A badge processing jig
By designing a badge processing fixture with positioning slots and clearance slots that adapt to the shape of the badge, the problem of badge misalignment caused by the thickness of the robotic arm clamp was solved, achieving precise placement and stability of the badge on the fixture and improving processing efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN XINHEMING TECHNOLOGY CO LTD
- Filing Date
- 2025-08-13
- Publication Date
- 2026-06-26
AI Technical Summary
The gripper used by the robotic arm to hold the badge has a certain thickness, which makes it difficult to align the badge with the positioning post when it is released, causing misalignment between the badge and the positioning post, thus affecting processing efficiency.
A badge processing fixture was designed, comprising a support base and a positioning groove. The shape of the positioning groove is adapted to the shape of the badge. The bottom wall is provided with a positioning post, and the peripheral wall is used to guide the badge with a robotic arm. The positioning groove is provided with a first annular clearance groove and a connected second clearance groove for guiding and avoiding the robotic arm, thereby improving the placement accuracy.
The design of the positioning slot and the clearance slot makes it easier to align the badge with the positioning post, improving the accuracy of placement into the fixture, reducing the risk of the badge falling off, and improving processing efficiency.
Smart Images

Figure CN224407413U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of badge processing, and in particular to a badge processing fixture. Background Technology
[0002] Tinplate badges are primarily made of imported tinplate with a tin-plated surface, making them resistant to rust. Tinplate badges offer excellent durability, corrosion resistance, and a metallic feel; they are not easily worn and can maintain their integrity for a long time. Furthermore, special processes can be used to create highly three-dimensional designs.
[0003] like Figure 1 As shown, the tinplate badge processing fixture has a positioning post corresponding to the groove on the back of the badge for mounting the pin. When processing the badge, align the groove of the bottom plate of the badge with the positioning post, and the badge can be placed on the fixture for the next processing step. In order to speed up the processing, a corresponding robotic arm can be used to move the badge.
[0004] However, because the clamp used by the robotic arm to hold the badge has a certain thickness, there is a certain distance between the clamp and the upper surface of the fixture when the badge is released. This makes it difficult for the badge to be aligned with the positioning post when it is released from a height, causing the badge to misalign with the positioning post and fall off the fixture, thus affecting the overall processing efficiency of the badge. Utility Model Content
[0005] To improve the accuracy of inserting the fixture, this utility model provides a badge processing fixture.
[0006] This utility model provides a technical solution that adopts the following approach:
[0007] A badge processing fixture includes a support base and a positioning groove. The positioning groove is recessed in the top wall of the support base and its shape is adapted to the shape of the badge. The bottom wall of the positioning groove is provided with a positioning post, which is set to correspond to the groove on the back of the badge.
[0008] The periphery of the positioning groove, in conjunction with the robotic arm's guide badge, makes it easier for the badge to fall onto the support and align with the positioning post, thus improving the accuracy of badge placement into the fixture.
[0009] Preferably, the bottom wall of the positioning groove is further recessed with a first clearance groove, the first clearance groove being an annular groove, and the peripheral wall of the first clearance groove coinciding with the peripheral wall of the positioning groove.
[0010] When tinplate badges are being processed, the first clearance groove provides sufficient vibration space for the badge's perimeter, which helps protect the badge. At the same time, the perimeter of the first clearance groove can also guide the badge insertion process.
[0011] Preferably, the support base is further recessed with a second clearance groove, which is used to avoid the gripper of the robotic arm. The second clearance groove is connected to the positioning groove, and the depth of the second clearance groove is greater than the depth of the first clearance groove.
[0012] The second clearance groove allows the robotic arm to release the badge closer to the inside of the positioning groove.
[0013] Preferably, the support portion located in the inner ring of the first clearance groove is configured as an inner ring seat, and two second clearance grooves are provided. The two second clearance grooves are respectively located on both sides of the positioning post. The second clearance groove portion is recessed in the inner ring seat, and the second clearance groove extends from the portion recessed in the inner ring seat toward a direction away from the center of the support seat, thereby penetrating both side walls of the support seat along the width direction.
[0014] The gripper of the robotic arm holds the tin badge below. The second clearance groove can more completely avoid the robotic arm, allowing the robotic arm to move a longer distance within the positioning groove. When the positioning pin is inserted into the groove of the badge, the robotic arm releases the badge, reducing the obstruction of the inner ring seat from the robotic arm's downward movement, making the badge more stable on the support.
[0015] Preferably, the top wall of the positioning column is higher than the top wall of the support base.
[0016] Preferably, there are two positioning posts, and the two positioning posts correspond to two grooves on the back of the badge.
[0017] In summary, this utility model has the following beneficial technical effects:
[0018] The periphery of the positioning groove, in conjunction with the robotic arm's guide badge, makes it easier for the badge to fall onto the support and align with the positioning post, thus improving the accuracy of badge placement into the fixture. Attached Figure Description
[0019] Figure 1 This is a schematic diagram illustrating the structure of the fixture described in the background art.
[0020] Figure 2 This is a schematic diagram of the overall structure of a badge processing fixture according to this utility model.
[0021] Figure 3 These are the top and side views of the fixture.
[0022] Explanation of reference numerals in the attached drawings: 1. Support base; 2. Positioning post; 3. First clearance groove; 4. Second clearance groove; 5. Inner ring seat. Detailed Implementation
[0023] The following is in conjunction with the appendix Figure 2-3 The present invention will be described in further detail below.
[0024] This utility model discloses a badge processing fixture.
[0025] Reference Figure 2 A badge processing fixture includes a support base 1 and a positioning groove. The positioning groove is recessed in the top wall of the support base 1 and the shape of the positioning groove is adapted to the shape of the badge. The bottom wall of the positioning groove is provided with a positioning post 2, which is set to correspond to the groove on the back of the badge.
[0026] The periphery of the positioning groove, in conjunction with the robotic arm guiding the badge, makes it easier for the badge to fall onto the support 1 and for the badge to be aligned with the positioning post 2, which helps to improve the accuracy of the badge being placed into the fixture.
[0027] Reference Figure 2 as well as Figure 3 In this embodiment, the bottom wall of the positioning groove is also recessed with a first clearance groove 3, which is an annular groove, and the peripheral wall of the first clearance groove 3 coincides with the peripheral wall of the positioning groove.
[0028] When the tinplate badge is being processed, the first clearance groove 3 provides sufficient vibration space for the peripheral wall of the tinplate badge, which helps protect the tinplate badge. At the same time, the peripheral wall of the first clearance groove 3 can also guide the badge insertion process.
[0029] Reference Figure 2 as well as Figure 3 In this embodiment, the support base 1 is also recessed with a second clearance groove 4, which is used to avoid the gripper of the robotic arm. The second clearance groove 4 is connected to the positioning groove, and the depth of the second clearance groove 4 is greater than the depth of the first clearance groove 3.
[0030] The second clearance slot 4 is designed so that the position where the robotic arm releases the badge is closer to the inside of the positioning slot.
[0031] Reference Figure 2 as well as Figure 3 In this embodiment, the support seat 1 part located in the inner ring of the first clearance groove 3 is set as the inner ring seat 5. There are two second clearance grooves 4. The two second clearance grooves 4 are respectively set on both sides of the positioning post 2. The second clearance groove 4 is partially recessed in the inner ring seat 5. The second clearance groove 4 extends from the part recessed in the inner ring seat 5 toward the direction away from the center of the support seat 1, thereby penetrating the two side walls of the support seat 1 along the width direction.
[0032] The gripper of the robotic arm holds the tin badge below. The second clearance groove 4 can more completely avoid the robotic arm, allowing the robotic arm to move a longer distance within the positioning groove. When the positioning post 2 is inserted into the groove of the badge, the robotic arm releases the badge, reducing the obstruction of the inner ring seat 5 from the robotic arm's downward movement, making the badge more stable on the support seat 1.
[0033] Reference Figure 2 as well as Figure 3 In this embodiment, the top wall of the positioning column 2 is higher than the top wall of the support base 1.
[0034] Reference Figure 2 as well as Figure 3 In this embodiment, there are two positioning posts 2, and the two positioning posts 2 correspond to the two grooves on the back of the badge respectively.
[0035] The above are all preferred embodiments of this utility model, and are not intended to limit the scope of protection of this utility model. Therefore, all equivalent changes made to the structure, shape and principle of this utility model should be included within the scope of protection of this utility model.
Claims
1. A badge processing fixture, characterized in that: It includes a support base and a positioning groove. The positioning groove is recessed into the top wall of the support base. The shape of the positioning groove is adapted to the shape of the badge. The bottom wall of the positioning groove is provided with a positioning post, which is set to correspond to the groove on the back of the badge.
2. The badge processing fixture according to claim 1, characterized in that: The bottom wall of the positioning groove is also recessed with a first clearance groove, which is an annular groove, and the peripheral wall of the first clearance groove coincides with the peripheral wall of the positioning groove.
3. The badge processing fixture according to claim 2, characterized in that: The support base also has a second clearance groove, which is used to avoid the gripper of the robotic arm. The second clearance groove is connected to the positioning groove, and the depth of the second clearance groove is greater than the depth of the first clearance groove.
4. The badge processing fixture according to claim 3, characterized in that: The support portion located in the inner ring of the first clearance groove is set as an inner ring seat. There are two second clearance grooves, which are respectively located on both sides of the positioning post. The second clearance groove is recessed in the inner ring seat. The second clearance groove extends from the portion recessed in the inner ring seat toward the direction away from the center of the support seat, thereby penetrating the two side walls of the support seat along the width direction.
5. The badge processing fixture according to claim 4, characterized in that: The top wall of the positioning column is higher than the top wall of the support base.
6. The badge processing fixture according to claim 5, characterized in that: There are two positioning posts, and the two positioning posts correspond to the two grooves on the back of the badge.