CN217263210U - Automatic material taking device for inductor - Google Patents

Abstract

The utility model relates to the technical field of inductance, in particular to an automatic material taking device for inductance, which comprises a base and an external conveying groove for transporting inductance, wherein one side of the base is provided with a material pushing cylinder, the power output end of the material pushing cylinder is connected with a groove, and one side of the groove facing the conveying groove is provided with a material receiving hole; when the power output end of the material pushing cylinder is in a contracted state, the material receiving port is connected with a feeding notch of the conveying groove, a material taking module is arranged above the groove, when the inductor is in the groove, the material taking unit is close to the groove to take materials, the material taking module comprises a rotating motor and a material taking rod above the groove, the material taking rod is connected with the output end of the rotating motor, and when the rotating motor rotates, the material taking rod is close to the groove; the utility model discloses a recess of material platform and the effect that pushes away the material cylinder carry out single separation with the inductance and just can get the material once more after avoiding getting the material untidy material that leads to needing artifical adjustment.

Description

Automatic material taking device for inductor

Technical Field

The utility model relates to an inductance technical field, especially an automatic extracting device is used to inductance.

Background

The chip inductor is also called as a power inductor, a heavy-current inductor and a surface-mounted high-power inductor, has the characteristics of miniaturization, high quality, high energy storage, low resistance and the like, and can only pass small current and bear low voltage when an inductor in an ordinary electronic circuit is an air coil or a coil with a magnetic core; the power chip inductor is divided into two types of a magnetic cover and a non-magnetic cover, mainly comprises a magnetic core and a copper wire, and mainly plays a role in filtering and vibrating in a circuit;

CN212355674U provides the material subassembly is got to X axle that integrative inductance terminal was used, it gets the material seat including the X axle, X axle is got material seat top and is fixed with X axle material loading module bottom plate, install X axle linear module on the X axle material loading module bottom plate, install X axle material loading slide on the X axle linear module, the slip table cylinder is installed to X axle material loading slide lower part, install vacuum pressure inductor on the X axle material loading slide of slip table cylinder one side, slip table cylinder piston rod is connected with suction nozzle lifter plate top downwards, three hole suction nozzle seats are installed to suction nozzle lifter plate bottom, vacuum chuck is installed to three hole suction nozzle seat bottoms. The structure after adopting the scheme is reasonable, the using effect is good, the material taking speed is high, and the efficiency is high;

however, the utility model discloses can't make single inductance get into next process with the separation of single inductance terminal, increase subsequent work load, reduce work efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an inductance is with automatic extracting device, its aim at enable the inductance of the material is got in the wait on the conveyer trough and carries out solitary separation.

In order to achieve the above object, the utility model provides a following technical scheme:

an automatic material taking device for inductors comprises a base and an external conveying groove used for conveying inductors, wherein a material pushing cylinder is arranged on one side of the base, a power output end of the material pushing cylinder is connected with a groove, and a material receiving port is arranged on one side, facing the conveying groove, of the groove; when the power output end of the material pushing cylinder is in a contraction state, the material receiving opening is connected with the feeding notch of the conveying groove;

the recess top is equipped with gets the material module, when the inductance is in the recess, get the material unit and be close to the recess and get the material.

The material taking module comprises a rotary motor and a material taking rod, wherein the rotary motor is arranged above the groove, the material taking rod is connected with the output end of the rotary motor, and when the rotary motor rotates, the material taking rod is close to the groove.

The rotating electrical machines top still is provided with the cylinder No. one, the output of cylinder install the connecting piece make the cylinder with one side of rotating electrical machines is connected.

The top of base still is provided with the slide rail, be provided with the slip table on the slide rail, the connecting piece is installed to slip table one end, the cylinder is installed on the connecting piece No. one.

The other end of the sliding table is provided with a second cylinder; when the power output end of the second cylinder is contracted, the first cylinder drives the material taking rod to grab the inductor on the groove; when the power output end of the second cylinder is in an extending state, the first cylinder drives the material taking rod to send the inductor out to the next procedure.

And a handle is arranged on the rotating motor.

The material taking rod is connected with an external vacuum pump.

Compared with the prior art, the utility model discloses beneficial effect is:

the utility model discloses a recess of material platform and the effect that pushes away the material cylinder carry out single separation with the inductance and just can get the material once more after avoiding getting the material untidy material that leads to needing artifical adjustment.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a right side view of the present invention;

fig. 4 is a perspective view of the material table and the material pushing cylinder.

In the figure: 1-base 2-conveying trough 3-material pushing cylinder 4-groove 401-material receiving opening 5-rotating motor 6-material taking rod 7-first cylinder 701-connecting block 8-sliding rail 9-sliding table 10-connecting piece 11-second cylinder

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 work belong to the protection scope of the present invention.

Referring to fig. 1-4, the utility model provides a technical solution:

an automatic material taking device for inductors comprises a base 1 and an external conveying groove 2 used for conveying inductors, wherein a material pushing cylinder 3 is arranged on one side of the base 1, a power output end of the material pushing cylinder 3 is connected with a groove 4, and a material receiving port 401 is arranged on one side, facing the conveying groove 2, of the groove 4; when the power output end of the pushing cylinder 3 is in a contracted state, the material receiving port 401 is connected with the feeding notch of the conveying groove 2;

4 tops of recess are equipped with gets material module, when the inductance is in recess 4, get the material unit and be close to recess 4 and get the material.

In actual operation, inductors are orderly arranged in the conveying groove 2 for conveying, the conveying groove 2 conveys the inductors into the groove 4, and the bottom of the groove 4 is provided with an infrared sensor for detecting whether the inductors enter the groove or not; before the inductor does not enter the groove 4, the pushing cylinder 3 is in a contraction state, and a material receiving opening 401 on the groove 4 is connected with a feeding notch of the conveying groove 2; the inductor enters the rear pushing cylinder 3 to be pushed, the groove 4 and the conveying groove 2 are staggered to separate a single inductor, and then the material taking module is close to the groove 4 to carry out material taking on the inductor in the groove 4.

Get the material module and can select gas claw device, mechanical clamping jaw or other vacuum adsorption device, in this embodiment, get the material module and include the rotating electrical machines 5 of recess 4 top and get material pole 6, get material pole 6 with the output of rotating electrical machines 5 is connected, when rotating electrical machines 5 rotated, get material pole 6 and be close to recess 4, get material pole 6 and peripheral hardware's vacuum pump connection.

In actual operation, after the inductance got into the recess, 5 actions of rotating electrical machines will set up the inductance that gets in the rotatory recess 4 that is close to of the pole 6 of getting of 5 output ends of rotating electrical machines, and the vacuum pump extraction is got the interior air of pole 6 and is made to get the material pole 6 and can adsorb the inductance afterwards, and 5 actions of rotating electrical machines make to get the material pole 6 and keep away from recess 4 afterwards, accomplish the inductance and get the material process.

In this embodiment, a first cylinder 7 is further disposed above the rotating electrical machine 5, and a connecting block 701 is installed at an output end of the first cylinder 7 to connect the first cylinder 7 with one side of the rotating electrical machine 5.

In actual operation, in order to avoid when getting the material the inductance touch other parts and the emergence accident, be connected one side of rotating electrical machines 5 and cylinder 7 through a connecting block 701, when the output of cylinder 7 is in advancing state, can be close to the inductance down with rotating electrical machines 5, thereby carry out the work of getting of inductance, after the work of getting of inductance is accomplished, the output of cylinder 7 is retracted, make and get the material pole 6 and adsorb the inductance that rises the take the altitude simultaneously and keep away from recess 4 above, rotating electrical machines 5 rotates again afterwards, avoid the inductance to touch recess 4.

In this embodiment, a slide rail 8 is further arranged at the top of the base 1, a sliding table 9 is arranged on the slide rail 8, a connecting piece 10 is installed at one end of the sliding table 9, the first air cylinder 7 is installed on the connecting piece 10, and a second air cylinder 11 is arranged at the other end of the sliding table 9; when the power output end of the second cylinder 11 is contracted, the first cylinder 7 drives the material taking rod 6 to grab the inductor on the groove 4; when the power output end of the second cylinder 11 is in an extending state, the first cylinder 7 drives the material taking rod 6 to send out the inductor to the next working procedure.

In actual operation, the slide rail 8 at base 1 top and the slip table 9 on the slide rail 8 can make and get the material module and send to the spiral process, and when No. two cylinder 11's power take off end was in the shrink, get material pole 6 and take away the inductance of recess 4 and keep away from recess 4, and No. two cylinder 11's power take off end stretches out afterwards, and it impels whole material module of getting, sends the inductance to in the spiral process.

Preferably, when the device needs to be transferred to another working environment, the lifting base 1 is easy to damage the device due to stress problems, and the rotating motor 5 is provided with a handle in order to make the stress of the device uniform when the device is transferred.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An automatic material taking device for inductors comprises a base and an external conveying groove used for conveying inductors, and is characterized in that a material pushing cylinder is arranged on one side of the base, a power output end of the material pushing cylinder is connected with a groove, and a material receiving port is arranged on one side, facing the conveying groove, of the groove; when the power output end of the material pushing cylinder is in a contraction state, the material receiving opening is connected with the feeding notch of the conveying groove;

the inductor is arranged in the groove, and the inductor is arranged in the groove.

2. The automatic extracting device for the inductor as claimed in claim 1, wherein the extracting module comprises a rotating motor and an extracting rod above the groove, the extracting rod is connected with an output end of the rotating motor, and when the rotating motor rotates, the extracting rod is close to the groove.

3. The automatic material taking device for the inductor as claimed in claim 2, wherein a first air cylinder is further arranged above the rotating motor, and a connecting piece is mounted at an output end of the first air cylinder to enable the first air cylinder to be connected with one side of the rotating motor.

4. The automatic extracting device for the inductance is characterized in that a slide rail is further arranged at the top of the base, a sliding table is arranged on the slide rail, a connecting piece is installed at one end of the sliding table, and the first air cylinder is installed on the connecting piece.

5. The automatic material taking device for the inductor as claimed in claim 4, wherein a second cylinder is arranged at the other end of the sliding table; when the power output end of the second air cylinder is contracted, the first air cylinder drives the material taking rod to grab the inductor on the groove; when the power output end of the second cylinder is in an extending state, the first cylinder drives the material taking rod to send out the inductor to the next procedure.

6. The automatic extracting device for the inductance of claim 2, characterized in that a handle is arranged on the rotating motor.

7. The automatic extracting device for the inductor as claimed in claim 2, wherein the extracting rod is connected with an external vacuum pump.

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