CN215665483U - Multi-station feeding mechanism for electronic component shell pasting - Google Patents

Abstract

The utility model relates to the technical field of electronic component feeding, in particular to a multi-station feeding mechanism for electronic component shell pasting, which comprises a feeding component, a feeding component connected with the feeding component, a transmission component arranged on one side of the feeding component and a feeding component movably arranged on the transmission component, wherein the feeding component is movably arranged on the feeding component; the feeding assembly feeds the electronic element to the feeding assembly, and the feeding assembly feeds the electronic element to the feeding assembly; the feeding assembly comprises a feeding base connected to the transmission assembly and a plurality of groups of feeding seats uniformly distributed on the feeding base, each feeding seat is provided with a feeding groove, and the feeding assembly sends the electronic elements into the feeding grooves. The utility model adopts the matching of automatic feeding, transmission and feeding structures, realizes the full-automatic feeding of electronic elements, has high automation degree and good feeding stability, can feed a plurality of products according to the matching of the transmission assembly and a plurality of groups of feeding seats and feeding grooves, and has high feeding precision and good stability.

Description

Multi-station feeding mechanism for electronic component shell pasting

Technical Field

The utility model relates to the technical field of electronic component feeding, in particular to a multi-station feeding mechanism for electronic component shell pasting.

Background

With the application of electronic products becoming more and more extensive, the production and manufacture of various components in the electronic products become more and more important, and the inductor becomes more and more important as one of the three components. The common mode inductor is commonly used in a switching power supply of a computer to filter common mode electromagnetic interference signals. In the board design, the common mode inductor also plays a role in EMI filtering, and is used for inhibiting electromagnetic waves generated by the high-speed signal line from radiating and emitting outwards.

In the manufacturing process of the common mode inductor, a copper wire needs to be wound on a main body to form an electronic element, and then a shell plate is attached to the electronic element through glue, so that the electronic element is manufactured; in the existing common mode inductor manufacturing process, manual semi-automatic glue dispensing and fitting are generally performed, and because the common mode inductors are very small in size, the difficulty is very high in manual manufacturing production, and particularly in semi-automatic feeding, electronic elements need to be placed at specified positions one by one, so that time is wasted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides the multi-station feeding mechanism for the electronic component shell sticking, which adopts the matching of the automatic feeding, transmission and feeding structures, realizes the full-automatic feeding of the electronic components, has high automation degree and good feeding stability, can feed a plurality of products according to the matching of a plurality of groups of feeding seats and feeding grooves through the transmission assembly, and has high feeding precision and good stability.

The technical scheme adopted by the utility model is as follows: a multi-station feeding mechanism for electronic component shell pasting comprises a feeding component, a feeding component connected with the feeding component, a transmission component arranged on one side of the feeding component, and a feeding component movably arranged on the transmission component; the feeding assembly feeds the electronic components to the feeding assembly, and the feeding assembly feeds the electronic components to the feeding assembly; the feeding assembly comprises a feeding base connected to the transmission assembly and a plurality of groups of feeding seats uniformly distributed on the feeding base, each feeding seat is provided with a feeding groove, and the feeding assembly sends the electronic elements into the feeding grooves.

The feeding assembly comprises a feeding base, an adjusting seat arranged on the feeding base, a disc vibrator arranged on the adjusting seat and a vibrating feeding disc arranged on the disc vibrator, and the vibrating feeding disc is connected with the feeding assembly.

The further improvement to above-mentioned scheme does, adjust the seat and include the regulating plate, locate the adjusting bolt of regulating plate, adjusting bolt is connected with the feed base, vibration controller is installed to regulating plate one side, vibration controller is connected with the disc vibrator.

The feeding assembly comprises a feeding support frame arranged on the adjusting plate, a feeding vibrator arranged on the feeding support frame and a feeding guide rail arranged on the feeding vibrator, wherein one end of the feeding guide rail is connected with the vibration feeding disc, and the other end of the feeding guide rail corresponds to the feeding groove.

The further improvement of the scheme is that the transmission assembly comprises a support plate and a transmission module arranged on the support plate, and the feeding assembly is connected with the transmission module.

The transmission module comprises a transmission base, a transmission guide rail, a transmission screw rod, a transmission seat and a transmission motor, wherein the transmission guide rail is arranged on the transmission base; the feeding base is installed on the transmission seat and linearly transmits along the transmission guide rail along with the transmission seat.

The feeding base is further improved by being provided with a plurality of vacuum adsorption holes, and the vacuum adsorption holes correspond to the feeding grooves.

The feeding block comprises a feeding block, an elastic element arranged on the feeding block and a limiting rod movably connected to the elastic element and extending to the feeding groove.

The scheme is further improved in that the feeding block is machined and formed by tungsten steel, stainless steel, SKD11 or DC 53.

The further improvement of the scheme is that the feeding block is provided with a reset groove, the elastic element is arranged in the reset groove, and the limiting rod is movably connected in the reset groove.

The utility model has the beneficial effects that:

compared with the traditional electronic component sticking shell, the full-automatic electronic component sticking shell has the advantages that the full-automatic feeding of the electronic components is realized by adopting the matching of the automatic feeding, the transmission and the feeding structures, the automation degree is high, the feeding stability is good, a plurality of products can be fed according to the matching of the transmission assembly and the plurality of groups of feeding seats and feeding grooves, the feeding precision is high, and the stability is good. Specifically, a feeding component connected with the feeding component, a transmission component arranged on one side of the feeding component and a feeding component movably arranged on the transmission component are arranged; the feeding assembly feeds the electronic components to the feeding assembly, and the feeding assembly feeds the electronic components to the feeding assembly; the feeding assembly comprises a feeding base connected to the transmission assembly and a plurality of groups of feeding seats uniformly distributed on the feeding base, each feeding seat is provided with a feeding groove, and the feeding assembly sends the electronic elements into the feeding grooves. The feeding is carried out after the full-automatic feeding is adopted, the integral feeding precision is high, the subsequent processing is convenient, the automation degree is high, and the structural reliability is strong.

Drawings

FIG. 1 is a schematic perspective view of a multi-station feeding mechanism according to the present invention;

FIG. 2 is a perspective view of the multi-station feeding mechanism of FIG. 1 from another perspective;

FIG. 3 is a schematic perspective view of a transmission assembly and a feeding assembly of the multi-station feeding mechanism in FIG. 1;

fig. 4 is a schematic perspective view of a feeding seat of the multi-station feeding mechanism in fig. 1.

Description of reference numerals: the feeding device comprises a feeding component 1, a feeding base 11, an adjusting seat 12, an adjusting plate 121, an adjusting bolt 122, a vibration controller 123, a disc vibrator 13, a vibration feeding disc 14, a feeding component 2, a feeding support frame 21, a feeding vibrator 22, a feeding guide rail 23, a transmission component 3, a support plate 31, a transmission module 32, a transmission base 321, a transmission screw rod 322, a transmission seat 323, a transmission motor 324, a feeding component 4, a feeding base 41, a vacuum adsorption hole 411, a feeding seat 42, a feeding block 421, a reset groove 421a, an elastic element 422, a limiting rod 423 and a feeding groove 43.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1 to 4, a multi-station feeding mechanism for electronic component shell attachment comprises a feeding component 1, a feeding component 2 connected to the feeding component 1, a transmission component 3 arranged on one side of the feeding component 2, and a feeding component 4 movably arranged on the transmission component 3; the feeding assembly 1 feeds the electronic components to the feeding assembly 2, and the feeding assembly 2 feeds the electronic components to the feeding assembly 4; the feeding assembly 4 comprises a feeding base 41 connected to the transmission assembly 3 and a plurality of groups of feeding seats 42 uniformly distributed on the feeding base 41, each feeding seat 42 is provided with a feeding groove 43, and the feeding assembly 2 feeds the electronic elements into each feeding groove 43.

The feeding assembly 1 comprises a feeding base 11, an adjusting seat 12 installed on the feeding base 11, a disc vibrator 13 installed on the adjusting seat 12, and a vibration feeding disc 14 installed on the disc vibrator 13, wherein the vibration feeding disc 14 is connected with the feeding assembly 2, the vibration feeding disc 14 is matched with the disc vibrator 13 and used for vibration feeding of electronic elements, the feeding effect is good, and the feeding precision is high.

Adjust seat 12 and include regulating plate 121, locate regulating bolt 122 of regulating plate 121, regulating bolt 122 is connected with feed base 11, vibration controller 123 is installed to regulating plate 121 one side, vibration controller 123 is connected with disc vibrator 13, through regulating plate 121 and regulating bolt 122's effect, can adjust the structure, and vibration controller 123 is used for adjusting vibration frequency.

The feeding assembly 2 comprises a feeding support frame 21 arranged on the adjusting plate 121, a feeding vibrator 22 arranged on the feeding support frame 21, and a feeding guide rail 23 arranged on the feeding vibrator 22, one end of the feeding guide rail 23 is connected with the vibration feeding disc 14, the other end of the feeding guide rail is corresponding to the feeding groove 43, the feeding vibrator 22 is matched with the feeding guide rail 23 to be used for vibration feeding of electronic elements, the feeding effect is good, and the stability coefficient is high.

The transmission assembly 3 comprises a support plate 31 and a transmission module 32 mounted on the support plate 31, and the feeding assembly 4 is connected to the transmission module 32, and the further improvement is that the transmission module 32 comprises a transmission base 321, a transmission guide rail (not shown) mounted on the transmission base 321, a transmission screw 322 erected on the transmission base 321, a transmission seat 323 connected to the transmission guide rail (not shown) in a transmission manner and connected with the transmission screw 322, and a transmission motor 324 mounted on the transmission base 321 and connected with the transmission screw 322 in a driving manner; the feeding base 41 is installed on the transmission seat 323 and linearly transmits along a transmission guide rail (not shown in the figure) along with the transmission seat 323; the transmission motor 324 drives the transmission screw 322 to drive the transmission seat 323 to linearly transmit along the transmission guide rail (not shown in the figure), so that the transmission stability is good.

The feeding base 41 is provided with a plurality of vacuum adsorption holes 411, the vacuum adsorption holes 411 correspond to the feeding grooves 43, and the vacuum adsorption holes 411 are used for adsorption after feeding of electronic elements, so that the stability after feeding is guaranteed.

The feeding base 42 includes a feeding block 421, an elastic element 422 disposed on the feeding block 421, and a limiting rod 423 movably connected to the elastic element 422 and extending to the feeding groove 43, specifically, the elastic element 422 is used for limiting the electronic component after feeding in cooperation with the limiting rod 423, so as to ensure the stability and accuracy of feeding.

The feeding block 421 is formed by tungsten steel, stainless steel, SKD11 or DC53, generally tungsten steel is selected, and SKD11 or DC53 is adopted for processing, so that quenching treatment is needed, and the service life of the structure is ensured.

The feeding block 421 is provided with a reset groove 421a, the elastic element 422 is arranged in the reset groove 421a, the limit rod 423 is movably connected in the reset groove 421a, the reset groove 421a is matched with the limit rod 423 for transmission, and the elastic element 422 is a spring, so that the pushing and the resetting are convenient.

The full-automatic feeding device adopts the matching of automatic feeding, transmission and feeding structures, realizes full-automatic feeding of electronic elements, has high automation degree and good feeding stability, can feed a plurality of products according to the matching of the transmission assembly 3 and a plurality of groups of feeding seats 42 and feeding grooves 43, and has high feeding precision and good stability. Specifically, a feeding component 1, a feeding component 2 connected with the feeding component 1, a transmission component 3 arranged on one side of the feeding component 2, and a feeding component 4 movably arranged on the transmission component 3 are arranged; the feeding assembly 1 feeds the electronic components to the feeding assembly 2, and the feeding assembly 2 feeds the electronic components to the feeding assembly 4; the feeding assembly 4 comprises a feeding base 41 connected to the transmission assembly 3 and a plurality of groups of feeding seats 42 uniformly distributed on the feeding base 41, each feeding seat 42 is provided with a feeding groove 43, and the feeding assembly 2 feeds the electronic elements into each feeding groove 43. The feeding is carried out after the full-automatic feeding is adopted, the integral feeding precision is high, the subsequent processing is convenient, the automation degree is high, and the structural reliability is strong.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A multi-station feeding mechanism for electronic component shelling is characterized in that: comprising a feeding assembly, a feeding assembly connected to the feeding assembly, a transmission assembly arranged on one side of the feeding assembly, and a movable installation on the transmission assembly. A feeding assembly of the assembly; the feeding assembly feeds the electronic components to the feeding assembly, and the feeding assembly feeds the electronic components to the feeding assembly; the feeding assembly includes a feeding base connected to the transmission assembly, and a Several groups of feeding seats are arranged on the feeding base, and each of the feeding seats is provided with a feeding slot, and the feeding assembly sends the electronic components into each feeding slot. 2 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 1 , wherein the feeding assembly comprises a feeding base, an adjusting seat installed on the feeding base, and a circle mounted on the adjusting seat. 3 . A disc vibrator, and a vibrating feed disc mounted on the disc vibrator, the vibrating feed disc is connected with a feed assembly. 3 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 2 , wherein the adjusting seat comprises an adjusting plate and an adjusting bolt arranged on the adjusting plate, and the adjusting bolt is connected with the feeding base. 4 . , a vibration controller is installed on one side of the regulating plate, and the vibration controller is connected with the disc vibrator. 4. The multi-station feeding mechanism for attaching shells of electronic components according to claim 3, wherein the feeding assembly comprises a feeding support frame installed on the adjustment plate, a feeding vibrator installed on the feeding support frame, and It is installed on the feeding guide rail of the feeding vibrator, one end of the feeding guide rail is connected with the vibrating feeding tray, and the other end corresponds to the feeding trough. 5. The multi-station feeding mechanism for attaching shells of electronic components according to claim 1, wherein the transmission assembly comprises a support plate and a transmission module mounted on the support plate, and the feed assembly is connected to a Transmission module. 6 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 5 , wherein the transmission module comprises a transmission module, a transmission base, a transmission guide rail installed on the transmission base, and a transmission base mounted on the transmission base. 7 . The transmission screw, the transmission base connected to the transmission guide rail and the transmission screw, and the transmission motor installed on the transmission base and drivingly connected with the transmission screw; the feed base is installed on the transmission base and follows the transmission base along the transmission guide rail. Linear drive. 7 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 1 , wherein the feeding base is provided with a plurality of vacuum adsorption holes, and the vacuum adsorption holes correspond to each feeding slot. 8 . 8 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 1 , wherein the feeding seat comprises a feeding block, an elastic element arranged on the feeding block, and an elastic element movably connected to the elastic element. 9 . element and extend to the limit rod of the feed chute. 9 . The multi-station feeding mechanism for attaching shells of electronic components according to claim 8 , wherein the feeding block is processed and formed by tungsten steel, stainless steel, SKD11 or DC53. 10 . 10 . The multi-position feeding mechanism for attaching shells of electronic components according to claim 9 , wherein the feeding block is provided with a reset groove, the elastic element is placed in the reset groove, and the limit rod is 10 . It can be movably connected in the reset slot.

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