CN110154248A - A kind of graphite bush producing device of self-feeding - Google Patents

Abstract

The invention discloses a kind of graphite bush producing devices of self-feeding, it includes rack platform and the automatic feed mechanism on rack platform, clamping device, supporting mechanism for location, turning feed mechanism, station transfer device, perforating mechanism, cutting mechanism and workpiece polishing mechanism, the automatic feed mechanism is used to convey embryo material for clamping device, the clamping device is for clamping embryo material and embryo material being driven to rotate, the supporting mechanism for location is used to support, embryo material is positioned consequently facilitating clamping device, station transfer device clamps embryo material, the turning feed mechanism is used to carry out end face processing to embryo material, machining center hole and processing screw thread, the station transfer device is used to the embryo material after turning being successively transferred to perforating mechanism, cutting mechanism and workpiece polishing mechanism；The present invention adds automatic feed mechanism, instead of artificial loading, high degree of automation mitigates labor burden, improves production efficiency, reduces production cost by integrating each process layout.

Description

A kind of graphite bush producing device of self-feeding

Technical field

The present invention relates to a kind of graphite bush producing devices of self-feeding.

Background technique

In existing graphite bush production, all it is often artificial loading, and in process, needs manually to help embryo Material completes processing, causes production efficiency low, and recruitment cost is high, is unfavorable for automated production.

Summary of the invention

It is an object of the invention to overcome disadvantages described above, a kind of graphite bush production dress of self-feeding is provided It sets.

To achieve the above object, concrete scheme of the invention is as follows:

A kind of graphite bush producing device of self-feeding, automatic feed mechanism including rack platform and on rack platform, Clamping device, supporting mechanism for location, turning feed mechanism, station transfer device, perforating mechanism, cutting mechanism and workpiece polishing mechanism, The automatic feed mechanism is used to convey embryo material for clamping device, and the clamping device is for clamping embryo material and embryo material being driven to revolve Turn, the supporting mechanism for location is used to support, positions embryo material consequently facilitating clamping device, station transfer device clamp embryo material, institute Turning feed mechanism is stated for carrying out end face processing, machining center hole and processing screw thread, the station transfer device to embryo material For the embryo material after turning to be successively transferred to perforating mechanism, cutting mechanism and workpiece polishing mechanism, the perforating mechanism is used for Disposable wearing hole machined is carried out to embryo material, the cutting mechanism is used to carry out multiple cutting processing, the workpiece polishing mechanism to embryo material It is processed for polishing.

Wherein, the quantity of the station transfer device, perforating mechanism, cutting mechanism and workpiece polishing mechanism is two groups, and It is symmetrically arranged on rack platform.

Wherein, the automatic feed mechanism includes feeding attachment base, feeding support base, hopper, deflecting deflector chute, feeding gas Cylinder and L-shaped expeller, the feeding attachment base are fixed on rack platform, and the feeding support base is fixed on feeding attachment base On, the hopper is fixed on feeding support base, and the deflecting deflector chute is set to the lower section on feeding support base and being located at hopper, The lateral input end of the deflecting deflector chute and the discharge port of hopper are correspondingly arranged up and down, and the feeding cylinder is supported set on feeding One end of seat is simultaneously located at below the lateral input end of deflecting deflector chute, and one end of the expeller and the output end of feeding cylinder connect It connects, the other end of the expeller is towards the lateral input end of deflecting deflector chute, and the other end of the feeding support base is to strain It is arranged to the vertical exit end of deflector chute jagged.

Wherein, the clamping device includes clamping supporting seat, grips seat, clamping motor and power double end collet, institute It states clamping supporting seat to be fixed on rack platform, the seat that grips is fixed on clamping supporting seat, and the clamping motor is fixed On gripping seat, the power double end collet is rotatably connected on gripping seat and is located at the vertical of deflecting deflector chute The output end of the underface of outlet end, the clamping motor is sequentially connected by gear set and power double end collet.

Wherein, the supporting mechanism for location includes positioning support cylinder and positioning support block, and the positioning support cylinder is solid It is scheduled on the bottom surface of rack platform, the output end of the positioning support cylinder is connect after passing through rack platform with positioning support block, described fixed Position supporting block is located on the central axis of power double end collet.

Wherein, the turning feed mechanism include first straight line driving part, second straight line driving part, knife tower base and Rotary knife tower, the first straight line driving part are set on rack platform, and the second straight line driving part drives set on first straight line It is in cross setting on dynamic component and with first straight line driving part, the knife tower base is set on second straight line driving part, The rotary knife tower is set on knife tower base.

Wherein, the station transfer device includes station transfer support base, third linear drives component, station transfer rotation Motor, indexable plate, power single head collet and clump weight, the station transfer support base are fixed on rack platform, and the third is straight Line driving part is set on station transfer support base, and the station transfer rotating electric machine is set on third linear drives component, institute It states indexable plate to connect with the output end of station transfer rotating electric machine, the power single head collet is fixed on one end of indexable plate, institute State the other end that clump weight is fixed on indexable plate.

Wherein, the perforating mechanism includes L-shaped perforated support seat, the 4th linear drives component, punching collet and punching One end of electrode, the perforated support seat is fixed on rack platform, and the 4th linear drives component is set to perforated support seat The other end, the punching collet are set on the 4th linear drives component, and the perforated electrode is held on punching collet.

Wherein, the cutting mechanism include slow silk thread, cutting support base, the 5th linear drives component, T shape column, cut It cuts and adjusts motor, cutting adjusts screw rod, Top Crossbeam, lower cross arm, enterprising silk mouth and lower thread-feeding mouth, the cutting support base and is fixed on On rack platform, the 5th linear drives component is set on cutting support base, and the transverse arm end of the column is connected to the 5th straight line On driving part, the Top Crossbeam, lower cross arm are set to the trailing arm end of column, and the enterprising silk mouth is set on Top Crossbeam, described Lower thread-feeding mouth is set on lower cross arm, and one end of the slow silk thread is connect with enterprising silk mouth, and the other end is connect with lower thread-feeding mouth.

Wherein, the workpiece polishing mechanism includes L-shaped polishing support base, polishing attachment base, polishing cylinder, polishing guide sleeve It is fixed on rack platform with one end of polishing bar, the polishing support base, the polishing attachment base is set to the another of polishing support base One end, the polishing guide sleeve are set on polishing attachment base, and the polishing cylinder is fixed on polishing guide sleeve, described to beat Mill bar is located in polishing guide sleeve and connect with the output end of polishing cylinder.

The invention has the benefit that compared with prior art, the present invention is added automatic by integrating each process layout Feeding mechanism, instead of artificial loading, high degree of automation mitigates labor burden, improves production efficiency, reduces production cost.

Detailed description of the invention

Fig. 1 is the structural schematic diagram at the first visual angle of graphite bush producing device provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram at the second visual angle of graphite bush producing device provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram at the first visual angle of automatic feed mechanism provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram at the second visual angle of automatic feed mechanism provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of deflecting deflector chute provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of clamping device provided in an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of supporting mechanism for location provided in an embodiment of the present invention；

Fig. 8 is the structural schematic diagram of turning feed mechanism provided in an embodiment of the present invention；

Fig. 9 is the structural schematic diagram of station transfer device provided in an embodiment of the present invention；

Figure 10 is the structural schematic diagram of perforating mechanism provided in an embodiment of the present invention；

Figure 11 is the structural schematic diagram of cutting mechanism provided in an embodiment of the present invention；

Figure 12 is the structural schematic diagram of workpiece polishing mechanism provided in an embodiment of the present invention；

Description of symbols: 1- rack platform；2- automatic feed mechanism；21- feeding attachment base；22- feeding support base；23- hopper； 24- deflecting deflector chute；25- feeding cylinder；26- expeller；3- clamping device；31- clamping supporting seat；32- grips seat； 33- clamps motor；34- power double end collet；4- supporting mechanism for location；41- positioning support cylinder；42- positioning support block；5- vehicle Cut feed mechanism；51- first straight line driving part；52- second straight line driving part；53- knife tower base；54- rotary knife tower；6- Station transfer device；61- station shifts support base；62- third linear drives component；63- station shifts rotating electric machine；64- turns Position plate；65- power single head collet；66- clump weight；7- perforating mechanism；71- perforated support seat；The 4th linear drives component of 72-； 73- punches collet；74- perforated electrode；8- cutting mechanism；The slow silk thread of 80-；81- cuts support base；The 5th linear drives portion 82- Part；83- column；84- cutting adjusts motor；85- cutting adjusts screw rod；86- Top Crossbeam；87- lower cross arm；The enterprising silk mouth of 88-； 89- lower thread-feeding mouth；9- workpiece polishing mechanism；91- polishing support base；92- polishing attachment base；93- polishing cylinder；94- polishing guide sleeve Pipe；95- polishing bar.

Specific embodiment

The present invention is described in further detail in the following with reference to the drawings and specific embodiments, is not reality of the invention It applies range and is confined to this.

As shown in Figures 1 to 12, a kind of graphite bush producing device of self-feeding, feature described in the present embodiment exist In, automatic feed mechanism 2, clamping device 3, supporting mechanism for location 4, turning including rack platform 1 and on rack platform 1 into To mechanism 5, station transfer device 6, perforating mechanism 7, cutting mechanism 8 and workpiece polishing mechanism 9, the automatic feed mechanism 2 is for being Clamping device 3 conveys embryo material, and the clamping device 3 is for clamping embryo material and embryo material being driven to rotate, the supporting mechanism for location 4 It is used to support, positions embryo material consequently facilitating clamping device 3, station transfer device 6 clamp embryo material, the turning feed mechanism 5 is used In carrying out end face processing, machining center hole and processing screw thread to embryo material, the station transfer device 6 is used for will be after turning Embryo material be successively transferred to perforating mechanism 7, cutting mechanism 8 and workpiece polishing mechanism 9, the perforating mechanism 7 is used to carry out one to embryo material Secondary property perforation is processed, and the cutting mechanism 8 is used to carry out embryo material multiple cutting processing, and the workpiece polishing mechanism 9 adds for polishing Work.

The working method of the present embodiment is: embryo material is sequentially placed on automatic feed mechanism 2 by external mechanical hand, self-feeding Mechanism 2 conveys an embryo material every time for clamping device 3, and under the action of supporting mechanism for location 4, clamping device 3 clamps embryo material Lower end, and embryo material is driven to be rotated, then turning feed mechanism 5 carries out turnery processing to embryo material, successively to the upper of embryo material End face, upper end periphery carry out turning, and after the completion of the upper end centering of embryo material, the upper end turnery processing of embryo material, folder It holds mechanism 3 and unclamps embryo material, supporting mechanism for location 4 drives embryo material to move down, until clamping device 3 can clamp the upper end of embryo material, Then turning feed mechanism 5 carries out turnery processing to the lower end of embryo material, successively carries out vehicle to the lower end surface of embryo material, lower end periphery It cuts, and in the lower end centering of embryo material, and carries out processing M24 screw thread in the lower end of embryo material, turning feed mechanism 5 is to embryo After processing is completed, clamping device 3 unclamps embryo material to material, and supporting mechanism for location 4 drives embryo material to move down, and then station transfer device 6 presss from both sides The lower end of embryo material is handled, supporting mechanism for location 4, which is backed out, at this time keeps away position, and then station transfer device 6 drives embryo material to be moved to punching 7 position of mechanism, perforating mechanism 7 are directed at the centre bore of embryo material upper end, carry out disposable wearing hole machined, form first through hole, then Station transfer device 6 drives embryo material to be moved to 8 position of cutting mechanism, and cutting mechanism 8 is directed at first through hole, radially repeatedly cutting Embryo material forms multiple U-lags being connected to first through hole, to form the second through-hole, then station transfer device 6 drives embryo material It is moved to 9 position of workpiece polishing mechanism, workpiece polishing mechanism 9 polishes to the second through-hole on embryo material, and makes U-lag and first through hole Even side is arc-shaped, so that embryo material is processed into graphite bush.

The present embodiment adds automatic feed mechanism 2, instead of artificial loading, automates journey by integrating each process layout Degree is high, mitigates labor burden, improves production efficiency, reduces production cost.

As depicted in figs. 1 and 2, on the basis of based on the above embodiment, further, the station transfer device 6, punching The quantity of mechanism 7, cutting mechanism 8 and workpiece polishing mechanism 9 is two groups, and is symmetrically arranged on rack platform 1；Liang Zu mechanism The processing of embryo material can be carried out respectively, and production efficiency is higher, improves production capacity.

As shown in Figures 1 to 5, on the basis of based on the above embodiment, further, the automatic feed mechanism 2 includes Feeding attachment base 21, feeding support base 22, hopper 23, deflecting deflector chute 24, feeding cylinder 25 and L-shaped expeller 26, it is described Feeding attachment base 21 is fixed on rack platform 1, and the feeding support base 22 is fixed on feeding attachment base 21, and the hopper 23 is solid It is scheduled on feeding support base 22, the deflecting deflector chute 24 is set to the lower section on feeding support base 22 and being located at hopper 23, described The lateral input end of deflecting deflector chute 24 and the discharge port of hopper 23 are correspondingly arranged up and down, and the feeding cylinder 25 is set to feeding branch It supports one end of seat 22 and is located at below the lateral input end of deflecting deflector chute 24, one end of the expeller 26 and feeding cylinder 25 Output end connection, lateral input end of the other end of the expeller 26 towards deflecting deflector chute 24, the feeding support base The vertical exit end setting that 22 other end corresponds to deflecting deflector chute 24 is jagged；When work, external mechanical hand by embryo material successively It is put into hopper 23, embryo material falls to the lateral input end of deflecting deflector chute 24 in gravity from the discharge port of hopper 23, so Feeding cylinder 25 works afterwards, and the lateral input end for driving expeller 26 towards deflecting deflector chute 24 is mobile, and pushes embryo material, makes embryo Material is rolled from the lateral input end of deflecting deflector chute 24 to the vertical exit end of deflecting deflector chute 24, to keep embryo material completion horizontal State is changed into vertical state, then rolls from the lateral input end of deflecting deflector chute 24 to deflecting deflector chute in next embryo material When 24 vertical exit end, previous embryo material is pushed to the gap position of feeding support base 22 by next embryo material, makes previous embryo Material is fallen from the notch of feeding support base 22, to complete feeding movement；Previous embryo material falls from the notch of feeding support base 22 Fall behind, is held by supporting mechanism for location 4, and be transferred on clamping device 3 under the drive of supporting mechanism for location 4；So repeat Above-mentioned movement can be carried out continuously feeding movement, and self-feeding is more efficient, discharges labour, save recruitment cost.

The present embodiment further, the difference in height of the lateral input end of the discharge port and deflecting deflector chute 24 of the hopper 23 Less than the diameter of embryo material, to guarantee that expeller 26 under the drive of feeding cylinder 25, pushes an embryo material to lead from deflecting every time The lateral input end of hopper 24 is rolled to the vertical exit end of deflecting deflector chute 24.

As shown in fig. 6, further, the clamping device 3 includes clamping supporting seat on the basis of based on the above embodiment 31, it grips seat 32, clamping motor 33 and power double end collet 34, the clamping supporting seat 31 to be fixed on rack platform 1, institute It states and grips seat 32 and be fixed on clamping supporting seat 31, the clamping motor 33, which is fixed on, to be gripped on seat 32, described dynamic Power double end collet 34 is rotatably connected on gripping seat 32 and is located at the underface at the vertical exit end of deflecting deflector chute 24, The output end of the clamping motor 33 is sequentially connected by gear set and power double end collet 34；On automatic feed mechanism 2 is completed After material movement, embryo material is held by supporting mechanism for location 4, and then supporting mechanism for location 4 drives embryo material to move down, then power double-ended clip First 34 upper grip clamps the lower end of embryo material, then clamps motor 33 and works, is revolved by gear set drive power double end collet 34 Turn, so that embryo material be driven to rotate, then turning feed mechanism 5 carries out turnery processing, the upper end processing of embryo material to the upper end of embryo material After the completion, the upper grip of power double end collet 34 unclamps embryo material, and supporting mechanism for location 4 drives embryo material to move down, then power double end The lower collet of collet 34 clamps the upper end of embryo material, then clamps motor 33 and drives embryo material rotation, turning feed mechanism 5 is to embryo material Lower end carries out turnery processing, and after embryo material completes processing, the lower collet of power double end collet 34 unclamps embryo material, supporting mechanism for location 4 Continue that embryo material is driven to move down, and embryo material is transferred on station transfer device 6；The depth that power double end collet 34 clamps embryo material can It adjusts, is suitable for the biggish work pieces process of draw ratio, applicability is stronger.

As shown in fig. 7, further, the supporting mechanism for location 4 includes positioning branch on the basis of based on the above embodiment Support cylinder 41 and positioning support block 42, the positioning support cylinder 41 are fixed on the bottom surface of rack platform 1, the positioning support cylinder 41 output end is connect after passing through rack platform 1 with positioning support block 42, and the positioning support block 42 is located at power double end collet 34 Central axis on；When work, positioning support cylinder 41 works, and positioning support block 42 is driven to stretch out upwards, and it is double to pass through power It is located at the underface of the notch of feeding support base 22 after head collet 34, embryo material is fallen from the notch of feeding support base 22, and is dropped down onto On positioning support block 42, there is positioning support block 42 to hold, then positioning support cylinder 41 drives positioning support block 42 to move down, To drive embryo material to move down, until the lower end of embryo material can be clamped by the upper grip of power double-ended clip head 34, the upper end to embryo material After the completion of turnery processing, the upper grip of power double end collet 34 unclamps embryo material, and then positioning support cylinder 41 continues to drive embryo material It moves down, until the lower collet of power double end collet 34 can clamp the upper end of embryo material, at this point, positioning support cylinder 41 drives positioning Supporting block 42 is backed out, and after the completion of embryo material turnery processing, station transfer device 6 turns to the underface of embryo material, then positioning branch Support cylinder 41 drives positioning support block 42 to stretch out upwards again and contacts with embryo material, then the lower collet pine of power double end collet 34 Embryo material is opened, positioning support cylinder 41 drives positioning support block 42 to move down at this time, to drive embryo material to move down, until embryo material is shifted To station transfer device 6.

As shown in figure 8, further, the turning feed mechanism 5 includes first straight on the basis of based on the above embodiment Line driving part 51, second straight line driving part 52, knife tower base 53 and rotary knife tower 54, the first straight line driving part 51 On rack platform 1, the second straight line driving part 52 is set on first straight line driving part 51 and drives with first straight line Component 51 is in cross setting, and the knife tower base 53 is set on second straight line driving part 52, and the rotary knife tower 54 is set to On knife tower base 53；When work, first straight line driving part 51 realizes vertical displacement, and second straight line driving part 52 realizes transverse direction Displacement, so that rotary knife tower 54 be driven to process embryo material, rotary knife tower 54 successively selects different cutters to realize embryo material The turnery of embryo material end face, embryo material periphery and end centering.

As shown in figure 9, further, the station transfer device 6 turns including station on the basis of based on the above embodiment It moves support base 61, third linear drives component 62, station transfer rotating electric machine 63, indexable plate 64, power single head collet 65 and matches Pouring weight 66, the station transfer support base 61 are fixed on rack platform 1, and the third linear drives component 62 is shifted set on station On support base 61, the station transfer rotating electric machine 63 is set on third linear drives component 62, the indexable plate 64 and station The output end connection of rotating electric machine 63 is shifted, the power single head collet 65 is fixed on one end of indexable plate 64, the clump weight 66 are fixed on the other end of indexable plate 64, in order to keep the balance of indexable plate 64；When turning feed mechanism 5 is to the lower end of embryo material When turnery processing is completed, station shifts rotating electric machine 63 and indexable plate 64 is driven to rotate, and power single head collet 65 is made to be located at embryo material Underface, then positioning support cylinder 41 drives positioning support block 42 to pass through power single head collet 65, and makes positioning support block 42 Embryo material is contacted, then the lower collet of power double end collet 34 unclamps embryo material, and positioning support cylinder 41 drives embryo material to move down, until dynamic Power single head collet 65 can clamp the lower end of embryo material, and then positioning support cylinder 41 drives positioning support block 42 to move down, then work Bit transition rotating electric machine 63 drives indexable plate 64 to rotate, while under the drive of third linear drives component 62, keeps embryo material mobile To 7 position of perforating mechanism, carry out disposable wearing hole machined, after the completion of perforation, third linear drives component 62 drive embryo material according to It is secondary to be moved to cutting mechanism 8, carry out multiple cutting processing, polishing processing action, power single head collet 65 at 9 position of workpiece polishing mechanism The depth for clamping embryo material is adjustable, adapts to the biggish work pieces process of draw ratio, cooperates with power double end collet 34, and structure is cleverer It is living.

As shown in Figure 10, on the basis of based on the above embodiment, further, the perforating mechanism 7 includes L-shaped perforation Support base 71, the 4th linear drives component 72, punching collet 73 and perforated electrode 74, one end of the perforated support seat 71 are fixed On rack platform 1, the 4th linear drives component 72 is set to the other end of perforated support seat 71, and the punching collet 73 is set to On 4th linear drives component 72, the perforated electrode 74 is held on punching collet 73；When work, the 4th linear drives component 72 drive punching 73 test of collet, and punching collet 73 drives 74 test of perforated electrode, and is directed at the centre bore of embryo material end, realizes Perforated electrode 74 is perforated from one end of embryo material to the other end, to form the first through hole of two centre bores through embryo material；This reality It applies in example, the punching collet 73 can require replacement perforated electrode 74 according to the different of product using flexible clamping jaw clamping, from And realize the switching of different product.

As shown in figure 11, on the basis of based on the above embodiment, further, the cutting mechanism 8 include slow silk thread 80, Cut support base 81, the 5th linear drives component 82, T shape column 83, cutting adjust motor 84, cutting adjust screw rod 85, on Transverse arm 86, lower cross arm 87, enterprising silk mouth 88 and lower thread-feeding mouth 89, the cutting support base 81 are fixed on rack platform 1, and described Five linear drives components 82 are set on cutting support base 81, and the transverse arm end of the column 83 is connected to the 5th linear drives component 82 On, the Top Crossbeam 86, lower cross arm 87 are set to the trailing arm end of column 83, and the enterprising silk mouth 88 is set on Top Crossbeam 86, institute Lower thread-feeding mouth 89 is stated on the lower cross arm 87, one end of the slow silk thread 80 is connect with enterprising silk mouth 88, the other end and under into Silk mouth 89 connects；When work, it is mobile towards embryo material that the 5th linear drives component 82 drives column 83, and is directed at enterprising silk mouth 88 First through hole, then cutting adjusts motor 84 and works, and according to the height of embryo material, adjusts the height of Top Crossbeam 86, then slow silk thread 80 stretch out from enterprising silk mouth 88, and are connected on lower thread-feeding mouth 89 after passing through first through hole, then in the 5th linear drives component 82 and third linear drives component 62 it is common drive under, make slow silk thread more than 80 times radially to embryo material carry out cutting operation, shape At multiple U-lags being connected to first through hole, to form the second through-hole on embryo material；5th linear drives component 82 and third Under 62 collective effect of linear drives component, the compound motion in plane may be implemented, form the second through-hole cross section different shape Pattern, flexible structure, Top Crossbeam 86 is connected to cutting and adjusts on screw rod 85, it can be achieved that automatic remote-controlled operation is adjusted.

As shown in figure 12, on the basis of based on the above embodiment, further, the workpiece polishing mechanism 9 includes L-shaped polishing Support base 91, polishing attachment base 92, polishing cylinder 93, polishing guide sleeve 94 and polishing bar 95, the polishing support base 91 One end is fixed on rack platform 1, and the polishing attachment base 92 is set to the other end of polishing support base 91, the polishing guide sleeve 94 are set on polishing attachment base 92, and the polishing cylinder 93 is fixed on polishing guide sleeve 94, and the polishing bar 95, which is located at, to be beaten It is connect in mill guide sleeve and with the output end of polishing cylinder 93；When work, polishing cylinder 93 works, and drives polishing 95 test of bar, Bar 95 of polishing carries out sanding operation to the second through-hole, and is arc-shaped the company side of U-lag and first through hole, so that embryo material be added Work is at graphite bush；It is driven using polishing cylinder 93, in the case where meeting process conditions, is further reduced the cost.

First straight line driving part 51, second straight line driving part 52, third linear drives component 62 in the present embodiment, 4th linear drives component 72 is identical with the structure of the 5th linear drives component 82, is all made of the side of motor and ball screw cooperation Other equivalent linear drives modes can also be used in formula certainly.

The above is only a preferred embodiment of the invention, therefore all according to structure described in present patent application range It makes, the equivalent change or modification that feature and principle are done, in the protection scope of present patent application.

Claims (10)

1. a kind of graphite bush producing device of self-feeding, which is characterized in that it is characterised in that it includes rack platform (1) and Automatic feed mechanism (2), clamping device (3), supporting mechanism for location (4), turning feed mechanism (5) on rack platform (1), Station transfer device (6), perforating mechanism (7), cutting mechanism (8) and workpiece polishing mechanism (9), the automatic feed mechanism (2) are used for Embryo material is conveyed for clamping device (3), the clamping device (3) is for clamping embryo material and embryo material being driven to rotate, the positioning branch Support mechanism (4) is used to support, positions embryo material consequently facilitating clamping device (3), station transfer device (6) clamp embryo material, the vehicle Feed mechanism (5) are cut for carrying out end face processing, machining center hole and processing screw thread, the station transfer device to embryo material (6) described for the embryo material after turning to be successively transferred to perforating mechanism (7), cutting mechanism (8) and workpiece polishing mechanism (9) Perforating mechanism (7) is used to carry out disposable wearing hole machined to embryo material, and the cutting mechanism (8) is for repeatedly cutting embryo material Processing, the workpiece polishing mechanism (9) is for processing of polishing.

2. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that the station turns Telephone-moving structure (6), perforating mechanism (7), cutting mechanism (8) and workpiece polishing mechanism (9) quantity be two groups, and be symmetrically arranged On rack platform (1).

3. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that described to send automatically Expect that mechanism (2) include feeding attachment base (21), feeding support base (22), hopper (23), deflecting deflector chute (24), feeding cylinder (25) it is fixed on rack platform (1) with L-shaped expeller (26), the feeding attachment base (21), the feeding support base (22) It is fixed on feeding attachment base (21), the hopper (23) is fixed on feeding support base (22), the deflecting deflector chute (24) Lower section on feeding support base (22) and positioned at hopper (23), the lateral input end and hopper of the deflecting deflector chute (24) (23) discharge port is correspondingly arranged up and down, and the feeding cylinder (25) is set to the one end of feeding support base (22) and leads positioned at deflecting Below the lateral input end of hopper (24), one end of the expeller (26) is connect with the output end of feeding cylinder (25), described Lateral input end of the other end of expeller (26) towards deflecting deflector chute (24), the other end pair of the feeding support base (22) It strains jagged to the setting of the vertical exit end of deflector chute (24).

4. a kind of graphite bush producing device of self-feeding according to claim 3, which is characterized in that the clamping machine Structure (3) includes clamping supporting seat (31), grips seat (32), clamping motor (33) and power double end collet (34), the folder It holds support base (31) to be fixed on rack platform (1), the seat (32) that grips is fixed on clamping supporting seat (31), the folder It holds motor (33) and is fixed on and grip on seat (32), the power double end collet (34), which is rotatably connected, is gripping seat (32) output end of the underface at the vertical exit end on and positioned at deflecting deflector chute (24), clamping motor (33) passes through tooth Wheel group and power double end collet (34) are sequentially connected.

5. a kind of graphite bush producing device of self-feeding according to claim 4, which is characterized in that the positioning branch Support mechanism (4) includes positioning support cylinder (41) and positioning support block (42), and the positioning support cylinder (41) is fixed on rack The bottom surface of platform (1), the output end of the positioning support cylinder (41) pass through rack platform (1) and connect afterwards with positioning support block (42), The positioning support block (42) is located on the central axis of power double end collet (34).

6. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that the turning into It include first straight line driving part (51), second straight line driving part (52), knife tower base (53) and rotary knife tower to mechanism (5) (54), the first straight line driving part (51) is set on rack platform (1), and the second straight line driving part (52) is set to first It is in cross setting on linear drives component (51) and with first straight line driving part (51), the knife tower base (53) is set to the On two linear drives components (52), the rotary knife tower (54) is set on knife tower base (53).

7. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that the station turns Telephone-moving structure (6) includes station transfer support base (61), third linear drives component (62), station transfer rotating electric machine (63), turns Position plate (64), power single head collet (65) and clump weight (66), station transfer support base (61) are fixed on rack platform (1) On, the third linear drives component (62) is set in station transfer support base (61), and the station shifts rotating electric machine (63) On third linear drives component (62), the indexable plate (64) connect with the output end of station transfer rotating electric machine (63), The power single head collet (65) is fixed on one end of indexable plate (64), and the clump weight (66) is fixed on the another of indexable plate (64) One end.

8. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that the puncher Structure (7) includes L-shaped perforated support seat (71), the 4th linear drives component (72), punches collet (73) and perforated electrode (74), One end of the perforated support seat (71) is fixed on rack platform (1), and the 4th linear drives component (72) is set to perforation branch The other end of seat (71) is supportted, the punching collet (73) is set on the 4th linear drives component (72), the perforated electrode (74) It is held in punching collet (73).

9. a kind of graphite bush producing device of self-feeding according to claim 2, which is characterized in that the cutting machine Structure (8) includes slow silk thread (80), cutting support base (81), the 5th linear drives component (82), the column (83) of T shape, cutting tune Motor (84), cutting adjusting screw rod (85), Top Crossbeam (86), lower cross arm (87), enterprising silk mouth (88) and lower thread-feeding mouth (89) are saved, The cutting support base (81) is fixed on rack platform (1), and the 5th linear drives component (82) is set to cutting support base (81) on, the transverse arm end of the column (83) is connected on the 5th linear drives component (82), the Top Crossbeam (86), lower cross arm (87) it is set to the trailing arm end of column (83), the enterprising silk mouth (88) is set on Top Crossbeam (86), the lower thread-feeding mouth (89) On lower cross arm (87), one end of the slow silk thread (80) is connect with enterprising silk mouth (88), the other end and lower thread-feeding mouth (89) it connects.

10. a kind of graphite bush producing device of self-feeding according to claim 10, which is characterized in that the polishing Mechanism (9) include L-shaped polishing support base (91), polishing attachment base (92), polishing cylinder (93), polishing guide sleeve (94) and It polishes bar (95), one end of polishing support base (91) is fixed on rack platform (1), and the polishing attachment base (92) is set to and beats The other end of support base (91) is ground, the polishing guide sleeve (94) is set in polishing attachment base (92), the polishing cylinder (93) it is fixed in polishing guide sleeve (94), it is interior and with polishing cylinder (93) that polishing bar (95) is located at polishing guide sleeve Output end connection.