CN207097677U - A kind of feeding device of I-shaped inductive coil winding machine - Google Patents

Abstract

The utility model discloses a kind of feeding device of I-shaped inductive coil winding machine, solving magnetic core can not drop in material clamp, the problem of so as to influence operating efficiency, its drip irrigation device is to include vibrating disk, the discharging opening of the vibrating disk is provided with the guide rail realized and magnetic core is transported to subsequent processing, the one end of the guide rail away from discharging opening is connected with barrier pin both sides and further limits the positioning component that Pin locations realize directional feeding, the positioning component is connected with the limit assembly for realizing that control magnetic core interval falls, the feeding groove being adapted with magnetic core is provided with below the positioning component, the feeding groove is fixed on the mobile station realized by magnetic core feeding to coiling station, reach pin positioning and guiding, reduce and lead to not to drop to the purpose of feeding groove situation generation because pin is crooked.

Description

A kind of feeding device of I-shaped inductive coil winding machine

Technical field

Electronic component manufacture field is the utility model is related to, more specifically, it relates to a kind of I-shaped inductive coil winding machine Feeding device.

Background technology

Inductance is a kind of device being operated using electromagnetic induction principle, and its basic structure includes magnetic core and is wrapped in Coil on magnetic core, different according to demand, the shape of inductance is varied, and I-shaped inductive is very common one kind, I-shaped The magnetic core of type inductance is by a stem and is connected to the disk at stem both ends and forms, and one of disk outer end is connected with two Pin, coil are wrapped on stem.

Need to carry out inductance coiling in inductance process, it is now largely artificial using the replacement of I-shaped inductive coil winding machine Coiling, to improve operating efficiency, existing I-shaped inductive coil winding machine includes vibrating disk, feeding is provided with below vibrating disk discharging opening Mechanism, feed mechanism are provided with the feeding groove coordinated with magnetic core, and feed mechanism is fixed on screw systems, and spindle arrangement has magnetic Core is delivered to coiling station, while has the function that the magnetic core for winding line is sent to material collecting device.

But I-shaped inductive coil winding machine, when magnetic core is transported into feeding groove, pin is without positioner, vibrating disk Vibration pin can be made crooked with respect to feeding groove, magnetic core is not dropped in material clamp, so as to influence operating efficiency.

Utility model content

The purpose of this utility model is to provide a kind of feeding device of I-shaped inductive coil winding machine, reaches and leads pin positioning To reducing and lead to not to drop to the purpose of feeding groove situation generation because pin is crooked.

Above-mentioned technical purpose of the present utility model technical scheme is that：A kind of I-shaped inductive around The feeding device of line machine, including vibrating disk, the discharging opening of the vibrating disk are provided with realization and magnetic core are transported into subsequent processing Guide rail, the one end of the guide rail away from discharging opening, which is connected with barrier pin both sides and further limits Pin locations, realizes directional feeding Positioning component, the positioning component is connected with the limit assembly for realizing that control magnetic core interval falls, below the positioning component Provided with the feeding groove being adapted with magnetic core, the feeding groove is fixed on the movement realized by magnetic core feeding to coiling station Platform.

By using above-mentioned technical proposal, guide rail carries out preliminary guide-localization to magnetic core while being arranged on conveying, Positioning component to Pin locations realize limit, reduce because pin is crooked lead to not drop to feeding groove the occurrence of, The setting of limit assembly can realize that control magnetic core interval falls.

Preferably, the positioning component includes being placed in the fixed block of guide rail both sides, is connected to the fixed block by magnetic core Pin is directed towards the right baffle-plate and right shell body of fixed-direction, the right baffle-plate and right shell body and slips into direction provided with oblique towards magnetic core Guide face.

By using above-mentioned technical proposal, right baffle-plate and right shell body are equipped with oblique surface, the setting of oblique surface make magnetic core with The vibration of vibrating disk, pin and oblique surface collide and change direction, gradually guide magnetic core to line up pin towards the same side A row, so as to reduce because pin is crooked lead to not drop to feeding groove the occurrence of.

Preferably, the right baffle-plate and right shell body are oppositely arranged, the right baffle-plate and right shell body are along between guide rail conveying direction Away from tapering into.

By using above-mentioned technical proposal, right baffle-plate and right shell body taper into along guide rail conveying direction spacing, make pin Position be gradually defined, so as to be directed at feeding groove.

Preferably, the right baffle-plate and right shell body offer long lumbar hole, the right baffle-plate and right shell body by long lumbar hole with Fixed block is screwed together.

By using above-mentioned technical proposal, when there is deviation the position of positioning component positioning, it is necessary to adjust right baffle-plate and the right side The position of baffle plate, because being provided with long lumbar hole, the position of right baffle-plate and right shell body is adjusted, reducing magnetic core can not drop The occurrence of to loading assemblies.

Preferably, the limit assembly is connected with liquid including barrier magnetic core in the expansion link of positioning component, the expansion link Compressing cylinder, the fixed block offer the slip hole for expansion link sliding.

By using above-mentioned technical proposal, expansion link is defined to magnetic core position, and hydraulic jack drives expansion link reciprocal Motion, so that magnetic core interval falls, so as to avoid once falling multiple magnetic cores, magnetic core is set to fall into one by one in feeding groove.

Preferably, the feeding groove is provided with magnet piece with magnetic core contact portion.

By using above-mentioned technical proposal, magnet piece has suction to magnetic core, makes magnetic core be not easy to skid off from feeding groove.

Preferably, the notch of the feeding groove is provided with fillet.

By using above-mentioned technical proposal, the setting of fillet has guiding function, is easy to magnetic core to slip into feeding groove.

Preferably, the feeding groove is evenly arranged in mobile station.

By using above-mentioned technical proposal, under expansion link effect, uniform intervals are fallen magnetic core, and uniform intervals are arranged upper Expect that groove is matched, reduce the occurrence of magnetic core can not be dropped in feeding groove.

In summary, the utility model has the advantages that：Guide rail is carried out while being arranged on conveying to magnetic core Preliminary guide-localization, positioning component is realized to Pin locations and limited, and is reduced and is led to not drop to feeding because pin is crooked The occurrence of groove.

Brief description of the drawings

Fig. 1 is example structure schematic diagram；

Fig. 2 is the exploded perspective view of positioning component in embodiment；

Fig. 3 is the structural representation of positioning component and feeding groove in embodiment；

Fig. 4 is the enlarged drawing at A in Fig. 3.

In figure：1st, vibrating disk；2nd, guide rail；3rd, right baffle-plate；4th, right shell body；5th, oblique surface；6th, fixed block；61st, slip hole； 62nd, chute；63rd, mounting seat；7th, hydraulic jack；71st, expansion link；8th, long lumbar hole；9th, mobile station；91st, feeding groove；911st, circle Angle；912nd, magnet piece.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

Embodiment：A kind of feeding device of I-shaped inductive coil winding machine, as shown in figure 1, including vibrating disk 1, vibrating disk 1 Discharging opening is welded with guide rail 2, and guide rail 2 extends downwardly and forms slope, magnetic core is moved down under gravity, in guide rail 2 Bottom is provided with positioning component, and positioning component energy barrier pin both sides further limit Pin locations and realize directional feeding, positioning Component is connected with limit assembly, and limit assembly control magnetic core interval is fallen, and feeding groove 91, feeding are placed with below positioning component Groove 91 is adapted with magnetic core, and feeding groove 91 is welded in mobile station 9, and feeding groove 91 is moved to coiling work by mobile station 9 Position.

The magnetic core of I-shaped inductive is by a stem and is connected to the disk at stem both ends and forms, outside one of disk End is connected with two pins.

The width of the import of guide rail 2 slightly larger than the diameter of stem, less than disk diameter, come magnetic core below by magnetic core forward Top.

Guide rail 2 carries out preliminary guide-localization to magnetic core while being arranged on conveying, positioning component is real to Pin locations Now limit, reduce because pin is crooked lead to not drop to feeding groove 91 the occurrence of, the setting of limit assembly can be real Now magnetic core interval is controlled to fall.

As depicted in figs. 1 and 2, positioning component includes fixed block 6, and fixed block 6 is welded on the outer wall of vibrating disk 1, on fixed block 6 The chute 62 for magnetic core sliding is offered, the notch alignment feeding groove 91 of chute 62, fixed block 6 is connected with right baffle-plate 3 and the right side Baffle plate 4, right baffle-plate 3 and right shell body 4 offer long lumbar hole 8, right baffle-plate 3 and right shell body 4 and pass through long lumbar hole 8 and the bolt of fixed block 6 Connection, the setting of long lumbar hole 8, is adjusted right baffle-plate 3 and the position of right shell body 4, when the position of positioning component positioning When having deviation, it can adjust in time.

Right baffle-plate 3 and right shell body 4 slip into direction towards magnetic core and are provided with oblique surface 5, and right baffle-plate 3 and right shell body 4 are equipped with tiltedly Guide face 5, the setting of oblique surface 5 make vibration of the magnetic core with vibrating disk 1, and pin and oblique surface 5 collide and change direction, by Gradually guiding magnetic core lines up a row of the pin towards the same side, leads to not drop to feeding groove because pin is crooked so as to reduce 91 the occurrence of.

Right baffle-plate 3 and right shell body 4 are oppositely arranged, and right baffle-plate 3 and right shell body 4 taper into along the conveying direction spacing of guide rail 2, The position of pin is set gradually to be defined, so as to be directed at feeding groove 91.

Limit assembly includes expansion link 71, and expansion link 71 is connected with hydraulic jack 7, and expansion link 71 is welded on hydraulic jack 7 Output shaft, fixed block 6 is welded with mounting seat 63, and hydraulic jack 7 is welded in mounting seat 63, and fixed block 6 is offered for flexible The slip hole 61 that bar 71 slides, expansion link 71 limit magnetic core in chute 62, and hydraulic jack 7 drives expansion link 71 to move back and forth, So that magnetic core interval falls, so as to avoid once falling multiple magnetic cores, magnetic core is set to fall into one by one in feeding groove 91.

As shown in Figure 3 and Figure 4, feeding groove 91 is provided with magnet piece 912 with magnetic core contact portion, and magnet piece 912 is to magnetic core There is suction, make magnetic core be not easy to skid off from feeding groove 91.

The notch of feeding groove 91 is provided with fillet 911, and the setting of fillet 911 has guiding function, is easy to magnetic core to slip into Expect in groove 91.

Feeding groove 91 is evenly arranged in mobile station 9, and under the effect of expansion link 71, uniform intervals are fallen magnetic core, between uniform It is matched every the feeding groove 91 of arrangement, reduce the occurrence of magnetic core can not be dropped in feeding groove 91.

Operation principle：Magnetic core carries out preliminary guide-localization by guide rail 2, then transmit as vibrating disk 1 vibrates and moves To positioning component, now pin and oblique surface 5 collide and change direction, and oblique surface 5 gradually guides magnetic core to line up pin court To a row of the same side, right baffle-plate 3 and right shell body 4 taper into along the conveying direction spacing of guide rail 2, the position of pin is gradually entered Row limits, and so as to be directed at feeding groove 91, leads to not drop to the situation of feeding groove 91 because pin is crooked so as to reduce Occur.

Claims (8)

1. a kind of feeding device of I-shaped inductive coil winding machine, including vibrating disk (1), it is characterized in that：Vibrating disk (1) goes out Material mouth is provided with the guide rail (2) realized and magnetic core is transported to subsequent processing, and the one end of the guide rail (2) away from discharging opening is connected with Barrier pin both sides further limit the positioning component that Pin locations realize directional feeding, and the positioning component is connected with realization control The limit assembly that magnetic core interval processed falls, the positioning component lower section is provided with the feeding groove (91) being adapted with magnetic core, described Feeding groove (91) is fixed on realization by the mobile station (9) of magnetic core feeding to coiling station.

2. a kind of feeding device of I-shaped inductive coil winding machine according to claim 1, it is characterized in that：The positioning component The pin of magnetic core is directed towards fixation side including being placed in the fixed block (6) of guide rail (2) both sides, being connected to the fixed block (6) To right baffle-plate (3) and right shell body (4), the right baffle-plate (3) and right shell body (4) slip into direction towards magnetic core and be provided with oblique surface (5)。

3. a kind of feeding device of I-shaped inductive coil winding machine according to claim 2, it is characterized in that：The right baffle-plate (3) it is oppositely arranged with right shell body (4), the right baffle-plate (3) and right shell body (4) taper into along guide rail (2) conveying direction spacing.

4. a kind of feeding device of I-shaped inductive coil winding machine according to claim 3, it is characterized in that：The right baffle-plate (3) and right shell body (4) offers long lumbar hole (8), and the right baffle-plate (3) and right shell body (4) pass through long lumbar hole (8) and fixed block (6) it is screwed together.

5. a kind of feeding device of I-shaped inductive coil winding machine according to claim 4, it is characterized in that：The limit assembly Including barrier magnetic core hydraulic jack (7), the fixed block are connected with the expansion link (71) of positioning component, the expansion link (71) (6) slip hole (61) for expansion link (71) sliding is offered on.

6. a kind of feeding device of I-shaped inductive coil winding machine according to claim 5, it is characterized in that：The feeding groove (91) it is provided with magnet piece (912) with magnetic core contact portion.

7. a kind of feeding device of I-shaped inductive coil winding machine according to claim 6, it is characterized in that：The feeding groove (91) notch is provided with fillet (911).

8. a kind of feeding device of I-shaped inductive coil winding machine according to claim 7, it is characterized in that：The feeding groove (91) it is evenly arranged in mobile station (9).