CN112027621A

CN112027621A - DIP14 crystal oscillator transfer clamp

Info

Publication number: CN112027621A
Application number: CN202010788824.5A
Authority: CN
Inventors: 睢建平; 唐梦杰; 白爱霞; 哈斯图亚; 刘小光
Original assignee: Beijing Institute of Radio Metrology and Measurement
Current assignee: Beijing Institute of Radio Metrology and Measurement
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2020-12-04

Abstract

The invention discloses a DIP14 crystal oscillator transfer clamp which comprises a bearing clamp for placing a DIP14 crystal oscillator and an inverted transfer disc reversely buckled on the bearing clamp, wherein a bearing platform is arranged on the bearing clamp, an inner groove matched with the bearing platform is arranged on the inverted transfer disc, and a crystal oscillator positioning mechanism is arranged on the bearing platform. The invention can meet the batch transfer of DIP14 crystal oscillator by arranging the bearing clamp and the inverted transfer disc with the inner groove; through setting up positioning mechanism, guarantee the crystal oscillator and move the safety of carrying the in-process, avoid damaging the crystal oscillator because of rocking. By adopting the transfer clamp, 100 DIP14 crystal oscillators can be transferred at most at one time, the transfer speed and efficiency of the DIP14 crystal oscillator are improved, and the transfer requirement in batch production of DIP14 crystal oscillators is met.

Description

DIP14 crystal oscillator transfer clamp

Technical Field

The invention relates to the technical field of transfer clamps, in particular to a DIP14 crystal oscillator transfer clamp.

Background

DIP14 packaging is a packaging form widely used in the field of components, and such packaging is also widely used in the packaging of crystal oscillator products. In the batch production and test process of the DIP14 crystal oscillator, a large amount of DIP14 crystal oscillators need to be carried out with the load-bearing clamp, and higher requirements on the transfer speed and efficiency are provided, so that the DIP14 crystal oscillator transfer clamp needs to be designed, the transfer speed and efficiency of the DIP14 crystal oscillator are improved, and the transfer requirement during the batch production of the DIP14 crystal oscillators is met.

The traditional DIP14 crystal oscillator transfer is carried out by manual picking and placing, the speed is slow, the efficiency is low, and the transfer requirement in batch production of DIP14 crystal oscillators cannot be met.

Disclosure of Invention

The invention aims to provide a DIP14 crystal oscillator transfer clamp for solving the problem that the traditional manual transfer taking and placing speed is low and the efficiency is low, and the rapid and efficient transfer of a DIP14 crystal oscillator is realized.

In order to achieve the above purpose, the invention provides the following technical scheme:

the invention relates to a DIP14 crystal oscillator transfer clamp which comprises a bearing clamp for placing a DIP14 crystal oscillator and an inverted transfer disc reversely buckled on the bearing clamp, wherein a bearing platform is arranged on the bearing clamp, an inner groove matched with the bearing platform is arranged on the inverted transfer disc, and a crystal oscillator positioning mechanism is arranged on the bearing platform.

Compared with the prior art, the batch transfer of DIP14 crystal oscillators can be met by arranging the bearing clamp and the inverted transfer disc with the inner groove; through setting up positioning mechanism, guarantee the safety of crystal oscillator at the transfer in-process, avoid moving the in-process and damage the crystal oscillator because of rocking. By adopting the transfer clamp, 100 DIP14 crystal oscillators can be transferred at most at one time, the transfer speed and efficiency of the DIP14 crystal oscillator are improved, and the transfer requirement in batch production of DIP14 crystal oscillators is met.

Preferably, a plurality of clamping grooves are formed in the bearing platform and arranged side by side, the crystal oscillators are placed in the clamping grooves side by side, each clamping groove is composed of fixing strips arranged at two ends of the DIP14 crystal oscillator, and an opening between the end parts of the fixing strips is set as a crystal oscillator inlet or a crystal oscillator outlet.

Preferably, the sum of the depth of the inner groove on the flip chip transfer tray and the depth of the clamping groove on the bearing platform is equal to the thickness of a DIP14 crystal oscillator.

Preferably, the size of the inner groove on the flip-chip transfer tray is consistent with that of the bearing platform.

Preferably, the length of the clamping groove is an integral multiple of the crystal oscillation width or length of DIP 14.

Preferably, the bearing clamp is composed of a top plate used as a bearing platform and side plates for supporting the top plate, and the space between the side plates forms a transferring space for placing the transferring tool.

Preferably, the crystal oscillator positioning mechanism is a positioning strip, the positioning strip is placed in the middle of each row of DIP14 crystal oscillators, the axis of the positioning strip is perpendicular to the axis of the clamping grooves, the length of the positioning strip is equal to the span between the outermost clamping grooves, and an anti-skid layer is arranged on the matching surface of the positioning strip and the clamping grooves.

Preferably, a crystal buffer layer is provided in the inner tank.

The DIP14 crystal oscillator transfer clamp provided by the invention has the same beneficial effects as the test clamp, and is not repeated herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a structural diagram of a DIP14 crystal oscillator transfer jig according to the present invention;

fig. 2 is a schematic structural view of a flip-chip transfer tray.

Reference numerals:

1-upside-down loading tray, 2-loading clamp, 3-positioning strip, 4-DIP14 crystal oscillator, 5-clamping groove, 6-inner groove, 7-side plate, 8-loading space, 9-loading platform and 10-crystal oscillator inlet or crystal oscillator outlet.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, embodiment 1 provides a DIP14 crystal oscillator transfer jig, including a carrying jig 2 for placing a DIP14 crystal oscillator and an inverted transfer tray 1 inverted on the carrying jig 2, the carrying jig 2 is provided with a carrying platform 9, the inverted transfer tray 1 is provided with an inner groove 6 matched with the carrying platform 9, the carrying platform 9 is provided with a crystal oscillator positioning mechanism, the jig of the present invention can be used for placing 10 rows of DIP14 crystal oscillators, each row can be used for placing 10 DIP14 crystal oscillators, and therefore, 100 DIP14 crystal oscillators can be placed.

Embodiment 2, embodiment 1 DIP14 crystal oscillator move and carry anchor clamps be equipped with a plurality of double-layered grooves 5 on the load-bearing platform 9, double-layered groove 5 sets up side by side, and the crystal oscillator is put side by side in double-layered groove 5, double-layered groove 5 comprises the fixed strip of establishing DIP14 crystal oscillator two, and the opening between the fixed strip tip sets up to crystal oscillator entry or crystal oscillator export 10, conveniently puts the crystal oscillator on load-bearing platform 9 neatly.

In example 3, the sum of the depth of the inner groove 6 on the flip chip transfer tray 1 and the depth of the clamping groove on the supporting platform 9 of the DIP14 crystal oscillator transfer jig described in example 1 is equal to the thickness of the DIP14 crystal oscillator.

Embodiment 4, the DIP14 crystal oscillator transfer jig of embodiment 1, the size of the inner groove 6 on the flip transfer tray is consistent with the size of the carrying platform 9, so that it can be well matched with the DIP14 crystal oscillator carrying tray, and the transferred product can be ensured to be fixed in the inner groove 6, so that the product is not shaken when the jig is turned over.

In the DIP14 crystal oscillator transfer jig of embodiment 5 or embodiment 1, the length of the clamping groove 5 is an integral multiple of the width or length of the DIP14 crystal oscillator, so that the crystal oscillators are tightly arranged, and the crystal oscillators are prevented from being damaged due to shaking in the flip-chip process due to gaps.

In embodiment 6, the DIP14 crystal oscillator transfer jig according to embodiment 1, wherein the carrier jig 2 is composed of a top plate serving as a carrier platform and side plates 7 supporting the top plate, and a space between the side plates 7 constitutes a transfer space 8 for placing a transfer tool, thereby facilitating the transfer of a crystal oscillator.

Embodiment 7, the DIP14 crystal oscillator moves and carries anchor clamps of embodiment 1, crystal oscillator positioning mechanism is locating bar 3 for fix and position DIP14 crystal oscillator, and locating bar 3 places in the middle of every row of DIP14 crystal oscillator, when setting up 10 lines of DIP14 crystal oscillators, need use 9 such locating bars for the location totally 10 rows of DIP14 crystal oscillators, and the axis of locating bar sets up with the axis of pressing from both sides the groove perpendicularly, and its length equals the span between the outside clamp groove, be equipped with the skid resistant course on the mating surface of locating bar 3 and clamp groove 5, can avoid the removal of locating bar 3 on load-bearing platform.

In embodiment 8, the DIP14 crystal oscillator transfer jig according to embodiment 1 has a crystal oscillator buffer layer in the inner groove 6, so as to protect the crystal oscillator and prevent the crystal oscillator from being damaged by hard contact and crushing between the flip transfer tray and the crystal oscillator or by collision.

When the transfer tool is used, the DIP14 crystal oscillator is orderly placed on the bearing platform 9, each line is fixed by one positioning strip 3, the inverted transfer disc 1 is reversely buckled on the bearing platform 9 with the DIP14 crystal oscillator, after the inverted transfer disc is buckled, the transfer tool extends into the transfer space 8 below the bearing platform, the whole transfer tool is overturned, the bearing clamp of the DIP14 crystal oscillator is taken out, and the DIP14 crystal oscillator can be orderly transferred to other clamps (such as cotton plates).

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. The utility model provides a DIP14 crystal oscillator moves and carries anchor clamps which characterized in that: including putting the anchor clamps that bear of DIP14 crystal oscillator and the flip-chip of back-off on bearing the anchor clamps and move a year dish, be equipped with load-bearing platform on bearing the anchor clamps, the flip-chip move carry the dish on be equipped with load-bearing platform complex inside groove, be equipped with crystal oscillator positioning mechanism on the load-bearing platform.

2. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the bearing platform is provided with a plurality of clamping grooves which are arranged side by side, and the crystal oscillators are arranged in the clamping grooves side by side.

3. The DIP14 crystal oscillator transfer jig according to claim 2, wherein: the clamping groove is composed of fixing strips arranged at two ends of a DIP14 crystal oscillator, and an opening between the end parts of the fixing strips is set as a crystal oscillator inlet or a crystal oscillator outlet.

4. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the sum of the depth of the inner groove on the inverted transfer disc and the depth of the clamping groove on the bearing platform is equal to the thickness of the DIP14 crystal oscillator.

5. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the size of the inner groove on the inverted transshipping disc is consistent with that of the bearing platform.

6. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the length of the clamping groove is an integral multiple of the width or length of the crystal oscillator of DIP 14.

7. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the bearing clamp is composed of a top plate used as a bearing platform and side plates for supporting the top plate, and the space between the side plates forms a transferring space for placing a transferring tool.

8. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: the crystal oscillator positioning mechanism is a positioning strip, the positioning strip is placed in the middle of each line of DIP14 crystal oscillators, the axis of the positioning strip is perpendicular to the axis of the clamping grooves, and the length of the positioning strip is equal to the span between the clamping grooves on the outermost side.

9. The DIP14 crystal oscillator transfer jig according to claim 8, wherein: and an anti-skid layer is arranged on the matching surface of the positioning strip and the clamping groove.

10. The DIP14 crystal oscillator transfer jig according to claim 1, wherein: and a crystal oscillator buffer layer is arranged in the inner groove.