CN111994635A - Electronic components material loading carries gas rail - Google Patents

Abstract

The invention discloses an electronic component feeding and conveying air rail which comprises a supporting bottom plate, a rail main body and a rail upper cover plate, wherein the rail main body is arranged on the supporting bottom plate; the track upper cover plate is arranged on the track main body; the rail main body is provided with a material moving rail; air blowing ports are formed in the traveling track in a staggered mode; the air blowing port is obliquely arranged towards the feeding direction. The utility model provides an electronic components material loading transport gas rail, adopt the track main part to be double dislocation gas pocket, can evenly blow, transport the product to the export track, the gaseous guide block of blowback will be the product blowback to feed mechanism when the bottom plate leads to ordinary mill is with malleation gas, prevent to block the product, blow and breathe in at the export track and connect and provide under the condition of power, the export track can be inhaled the product on the track, perhaps blow off the track with the product, avoid causing the damage of product.

Description

Electronic components material loading carries gas rail

Technical Field

The invention relates to feeding equipment for conveying high-precision products, in particular to conveying and feeding of electronic components in the semiconductor testing and packaging industry.

Background

A series of testing operations are required to be performed on a semiconductor device (i.e., a chip) before taping, and currently, no integrated device capable of simultaneously performing the testing and taping operations exists in the market, so that the production efficiency of the semiconductor device testing taping is low. In addition, because the semiconductor device has small volume and light weight and is not suitable for being conveyed by a conveying belt, the difficulty of realizing stable and continuous feeding is higher.

At present, rail conveying rails of some high-precision products are single-row air blowing holes, air blowing is uneven, the products or electronic components can be clamped in the rails, a back blowing mechanism is not arranged, the products can only be manually taken out, an outlet rail does not suck the products on the rails, the products are pressed on the rails, and the products are easily damaged.

For example, chinese patent CN201920705376.0 is a feeding air rail mechanism for chip testing sorting machine; CN201521135797.2 a feeding device based on gas track. Adopt single blowing gas port to do not set up reverse blowing design, the easy card material is not said, still must artifically take out the product behind the card material, influences production efficiency, inconvenience very.

Disclosure of Invention

The problem to be solved by the present invention is to provide an improvement or an alternative to the above-mentioned disadvantages in the prior art, in particular to an improvement or an alternative to prevent material jamming and to improve the conveying efficiency.

In order to solve the problems, the invention adopts the following scheme: an electronic component feeding and conveying air rail comprises a supporting bottom plate, a rail main body and a rail upper cover plate, and is characterized in that the rail main body is arranged on the supporting bottom plate; the track upper cover plate is arranged on the track main body; the rail main body is provided with a material moving rail; air blowing ports are formed in the traveling track in a staggered mode; the air blowing port is obliquely arranged towards the feeding direction.

Further, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that an outlet rail is arranged on the rail main body; and the outlet track is provided with a blowing and sucking joint.

Further, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that a limiting groove matched with the material moving rail is arranged on the inner side of the rail upper cover plate; a slide bar is arranged in the limiting groove; a feeding groove is formed in the rail main body; the traveling material rail is arranged in the feeding groove; the material moving rail is formed by splicing a left material moving rail and a right material moving rail; a row of air blowing openings are respectively formed in the left material conveying rail and the right material conveying rail, and the air blowing openings after the left material conveying rail and the right material conveying rail are spliced are arranged in a staggered mode; and the air blowing ports on the left material conveying rail and the right material conveying rail share one air supply channel.

Further, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that a vibration device is arranged above the upper cover plate of the rail; the vibration device is fixedly arranged on the supporting bottom plate through a connecting piece; the vibration device is used for vibrating the track main body to assist feeding.

Further, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that a reverse blowing gas guide block is arranged on the outlet rail; the reverse blowing gas guide block comprises a left reverse blowing gas guide block and a right reverse blowing gas guide block.

Further, according to the above design scheme, the electronic component feeding and conveying air rail is characterized in that the slide bars are arranged along the material moving direction; at least two sliding strips are arranged; the sliding strips are arranged in parallel.

Furthermore, according to the above design scheme, the electronic component feeding and conveying air rail is characterized in that the vibration device comprises a mounting plate, an electromagnetic device and an adjusting and mounting bracket; the mounting plate is fixedly connected with the supporting bottom plate through a connecting piece; the adjusting and mounting brackets are uniformly distributed on the mounting plate; the electromagnetic device is arranged on the adjusting and mounting bracket; the adjusting and mounting bracket is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track.

Further, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that an installation chute is arranged on the installation plate; the adjusting and mounting bracket is arranged in the mounting chute; the adjusting and mounting bracket can be freely adjusted in a sliding way in the mounting chute and is fixed by a bolt; the vibration head of the electromagnetic device is provided with a rubber head; the rubber head is in close contact with the upper cover plate of the track.

Furthermore, according to the above design scheme, the electronic component feeding and conveying gas rail is characterized in that the adjusting and mounting bracket comprises a fine adjustment gear and a fixing bolt; the fine adjustment gear is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track; the fixing bolt is used for fixing the electromagnetic device on the adjusting and mounting bracket.

The invention has the following technical effects: the invention discloses a novel electronic component conveying air rail, wherein the rail main body is provided with double rows of staggered air holes, air can be uniformly blown to convey products to an outlet rail, a back blowing air guide block can back blow the products to a feeding mechanism when a bottom plate is communicated with positive pressure air used by a common factory to prevent the products from being clamped, and the outlet rail can suck the products on the rail or blow the products out of the rail under the condition that the air blowing and air suction joint of the outlet rail provides power, so that the products are prevented from being damaged

On the premise of the design of the staggered double air outlets, the front end and the rear end of the track main body are respectively provided with an air blowing joint and an air suction joint; the positioning device is used for temporarily positioning conveyed products on the track main body, and is beneficial to adjusting feeding. When the feeding is required to be suspended, the product can be fixed by suction; when the feeding needs to be recovered, the product is blown out by blowing air to recover the feeding.

Meanwhile, the conveying air rail in the prior art is easy to clamp and stop at the end part of the fed material, and can only be taken out manually at the moment, so that the production is not facilitated. For this reason, this application is equipped with the gaseous guide block of reverse blowing on the export track, and the gaseous guide block of reverse blowing includes that the gaseous guide block of reverse blowing in left side and the gaseous guide block of reverse blowing in right side can blow the product back feed mechanism after the card material.

In addition, the vibration auxiliary feeding device is additionally arranged, the vibration device is arranged on the cover plate on the rail, the whole rail is vibrated, the product is conveyed in an auxiliary mode, and the product is prevented from being blocked.

Drawings

Fig. 1 is a schematic perspective view of an electronic component feeding and conveying air rail.

Fig. 2 is a schematic view of a three-dimensional structure of an electronic component feeding and conveying air rail with an upper cover plate removed.

Fig. 3 is a schematic structural view of a cross section of an upper cover plate of a rail of an electronic component feeding and conveying air rail.

Fig. 4 is a schematic structural diagram of a vibration device.

Fig. 5 is a partially enlarged structural diagram of the traveling material rail.

The device comprises a gas blowing and suction connector 1, a gas blowing and suction connector 2, an outlet track 3, a track main body 4, a back blowing gas guide block 5, a support bottom plate 6, a connecting piece 7 and a track upper cover plate; 8. the device comprises a mounting plate, 9, an adjusting mounting bracket, 10, an electromagnetic device, 11, a mounting chute, 12, a fine adjustment gear, 13, a fixing bolt, 14 air blowing openings, 15, a traveling material rail, 16, a feeding chute, 17 and a slide bar.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The structure schematic diagram of the invention comprises a figure 1 and a figure 2, and the embodiment thereof is as follows: the outlet rail blows and the suction connector 1 and the rear end outlet rail blows and the suction connector 2 is connected with the outlet rail 8, the outlet rail 8 is connected with the rail main body 3, the rail main body 3 is connected with the supporting bottom plate 5, the left side blowback gas guide block 4 and the right side blowback gas guide block 6 are connected with the rail main body 3, the rail upper cover plate gasket 9 is filled between the rail upper cover plate 7 and the rail main body 3, the rail upper cover plate 7 is connected with the rail main body 3, and the lower part of the supporting bottom plate 5 can be connected with the general air pressure of a factory.

1, implementation: an electronic component feeding and conveying air rail comprises a supporting base plate, a rail main body and a rail upper cover plate, wherein the rail main body is arranged on the supporting base plate; the track upper cover plate is arranged on the track main body; the rail main body is provided with a material moving rail; air blowing ports are formed in the traveling track in a staggered mode; the air blowing port is obliquely arranged towards the feeding direction; an outlet track is arranged on the track main body; the outlet track is provided with a blowing and sucking joint; the inner side of the upper cover plate of the track is provided with a limit groove matched with the material moving track; a slide bar is arranged in the limiting groove; a feeding groove is formed in the rail main body; the traveling material rail is arranged in the feeding groove; the material moving rail is formed by splicing a left material moving rail and a right material moving rail; a row of air blowing openings are respectively formed in the left material conveying rail and the right material conveying rail, and the air blowing openings after the left material conveying rail and the right material conveying rail are spliced are arranged in a staggered mode; the air blowing ports on the left material conveying rail and the right material conveying rail share one air supply channel; a vibration device is arranged above the upper cover plate of the track; the vibration device is fixedly arranged on the supporting bottom plate through a connecting piece; the vibration device is used for vibrating the track main body to assist feeding.

Implementation 2: an electronic component feeding and conveying air rail comprises a supporting base plate, a rail main body and a rail upper cover plate, wherein the rail main body is arranged on the supporting base plate; the track upper cover plate is arranged on the track main body; the rail main body is provided with a material moving rail; air blowing ports are formed in the traveling track in a staggered mode; the air blowing port is obliquely arranged towards the feeding direction; the track main body is provided with a rear end outlet track; the outlet track is provided with a blowing and sucking joint; the inner side of the upper cover plate of the track is provided with a limit groove matched with the material moving track; a slide bar is arranged in the limiting groove; a feeding groove is formed in the rail main body; the traveling material rail is arranged in the feeding groove; the material moving rail is formed by splicing a left material moving rail and a right material moving rail; a row of air blowing openings are respectively formed in the left material conveying rail and the right material conveying rail, and the air blowing openings after the left material conveying rail and the right material conveying rail are spliced are arranged in a staggered mode; the air blowing ports on the left material conveying rail and the right material conveying rail share one air supply channel; a vibration device is arranged above the upper cover plate of the track; the vibration device is fixedly arranged on the supporting bottom plate through a connecting piece; the vibration device is used for vibrating the track main body to assist feeding; the outlet track is provided with a reverse blowing gas guide block; the reverse blowing gas guide block comprises a left reverse blowing gas guide block and a right reverse blowing gas guide block; the sliding strips are arranged along the material moving direction; at least two sliding strips are arranged; the sliding strips are arranged in parallel; the vibration device comprises a mounting plate, an electromagnetic device and an adjusting mounting bracket; the mounting plate is fixedly connected with the supporting bottom plate through a connecting piece; the adjusting and mounting brackets are uniformly distributed on the mounting plate; the electromagnetic device is arranged on the adjusting and mounting bracket; the adjusting and mounting bracket is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track; the mounting plate is provided with a mounting chute; the adjusting and mounting bracket is arranged in the mounting chute; the adjusting and mounting bracket can be freely adjusted in a sliding way in the mounting chute and is fixed by a bolt; the vibration head of the electromagnetic device is provided with a rubber head; the rubber head is in close contact with the upper cover plate of the track; the adjusting and mounting bracket comprises a fine adjusting gear and a fixing bolt; the fine adjustment gear is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track; the fixing bolt is used for fixing the electromagnetic device on the adjusting and mounting bracket.

Claims (9)

1. An electronic component feeding and conveying air rail comprises a supporting bottom plate, a rail main body and a rail upper cover plate, and is characterized in that the rail main body is arranged on the supporting bottom plate; the track upper cover plate is arranged on the track main body; the rail main body is provided with a material moving rail; air blowing ports are formed in the traveling track in a staggered mode; the air blowing port is obliquely arranged towards the feeding direction.

2. The electronic component feeding and conveying air rail as claimed in claim 1, wherein an outlet rail is arranged on the rail body; and the outlet track is provided with a blowing and sucking joint.

3. The electronic component feeding and conveying air rail as claimed in claim 1, wherein a limiting groove matched with the material conveying rail is formed in the inner side of the upper cover plate of the rail; a slide bar is arranged in the limiting groove; a feeding groove is formed in the rail main body; the traveling material rail is arranged in the feeding groove; the material moving rail is formed by splicing a left material moving rail and a right material moving rail; a row of air blowing openings are respectively formed in the left material conveying rail and the right material conveying rail, and the air blowing openings after the left material conveying rail and the right material conveying rail are spliced are arranged in a staggered mode; and the air blowing ports on the left material conveying rail and the right material conveying rail share one air supply channel.

4. The electronic component feeding and conveying air rail as claimed in claim 1, wherein a vibration device is arranged above the upper cover plate of the rail; the vibration device is fixedly arranged on the supporting bottom plate through a connecting piece; the vibration device is used for vibrating the track main body to assist feeding.

5. The electronic component feeding and conveying gas rail as claimed in claim 2, wherein a reverse blowing gas guide block is arranged on the outlet rail; the reverse blowing gas guide block comprises a left reverse blowing gas guide block and a right reverse blowing gas guide block.

6. The electronic component feeding and conveying air rail as claimed in claim 3, wherein the slide bar is arranged along a feeding direction; at least two sliding strips are arranged; the sliding strips are arranged in parallel.

7. The electronic component feeding and conveying air rail as claimed in claim 4, wherein the vibration device comprises a mounting plate, an electromagnetic device and an adjusting mounting bracket; the mounting plate is fixedly connected with the supporting bottom plate through a connecting piece; the adjusting and mounting brackets are uniformly distributed on the mounting plate; the electromagnetic device is arranged on the adjusting and mounting bracket; the adjusting and mounting bracket is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track.

8. The electronic component feeding and conveying air rail as claimed in claim 7, wherein the mounting plate is provided with a mounting chute; the adjusting and mounting bracket is arranged in the mounting chute; the adjusting and mounting bracket can be freely adjusted in a sliding way in the mounting chute and is fixed by a bolt; the vibration head of the electromagnetic device is provided with a rubber head; the rubber head is in close contact with the upper cover plate of the track.

9. The electronic component feeding and conveying air rail as claimed in claim 7, wherein the adjusting and mounting bracket comprises a fine adjustment gear and a fixing bolt; the fine adjustment gear is used for adjusting the distance between the electromagnetic device and the upper cover plate of the track; the fixing bolt is used for fixing the electromagnetic device on the adjusting and mounting bracket.

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