CN100403867C - Feeding track - Google Patents

Abstract

The present invention discloses a feeding track which comprises a guide track and a plurality of material blowing devices, wherein the guide track is provided with an inlet end, an outlet end, and a guide groove which extends from the inlet end to the outlet end; the guide groove is used for containing electronic parts and makes the electronic parts move towards the outlet end; the material blowing devices are positioned on the side edge of the guide track to be used for blowing the electronic parts towards the outlet end. The feeding track of the present invention can achieve the goal that the electronic parts on the guide track are orderly, swimmingly and rapidly conveyed from the inlet end to the outlet end by the blow of the material blowing devices.

Description

Feeding track

Technical field

The present invention relates to the technology of electronic component transmission aspect, particularly a kind of can be with electronic component smooth-going and be sent to the feeding track of an ad-hoc location fast.

Background technology

Jumper switch (jumper), it is a kind of packaged type switch that decides short circuit or open circuit of on circuit board, using, as shown in Figure 1, it is made up of a stitch seat 10 and a jumper cap 12 usually, it is sheathed for jumper cap 12 wherein to have plural stitch 11 on this stitch seat 10, when the user is sheathed on jumper cap 12 wherein on two stitch 11 when forming short circuit, then just can set some system mode, this jumper switch 1 the most common being applied on motherboard and the expansion board.

Fig. 1 is the jumper switch 1 of the single gage needle runners 10 of a kind of tool, and Fig. 2 then is the jumper switch 1 of the double gage needle runners of a kind of tool 10a.

At present before being assembled into jumper switch 1 on the circuit board; usually can be earlier this jumper cap 12 be sheathed on the wherein two long stitch 11 of these stitch seat 10 tops, and then stitch 11 assemblings that these stitch seat 10 bottoms are short are welded on this circuit board with manual type.Yet, because the volume of this jumper switch 1 is less, and this jumper switch 1 is also inequality according to the position of the stitch 11 of its jumper cap 12 sockets of difference of assembling position, therefore this jumper cap 12 is socketed on the two suitable stitch 11 one by one with manual type, can cause the waste of plenty of time and manpower, and make operating efficiency very low.

Summary of the invention

Purpose of the present invention provides a kind of feeding track, is used to solve the problem that the jumper switch assembling is inconvenient, waste time and energy, and the present invention designs a kind of feeding track with automatic assembly machine of jumper switch of feeding device and plug assembly, can promote packaging efficiency.

To achieve these goals, the invention provides a kind of feeding track, comprising:

One guide rail has an arrival end, a port of export and one and extends to the guide groove of the port of export by arrival end, and described guide groove is used to hold electronic component and moves therein; And

At least one glassware that blows is positioned at the side of described guide rail, is used for the electronic component of described guide groove is blown to the described port of export;

One sensing apparatus comprises a reflector and a receiver, lays respectively at the guide rail both sides;

Wherein, have a perforation on this guide rail, the light of reflector emission passes through this perforation, and is received by receiver;

This feeding track also comprises a direction screening plant, and this direction screening plant comprises:

One first pin is used for electronic component is stopped at the detection position;

One second pin is used for keeping when detecting the electronic component of some to be positioned at this detection position;

One stitch detector, whether the direction that is used to detect the electronic component of judging this detection position is correct, and distance is longer when the stitch position of the detected electronic component of described stitch detector, and then this electronic component is in the right direction; Distance is shorter when the stitch position of the detected electronic component of described stitch detector, then the anisotropy of this electronic component; And

One clamping device is used for the electronic component of anisotropy is pressed from both sides back feeding device by the detection position.

Above-mentioned feeding track is used to link a feeding device and a plug assembly, wherein,

Described arrival end is for what open, and the described port of export is what seal;

Described feeding device is used to hold described electronic component, and described electronic component is transported to described arrival end successively;

Described plug assembly is used for the electronic component of the described port of export is picked up, and assembles with other electronic component.

Above-mentioned feeding track wherein, also comprises an electromagnetic shaker, is used to order about this guide rail and is shaken fast to port of export direction by arrival end, makes that the electronic component in the guide groove moves to the port of export.

Above-mentioned feeding track wherein, when described receiver does not receive the light that reflector is launched, is then controlled this feeding device and is stopped the action that electronic component is sent into by the guide rail arrival end.

Above-mentioned feeding track wherein, when described receiver receives the light that reflector is launched, is then controlled this feeding device and is continued electronic component is sent into by the guide rail arrival end.

Above-mentioned feeding track, wherein, described guide rail also comprises a press material structure, is arranged at second electronic component top of this port of export with having pressure.

Above-mentioned feeding track, wherein, this guide rail also includes a briquetting, is positioned at this top of guide slot, is arranged at the top of electronic component in the guide groove with having pressure.

Above-mentioned feeding track, wherein, this electronic component is the jumper cap of jumper switch.

Above-mentioned feeding track, wherein, this electronic component is the double gage needle runners of jumper switch.

Feeding track of the present invention can be by electromagnetic shaker vibrations and blow under the double action of brushing of glassware, reach and deliver to the port of export by arrival end fast with the electronic component on the guide rail is smooth-going successively, can significantly increase operating efficiency.

The present invention is described in detail below in conjunction with drawings and Examples.

Description of drawings

Fig. 1 is the three-dimensional exploded view of single jumper switch;

Fig. 2 is the three-dimensional exploded view of double jumper switch;

Fig. 3 is a kind of schematic perspective view of automatic assembly machine of jumper switch;

Fig. 4 is the schematic perspective view of the present invention's first feeding track;

Fig. 5 is the action schematic diagram of the present invention's first feeding track;

Fig. 6 is the schematic perspective view that the present invention is used for transmitting second feeding track of single gage needle runners;

Fig. 7 is the schematic perspective view that the present invention is used for transmitting second feeding track of double gage needle runners;

Fig. 8 is the action schematic diagram of the double gage needle runners of correct direction through direction screening plant of the present invention;

Fig. 9 is the action schematic diagram of the double gage needle runners of the opposite way round through direction screening plant of the present invention; And

To be clamping device of the present invention press from both sides the double gage needle runners of anisotropy to the action schematic diagram of stitch seat feeding device to Figure 10.

Wherein, Reference numeral:

1 jumper switch, 10 stitch seats

The double gage needle runners of 10a

11 stitch, 12 jumper cap

2 automatic assemblings, 20 boards

21 jumper cap feeding devices, 22 stitch base feeding devices

23 plug assemblys, 3 first feeding tracks

30 guide rails, 300 arrival ends

301 ports of export, 302 guide grooves

303 blocks, 304 briquettings

305 press material structures, 31 electromagnetic shakers

32 blowing devices, 33 sensing apparatus

34 Short Item sensing apparatus, 330 reflectors

332 perforation of 331 receivers

4 second feeding tracks, 40 guide rails

402 guide grooves, 41 electromagnetic shakers

42 blow glassware 43 sensing apparatus

44 Short Item sensing apparatus 4a, second feeding track

40a guide rail 402a guide groove

5 direction screening plants, 50 first pins

51 second pins, 52 stitch detectors

53 clamping devices

Embodiment

As shown in Figure 3, it is a kind of automatic assembly machine of jumper switch 2 that is used for automatically jumper cap 12 grafting being combined on the stitch seat 10, this automatic assembly machine of jumper switch 2 is provided with a jumper cap feeding device 21, a stitch seat feeding device 22, a plug assembly 23 and feeding track of the present invention on a board 20, and this feeding track includes one first feeding track 3 and one second feeding track 4, wherein:

Jumper cap feeding device 21 supplies ccontaining a plurality of jumper cap 12, and the jumper cap 12 of this storehouse is transported to feeding track 3 successively;

Stitch seat feeding device 22 supplies ccontaining a plurality of stitch seats 10, and the stitch seat 10 of this storehouse is transported to feeding track 4 successively;

First feeding track 3 is connected between jumper cap feeding device 21 and plug assembly 23, jumper cap 12 is sent to successively first assembled position of this plug assembly 23;

Second feeding track 4 is connected between this stitch seat feeding device 22 and this plug assembly 23, stitch seat 10 is sent to successively second assembled position of this plug assembly 23;

Plug assembly 23, automatically the jumper cap 12 of first feeding track 3 first assembling position that is sent to is plugged in second feeding track 4 and is sent on the wherein two long stitch 11 of stitch seat 10 of second assembling position, and the jumper switch of again this assembling being finished 1 is transported to a collection place person by this second assembling position.

As shown in Figure 4, first feeding track 3 that is used to transmit jumper cap 12 of the present invention, it comprises:

One guide rail 30, has an arrival end 300, one port of export 301 and one extends to the guide groove 302 of the port of export 301 by arrival end 300, wherein this arrival end 300 is open shape and is connected with jumper cap feeding device 21, and this port of export 301 comprises a block 303, therefore be closed, and extend to plug assembly 23 belows, and this guide groove 302 can move therein for jumper cap 12, and this guide groove 302 has a shaft-like press material structure 305 in the position of the port of export 301 corresponding second jumper cap 12, make that when plug assembly 23 pressed from both sides out first jumper cap 12, this second jumper cap 12 can be subjected to stopping of this press material structure 305 and can not taken out of thereupon;

One electromagnetic shaker 31 is positioned at this guide rail 30 bottoms, orders about this guide rail 30 and is shaken fast to the port of export 301 directions by arrival end 300;

One blows glassware 32, is positioned at this guide rail 302 sides, and the jumper cap in the guide groove 302 12 is blown to the port of export 301;

One sensing apparatus 33 has a reflector 330 and a receiver 331, lays respectively at this guide rail 302 both sides, is used for detecting the jumper cap 12 on the guide rail 302;

One Short Item sensing apparatus 34 is positioned at this port of export 301 sides, when the jumper cap 12 on detecting this guide rail 30 lacks material, promptly controls the assembling start that this plug assembly 23 stops jumper switch 1.

As can be seen from Figure 5, these guide groove 302 tops have the top that a briquetting 304 is arranged at jumper cap 12 with having pressure in addition, to prevent that blowing glassware 32 blows out guide groove 302 with this jumper cap; In addition, has the perforation 332 that to pass through for the detection light of sensing apparatus 33 on this guide rail 30, when the detection light that reflector 330 sent of this sensing apparatus 33 is blocked by jumper cap 12, then this receiver 331 promptly can't receive this detection light, expression has jumper cap 12 on the guide rail 30, controls this jumper cap feeding device 21 this moment and stops action that jumper cap 12 is sent into by the arrival end 300 of guide rail 30; Otherwise when this receiver 331 receives this detection light, promptly represent oneself no jumper cap 12 on the guide rail 30, then control these jumper cap feeding device 21 starts jumper cap 12 is continued to be fed in this guide rail 30 this moment.

As shown in Figure 6, it is second feeding track 4 that is used to transmit single gage needle runners 10, the structure of this second feeding track 4, to make flowing mode roughly identical with this first feeding track 3, comprise a guide rail 40, an electromagnetic shaker 41, a sensing apparatus 43 and a Short Item sensing apparatus 44, its difference is that these second feeding track, 4 one sides are provided with a plurality of glasswares 42 that blow, and this second feeding track 4 is connected between this stitch seat feeding device 22 and plug assembly 23, and the guide groove 402 on this guide rail 40 is the T font, is used for for single gage needle runners 10 in wherein slippage.

As shown in Figure 7, the second feeding track 4a that is used to transmit double gage needle runners 10a of the present invention, the structure of this second feeding track 4a, it is roughly identical with second feeding track 4 that transmits single gage needle runners 10 to make flowing mode, its difference is that the guide groove 402a width of the second feeding track 4a that this transmits double gage needle runners 10a is bigger, cooperate Fig. 2 to find out, on this double gage needle runners 10a, one row has three stitch 11, another row then only has two stitch 11 in both sides, and the Assembly Action of this plug assembly 23 is fixed, therefore this double gage needle runners 10a makes jumper cap 12 cover mistakes because of anisotropy when avoiding assembling, so between this stitch seat feeding device 22 and guide rail 40a, have a direction screening plant 5, be used for screening for double gage needle runners 10a with anisotropy.

As shown in Figure 8, this direction screening plant 5 includes one first pin 50, one second pin 51 and a stitch detector 52, wherein this first pin 50 is used for double gage needle runners 10a stopped and stops at the detection position, this second pin 51 is used to stop that the double gage needle runners 10a at rear, detection position continues to enter this detection position, so that keep the double gage needle runners 10a of a predetermined quantity to be positioned on this detection position when detecting, whether the direction that this stitch detector 52 then detects the double gage needle runners 10a that judges this detection position is correct.

If the distance of these stitch detector 52 detected stitch 11 positions is longer, then this double gage needle runners 10a's is in the right direction.

As shown in Figure 9, the distance of these stitch detector 52 detected stitch 11 positions is shorter, then the anisotropy of this double gage needle runners 10a.

As shown in figure 10, this direction screening plant 5 more includes a clamping device 53, the direction of double gage needle runners 10a that detects this detection position when this stitch detector 52 is when wrong, and then this clamping device 53 just can be driven and the double gage needle runners 10a of anisotropy is back in the stitch seat feeding device 22 by the detection position folder; Otherwise when the direction that detects the double gage needle runners 10a of this detection position when this stitch detector 52 was correct, then this first pin 50 and second pin 51 can retractions, and make next double gage needle runners 10a continue to move to this detection position.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (9)

1. feeding track comprises:

One guide rail has an arrival end, a port of export and one and extends to the guide groove of the port of export by arrival end, and described guide groove is used to hold electronic component and moves therein; And

At least one glassware that blows is positioned at the side of described guide rail, is used for the electronic component of described guide groove is blown to the described port of export;

One sensing apparatus comprises a reflector and a receiver, lays respectively at the guide rail both sides;

Wherein, have a perforation on this guide rail, the light of reflector emission passes through this perforation, and is received by receiver;

This feeding track also comprises a direction screening plant, and this direction screening plant comprises:

One first pin is used for electronic component is stopped at the detection position;

One second pin is used for keeping when detecting the electronic component of some to be positioned at this detection position;

One stitch detector, whether the direction that is used to detect the electronic component of judging this detection position is correct, and distance is longer when the stitch position of the detected electronic component of described stitch detector, and then this electronic component is in the right direction; Distance is shorter when the stitch position of the detected electronic component of described stitch detector, then the anisotropy of this electronic component; And

One clamping device is used for the electronic component of anisotropy is pressed from both sides back feeding device by the detection position.

2. feeding track according to claim 1 is characterized in that, is used to link a feeding device and a plug assembly,

Described arrival end is for what open, and the described port of export is what seal;

Described feeding device is used to hold described electronic component, and described electronic component is transported to described arrival end successively;

Described plug assembly is used for the electronic component of the described port of export is picked up, and assembles with other electronic component.

3. feeding track according to claim 2 is characterized in that, also comprises an electromagnetic shaker, is used to order about this guide rail and is shaken fast to port of export direction by arrival end, makes that the electronic component in the guide groove moves to the port of export.

4. feeding track according to claim 3 is characterized in that, when described receiver does not receive the light that reflector is launched, then controls this feeding device and stops the action that electronic component is sent into by the guide rail arrival end.

5. feeding track according to claim 3 is characterized in that, when described receiver receives the light that reflector is launched, then controls this feeding device and continues electronic component is sent into by the guide rail arrival end.

6. feeding track according to claim 3 is characterized in that described guide rail also comprises a press material structure, is arranged at second electronic component top of this port of export with having pressure.

7. feeding track according to claim 3 is characterized in that this guide rail also includes a briquetting, is positioned at this top of guide slot, is arranged at the top of electronic component in the guide groove with having pressure.

8. feeding track according to claim 3 is characterized in that, this electronic component is the jumper cap of jumper switch.

9. feeding track according to claim 3 is characterized in that, this electronic component is the double gage needle runners of jumper switch.

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