8bs of material toggling seat 8a along the reciprocal translation of axis direction of main shaft 6.Driving mechanism three 8b are the cylinder three be hinged on main spindle box 5, and the end of cylinder three and a push rod 8c is hinged, and an end is hinged on main spindle box 5, and the middle part of push rod 8c is connected mutually with material toggling seat 8a.As another kind of scheme, driving mechanism three 8b are that cylinder body is connected in the cylinder three on main spindle box 5, and the piston rod of cylinder three is along the axis direction setting of main shaft 6, and the outer end of piston rod is connected mutually with material toggling seat 8a.

Be provided with material toggling piece 13 in apron block, material toggling piece 13 is set on main shaft 6, be provided with the driving mechanism four that can drive the reciprocal translation of the relative material toggling seat of material toggling piece 13 its axis direction of 8a between material toggling piece 13 and material toggling seat 8a, driving mechanism four is for being fixed on the cylinder four on material toggling seat 8a, the axis of cylinder four piston rods and main shaft 6 is vertical setting, the piston rod of cylinder four is fixed with two push pedals through material toggling seat 8a, the sidewall of push pedal is provided with gathering sill, the both sides of material toggling piece 13 are equipped with convex body, and convex body all is embedded on gathering sill.

As another kind of scheme, material toggling mechanism 8 comprises the rod for stiring materials that is located at main shaft 6 one sides and is strip, the axis of the axis of rod for stiring materials and main shaft 6 is perpendicular, be fixed with cylinder five on main spindle box 5, the piston rod of cylinder five is connected mutually with rod for stiring materials, and cylinder five can drive rod for stiring materials and do the reciprocal translation along main shaft 6.Drive the reciprocal translation of rod for stiring materials by cylinder five, when main shaft is located workpiece, one end of workpiece is resisted against the sidewall of rod for stiring materials, and behind main shaft 6 workpiece location, but workpiece adds man-hour, cylinder five drives rod for stiring materials rollback, after driving mechanism two drive toolboxs carry out chamfer machining to workpiece, main shaft unclamps workpiece, and cylinder five drives rod for stiring materials translations, workpiece is dialled from main shaft, in order to carry out processing next time.

The exit of feeding track 3 is provided with the push rod 14 of some madial walls perpendicular to feeding track 3, be equipped with spring between the madial wall of push rod 14 and feeding track 3, at the elastic force effect lower push rod 14 of spring, there is all the time the axially trend of side shifting outward along push rod 14.

Adding man-hour, hollow cylindrical workpiece or hollow sphere workpiece (as spool) are being put on vibrating bunker 2, by vibrating bunker 2, workpiece is being outputed to the exit of feeding track 3 in order one by one, and be resisted against on push rod 14.By cylinder one 10a drive planker one 9 translations make feed cylinder 7a be opened on be positioned at feeding track 3 places and be resisted against on push rod 14 workpiece over against, when feeding cylinder 7b promotion feed cylinder 7a moves toward the exit of feeding track 3, the end face of feed cylinder 7a pushes up and bears down on one bar 14 and make the past retrude of push rod 14, the elastic force that makes workpiece overcome feed cylinder 7a inner spring can enter in feed cylinder 7a, then by the elastic force of spring, workpiece is located in feed cylinder 7a.

Cylinder one 10a drive planker one 9 translations make feed cylinder 7a move to its opening and main shaft 6 over against position, driving push rod 8c by cylinder three swings, make material toggling seat 8a drive the rest position that material toggling piece 13 moves to workpiece, the workpiece that will be positioned at feed cylinder 7a by feeding cylinder 7b promotion feed cylinder 7a translation is delivered on main shaft 6 and the inner of workpiece is resisted against on the outer face of material toggling piece 13, after workpiece is by main shaft 6 location, driving push rod 8c by cylinder three resets, making material toggling seat 8a drive material toggling piece 13 moves when initial position, simultaneously, cylinder four promotes the push pedal translation makes material toggling piece 13 make material toggling piece 13 past mobile along the axis direction of main shaft 6 along the guiding of convex body and gathering sill, abdicate the space to workpiece processing.Then main shaft 6 drives the workpiece rotation, and the rotation that motor two 12a drive screw mandrels two drives the axis direction translation of planker 2 11 along main shaft 6, makes toolbox 4 carry out chamfer machining to workpiece.

After processing, main shaft 6 unclamps workpiece, drive push rod 8c by cylinder three and move the outer side shifting that makes the past main shaft 6 of material toggling seat 8a, simultaneously, cylinder four promotes the push pedal translation makes material toggling piece 13 along the guiding of convex body and gathering sill, material toggling piece 13 be moved outward along the axis direction of main shaft 6, workpiece is dialled from main shaft 6, in order to carry out chamfer machining next time.

During the chamfering of processing work one end, can adopt the toolbox 4 with a cutter, when needing the chamfering at processing work two ends, can adopt the toolbox 4 of two cutters, adding man-hour, two toolboxs 4 lay respectively at the outside, two ends of workpiece, while by driving mechanism 2 12, driving planker 2 11 along main shaft 6 axis translation, make two cutters carry out chamfer machining to an end of corresponding workpiece respectively, by the angle of cutter is set, make this automatic chamfering machine can process outer rim chamfering and inner bore chamfering, the angle of capable of regulating cutter is cut the chamfering of different gradients simultaneously.That the written or printed documents automatic chamfering machine has advantages of is simple in structure, it is convenient to carry, be convenient to control, and also has advantages of that the precision of chamfering is higher and working (machining) efficiency is higher.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more been used the terms such as base 1, vibrating bunker 2, feeding track 3, toolbox 4, main spindle box 5, main shaft 6, feed mechanism 7, feed cylinder 7a, feeding cylinder 7b, ball 7c, material toggling mechanism 8, material toggling seat 8a, driving mechanism three 8b, push rod 8c, planker 1, driving mechanism 1, cylinder one 10a, planker 2 11, driving mechanism 2 12, motor two 12a, material toggling piece 13, push rod 14, do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims

1. an automatic chamfering machine, comprise base (1), vibrating bunker (2), feeding track (3), toolbox (4) and be arranged on the main spindle box (5) on base (1), described vibrating bunker (2) is connected with described feeding track (3), described main spindle box (5) is provided with the main shaft (6) that can fix to be processed and can drive described to be processed rotation, it is characterized in that, also be provided with on described base (1) and the workpiece at the discharging opening place of described feeding track (3) can be transported to the feed mechanism (7) of main shaft (6) end, described toolbox (4) can carry out chamfer machining along main shaft (6) axis direction translation and to be processed of being fixed on main shaft (6), this automatic chamfering machine also comprises that the material toggling mechanism (8) and the described material toggling mechanism (8) that are arranged on main shaft (6) can fall workpiece from main shaft (6) group.

2. automatic chamfering machine according to claim 1, it is characterized in that, described base (1) is provided with planker one (9) and can drives described planker one (9) makes the radially driving mechanism one (10) of reciprocal translation along described main shaft (6), and described feed mechanism (7) is arranged on an end of described planker one (9).

3. automatic chamfering machine according to claim 2, it is characterized in that, described feed mechanism (7) comprises tubular feed cylinder (7a) and feeding cylinder (7b), the cylinder body of described feeding cylinder (7b) is fixed on the upper and axis of described feeding cylinder (7b) of described planker one (9) and the axis of described main shaft (6) be arranged in parallel, the front end of described feed cylinder (7a) has opening that can positioning workpieces, and the rear end of described feed cylinder (7a) is connected mutually with the piston rod of described feeding cylinder (7b).

4. automatic chamfering machine according to claim 3, it is characterized in that, the inner chamber of described feed cylinder (7a) is provided with several grooves, described groove is uniformly distributed along the axis of described feed cylinder (7a), be equipped with spring and ball (7c) in described groove, under the elastic force effect of described spring, the sidewall of described ball (7c) protrudes from the sidewall of the inner chamber of described feed cylinder (7a).

5. according to claim 2 or 3 or 4 described automatic chamfering machines, it is characterized in that, described driving mechanism one (10) comprises and being horizontally disposed with and cylinder body is fixed on the cylinder one (10a) on described base (1), the axis of the axis of described cylinder one (10a) and described main shaft (6) is perpendicular, and the piston rod of described cylinder one (10a) is connected mutually with described planker one (9).

6. automatic chamfering machine according to claim 5, it is characterized in that, the lower end of described planker one (9) is fixed with slide rail one, and the axis of the axis of described slide rail one and described cylinder one (10a) is set in parallel, described base (1) is provided with the slide block one be complementary with described slide rail one.

7. according to claim 2 or 3 or 4 described automatic chamfering machines, it is characterized in that, also be provided with planker two (11) on the other end of described planker one (9) and can drive described planker two (11) and make to be parallel to the driving mechanism two (12) that the axis of described main shaft (6) moves back and forth, described toolbox (4) is arranged on described planker two (11), described driving mechanism two (12) comprises motor two (12a), screw mandrel two and screw two, described motor two (12a) is fixed on described planker one (9), described screw mandrel two axially is connected in the upper and axis of described screw mandrel two of described planker two (11) and the axis of described main shaft (6) be arranged in parallel, described screw two is fixed on planker two (11), and described screw two is connected with screw mandrel two screw threads.

8. according to claim 1 or 2 or 3 or 4 described automatic chamfering machines, it is characterized in that, described material toggling mechanism (8) comprises and is set in the upper and tubular material toggling seat (8a) of main shaft (6) and can drives the driving mechanism three (8b) of described material toggling seat (8a) along the reciprocal translation of axis direction of described main shaft (6), described driving mechanism three (8b) is for being hinged on the cylinder three on main spindle box (5), one end of described cylinder three and a push rod (8c) is hinged, described push rod (8c) other end is hinged on main spindle box (5), the middle part of described push rod (8c) is connected mutually with described material toggling seat (8a).

9. automatic chamfering machine according to claim 8, it is characterized in that, being provided with material toggling piece (13) and described material toggling piece (13) in described material toggling seat (8a) is set on described main shaft (6), be provided with the driving mechanism four that can drive the reciprocal translation of its axis direction of the relative described material toggling seat of described material toggling piece (13) (8a) between described material toggling piece (13) and described material toggling seat (8a), described driving mechanism four is vertical setting for being fixed on cylinder four on described material toggling seat (8a) and the piston rod of described cylinder four and the axis of described main shaft (6), the piston rod of described cylinder four is fixed with two push pedals through described material toggling seat (8a), the sidewall of described push pedal is provided with gathering sill, the both sides of described material toggling piece (13) are equipped with convex body, described convex body all is embedded on described gathering sill.

10. according to claim 1 or 2 or 3 or 4 described automatic chamfering machines, it is characterized in that, the exit of described feeding track (3) is provided with the push rod (14) of some madial walls perpendicular to described feeding track (3), be equipped with spring between the madial wall of described push rod (14) and described feeding track (3), under the elastic force effect of described spring, described push rod (14) has the axial trend of side shifting outward along push rod (14) all the time.