CN218655576U - Inductance screening equipment - Google Patents

Abstract

The utility model relates to the technical field of inductance screening, and discloses inductance screening equipment which comprises a vibrating disc device, a conveying track, a detection device and a sorting device; the vibration device comprises a feeding tray and a vibration component, and the vibration component is in transmission connection with the feeding tray; one end of the conveying track is communicated with the feeding disc; the detection device comprises a first transfer member, a detection member and a second transfer member, wherein the other end of the conveying track is communicated with the first transfer member, the first transfer member is used for receiving the inductance of the conveying track and transferring the inductance to the detection member, the detection member is used for detecting the reactance of the inductance, and the second transfer member is used for transferring the inductance detected by the detection member; the sorting device is used for receiving the inductor transferred by the second transfer component and comprises a switching component, a first sieve opening and a second sieve opening, and the switching component is used for switching the first sieve opening or the second sieve opening; the utility model discloses technical scheme aims at realizing the automated inspection screening of inductance.

Description

Inductance screening equipment

Technical Field

The utility model relates to an inductance screening technical field, in particular to inductance screening equipment.

Background

The PK inductor has the characteristics of small distributed capacitance, high self-resonant frequency and the like, and has larger market demand. In order to ensure the quality of products, all the produced PK inductances need to be detected and screened.

At present, PK inductance detection mainly depends on manual detection and screening, and depends on traditional manual and jig detection processes, so that the operation difficulty is high, the quality of each time is difficult to guarantee, and a large amount of time is consumed, and therefore equipment for automatically detecting and screening inductance is required to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an inductance screening equipment aims at realizing the automated inspection screening of inductance.

In order to achieve the above object, the utility model provides an inductance screening equipment, inductance screening equipment includes:

the vibration disc device comprises a feeding disc and a vibration component, the vibration component is in transmission connection with the feeding disc, and the vibration component is used for driving the feeding disc to vibrate;

one end of the conveying track is communicated with the feeding tray, and the conveying track is used for bearing the inductor transferred by the vibration of the feeding tray;

the detection device comprises a first transfer member, a detection member and a second transfer member, the other end of the conveying track is communicated with the first transfer member, the first transfer member is used for receiving the inductance of the conveying track and transferring the inductance to the detection member, the detection member is used for detecting the reactance of the inductance, and the second transfer member is used for transferring the inductance detected by the detection member;

the sorting device is used for receiving the inductor transferred by the second transfer component, and comprises a switching component, a first screen opening and a second screen opening, the switching component is used for switching the first screen opening or the second screen opening, the first screen opening is used for allowing the inductor which is detected by the detection component to be qualified to fall into, and the second screen opening is used for allowing the inductor which is detected by the detection component to be unqualified to fall into;

the switching component can correspondingly switch to the first screen opening or the second screen opening according to the detection result of the detection component.

In some embodiments of the present invention, the sorting device is provided with an accommodating chamber, and the first and second sifting openings are respectively opened at two sides of the accommodating chamber;

the switching component comprises a driving motor and a rotating plate, the driving motor is connected with the rotating plate in a rotating mode, the driving motor is used for driving the rotating plate to rotate, and the rotating plate can rotate to incline towards the first sieve opening or incline towards the second sieve opening;

the inductor can slide to the first sieve opening or the second sieve opening along the inclined direction of the rotating plate.

In some embodiments of the present invention, the first transfer member comprises a receiving platform and a rotating disc, the receiving platform is provided with a receiving side and a detection side; the receiving side is used for receiving the conveying inductance of the conveying track, and the detection component is arranged on the detection side and used for detecting the inductance;

the rotating disc can rotate relative to the bearing platform, and the rotating piece is used for driving the electric sensor to move on the bearing side self-detection side in a rotating mode.

In some embodiments of the present invention, the second transfer member comprises a pushing plate, the pushing plate is provided with an accommodating through hole for accommodating the inductor;

under the movement of the pushing plate, the accommodating through hole can move from the detection side to the accommodating cavity; when the containing cavity through hole moves to the upper part of the containing cavity, the containing through hole is communicated with the containing cavity.

In some embodiments of the present invention, the detection side is provided with a detection hole for accommodating an inductor; the detection component comprises a detection element and a push rod, and the detection element is arranged on one side of the detection hole;

the pushing plate is positioned above the bearing platform, and the pushing rod can move up and down in the accommodating through hole and the detection hole along the vertical direction;

when the push rod moves from the lower end face of the detection hole to the lower end face of the containing through hole, the inductor can move from the detection hole to the containing through hole.

In some embodiments of the present invention, the circumferential side of the rotating disc is provided with a groove for accommodating the inductor.

In some embodiments of the present invention, the vibrating member includes a swinging plate, and one end of the swinging plate is connected to the bottom of the upper tray;

the number of the swing plates is four, and the swing plates are arranged at intervals along the circumferential direction of the feeding tray.

In some embodiments of the present invention, the inductance screening device further comprises a touch screen module, the touch screen module is electrically connected to the vibration disc device, the detection device and the sorting device respectively.

The utility model discloses an in some embodiments, inductance screening equipment still includes the mount, touch-sensitive screen module, shake dish device, detection device and sorting unit all are fixed in on the mount.

The utility model discloses an in some embodiments, inductance screening equipment still includes the unloading funnel, the unloading funnel is fixed in on the mount, it is used for accepting to go up the charging tray the unloading inductance of unloading funnel.

According to the technical scheme of the utility model, the vibration component can adjust the position of the inductor in the feeding tray by vibrating the feeding tray, so that the inductor can be conveyed to the detection device along the conveying track in the communicating direction, and the inductor of the conveying track is received by the first transfer mechanism and transferred to the detection component for detecting the inductor; when the detection result meets the requirement, the switching component is switched to the first sieve opening, and the second transfer component transfers the inductor to the first sieve opening; when the testing result does not accord with the requirement, the switching component switches to the second screen cut, and the second shifts the component and shifts inductance to the second screen cut, has realized automated inspection and screening effect to the inductance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the inductive screening apparatus of the present invention;

figure 2 is the utility model discloses inductance screening equipment's local cross-sectional view.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, it should be considered that the combination of the technical solutions does not exist, and is not within the protection scope of the present invention.

The utility model provides an inductance screening equipment 1000, refer to fig. 1, inductance screening equipment 1000 includes vibrating disc device 100, delivery track 200, detection device 300 and sorting unit 400; the inductor is vibrated to the conveying track 200 by the vibrating disc device 100, the inductor is conveyed to the detection device 300 by the conveying track 200, and the detected inductor is screened by the sorting device 400 after being detected by the detection device 300.

The vibration disc device 100 comprises an upper tray 110 and a vibration member 120, wherein the vibration member 120 is in transmission connection with the upper tray 110, and the vibration member 120 is used for driving the upper tray 110 to vibrate; the vibration component 120 vibrates the feeding tray 110 to realize the position vibration adjustment of the inductor in the feeding tray 110, so that the inductors on the conveying track 200 are conveyed at the same angle, and the follow-up process is facilitated.

One end of the conveying track 200 is communicated with the upper tray 110, the conveying track 200 is used for bearing the inductance transferred by the vibration of the upper tray 110, and the inductance is adjusted by the vibration and then is conveyed and arranged by the conveying track 200.

The detecting device 300 includes a first transfer member 310, a detecting member 320, and a second transfer member 330, wherein the other end of the conveying track 200 communicates with the first transfer member 310, the first transfer member 310 is used for receiving the inductance of the conveying track 200 and transferring to the detecting member 320, the detecting member 320 is used for detecting the reactance of the inductance, and the second transfer member 330 is used for transferring the inductance detected by the detecting member 320.

This sorting unit 400 is used for accepting the inductance that second transfer component 330 shifted, and sorting unit 400 includes switching component, first sifter and second sifter, and the switching component is used for switching first sifter or second sifter, and first sifter supplies to detect that component 320 detects qualified inductance and falls into, and the second sifter supplies to detect that component 320 detects unqualified inductance and falls into.

The switching member can be correspondingly switched to the first screen opening or the second screen opening according to the detection result of the detecting member 320.

Based on the inductance screening equipment 1000 with the technical characteristics, the vibration component 120 adjusts the inductance position in the feeding tray 110 through vibration of the feeding tray 110, so that the inductance can be conveyed to the detection device 300 along the conveying track 200 according to the communication direction, and the inductance of the conveying track 200 is received by the first transfer mechanism and transferred to the detection component 320 for inductance detection; when the detection result meets the requirement, the switching component is switched to the first sieve opening, and the second transfer component 330 transfers the inductor to the first sieve opening; when the detection result is not satisfactory, the switching component is switched to the second screen port, and the second transfer component 330 transfers the inductor to the second screen port, so that the automatic detection and screening effects on the inductor are realized.

Further, referring to fig. 2, the sorting device 400 is provided with an accommodating chamber 420, and the first and second sifter holes are respectively opened at two sides of the accommodating chamber 420; the switching member includes a driving motor 411 and a rotating plate 412, the driving motor 411 is rotatably connected to the rotating plate 412, the driving motor 411 is used for driving the rotating plate 412 to rotate, and the rotating plate 412 can rotate to incline towards the first sieve opening or incline towards the second sieve opening.

The inductor can slide to the first screen port or the second screen port along the inclined direction of the rotating plate 412; through according to different testing results, the rotating plate 412 rotates towards the first sieve opening or the second sieve opening in an inclined mode, the inductor drops to the rotating plate 412, and slides to the corresponding sieve opening along the rotating plate 412, and the inductor is screened.

The first transfer member 310 includes a receiving platform 311 and a rotating disc 312, wherein the receiving platform 311 is provided with a receiving side and a detecting side; the receiving side is used for receiving the conveying inductance of the conveying track 200, and the detecting member 320 is arranged on the detecting side and used for detecting the inductance.

The rotating disc 312 can rotate relative to the receiving platform 311, and the rotating disc is used for driving the inductor to move along with the receiving side self-detection side; through the rotation of the rotating disc 312, the inductor moves from the detection side of the receiving side, and the detection effect of the inductor is further realized.

Specifically, the second transfer member 330 includes a push plate 331, the push plate 331 being provided with an accommodation through hole 331A for accommodating the inductor; the accommodation through hole 331A can move to the accommodation cavity 420 at the detection side by the movement of the push plate 331; when the through hole of the accommodating chamber 420 moves above the accommodating chamber 420, the accommodating through hole 331A communicates with the accommodating chamber 420; after the inductor is detected on the detection side, the pushing plate 331 moves to transfer the inductor, the inductor is accommodated in the accommodating through hole 331A, and when the pushing plate 331 moves to the accommodating cavity 420, the inductor drops into the accommodating cavity 420 and is matched with the switching mechanism to realize the sieving and sliding of the inductor at the first sieve opening or the second sieve opening.

In this embodiment, the detection side is provided with a detection hole 311A for accommodating the inductor; the detecting member 320 includes a detecting element provided at one side of the detecting hole 311A, and a push rod 321.

It should be noted that the detection element may be an inductance tester.

Furthermore, the pushing plate 331 is located above the receiving platform 311, and the pushing rod 321 can move up and down along the vertical direction in the accommodating through hole 331A and the detecting hole 311A; when the push rod 321 moves from the lower end surface of the detection hole 311A to the lower end surface of the accommodation through hole 331A, the inductor can move from the detection hole 311A to the accommodation through hole 331A.

Specifically, the pushing plate 331 moves to enable the accommodating through hole 331A to be communicated with the detection hole 311A, the rotating disc 312 moves the inductor into the detection hole 311A, the inductor is supported in the monitoring hole through the pushing rod 321, and the inductor is detected in the detection hole 311A; after detection is finished, the pushing rod 321 moves upwards to lift the inductor to the accommodating through hole 331A, movement of the accommodating through hole 331A to drive the inductor is achieved through movement of the pushing plate 331, and self-detection screening switching of the inductor is achieved.

In this embodiment, hold first hole site and the second hole site that includes along axial interval setting of through-hole 331A, first hole site and rolling disc 312 cooperation, rolling disc 312 rotates and drives the inductance and fall into first hole site, push plate 331 removes to make the inductance in the first hole site fall into in detecting hole 311A, push plate 331 resets simultaneously, the second hole site coincides with detecting hole 311A, push rod 321 rises this moment and realizes that the inductance rises to the second hole site in, push plate 331 removes once more and realizes that the second hole site communicates with each other with holding chamber 420, realize the screening of inductance.

Wherein, the periphery of the rotating disc 312 is provided with a groove 312A for accommodating the inductor; the inductor is conveyed to the receiving side through the conveying rail 200 and reaches the groove 312A of the rotating disc 312, the rotating disc 312 rotates and drives the inductor to move to the detection side through the groove 312A, and the inductor moves into the detection hole 311A and is detected through the detection element.

In this embodiment, the vibrating member 120 includes a swing plate, one end of which is connected to the bottom of the upper tray 110; the number of the swing plates is four, and the swing plates are arranged at intervals along the circumferential direction of the upper tray 110; regular vibration of the upper tray 110 is realized through the swinging of the swinging plate at the bottom of the upper tray 110, so that the adjustment of the inductance is realized and the self-external conveying is realized; the circumferential interval arrangement further improves the vibration balance of the whole upper tray 110.

The inductive screening device 1000 further comprises a touch screen module 500, wherein the touch screen module 500 is electrically connected with the vibration disc device 100, the detection device 300 and the sorting device 400 respectively; the user can control the touch screen between the devices through the touch screen module 500, and adjust corresponding parameters according to actual conditions.

Further, the inductance screening device 1000 further comprises a fixing frame 600, the touch screen module 500, the vibration disc device 100, the detection device 300 and the sorting device 400 are all fixed on the fixing frame 600, the fixed connection of the devices is achieved through the fixing frame 600, and the integrity of the inductance screening device 1000 is improved.

Specifically, the inductive screening apparatus 1000 further comprises a discharging hopper 700, wherein the discharging hopper 700

Is fixed on the fixing frame 600, the feeding tray 110 is used for receiving the blanking inductor of the blanking funnel 700,

the inductor can be intensively dropped onto the upper tray 110 through the feeding funnel 700.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An inductive screening apparatus, comprising:

the vibration disc device comprises a feeding disc and a vibration component, the vibration component is in transmission connection with the feeding disc, and the vibration component is used for driving the feeding disc to vibrate;

one end of the conveying track is communicated with the feeding tray, and the conveying track is used for bearing the inductor transferred by the vibration of the feeding tray;

the detection device comprises a first transfer member, a detection member and a second transfer member, the other end of the conveying track is communicated with the first transfer member, the first transfer member is used for bearing the inductance of the conveying track and transferring the inductance to the detection member, the detection member is used for detecting the reactance of the inductance, and the second transfer member is used for transferring the inductance detected by the detection member;

the sorting device is used for receiving the inductor transferred by the second transfer component, and comprises a switching component, a first screen opening and a second screen opening, the switching component is used for switching the first screen opening or the second screen opening, the first screen opening is used for allowing the inductor which is detected by the detection component to be qualified to fall into, and the second screen opening is used for allowing the inductor which is detected by the detection component to be unqualified to fall into;

the switching component can correspondingly switch to the first screen opening or the second screen opening according to the detection result of the detection component.

2. The inductive screening apparatus of claim 1, wherein said sorting device has a receiving chamber, said first and second sifter openings being disposed on opposite sides of said receiving chamber;

the switching component comprises a driving motor and a rotating plate, the driving motor is connected with the rotating plate in a rotating mode, the driving motor is used for driving the rotating plate to rotate, and the rotating plate can rotate to incline towards the first sieve opening or incline towards the second sieve opening;

the inductor can slide to the first sieve opening or the second sieve opening along the inclined direction of the rotating plate.

3. The inductive screening apparatus of claim 2, wherein said first transfer member comprises a receiving platform and a rotatable disc, said receiving platform being provided with a receiving side and a detection side; the receiving side is used for receiving the conveying inductance of the conveying track, and the detection component is arranged on the detection side and used for detecting the inductance;

the rolling disc can rotate relative to the bearing platform, and the rolling disc is used for rotating to drive the induction to move on the bearing side self-checking side.

4. An inductive screening apparatus according to claim 3, wherein said second transfer member includes a push plate provided with receiving through holes for receiving inductors;

under the movement of the pushing plate, the accommodating through hole can move from the detection side to the accommodating cavity; when the containing cavity through hole moves to the upper part of the containing cavity, the containing through hole is communicated with the containing cavity.

5. An inductive screening apparatus according to claim 4, wherein said sensing side is provided with a sensing aperture for receiving an inductor; the detection component comprises a detection element and a push rod, and the detection element is arranged on one side of the detection hole;

the pushing plate is positioned above the bearing platform, and the pushing rod can vertically move in the accommodating through hole and the detection hole;

when the push rod moves from the lower end face of the detection hole to the lower end face of the containing through hole, the inductor can move from the detection hole to the containing through hole.

6. An inductive screening apparatus according to claim 1, wherein the circumferential side of the rotatable disc is provided with a recess for receiving the inductor.

7. The inductive screening apparatus of claim 1, wherein said vibrating member comprises a swinging plate, one end of said swinging plate being connected to the bottom of said upper tray;

the number of the swing plates is four, and the swing plates are arranged at intervals along the circumferential direction of the feeding tray.

8. The inductive screening apparatus of claim 1, further comprising a touch screen module electrically connected to the shaker device, the detection device, and the sorting device, respectively.

9. The inductive screening apparatus of claim 8, further comprising a mounting bracket, said touch screen module, said vibrating pan device, said detection device, and said sorting device being secured to said mounting bracket.

10. The inductive screening device of claim 9, further comprising a blanking funnel, wherein the blanking funnel is fixed to the mounting bracket, and the feeding tray is configured to receive a blanking inductor of the blanking funnel.

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