CN203695458U - Directional spring sorting device - Google Patents

Directional spring sorting device Download PDF

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Publication number
CN203695458U
CN203695458U CN201420010166.7U CN201420010166U CN203695458U CN 203695458 U CN203695458 U CN 203695458U CN 201420010166 U CN201420010166 U CN 201420010166U CN 203695458 U CN203695458 U CN 203695458U
Authority
CN
China
Prior art keywords
charging
slide block
spring
cam protractor
test rod
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201420010166.7U
Other languages
Chinese (zh)
Inventor
施红卫
张钜铨
陈茂兴
谷纪峰
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NINGBO FATO AUTOMATION TECHNOLOGY Co Ltd
Original Assignee
NINGBO FATO AUTOMATION TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NINGBO FATO AUTOMATION TECHNOLOGY Co Ltd filed Critical NINGBO FATO AUTOMATION TECHNOLOGY Co Ltd
Priority to CN201420010166.7U priority Critical patent/CN203695458U/en
Application granted granted Critical
Publication of CN203695458U publication Critical patent/CN203695458U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

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Abstract

The utility model discloses a spring selecting device and particularly relates to a directional spring sorting device. The directional spring sorting device comprises a vibrating disk which is arranged on a work table and used for feeding, and a cam graduator driven by a power device, wherein one side surface of the cam graduator is provided with a charging rotary disk which is driven to rotate intermittently by the cam graduator; charging holes are uniformly formed in the charging rotary disk; incoming springs are fed into the charging holes by the vibrating disk; the cam graduator is provided with detection devices cooperating with the cam graduator and corresponding to the charging holes; the work table is provided with a pneumatic taking device; the feed end of the pneumatic taking device corresponds to the charging hole detected by one detection device. The vibrating disk, the power device, the detection devices and the pneumatic taking device are all controlled by a control device. According to the directional spring sorting device, the trouble of manual spring selection is avoided, the efficiency of directional spring sorting is enhanced greatly and the installation efficiency of atomizer springs is increased.

Description

The directed sorting unit of spring
Technical field
The utility model relates to a kind of spring selecting arrangement, refers in particular to the directed sorting unit of a kind of spring.
Background technology
Spring all can be installed in existing hand sprayer, and still, these springs are all some specific springs, that is, as shown in Figure 1, this type of spring is all that a port is conducting, and another port is sealing; But by spring fitting in manual sprayer time, be to need the directionality of specifying, because the bossing that has a part in sprayer is need to be inserted in the port of spring conducting; And existing mounting spring often adopts artificial mode to carry out the installation of streamline, be so to need numerous workmans, and for enterprise, assemble in artificial mode, not only cost is high, and, efficiency is low, is difficult to adapt to the needs of short time assembling processing in enormous quantities.
Utility model content
The technical problem that one, will solve
The purpose of this utility model is for the existing the problems referred to above of prior art, and spy provides a kind of structure ingenious rationally, can automatic sorting spring and by it according to same direction material stock, and conveniently carry out the directed sorting unit of spring of automatic assembling.
Two, technical scheme
For solving the problems of the technologies described above, the directed sorting unit of the utility model spring, include and be arranged on workbench and for the vibrating disk of feed, wherein, also include the cam protractor being driven by power set, above-mentioned cam protractor one side is provided with by cam protractor and drives the charging rotating disk that carries out intermittent rotary, above-mentioned charging rotating disk is provided with the charging hole that decile distributes, above-mentioned vibrating disk is input to supplied materials in charging hole, checkout gear with its co-ordination is installed on above-mentioned cam protractor, this checkout gear is corresponding with charging hole, pneumatic take out device is installed on above-mentioned workbench, the feed end of this pneumatic take out device with after testing device detect after charging hole corresponding, above-mentioned vibrating disk, power set, checkout gear and pneumatic take out device all have control device control.
As optimization, above-mentioned cam protractor is provided with one and covers the installing rack that turns material rotating disk top, and above-mentioned pneumatic take out device feed end is fixed on installing rack, corresponding with two charging holes that are connected respectively.
As optimization, above-mentioned detection device includes the slide block that is arranged on the slide rail at cam protractor top and is slidably matched with it, this slide block is provided with a test rod that can move on slide block, above-mentioned test rod one end also can extend into and turn in material hole through installing rack, between above-mentioned slide block and installing rack, be provided with back-moving spring I, the two ends of this back-moving spring I are against respectively on installing rack and slide block, on above-mentioned slide block, be also provided with for detection of the sense switch of detection piece that is arranged on test rod one end, test rod middle part is provided with a fixed block, between this fixed block and slide block, be provided with the back-moving spring II being socketed on test rod, follow slide block when moving and being subject to resistance at test rod, test rod remains static with respect to slide block, above-mentioned cam protractor one side is provided with and promotes the fork that slide block moves, and this fork drives its work by cam protractor.
As optimization, above-mentioned pneumatic take out device includes inflatable body and material storing mechanism, and above-mentioned inflatable body includes one end and is fixed on installing rack and the gas blow pipe relative with charging hole, and another piece end of gas blow pipe is connected with source of the gas by magnetic valve; Above-mentioned material storing mechanism includes one end and is fixed on installing rack and the discharge nozzle corresponding with charging hole, the mouth of pipe of above-mentioned discharge nozzle is coaxially corresponding with the mouth of pipe of gas blow pipe, the other end of above-mentioned discharge nozzle is connected with feed block, feed block one side joint has storing pipe, in above-mentioned feed block, be connected to two discharge nozzles, in feed block, be provided with the passage of " people " font, above-mentioned storing pipe and discharge nozzle join with passage respectively.
As optimization, above-mentioned storing pipe is provided with the detector of whether completely expecting for detection of in storing pipe, and this detector is connected with control device.
As optimization, above-mentioned cam protractor one side is provided with the charging seat joining with vibrating disk, and this charging seat below is provided with by cam protractor and drives the workpiece locating piece moving up and down, and on above-mentioned workpiece locating piece piece, is provided with the gear pin for stoping charging.
Three, the beneficial effects of the utility model
Can fast and effectively rambling spring in vibrating disk be moved in the charging hole of charging rotating disk, by being used in conjunction with of checkout gear and pneumatic take out device, by being stored in storing pipe according to same direction towards the spring differing, with to be used; The utility model has been exempted hand sorting's trouble, has greatly improved the sorting with directive property spring, has improved the installation effectiveness of sprayer spring.
Brief description of the drawings
Fig. 1 is the existing spring perspective view being installed in sprayer;
Fig. 2 is the directed sorting unit perspective view one of the utility model spring;
Fig. 3 is the directed sorting unit perspective view two of the utility model spring;
Fig. 4 is the directed sorting unit perspective view three of the utility model spring;
Fig. 5 is the cross-sectional view of the utility model checkout gear;
Fig. 6 is the A portion enlarged drawing of Fig. 5.
In figure, 1 is workbench, 2 is vibrating disk, 3 is cam protractor, 4 is power set, 5 is charging rotating disk, 6 is charging hole, 7 is installing rack, 8 is slide rail, 9 is slide block, 10 is back-moving spring I, 11 is back-moving spring II, 12 is sense switch, 13 is test rod, 14 for detecting piece, 15 is fixed block, 16 is fork, 17 is gas blow pipe, 18 is magnetic valve, 19 is discharge nozzle, 20 is storing pipe, 21 is feed block, 22 is charging seat, 23 is workpiece locating piece, 24 is gear pin, 25 is sorting cam, 26 is charging cam, 27 is back-moving spring III, 28 is detector.
Detailed description of the invention
Below in conjunction with accompanying drawing, the directed sorting unit of the utility model spring is described further:
Embodiment one: as shown in Figures 2 to 4, the directed sorting unit of the utility model spring, include and be arranged on workbench 1 and for the vibrating disk 2 of feed, wherein, also include the cam protractor 3 being driven by power set 4, the present embodiment adopts motor to provide power as power source for cam protractor 3, above-mentioned cam protractor 3 one sides are provided with by cam protractor 3 and drive the charging rotating disk 5 that carries out intermittent rotary, above-mentioned charging rotating disk 5 is provided with the charging hole 6 that decile distributes, above-mentioned vibrating disk 2 is input to supplied materials in charging hole 6, specifically, the interior rambling spring of vibrating disk 2 is by the charging hole that is transported to rotating disk 6 one by one, checkout gear with its co-ordination is installed on above-mentioned cam protractor 3, this checkout gear is corresponding with charging hole 6, that is to say, when a spring in vibrating disk 2 be transported to charging hole 6 interior after, cam protractor 3 will drive charging rotating disk 5 station of rotation intermittently, turn to and detect when station when the charging hole 6 of spring is housed, checkout gear will detect the spring in charging hole 6, on above-mentioned workbench 1, pneumatic take out device is installed, the feed end of this pneumatic take out device with after testing device detect after charging hole 6 corresponding, after detection is complete, pneumatic take out device by difference towards spring carry out the pneumatic feeding of different directions, above-mentioned vibrating disk 2, power set 4, checkout gear and pneumatic take out device all have the control of control device (not shown), make the work of coordinating between each device.
Above-mentioned cam protractor 3 is provided with one and covers the installing rack 7 that turns material rotating disk top, and above-mentioned pneumatic take out device feed end is fixed on installing rack 7, corresponding with two charging holes 6 that are connected respectively; For from be transported to by vibrating disk 2 spring in charging hole 6 towards different, pneumatic take out device is two charging holes 6 after after testing by correspondence, to tackle two kinds of different situations in actual reclaiming process.
As shown in Fig. 3 and 6, above-mentioned detection device includes and is arranged on the slide rail 8 at cam protractor 3 tops and the slide block 9 being slidably matched with it, this slide block 9 is provided with a test rod 13 that can move on slide block 9, above-mentioned test rod 13 one end also can extend into and turn in material hole through installing rack 7, between above-mentioned slide block 9 and installing rack 7, be provided with back-moving spring I10, the two ends of this back-moving spring I10 are against respectively on installing rack 7 and slide block 9, on above-mentioned slide block 9, be also provided with for detection of the sense switch 12 of detection piece 14 that is arranged on test rod 13 one end, test rod 13 middle parts are provided with a fixed block 15, between this fixed block 15 and slide block 9, be provided with the back-moving spring II11 being socketed on test rod 13, follow slide block 9 when moving and being subject to resistance at test rod 13, test rod 13 remains static with respect to slide block 9, above-mentioned cam protractor 3 one sides are provided with and promote the fork 16 that slide block 9 moves, and this fork 16 drives its work by cam protractor 3.
Checkout gear is in the middle of practical work process, motor drives cam protractor 3 to do intermittent movement by belt pulley, on above-mentioned cam protractor 3, be provided with the sorting cam 25 coaxial with belt pulley and charging cam 26, the swing of above-mentioned fork 16 is to realize by the rotation of sorting cam 25, above-mentioned slide block 9 is provided with one for the stressed force rod of fork 16, in the time that fork 16 swings, promotes slide block 9 move on slide rail 8 by force rod, and after one-time detection, be by back-moving spring I10, slide block 9 to be resetted,, also the test rod 13 being inserted in charging hole 6 taken out of meanwhile, detect in the process of tested spring at test rod 13, there will be two kinds of situations, , one, when the closed port that is transported to the tested spring in charging hole 6 is during towards test rod 13, along with promoting slide block 9, moves fork 16, test rod 13 is close to tested spring under the drive of slide block 9, in the time that the closed port of tested spring is pushed up in the end of test rod 13, the state of test rod 13 meetings in halting, and back-moving spring II11 by compressed (in actual use, the elastic force of back-moving spring II11 is the elastic force that is less than tested spring, otherwise cannot implement), now, slide block 9 still advances under the promotion of fork 16, in the time that sense switch 12 detects detection piece 14, to send a signal to control device, then, fork 16 stops the promotion to slide block 9, slide block 9 resets under the effect of back-moving spring I10, two, when the openend that is transported to the tested spring in charging hole 6 is during towards test rod 13, test rod 13 moves under the drive of slide block 9, one end of test rod 13 can be inserted in the opening of tested spring, and in whole process, be arranged on detection piece 14 on test rod 13 and can be detected switch 12 and detect.In reclaiming process subsequently, which kind of mode feeding control device can adopt according to the signal deciding after detecting.
As shown in Figure 3, above-mentioned pneumatic take out device includes inflatable body and material storing mechanism, above-mentioned inflatable body includes one end and is fixed on installing rack 7 and the gas blow pipe 17 relative with charging hole 6, another piece end of gas blow pipe 17 is connected with source of the gas by magnetic valve 18, in the present embodiment, have two gas blow pipes 17, respectively corresponding two charging holes 6 after after testing; Above-mentioned material storing mechanism includes one end and is fixed on installing rack 7 and the discharge nozzle 19 corresponding with charging hole 6, and its discharge nozzle 19 has two, and the mouth of pipe of above-mentioned discharge nozzle 19 is coaxially corresponding with the mouth of pipe of gas blow pipe 17; The other end of above-mentioned discharge nozzle 19 is connected with feed block 21, and feed block 21 1 side joints have storing pipe 20, is connected to two discharge nozzles 19 in above-mentioned feed block 21, is provided with the passage of " people " font in feed block 21, and above-mentioned storing pipe 20 and discharge nozzle 19 join with passage respectively; Above-mentioned storing pipe 20 is provided with the detector 28 of whether completely expecting for detection of in storing pipe 20, this detector 28 is connected with control device, in the time that the interior spring to be assembled of storing pipe 20 is too much, detector 28 is just by arriving of detecting, now, just can be to control device transmitted signal, control device quits work a whole control equipment,, stops the sorting to tested spring that is, until number of springs to be assembled is when not enough, control device again control appliance starts.
Corresponding above-mentioned two kinds of testing results, control device meeting Pneumatic automatic-control take out device, concrete which root gas blow pipe 17 feeding of blowing that adopts, and the tested spring of finally obtaining can enter into feed block 21 from discharge nozzle 19, passage by " people " font in feed block 21 is pooled in storing pipe 20, in order to follow-up installing and using.
As shown in Figure 4, above-mentioned cam protractor 3 one sides are provided with the charging seat 22 joining with vibrating disk 2, these charging seat 22 belows are provided with by cam protractor 3 and drive the workpiece locating piece 23 moving up and down, specifically, workpiece locating piece 23 is positioned at above-mentioned charging cam 26 tops, is provided with the gear pin 24 for stoping charging on above-mentioned workpiece locating piece 23; Carry in the process of tested spring at vibrating disk 2, tested spring can slowly accumulate in charging seat 22, and the charging hole 6 of feeding on rotating disk 5 can only once be loaded a tested spring, that is to say, at cam protractor 3 driving charging rotating disk 5 while making intermittent rotary, workpiece locating piece 23 rises under the promotion of charging cam 26, and gear pin 24 now also will be inserted in charging seat 22, stops tested spring to be feeded in the time that charging rotating disk 5 rotates; When charging rotating disk 5 is while being rotated in place, workpiece locating piece 23 loses the top lift of charging cam 26 and falls after rise, and meanwhile, under back-moving spring III27 auxiliary, workpiece locating piece 23 returns to original position, and now, tested spring will be filled in charging hole 6.
The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (6)

1. the directed sorting unit of spring, include and be arranged on workbench and for the vibrating disk of feed, it is characterized in that: also include the cam protractor being driven by power set, described cam protractor one side is provided with by cam protractor and drives the charging rotating disk that carries out intermittent rotary, described charging rotating disk is provided with the charging hole that decile distributes, described vibrating disk is input to supplied materials in charging hole, checkout gear with its co-ordination is installed on described cam protractor, this checkout gear is corresponding with charging hole, pneumatic take out device is installed on described workbench, the feed end of this pneumatic take out device with after testing device detect after charging hole corresponding, described vibrating disk, power set, checkout gear and pneumatic take out device all have control device control.
2. the directed sorting unit of spring according to claim 1, it is characterized in that: described cam protractor is provided with one and covers the installing rack that turns material rotating disk top, described pneumatic take out device feed end is fixed on installing rack, corresponding with two charging holes that are connected respectively.
3. the directed sorting unit of spring according to claim 2, it is characterized in that: described checkout gear includes the slide block that is arranged on the slide rail at cam protractor top and is slidably matched with it, this slide block is provided with a test rod that can move on slide block, described test rod one end also can extend into and turn in material hole through installing rack, between described slide block and installing rack, be provided with back-moving spring I, the two ends of this back-moving spring I are against respectively on installing rack and slide block, on described slide block, be also provided with for detection of the sense switch of detection piece that is arranged on test rod one end, test rod middle part is provided with a fixed block, between this fixed block and slide block, be provided with the back-moving spring II being socketed on test rod, follow slide block when moving and being subject to resistance at test rod, test rod remains static with respect to slide block, described cam protractor one side is provided with and promotes the fork that slide block moves, and this fork drives its work by cam protractor.
4. the directed sorting unit of spring according to claim 2, it is characterized in that: described pneumatic take out device includes inflatable body and material storing mechanism, described inflatable body includes one end and is fixed on installing rack and the gas blow pipe relative with charging hole, and another piece end of gas blow pipe is connected with source of the gas by magnetic valve; Described material storing mechanism includes one end and is fixed on installing rack and the discharge nozzle corresponding with charging hole, the mouth of pipe of described discharge nozzle is coaxially corresponding with the mouth of pipe of gas blow pipe, the other end of described discharge nozzle is connected with feed block, feed block one side joint has storing pipe, in described feed block, be connected to two discharge nozzles, in feed block, be provided with the passage of " people " font, described storing pipe and discharge nozzle join with passage respectively.
5. the directed sorting unit of spring according to claim 4, is characterized in that: described storing pipe is provided with the detector of whether completely expecting for detection of in storing pipe, and this detector is connected with control device.
6. the directed sorting unit of spring according to claim 1, it is characterized in that: described cam protractor one side is provided with the charging seat joining with vibrating disk, this charging seat below is provided with by cam protractor and drives the workpiece locating piece moving up and down, and on described workpiece locating piece piece, is provided with the gear pin for stoping charging.
CN201420010166.7U 2014-01-07 2014-01-07 Directional spring sorting device Withdrawn - After Issue CN203695458U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420010166.7U CN203695458U (en) 2014-01-07 2014-01-07 Directional spring sorting device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420010166.7U CN203695458U (en) 2014-01-07 2014-01-07 Directional spring sorting device

Publications (1)

Publication Number Publication Date
CN203695458U true CN203695458U (en) 2014-07-09

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ID=51045957

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Application Number Title Priority Date Filing Date
CN201420010166.7U Withdrawn - After Issue CN203695458U (en) 2014-01-07 2014-01-07 Directional spring sorting device

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CN (1) CN203695458U (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103752537A (en) * 2014-01-07 2014-04-30 宁波飞图自动技术有限公司 Spring directional sorting unit
CN107013613A (en) * 2016-03-29 2017-08-04 廖景位 One kind orientation resistance gauge
CN112958470A (en) * 2021-02-04 2021-06-15 德州学院 Batch testing device and method for computer keyboards

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103752537A (en) * 2014-01-07 2014-04-30 宁波飞图自动技术有限公司 Spring directional sorting unit
CN103752537B (en) * 2014-01-07 2016-03-02 宁波飞图自动技术有限公司 The directed sorting unit of spring
CN107013613A (en) * 2016-03-29 2017-08-04 廖景位 One kind orientation resistance gauge
CN112958470A (en) * 2021-02-04 2021-06-15 德州学院 Batch testing device and method for computer keyboards

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20140709

Effective date of abandoning: 20160302

C25 Abandonment of patent right or utility model to avoid double patenting