CN111746910A

CN111746910A - Packing tube structure for packing micro integrated circuit

Info

Publication number: CN111746910A
Application number: CN202010701916.5A
Authority: CN
Inventors: 蔡少辉; 陈博文
Original assignee: Longyan Yunhui Enterprise Technology Co ltd
Current assignee: Longyan Yunhui Enterprise Technology Co ltd
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2020-10-09

Abstract

The invention discloses a packaging tube structure for packaging a microminiature integrated circuit, which comprises a tube body, a fixing hole, a guide rail, a chute and a separation guide mechanism, wherein the separation guide mechanism is arranged in the tube body to push the integrated circuit into the tube body, the integrated circuit can be separated by a partition plate, and with the addition of the integrated circuit, the belt can be driven at the upper ends of the first rotating wheel and the second rotating wheel, the integrated circuits are stably conveyed, the advantages that the integrated circuits can be separately placed and prevented from being mutually staggered are achieved, through separating inside slewing mechanism that has set up of guiding mechanism, down pressing the knob, make the lug embedding in the recess inboard of axis of rotation bottom, rotate the knob afterwards, make the axis of rotation drive first runner through the lug and rotate, reach and to drive first runner fast and carry out pivoted advantage.

Description

Packing tube structure for packing micro integrated circuit

Technical Field

The invention relates to the field related to electronic element packaging, in particular to a packaging tube structure for packaging a microminiature integrated circuit.

Background

With the development of electronic technology, the early electronic industry standard SJ/T10147-91 can not meet the requirements of modern technology, and in recent years, integrated circuit packaging testing companies design SSOP series packaging tube section structures to package SSOP integrated circuits according to the external dimensions of the SSOP integrated circuits.

The packing tube structure for packing the micro integrated circuit is generally simple in structure, the integrated circuit is often placed one by one and enters the packing tube in the packing process, so that the integrated circuits are mutually overlapped and staggered, and the packing tube structure for packing the micro integrated circuit is not easy to separate and place the integrated circuits, so that the integrated circuits are mutually staggered.

Disclosure of Invention

Accordingly, to address the above-mentioned deficiencies, the present invention provides a packaging tube structure for packaging miniaturized integrated circuits.

The invention is realized in such a way that a packaging tube structure for packaging a microminiature integrated circuit is constructed, the device comprises a tube body, fixing holes, a guide rail, a sliding chute and a separation guide mechanism, the upper side and the lower side of the front end of the tube body are oppositely provided with the fixing holes, the separation guide mechanism is fixedly installed and fixed in the left end inside the tube body and fixedly connected with the left end, the separation guide mechanism comprises a fixing frame, a first rotating wheel, a rotating mechanism, a belt, a partition plate, a tensioning mechanism and a second rotating wheel, the fixing frame is fixedly connected with the left end inside the tube body, the first rotating wheel is rotatably connected with the left end inside the fixing frame through a hinge shaft, the top of the first rotating wheel is provided with the rotating mechanism, the first rotating wheel is in transmission connection with the second rotating wheel through the belt, the partition plate is equidistantly.

Preferably, the inside lower extreme of body is provided with the guided way, the spout has been seted up relatively to the inside lower extreme left and right sides of body.

Preferably, slewing mechanism includes knob, axis of rotation, stopper, reset spring and lug, the axis of rotation imbeds in body upper left end and fixed frame upper right end, knob and axis of rotation top fixed connection, the axis of rotation is fixed as an organic whole with the stopper middle part, the stopper passes through reset spring and fixed frame upper end elastic connection, axis of rotation lower extreme equidistance distributes and has the lug.

Preferably, the tensioning mechanism comprises a tensioning wheel, a side lever, a fixing block, a buffer spring, a bearing block and a positioning shaft, the bearing block is locked and fixed with the upper left end inside the fixing frame through a screw, the side lever is rotatably connected with the left end of the bearing block through the positioning shaft, the tensioning wheel is rotatably connected with the middle of the side lever through a hinge shaft, the side lever is locked and fixed with the lower end of the fixing block through a screw, the fixing block is elastically connected with the upper left end of the bearing block through the buffer spring, and the tensioning wheel is in transmission connection with the rear end of the belt.

Preferably, the receiving block is in a V shape, and the receiving block is embedded in the right end of the buffer spring.

Preferably, the height of the tensioning wheel is the same as the height of the first and second wheels, and the first and second wheels are arranged parallel to each other.

Preferably, the fixed frame is provided with two altogether to the fixed frame is the symmetrical form distribution along the inside left and right sides of body.

Preferably, two fixed frame inside all is provided with first runner, belt, baffle, straining device and second runner to fixed frame inside all is the cavity form.

Preferably, the lugs are arranged in four, and the lugs are embedded in the middle of the top of the first rotating wheel.

Preferably, the upper end of the knob is provided with strip-shaped anti-skid grains which are distributed at equal intervals along the edge of the upper end of the knob.

Preferably, the rotating shaft is made of carbon steel and has high hardness.

Preferably, the return spring is made of spring steel and has excellent elastic potential energy.

The invention has the following advantages: the invention provides a packing tube structure for packing micro integrated circuits by improvement, compared with the same type of equipment, the packing tube structure has the following improvements:

the method has the advantages that: according to the packaging tube structure for packaging the micro integrated circuits, the integrated circuits are pushed to the inside of the tube body by arranging the separation guide mechanism in the tube body, the integrated circuits can be separated by the partition plate, and the belt can drive the upper ends of the first rotating wheel and the second rotating wheel along with the addition of the integrated circuits, so that the integrated circuits are conveyed stably, and the advantages that the integrated circuits can be separated and placed and the integrated circuits are prevented from being staggered together are achieved.

The method has the advantages that: according to the packaging tube structure for packaging the micro integrated circuit, the rotating mechanism is arranged in the separation guide mechanism, the knob is pressed downwards to enable the convex block at the bottom of the rotating shaft to be embedded into the inner side of the groove, and then the knob is rotated to enable the rotating shaft to drive the first rotating wheel to rotate through the convex block, so that the advantage that the first rotating wheel can be rapidly driven to rotate is achieved.

The method has the advantages that: according to the packaging tube structure for packaging the micro integrated circuit, the tensioning mechanism is arranged in the separation guide mechanism, and when the belt is conveyed, the belt drives the side rods to press the buffer springs to deform through the tensioning wheel, so that the vibration force generated at the upper end of the belt is absorbed, the belt is stably driven, and the advantage of stably conveying the integrated circuit is achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the packing tube structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the partition guide mechanism of the present invention;

FIG. 4 is a schematic side view of the rotating mechanism of the present invention;

fig. 5 is a schematic cross-sectional view of the tensioning mechanism of the present invention.

Wherein: the device comprises a pipe body-1, a fixing hole-2, a guide rail-3, a sliding groove-4, a separation guide mechanism-5, a fixing frame-51, a first rotating wheel-52, a rotating mechanism-53, a belt-54, a partition-55, a tensioning mechanism-56, a second rotating wheel-57, a knob-531, a rotating shaft-532, a limiting block-533, a return spring-534, a bump-535, a tensioning wheel-561, a side rod-562, a fixing block-563, a buffer spring-564, a bearing block-565, a positioning shaft-566 and a groove-521.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1 and 2, the present invention provides a packing tube structure for packing a micro integrated circuit by improvement, including a tube body 1, fixing holes 2, guide rails 3, sliding chutes 4 and partition guide mechanisms 5, wherein the fixing holes 2 are oppositely disposed on the upper and lower sides of the front end of the tube body 1, the partition guide mechanisms 5 are fixedly mounted on the left end inside the tube body 1 for fixed connection, the guide rails 3 are disposed on the lower end inside the tube body 1, and the sliding chutes 4 are oppositely disposed on the left and right sides of the lower end inside the tube body 1.

Referring to fig. 3, the present invention provides a packing tube structure for packing a micro integrated circuit by improving a partition guide mechanism 5, which includes a fixing frame 51, a first rotating wheel 52, a rotating mechanism 53, a belt 54, a partition 55, a tension mechanism 56 and a second rotating wheel 57, the fixing frame 51 is fixedly connected to the left end inside a tube body 1, the first rotating wheel 52 is rotatably connected to the left end inside the fixing frame 51 through a hinge shaft, the rotating mechanism 53 is disposed on the top of the first rotating wheel 52, the first rotating wheel 52 is in transmission connection with the second rotating wheel 57 through the belt 54, the partition 55 is equidistantly disposed on the upper edge of the belt 54, the tension mechanism 56 is fixedly connected to the left upper end inside the fixing frame 51, two fixing frames 51 are disposed, the fixing frames 51 are symmetrically disposed along the left and right sides inside the tube body 1, the first rotating wheel 52, the belt 54, the partition 55, the tension mechanism 56 and the second rotating wheel 57 are disposed, and the fixing frame 51 is hollow inside.

Referring to fig. 4, the present invention provides a packaging tube structure for packaging a micro integrated circuit by improving the structure, wherein the rotating mechanism 53 comprises a knob 531, a rotating shaft 532, a limiting block 533, a return spring 534 and four protrusions 535, the rotating shaft 532 is embedded in the left upper end of the tube body 1 and the right upper end of the fixing frame 51, the knob 531 is fixedly connected to the top of the rotating shaft 532, the middle of the rotating shaft 532 and the limiting block 533 are fixed together, the limiting block 533 is elastically connected to the upper end of the fixing frame 51 through the return spring 534, the protrusions 535 are equidistantly distributed at the lower end of the rotating shaft 532, the number of the protrusions 535, and the lug 535 is embedded in the middle of the top of the first rotating wheel 52, the upper end of the knob 531 is provided with a strip-shaped anti-skid thread, the anti-slip patterns are distributed at equal intervals along the edge of the upper end of the knob 531, so that the anti-slip effect is favorably achieved, the rotating shaft 532 is made of carbon steel and high in hardness, and the return spring 534 is made of spring steel and has excellent elastic potential energy.

Referring to fig. 5, the present invention provides a packing tube structure for packing a micro integrated circuit by improving a structure of a packing tube, wherein a tension mechanism 56 includes a tension wheel 561, a side lever 562, a fixed block 563, a buffer spring 564, a receiving block 565 and a positioning shaft 566, the receiving block 565 is locked and fixed with a left upper end of an inner portion of a fixing frame 51 by a screw, the side lever 562 is rotatably connected with a left end of the receiving block 565 by the positioning shaft 566, the tension wheel 561 is rotatably connected with a middle portion of the side lever 562 by a hinge shaft, the side lever 562 is locked and fixed with a lower end of the fixed block 563 by a screw, the fixed block 563 is elastically connected with a left upper end of the receiving block 565 by the buffer spring 564, the tension wheel 561 is in transmission connection with a rear end of a belt 54, the receiving block 565 is V-shaped, the receiving block 565 is embedded in a right end of the buffer spring 564, a height of the tension wheel 561 is the same as a height of, it is advantageous to serve to make the belt 54 smoothly travel.

Example two:

the invention provides a packaging tube structure for packaging a microminiature integrated circuit by improving, the central lines of a knob 531, a rotating shaft 532, a limit block 533 and a return spring 534 are in the same vertical direction, which is beneficial to the effect of enabling the rotating shaft 532 to rotate stably, the middle part of a first rotating wheel 52 is provided with a groove 521, and a lug 535 is embedded in the inner side of the groove 521, which is beneficial to the effect of driving the first rotating wheel 52 to rotate.

The invention provides a packing tube structure for packing a microminiature integrated circuit through improvement, and the working principle is as follows;

firstly, before use, a packaging tube structure for packaging the micro integrated circuit is horizontally placed, so that the tube body 1 fixedly supports the packaging tube structure;

secondly, when the integrated circuit conveying device is used, the integrated circuits are placed into the tube body 1 one by one, the integrated circuits can be separated through the partition plate 55, the belt 54 can drive the upper ends of the first rotating wheel 52 and the second rotating wheel 57 along with the addition of the integrated circuits, the integrated circuits can be conveyed stably, the integrated circuits can be placed in a separated mode, and the integrated circuits are prevented from being staggered together;

thirdly, when the belt 54 is conveyed, the belt 54 drives the side rod 562 to press the buffer spring 564 to deform through the tension wheel 561, so as to absorb the vibration force generated at the upper end of the belt 54, so that the belt 54 is stably driven, and the integrated circuit can be stably conveyed;

fourthly, when the integrated circuit is to be taken out, the knob 531 is pressed downwards to make the bump 535 at the bottom of the rotating shaft 532 embedded in the inner side of the groove 521, and then the knob 531 is rotated to make the rotating shaft 532 drive the first rotating wheel 52 to rotate through the bump 535, so that the belt 54 conveys the integrated circuit out;

fifthly, when the pressure on the knob 531 is removed, the return spring 534 drives the rotation shaft 532 to return to a proper position by restoring the deformed elastic potential energy, so that the rotation shaft 532 does not drive the first rotation wheel 52 to rotate, the rotation of the knob 531 can be prevented, and the rotation of the first rotation wheel 52 is driven.

The invention provides a packaging tube structure for packaging a microminiature integrated circuit by improvement, a separation guide mechanism 5 is arranged in a tube body 1, the integrated circuit is pushed to the inside of the tube body 1, the integrated circuit can be separated by a partition plate 55, and a belt 54 can be driven at the upper ends of a first rotating wheel 52 and a second rotating wheel 57 along with the addition of the integrated circuit, so that the integrated circuit is stably conveyed, and the advantages of separating the integrated circuit and preventing the integrated circuit from being staggered together are achieved; the rotating mechanism 53 is arranged in the separation guide mechanism 5, the knob 531 is pressed downwards, the lug 535 at the bottom of the rotating shaft 532 is embedded into the inner side of the groove 521, and then the knob 531 is rotated, so that the rotating shaft 532 drives the first rotating wheel 52 to rotate through the lug 535, and the advantage that the first rotating wheel 52 can be quickly driven to rotate is achieved; through having set up straining device 56 in separating guiding mechanism 5 inside, when belt 54 carries, belt 54 drives side lever 562 through take-up pulley 561 and presses buffer spring 564 to produce deformation to absorb the vibrational force that belt 54 upper end produced, make belt 54 steadily transmit, reached and to have made the advantage that the steady transport of integrated circuit.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A packaging tube structure for packaging a microminiature integrated circuit comprises a tube body (1), fixing holes (2), a guide rail (3) and a sliding chute (4), wherein the fixing holes (2) are oppositely formed in the upper side and the lower side of the front end of the tube body (1);

the method is characterized in that: also comprises a separation guide mechanism (5), the separation guide mechanism (5) is fixedly arranged in the tube body (1) and is fixedly connected with the left end, the separation guide mechanism (5) comprises a fixed frame (51), a first rotating wheel (52), a rotating mechanism (53), a belt (54), a partition plate (55), a tensioning mechanism (56) and a second rotating wheel (57), the fixed frame (51) is fixedly connected with the left end inside the pipe body (1), the first rotating wheel (52) is rotatably connected with the left end inside the fixed frame (51) through a hinge shaft, the top of the first rotating wheel (52) is provided with a rotating mechanism (53), the first rotating wheel (52) is in transmission connection with a second rotating wheel (57) through a belt (54), the edge equidistance of belt (54) upper end distributes has baffle (55), straining device (56) and fixed frame (51) inside upper left end fixed connection.

2. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 1, wherein: the guide rail (3) is arranged at the lower end inside the pipe body (1), and the sliding grooves (4) are formed in the left side and the right side of the lower end inside the pipe body (1) relatively.

3. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 1, wherein: slewing mechanism (53) include knob (531), axis of rotation (532), stopper (533), reset spring (534) and lug (535), axis of rotation (532) are embedded in body (1) upper left end and fixed frame (51) upper right end, knob (531) and axis of rotation (532) top fixed connection, axis of rotation (532) and stopper (533) middle part are fixed as an organic whole, stopper (533) are through reset spring (534) and fixed frame (51) upper end elastic connection, axis of rotation (532) lower extreme equidistance distributes and has lug (535).

4. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 1, wherein: tensioning mechanism (56) include take-up pulley (561), side lever (562), fixed block (563), buffer spring (564), accept piece (565) and location axle (566), it is fixed with fixed frame (51) inside upper left end locking through the screw to accept piece (565), side lever (562) are connected with the rotation of the left end of accepting piece (565) through location axle (566), take-up pulley (561) rotate with side lever (562) middle part through the hinge pin and are connected, side lever (562) are fixed with fixed block (563) lower extreme locking through the screw, fixed block (563) pass through buffer spring (564) and accept piece (565) upper left end elastic connection, take-up pulley (561) are connected with belt (54) rear end transmission.

5. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 4, wherein: the receiving block (565) is in a V shape, and the receiving block (565) is embedded in the right end of the buffer spring (564).

6. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 4, wherein: the height of the tension wheel (561) is the same as that of the first rotating wheel (52) and the second rotating wheel (57), and the first rotating wheel (52) and the second rotating wheel (57) are distributed in parallel.

7. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 1, wherein: the number of the fixed frames (51) is two, and the fixed frames (51) are symmetrically distributed along the left side and the right side inside the pipe body (1).

8. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 1, wherein: the two fixing frames (51) are internally provided with a first rotating wheel (52), a belt (54), a partition plate (55), a tensioning mechanism (56) and a second rotating wheel (57), and the fixing frames (51) are internally hollow.

9. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 3, wherein: the lugs (535) are arranged in four, and the lugs (535) are embedded in the middle of the top of the first rotating wheel (52).

10. The structure of packaging tube for packaging miniaturized integrated circuits as claimed in claim 3, wherein: the anti-skidding structure is characterized in that strip-shaped anti-skidding lines are arranged at the upper end of the knob (531), and the anti-skidding lines are distributed at equal intervals along the edge of the upper end of the knob (531).