CN108555102B - Complex parts multistation process units - Google Patents

Complex parts multistation process units Download PDF

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Publication number
CN108555102B
CN108555102B CN201810364880.9A CN201810364880A CN108555102B CN 108555102 B CN108555102 B CN 108555102B CN 201810364880 A CN201810364880 A CN 201810364880A CN 108555102 B CN108555102 B CN 108555102B
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CN
China
Prior art keywords
sleeve
lower module
cross bar
groove
fixed block
Prior art date
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CN201810364880.9A
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Chinese (zh)
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CN108555102A (en
Inventor
刘航
崔涛
褚云鹤
葛晓梅
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台州市永派包装设备有限公司
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Priority to CN201810364880.9A priority Critical patent/CN108555102B/en
Publication of CN108555102A publication Critical patent/CN108555102A/en
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Publication of CN108555102B publication Critical patent/CN108555102B/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D22/00Shaping without cutting, by stamping, spinning, or deep-drawing
    • B21D22/02Stamping using rigid devices or tools
    • B21D22/08Stamping using rigid devices or tools with die parts on rotating carriers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D43/00Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
    • B21D43/02Advancing work in relation to the stroke of the die or tool
    • B21D43/04Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work
    • B21D43/14Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work by turning devices, e.g. turn-tables

Abstract

The present invention relates to complex parts multistation process units, it can effectively solve the problems, such as that existing apparatus can not carry out multistage manufacturing processes;Its technical solution solved be include a fixed block, there is first sleeve in the side of fixed block, there is second sleeve in first sleeve, there is multiple lower modules in second sleeve side wall, fluted on the side wall of first sleeve;There is cross bar on second sleeve inner wall, has vertical bar on cross bar, have shaft in second sleeve cavity;When lower module is opposite with groove, lower module be can be moved on fixed block, meanwhile, cross bar drives vertical bar to move up, and second sleeve does not rotate;Cope plate moves up, and lower module is moved in second sleeve, and cross bar moves down, shaft drives second sleeve rotation, when lower module after lower module opposite with groove before is opposite with groove, shaft cannot drive second sleeve to rotate, and lower module is moved on fixed block;Present inventive concept is novel, clever structure, it is practical, it can be achieved that multi-process complex parts processing.

Description

Complex parts multistation process units

Technical field

The present invention relates to stamping areas, especially complex parts multistation process units.

Background technique

Processing for complex parts product needs the processing of many processes in actual production, but existing sets The standby processing for only meeting either simplex sequence needs to carry out the transhipment of product in process, so that effective process time is wasted, Be that labor intensity of workers increases, thus research and develop it is a kind of can multistage manufacturing processes modularized production device, save labor intensity of workers, Increase the problem of processing efficiency is urgent need to resolve.

Summary of the invention

For above situation, to solve problems of the prior art, the purpose of the present invention is just to provide complex product Components module process units, can effectively solve existing apparatus can not carry out multistage manufacturing processes, large labor intensity, production efficiency Low problem.

Its technical solution solved be include a horizontal fixed block, there is vertical placement and not in the side of fixed block Rotatable first sleeve is set with a second sleeve that is coaxial with first sleeve and being rotated about axis in first sleeve, Second sleeve side wall inner periphery is evenly equipped with multiple lower modules that can be rotated with second sleeve, and lower module can connect with first sleeve inner wall Touching is face contact between first sleeve and fixed block and fits closely that first sleeve has one to pass through on the side wall of fixed block The groove of logical first sleeve side wall, lower module can be moved on fixed block through groove;

Have multiple radial on the second sleeve inner wall and is corresponded with lower module and cross bar moving up and down, it is horizontal The inner end of bar is through second sleeve inner wall and is located in second sleeve cavity, and one is respectively connected on each cross bar and is located at lower module The vertical bar of lower section, vertical bar is located in second sleeve side wall and can move up and down with corresponding cross bar, close in second sleeve cavity Groove side have one it is vertical and can be around the shaft of own axis;When lower module is located in second sleeve side wall, lower die Block, which presses vertical bar, moves down cross bar;When lower module is opposite with groove, lower module can be moved on fixed block through groove, meanwhile, This lower module is detached from corresponding vertical bar, and cross bar drives vertical bar to move up, at this point, shaft not with beam contact and cannot be through cross Bar drives second sleeve rotation;When cope plate moves up, lower module is moved in second sleeve, while lower module is through vertical bar Cross bar is driven to move down reset, at this point, shaft drives second set through cross bar with beam contact corresponding with this lower module Cylinder rotation, when the lower module after lower module opposite with groove before turns to opposite with groove, shaft and cross before Bar is detached from and second sleeve cannot be driven to rotate, at this point, lower module later is moved on fixed block through groove, when after under After module again moves into second sleeve, shaft beam contact corresponding with lower module later simultaneously drives second sleeve to turn It is dynamic.

Present inventive concept is novel, clever structure, it is practical, it can be achieved that multi-process complex parts processing.

Detailed description of the invention

Fig. 1 is use state main view of the present invention.

Fig. 2 is use process main view sectional view of the present invention.

Fig. 3 is the top view of present invention removal cope plate.

Fig. 4 is the top cross-sectional view of second sleeve of the present invention and first sleeve cooperation.

Fig. 5 is the main view sectional view of second sleeve of the present invention and first sleeve cooperation.

Fig. 6 is the enlarged cross-sectional view that lower module of the present invention is connect with second sleeve.

Fig. 7 is the tomograph of second sleeve of the present invention.

Fig. 8 is the top view of second sleeve of the present invention.

Fig. 9 is the C-C cross-sectional view of Fig. 8 of the present invention.

Figure 10 is the tomograph of first sleeve of the present invention.

Figure 11 is the top view of first sleeve of the present invention.

Figure 12 is the A-A cross-sectional view of Figure 11 of the present invention.

Specific embodiment

A specific embodiment of the invention is described in further details below in conjunction with attached drawing.

It is provided by Fig. 1 to Figure 12, the present invention includes a horizontal fixed block 1, and the side of fixed block 1 has one to put vertically Set and non-rotatable first sleeve 2, be set in first sleeve 2 one it is coaxial with first sleeve 2 and can be rotated about axis Second sleeve 3,3 side wall inner periphery of second sleeve are evenly equipped with multiple lower modules 4 that can be rotated with second sleeve 3, and lower module 4 can be with The contact of 2 inner wall of first sleeve is face contact between first sleeve 2 and fixed block 1 and fits closely that first sleeve 2 is close to fixed There is the groove 5 of perforation 2 side wall of first sleeve on the side wall of block 1, lower module 4 can be moved on fixed block 1 through groove 5;

Have multiple radial on 3 inner wall of second sleeve and is corresponded with lower module 4 and cross bar moving up and down 25, the inner end of cross bar 25 through 3 inner wall of second sleeve and is located in 3 cavity of second sleeve, is respectively connected with one on each cross bar 25 A vertical bar 6 positioned at 4 lower section of lower module, vertical bar 6 are located in 3 side wall of second sleeve and can move up and down with corresponding cross bar 25, In 3 cavity of second sleeve close to 5 side of groove have one it is vertical and can be around the shaft 7 of own axis;When lower module 4 is located at When in 3 side wall of second sleeve, lower module 4, which presses vertical bar 6, moves down cross bar 25;When lower module 4 is opposite with groove 5, lower module 4 It can be moved on fixed block 1 through groove 5, meanwhile, this lower module 4 is detached from corresponding vertical bar 6, and cross bar 25 drives vertical bar 6 upward It is mobile, at this point, shaft 7 does not contact with cross bar 25 and second sleeve 3 cannot be driven to rotate through cross bar 25;When cope plate 20 is to moving up When dynamic, lower module 4 is moved in second sleeve 3, while lower module 4 drives cross bar 25 to move down reset through vertical bar 6, at this point, Shaft 7 with contacted with this corresponding cross bar 25 of lower module 4 to through cross bar 25 drive second sleeve 3 rotate, when before with groove 5 When lower module 4 after opposite lower module 4 turns to opposite with groove 5, shaft 7 is detached from cross bar 25 before and not energy band Dynamic second sleeve 3 rotates, at this point, lower module 4 later is moved on fixed block 1 through groove 5, when after lower module 4 again After being moved in second sleeve 3, shaft 7 contacts with the corresponding cross bar 25 of lower module 4 later and drives 3 turns of second sleeve It is dynamic.

When in order to realize that lower module 4 is opposite with groove 5, lower module 4 be can be moved on fixed block 1, the second sleeve 3 Multiple and one-to-one first guide groove 8 of lower module 4, the first perforation second outward of guide groove 8 are evenly distributed on upper surface The upper surface of sleeve 3,8 bottom surface of the first guide groove, 5 bottom surface of groove and fixed block 1 is located in same level, and lower module 4 is placed in In corresponding first guide groove 8, the first pressure spring 9 is installed between lower module 4 and second sleeve 3, one end of the first pressure spring 9 is fixed In second sleeve 3, the other end of the first pressure spring 9 is fixed on lower module 4, has water on 5 bottom surface of groove and 1 top surface of fixed block Flat T-slot, two T-slots communicate and are located in same level, and the T-slot on fixed block 1 runs through fixed block 1, lower module 4 Having on lower end surface can be placed in T-slot and can press along the T-block that T-slot moves, when lower module 4 is opposite with groove 5 first Lower module 4 be will push under the action of 9 pressure of spring to close to the movement of the direction of fixed block 1.

In order to realize that lower module 4 can be smoothly moved on fixed block 1 along groove 5, the first sleeve 2 is close to fixed The side of block 1 is vertical plane, and the outer edge surface of fixed block 1 is square, and first sleeve 2 is fitted closely with fixed block 1.

In order to realize that cross bar 25 can move up and down, have on the side wall of the second sleeve 3 it is identical as 25 quantity of cross bar and The second radial guide groove 10, cross bar 25 are placed in corresponding second guide groove 10, and there have on 10 side wall of the second guide groove to be vertical T-type groove, have the T-block being placed in T-type groove on cross bar 25, there are multiple second pressures in cross bar 25 and 10 lower end of the second guide groove The upper end of spring 11, the second pressure spring 11 is fixed on cross bar 25, and the lower end of the second pressure spring 11 is fixed on the lower end of the second guide groove 10 On face, cross bar 25 can the cooperation through T-slot and T-block moved up and down in the second guide groove 10.

In order to realize that vertical bar 6 can move up and down in second sleeve 3, have on 3 side wall of second sleeve multiple under Module 4 corresponds and is located at the pilot hole 26 of 4 lower section of lower module, and the lower end of pilot hole 26 is communicated with the second guide groove 10, erects Bar 6 is placed in corresponding pilot hole 26, and with 26 clearance fit of pilot hole, vertical bar 6 can move up and down along pilot hole 26.

In order to realize that the rotation of shaft 7 can drive second sleeve 3 to rotate through cross bar 25, one is set in the shaft 7 A horizontal turntable 12 that can be rotated with shaft 7 is evenly equipped with multiple driving levers 13 being positioned radially, driving lever 13 and cross bar on turntable 12 25 lower end can be located in same level, and the outer end of driving lever 13 is located at 3 inside of second sleeve, when lower module 4 is located at second set When on cylinder 3, lower module 4 presses vertical bar 6 and cross bar 25 is driven to move down, and the lower end of cross bar 25 and driving lever 13 are located at same level On, driving lever 13 is rotated with shaft 7, second sleeve 3 can be driven to rotate through cross bar 25.

In order to realize that lower module 4 can be moved into second sleeve 3 when cope plate 20 moves up, the first set There is a vertical plate 14 in the groove 5 of cylinder 2, respectively has a horizontal T-type recessed on 2 groove 5 of first sleeve and 1 upper surface of fixed block Slot, two horizontal T-type grooves communicate, and have the T-block being placed in T-type groove on vertical plate 14, vertical plate 14 can be along T-type through T-block Groove is mobile, is connected with first rope 15 on vertical plate 14, there is first plate an of fixation and level above cope plate 20 16, there are two upright bar 17 of the lower end between the first plate 16 and cope plate 20 on the first plate 16, two upright bars 17 are located at It is above second sleeve 3 and symmetrical about fixed block 1, there is the T-slot of up and down direction in upright bar 17, is placed in T-slot in T-slot The first sliding block 18, the first sliding block 18 can move up and down along T-slot, and a third is equipped between the first sliding block 18 and T-slot Pressure spring 19, the upper end of third pressure spring 19 are fixed on upright bar 17T type groove upper surface, and it is sliding that the lower end of third pressure spring 19 is fixed on first On block 18, cope plate 20 may pass through upright bar 17 and can be moved up and down along upright bar 17 and cope plate 20 can not pass through the first sliding block 18, The upper end of first rope 15 is fixed on the first sliding block 18, and the other end of the first rope 15 is fixed on the first sliding block 18, when upper When template 20 moves up, the first sliding block 18 can be driven to move up, when the first sliding block 18 moves up, the first rope can be pulled 15 move up, since upright bar 17 is located at the outside of vertical plate 14, so the first rope 15 will pull vertical plate 14 to far from fixed block 1 Direction it is mobile, when thus cope plate 20 moves up, lower module 4 can be moved to second to the direction far from fixed block 1 On sleeve 3.

In order to realize the demand for being able to satisfy more multi-process, the second sleeve 3, first sleeve 2 and lower module 4 are formed Rotating unit can be set as needed multiple, rotating unit is evenly arranged on around fixed block 1, when in use, can be according to reality It needs, controls the revolving speed of shaft 7 in each rotating unit, so that controlling lower module 4 in each rotating unit enters fixed block 1 Time sequencing is moved on fixed block 1 without other lower modules 4, as a result, may be used when so that each lower module 4 entering fixed block 1 As needed, so that whole device meets the needs of more multi-process.

The present invention before the use, adjusts position of the second sleeve 3 in first sleeve 2, and adjust driving lever 13 first Length, so that driving lever 13 is separated with a upper cross bar 25, and driving lever 13 can not continue when lower module 4 is moved to opposite with groove 5 First sleeve 2 is driven to rotate through cross bar 25, it is adjustable if multiple groups are arranged in the rotating unit that first sleeve 2 and second sleeve 3 form The revolving speed of shaft 7 in whole each rotating unit adjusts the sequence that each rotating unit or more module 4 enters fixed block 1, so that Only one each lower module 4 enters on fixed block 1.

It is worth noting that in the present apparatus before use, can be by the knot in fixed block 1 and first sleeve 2 and first sleeve 2 Structure is mounted in lower template 21, and the lower template 21 is lower template 21 conventional in stamping device, the cope plate of the foregoing description 20 be also the cope plate 20 in stamping device, may be provided with multiple vertical guide posts 22 between cope plate 20 and lower template 21, leads The upper end of column 22 is located at 20 top of cope plate, and first plate 16 is fixed on the guide post 22 of 20 top of cope plate, upper mold Plate 20 is moved up and down along guide post 22, to facilitate installation, 2 lower end surface of first sleeve can be a level and have thickness Plane, plane penetrate through first sleeve 2 not, and there is vertical positioning through hole up and down in the side in plane close to groove 5 24, shaft 7 is through positioning through hole 24 and upper end is located above the plane, is set with rolling bearing, rolling bearing in shaft 7 Outer end is fixed on positioning through hole 24, and shaft 7 can be rotated around bearing, in order to guarantee that second sleeve 3 can be around own axis, institute Rolling bearing is installed, second sleeve 3 can be rotated around rolling bearing between 2 inner wall of 3 outer wall of second sleeve stated and first sleeve.

In the use of the present invention, the lower module 4 of different processes is mounted on according to the sequence that lower module 4 enters fixed block 1 In first guide groove 8 of second sleeve 3, workpiece to be processed is placed on the lower module 4 of the first procedure, shaft 7 is by motor It drives, is constantly in the state of rotation, the rotation of shaft 7 can drive turntable 12 and driving lever 13 while rotate, and driving lever 13 rotates can be through Cross bar 25 drives second sleeve 3 to rotate, and when lower module 4 is turned to groove 5 to clock synchronization, lower module 4 can be in the work of the first pressure spring 9 Mobile with the lower direction to close fixed block 1, lower module 4 can be moved on fixed block 1 through groove 5, can when lower module 4 is mobile It drives vertical plate 14 to be moved on fixed block 1, when the lower module 4 opposite with groove 5 removes second sleeve 3, is located at this lower module 4 The cross bar 25 of lower section moves up under the action of the second pressure spring 11 along the second guide groove 10, and cross bar 25 drives vertical bar 6 to moving up It moves so that the upper end of vertical bar 6 is placed in above 8 bottom of the first guide groove, in order to enable being again introduced into the first guide groove 8 in lower module 4 When, vertical bar 6 does not interfere the movement of lower module 4, and 6 upper end of vertical bar is low inside and high outside inclined-plane, after vertical bar 6 moves up, Concordant with the first guide groove 8 on the outside of inclined-plane, cross bar 25 is not located in the same horizontal plane with driving lever 13, and when lower module 4 turns to When opposite with groove 5, the cross bar 25 that driving lever 13 is rotated with driven first sleeve 2 is mutually disengaged, and disengaging herein is same water The disengaging of length direction in plane, because shaft 7 is the bias for second sleeve 3 close to 5 direction of groove, During shaft 7 drives driving lever 13 to rotate, driving lever 13 is to be gradually distance from for shaft 7, and the driving lever of other positions 13 do not contact with cross bar 25, and second sleeve 3 stops operating at this time, in order to guarantee before lower module 4 removes second sleeve 3, the Two sleeves 3 stop operating, and the driving lever 13 preferably one, guaranteeing will not moment and cross after driving lever 13 and cross bar 25 are detached from Bar 25 is contacted again.

After lower module 4 is moved on fixed block 1, cope plate 20 is moved down along guide post 22, on 20 lower end surface of cope plate The formed punch 23 being located at right above fixed block 1 is installed, cope plate 20 drives formed punch 23 to move down, and carries out the to parts to be processed The punching press of one process, after completing the process, cope plate 20 is moved up, and cope plate 20, which moves up, can initially pass through under upright bar 17 Portion drives the first sliding block 18 to move up along upright bar 17 later, and the first sliding block 18, which moves up, can drive the upper of the first rope 15 End moves up, and the first rope 15 can pull vertical plate 14 mobile to the direction far from fixed block 1, and 14 movement of vertical plate can push lower die Block 4 is mobile, and the first pressure spring 9 is compressed, and when the first sliding block 18 moves up, may make that third pressure spring 19 is compressed, When lower module 4 is moved in second sleeve 3, the upper end of vertical bar 6 can be contacted, since the upper surface of vertical bar 6 is outer low and inner high Inclined-plane, so can gradually make vertical bar 6 move down along pilot hole 26, vertical bar 6, which moves down, will push cross bar 25 along the second guiding Slot 10 moves down, so that the second pressure spring 11 is compressed, cross bar 25 and driving lever 13 are again positioned in same level, 7 band of shaft Dynamic driving lever 13 rotates, and second sleeve 3 can be driven to rotate through the cross bar 25 of this 4 lower section of lower module, under the rotation of second sleeve 3 drives Module 4 rotates, and when the lower module 4 of next process turns to opposite with groove 5, driving lever 13 is mutually disengaged with cross bar 25 again, Second sleeve 3 stops operating, and the workpiece to be processed that upper process is completed is placed on this lower module 4, and cope plate 20 moves down, First sliding block 18 moves down under the action of third pressure spring 19, so that the first rope 15 is released, lower module 4 pushes vertical plate 14 It is moved on fixed block 1 through groove 5, cope plate 20 continues to move down, and the processing of the second step is carried out to workpiece, so past It is multiple, it is finished until workpiece is processed.

In order to which in process, the position of lower module 4 can be fixed, mountable two front and backs in the front and back side of fixed block 1 Symmetrical gripping block, gripping block may be driven device driving and be moved forward and backward on fixed block 1, mountable displacement sense on fixed block 1 Device, such as infrared ray are answered, when lower module 4 is moved to 1 middle part of fixed block, may be displaced sensing device triggering driving device, It is mobile to direction close to each other to drive former and later two gripping blocks, and clamps lower module 4, so that 4 position of lower module is fixed, when After completing the process, cope plate 20 rises, and displacement sensing device triggering driving device driving gripping block is in the direction away from each other It is mobile.

It, can be according to need when process to be processed is more, and 4 quantity of lower module in a second sleeve 3 is unable to satisfy demand Second sleeve 3 is multiple along the setting of 1 surrounding of fixed block with structure composed by first sleeve 2, it adjusts each lower module 4 and enters The time of groove 5 and sequence, so that the lower module 4 in each second sleeve 3 can be moved on fixed block 1 by groove 5, and It is interference-free between moving it.

The present invention is by shaft 7, second sleeve 3, and the mating reaction of cross bar 25, driving lever 13 is, it can be achieved that between second sleeve 3 The rotation of having a rest property, when lower module 4 is opposite with groove 5, lower module 4 is moved on fixed block 1, and second sleeve 3 does not rotate, Ke Yishi Now in process, second sleeve 3 does not rotate, and substantially increases the safety of process.

The present invention is moved on fixed block 1 by 4 intermittence of multiple lower modules in second sleeve 3, can be made one Multistage manufacturing processes are carried out to complex parts in a device, artificial components to be processed mobile over long distances is saved, adds to can be improved Work efficiency rate reduces the labor intensity of worker.

The present invention moves up and down the linkage mobile with the rotation of shaft 7 and lower template 21 by cope plate 20, so that entire dress The action process set is compact, so that can be realized and be moved in second sleeve 3 in lower module 4, staff can using more convenient Parts to be processed immigration is moved down into process, to increase the safety of whole device, the generation of accident can be greatly reduced.

The present invention passes through the cooperation of formed punch 23 and lower module 4, so that in process, the parts to be processed of each process All in the same position of whole device, can avoid in process, to greatly reduce inferior as caused by stress inclination The generation of product.

Operation of the present invention is simple, high in machining efficiency, securely and reliably, multi-process complex parts can be processed, saves space.

Present inventive concept is novel, clever structure, it is practical, it can be achieved that multi-process complex parts processing.

Claims (8)

1. complex parts multistation process units, including a horizontal fixed block (1), which is characterized in that the one of fixed block (1) There are a vertical placement and non-rotatable first sleeve (2) in side, is set with one and first sleeve (2) in first sleeve (2) Second sleeve (3) that is coaxial and being rotated about axis, second sleeve (3) side wall inner periphery be evenly equipped with it is multiple can be with second sleeve (3) lower module (4) rotated, lower module (4) can contact with first sleeve (2) inner wall, first sleeve (2) and fixed block (1) it Between face contact and to fit closely, first sleeve (2) has perforation first sleeve (2) side on the side wall of fixed block (1) The groove (5) of wall, lower module (4) can be moved on fixed block (1) through groove (5);
Have multiple radial on described second sleeve (3) inner wall and is corresponded with lower module (4) and cross bar moving up and down (25), the inner end of cross bar (25) through second sleeve (3) inner wall and is located in second sleeve (3) cavity, on each cross bar (25) It is respectively connected with the vertical bar (6) being located at below lower module (4), vertical bar (6) is located in second sleeve (3) side wall and can be with correspondence Cross bar (25) move up and down, in second sleeve (3) cavity close to groove (5) side have one it is vertical and can be around own axes turn Dynamic shaft (7);When lower module (4) is located in second sleeve (3) side wall, lower module (4), which presses vertical bar (6), makes cross bar (25) It moves down;When lower module (4) and groove (5) are opposite, lower module (4) can be moved on fixed block (1) through groove (5), meanwhile, this Lower module (4) and corresponding vertical bar (6) are detached from, and cross bar (25) drives vertical bar (6) to move up, at this point, shaft (7) not with cross bar (25) it contacts and second sleeve (3) rotation cannot be driven through cross bar (25);When cope plate (20) moves up, lower module (4) It is moved in second sleeve (3), while lower module (4) drives cross bar (25) to move down reset through vertical bar (6), at this point, shaft (7) it contacts with cross bar (25) corresponding with this lower module (4) to drive second sleeve (3) rotation through cross bar (25), when before When lower module (4) with groove (5) after opposite lower module (4) turns to opposite with groove (5), shaft (7) with before Cross bar (25) is detached from and second sleeve (3) cannot be driven to rotate, at this point, lower module (4) later is moved to fixation through groove (5) On block (1), when after lower module (4) again move into second sleeve (3) after, shaft (7) and lower module (4) later Corresponding cross bar (25) contacts and second sleeve (3) is driven to rotate.
2. complex parts multistation process units according to claim 1, which is characterized in that second sleeve (3) upper surface On be evenly distributed in multiple with lower module (4) one-to-one first guide groove (8), the first guide groove (8) penetrates through second outward The upper surface of sleeve (3), the first guide groove (8) bottom surface, groove (5) bottom surface and fixed block (1) is located in same level, lower die Block (4) is placed in corresponding first guide groove (8), is equipped between lower module (4) and second sleeve (3) the first pressure spring (9), the One end of one pressure spring (9) is fixed on second sleeve (3), and the other end of the first pressure spring (9) is fixed on lower module (4), groove (5) there is horizontal T-slot on bottom surface and fixed block (1) top surface, two T-slots communicate and are located in same level, fixed T-slot on block (1) runs through fixed block (1), and having on lower module (4) lower end surface can be placed in T-slot and can move along T-slot T-block.
3. complex parts multistation process units according to claim 1, which is characterized in that the first sleeve (2) Side close to fixed block (1) is vertical plane, and the outer edge surface of fixed block (1) is square, first sleeve (2) and fixed block (1) it fits closely.
4. complex parts multistation process units according to claim 1, which is characterized in that the second sleeve (3) Side wall on have second guide groove (10) identical and radial with cross bar (25) quantity, cross bar (25) is placed in corresponding second guiding In slot (10), there is vertical T-type groove on the second guide groove (10) side wall, cross bar has the T-type being placed in T-type groove on (25) There are multiple second pressure springs (11) in block, cross bar (25) and the second guide groove (10) lower end, and the upper end of the second pressure spring (11) is fixed on cross On bar (25), the lower end of the second pressure spring (11) is fixed on the lower end surface of the second guide groove (10), cross bar (25) can through T-slot with The cooperation of T-block moves up and down in the second guide groove (10).
5. complex parts multistation process units according to claim 1, which is characterized in that the second sleeve (3) There are multiple pilot holes (26) for corresponding with lower module (4) and being located at below lower module (4) on side wall, under pilot hole (26) End is communicated with the second guide groove (10), and it is interior that vertical bar (6) is placed in corresponding pilot hole (26), and with pilot hole (26) clearance fit.
6. complex parts multistation process units according to claim 1, which is characterized in that covered in the shaft (7) The horizontal turntable (12) that can be rotated with shaft (7) equipped with one is evenly equipped with multiple driving levers being positioned radially on turntable (12) (13), the lower end of driving lever (13) and cross bar (25) can be located in same level, and the outer end of driving lever (13) is located at second sleeve (3) Inside, when lower module (4) is located on second sleeve (3), lower module (4) presses vertical bar (6) and cross bar (25) is driven to move down, The lower end and driving lever (13) of cross bar (25) are located in same level.
7. complex parts multistation process units according to claim 1, which is characterized in that the first sleeve (2) Groove (5) in have a vertical plate (14), respectively have on first sleeve (2) groove (5) and fixed block (1) upper surface one it is horizontal T-type groove, two horizontal T-type grooves communicate, and have the T-block being placed in T-type groove on vertical plate (14), vertical plate (14) is through T-type Block can be moved along T-type groove, be connected with first rope (15) on vertical plate (14), have above cope plate (20) fixation and Horizontal the first plate (16), there are two lower ends between the first plate (16) and cope plate (20) on the first plate (16) Upright bar (17), two upright bars (17) are located above second sleeve (3) and about fixed block (1) symmetrically, have in upright bar (17) up and down The T-slot in direction has the first sliding block (18) being placed in T-slot in T-slot, and the first sliding block (18) can be moved up and down along T-slot, One third pressure spring (19) is installed, the upper end of third pressure spring (19) is fixed on upright bar between the first sliding block (18) and T-slot (17) on T-slot upper surface, the lower end of third pressure spring (19) is fixed on the first sliding block (18), and cope plate (20) may pass through upright bar (17) and can be moved up and down along upright bar (17) and cope plate (20) can not pass through the first sliding block (18), the upper end of the first rope (15) It is fixed on the first sliding block (18), the other end of the first rope (15) is fixed on the first sliding block (18).
8. complex parts multistation process units according to claim 1, which is characterized in that the first sleeve (8), Second sleeve (9) can be set as needed multiple with rotating unit composed by lower module (14), and rotating unit is evenly arranged on fixation Around block (6).
CN201810364880.9A 2018-04-23 2018-04-23 Complex parts multistation process units CN108555102B (en)

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CN201810364880.9A CN108555102B (en) 2018-04-23 2018-04-23 Complex parts multistation process units

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AU2004201313A1 (en) * 2003-03-31 2004-10-28 Ortho-Clinical Diagnostics, Inc. Analyzer having a stationary multifunction probe
CN203845365U (en) * 2014-05-21 2014-09-24 成都中牧生物药业有限公司 Ampoule controlled-distance conveying mechanism
CN105621071A (en) * 2014-10-31 2016-06-01 泰科电子(上海)有限公司 Automatic material preparation system
CN206373611U (en) * 2017-01-16 2017-08-04 江门市金力高锁业有限公司 A kind of multistation catch drilling, tooth machining unit
CN107377825A (en) * 2017-06-29 2017-11-24 上海慧高精密电子工业有限公司 Wire multistation flattens forming jig

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10180379A (en) * 1996-12-26 1998-07-07 Komatsu Ltd Feed device of transfer feeder
AU2004201313A1 (en) * 2003-03-31 2004-10-28 Ortho-Clinical Diagnostics, Inc. Analyzer having a stationary multifunction probe
CN203845365U (en) * 2014-05-21 2014-09-24 成都中牧生物药业有限公司 Ampoule controlled-distance conveying mechanism
CN105621071A (en) * 2014-10-31 2016-06-01 泰科电子(上海)有限公司 Automatic material preparation system
CN206373611U (en) * 2017-01-16 2017-08-04 江门市金力高锁业有限公司 A kind of multistation catch drilling, tooth machining unit
CN107377825A (en) * 2017-06-29 2017-11-24 上海慧高精密电子工业有限公司 Wire multistation flattens forming jig

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