CN219610058U - Composite electromagnetic wire - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic wires, in particular to a composite electromagnetic wire, which comprises a conductor, an insulating layer, an outer surface layer and a splicing assembly, wherein the splicing assembly comprises a wrapping ring, a locking block, a locking member and an unlocking member, and the wrapping ring is provided with a locking groove; the wrapping ring is fixedly connected with the outer surface layer and is positioned at one side of the outer surface layer; the locking block is fixedly connected with the wrapping ring and is positioned at one side of the wrapping ring; the locking member is in sliding connection with the wrapping ring and is positioned at one side of the wrapping ring away from the locking block; the unlocking component is in sliding connection with the wrapping ring and is positioned in the wrapping ring; the parcel ring is used for fixing on the extexine, and locking piece and locking component are located the both sides of parcel ring respectively, can splice the electromagnetic wire of two kinds of models side by side, and unlocking component can loosen the locking piece, is convenient for nimble pair number and selects, makes things convenient for the concatenation to only contain single conductor in the current electromagnetic wire, be inconvenient for orderly winding side by side during the use, the lower problem of practicality has been solved.

Description

Composite electromagnetic wire

Technical Field

The utility model relates to the technical field of electromagnetic wires, in particular to a composite electromagnetic wire.

Background

The electromagnetic wire is an insulated wire for manufacturing coils or windings in electrical products, and the electromagnetic wire must meet various requirements in use and manufacturing process, especially in the use process, not only the new heat-resistant and heat-conducting energy of the electromagnetic wire is considered, but also the corona energy generated by the electromagnetic wire consumes electric energy and interferes with radio waves to cause damage to the electromagnetic wire.

The utility model discloses a high-performance composite insulated electromagnetic wire (CN 211788312U), which comprises a conductor, a conductor temperature-resistant layer, an insulating layer, a glass fiber cladding and an outer surface layer, wherein the glass fiber cladding is wrapped on the insulating layer, the insulating layer is wrapped on the conductor temperature-resistant layer, the composite insulated electromagnetic wire has good heat conducting performance, is low in cost and suitable for large-area use, is also well improved in corona-resistant performance, greatly enhances the corona-resistant performance, can obtain longer service life in daily use, and can effectively improve the integral insulating performance of the electromagnetic wire, and simultaneously further improve the heat conducting performance and comprehensively improve the performance of the integral electromagnetic wire.

The electromagnetic wire is often many to twine the combination and use side by side, but only contains single conductor in this kind of current electromagnetic wire, and the ordered side by side winding of inconvenience during the use is less, and application scope is less, and the practicality is lower.

Disclosure of Invention

The utility model aims to provide a composite electromagnetic wire, which aims to solve the problems that the existing electromagnetic wire only comprises a single conductor, is inconvenient to orderly wind side by side during use, has a small application range and is low in practicality.

In order to achieve the above purpose, the utility model provides a composite electromagnetic wire, which comprises a conductor, an insulating layer, an outer surface layer and a splicing assembly, wherein the insulating layer is fixedly connected with the conductor and is positioned at the outer side of the conductor; the outer surface layer is fixedly connected with the insulating layer and is positioned at the outer side of the insulating layer; the splicing assembly comprises a wrapping ring, a locking block, a locking member and an unlocking member, wherein the wrapping ring is provided with a locking groove; the wrapping ring is fixedly connected with the outer surface layer and is positioned at one side of the outer surface layer; the locking block is fixedly connected with the wrapping ring and is positioned at one side of the wrapping ring; the locking member is in sliding connection with the wrapping ring and is positioned at one side of the wrapping ring away from the locking block; the unlocking member is slidably connected to the wrapping ring and is located in the wrapping ring.

The locking component comprises a clamping block and a first spring, the wrapping ring is further provided with a groove, and the clamping block is in sliding connection with the wrapping ring and is positioned in the groove of the wrapping ring; the first spring is fixedly connected with the clamping block and fixedly connected with the wrapping ring.

The unlocking component comprises a pressing rod, a rebound plate and a second spring, wherein the pressing rod is connected with the wrapping ring in a sliding manner and is positioned in the wrapping ring; the rebound plate is fixedly connected with the pressing rod and is positioned at one side of the pressing rod; the second spring is fixedly connected with the rebound board and fixedly connected with the wrapping ring.

The wrapping ring is further provided with an opening, and the opening is arranged above the wrapping ring.

The splicing assembly further comprises an insulating film, wherein the insulating film is fixedly connected with the wrapping ring and is located on the outer side of the wrapping ring.

The utility model relates to a composite electromagnetic wire, which comprises a conductor, an insulating layer, an outer surface layer and a splicing assembly, wherein the insulating layer is fixedly connected with the conductor and is positioned at the outer side of the conductor; the outer surface layer is fixedly connected with the insulating layer and is positioned at the outer side of the insulating layer; the conductor is a carrier for transmitting current, the insulating layer is used for insulating and protecting the conductor, and the outer surface layer plays a role in wrapping and protecting; the splicing assembly comprises a wrapping ring, a locking block, a locking member and an unlocking member, wherein the wrapping ring is provided with a locking groove; the wrapping ring is fixedly connected with the outer surface layer and is positioned at one side of the outer surface layer; the locking block is fixedly connected with the wrapping ring and is positioned at one side of the wrapping ring; the locking member is in sliding connection with the wrapping ring and is positioned at one side of the wrapping ring away from the locking block; the unlocking member is in sliding connection with the wrapping ring and is positioned in the wrapping ring; the wrapping ring is used for being fixed on the outer surface layer, the locking blocks and the locking members are respectively located on two sides of the wrapping ring, the locking blocks are inserted into the locking grooves, the locking members are automatically locked, electromagnetic wires of two types can be spliced side by side, the unlocking members can loosen the locking blocks, flexible logarithmic selection is facilitated, splicing is facilitated, and therefore the problems that only a single conductor is contained in the existing electromagnetic wires, ordered side by side winding is inconvenient during use, the application range is small, and the practicability is low are solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of a composite magnet wire according to the present utility model.

Fig. 2 is a cross-sectional view of a composite magnet wire of the present utility model based on the locking block.

Fig. 3 is a cross-sectional view of a composite magnet wire of the present utility model.

101-conductor, 102-insulating layer, 103-outer layer, 104-wrapping ring, 105-locking block, 106-locking member, 107-unlocking member, 108-locking groove, 109-fixture block, 110-first spring, 111-groove, 112-pressing rod, 113-rebound plate, 114-second spring, 115-opening, 116-insulating film.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of a composite electromagnetic wire according to the present utility model; FIG. 2 is a cross-sectional view of a composite magnet wire of the present utility model based on the locking blocks; fig. 3 is a cross-sectional view of a composite magnet wire of the present utility model.

The utility model provides a composite electromagnetic wire, which comprises: including conductor 101, insulating layer 102, outer skin 103 and splice assembly, the splice assembly includes wrapping ring 104, locking block 105, locking member 106, insulating film 116 and unlocking member 107, locking member 106 includes fixture 109 and first spring 110, unlocking member 107 includes pressing bar 112, rebound plate 113 and second spring 114, wrapping ring 104 has locking groove 108, recess 111 and opening 115. The problem that only contains single conductor 101 in this kind of current electromagnetic wire has been solved through the aforesaid scheme, is inconvenient for orderly winding side by side during the use, and application scope is less, and the practicality is lower is solved, and it can be understood that the aforesaid scheme can conveniently splice many electromagnetic wires fast, makes its effect that reaches the coil of arranging side by side, can also pull down it fast, and convenient nimble is controlled the concatenation quantity.

In this embodiment, the insulating layer 102 is fixedly connected to the conductor 101 and is located outside the conductor 101; the outer surface layer 103 is fixedly connected with the insulating layer 102 and is positioned outside the insulating layer 102; the conductor 101 is a carrier for transmitting current, the insulating layer 102 is used for insulating and protecting the conductor 101, and the outer surface layer 103 plays a role of wrapping and protecting.

Wherein, the wrapping ring 104 is fixedly connected with the outer surface layer 103 and is positioned at one side of the outer surface layer 103; the locking block 105 is fixedly connected with the wrapping ring 104 and is positioned at one side of the wrapping ring 104; the locking member 106 is slidably connected to the wrapping ring 104 and is located on a side of the wrapping ring 104 remote from the locking block 105; the unlocking member 107 is slidably connected to the wrapping ring 104 and is located in the wrapping ring 104; the wrapping ring 104 is used for being fixed on the outer surface layer 103, the locking blocks 105 and the locking members 106 are respectively located on two sides of the wrapping ring 104, the locking blocks 105 are inserted into the locking grooves 108, the locking members 106 are automatically locked, electromagnetic wires of two types can be spliced side by side, the unlocking members 107 can loosen the locking blocks 105, flexible selection of numbers and convenient splicing are facilitated, and therefore the problems that the existing electromagnetic wires only comprise single conductors 101, are inconvenient to orderly wind side by side during use, are small in application range and low in practicality are solved.

Secondly, the clamping block 109 is slidably connected with the wrapping ring 104 and is located in the groove 111 of the wrapping ring 104; the first spring 110 is fixedly connected with the clamping block 109 and fixedly connected with the wrapping ring 104; when the locking block 105 slides into the locking groove 108, the locking block 109 is pushed into the groove 111, and when the locking block is completely slid into the groove, the locking block 109 rebounds under the action of the first spring 110 to lock the locking block.

Again, the pressing bar 112 is slidably connected to the wrapping ring 104 and is located in the wrapping ring 104; the rebound board 113 is fixedly connected with the pressing rod 112 and is positioned at one side of the pressing rod 112; the second spring 114 is fixedly connected with the rebound plate 113 and fixedly connected with the wrapping ring 104; the pressing rod 112 can press the other end of the clamping block 109, press the clamping block into the groove 111 again, enable the locking block 105 to slide freely, achieve the purpose of unlocking, and enable the pressing rod 112 to pop up automatically due to the fact that the rebound plate 113 and the second spring 114 are matched for use, so that the locking device is convenient to use for multiple times.

The opening 115 is then disposed over the wrap-ring 104; the opening 115 is used to facilitate the removal of the wrapping ring 104, so that the wrapping ring can be quickly removed, and the control of the splicing number is convenient and flexible.

Finally, the insulating film 116 is fixedly connected with the wrapping ring 104 and is positioned outside the wrapping ring 104; the insulating film 116 is used to protect the wrap-around ring 104 from current leakage.

In the process of splicing and winding a plurality of electromagnetic wires by using the device, the conductor 101 is a carrier for transmitting current, the insulating layer 102 is used for insulating and protecting the conductor 101, and the outer surface layer 103 plays a role of wrapping and protecting; the wrapping ring 104 is used for being fixed on the outer surface layer 103, the locking blocks 105 and the locking members 106 are respectively positioned on two sides of the wrapping ring 104, the locking blocks 105 are inserted into the locking grooves 108, the locking members 106 are automatically locked, electromagnetic wires of two types can be spliced side by side, the unlocking members 107 can loosen the locking blocks 105, flexible number selection is facilitated, splicing is facilitated, when the locking blocks 105 slide into the locking grooves 108, the clamping blocks 109 are extruded into the grooves 111, and after the locking blocks completely slide into the grooves, the clamping blocks 109 rebound under the action of the first springs 110 to lock the electromagnetic wires; the pressing rod 112 can press the other end of the clamping block 109, press the clamping block into the groove 111 again, enable the locking block 105 to slide freely, achieve the purpose of unlocking, and enable the pressing rod 112 to pop up automatically due to the fact that the rebound plate 113 and the second spring 114 are matched for use, so that the locking block is convenient to use for multiple times; the opening 115 is used for conveniently removing the wrapping ring 104, so that the wrapping ring can be quickly removed, and the splicing number can be conveniently and flexibly controlled; the insulating film 116 is used for protecting the wrapping ring 104 from current leakage; therefore, the electromagnetic wire solves the problems that the existing electromagnetic wire only comprises a single conductor 101, is inconvenient to orderly wind side by side during use, and has a small application range and low practicability.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (5)

1. The composite electromagnetic wire comprises a conductor, an insulating layer and an outer surface layer, wherein the insulating layer is fixedly connected with the conductor and is positioned at the outer side of the conductor; the outer surface layer is fixedly connected with the insulating layer and is positioned at the outer side of the insulating layer; it is characterized in that the method comprises the steps of,

the splicing assembly comprises a wrapping ring, a locking block, a locking member and an unlocking member, wherein the wrapping ring is provided with a locking groove; the wrapping ring is fixedly connected with the outer surface layer and is positioned at one side of the outer surface layer; the locking block is fixedly connected with the wrapping ring and is positioned at one side of the wrapping ring; the locking member is in sliding connection with the wrapping ring and is positioned at one side of the wrapping ring away from the locking block; the unlocking member is slidably connected to the wrapping ring and is located in the wrapping ring.

2. A composite magnet wire according to claim 1,

the locking component comprises a clamping block and a first spring, the wrapping ring is further provided with a groove, and the clamping block is connected with the wrapping ring in a sliding manner and is positioned in the groove of the wrapping ring; the first spring is fixedly connected with the clamping block and fixedly connected with the wrapping ring.

3. A composite magnet wire according to claim 2,

the unlocking component comprises a pressing rod, a rebound plate and a second spring, wherein the pressing rod is connected with the wrapping ring in a sliding manner and is positioned in the wrapping ring; the rebound plate is fixedly connected with the pressing rod and is positioned at one side of the pressing rod; the second spring is fixedly connected with the rebound board and fixedly connected with the wrapping ring.

4. A composite magnet wire according to claim 3,

the wrapping ring also has an opening disposed above the wrapping ring.

5. A composite magnet wire according to claim 4,

the splicing assembly further comprises an insulating film, wherein the insulating film is fixedly connected with the wrapping ring and is positioned on the outer side of the wrapping ring.