Rapid detection dispensing device

By designing a rapid detection and sorting device, and utilizing a sorting and collecting mechanism and a testing mechanism, the problem of insufficient efficiency and accuracy in collecting conductive injection molded parts in traditional devices is solved, and rapid and accurate sorting and collection of conductive injection molded parts is achieved.

CN224332819UActive Publication Date: 2026-06-09SUZHOU WANSITE INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU WANSITE INTELLIGENT TECH CO LTD
Filing Date
2025-06-20
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional testing devices cannot effectively collect conductive injection molded parts that have only one side of the metal part being conductive, resulting in insufficient collection efficiency and accuracy.

Method used

A rapid detection and sorting device was designed, comprising a sorting and collecting mechanism and a testing mechanism. The device achieves precise sorting and collection of products by rotating plate number one and plate number two, uses cylinder number one and cylinder number two to drive probes to perform upper and lower end face testing, and achieves rapid unloading through a pushing mechanism.

Benefits of technology

It enables rapid and accurate classification and collection of conductive injection molded parts, improving product collection efficiency and accuracy.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a rapid detection and sorting device, including a frame, a support, a platform, a testing mechanism, a pushing mechanism, and a guide plate. It also includes a sorting and collecting mechanism mounted on the frame. The sorting and collecting mechanism includes a guide cylinder fixedly mounted on the upper surface of the frame, a first column, a second column, a first material box, a second material box, and a third material box mounted below the frame, a first plate rotatably mounted inside the guide cylinder via the first column, a second plate rotatably mounted inside the guide cylinder via the second column, a first driving component mounted on the outer wall of the guide cylinder for driving the first column to rotate, and a second driving component for driving the second column to rotate. The lower end of the first plate corresponds to the first and third material boxes, the lower end of the second plate corresponds to the third and second material boxes, the upper end of the first plate corresponds to the lower end of the guide plate, and the upper end of the second plate corresponds to the upper end of the guide plate. Advantages: It can quickly sort and collect products, effectively improving the efficiency and accuracy of product collection.
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Description

Technical Field

[0001] This utility model relates to the field of testing equipment, specifically a rapid testing and dispensing device. Background Technology

[0002] In some conductive injection molded parts, more than one metal component is molded inside the part, and these metal components are not connected to each other, with both ends of the metal components exposed on the surface of the injection molded part. To test the conductivity of the injection molded part, a continuity tester needs to be used to contact the two exposed ends of the same metal component with its positive and negative electrodes respectively. When testing an injection molded part with metal components on both the front and back, multiple test results may be encountered, one of which is that only one side of the metal component is conductive. Traditional material collection mechanisms use two types of boxes: qualified and unqualified, which is not conducive to collecting products that only have one side of the metal component that is conductive.

[0003] Therefore, it is necessary to provide a rapid detection and dispensing device. Summary of the Invention

[0004] This utility model provides a rapid detection and material sorting device, which effectively solves the problem that existing devices are not conducive to product collection.

[0005] The technical solution adopted in this utility model is:

[0006] A rapid detection and material sorting device includes a frame, a support mounted on the frame, a platform mounted on the support, a testing mechanism mounted on the support, a pushing mechanism, and a guide plate. It also includes a sorting and collecting mechanism mounted on the frame. The sorting and collecting mechanism includes a guide cylinder fixed to the upper surface of the frame, a first column, a second column, a first material box, a second material box, and a third material box located below the frame, a first plate rotatably mounted inside the guide cylinder via the first column, a second plate rotatably mounted inside the guide cylinder via the second column, a first driving component mounted on the outer wall of the guide cylinder for driving the first column to rotate, and a second driving component for driving the second column to rotate. The lower end of the first plate corresponds to the first and second material boxes, the lower end of the second plate corresponds to the third and second material boxes, the upper end of the first plate corresponds to the lower end of the guide plate, and the upper end of the second plate corresponds to the upper end of the guide plate.

[0007] Furthermore, the No. 1 driving component and the No. 2 driving component have the same structure. The No. 1 driving component includes a No. 1 cylinder, a fixed seat fixedly installed on the outer wall of the guide cylinder, and a connecting rod connecting the No. 1 column and the output end of the No. 1 cylinder. The cylinder body of the No. 1 cylinder is hinged to the fixed seat.

[0008] Furthermore, the platform is provided with a chute and a discharge hole communicating with the end of the chute. The chute includes a bottom wall and side walls connected to both sides of the bottom wall. Each side wall is provided with a step, which is used to support one end of the product. The discharge hole is located above the guide plate. The platform is also provided with a clearance hole for avoiding the test mechanism.

[0009] Furthermore, the testing mechanism includes an upper testing component and a lower testing component. The upper testing component includes a first testing instrument, a second cylinder vertically mounted on a support with its output end facing downwards, a first connecting plate fixedly mounted on the output end of the second cylinder, and two first probes fixedly mounted on the first connecting plate. The two first probes are electrically connected to the positive and negative terminals of the first testing instrument, respectively. The lower testing component includes a second testing instrument, a third cylinder vertically mounted on a support with its output end facing upwards, a second connecting plate fixedly mounted on the output end of the third cylinder, and two second probes fixedly mounted on the second connecting plate. The two second probes are electrically connected to the positive and negative terminals of the second testing instrument, respectively.

[0010] Furthermore, the pushing mechanism includes a No. 4 cylinder mounted on a support and a push rod fixedly mounted on the output end of the No. 4 cylinder, the push rod being slidably connected to the slide groove.

[0011] The beneficial effects of the utility model: The sorting and collecting mechanism can quickly sort and collect products, effectively improving the efficiency and accuracy of product collection. Attached Figure Description

[0012] Figure 1 This is an overall schematic diagram of the rapid detection and dispensing device provided in the embodiments of this application.

[0013] Figure 2 This is a schematic diagram of the rapid detection and dispensing device for removing the guide cylinder, provided in an embodiment of this application.

[0014] Figure 3 This is a schematic diagram of the sorting and receiving mechanism of the rapid detection and sorting device provided in the embodiments of this application.

[0015] Figure 4 This is a schematic diagram of the support, pushing mechanism, testing mechanism, and platform of the rapid detection and dispensing device provided in the embodiments of this application.

[0016] Figure 5 This is a schematic diagram of the platform of the rapid detection and dispensing device provided in the embodiments of this application.

[0017] The markings in the diagram are as follows: 1. Frame; 2. Support; 3. Platform; 4. Testing mechanism; 5. Pushing mechanism; 6. Guide plate; 7. Sorting and collecting mechanism; 71. Guide cylinder; 72. Column No. 1; 73. Column No. 2; 74. Material box No. 1; 75. Material box No. 2; 76. Material box No. 3; 77. Plate No. 1; 78. Plate No. 2; 79. Drive component No. 1; 70. Drive component No. 2; 791. Cylinder No. 1; 792. Fixed seat; 793. Connecting rod; 31. Slide groove; 32. Drop hole; 33. Step; 34. Clearance hole; 41. Cylinder No. 2; 42. Connecting plate No. 1; 43. Probe No. 1; 44. Cylinder No. 3; 45. Connecting plate No. 2; 46. Probe No. 2; 51. Cylinder No. 4; 52. Push rod; Detailed Implementation

[0018] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0019] like Figure 1 , Figure 2 As shown, the rapid detection and dispensing device provided in the embodiments of this application includes a frame 1, a support 2 mounted on the frame 1, a platform 3 mounted on the support 2, a testing mechanism 4 mounted on the support 2, a pushing mechanism 5, and a guide plate 6. It also includes a sorting and receiving mechanism 7 mounted on the frame 1. Figure 3 As shown, the sorting and receiving mechanism 7 includes a guide cylinder 71 fixedly mounted on the upper surface of the frame 1, a first column 72, a second column 73, a first material box 74, a second material box 75, and a third material box 76 mounted below the frame 1, a first plate 77 rotatably mounted inside the guide cylinder 71 via the first column 72, a second plate 78 rotatably mounted inside the guide cylinder 71 via the second column 73, a first driving component 79 mounted on the outer wall of the guide cylinder 71 for driving the first column 72 to rotate, and a second driving component 70 mounted on the outer wall of the guide cylinder 71 for driving the second column 73 to rotate. The lower end of the first plate 77 can correspond to the first material box 74 and the third material box 76, the lower end of the second plate 78 can correspond to the third material box 76 and the second material box 75, the upper end of the first plate 77 can correspond to the lower end of the guide plate 6, and the upper end of the second plate 78 can correspond to the upper end of the guide plate 6.

[0020] It should be noted that the product may have the following test results: First, both ends of the metal parts on the upper and lower surfaces of the product pass the continuity test; second, one of the continuity tests on the upper and lower surfaces of the product passes; third, both ends of the continuity tests on the upper and lower surfaces of the product fail. Material box 74 is used to receive products with the first test result, material box 75 is used to receive products with the second test result, and material box 76 is used to receive products with the third test result.

[0021] In actual use, when the test result is the first scenario, the first driving component 79 and the second driving component 70 drive the first column 72 and the second column 73 to rotate, which in turn drives the first plate 77 and the second plate 78 to rotate, so that the lower end of the guide plate 6 is aligned with the upper end of the first plate 77. Then, after being pushed by the pushing mechanism 5, the product falls onto the first plate 77 along the guide plate 6 and into the first material box 74. When the test result is the second scenario, the first driving component 79 and the second driving component 70 drive the first column 72 and the second column 73 to rotate, which in turn drives the first plate 77 and the second plate 78 to rotate, so that the lower end of the guide plate 6 is aligned with the upper end of the second plate 78. Then, after being pushed by the pushing mechanism 5, the product falls onto the second plate 78 along the guide plate 6 and into the second material box 75. When the test result is the third type, the first driving component 79 and the second driving component 70 drive the first column 72 and the second column 73 to rotate respectively, which in turn drives the first plate 77 and the second plate 78 to rotate. This causes the lower end of the guide plate 6 to not correspond to the upper end of the second plate 78 or the upper end of the first plate 77. At this time, the lower end of the guide plate 6 directly corresponds to the upper end of the third material box 76. Then, after being pushed by the pushing mechanism 5, the product falls into the third material box 76 along the guide plate 6.

[0022] In the above design, the sorting and collecting mechanism 7 can quickly sort and collect products, effectively improving the efficiency and accuracy of product collection.

[0023] Specifically: such as Figure 3 As shown, the first driving component 79 and the second driving component 70 have the same structure. The first driving component 79 includes a first cylinder 791, a fixed seat 792 fixedly disposed on the outer wall of the guide cylinder 71, and a connecting rod 793 connecting the first column 72 and the output end of the first cylinder 791. The cylinder body of the first cylinder 791 is hinged to the fixed seat 792.

[0024] In actual use, the connecting rod 793 is driven by the first cylinder 791 to rotate the first column 72, which in turn drives the first plate 77 to rotate synchronously.

[0025] In the above design, the structural design and specific implementation of the first driving component 79 and the second driving component 70 can effectively achieve rapid and stable driving of the first board 77 and the second board 78.

[0026] Specifically: such as Figure 5 As shown, the platform 3 is provided with a chute 31 and a discharge hole 32 that communicates with the end of the chute 31. The chute 31 includes a bottom wall and side walls connected to both sides of the bottom wall. Each side wall is provided with a step 33, which is used to support one end of the product. The discharge hole 32 is located above the guide plate 6. The platform 3 is also provided with a clearance hole 34 for avoiding the test mechanism 4.

[0027] In actual use, the product is placed on step 33, and then the testing mechanism 4 passes through the clearance hole 34 to test the upper and lower surfaces of the product from above and below, respectively. When it is necessary to collect the product, the pushing mechanism 5 slides along the slide 31 to push the product into the discharge hole 32.

[0028] In the above design, the structural design and specific implementation of the platform 3 can effectively realize the support of the product and rapid unloading.

[0029] Specifically: such as Figure 4 As shown, the testing mechanism 4 includes an upper testing component and a lower testing component. The upper testing component includes a first testing instrument, a second cylinder 41 vertically mounted on the support 2 with its output end facing downwards, a first connecting plate 42 fixedly mounted on the output end of the second cylinder 41, and two first probes 43 fixedly mounted on the first connecting plate 42. The two first probes 43 are electrically connected to the positive and negative terminals of the first testing instrument, respectively. The lower testing component includes a second testing instrument, a third cylinder 44 vertically mounted on the support 2 with its output end facing upwards, a second connecting plate 45 fixedly mounted on the output end of the third cylinder 44, and two second probes 46 fixedly mounted on the second connecting plate 45. The two second probes 46 are electrically connected to the positive and negative terminals of the second testing instrument, respectively. Both the first and second testing instruments can be multimeters.

[0030] In actual use, the upper testing component tests the upper surface of the product from above, while the lower testing component tests the lower surface from below. When the upper testing component is in operation, cylinder 41 drives connecting plate 42 downwards, causing probe 43 to move downwards, so that the two probes 43 contact the two exposed ends of the metal part on the upper surface. The continuity is then displayed using tester 1. When the lower testing component is in operation, cylinder 44 drives connecting plate 45 upwards, causing probe 46 to move upwards, so that the two probes contact the two exposed ends of the metal part on the lower surface. The continuity is then displayed using tester 2.

[0031] In the above design, the structural design and specific implementation of the testing mechanism 4 enable rapid testing of the product.

[0032] Specifically: such as Figure 2 As shown, the pushing mechanism 5 includes a fourth cylinder 51 mounted on the support 2 and a push rod 52 fixedly mounted on the output end of the fourth cylinder 51. The push rod 52 is slidably connected to the slide groove 31.

[0033] In actual use, the push rod 52 is driven by cylinder 51 to slide along the slide groove 31, pushing the product from the slide groove 31 to the discharge hole 32.

[0034] In the above design, the structural design and specific implementation of the feeding mechanism 5 enable rapid material feeding.

[0035] In further detail, it should be understood that the above description is only a specific embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A rapid detection and dispensing device, comprising a frame (1), a support (2) mounted on the frame (1), a platform (3) mounted on the support (2), a testing mechanism (4), a pushing mechanism (5), and a guide plate (6) mounted on the support (2), characterized in that: It also includes a sorting and receiving mechanism (7) mounted on the frame (1). The sorting and receiving mechanism (7) includes a guide cylinder (71) fixedly mounted on the upper surface of the frame (1), a first column (72), a second column (73), a first material box (74), a second material box (75), and a third material box (76) mounted below the frame (1), a first plate (77) rotatably mounted in the guide cylinder (71) via the first column (72), and a second plate (78) rotatably mounted in the guide cylinder (71) via the second column (73). A first driving component (79) for driving the first column (72) to rotate and a second driving component (70) for driving the second column (73) to rotate are provided on the outer wall of the guide cylinder (71). The lower end of the first plate (77) can correspond to the first material box (74) and the third material box (76). The lower end of the second plate (78) can correspond to the third material box (76) and the second material box (75). The upper end of the first plate (77) can correspond to the lower end of the guide plate (6). The upper end of the second plate (78) can correspond to the upper end of the guide plate (6).

2. The rapid detection and dispensing device according to claim 1, characterized in that: The first drive unit (79) and the second drive unit (70) have the same structure. The first drive unit (79) includes a first cylinder (791), a fixed seat (792) fixedly installed on the outer wall of the guide cylinder (71), and a connecting rod (793) connecting the first column (72) and the output end of the first cylinder (791). The cylinder body of the first cylinder (791) is hinged to the fixed seat (792).

3. The rapid detection and dispensing device according to claim 1, characterized in that: The platform (3) is provided with a chute (31) and a discharge hole (32) communicating with the end of the chute (31). The chute (31) includes a bottom wall and side walls connected to both sides of the bottom wall. Each side wall is provided with a step (33). The step (33) is used to support one end of the product. The discharge hole (32) is located above the guide plate (6). The platform (3) is also provided with a clearance hole (34) for avoiding the test mechanism (4).

4. The rapid detection and dispensing device according to claim 3, characterized in that: The testing mechanism (4) includes an upper testing component and a lower testing component. The upper testing component includes a first testing instrument, a second cylinder (41) vertically mounted on the support (2) with its output end facing downwards, a first connecting plate (42) fixedly mounted on the output end of the second cylinder (41), and two first probes (43) fixedly mounted on the first connecting plate (42). The two first probes (43) are electrically connected to the positive and negative terminals of the first testing instrument, respectively. The lower testing component includes a second testing instrument, a third cylinder (44) vertically mounted on the support (2) with its output end facing upwards, a second connecting plate (45) fixedly mounted on the output end of the third cylinder (44), and two second probes (46) fixedly mounted on the second connecting plate (45). The two second probes (46) are electrically connected to the positive and negative terminals of the second testing instrument, respectively.

5. The rapid detection and dispensing device according to claim 1, characterized in that: The pushing mechanism (5) includes a No. 4 cylinder (51) mounted on the support (2) and a push rod (52) fixedly mounted on the output end of the No. 4 cylinder (51). The push rod (52) is slidably connected to the slide groove (31).