CN103128529B - Device for assembling ceramic ferrule and sleeve - Google Patents

Abstract

The invention discloses a device for assembling a ceramic ferrule and a sleeve. The device for assembling a ceramic ferrule and a sleeve comprises a frame and a turntable disposed on the frame. A plurality of stations are uniformly arranged on the circumference of turntable sequentially provided with a sleeve feeding device, a ceramic ferrule feeding device and a package discharging device in an encircling manner, and the sleeve feeding device, the ceramic ferrule feeding device and the package discharging device are corresponding to different stations of the turntable; a positioning seat respectively mounted on the stations of the turntable is provided with a positioning hole and a mandrill partially and movably inserted in the lower portion of the positioning hole; the sleeve feeding device comprises a cutter and a feeding mechanism for sleeves; the ceramic ferrule feeding device comprises a vibration hopper and a feeding suction plate; the package discharging device comprises a discharging suction plate and a pusher cylinder capable of pushing the mandrill of the corresponding station of the turntable; and the device is further provided with a hole supporting device located on the station between the sleeve feeding device and the ceramic ferrule feeding device. With the technical scheme of the device for assembling the ceramic ferrules and sleeves implemented, the sleeves can be automatically cut off, and the sleeve and a tailstock of the ceramic ferrule are automatically assembled. Furthermore, the device for assembling the ceramic ferrule and the sleeve has the advantages of high efficiency in assembly, good quality, and low labor intensity and cost.

Description

The equipment of a kind of assembling ceramic lock pin and sleeve pipe

Technical field

The present invention relates to a kind of assembly equipment, particularly relate to the equipment of a kind of assembling ceramic lock pin and sleeve pipe.

Background technology

Existing band tailstock ceramic insertion core metal end and sleeve pipe assemblings adopts manual operation, its flow process is specially: manually first the transparent plastic casing of entire volume is cut off into want length, and the sleeve pipe cut off is placed in carton, then other workman one hand-held band tailstock ceramic insertion core, another hand picks up a sleeve pipe, directly sleeve pipe is compressed into ceramic insertion core metal end.

Above-mentioned manually-operated mode defect is obvious: (1) manually first will cut off sleeve pipe, then is press-fitted to together by ceramic insertion core and sleeve pipe by hand, and efficiency is low; (2) because band tailstock ceramic insertion core metal end and casing tube internal hole are close-fittings, and diameter little (￠ about 2), compress into by hand, workload is comparatively large, and labour intensity is high; (3) cut sleeve pipe by hand, during cut-out, cannot ensure that cutting knife is vertical with sleeve pipe, cause cut-out dipped ring whole; (4) owing to cutting off dipped ring, pack into length inequality, and cannula tip withstands ceramic insertion core, make sleeve pipe overlap on earth completely, situation about easily coming off in transport process.

Summary of the invention

In order to overcome the defect of above-mentioned prior art, technical problem to be solved by this invention is to provide one can cut off sleeve pipe efficiently, and automatically sleeve pipe is packed into ceramic ferrule tailstock metal end, thus cut the waste, saving resource, and increase work efficiency, improve the quality of products and alleviate the assembling ceramic lock pin of manual working intensity and the equipment of sleeve pipe.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is: the equipment of a kind of assembling ceramic lock pin and sleeve pipe, comprise: frame, be installed on frame and the rotating disk of multiple station is circumferentially evenly set, be provided with sleeve pipe feeding device, ceramic insertion core feeding device and encapsulation drawing mechanism successively around described rotating disk, described sleeve pipe feeding device, ceramic insertion core feeding device and encapsulation drawing mechanism are installed on frame and distinguish different station on corresponding rotating disk; The station of described rotating disk installs positioning seat respectively, and described positioning seat is provided with the push rod that locating hole and piecemeal activity are inserted in this locating hole bottom; Described sleeve pipe feeding device comprises conveying mechanism sleeve pipe being sent into the corresponding station locating hole of rotating disk and the cutting knife being used for cutting off sent into sleeve pipe, and described cutting knife is between the corresponding station of rotating disk and described conveying mechanism; Described ceramic insertion core feeding device comprises for the vibrating bunker of neat ceramic insertion core with for being held by the ceramic insertion core sent in vibrating bunker and being transferred to the charging suction disc in the locating hole of the corresponding station of rotating disk; Described encapsulation drawing mechanism comprises being positioned at and the ceramic insertion core of corresponding for rotating disk station locating hole can to hold by the corresponding station of rotating disk and the discharging suction disc shifted out, being positioned under the corresponding station of rotating disk can the pushing tow cylinder of described push rod of the corresponding station of pushing tow rotating disk.

As the improvement of technique scheme, described charging suction disc end is provided with charging vacuum cups, described ceramic insertion core feeding device also comprises charging flat-removing air cyclinder and charging lift cylinder, described charging suction disc is connected to described charging flat-removing air cyclinder, and described charging suction disc and charging flat-removing air cyclinder are integrally connected to described charging lift cylinder.

As the improvement of technique scheme, described discharging suction disc end is provided with discharging vacuum cups, described encapsulation drawing mechanism also comprises discharging flat-removing air cyclinder and discharging lift cylinder, described discharging suction disc is connected to described discharging flat-removing air cyclinder, and described discharging suction disc and discharging flat-removing air cyclinder are integrally connected to described discharging lift cylinder.

As the improvement of a kind of assembling ceramic lock pin of the present invention and sleeve technology scheme, around described rotating disk and the support aperture apparatus be also provided with between described sleeve pipe feeding device and ceramic insertion core feeding device for holding round casing tube internal hole, described support aperture apparatus corresponds to the next station of the rotating disk station corresponding to described sleeve pipe feeding device, described support aperture apparatus comprises thimble and catch, described catch has the through hole allowing thimble extend there through, and aims at and can stretch into this locating hole above the locating hole that described thimble is positioned at the corresponding station of rotating disk.

As the improvement of technique scheme, described sleeve pipe feeding device also comprises for responding to the first inductor sending into casing length.

As the improvement of technique scheme, described encapsulation drawing mechanism also comprises the second inductor for responding to the casing length be assemblied in ceramic chip.

As the improvement of technique scheme, described encapsulation drawing mechanism also comprises is located at discharge nozzle below described discharging suction disc and magazine, and the port of export of described discharge nozzle stretches into described magazine.

As the improvement of technique scheme, described encapsulation drawing mechanism also comprises and is connected to point gear air cylinder of described discharge nozzle body for qualified products and substandard product separately being sent from discharge nozzle.

Implement technical scheme of the present invention and there is following beneficial effect: implement the embodiment of the present invention, automatically sleeve pipe can be cut off, automatically by sleeve pipe and ceramic insertion core assembling, and automatically non-defective unit and defective products can be separated discharging, substantially increase efficiency of assembling, reduce hand labor intensity, product quality is high, uniformity good, reliable and stable, and avoid the waste of manual operation to sleeve pipe and ceramic insertion core, save cost.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of the apparatus embodiments of the present invention's a kind of assembling ceramic lock pin and sleeve pipe;

Fig. 2 is the plan structure schematic diagram of the apparatus embodiments of a kind of assembling ceramic lock pin of the present invention and sleeve pipe;

Fig. 3 is the side view of middle ceramic insertion core feeding device 4 embodiment illustrated in fig. 2;

Fig. 4 is the product structure schematic diagram after ceramic insertion core and sleeve pipe assemble.

Detailed description of the invention

The specific embodiment of the present invention is further illustrated below in conjunction with accompanying drawing.

The apparatus embodiments of a kind of assembling ceramic lock pin of the present invention and sleeve pipe is for assembling the Ceramics Ceramic lock pin and sleeve pipe of being with tailstock, and Fig. 4 is the product structure schematic diagram that the embodiment of the present invention assembles, and sleeve pipe 91 is inserted in automatically the tailstock metal end 81 of ceramic insertion core 8.

The embodiment of the present invention comprises frame 1, be installed on frame 1 and circumferentially evenly arrange the rotating disk 2 of multiple station, be provided with sleeve pipe feeding device 3, ceramic insertion core feeding device 4 and encapsulation drawing mechanism 5 successively around rotating disk 2, described sleeve pipe feeding device 3, ceramic insertion core feeding device 4 and encapsulation drawing mechanism 5 are installed on frame and distinguish different station on corresponding rotating disk 2; The station of rotating disk 2 installs positioning seat 21 respectively, and positioning seat 21 is provided with the push rod 23 that locating hole 22 and piecemeal activity are inserted in this locating hole 22 bottom;

Sleeve pipe feeding device 3 comprises to be sent into the conveying mechanism 31 of rotating disk 2 corresponding station locating hole and is used for cutting off the cutting knife 32 of sent into sleeve pipe by sleeve pipe material strip 9, cutting knife 32 is between the corresponding station of rotating disk 2 and conveying mechanism 31; Concrete, as shown in Figure 1, conveying mechanism 31 comprises guide wheel 311 and pinch roller 312, is located at the top of the corresponding station of rotating disk 2, and sleeve pipe material strip 9 is sent in the locating hole of the corresponding station of rotating disk 2 under the conduction of guide wheel 311 and pinch roller 312.

Ceramic insertion core feeding device 4 comprises for the vibrating bunker 42 of neat ceramic insertion core with for being held by the ceramic insertion core sent in vibrating bunker and being transferred to the charging suction disc 41 in the locating hole of the corresponding station of rotating disk 2; Further, as shown in Figure 3, ceramic insertion core feeding device 4 also comprises charging flat-removing air cyclinder 412 and charging lift cylinder 413, charging suction disc 41 is connected to charging flat-removing air cyclinder 412, charging suction disc 41 and charging flat-removing air cyclinder 412 are integrally connected to charging lift cylinder 413, charging suction disc 41 end is provided with charging vacuum cups 411, under the effect of charging flat-removing air cyclinder 412 and charging lift cylinder 413, the ceramic insertion core that charging vacuum cups 411 can hold by charging suction disc 41 is transferred in the locating hole of the corresponding station of rotating disk 2 up and down.

Encapsulation drawing mechanism 5 comprise be positioned at the corresponding station of rotating disk 2 locating hole on the ceramic insertion core of corresponding for rotating disk 2 station locating hole can be held and the discharging suction disc 51 shifted out, be positioned at the corresponding station of rotating disk 2 the push rod 23 times of positioning seat 21 can the pushing tow cylinder 52 of push rod 23 described in pushing tow.Further, as shown in Figure 1, encapsulation drawing mechanism 5 also comprises discharging flat-removing air cyclinder 512 and discharging lift cylinder 513, discharging suction disc 51 is connected to discharging flat-removing air cyclinder 512, discharging suction disc 51 and discharging flat-removing air cyclinder 512 are integrally connected to discharging lift cylinder 513, discharging suction disc 51 end is provided with discharging vacuum cups 511, and under the effect of discharging flat-removing air cyclinder 512 and discharging lift cylinder 513, the ceramic insertion core processed that discharging vacuum cups 511 holds can shift out by discharging suction disc 51 up and down.

Implement the embodiment of the present invention, operator pours the ceramic insertion core pressing tailstock into vibrating bunker 42, sleeve pipe material strip 9 is installed between guide wheel 311 and pinch roller 312, flat sleeve pipe front end is cut with cutting knife 32, after starting working, sleeve pipe is sent in the locating hole of rotating disk 2 by conveying mechanism 31 automatically, deliver to after requiring length, cutting knife 32 cuts off sleeve pipe automatically, after cutting off, rotating disk 2 rotates a station, proceed to corresponding with ceramic insertion core feeding device 4, ceramic insertion core totally neat in vibrating bunker 42 holds by the charging vacuum cups 411 of charging suction disc 41 end, under the effect of charging flat-removing air cyclinder 412 and charging lift cylinder 413, the ceramic insertion core held moves in the locating hole (locating hole has sleeve pipe) just proceeded to of rotating disk 2 correspondence, now both there is in locating hole sleeve pipe and also there is ceramic insertion core, although the ceramic insertion core held charging lift cylinder 413 times generals who has surrendered puts into the process of locating hole, ceramic insertion core extrudes mutually with sleeve pipe, but ceramic ferrule tailstock is not inserted in sleeve pipe.After ceramic insertion core puts into locating hole, rotating disk 2 rotates a station again, proceed to corresponding with encapsulating drawing mechanism 5, now, discharging flat-removing air cyclinder 512 and discharging lift cylinder 513 work, and are pressed in by discharging suction disc 51 on proceeded to ceramic insertion core, pushing tow cylinder 52 below rotating disk 2 is upper top then, thus the sleeve pipe in the locating hole of rotating disk 2 is upwards pushed up, because locating hole has guide effect, sleeve pipe directly packs into ceramic ferrule tailstock metal end.After being seated, discharging suction disc 51 holds with discharging vacuum cups 511 ceramic insertion core assembled and rises, and shifts out rotating disk 2.

Further, around rotating disk 2 and the support aperture apparatus 6 be also provided with between sleeve pipe feeding device 3 and ceramic insertion core feeding device 4 for holding round casing tube internal hole, support aperture apparatus 6 corresponds to the next station of the rotating disk station corresponding to described sleeve pipe feeding device 3, support aperture apparatus 6 comprises thimble 61 and catch 62, catch 62 has the through hole allowing thimble extend there through, and aims at and can stretch into this locating hole 22 above the locating hole 22 that thimble 61 is positioned at the corresponding station of rotating disk 2.The slightly pointed end of thimble 61 tool, specifically V-shaped.During embodiment of the present invention work, after sleeve pipe feeding device 3 sends into sleeve pipe to the locating hole of rotating disk 2, rotating disk 2 rotates a station, enter the station corresponding with this support aperture apparatus 6, now, insert under the casing tube internal hole in the locating hole of the V-type tip aligning rotating disk 2 of thimble 61, casing tube internal hole is squeezed circle and squeeze greatly, afterwards, rotating disk 2 rotates a station again and enters and the station corresponding to ceramic insertion core feeding device 4.Use this support aperture apparatus 6, the inner hole extruding of sleeve pipe can be obtained more round and smooth and suitably support large, being convenient to the assembling of sleeve pipe and ceramic ferrule tailstock metal end.

Preferably, sleeve pipe feeding device 3 is also provided with to be sent into the first inductor 33, first inductor 33 of casing length is located at cutting knife 32 side for responding to, conveying mechanism 31 at feeding sleeve pipe to after requiring length, first inductor 33 senses, thus control cutting knife 32 cuts off sleeve pipe automatically.Encapsulation drawing mechanism 5 is also provided with the second inductor 53 for responding to the casing length be assemblied in ceramic chip, be provided with for sending the ceramic insertion core that the assembles discharge nozzle 54 to magazine 55 below discharging suction disc 51, magazine 55 is located at the discharge port end of discharge nozzle 54, the body of discharge nozzle 54 is connected with one point of gear air cylinder 56, and discharging flat-removing air cyclinder 512 and discharging lift cylinder 513 can control to transfer the ceramic insertion core assembled on discharging suction disc 51 to just to the top of discharge nozzle 54 charging aperture.When the second inductor 53 senses that the casing length of the ceramic insertion core assembled is defective, divide gear air cylinder 56 action, change the port of export position of discharge nozzle 54 thus underproof product sent to the defective products district in magazine 55, and the second inductor 53 is when sensing that the casing length of the ceramic insertion core assembled is qualified, product is then from the normal discharging of discharge nozzle 54.

In the technical scheme of the embodiment of the present invention, each station on rotating disk 2 should decile, when the machine is installed, each parts first can be installed respectively, as rotating disk 2, sleeve pipe feeding device 3, ceramic insertion core feeding device 4, encapsulation drawing mechanism 5, support aperture apparatus 6 etc. install respectively separately, then each parts are installed on frame 1 according to general assembly drawing, and correct the positioning relation of sleeve pipe feeding device 3, ceramic insertion core feeding device 4, encapsulation drawing mechanism 5, support aperture apparatus 6 and rotating disk 2, the parallel relation of the vibrating bunker 42 in ceramic insertion core feeding device 4 and rotating disk 2 be corrected.Guarantee after installation that each plant running is smooth and easy, each station decile, each station is concentric with rotating disk station.

Implement the embodiment of the present invention, operator only need pour ceramic insertion core into vibrating bunker, and sleeve pipe is installed, then start button is pressed, click automatic button again, this equipment can realize automation, automatically sleeve pipe can be cut off, automatically by sleeve pipe and ceramic insertion core assembling, and automatically non-defective unit and defective products can be separated discharging, substantially increase efficiency of assembling, reduce hand labor intensity, product quality is high, uniformity good, reliable and stable, and avoid the waste of manual operation to sleeve pipe and ceramic insertion core, saved cost.

Above disclosedly be only preferred embodiment of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the present patent application the scope of the claims is done, still belong to the scope that the present invention is contained.

Claims (8)

1. the equipment of an assembling ceramic lock pin and sleeve pipe, it is characterized in that, comprise: frame, be installed on frame and the rotating disk of multiple station is circumferentially evenly set, be provided with sleeve pipe feeding device, ceramic insertion core feeding device and encapsulation drawing mechanism successively around described rotating disk, described sleeve pipe feeding device, ceramic insertion core feeding device and encapsulation drawing mechanism are installed on frame and distinguish different station on corresponding rotating disk; The station of described rotating disk installs positioning seat respectively, described positioning seat be provided with locating hole and part be inserted in locating hole bottom and entirety can be axially movable in locating hole push rod;

Described sleeve pipe feeding device comprises conveying mechanism sleeve pipe being sent into the corresponding station locating hole of rotating disk and the cutting knife being used for cutting off sent into sleeve pipe, and described cutting knife is between the corresponding station of rotating disk and described conveying mechanism;

Described ceramic insertion core feeding device comprises for the vibrating bunker of neat ceramic insertion core with for being held by the ceramic insertion core sent in vibrating bunker and being transferred to the charging suction disc in the locating hole of the corresponding station of rotating disk;

Described encapsulation drawing mechanism comprises being positioned at and the ceramic insertion core of corresponding for rotating disk station locating hole can to hold by the corresponding station of rotating disk and the discharging suction disc shifted out, being positioned under the corresponding station of rotating disk can the pushing tow cylinder of described push rod of the corresponding station of pushing tow rotating disk.

2. the equipment of assembling ceramic lock pin as claimed in claim 1 and sleeve pipe, it is characterized in that: described charging suction disc end is provided with charging vacuum cups, described ceramic insertion core feeding device also comprises charging flat-removing air cyclinder and charging lift cylinder, described charging suction disc is connected to described charging flat-removing air cyclinder, and described charging suction disc and charging flat-removing air cyclinder are integrally connected to described charging lift cylinder.

3. the equipment of assembling ceramic lock pin as claimed in claim 1 and sleeve pipe, it is characterized in that: described discharging suction disc end is provided with discharging vacuum cups, described encapsulation drawing mechanism also comprises discharging flat-removing air cyclinder and discharging lift cylinder, described discharging suction disc is connected to described discharging flat-removing air cyclinder, and described discharging suction disc and discharging flat-removing air cyclinder are integrally connected to described discharging lift cylinder.

4. the assembling ceramic lock pin as described in any one of claims 1 to 3 and the equipment of sleeve pipe, it is characterized in that: around described rotating disk and the support aperture apparatus be also provided with between described sleeve pipe feeding device and ceramic insertion core feeding device for holding round casing tube internal hole, described support aperture apparatus corresponds to the next station of the rotating disk station corresponding to described sleeve pipe feeding device, described support aperture apparatus comprises thimble and catch, described catch has the through hole allowing thimble extend there through, and aims at and can stretch into this locating hole above the locating hole that described thimble is positioned at the corresponding station of rotating disk.

5. the equipment of assembling ceramic lock pin as claimed in claim 4 and sleeve pipe, is characterized in that: described sleeve pipe feeding device also comprises for responding to the first inductor sending into casing length.

6. the equipment of assembling ceramic lock pin as claimed in claim 5 and sleeve pipe, is characterized in that: described encapsulation drawing mechanism also comprises the second inductor for responding to the casing length be assemblied in ceramic chip.

7. the equipment of assembling ceramic lock pin as claimed in claim 6 and sleeve pipe, is characterized in that: described encapsulation drawing mechanism also comprises is located at discharge nozzle below described discharging suction disc and magazine, and the port of export of described discharge nozzle stretches into described magazine.

8. assembling ceramic lock pin as claimed in claim 7 and the equipment of sleeve pipe, is characterized in that: described encapsulation drawing mechanism also comprises and is connected to described discharge nozzle body for what qualified products and substandard product are separately sent from discharge nozzle and divides gear air cylinder.