CN213770400U - A loading attachment for electric property test - Google Patents

Abstract

The application relates to a feeding device for electrical performance testing, which comprises an electronic element and a bearing disc for bearing the electronic element; the transmission belt component is arranged in the X-axis direction and is used for transmitting the bearing disc; the conveying assembly is arranged close to the conveying belt assembly and comprises a first conveying unit arranged in the Y-axis direction and a switching unit arranged on the downstream side of the first conveying unit, and the switching unit comprises a first conveying plate, a second conveying plate and a switching mechanism for switching the positions of the first conveying plate and the second conveying plate; the clamping assembly is connected with the first conveying unit; and a feeding unit arranged at the downstream side of the switching unit; the clamping assembly releases the bearing disc onto the first conveying plate or the second conveying plate, and the feeding unit grabs the electronic element to the detection station. In this way, a loading attachment for electric performance test in this application has degree of automation height, quick accurate, the reasonable advantage of beat.

Description

A loading attachment for electric property test

Technical Field

The application relates to the technical field of detection equipment, in particular to a feeding device for electrical performance testing.

Background

With the development of the times, various high-tech electronic products are continuously updated in order to prevent unqualified products from being circulated to the market. The use of a detection device is necessary to effectively reduce the influx of products into the market that do not comply with national standards. The electrical performance (LCR) testing device is used for testing various element parameters of electronic elements, mainly for testing inductance, capacitance and resistance parameters. In the prior art, a feeding device specially used for testing electrical performance (LCR) is not provided. Therefore, it is necessary to develop a loading device for electrical performance testing.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a loading attachment for electric property test, has degree of automation height, quick accurate, reasonable advantage of beat.

The purpose of the application is realized by the following technical scheme:

a loading attachment for electric property test, it includes electronic component, still includes: a carrier tray for carrying the electronic component; the conveying belt component is arranged in the X-axis direction and is used for conveying the bearing disc; the conveying assembly is arranged close to the conveying belt assembly and comprises a first conveying unit arranged in the Y-axis direction and a switching unit arranged on the downstream side of the first conveying unit, and the switching unit comprises a first conveying plate, a second conveying plate and a switching mechanism for switching the positions of the first conveying plate and the second conveying plate; a gripping assembly connected to the first transfer unit, for gripping or releasing the carrier tray; the feeding unit is arranged on the downstream side of the switching unit; the first conveying unit drives the bearing disc to be conveyed to the position above the switching unit from the conveying belt assembly, the clamping assembly releases the bearing disc to the first conveying plate or the second conveying plate, and the feeding unit grabs the electronic element to the detection station.

Preferably, the first conveying unit comprises a linear module, and a sliding block of the linear module is connected with the clamping assembly.

Preferably, the clamping assembly comprises a clamping unit for clamping the bearing plate and a lifting unit for driving the clamping unit to lift, and the sliding block is connected with the lifting unit.

Preferably, the lifting unit comprises a first cylinder, a mounting plate for mounting the first cylinder, and a first connecting plate connecting the slider and the mounting plate.

Preferably, the clamping unit comprises a clamping cylinder and a second connecting plate which is connected with the first cylinder and the clamping cylinder, and clamping jaws of the clamping cylinder are used for clamping the bearing plate.

Preferably, the switching mechanism includes a first motor, a gear and a belt, wherein the first motor drives the belt to reciprocate through the gear, the first transmission plate is connected with the lower portion of the belt, and the second transmission plate is connected with the upper portion of the belt.

Preferably, the switching unit further includes a second cylinder driving the first conveying plate to ascend and descend, the second cylinder driving the first conveying plate to descend below the second conveying plate, and the width of the first conveying plate is smaller than that of the second conveying plate.

Preferably, the switching unit further includes a first slider slide rail disposed at the bottom of the first conveying plate and a second slider slide rail disposed at the bottom of the second conveying plate.

Preferably, the feeding unit comprises a feeding robot, a lifting sucker taking mechanism and a connecting shaft for connecting the tail end of the feeding robot and the sucker taking mechanism.

Preferably, the top of the bearing plate is provided with a bump, and the bump surrounds to form a limiting space for limiting the electronic element.

Compared with the prior art, the method has the following beneficial effects:

the application provides a loading attachment for electric performance test, it has realized the transportation location that bears the dish through first conveying unit, and rethread switching unit has realized bearing the preparation of the dish material loading in turn, and the material loading unit has realized transporting electronic component to the detection station, has accomplished electric performance test's material loading process. The automatic clock generator has the advantages of high automation degree, rapidness, accuracy and reasonable beat.

Drawings

Fig. 1 is a schematic structural diagram of a feeding device for electrical performance testing, which is provided by the application;

fig. 2 is a schematic structural view of the first transfer unit and the elevation unit of fig. 1;

fig. 3 is a schematic structural view of the gripping unit and the switching unit in fig. 1;

fig. 4 is a schematic structural diagram of the switching unit in fig. 1;

fig. 5 is a schematic structural view of the feeding unit in fig. 1.

In the figure, 110-electronic components; 120-a carrier tray; 121-bumps; 200-a conveyor belt assembly; 210-a channel; 300-a gripping assembly; 310-a gripping unit; 311-gripping cylinder; 3111-clamping jaw; 312-a second connecting plate; 320-a lifting unit; 321-a first cylinder; 322-a mounting plate; 323-first connecting plate; 400-a transfer assembly; 410-a first transfer unit; 411-a linear module; 4111-a slider; 420-a switching unit; 421-a first transfer plate; 422-a second transfer plate; 423-a switching mechanism; 4231-a first electric machine; 4232-gear; 4233-leather belt; 430-a feeding unit; 431-a loading robot; 432-a suction cup take off mechanism; 433-a connecting shaft; 440-a second cylinder; 450-a first slider slide; 460-second slider sliding rail.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "comprising" and "having," as well as any variations thereof, in this application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

As shown in fig. 1 to 5, a feeding device for electrical performance testing includes an electronic component 110, and further includes: a carrier tray 120 for carrying the electronic component 110; a conveyor belt assembly 200 disposed in the X-axis direction, the conveyor belt assembly 200 including a channel 210 for conveying the carrier tray 120, the conveyor belt assembly 200 for conveying the carrier tray 120; a conveying assembly 400 disposed adjacent to the conveying belt assembly 200, and including a first conveying unit 410 disposed in the Y-axis direction and a switching unit 420 disposed on a downstream side of the first conveying unit 410, the switching unit 420 including a first conveying plate 421 and a second conveying plate 422 and a switching mechanism 423 for switching positions of the first conveying plate 421 and the second conveying plate 422; a gripping assembly 300 connected to the first transfer unit 410, for gripping or releasing the carrier tray 120; and a feeding unit 430 disposed at a downstream side of the switching unit 420; the first conveying unit 410 drives the carrier tray 120 to be conveyed from the conveyor assembly 200 to the position above the switching unit 420, the clamping assembly 300 releases the carrier tray 120 onto the first conveying plate 421 or the second conveying plate 422, and the loading unit 430 grabs the electronic component 110 to the detection station.

Through the manner, the first conveying unit 410 is used for realizing the transportation and positioning of the bearing plate 120, the switching unit 420 is used for realizing the alternate loading preparation of the bearing plate 120, and the loading unit 430 is used for realizing the transportation of the electronic element 110 to the detection station and completing the loading process of the electrical performance test. The automatic clock generator has the advantages of high automation degree, rapidness, accuracy and reasonable beat.

Further, the first transferring unit 410 includes a linear module 411, a slider 4111 of the linear module 411 is connected to the clamping assembly 300, one end of a motion track of the slider 4111 is close to an edge of the channel 210, and the other end of the motion track of the slider 4111 is close to an edge of the switching unit 420.

Further, the gripping assembly 300 includes a gripping unit 310 for gripping the carrier tray 120 and a lifting unit 320 for driving the gripping unit 310 to lift, and the slider 4111 is connected to the lifting unit 320 in a simple manner.

Further, the lifting unit 320 includes a first cylinder 321, a mounting plate 322 for mounting the first cylinder 321, and a first connection plate 323 connecting the slider 4111 and the mounting plate 322.

Further, the gripping unit 310 includes a gripping cylinder 311 and a second connecting plate 312 connecting the first cylinder 321 and the gripping cylinder 311, the grip 3111 of the gripping cylinder 311 is for gripping the carrier tray 120, and the grip 3111 is for gripping the carrier tray 120.

Further, the switching mechanism 423 includes a first motor 4231, a gear 4232 and a belt 4233, wherein the first motor 4231 drives the belt 4233 to reciprocate through the gear 4232, the first transfer plate 421 is connected to a lower portion of the belt 4233, and the second transfer plate 422 is connected to an upper portion of the belt 4233.

Further, the switching unit 420 further includes a second cylinder 440 for driving the first conveying plate 421 to ascend and descend, the second cylinder 440 drives the first conveying plate 421 to descend below the second conveying plate 422, the width of the first conveying plate 421 is smaller than that of the second conveying plate 422, and the first conveying plate 421 and the second conveying plate 422 exchange positions through the synchronous motion of the belt 4233.

Further, the switching unit 420 further includes a first slider rail 450 disposed at the bottom of the first conveying plate 421 and a second slider rail 460 disposed at the bottom of the second conveying plate 422, so that the movement is smoother.

Further, the feeding unit 430 includes a feeding robot 431, a suction cup taking mechanism 432 capable of being lifted and lowered, and a connecting shaft 433 connecting the end of the feeding robot 431 and the suction cup taking mechanism 432.

Further, the top of the carrier tray 120 is provided with a protrusion 121, and the protrusion 121 encloses a limiting space for limiting the electronic component 110, which may be implemented by other manners, such as forming a limiting groove to limit the electronic component 110.

First, the carrier tray 120 loaded with the electronic components 110 is transported by the transporting belt assembly 200, and when the carrier tray 120 arrives at the transporting assembly 400, the carrier tray 120 is transported to the first transporting plate 421 by the first transporting unit 410, and when the electronic components 110 on the second transporting plate 422 are completely sucked, the first transporting plate 421 and the second transporting plate 422 are switched by the switching unit 420, and the electronic components 110 are sucked by the feeding unit 430 and transported to the detecting station.

The above is only one specific embodiment of the present application, and any other modifications based on the concept of the present application are considered as the protection scope of the present application.

Claims (10)

1. A loading attachment for electrical performance testing, which includes an electronic component (110), characterized by further comprising:

a carrier tray (120) for carrying the electronic component (110);

a conveyor belt assembly (200) disposed in the X-axis direction for conveying the carrier tray (120);

a conveying assembly (400) disposed adjacent to the conveying belt assembly (200), and including a first conveying unit (410) disposed in a Y-axis direction and a switching unit (420) disposed on a downstream side of the first conveying unit (410), the switching unit (420) including a first conveying plate (421) and a second conveying plate (422) and a switching mechanism (423) for switching positions of the first conveying plate (421) and the second conveying plate (422);

a gripping assembly (300) connected to the first transfer unit (410) for gripping or releasing the carrier tray (120); and

a feeding unit (430) disposed on the downstream side of the switching unit (420);

the first conveying unit (410) drives the bearing disc (120) to be conveyed to the position above the switching unit (420) from the conveying belt assembly (200), the clamping assembly (300) releases the bearing disc (120) onto the first conveying plate (421) or the second conveying plate (422), and the feeding unit (430) grabs the electronic component (110) to the detection station.

2. The loading device for electrical performance testing according to claim 1, wherein the first transfer unit (410) comprises a linear module (411), and a slider (4111) of the linear module (411) is connected with the gripping assembly (300).

3. The feeding device for the electrical performance test according to claim 2, wherein the clamping assembly (300) comprises a clamping unit (310) for clamping the carrier tray (120) and a lifting unit (320) for driving the clamping unit (310) to lift, and the slider (4111) is connected with the lifting unit (320).

4. The feeding device for electrical performance test according to claim 3, wherein the lifting unit (320) comprises a first cylinder (321) and a mounting plate (322) for mounting the first cylinder (321), and a first connecting plate (323) connecting the slider (4111) and the mounting plate (322).

5. The feeding device for electrical performance test of claim 4, wherein the gripping unit (310) comprises a gripping cylinder (311) and a second connecting plate (312) connecting the first cylinder (321) and the gripping cylinder (311), and a gripping jaw (3111) of the gripping cylinder (311) is used for gripping the carrying tray (120).

6. The feeding device for electrical performance test according to claim 1, wherein the switching mechanism (423) comprises a first motor (4231), a gear (4232) and a belt (4233), wherein the first motor (4231) drives the belt (4233) to reciprocate through the gear (4232), the first transfer plate (421) is connected with a lower portion of the belt (4233), and the second transfer plate (422) is connected with an upper portion of the belt (4233).

7. The feeding device for electrical performance test of claim 6, wherein the switching unit (420) further comprises a second cylinder (440) driving the first conveying plate (421) to ascend and descend, the second cylinder (440) driving the first conveying plate (421) to descend below the second conveying plate (422), and the width of the first conveying plate (421) is smaller than that of the second conveying plate (422).

8. The feeding device for electrical performance test of claim 7, wherein the switching unit (420) further comprises a first slider sliding rail (450) arranged at the bottom of the first conveying plate (421) and a second slider sliding rail (460) arranged at the bottom of the second conveying plate (422).

9. The feeding device for electrical performance testing as recited in claim 1, wherein the feeding unit (430) comprises a feeding robot (431) and a suction cup taking mechanism (432) which can be lifted and lowered, and a connecting shaft (433) connecting an end of the feeding robot (431) and the suction cup taking mechanism (432).

10. The feeding device for electrical performance test as claimed in claim 1, wherein a bump (121) is disposed on the top of the carrier tray (120), and the bump (121) encloses a limiting space for limiting the electronic component (110).

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