CN213111456U - Automatic material placing disc device for winding electronic element - Google Patents

Abstract

The utility model relates to the technical field of electronic component winding, in particular to an automatic material placing disc device for electronic component winding, which comprises a clamp mechanism, an opening mechanism for driving the clamp mechanism to loosen, a material taking mechanism for taking materials on the clamp mechanism and a material disc mechanism positioned below the material taking mechanism and used for placing electronic components; the utility model discloses an automatic get material balance to follow-up handling electronic component gets the material through feeding agencies in anchor clamps mechanism, opens through opening clamp mechanism drive anchor clamps mechanism and presss from both sides the electronic component who unclamps the centre gripping when getting the material, feeding agencies places on the charging tray mechanism after getting the material and puts, and degree of automation is high, convenient follow-up welding to electronic component.

Description

Automatic material placing disc device for winding electronic element

Technical Field

The utility model relates to an electronic component wire winding technical field especially relates to an electronic component wire winding is with automatic pendulum charging tray device.

Background

With the application of electronic products becoming more and more extensive, the production and manufacture of various components in the electronic products become more and more important, and the inductor becomes more and more important as one of the three components. Usually, the production of power inductors requires a copper wire winding process, which is usually performed by an automatic winding machine. In the prior art, the manufacturing methods of the patch power inductor mainly include two types: one is a chuck rotary winding type, and the other is a flying fork winding type. The current power inductor manufacturing process comprises the following steps that firstly, a cylinder presses a chuck locking sleeve, a chuck is opened, a power inductor is installed after the chuck is opened, then the cylinder is loosened, the chuck automatically clamps the inductor and starts to wind, the wound inductor is subjected to line cutting, line arranging, tin point and blanking, the process is repeated in a circulating mode, and the inductor is manufactured continuously.

After the power inductor is wound, the material is automatically taken from the clamp and discharged. In the prior art, the Chinese patent publication numbers are: CN205274682U discloses an automatic discharging device, which is to place each power inductor by pushing material, and does not place each power inductor separately, so that each inductor is pushed in a contact manner, and the inductor is easily damaged by a bruise phenomenon.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an adopted automatic material pendulum dish of getting to follow-up handling electronic component gets the material through feeding mechanism in fixture mechanism, drives fixture mechanism through the opening clamp when getting the material and unclamps the electronic component who unclamps the centre gripping, and feeding mechanism places the charging tray mechanism after getting the material and puts, and degree of automation is high, and convenient follow-up is to the automatic charging tray device of putting for electronic component welded electronic component wire winding.

The utility model adopts the technical proposal that: an automatic material tray arranging device for winding electronic components comprises a clamp mechanism, a clamp opening mechanism, a material taking mechanism and a material tray mechanism, wherein the clamp opening mechanism is used for driving the clamp mechanism to loosen clamps;

the material taking mechanism comprises a portal frame, a material taking transmission assembly arranged on the portal frame, a rotary driving assembly arranged on the material taking transmission assembly in a transmission manner, a lifting driving assembly arranged at the driving end of the rotary driving assembly, and a material taking suction nozzle arranged on the lifting driving assembly and used for taking materials on a fixture mechanism and placing the materials on a material tray mechanism.

The further improvement of the scheme is that the clamp mechanism comprises a base, a rotating shaft arranged on the base and a clamping component arranged on the rotating shaft and used for clamping the electronic element.

The improved structure of the wire clamp comprises a base, a wire clamp seat and a baffle seat, wherein the wire clamp seat is arranged on two sides of the base and comprises a wire clamp fin, the baffle seat is arranged on the wire clamp fin, a wire pressing shaft capable of moving on the wire clamp fin is arranged on the baffle seat, and a first spring is arranged between the wire pressing shaft and the baffle seat.

The further improvement of the scheme is that the clamping assembly comprises an inner shaft sleeve connected with the rotating shaft, an outer shaft sleeve sleeved on the inner shaft sleeve, and a chuck arranged on the inner shaft sleeve, and a second spring is arranged between the outer shaft sleeve and the inner shaft sleeve.

The further improvement of the scheme is that the clamp opening mechanism comprises a clamp opening driving assembly, a transmission plate, a clamping plate driving assembly and a clamping plate, wherein the transmission plate is connected with the clamp opening driving assembly, the clamping plate driving assembly is installed on the transmission plate, and the clamping plate is installed at the driving end of the clamping plate driving assembly.

The further improvement of the scheme is that the opening and clamping driving assembly comprises an opening and clamping bottom plate, an opening and clamping cylinder seat arranged on the opening and clamping bottom plate, and a connecting block in driving connection with the opening and clamping cylinder seat, the connecting block is connected with a transmission plate, and the transmission plate is provided with a guide rail and is arranged on the opening and clamping bottom plate.

The further improvement of the scheme is that the transmission plate is provided with a guide fixing seat, and the clamping plate is movable on the guide fixing seat.

The further improvement of the scheme is that the outer shaft sleeve is provided with an open clamping ring, the open clamping plate is provided with an open clamping groove, and the size of the open clamping groove is larger than the outer diameter of the outer shaft sleeve and smaller than the outer diameter of the open clamping ring.

The further improvement to the above scheme is that the material taking transmission assembly is arranged as a linear transmission module, the rotary driving assembly is arranged as a rotary cylinder, and the lifting driving assembly is arranged as a sliding table cylinder.

The further improvement to the above scheme is that the charging tray mechanism comprises a charging tray transmission module, a charging tray transportation seat and a charging tray placing plate, wherein the charging tray transportation seat is arranged on the charging tray transmission module in a transmission manner, and the charging tray placing plate is evenly provided with a plurality of placing grooves for placing electronic elements.

The utility model has the advantages that:

compare traditional automatic wire winding blanking structure, the utility model discloses an automatic material balance of getting to follow-up handling electronic component gets the material through feeding mechanism in fixture mechanism, opens through the drive fixture mechanism of opening clamp when getting the material and presss from both sides and loosen the electronic component of centre gripping, feeding mechanism places the charging tray mechanism after getting the material and puts, and degree of automation is high, makes things convenient for follow-up welding to electronic component. The material taking mechanism is used for taking materials on the clamp mechanism, and the material tray mechanism is located below the material taking mechanism and used for placing electronic elements. The whole structure is stable and reliable, the working efficiency of mutual cooperation is high, and the automation effect is good.

In addition, the material taking mechanism comprises a portal frame, a material taking transmission assembly mounted on the portal frame, a rotary driving assembly arranged on the material taking transmission assembly in a transmission manner, a lifting driving assembly mounted at the driving end of the rotary driving assembly, and a material taking suction nozzle mounted on the lifting driving assembly and used for taking materials on the fixture mechanism and placing the materials into the material tray mechanism.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the automatic material placing plate device of the present invention;

FIG. 2 is a schematic structural diagram of a clamping mechanism of the automatic material placing tray placing device in FIG. 1;

FIG. 3 is a perspective view of a wire clamp seat of the clamping mechanism of FIG. 2;

FIG. 4 is a schematic perspective view of an opening and clamping mechanism of the automatic material tray placing device in FIG. 1;

FIG. 5 is a schematic view of an assembly structure of a clamping mechanism and an unclamping mechanism of the automatic material tray placing device in FIG. 1;

FIG. 6 is a schematic perspective view of a material taking mechanism of the automatic material placing tray device in FIG. 1;

fig. 7 is a schematic perspective view of a tray mechanism of the automatic tray placement device in fig. 1.

Description of reference numerals: the clamping mechanism 100, the base 110, the rotating shaft 120, the clamping assembly 130, the inner shaft sleeve 131, the outer shaft sleeve 132, the opening clamping ring 132a, the clamping head 133, the second spring 134, the wire clamping seat 140, the wire clamping fin 141, the baffle seat 142, the wire pressing shaft 143, the first spring 144, the opening clamping mechanism 200, the opening clamping driving assembly 210, the opening clamping bottom plate 211, the opening clamping cylinder seat 212, the connecting block 213, the driving plate 220, the guide fixing seat 221, the clamping plate driving assembly 230, the opening clamping plate 240, the opening clamping groove 241, the material taking mechanism 300, the portal frame 310, the material taking driving assembly 320, the rotating driving assembly 330, the lifting driving assembly 340, the material tray mechanism 400, the material tray driving module 410, the material tray transportation seat 420, the material swinging tray 430 and the placing groove 440.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 7, an automatic material tray placing device for winding electronic components includes a clamping mechanism 100, a clamping opening mechanism 200 for driving the clamping mechanism 100 to release the clamping, a material taking mechanism 300 for taking materials from the clamping mechanism 100, and a material tray mechanism 400 located below the material taking mechanism 300 for placing electronic components.

Referring to fig. 2, the clamping mechanism 100 includes a base 110, a rotating shaft 120 installed on the base 110, and a clamping assembly 130 installed on the rotating shaft 120 and used for clamping the electronic component, and particularly, the rotating shaft 120 is used for installing the clamping assembly 130, so that the stability of clamping the electronic component is facilitated, the winding process is facilitated, and the clamping stability is good.

Referring to fig. 3, the wire clamp seats 140 are installed on two sides of the base 110, each wire clamp seat 140 includes a wire clamp fin 141, a baffle seat 142 installed on the wire clamp fin 141, a wire pressing shaft 143 movable on the wire clamp fin 141, and a first spring 144 is installed between the wire pressing shaft 143 and the baffle seat 142, which is further improved in that the clamping assembly 130 includes an inner shaft sleeve 131 connected to the rotating shaft 120, an outer shaft sleeve 132 sleeved on the inner shaft sleeve 131, a clamping head 133 installed on the inner shaft sleeve 131, and a second spring 134 is installed between the outer shaft sleeve 132 and the inner shaft sleeve 131, specifically, the wire clamp seats 140 can play a wire clamping role in a winding process, clamp the electronic element through the clamping head 133, and have good clamping and fixing effects.

Referring to fig. 4, the unclamping mechanism 200 includes an unclamping driving assembly 210, a driving plate 220 mounted on the unclamping driving assembly 210, a clamping plate driving assembly 230 mounted on the driving plate 220, and an unclamping plate 240 mounted on the driving end of the clamping plate driving assembly 230, specifically, the driving plate 220 is driven by the unclamping driving assembly 210 to drive the clamping plate driving assembly 230 to realize linear transmission, and the clamping mechanism 100 is driven by the unclamping plate 240 to unclamp in the transmission process.

Open and press from both sides drive assembly 210 including opening and press from both sides bottom plate 211, install in opening of pressing from both sides bottom plate 211 and press from both sides cylinder base 212 drive connection block 213 of being connected, connection block 213 links to each other with driving plate 220, and driving plate 220 is provided with the guide rail and installs in opening and press from both sides bottom plate 211, and the further improvement does, and driving plate 220 installs direction fixing base 221, and open clamp plate 240 activity in direction fixing base 221 specifically drives driving plate 220 through opening press from both sides cylinder base 212 and realizes the transmission, keeps driven stability and precision through the guide rail in the transmission, sets up the transmission use that direction fixing base 221 is used for opening clamp plate 240, specifically drives through opening clamp drive assembly 210 and opens clamp plate 240 and transmit on direction fixing base 221, promotes transmission stability and reliability.

Referring to fig. 5, the outer diameter of the outer shaft sleeve 132 is provided with an open clamping ring 132a, the open clamping plate 240 is provided with an open clamping groove 241, the size of the open clamping groove 241 is larger than the outer diameter of the outer shaft sleeve 132 and smaller than the outer diameter of the open clamping ring 132a, specifically, the open clamping ring 132a and the open clamping groove 241 are matched, so that the outer shaft sleeve 132 can be opened and closed conveniently, the opening and the clamping are convenient, and the blanking effect is good.

Referring to fig. 6, the material taking mechanism 300 includes a portal frame 310, a material taking transmission assembly 320 installed on the portal frame 310, a rotation driving assembly 330 installed on the material taking transmission assembly 320 for transmission, a lifting driving assembly 340 installed at a driving end of the rotation driving assembly 330, and a material taking suction nozzle installed on the lifting driving assembly 340 and used for taking materials on the fixture mechanism 100 and placing the materials into the material tray mechanism 400, specifically, the portal frame 310 is used for supporting and installing, the material taking transmission assembly 320 is used for driving to realize linear transmission, the rotation driving assembly 330 is combined with the lifting driving assembly 340 to drive the material taking suction nozzle to take materials from the fixture mechanism 100, the materials are placed into the material tray mechanism 400 after being taken, automatic material taking and material placing are realized, and.

Get material drive assembly 320 and set up for sharp transmission module, rotation driving subassembly 330 is the revolving cylinder setting, and the lift drive assembly adopts transmission module and cylinder structure to realize the drive for the slip table cylinder setting, and the drive effect is good, and structural stability is high.

Referring to fig. 7, the tray mechanism 400 includes a tray transmission module 410, the transmission is arranged on a tray transportation seat 420 of the tray transmission module 410, a material placing tray 430 placed on the tray transportation seat 420, the material placing tray 430 is uniformly distributed with a plurality of placing grooves 440 for placing electronic components, specifically, the tray transmission module 410 drives the tray transportation seat 420, and in addition, the material placing tray 430 and the placing grooves 440 are arranged for placing the electronic components, so that the placing effect is good, and the subsequent processing is convenient.

The utility model discloses an automatic get material balance to follow-up handling electronic component gets material on fixture mechanism 100 through feeding agencies 300, drives fixture mechanism 100 through opening clamp mechanism 200 and opens the clamp and loosen the electronic component of centre gripping when getting material, feeding agencies 300 places on charging trays mechanism 400 after getting material and puts, and degree of automation is high, convenient follow-up welding to electronic component. Specifically, the clamping mechanism 100, the clamping opening mechanism 200 for driving the clamping mechanism 100 to release the clamping, the material taking mechanism 300 for taking materials from the clamping mechanism 100, and the tray mechanism 400 for placing electronic components below the material taking mechanism 300 are provided. The whole structure is stable and reliable, the working efficiency of mutual cooperation is high, and the automation effect is good.

It should be noted that the above description relates to various transmission assemblies and cylinders, and both the transmission assemblies and the cylinders are intelligently controlled through a PLC, and belong to the conventional technical means of technicians in the field, and are not described much.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an electronic component wire winding is with automatic pendulum charging tray device which characterized in that: the automatic material taking device comprises a clamp mechanism, a clamp opening mechanism, a material taking mechanism and a material tray mechanism, wherein the clamp opening mechanism is used for driving the clamp mechanism to loosen and clamp the material;

the material taking mechanism comprises a portal frame, a material taking transmission assembly arranged on the portal frame, a rotary driving assembly arranged on the material taking transmission assembly in a transmission manner, a lifting driving assembly arranged at the driving end of the rotary driving assembly, and a material taking suction nozzle arranged on the lifting driving assembly and used for taking materials on the fixture mechanism and placing the materials on the material tray mechanism.

2. The automatic material placing disk device for winding the electronic components as claimed in claim 1, wherein: the clamp mechanism comprises a base, a rotating shaft arranged on the base and a clamping assembly arranged on the rotating shaft and used for clamping the electronic element.

3. The automatic material placing disk device for winding the electronic components as claimed in claim 2, wherein: the wire clamp comprises a base, a wire clamp seat and a baffle seat, wherein the wire clamp seat is arranged on two sides of the base and comprises a wire clamp fin, the baffle seat is arranged on the wire clamp fin, a wire pressing shaft capable of moving on the wire clamp fin is arranged on the baffle seat, and a first spring is arranged between the wire pressing shaft and the baffle seat.

4. The automatic material placing disk device for winding the electronic components as claimed in claim 3, wherein: the clamping assembly comprises an inner shaft sleeve connected with the rotating shaft, an outer shaft sleeve sleeved on the inner shaft sleeve, and a chuck arranged on the inner shaft sleeve, and a second spring is arranged between the outer shaft sleeve and the inner shaft sleeve.

5. The automatic material placing disk device for winding the electronic components as claimed in claim 4, wherein: the opening and clamping mechanism comprises an opening and clamping driving assembly, a transmission plate, a clamping plate driving assembly and an opening and clamping plate, wherein the transmission plate is connected with the opening and clamping driving assembly, the clamping plate driving assembly is installed on the transmission plate, and the opening and clamping plate is installed at the driving end of the clamping plate driving assembly.

6. The automatic material placing disk device for winding the electronic components as claimed in claim 5, wherein: the opening and clamping driving assembly comprises an opening and clamping bottom plate, an opening and clamping cylinder seat arranged on the opening and clamping bottom plate, and a connecting block in driving connection with the opening and clamping cylinder seat, wherein the connecting block is connected with a transmission plate, and the transmission plate is provided with a guide rail and is arranged on the opening and clamping bottom plate.

7. The automatic material placing disk device for winding the electronic components as claimed in claim 6, wherein: the driving plate is provided with a guide fixing seat, and the opening plate is movable in the guide fixing seat.

8. The automatic material placing disk device for winding the electronic components as claimed in claim 7, wherein: the outer shaft sleeve outer diameter is provided with an open clamping ring, the open clamping plate is provided with an open clamping groove, and the size of the open clamping groove is larger than the outer shaft sleeve outer diameter and smaller than the open clamping ring outer diameter.

9. The automatic material placing disk device for winding the electronic components as claimed in claim 1, wherein: get material drive assembly and set up for sharp transmission module, the rotation driving subassembly sets up for revolving cylinder, the lift drive assembly sets up for the slip table cylinder.

10. The automatic material placing disk device for winding the electronic components as claimed in claim 1, wherein: the charging tray mechanism comprises a charging tray transmission module, a charging tray transportation seat and a charging tray placing seat, wherein the charging tray transmission seat is arranged on the charging tray transmission module in a transmission manner, and the charging tray placing seat is placed on the charging tray transportation seat and is uniformly provided with a plurality of placing grooves for placing electronic elements.

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