CN214586987U

CN214586987U - Inductor processing counting assembly

Info

Publication number: CN214586987U
Application number: CN202120502367.9U
Authority: CN
Inventors: 袁露平
Original assignee: Hunan Wangci Electronic Technology Co ltd
Current assignee: Hunan Wangci Electronic Technology Co ltd
Priority date: 2021-03-09
Filing date: 2021-03-09
Publication date: 2021-11-02
Anticipated expiration: 2031-03-09

Abstract

The utility model provides an inductance processing counting assembly, including vibration dish, runner, conveyer belt and counter, the vibration dish set up in conveyer belt one side, runner one end with the discharge gate intercommunication of vibration dish, the other end suspension in the top of conveyer belt, the conveyer belt is used for the forward transmission inductance, the counter include the support, install in hall element on the support and be fixed in the control terminal of support top, the support suspension in the conveyer belt top, control terminal with hall element communication connection. The utility model provides an inductance processing counting assembly can improve inductance count accuracy.

Description

Inductor processing counting assembly

Technical Field

The utility model relates to an inductance processing technology field especially relates to an inductance processing counting assembly.

Background

The inductor is an element capable of converting electric energy into magnetic energy to be stored, and is widely applied to electronic equipment. After the inductor is processed, counting is needed to facilitate overall management.

In the related art, the number statistics of the inductors is usually performed manually, the efficiency of the statistical method is low, an operator is easily interfered by the outside, and the counting accuracy is not sufficient.

Therefore, it is necessary to provide an inductance process counting device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the technical problem that the aforesaid will be solved, provide an inductance processing counting assembly that efficiency is higher and the statistics accuracy is high.

The utility model provides an inductance processing counting assembly, including vibration dish, runner, conveyer belt and counter, the vibration dish set up in conveyer belt one side, runner one end with the discharge gate intercommunication of vibration dish, the other end suspension in the top of conveyer belt, the conveyer belt is used for the forward transmission inductance, the counter include the support, install in hall element on the support and be fixed in the control terminal of support top, the support suspension in the conveyer belt top, control terminal with hall element communication connection.

Preferably, the conveyer belt includes the support body, the area body, rotation axis and drive arrangement, the quantity of rotation axis is two, two the rotation axis install respectively in the both ends of support body, the area body end to end around establishing two on the rotation axis, one of them rotation axis is initiative rotation axis, and another rotation axis is driven rotation axis, drive arrangement is connected with initiative rotation axis, drives its rotation, and it is rotatory to drive the area body and driven rotation axis, and the inductance conveys along the direction of motion of the area body.

Preferably, the support includes two landing legs and connects two the connecting portion of landing leg, two the landing leg is fixed in respectively the both sides of support body, connecting portion with the conveyer belt interval sets up, just the extending direction of connecting portion with the direction of transfer of conveyer belt is perpendicular.

Preferably, the distance between the connecting part and the conveyor belt is equal to the height of the sensor.

Preferably, the bottom surface of the connecting part is recessed towards the direction far away from the conveying belt to form a containing groove, and the hall element is glued and fixed in the containing groove.

Compared with the prior art, the utility model provides a pair of among inductance processing counting assembly, utilize the magnetism of the interior magnetic core of inductance, adopt hall element and magnetic core matched with mode, count, adopt mechanical counting, can improve counting efficiency, can avoid external disturbance simultaneously, improve the count accuracy, this inductance processing counting assembly simple structure simultaneously, easily installation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and 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 without inventive work, wherein:

fig. 1 is a schematic structural view of an inductance processing counting device provided by the present invention;

FIG. 2 is an exploded view of the bracket and the Hall element shown in FIG. 1;

fig. 3 is a schematic diagram of an inductance processing counting device provided by the present invention;

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.

Referring to fig. 1-3, the present invention provides an inductance processing counting device 100, which includes a vibrating plate 10, a flow channel 20, a conveyor belt 30 and a counter 40.

The vibration disk 10 is arranged on one side of the conveying belt 30, one end of the flow channel 20 is communicated with a discharge hole of the vibration disk 10, and the other end of the flow channel is suspended above the conveying belt 30.

The processed inductor is placed in the hopper of the vibration disk 10, the pulse electromagnet is arranged below the hopper of the vibration disk, the hopper can vibrate in the vertical direction, the inclined spring piece drives the hopper to do torsional vibration around the vertical shaft of the hopper, and the inductor in the hopper rises along the spiral track due to the vibration. In the process of rising, the inductors can automatically enter the next procedure to be conveyed in a uniform state according to the requirements of assembly or processing through a series of screening or posture change of the rails. The structure of the vibration plate 10 may be a conventional structure in the art, and the present embodiment does not limit this.

One end of the flow channel 20 is communicated with the discharge hole of the vibration disc 10, and the other end is suspended above the feed end of the conveyor belt 30. Because the runner 20 with the vibration dish 10 is fixed, the vibration of vibration dish 10 can drive runner 20 takes place the vibration in step, runner 20 suspends in conveyer belt 30 top can avoid runner 20 touches conveyer belt 30. Therefore, the distance between the runner 20 and the conveyor belt 30 needs to be slightly larger than the vibration distance of the runner 20 in the vertical direction. Preferably, the flow channel 20 is obliquely arranged, so that the moving speed of the inductor in the flow channel 20 can be increased, and the inductor is prevented from forming a jam in the flow channel 20. After the sorting and conveying of the vibrating disk 10, the inductors fall out from the discharge end of the flow channel 20 one by one.

Conveyer belt 30 is used for the conveying forward the inductance, conveyer belt 30 includes support body 31, the area body 32, rotation axis 33 and drive arrangement 34, the quantity of rotation axis 33 is two, two rotation axis 33 install respectively in the both ends of support body 31, the area body 32 end to end around establishing two on the rotation axis 33, one of them rotation axis 33 is initiative rotation axis, and another rotation axis 33 is driven rotation axis, drive arrangement 34 is connected with the initiative rotation axis, drives its rotation to it is rotatory to drive the area body 32 and driven rotation axis, and the inductance conveys along the direction of motion of the area body 32.

The inductance is followed fall out in the runner 20, the discharge end of runner 20 only falls out an inductance at every turn, and the inductance falls on the area body of conveyer belt 30, because the area body 32 is in the motion state, and consequently the later inductance is falling the in-process, and preceding inductance has been driven forward by the area body 32 and has moved one end distance, and consequently the later inductance falls the back on the area body 32, can keep certain distance with preceding inductance, through the transfer rate of rational regulation area body 32, can control the interval of two adjacent inductances on the area body 32.

The counter 40 includes a bracket 41, a hall element 42 mounted on the bracket 41, and a control terminal 43 fixed above the bracket 41.

The support 41 includes two landing legs 411 and connects two the connecting portion 412 of landing leg 411, two the landing leg 411 is fixed in respectively the both sides of support body 31, connecting portion 412 with conveyer belt 30 interval sets up, just the extending direction of connecting portion 412 with conveyer belt 30's direction of transfer is perpendicular. Further, the distance between the connecting portion 412 and the conveyor belt 30 needs to be larger than the height of the sensor, so that the conveyor belt 30 can smoothly pass through the lower portion of the connecting portion 412.

The supporting legs 411 are detachably connected with the frame body 31, for example, the supporting legs are connected through bolts, so that the supporting legs can be conveniently installed and detached, and the supporting legs 411 can be installed on any conveying belt, so that counting of inductors on the conveying belt is realized. Further, the connecting part 412 can be set to be a telescopic structure, so that the length of the connecting part 412 can be adjusted, and the use requirements of conveyor belts with different widths can be met.

The hall element 42 is mounted on the bracket 41, specifically, a receiving groove 4120 is formed by the bottom surface of the connecting portion 412 being recessed in a direction away from the conveyor belt 30, and the hall element 42 is fixed in the receiving groove 4120 by gluing. The inside magnetic core that is equipped with of inductance, the magnetic core has magnetism, can produce the magnetic field around it, and when it was close to hall element 42, hall element 42 received the magnetic field influence, output pulse signal, and the pulse number can be counted out to the circuit inside hall element 42 after handling the signal, can understand, whenever through an inductance, produces pulse signal promptly, and consequently the pulse number is the same with the number of inductance, and the count of inductance number can be realized to statistics pulse number. By controlling the distance between two adjacent inductors, the magnetic field interaction between two adjacent inductors can be avoided, and the distance between two adjacent inductors is controlled by the conveying speed of the conveyor belt 30.

The control terminal 43 is in communication connection with the hall element 42 and is used for collecting and processing the working data of the hall element 42, the control terminal 43 may include a start-stop switch, a reset switch and other physical buttons to control the start, stop and reset of counting, and the control terminal 43 may further include a display screen for displaying the count value in real time. The processing, transmission and digital-to-analog conversion of the signals are all common knowledge in the art, and are not described in detail in this embodiment.

The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims

1. The utility model provides an inductance processing counting assembly, its characterized in that, includes vibration dish, runner, conveyer belt and counter, the vibration dish set up in conveyer belt one side, runner one end with the discharge gate intercommunication of vibration dish, the other end suspension in the top of conveyer belt, the conveyer belt is used for the forward transmission inductance, the counter include the support, install in hall element on the support and be fixed in the control terminal of support top, the support suspension in the conveyer belt top, control terminal with hall element communication connection.

2. The inductance processing counting device according to claim 1, wherein the conveyor belt comprises a frame body, a belt body, two rotating shafts and a driving device, the number of the rotating shafts is two, the two rotating shafts are respectively installed at two ends of the frame body, the belt body is wound around the two rotating shafts in an end-to-end manner, one rotating shaft is a driving rotating shaft, the other rotating shaft is a driven rotating shaft, the driving device is connected with the driving rotating shaft to drive the driving rotating shaft to rotate so as to drive the belt body and the driven rotating shaft to rotate, and the inductance is conveyed along the moving direction of the belt body.

3. The inductance processing counting device according to claim 2, wherein the support comprises two support legs and a connecting portion connecting the two support legs, the two support legs are respectively fixed on two sides of the support body, the connecting portion and the conveyor belt are arranged at intervals, and the extending direction of the connecting portion is perpendicular to the conveying direction of the conveyor belt.

4. The counting device of claim 3, wherein the connecting portion is spaced from the conveyor belt by the height of the sensor.

5. The inductance processing counting device according to claim 3, wherein a receiving groove is formed by recessing a bottom surface of the connecting portion in a direction away from the conveyor belt, and the hall element is fixed in the receiving groove by gluing.