Chip carrier transfer rack
By designing a chip carrier transfer frame, utilizing structures such as the frame body, material collection frame, slide rail, and positioning strip, the problems of low transfer efficiency and poor stability of chip carriers were solved, achieving an efficient and stable transfer process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YOUPIN TECHNOLOGY (JIANGYIN) CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-06-26
AI Technical Summary
Existing chip scaffold transport methods are inefficient and prone to tipping or scattering during transport, affecting stability.
A chip carrier transfer frame was designed, including a frame, a material collection frame, a slide rail, and a positioning bar. The material collection frame is connected to the frame via the slide rail, the positioning bar is used for positioning, the baffle is used to prevent tipping, the casters facilitate movement, and the magnetic layer is used for stable positioning.
It improves the efficiency of workers loading materials, ensures stability during the transfer process, avoids the overturning and scattering of the support frame, and improves the transfer efficiency.
Smart Images

Figure CN224409999U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of chip packaging and processing auxiliary devices, and in particular to a chip carrier transfer frame. Background Technology
[0002] Chip holders are plastic packaging supports used in semiconductor packaging and testing. They effectively prevent electrostatic discharge (ESD) contact, protecting chips from damage and facilitating automated testing and installation. Chip holders also feature anti-static and high-temperature resistance, remaining stable in high-temperature environments and protecting chips from damage. Chip plastic holders undergo a series of rigorous tests to ensure their performance, reliability, and durability, including mechanical, environmental, electrical, and chemical aspects.
[0003] After each chip substrate undergoes online inspection, it needs to be transferred to the next process for further processing or packaging. The existing method involves placing stacks of chip substrates into a transfer box for batch transport. However, to maximize the amount that can be transferred at once, the transfer box typically contains multiple rows of stacked chip substrates. When placing materials inside the transfer box, operators often need to reach inside to position them, which increases placement time. Furthermore, the lack of precise positioning during transport means that if the box is underfilled, the substrates are prone to tipping over or scattering, impacting transport efficiency. Utility Model Content
[0004] The purpose of this invention is to provide a chip carrier transfer rack that can improve worker loading efficiency and transfer stability.
[0005] To achieve the above-mentioned utility model objectives, this utility model provides a chip carrier transfer frame, including a frame body, a material collection frame, a slide rail, and a positioning strip;
[0006] The bottom of the frame is equipped with casters, the two sides of the frame are open, the positioning strip is located in the middle of the frame, and several material collection frames are arranged side by side on both sides of the positioning strip.
[0007] The material collection frame includes a material feeding base and a connecting frame. The material feeding base is located at the bottom of the connecting frame, and the connecting frame is connected to the frame body through the slide rail. Baffles are provided on both sides of the connecting frame.
[0008] As a further improvement to the utility model, the connecting frame is provided with a first handrail.
[0009] As a further improvement to the utility model, the top and bottom of the connecting frame are provided with the slide rail.
[0010] As a further improvement of the utility model, the vertical rod of the connecting frame is provided with a connecting groove, and the baffle can be pulled out and moved within the connecting frame through the connecting groove.
[0011] As a further improvement to the utility model, magnetic layers are provided on both sides of the positioning strip, and the feeding chassis is an iron chassis.
[0012] As a further improvement to the utility model, the frame is provided with a second handrail.
[0013] This utility model discloses a chip carrier transfer frame that can simultaneously collect carriers from the carrier detection production line feeding areas on both sides of the frame. First, an empty single collection frame is removed from the frame. Stacked carriers are then placed on a feeding tray, which can hold multiple stacks of carriers. Once the tray is full, the full collection frame is pushed back into the frame, allowing the stacked carriers to stack quickly within the frame. Baffles position the placed stacked carriers, preventing them from tipping over during collection frame movement or transfer.
[0014] The advantages of this chip carrier transfer rack compared to existing technologies are as follows:
[0015] The pull-out material collection frame enables rapid loading, allowing operators to quickly load materials in batches at the discharge port of the test production line; and the stacked supports are positioned between the baffles to prevent them from collapsing during transport. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of a chip carrier transfer frame structure according to the present invention;
[0017] Figure 2 This is a schematic diagram of the material collection frame structure;
[0018] Figure 3 This is a side view of the magnetic locating strip structure. Detailed Implementation
[0019] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings.
[0020] like Figure 1-2 As shown, a chip carrier transfer frame of this utility model includes a frame body 1, a material collection frame 2, a slide rail 3, and a positioning strip 4;
[0021] The bottom of the frame 1 is equipped with casters 11 to facilitate the transfer of the frame 1. The frame 1 has openings on both sides, and the positioning strip 4 is located in the middle of the frame 1. Several material collection frames 2 are arranged side by side on both sides of the positioning strip 4.
[0022] The material collection frame 2 includes a material feeding base 21 and a connecting frame 23. The material feeding base 21 is located at the bottom of the connecting frame 23, and the connecting frame 23 is connected to the frame body 1 through a slide rail 3. Baffles 22 are provided on both sides of the connecting frame 23.
[0023] This utility model discloses a chip bracket transfer frame that can simultaneously collect brackets from the bracket detection production line feeding area on both sides of the frame 1. First, an empty single collection frame 2 is removed from the frame 1, and stacked brackets 5 are placed on the feeding tray 21. The feeding tray 21 can hold multiple stacks of brackets 5. After the feeding tray 21 is full, the full collection frame 2 is pushed back into the frame 1, allowing the stacked brackets 5 to be quickly stacked on the frame 1. The baffle 22 can position the placed stacked brackets 5 to prevent them from tipping over when moving the collection frame 2 or during transfer.
[0024] The connecting frame 23 is equipped with a first handrail 24, which allows for quick pushing and pulling of the material collection frame 2. The top and bottom of the connecting frame 23 are both equipped with slide rails 3. The structure where the top and bottom of the connecting frame 23 are connected to the frame body 1 via slide rails 3 enhances the stability of repeated pulling and moving of the connecting frame 23, ensuring that the material collection frame 2 always moves along the same straight line.
[0025] The vertical rod of the connecting frame 23 is provided with a connecting groove 231, and the baffle 22 can be pulled out and moved inside the connecting frame 23 through the connecting groove 231. When loading the material collection frame 2, the baffles 22 on both sides of the connecting frame 23 can be pulled out to facilitate the operator's hand operation for loading. When the material collection frame 2 needs to be moved back to the frame 1 after loading is completed, the baffles 22 are pushed back to both sides of the connecting frame 23 to position the stacking support 5 between the two baffles 22, so as to prevent the stacking support 5 on the material dispensing chassis 21 from tipping over from the side of the connecting frame 23 during the movement.
[0026] Material collection frames 2 can be pulled out from both sides of the frame 1, allowing for simultaneous loading from both sides of the frame 1. Positioning strips 4 separate the material collection frames 2 on both sides, serving a positioning function to prevent collisions between opposing material collection frames 2. Figure 3 As shown, magnetic layers 41 are provided on both sides of the positioning strip 4, the feeding base 21 is an iron base, the connecting frame 23 is moved back into the frame 1, the magnetic layers 41 of the positioning strip 4 attract the feeding base 21 that is in contact with it, thereby positioning the collection frame 2 and preventing the collection frame 2 from falling out of the opening side of the frame 1 when the frame 1 is moved later.
[0027] The frame 1 is equipped with a second handrail 12 to facilitate manual transfer and pushing of the frame 1.
[0028] The preferred embodiments of this utility model have been described in detail above, but this utility model is not limited to the embodiments described. Those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of this utility model, and these equivalent modifications or substitutions are all included within the scope defined by the claims of this application.
Claims
1. A chip scaffold transfer rack, characterized in that, Includes frame, material collection frame, slide rails, and positioning strips; The bottom of the frame is equipped with casters, the two sides of the frame are open, the positioning strip is located in the middle of the frame, and several material collection frames are arranged side by side on both sides of the positioning strip. The material collection frame includes a material feeding base and a connecting frame. The material feeding base is located at the bottom of the connecting frame, and the connecting frame is connected to the frame body through the slide rail. Baffles are provided on both sides of the connecting frame.
2. The chip carrier transfer rack as described in claim 1, characterized in that, The connecting frame is equipped with a first handrail.
3. A chip carrier transfer rack as described in claim 1, characterized in that, The connecting frame is equipped with slide rails at both the top and bottom.
4. A chip carrier transfer rack as described in claim 1, characterized in that, The vertical rod of the connecting frame is provided with a connecting groove, and the baffle can be pulled and moved within the connecting frame through the connecting groove.
5. A chip carrier transfer rack as described in claim 1, characterized in that, The positioning strip has magnetic layers on both sides, and the feeding chassis is made of iron.
6. A chip scaffold transfer rack as described in claim 1, characterized in that, The frame is equipped with a second handrail.