CN107529331A - A kind of tubulose material feeder - Google Patents

Abstract

To overcome existing tubulose feed device the problem of charging rate is slow and processing efficiency is low to be present, the invention provides a kind of tubulose material feeder, including charging box, hoisting mechanism, feeding platform, first pusher, second pusher and discharging track, the charging box is arranged at the lower section of the feeding platform, one end of the feeding platform connects the discharging track, the other end of the feeding platform connects second pusher, stacked inside the charging box and be placed with multiple charging pipes, the charging pipe is internally formed the fuel loading passage for holding electronic component, the hoisting mechanism is used for the level height that the charging pipe in the charging box is promoted to the feeding platform, second pusher is used to the electronic component in the charging pipe being pushed into the discharging track.Tubulose material feeder provided by the invention can realize the self-feeding of electronic component tubulose material and lasting feed.

Description

A kind of tubulose material feeder

Technical field

The invention belongs to electronic component feeder equipment technical field, and in particular to a kind of tubulose material feeder.

Background technology

In all kinds of electronically or mechanically devices, often need set difference in functionality wiring board be controlled or function realize, In the process of wiring board, there is an important plug-in unit process, be transported to electronic component really generally by feed mechanism Positioning is put, then is inserted into electronic component in the stitch jack preset on wiring board by the manipulator of inserter, works as circuit Plate carries out reinforcement of weld to the stitch jack for being inserted with electronic component again after completing plug-in unit.

The feeding style of electronic component is more, than being formed such as by the pin of electronic component is fixed in winding Strip material, then cut plug-in unit after pin by pinrshape, or electronic component is manually placed on precalculated position, pass through machinery Hand pickup.The feed mode of most common electronic component, it is to set vibrating disk to draw scattered electronic component by vibration Enter in predetermined track, and the orientation for entering the electronic component of planned orbit is consistent, is fed, but vibrating disk Equipment cost is higher, causes noise larger.Existing another improvement method of feeding is in advance by multiple electronics member by charging pipe Device is packaged to form tubulose material, and multiple electronic components in tubulose material, will pipe in feeding along charging pipe proper alignment Shape material is obliquely installed, and by setting vibrating device to convey the electronic component in tubulose material to outside in bottom, passes through replacing Tubulose material realizes lasting feed, although which need not set vibrating disk, reduces equipment cost, but vibration still be present The problem of noise is big, it is also necessary to which the artificial replacing for carrying out tubulose material, charging rate is slow and processing efficiency is low.Meanwhile by shaking The dynamic pin generation bending for carrying out feeding easily to electronic component, influences plug-in unit, while electronic component card also easily occurs Dead situation.

The content of the invention

The problem of charging rate is slow and processing efficiency is low be present for existing tubulose feed device, the invention provides A kind of tubulose material feeder.

Technical scheme is as follows used by the present invention solves above-mentioned technical problem：

A kind of tubulose material feeder is provided, including charging box, hoisting mechanism, feeding platform, the first pusher, second is pushed away Expect mechanism and discharging track, the charging box is arranged at the lower section of the feeding platform, one end connection institute of the feeding platform Discharging track is stated, the other end of the feeding platform connects second pusher, stacks and be placed with inside the charging box Multiple charging pipes, the charging pipe are internally formed the fuel loading passage for holding electronic component, and the hoisting mechanism is used for Charging pipe in the charging box is promoted to the level height of the feeding platform, first pusher is used for by described in Charging pipe is pushed between second pusher and the discharging track by the hoisting mechanism, second pusher For the electronic component in the charging pipe to be pushed into the discharging track.

Alternatively, the tubulose material feeder also includes feed rail and recovery approach；

The feed rail is located at a side-lower of the feeding platform, and the charging box can be by the one of the feed rail End enters and conveyed along the length direction of the feed rail；

The recovery approach is located at below the opposite side of the feeding platform, for collect its internal electronic component by The charging pipe being pushed into the discharging track.

Alternatively, the feed rail includes the first motor, two side plates being oppositely arranged and is arranged at described in two Multiple transfer rollers between side plate, multiple transfer rollers are in horizontally arranged, and first motor is used to drive multiple institutes State transfer roller rotation.

Alternatively, the hoisting mechanism includes the first slide rail, the second slide rail, the first screw mandrel, sliding block and the second motor, described First slide rail and the second slide rail are vertically arranged at the bottom of the feeding platform, and first screw mandrel is vertically arranged at described first Between slide rail and the second slide rail, second motor is used to drive first screw mandrel to rotate, the sliding block with described first Bar screw thread coordinates, and the both ends of the sliding block are slideably positioned on first slide rail and the second slide rail, set on the sliding block respectively It is equipped with and carries flitch, the flitch that carries can be driven the round position between the feed rail and the material conveying platform by the sliding block Move, offered on the feed rail for the accommodating storage tank for carrying flitch, the one side of the charging box and bottom surface are opened Have and carry the port that flitch passes through described in confession.

Alternatively, the tubulose material feeder also includes fixed mount, the feed rail, hoisting mechanism, feeding platform and The discharging track is mounted on the fixed mount.

Alternatively, first pusher includes position-limited box, the 3rd motor, the second screw mandrel and scraping wings, described spacing It is connected at the top of box on the fixed mount, the bottom of the position-limited box is provided with guide groove, and second screw mandrel is arranged at described In guide groove, the 3rd motor drives second screw mandrel to rotate, and the top slide of the scraping wings is arranged at the guiding In groove, and the scraping wings is connected with second wire rod thread, and the scraping wings can be driven described by the 3rd motor The top back and forth movement of material conveying platform, the charging pipe is pushed into second pusher and institute by the hoisting mechanism State between discharging track.

Alternatively, second pusher includes the 4th motor, winding wheel and timing belt, and the winding wheel is by described Four motor-driven rotations, the deployable winding ground in one end of the timing belt is on the winding wheel, the timing belt part It is surrounded on the winding wheel, the other end of the timing belt can drive the feeding for inserting the charging pipe to lead to by the winding wheel Road, to promote the electronic component in the feeding channel to enter the discharging track.

Alternatively, the tubulose material feeder also includes feeding pressure mechanism, the feeding pressure mechanism include the 5th motor, the 3rd Bar, rail brackets and binder block, the rail brackets are connected on the fixed mount, described 3rd of the 5th motor driving Bar is rotated, and the binder block is connected with the 3rd wire rod thread, and the binder block is slideably positioned on the rail brackets, Tip position of the binder block between second pusher and the discharging track, for second pusher Charging pipe between mechanism and the discharging track is fixed.

Alternatively, the tubulose material feeder also includes being used to detect to whether there is electronic component in the discharging track Material induction installation.

Alternatively, the tubulose material feeder also includes for controlling hoisting mechanism, the first pusher and second to push away Expect the control unit of mechanism.

According to tubulose material feeder provided by the invention, there is provided the filling that replaceable charging box is used for charging pipe, lead to The charging pipe in charging box can be promoted to the level height of the feeding platform by crossing hoisting mechanism, then pass through the first pusher Structure pushes to charging pipe between second pusher and the discharging track, will further be filled by the second pusher Electronic component in expects pipe is released, and electronic component is entered in discharging track, is realized self-feeding and lasting feed, together When, the feed mode need not produce vibration, can avoid the bending pins for causing electronic component.

Brief description of the drawings

Fig. 1 is the structural representation for the tubulose material feeder that one embodiment of the invention provides；

Fig. 2 is another structural representation for the tubulose material feeder that one embodiment of the invention provides；

Fig. 3 is the structural representation of its feed rail of the tubulose material feeder of one embodiment of the invention offer；

Fig. 4 is the structural representation of its feeding platform of the tubulose material feeder of one embodiment of the invention offer；

Fig. 5 is the structural representation of its first pusher of the tubulose material feeder of one embodiment of the invention offer；

Fig. 6 is the structural representation of its second pusher of the tubulose material feeder of one embodiment of the invention offer.

Reference in Figure of description is as follows：

1st, fixed mount；2nd, feed rail；21st, side plate；22nd, transfer roller；23rd, bottom plate；24th, the first motor；25th, house Groove；3rd, feeding platform；4th, the first pusher；41st, scraping wings；42nd, position-limited box；421st, guide groove；43rd, the second screw mandrel；44th, Three motors；5th, the second pusher；51st, the 4th motor；52nd, winding wheel；53rd, pinch roller；54th, timing belt；55th, guide holder；6、 Feeding pressure mechanism；61st, the 5th motor；62nd, rail brackets；63rd, the 3rd screw mandrel；64th, binder block；7th, discharging track；8th, hoisting mechanism； 81st, the first slide rail；82nd, the second slide rail；83rd, the first screw mandrel；84th, sliding block；85th, flitch is carried；9th, charging box；91st, charging pipe；92、 Port.

Embodiment

In order that technical problem solved by the invention, technical scheme and beneficial effect are more clearly understood, below in conjunction with Drawings and Examples, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used To explain the present invention, it is not intended to limit the present invention.

Referring to shown in Fig. 1 and Fig. 2, present embodiment discloses a kind of tubulose material feeder, including charging box 9, hoisting mechanism 8th, feeding platform 3, the first pusher 4, the second pusher 5 and discharging track 7, the charging box 9 are arranged at the charging The lower section of platform 3, one end of the feeding platform 3 connect the discharging track 7, the other end connection institute of the feeding platform 3 The second pusher 5 is stated, the inside of charging box 9, which stacks, is placed with multiple charging pipes 91, and the charging pipe 91 has been internally formed For the fuel loading passage of holding electronic component, the hoisting mechanism 8 is used to the charging pipe 91 in the charging box 9 being promoted to The level height of the feeding platform 3, first pusher 4 are used to push away the charging pipe 91 by the hoisting mechanism 8 Deliver between second pusher 5 and the discharging track 7, second pusher 5 is used for the charging pipe 91 In electronic component be pushed into the discharging track 7.

As shown in Fig. 2 carry out tubulose material electronic component charging when, the linear spread configuration of electronic component in In the charging pipe 91, multiple charging pipes 91 are filled in the charging box 9 in the matrix form of multiple rows of multiple row, pass through elevator Charging pipe 91 in charging box 9 can be promoted to the level height of the feeding platform 3 by structure 8, then pass through the first pusher 4 Charging pipe 91 is pushed between second pusher 5 and the discharging track 7, further passes through the second pusher 5 Electronic component in charging pipe 91 is released, electronic component is entered in discharging track 7, self-feeding is realized and continues Feed, meanwhile, the feed mode need not produce vibration, can avoid the bending pins for causing electronic component.

In the present embodiment, the tubulose material feeder also includes feed rail 2 and recovery approach；

The feed rail 2 is located at a side-lower of the feeding platform 3, and the charging box 9 can be by the feed rail 2 One end enter and along the feed rail 2 length direction convey, for conveying and changing the charging box 9；

The recovery approach is located at below the opposite side of the feeding platform 3, for having collected its internal electronic component The charging pipe 91 being pushed into the discharging track 7.

As shown in figure 3, the feed rail 2 includes the first motor 24, two side plates 21 being oppositely arranged and is arranged at Multiple transfer rollers 22 between two side plates 21, bottom plate 23 is provided between two side plates 21 and is interfixed, it is more The individual transfer roller 22 is in horizontally arranged, and first motor 24 is used to drive multiple transfer rollers 22 to rotate, specifically , one of them described transfer roller 22 can be driven to rotate by first motor 24, can between multiple transfer rollers 22 Set the transmission devices such as chain, screw rod or belt to be mutually driven, the charging box 9 be positioned on the feed rail 2, Displacement can be driven by the transfer roller 22；When carrying out the replacing of charging box 9, the transmission can be driven by first motor 24 Disk roller 22, which inverts, sends out the charging box 9 of sky, then drives the transfer roller 22 to rotate forward and send the charging box 9 equipped with charging pipe 91 To the side bottom correspondence position of feeding platform 3 one；The transfer roller 22 along one is either driven by first motor 24 Direction rotates, and the charging box 9 of sky is sent out, while the charging box 9 equipped with charging pipe 91 is delivered into the side bottom of feeding platform 3 Portion's correspondence position.

In some embodiments, it is also possible to be arranged feed belt in the outside of multiple transfer rollers 22, with increase with Transmission frictional force between the charging box 9.

Being provided with for the feed rail 2 and charging box 9 realizes automatic continuous supply beneficial to the charging pipe 91 charging, It need not reduce cost of labor manually to the lasting feed of charging pipe 91 and improve processing efficiency.

As shown in Fig. 2 the hoisting mechanism 8 includes the first slide rail 81, the second slide rail 82, the first screw mandrel 83, the and of sliding block 84 Second motor, the slide rail 82 of the first slide rail 81 and second are vertically arranged at the bottom of the feeding platform 3, first screw mandrel 83 are vertically arranged between the slide rail 82 of the first slide rail 81 and second, and second motor is used to drive first screw mandrel 83 Rotate, the sliding block 84 and the screw thread of the first screw mandrel 83 coordinate, and the both ends of the sliding block 84 be slideably positioned in respectively it is described On first slide rail 81 and the second slide rail 82, the rotation of first screw mandrel 83 drives the sliding block 84 along the He of the first slide rail 81 The slip of second slide rail 82, be provided with the sliding block 84 and carry flitch 85, the flitch 85 that carries to be multiple, it is described carry flitch 85 can Driven by the sliding block 84 and displacement is come and gone between the feed rail 2 and the feeding platform 3, opened on the feed rail 2 Provided with for the accommodating storage tank 25 for carrying flitch 85, after the 91 equal feeding of charging pipe in the charging box 9, can incite somebody to action The flitch 85 that carries is down in the storage tank 25 of the feed rail 2, avoids the interference changed to the charging box 9, also favorably The lifting supply of charging pipe 91 in new charging box 9；The one side of the charging box 9 and bottom surface are provided with described in confession and carry flitch 85 The port 92 passed through, to facilitate the flitch 85 that carries to pass through the charging box 9, while by the charging pipe 91 in the charging box 9 Above carry to a side position of the feeding platform 3.

As shown in figure 1, the tubulose material feeder also includes fixed mount 1, the feed rail 2, hoisting mechanism 8, charging Platform 3 and the discharging track 7 are mounted on the fixed mount 1, specifically, its mounting means can by screw, bolt or Other existing connected modes are realized.

In certain embodiments, as shown in figure 1, in the tubulose material feeder, the feed rail 2, charging box 9, carry It is settable two groups to rise mechanism 8, feeding platform 3, the first pusher 4, the second pusher 5 and discharging track 7, is symmetricly set in On the fixed mount 1, and the centre position of two feeding platforms 3 is recovery approach.

As shown in Figure 4 and Figure 5, first pusher 4 includes position-limited box 42, the 3rd motor 44, the and of the second screw mandrel 43 Scraping wings 41, the top of position-limited box 42 are connected on the fixed mount 1, and the bottom of the position-limited box 42 is provided with guide groove 421, second screw mandrel 43 is arranged in the guide groove 421, and the 3rd motor 44 drives second screw mandrel 43 to rotate, The top slide of the scraping wings 41 is arranged in the guide groove 421, and the scraping wings 41 and the spiral shell of the second screw mandrel 43 Line connects, and the rotation of second screw mandrel 43 can drive the scraping wings 41 moving forward and backward in the guide groove 421, described Scraping wings 41 can be driven the top back and forth movement in the feeding platform 3 by the 3rd motor 44, by the charging pipe 91 Pushed to by the hoisting mechanism 8 between second pusher 5 and the discharging track 7.

In the present embodiment, when carrying out the feeding of electronic component, the flitch 85 that carries of the hoisting mechanism 8 will be in that multilayer is more The charging pipe 91 that column matrix stacks is lifted from charging box 9, flat by the charging is promoted to positioned at the charging pipe 91 of maximum layer The level height of the side of platform 3, and the height for carrying the displacement that flitch 85 rises every time and turning expects pipe for individual layer, are pushed away by first The scraping wings 41 of material mechanism 4 will be pushed on feeding platform 3 positioned at the charging pipe 91 of maximum layer, and the scraping wings 41 is each Horizontal displacement be the single width for turning expects pipe, the charging pipe 91 after feeding under the promotion of scraping wings 41 from it is described enter The opposite side of material platform 3 is fallen into recovery approach.

As shown in figure 4, second pusher 5 includes the 4th motor 51, winding wheel 52 and timing belt 54, the winding Wheel 52 drives rotation by the 4th motor 51, and the deployable winding ground in one end of the timing belt 54 is wound on the winding wheel 52 On, the timing belt 54 is partially surrounded on the winding wheel 52, and the other end of the timing belt 54 can be by the winding wheel 52 The feeding channel for inserting the charging pipe 91 is driven, to promote the electronic component in the feeding channel to enter the discharging rail Road 7.

The outlet port of the timing belt 54 is provided with guide holder 55 on the winding wheel 52, for the timing belt Turn to be oriented in the feeding channel of expects pipe described in 54 entrance.

The end set that the timing belt 54 extends into the feeding channel has an expeller, and the expeller is cuboid Block structure, the end face of the expeller can contact with electronic component generating surface, so as to ensure that the timing belt 54 is pushing away The stability of electronic component in dynamic feeding channel.

The outside of the winding wheel 52 is provided with pinch roller 53, for making the timing belt 54 on the winding wheel 52 Fit on the outer ring of the winding wheel 52.

It should be noted that in other embodiments, second pusher can be that other realize that pusher of the same race is made Other structures, such as spring pushing structure, cylinder pushing structure etc., those skilled in the art can be carried out specifically as needed Set.

As shown in Figure 4 and Figure 6, to avoid the timing belt 54 in second pusher 5 in the charging pipe 91 Turn expects pipe described in when electronic component is pushed to shift, the tubulose material feeder also includes feeding pressure mechanism 6, the pressure Material mechanism 6 includes the 5th motor 61, the 3rd screw mandrel 63, rail brackets 62 and binder block 64, and the rail brackets 62 is connected to institute State on fixed mount 1, the 5th motor 61 drives the 3rd screw mandrel 63 to rotate, the binder block 64 and the 3rd screw mandrel 63 Threaded connection, and the binder block 64 is slideably positioned on the rail brackets 62, the binder block 64 pushes away positioned at described second Expect the tip position between mechanism 5 and the discharging track 7, the 3rd screw mandrel 63, which rotates, drives the binder block 64 described Upper and lower displacement on rail brackets 62, for entering to the charging pipe 91 between second pusher 5 and the discharging track 7 Row is fixed, and avoiding charging pipe 91 from shifting influences the conveying of electronic component.

The tubulose material feeder also includes being used to detect the material that whether there is electronic component in the discharging track 7 Induction installation (not shown).

The one kind or more of the material induction installation in infrared ray sensor, laser sensor and ultrasonic sensor Kind.

The tubulose material feeder also includes for controlling hoisting mechanism, the first pusher and the second pusher Control unit.

Specifically, described control unit is used to control first motor 24, the second motor, the electricity of the 3rd motor the 44, the 4th The motor 61 of machine 51 and the 5th, it can sense in the discharging track 7 whether have electronic component by the material inductor, when When material inductor is sensed in the discharging track 7 without electronic component, then control first motor 24, the second motor, 3rd motor 44, the 4th motor 51 and the 5th motor 61 carry out the automatic supply of electronic component.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement made within refreshing and principle etc., should be included in the scope of the protection.

Claims (10)

1. A kind of 1. tubulose material feeder, it is characterised in that including charging box, hoisting mechanism, feeding platform, the first pusher, Second pusher and discharging track, the charging box are arranged at the lower section of the feeding platform, one end of the feeding platform The discharging track is connected, the other end of the feeding platform connects second pusher, stacked inside the charging box Multiple charging pipes are placed with, the charging pipe is internally formed the fuel loading passage for holding electronic component, the elevator Structure is used for the level height that the charging pipe in the charging box is promoted to the feeding platform, and first pusher is used for The charging pipe is pushed between second pusher and the discharging track by the hoisting mechanism, described second pushes away Expect that mechanism is used to the electronic component in the charging pipe being pushed into the discharging track.
2. 2. tubulose material feeder according to claim 1, it is characterised in that the tubulose material feeder also includes feed rail Road and recovery approach；

   The feed rail is located at a side-lower of the feeding platform, and the charging box can be entered by one end of the feed rail Enter and conveyed along the length direction of the feed rail；

   The recovery approach is located at below the opposite side of the feeding platform, has been pushed into for collecting its internal electronic component The charging pipe in the discharging track.
3. 3. tubulose material feeder according to claim 2, it is characterised in that the feed rail includes the first motor, phase Two side plates to setting and the multiple transfer rollers being arranged between two side plates, multiple transfer rollers are in water Flat raft arranges, and first motor is used to drive multiple transfer rollers to rotate.
4. 4. tubulose material feeder according to claim 2, it is characterised in that the hoisting mechanism includes the first slide rail, the Two slide rails, the first screw mandrel, sliding block and the second motor, first slide rail and the second slide rail are vertically arranged at the feeding platform Bottom, first screw mandrel are vertically arranged between first slide rail and the second slide rail, and second motor is used to drive institute The rotation of the first screw mandrel is stated, the sliding block coordinates with first wire rod thread, and the both ends of the sliding block are slideably positioned in institute respectively State on the first slide rail and the second slide rail, be provided with the sliding block and carry flitch, the flitch that carries can be driven in institute by the sliding block State and displacement is come and gone between feed rail and the material conveying platform, offer on the feed rail and described carry flitch for accommodating Storage tank, the one side of the charging box and bottom surface are provided with described in confession and carry the port that flitch passes through.
5. 5. tubulose material feeder according to claim 2, it is characterised in that the tubulose material feeder also includes fixing Frame, the feed rail, hoisting mechanism, feeding platform and the discharging track are mounted on the fixed mount.
6. 6. tubulose material feeder according to claim 5, it is characterised in that first pusher include position-limited box, 3rd motor, the second screw mandrel and scraping wings, the position-limited box top are connected on the fixed mount, and the bottom of the position-limited box is set Guide groove is equipped with, second screw mandrel is arranged in the guide groove, and the 3rd motor drives second screw mandrel to rotate, institute The top slide for stating scraping wings is arranged in the guide groove, and the scraping wings connects with second wire rod thread, described Scraping wings can be driven the top back and forth movement in the material conveying platform by the 3rd motor, and the charging pipe is carried by described Mechanism is risen to push between second pusher and the discharging track.
7. 7. tubulose material feeder according to claim 5, it is characterised in that second pusher includes the 4th electricity Machine, winding wheel and timing belt, the winding wheel is by the 4th motor-driven rotation, the deployable winding in one end of the timing belt On the winding wheel, the timing belt is partially surrounded on the winding wheel on ground, and the other end of the timing belt can be by The winding wheel drives the feeding channel for inserting the charging pipe, to promote the electronic component in the feeding channel to enter institute State discharging track.
8. 8. tubulose material feeder according to claim 5, it is characterised in that the tubulose material feeder also includes swager Structure, the feeding pressure mechanism include the 5th motor, the 3rd screw mandrel, rail brackets and binder block, and the rail brackets is connected to described On fixed mount, the 5th motor drives the 3rd screw mandrel to rotate, and the binder block is connected with the 3rd wire rod thread, and The binder block is slideably positioned on the rail brackets, and the binder block is located at second pusher and the discharging rail Tip position between road, for the charging pipe between second pusher and the discharging track to be fixed.
9. 9. tubulose material feeder according to claim 8, it is characterised in that the tubulose material feeder also includes being used to examine Survey in the discharging track and whether there is the material induction installation of electronic component.
10. 10. tubulose material feeder according to claim 1, it is characterised in that the tubulose material feeder also includes use In the control unit of control hoisting mechanism, the first pusher and the second pusher.