CN203740667U - Feeding structure for LED light splitting machine or tape loading machine - Google Patents

Abstract

A feeding structure for an LED light splitting machine or tape loading machine comprises a feeding track, a separation driving structure, an absorption structure, a feeding bottom plate and an upper separation cover plate arranged on the feeding bottom plate, wherein the feeding track is in butt joint with the feeding bottom plate; the separation driving structure and the absorption structure are sequentially arranged on one side of the feeding track; a feeding channel is arranged between the feeding bottom plate and the upper separation cover plate; a separation pin of the separation driving structure and a sensor are arranged in the feeding channel respectively; and the absorption structure and the feeding channel are communicated. The feeding structure for the LED light splitting machine or tape loading machine has the advantages of simple structure, low production cost, high conveying speed, high efficiency, capacity of meeting a conventional high-speed packaging requirement and the like.

Description

LED light splitting machine and Belt packing machine feeding structure

Technical field

The utility model relates to LED production facilities technical field, relates in particular to a kind of LED light splitting machine and Belt packing machine feeding structure.

Background technology

Paster type light emitting type is a kind of novel surface mounted type light emitting semiconductor device, have that volume is little, angle of scattering is large, uniformity of luminance is good, high reliability, glow color comprises the shades of colour of white light, is therefore widely used on the various electronic products such as read-out, liquid crystal panel backlight, decoration light and general illumination.

Because LED chip encapsulation can be used LED light splitting machine and Belt packing machine to carry out color separation light-splitting processing and dress band before dispatching from the factory, and in LED light splitting machine and Belt packing machine, need to use feeding machanism to carry out LED conveying chip.And existing feeding structure is directly LED chip to be arranged in the loading mouth of sawtooth calibrated disc by track, complex structure, productive costs is high, delivery speed is slow, parts easily wear and tear, and is not suitable with existing high speed encapsulation requirement.

Utility model content

In order to overcome the problems referred to above, the utility model provides a kind of simple in structure, efficiency is high, delivery speed is fast LED light splitting machine and Belt packing machine feeding structure to society.

The technical solution of the utility model is: a kind of LED light splitting machine and Belt packing machine feeding structure are provided, comprise feeding track, separated drive configuration, adsorption structure, pan feeding base plate and the separated upper cover plate being arranged on described pan feeding base plate, described feeding track docks with described pan feeding base plate, described separated drive configuration and described adsorption structure are successively set on a side of described feeding track, between described pan feeding base plate and described separated upper cover plate, be provided with pan feeding passage, the Separated pin of described separated drive configuration and a sensor are separately positioned in described pan feeding passage, described adsorption structure communicates with described pan feeding passage, some LED chips are transported in described pan feeding passage successively through described feeding track, when described sensor sensing is during to the first LED chip, described adsorption structure sucks the first LED chip be loaded into the first loading mouth of the sawtooth calibrated disc that is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin to block the second LED chip simultaneously, when the second loading mouth of described sawtooth calibrated disc is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin motion, allow the second LED chip be transported to behind the position that is provided with described sensor, repeat loading action the circulation successively of the first LED chip.

As to improvement of the present utility model, on described pan feeding base plate, be provided with the first perforation communicating with described pan feeding passage, the described Separated pin of described separated drive configuration is arranged in described the first perforation and moves up and down.

As to improvement of the present utility model, on described pan feeding passage, be provided with suction hole, the aspirate tube of described adsorption structure is communicated with described suction hole.

As to improvement of the present utility model, also comprise charging Connection Block, described pan feeding base plate is arranged on the upper end of described charging Connection Block, and the lower end of described charging Connection Block is provided with separated electromagnet mount pad, in the lower end of described separated electromagnet mount pad, is provided with sensor installation seat.

As to improvement of the present utility model, described separated drive configuration comprises the electromagnet of hollow and is arranged on the push rod in described electromagnet, described electromagnet is arranged on described separated electromagnet mount pad, the upper end of described push rod is connected with described Separated pin, the lower end of described push rod is through the through hole that is arranged on described separated electromagnet mount pad, be connected with the upper end of a spring, the lower end of described spring is connected with described sensor installation seat, after described electromagnet energising, produce magnetic force, described push rod at magnetic force or/and under the effect of the elastic force that described spring produces, in described electromagnet, move up and down.

As to improvement of the present utility model, described push rod is made with ferrous material.

As to improvement of the present utility model, described sensor is optical fiber transducer.

As to improvement of the present utility model, on described pan feeding base plate, be provided with the second perforation, described the second perforation is between described the first perforation and described suction hole, the light-conductive optic fibre of described optical fiber transducer is arranged in described the second perforation, on described separated upper cover plate, corresponding described biperforate position is provided with light well, and described optical fiber transducer is arranged on described sensor installation seat.

As to improvement of the present utility model, on described separated upper cover plate, be provided with opening, described opening is on the described pan feeding passage between described the first perforation and described feeding track.

As to improvement of the present utility model, described separated drive configuration is air cylinder or hydraulic actuating cylinder.。

The utility model, owing to being provided with the first perforation, the second perforation and the suction hole communicating with pan feeding passage on pan feeding base plate, is respectively equipped with the light-conductive optic fibre of Separated pin and optical fiber transducer in the first perforation and the second perforation; Separated drive configuration comprises electromagnet and the push rod being arranged on separated electromagnet mount pad, the upper end of push rod is connected with Separated pin, the lower end of push rod is through the through hole that is arranged on separated electromagnet mount pad, be connected with the spring arranging on sensor installation seat, push rod under the elastic force effect of magnetic force and spring downwards, upward movement, separated drive configuration simple in structure, operation precision is high, kinematic velocity is fast; Have simple in structure, productive costs is low, delivery speed is fast, efficiency is high and meet the advantages such as existing high speed encapsulation requirement.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is the cross-sectional schematic of Fig. 1.

Wherein: 1. feeding track; 2. pan feeding base plate; 21. first perforation; 22. second perforation; 23. suction holes; 3. separated upper cover plate; 31. light wells; 4. charging Connection Block; 5. separated electromagnet mount pad; 6. sensor installation seat; 7. optical fiber transducer; 71. light-conductive optic fibres; 8. sawtooth calibrated disc; 91. electromagnet; 92. push rods; 93. springs; 94. Separated pins.

The specific embodiment

In description of the present utility model, it will be appreciated that, in term " on ", orientation or the position relationship of the indication such as D score be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific orientation, construct and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " be only for describing object, and can not be interpreted as indication or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " connection ", " being connected " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also that dismounting connects, or connect integratedly; Can be mechanical connection, can be to be also electrically connected to; Can be to be directly connected, can be to be also indirectly connected by intermediary, can be the connection of two element internals.In description of the present utility model, except as otherwise noted, " a plurality of ", " somes' " implication is two or more.

Refer to Fig. 1 and Fig. 2, what Fig. 1 and Fig. 2 disclosed is a kind of LED light splitting machine and Belt packing machine feeding structure, comprise feeding track 1, pan feeding base plate 2, separated drive configuration, adsorption structure and the separated upper cover plate 3 being arranged on described pan feeding base plate 2, described feeding track 1 docks with described pan feeding base plate 2, described separated drive configuration and described adsorption structure are successively set on a side of described feeding track, between described pan feeding base plate 2 and described separated upper cover plate 3, be provided with pan feeding passage, the Separated pin 94 of described separated drive configuration and a sensor are separately positioned in described pan feeding passage, described adsorption structure communicates with described pan feeding passage, some LED chips are transported in described pan feeding passage successively through described feeding track 1, when described sensor sensing is during to the first LED chip, described adsorption structure sucks the first LED chip be loaded into the first loading mouth of the sawtooth calibrated disc 8 that is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin 94 to block the second LED chip simultaneously, when the second loading mouth of described sawtooth calibrated disc 8 is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin 94 motions, allow the second LED chip be transported to behind the position that is provided with described sensor, repeat loading action the circulation successively of the first LED chip.

In the present embodiment, be provided with the first perforation 21 communicating with described pan feeding passage on described pan feeding base plate 2, the described Separated pin 94 of described separated drive configuration is arranged in described the first perforation 21 and moves up and down.On described pan feeding passage, be provided with suction hole 23, the aspirate tube of described adsorption structure is communicated with described suction hole 23, and described adsorption structure is air extractor.Described the first perforation 21 and described suction hole 23 are successively away from described feeding track 1.

In the present embodiment, when described suction hole 23 is inhaled the first LED chip, the first LED chip and the second LED chip can be inhaled simultaneously, but the moving velocity of the first LED chip is greater than the moving velocity of the second LED chip, reason is that described pan feeding passage communicates with extraneous barometric pressure, make the Speed Reduction of the second LED chip, so the described Separated pin 94 of upward movement can block the second LED chip.

In the present embodiment, also comprise charging Connection Block 4, described pan feeding base plate 2 is arranged on the upper end of described charging Connection Block 4, and the lower end of described charging Connection Block 4 is provided with separated electromagnet mount pad 5, in the lower end of described separated electromagnet mount pad 5, is provided with sensor installation seat 6.

In the present embodiment, described separated drive configuration comprises the electromagnet 91 of hollow and is arranged on the push rod 92 in described electromagnet 91, described electromagnet 91 is arranged on described separated electromagnet mount pad 5, the upper end of described push rod 92 is connected with described Separated pin 94, the lower end of described push rod 92 is through the through hole that is arranged on described separated electromagnet mount pad 5, be connected with the upper end of a spring 93, the lower end of described spring 93 is connected with described sensor installation seat 6, after described electromagnet 91 energisings, produce magnetic force, described push rod 92 at magnetic force or/and under the effect of the elastic force that described spring 93 produces, in described electromagnet 91, move up and down.Described push rod 92 is that ferrous material is made, and near the position of described separated electromagnet mount pad 5, is provided with projection at described push rod 92, and the benefit of design is like this, facilitates push rod 92 described in the magnetic attraction producing after described electromagnet 91 energisings to move downward.Described push rod 92 can also be non-metal pushrod 92, on described non-metal push rod 92, is provided with ferrous material, the magnetic attraction ferrous material producing after described electromagnet 91 energisings, and described push rod 92 is moved downward.The advantage such as that described separated drive configuration has is simple in structure, operation precision is high and kinematic velocity is fast.

In the present embodiment, described sensor is optical fiber transducer 7.On described pan feeding base plate 2, be provided with the second perforation 22, described the second perforation 22 is between described the first perforation 21 and described suction hole 23, the light-conductive optic fibre 71 of described optical fiber transducer 7 is arranged in described the second perforation 22, on described separated upper cover plate 3, the position of corresponding described the second perforation 22 is provided with light well 31, and described optical fiber transducer 7 is arranged on described sensor installation seat 6.Light source can also be arranged in described light well 31, described sensor can also be infrared pickoff.

In the present embodiment, on described separated upper cover plate 3, be provided with opening, described opening is on the described pan feeding passage between described the first perforation 21 and described feeding track 1, described opening strengthens the space between described separated upper cover plate 3 and described pan feeding base plate 2, and in the process of carrying, people can observe the conveying situation of LED chip from described opening.Described separated drive configuration is air cylinder or hydraulic actuating cylinder.

Principle of work of the present utility model is, some LED chips are transported in described pan feeding passage successively through described feeding track 1, when the first LED chip is transported to described the second perforation 22 time, the first LED chip will be lived from the light trap of described light well 31 projections, and described optical fiber transducer 7 detects this information.Described suction hole 23 sucks the first LED chip be loaded into the first loading mouth of the sawtooth calibrated disc 8 that is arranged in described pan feeding passage, simultaneously described electromagnet 91 power-off magnetic force disappear, described push rod 92 is at the lower upward movement of elastic force (thrust) of described spring 93, described Separated pin 94 upward movements block the second LED chip, make the second LED chip stop carrying.When described sawtooth calibrated disc 8 rotates, and when its second loading mouth is arranged in to described pan feeding passage, described electromagnet 91 energisings produce magnetic force, described in magnetic attraction, push rod 92 moves downward, and described spring 93 is compressed, described Separated pin 94 also moves downward, the second LED chip is continued to be carried, until it is transported to the position of described the second perforation 22, the second LED chip repeats the loading action of the first LED chip, and next all LED chip all repeats the loading action of the first LED chip.The utlity model has simple in structure, productive costs is low, delivery speed is fast, efficiency is high and meet the advantages such as existing high speed encapsulation requirement.

Claims (10)

1. a LED light splitting machine and Belt packing machine feeding structure, it is characterized in that, comprise feeding track, separated drive configuration, adsorption structure, pan feeding base plate and the separated upper cover plate being arranged on described pan feeding base plate, described feeding track docks with described pan feeding base plate, described separated drive configuration and described adsorption structure are successively set on a side of described feeding track, between described pan feeding base plate and described separated upper cover plate, be provided with pan feeding passage, the Separated pin of described separated drive configuration and a sensor are separately positioned in described pan feeding passage, described adsorption structure communicates with described pan feeding passage, some LED chips are transported in described pan feeding passage successively through described feeding track, when described sensor sensing is during to the first LED chip, described adsorption structure sucks the first LED chip be loaded into the first loading mouth of the sawtooth calibrated disc that is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin to block the second LED chip simultaneously, when the second loading mouth of described sawtooth calibrated disc is arranged in described pan feeding passage, described separated drive configuration drives described Separated pin motion, allow the second LED chip be transported to behind the position that is provided with described sensor, repeat loading action the circulation successively of the first LED chip.

2. LED light splitting machine according to claim 1 and Belt packing machine feeding structure, it is characterized in that: on described pan feeding base plate, be provided with the first perforation communicating with described pan feeding passage, the described Separated pin of described separated drive configuration is arranged in described the first perforation and moves up and down.

3. LED light splitting machine according to claim 1 and 2 and Belt packing machine feeding structure, is characterized in that: on described pan feeding passage, be provided with suction hole, the aspirate tube of described adsorption structure is communicated with described suction hole.

4. LED light splitting machine according to claim 1 and 2 and Belt packing machine feeding structure, it is characterized in that: also comprise charging Connection Block, described pan feeding base plate is arranged on the upper end of described charging Connection Block, the lower end of described charging Connection Block is provided with separated electromagnet mount pad, in the lower end of described separated electromagnet mount pad, is provided with sensor installation seat.

5. LED light splitting machine according to claim 4 and Belt packing machine feeding structure, it is characterized in that: described separated drive configuration comprises the electromagnet of hollow and is arranged on the push rod in described electromagnet, described electromagnet is arranged on described separated electromagnet mount pad, the upper end of described push rod is connected with described Separated pin, the lower end of described push rod is through the through hole that is arranged on described separated electromagnet mount pad, be connected with the upper end of a spring, the lower end of described spring is connected with described sensor installation seat, after described electromagnet energising, produce magnetic force, described push rod at magnetic force or/and under the effect of the elastic force that described spring produces, in described electromagnet, move up and down.

6. LED light splitting machine according to claim 5 and Belt packing machine feeding structure, is characterized in that: described push rod is made with ferrous material.

7. LED light splitting machine according to claim 5 and Belt packing machine feeding structure, is characterized in that: described sensor is optical fiber transducer.

8. LED light splitting machine according to claim 7 and Belt packing machine feeding structure, it is characterized in that: on described pan feeding base plate, be provided with the second perforation, described the second perforation is between described the first perforation and described suction hole, the light-conductive optic fibre of described optical fiber transducer is arranged in described the second perforation, on described separated upper cover plate, corresponding described biperforate position is provided with light well, and described optical fiber transducer is arranged on described sensor installation seat.

9. LED light splitting machine according to claim 1 and 2 and Belt packing machine feeding structure, is characterized in that: on described separated upper cover plate, be provided with opening, described opening is on the described pan feeding passage between described the first perforation and described feeding track.

10. LED light splitting machine according to claim 1 and 2 and Belt packing machine feeding structure, is characterized in that: described separated drive configuration is air cylinder or hydraulic actuating cylinder.