CN220731319U - High-low frequency integral anti-interference assembly - Google Patents

Abstract

The utility model discloses a high-low frequency integrated anti-interference component, which comprises an inductance magnetic ring and a heat shrinkage component, wherein an enamelled round copper wire is wound on the surface of the inductance magnetic ring, the other end of the enamelled round copper wire is connected with a female terminal, the heat shrinkage component is arranged outside the enamelled round copper wire and the inductance magnetic ring, the heat shrinkage component comprises a heat shrinkage sleeve main body, a heat shrinkage sleeve tilting body and an adhesive layer, and one end of the heat shrinkage sleeve main body is provided with the heat shrinkage sleeve tilting body. This high low frequency integral type anti-interference subassembly, pyrocondensation cover main part slope end bonds with pyrocondensation cover perk body bottom surface and forms the ring cover form, but the outer end protrusion of pyrocondensation cover perk body is in the ring cover surface, and the convex one end of pyrocondensation cover perk body is carried out to the later stage and is pulled and to take off this pyrocondensation sleeve, and can not cause the damage to enamelled round copper line and inductance magnetic ring to later maintenance is in order to the maintenance of later stage, and through carrying out the rolling design to the wire, avoid its distribution to be mixed and disorderly, influence other electronic components.

Description

High-low frequency integral anti-interference assembly

Technical Field

The utility model relates to the technical field of electronic elements, in particular to a high-low frequency integrated anti-interference assembly.

Background

The inductor is provided with a winding, the low-frequency interference in the circuit is the influence of the power supply on the circuit, the high-frequency interference is other interference from the outside, the high-frequency interference is usually restrained by adopting a mode of connecting a capacitor to the signal input end of the inductor in parallel, and the low-frequency interference is blocked by a heat-shrinkable sleeve.

The existing winding of the inductor is formed by encircling an inductance magnetic ring by a copper wire, and wrapping a heat-shrinkable sleeve outside the copper wire and the inductance magnetic ring so as to prevent the element from being polluted, but the copper wire and the inductance magnetic ring are easy to damage when the heat-shrinkable sleeve is stripped for maintenance in the later period, so that the high-frequency and low-frequency integrated anti-interference assembly is provided.

Disclosure of Invention

The utility model aims to provide a high-low frequency integrated anti-interference component, which solves the problems that in the prior art, the existing inductor winding is provided with a copper wire surrounding an inductance magnetic ring, a heat-shrinkable sleeve is wrapped outside the copper wire and the inductance magnetic ring to prevent elements from being polluted, and the copper wire and the inductance magnetic ring are easy to damage when the heat-shrinkable sleeve is stripped for maintenance in a later period.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high low frequency integral type anti-interference subassembly, includes inductance magnetic ring and pyrocondensation subassembly, the surface winding of inductance magnetic ring has enamelled round copper line, and enamelled round copper line's one end is connected with public terminal, enamelled round copper line's the other end is connected with female terminal, and female terminal has anti-interference electric capacity through the wire parallelly connected, pyrocondensation subassembly sets up in enamelled round copper line, inductance magnetic ring's outside, and still convenient to detach when pyrocondensation subassembly has isolated external signal interference effect, pyrocondensation subassembly includes pyrocondensation cover main part, pyrocondensation cover perk body and viscose layer, the one end of pyrocondensation cover main part is provided with the pyrocondensation cover perk body, and the tip bottom surface that the pyrocondensation cover perk body is close to the pyrocondensation cover main part is provided with the viscose layer.

Further, the enamelled round copper wire adoptsIs a specification of (2).

Further, the specific specification of the anti-interference capacitor is 0.33 mu F,275VAC and 1MΩ.

Further, one end of the heat shrinkage sleeve main body, which is far away from the heat shrinkage sleeve tilting body, is in an inclined shape, and the heat shrinkage sleeve tilting body is in adhesive connection with one end of the heat shrinkage sleeve main body, which is in an inclined shape, through an adhesive layer.

Further, the heat shrinkage sleeve tilting body and the heat shrinkage sleeve main body are of an integrated structure, and one end, far away from the heat shrinkage sleeve main body, of the heat shrinkage sleeve tilting body protrudes out of the surface of the heat shrinkage sleeve main body.

Further, the length dimension of the heat shrinkage sleeve tilting body is identical with the length dimension of the heat shrinkage sleeve main body, and the inner surface of the heat shrinkage sleeve main body is tightly attached to the outer surfaces of the enamelled round copper wire and the inductance magnetic ring.

Further, the wire is wrapped with a wire harness assembly, and the wire harness assembly is used for gathering the redundant wires.

Further, the wire harness assembly comprises an insulating strip, jacks, elastic belts, female buckles and male buckles, the elastic belts are arranged at the two ends of the insulating strip, the female buckles are arranged on the surfaces of the elastic belts at the left ends of the insulating strip, the male buckles are arranged on the surfaces of the elastic belts at the right ends of the insulating strip, and the jacks are formed in the surfaces of the insulating strip.

Furthermore, one end of the insulating strip penetrates through the jack, and the female buckle and the male buckle are elastically connected with the insulating strip through the elastic band.

The utility model provides a high-low frequency integrated anti-interference assembly, which has the following beneficial effects:

the inclined end of the heat shrinkage sleeve main body is adhered to the bottom surface of the heat shrinkage sleeve tilting body to form a ring sleeve shape, but the outer end of the heat shrinkage sleeve tilting body protrudes out of the surface of the ring sleeve, the protruding end of the heat shrinkage sleeve tilting body is clamped in the later period to be pulled, the heat shrinkage sleeve can be taken down, and the enameled round copper wire and the inductance magnetic ring cannot be damaged, so that the later period is maintained, and the wires are wound and shaped, so that the distribution disorder of the wires is avoided, and other electronic elements are influenced.

1. According to the utility model, the heat-shrinkable sleeve main body, the heat-shrinkable sleeve tilting body and the adhesive layer together form a complete heat-shrinkable sleeve, and the bottom surface of the heat-shrinkable sleeve tilting body is bonded and connected with the inclined end of the heat-shrinkable sleeve main body through the adhesive layer to form a ring sleeve shape, the outer end of the heat-shrinkable sleeve tilting body protrudes out of the surface of the ring sleeve, and the heat-shrinkable sleeve can be taken down only by clamping the outer end of the heat-shrinkable sleeve tilting body to pull the outer end of the heat-shrinkable sleeve tilting body to separate the outer end from the bonding part, so that the influence on an enamelled round copper wire and an inductance magnetic ring is avoided, and the enamelled round copper wire and the inductance magnetic ring are prevented from being damaged.

2. According to the utility model, the wires are used for connecting the anti-interference capacitor and the female terminal, after the arrangement position of the anti-interference capacitor is determined, the redundant wires are wound in an 8 shape, then the elastic band is wrapped on the surface of the wound wires, the wound wires are shaped through the buckling connection of the female buckle and the male buckle, so that the wires are prevented from being randomly distributed, and meanwhile, the elastic band has elasticity, can adapt to the wound wires with different volumes through stretching, and can also be used for winding and shaping a plurality of wires.

3. According to the utility model, one end of the insulating strip passes through the jack to form an annular sleeve outside the wire, and the two ends of the insulating strip are pulled or pushed to reduce or expand the inner diameter of the ring, so that the insulating strip is suitable for wires with different specifications, the inner wall of the insulating strip is attached to the outer wall of the wire, and the insulating strip can also slide along the surface of the wire to adjust the optimal position when the wire is shaped.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic side view of the heat shrinkable sleeve body of the present utility model;

FIG. 3 is a schematic side view of the insulating strip of the present utility model;

in the figure: 1. an inductance magnetic ring; 2. enamelling round copper wires; 3. a male terminal; 4. a female terminal; 5. an anti-interference capacitor; 6. a heat shrinkage component; 601. a heat shrink sleeve body; 602. a heat shrinkage sleeve tilting body; 603. an adhesive layer; 7. a wire; 8. a harness assembly; 801. an insulating strip; 802. a jack; 803. an elastic belt; 804. a female buckle; 805. and (5) a sub-buckle.

Detailed Description

As shown in fig. 1-2, a high-low frequency integral anti-interference component comprises an inductance magnetic ring 1 and a heat shrinkage component 6, wherein an enameled round copper wire 2 is wound on the surface of the inductance magnetic ring 1, one end of the enameled round copper wire 2 is connected with a male terminal 3, the other end of the enameled round copper wire 2 is connected with a female terminal 4, the female terminal 4 is connected with an anti-interference capacitor 5 in parallel through a wire 7, the heat shrinkage component 6 is arranged outside the enameled round copper wire 2 and the inductance magnetic ring 1, the heat shrinkage component 6 has the effect of isolating external signal interference and is convenient to detach, the heat shrinkage component 6 comprises a heat shrinkage sleeve main body 601, a heat shrinkage sleeve tilting body 602 and an adhesive layer 603, one end of the heat shrinkage sleeve main body 601 is provided with the heat shrinkage sleeve tilting body 602, the bottom surface of the end of the heat shrinkage sleeve tilting body 602, which is close to the heat shrinkage sleeve main body 601, is provided with the adhesive layer 603, and the enameled round copper wire 2 adoptsThe specific specification of the anti-interference capacitor 5 is 0.33 mu F,275VAC and 1MΩ, one end of the heat-shrinkable sleeve main body 601 far away from the heat-shrinkable sleeve tilting body 602 is inclined, the heat-shrinkable sleeve tilting body 602 is in bonding connection with one inclined end of the heat-shrinkable sleeve main body 601 through the adhesive layer 603, the heat-shrinkable sleeve tilting body 602 and the heat-shrinkable sleeve main body 601 are in an integrated structure, one end of the heat-shrinkable sleeve tilting body 602 far away from the heat-shrinkable sleeve main body 601 protrudes out of the surface of the heat-shrinkable sleeve main body 601, the length dimension of the heat-shrinkable sleeve tilting body 602 is identical with the length dimension of the heat-shrinkable sleeve main body 601, and the inner surface of the heat-shrinkable sleeve main body 601 is tightly bonded with the outer surfaces of the enamelled round copper wires 2 and the inductance magnetic ring 1;

the method comprises the specific operation that an enamelled round copper wire 2 is wound on the surface of an inductance magnetic ring 1, one end of the enamelled round copper wire 2 is connected with a male terminal 3, the other end of the enamelled round copper wire 2 is connected with a female terminal 4, meanwhile, the female terminal 4 is connected with an anti-interference capacitor 5 in parallel through a conducting wire 7, a heat shrinkage component 6 is coated on the surfaces of the enamelled round copper wire 2 and the inductance magnetic ring 1, a complete heat shrinkage sleeve is formed by the heat shrinkage sleeve main body 601, a heat shrinkage sleeve upwarp 602 and an adhesive layer 603, one end of the heat shrinkage sleeve main body 601, far away from the heat shrinkage sleeve upwarp 602, is inclined, the heat shrinkage sleeve upwarp 602 is bonded with one end of the heat shrinkage sleeve main body 601 in an inclined manner through the adhesive layer 603, namely the bottom surface of the heat shrinkage sleeve upwarp 602 is bonded with the inclined end of the heat shrinkage sleeve main body 601 to form a ring shape, the ring sleeve is coated on the surfaces of the enamelled round copper wire 2 and the inductance magnetic ring 1, and the outer end of the heat shrinkage sleeve upwarp 602 is only required to clamp the outer end of the heat shrinkage sleeve upwarp to be separated from the surface of the enamelled round copper wire 2, and the outer end of the inductance magnetic ring 1 is not damaged, and the heat shrinkage sleeve can be prevented from being damaged, and the heat shrinkage sleeve 2 is prevented from being damaged.

As shown in fig. 1 and 3, the outside of the wire 7 is wrapped with a wire harness assembly 8, the wire harness assembly 8 is used for bundling redundant wires 7, the wire harness assembly 8 comprises an insulating strip 801, a jack 802, an elastic strip 803, a female buckle 804 and a male buckle 805, both ends of the insulating strip 801 are provided with the elastic strip 803, the surface of the elastic strip 803 positioned at the left end of the insulating strip 801 is provided with the female buckle 804, the surface of the elastic strip 803 positioned at the right end of the insulating strip 801 is provided with the male buckle 805, the surface of the insulating strip 801 is provided with the jack 802, one end of the insulating strip 801 penetrates through the jack 802, and the female buckle 804 and the male buckle 805 are elastically connected with the insulating strip 801 through the elastic strip 803;

the specific operation is as follows, wire 7 is used for connecting anti-interference electric capacity 5 and female terminal 4, after the position is confirmed in anti-interference electric capacity 5 arrangement, unnecessary wire 7 is the rolling of "8" form, and insulating strip 801 one end passes jack 802 and makes it form annular cover in the outside of wire 7, drag or promote insulating strip 801 both ends and make the intra-annular diameter reduce or expand, thereby adapt to wire 7 of different specifications, make insulating strip 801 inner wall and wire 7 outer wall laminating mutually, also can slide along wire 7 surface in order to adjust the best position when shaping wire 7, make elastic band 803 parcel on wire 7 surface after the rolling again, and buckle connection through box 804 and son knot 805 is to the wire 7 after the rolling is bound and is shaped, in order to prevent wire 7 random distribution, elastic band 803 has elasticity through carrying out the wire 7 after the rolling of adaptable different volumes to it, also can carry out the rolling shaping to many wires 7 simultaneously.

In summary, when the high-low frequency integrated anti-interference component is used, firstly, the enamelled round copper wire 2 is wound on the surface of the inductance magnetic ring 1, one end of the enamelled round copper wire 2 is connected with the male terminal 3, the other end of the enamelled round copper wire 2 is connected with the female terminal 4, meanwhile, the female terminal 4 is connected with the anti-interference capacitor 5 in parallel through the lead 7, and the heat shrinkage component 6 is coated on the surfaces of the enamelled round copper wire 2 and the inductance magnetic ring 1;

the heat-shrinkable sleeve main body 601, the heat-shrinkable sleeve tilting body 602 and the adhesive layer 603 form a complete heat-shrinkable sleeve together, one end of the heat-shrinkable sleeve main body 601 far away from the heat-shrinkable sleeve tilting body 602 is inclined, and one end of the heat-shrinkable sleeve tilting body 602 inclined with the heat-shrinkable sleeve main body 601 through the adhesive layer 603 is in adhesive connection, namely the bottom surface of the heat-shrinkable sleeve tilting body 602 is in adhesive connection with the inclined end of the heat-shrinkable sleeve main body 601 through the adhesive layer 603 to form a ring sleeve shape, and the ring sleeve-shaped heat-shrinkable sleeve is coated on the surfaces of the enamelled round copper wire 2 and the inductance magnetic ring 1 and is tightly attached to the surfaces of the enamelled round copper wire 2 and the inductance magnetic ring 1 through heat shrinkage;

the outer end of the heat shrinkage sleeve tilting body 602 protrudes out of the surface of the ring sleeve, and the heat shrinkage sleeve can be taken down only by clamping the outer end of the heat shrinkage sleeve tilting body 602 and pulling the heat shrinkage sleeve tilting body 602 to separate the heat shrinkage sleeve from the bonding position, and the influence on the enamelled round copper wire 2 and the inductance magnetic ring 1 is avoided, so that the enamelled round copper wire 2 and the inductance magnetic ring 1 are prevented from being damaged;

the wire 7 is used for connecting the anti-interference capacitor 5 and the female terminal 4, after the arrangement position of the anti-interference capacitor 5 is determined, the redundant wire 7 is wound in an 8 shape, one end of the insulating strip 801 passes through the jack 802 to form an annular sleeve outside the wire 7, the inner diameter of the ring is reduced or expanded by pulling or pushing the two ends of the insulating strip 801, so that the wires 7 with different specifications are adapted, the inner wall of the insulating strip 801 is attached to the outer wall of the wire 7, the inner wall of the insulating strip can also slide along the surface of the wire 7 to adjust the optimal position when the wire 7 is shaped, then the elastic strip 803 wraps the surface of the wound wire 7, the wound wire 7 is bound and shaped through the buckle connection of the female buckle 804 and the male buckle 805, so that the wire 7 is prevented from being randomly distributed, and the elastic strip 803 has elasticity and can adapt to the wound wires 7 with different volumes through stretching the elastic strip, and the winding and shaping of multiple wires 7 can be simultaneously carried out.

Claims (9)

1. The utility model provides a high low frequency integral type anti-interference subassembly, includes inductance magnetic ring (1) and pyrocondensation subassembly (6), its characterized in that: the surface winding of inductance magnetic ring (1) has enamelled round copper line (2), and the one end of enamelled round copper line (2) is connected with public terminal (3), the other end of enamelled round copper line (2) is connected with female terminal (4), and female terminal (4) are parallelly connected with anti-interference electric capacity (5) through wire (7), pyrocondensation subassembly (6) set up in the outside of enamelled round copper line (2), inductance magnetic ring (1), and still convenient to detach when pyrocondensation subassembly (6) have isolated external signal interference effect, pyrocondensation subassembly (6) include pyrocondensation cover main part (601), pyrocondensation cover perk body (602) and viscose layer (603), the one end of pyrocondensation cover main part (601) is provided with pyrocondensation cover perk body (602), and the tip bottom surface that pyrocondensation cover perk body (602) is close to pyrocondensation cover main part (601) is provided with viscose layer (603).

2. The high-low frequency integrated anti-interference assembly according to claim 1, wherein the enamelled round copper wire (2) is made ofIs a specification of (2).

3. The high-low frequency integrated anti-interference assembly according to claim 1, wherein the specific specification of the anti-interference capacitor (5) is 0.33 μf,275vac,1mΩ.

4. The high-low frequency integrated anti-interference assembly according to claim 1, wherein one end of the heat shrink sleeve main body (601) far away from the heat shrink sleeve tilting body (602) is inclined, and one end of the heat shrink sleeve tilting body (602) inclined is connected with the heat shrink sleeve main body (601) in an adhesive mode through an adhesive layer (603).

5. The high-low frequency integrated anti-interference assembly according to claim 1, wherein the heat shrink sleeve tilting body (602) and the heat shrink sleeve main body (601) are in an integrated structure, and one end of the heat shrink sleeve tilting body (602) far away from the heat shrink sleeve main body (601) protrudes out of the surface of the heat shrink sleeve main body (601).

6. The high-low frequency integrated anti-interference assembly according to claim 1, wherein the length of the heat shrink sleeve tilting body (602) is identical to the length of the heat shrink sleeve main body (601), and the inner surface of the heat shrink sleeve main body (601) is tightly attached to the outer surfaces of the enamelled round copper wire (2) and the inductance magnetic ring (1).

7. The high-low frequency integrated anti-interference assembly according to claim 1, wherein the wire (7) is wrapped with a wire harness assembly (8), and the wire harness assembly (8) is used for gathering redundant wires (7).

8. The high-low frequency integrated anti-interference assembly according to claim 7, wherein the wire harness assembly (8) comprises an insulating strip (801), a jack (802), an elastic strip (803), a female buckle (804) and a male buckle (805), the elastic strip (803) is arranged at two ends of the insulating strip (801), the female buckle (804) is arranged on the surface of the elastic strip (803) at the left end of the insulating strip (801), the male buckle (805) is arranged on the surface of the elastic strip (803) at the right end of the insulating strip (801), and the jack (802) is arranged on the surface of the insulating strip (801).

9. The high-low frequency integrated anti-interference assembly according to claim 8, wherein one end of the insulating strip (801) penetrates through the jack (802), and the female buckle (804) and the male buckle (805) are elastically connected with the insulating strip (801) through the elastic band (803).