CN219958748U - Reactor with side-arranged outgoing lines - Google Patents

Abstract

The reactor with the side-arranged outgoing lines comprises a reactor main body, a reactor winding arranged in the reactor main body and an outgoing line end face arranged on the side wall of the reactor main body. The reactor winding comprises a winding coil arranged in the reactor main body and two outgoing terminals arranged on two sides of the winding coil. The two outgoing terminals are arranged on the outgoing end face of the reactor main body, the two outgoing terminals are centrally symmetrical, the ends of the two outgoing terminals are far away from one side of the central axis of the reactor winding, the extending direction of the outgoing terminals is perpendicular to the central axis of the reactor main body, and the extending direction of the outgoing terminals is parallel to the outgoing end face of the reactor main body. The reactor with the outgoing lines arranged on the side faces effectively shortens the space distance of the reactor, is beneficial to arrangement of products in the effective space, and is convenient to install and use.

Description

Reactor with side-arranged outgoing lines

Technical Field

The utility model belongs to the technical field of reactors, and particularly relates to a reactor with side outgoing lines arranged.

Background

The reactor is also called an inductor, has very wide application in a circuit, and has a certain inductive property because of the electromagnetic induction effect in the circuit, so that the reactor can play a role in preventing current change. When a conductor is energized, it will generate a magnetic field in a certain space occupied by it, so that all current-carrying electrical conductors have a general sense of inductance. However, the inductance of the electrified long straight conductor is smaller, and the generated magnetic field is not strong, so that the actual reactor is in a form of a solenoid formed by winding a wire, namely an air core reactor; sometimes, in order to make the solenoid have a larger inductance, a core, called a core reactor, is inserted into the solenoid.

The outlet terminal of the current reactor is generally vertical to the outlet end face of the reactor, the extending direction of the outlet terminal is vertical to the surrounding direction of the coil, and the installation and the use of the reactor product in a limited space cannot be met.

Disclosure of Invention

In view of the above, the present utility model provides a reactor with side-arranged wires, which is convenient to install, so as to meet industrial requirements.

A reactor with side-arranged outgoing lines comprises a reactor main body, a reactor winding arranged in the reactor main body, and an outgoing line end face arranged on the side wall of the reactor main body. The reactor winding comprises a winding coil arranged in the reactor main body and two outgoing terminals arranged on two sides of the winding coil. The two outgoing terminals are arranged on the outgoing end face of the reactor main body, and the two outgoing terminals are centrally symmetrical. The two ends of the wire outlet terminals are far away from one side of the central shaft of the reactor main body, the extending direction of the wire outlet terminals is perpendicular to the central shaft of the reactor main body, and the extending direction of the wire outlet terminals is parallel to the wire outlet end face of the reactor main body, so that the wire outlet terminals are close to the surface of the reactor main body, and space is saved.

Further, the reactor with the side-arranged outgoing lines further comprises a plurality of mounting fixing columns arranged on the reactor main body.

Further, each outgoing terminal comprises a terminal body, a connecting pipe arranged at the end of the terminal body, and a busbar connecting plate arranged on the terminal body.

Further, an internal thread is arranged in the connecting pipe.

Further, the busbar connection plate comprises a connection plate body arranged on the terminal body and a plurality of mounting holes arranged on the connection plate body.

Further, the terminal body, the connecting pipe, and the busbar connecting plate are integrally formed.

Further, the terminal body is a hollow structure.

Compared with the prior art, the reactor with the side-arranged wire outlet has the advantages that the two wire outlet terminals in the reactor winding are arranged on the wire outlet end face of the reactor main body, the extending directions of the wire outlet terminals are mutually perpendicular to the central axis of the reactor main body, and the extending directions of the wire outlet terminals are parallel to the wire outlet end face of the reactor main body, so that the side-arranged wire outlet of the reactor main body is realized, and the wire outlet terminals are close to the surface of the reactor main body, so that space is saved. Therefore, the reactor with the side-arranged outgoing lines effectively shortens the space distance of the reactor, is beneficial to the arrangement of products in the effective space, and is convenient for the installation and use of the reactor.

Drawings

Fig. 1 is a schematic structural diagram of a reactor with side-arranged wires.

Detailed Description

Specific embodiments of the present utility model are described in further detail below. It should be understood that the description herein of the embodiments of the utility model is not intended to limit the scope of the utility model.

As shown in fig. 1, the structure of the reactor with the side-arranged wires is schematically shown. The reactor with the side-arranged outgoing lines comprises a reactor main body 10, two reactor windings 20 arranged on one side of the reactor main body 10, an outgoing line end face 30 arranged on the side wall of the reactor main body 10, and a plurality of mounting fixing columns 40 arranged on the reactor main body. The reactor body 10 with the wires arranged on the side surface further includes other functional modules, such as assembly components including a winding coil (not shown) and an iron core (not shown) disposed inside the reactor body 10, which should be known to those skilled in the art, and will not be described in detail herein.

The reactor body 10 is formed by a whole structure of the reactor winding 20, the iron core and the potting material in a potting processing mode, the reactor body 10 is provided with a mounting fixing column 40, the mounting fixing column 40 is used for fixing the structure outside the reactor body 10, the outlet end face 30 is used for arranging the outlet terminal 21 and potting the potting material product, in the processing process, the reactor winding 20 and the iron core are arranged in the reactor body 10, a potting opening is formed in the side wall of the reactor body 10, the potting material is injected from one side of the potting opening, and when the potting material is injected, the outlet end face 30 is formed on the potting opening. The reactor body 10 and the mounting and fixing post 40 are all of a prior art, and are not described herein.

The reactor winding 20 includes a winding coil (not shown) provided in the reactor body 10, and two outgoing terminals 21 provided at both sides of the winding coil. The winding coil is used for blocking current change, and is a prior art and is not described herein. In addition, the two outgoing terminals 21 are both disposed on the outgoing end face 30 of the reactor body 10, and the two outgoing terminals 21 are symmetrical with each other at the center. The ends of the two outlet terminals 21 are far away from one side of the central axis of the reactor body 10, so that the connection between the end of each outlet terminal 21 and other devices is facilitated, and mutual interference between the two outlet terminals 21 is avoided.

The extending direction of the wire outlet terminal 21 is perpendicular to the central axis of the reactor body 10, and the extending direction of the wire outlet terminal 21 is parallel to the wire outlet end face of the reactor body 10, that is, the wire outlet terminal 21 is arranged on the side face of the reactor body 10, so that the wire outlet terminal 21 is close to the side wall surface of the reactor body 10, and space is saved, thereby being convenient for the use of the whole reactor.

Each of the outlet terminals 21 includes a terminal body 211, a connection pipe 212 provided at an end of the terminal body 211, and a busbar connection plate 213 provided on the terminal body 211. The terminal main body 211, the connection pipe 212, and the busbar connection board 213 are integrally formed

The terminal body 211 is connected to the coil inside the reactor body 10 to achieve the extraction of the coil inside the reactor 10.

In this embodiment, the connection pipe 212 is internally provided with an internal thread, so that the outlet terminal 21 is conveniently connected with an external waterway, the terminal main body 211 is of a hollow structure, the coil inside the reactor 10 is also of a hollow structure, and water flow can enter the reactor main body 10, so that the reactor forms a water cooling structure, and water cooling of the reactor is realized. The water cooling mode of the water cooling reactor in this embodiment is a prior art, such as the water cooling reactor of chinese patent, the disclosure of patent No. CN205723091U, which is characterized in that a water inlet and a water outlet are provided on a body formed by spirally winding a hollow metal tube in the height direction, and a connecting terminal is fixedly connected to the hollow metal tube, so as to realize water cooling and current conduction of the hollow metal tube. Therefore, in this embodiment, the water cooling method and the operation principle of the water cooling reactor will not be described in detail.

The busbar connection plate 213 includes a connection plate body 2131 provided on the terminal body 211, and a plurality of mounting holes 2132 provided on the connection plate body 2131. When the busbar connection plate 213 is in the process of installation, the busbar connection plate 213 abuts against a busbar (not shown), and the connection plate main body 2131 is connected with the busbar through the installation hole 2132.

Compared with the prior art, the reactor with the side-arranged wire outlet has the advantages that the two wire outlet terminals 21 in the reactor winding 20 are arranged on the wire outlet end face 30 of the reactor main body 10, the extending directions of the wire outlet terminals 21 are mutually perpendicular to the central axis of the reactor main body 10, and the extending directions of the wire outlet terminals 21 are parallel to the wire outlet end face 30 of the reactor main body 10, so that the side-arranged wire outlet of the reactor main body 10 is realized, and the wire outlet terminals 21 are close to the surface of the reactor main body 10, so that space is saved. Therefore, the reactor with the side-arranged outgoing lines effectively shortens the space distance of the reactor, is beneficial to the arrangement of products in the effective space, and is convenient for the installation and use of the reactor.

The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalent substitutions or improvements within the spirit of the present utility model are intended to be covered by the claims of the present utility model.

Claims (7)

1. The utility model provides a reactor of being qualified for next round of competitions is arranged to side which characterized in that: the reactor of side arrangement wire-out includes a reactor main part, sets up reactor winding in the reactor main part to and the wire-out terminal surface of setting on the reactor main part lateral wall, the reactor winding includes a winding coil that sets up in the reactor main part, and two sets up the wire-out terminal of winding coil both sides, two on the wire-out terminal all set up in on the wire-out terminal surface of reactor main part, and two be central symmetry between the wire-out terminal, two wire-out terminal's end is all kept away from reactor winding center pin one side, wire-out terminal's extending direction with the center pin mutually perpendicular of reactor main part, just wire-out terminal's extending direction with the reactor main part wire-out terminal surface is parallel, so that wire-out terminal press close to reactor main part surface, saving space.

2. A laterally arranged outgoing line reactor as claimed in claim 1, wherein: the reactor with the side-arranged outgoing lines further comprises a plurality of mounting fixing columns arranged on the reactor main body.

3. A laterally arranged outgoing line reactor as claimed in claim 1, wherein: each outgoing line terminal comprises a terminal main body, a connecting pipe arranged at the end of the terminal main body and a busbar connecting plate arranged on the terminal main body.

4. A laterally aligned outlet reactor according to claim 3, wherein: and an internal thread is arranged in the connecting pipe.

5. A laterally aligned outlet reactor according to claim 3, wherein: the busbar connection plate comprises a connection plate body arranged on the terminal body and a plurality of mounting holes arranged on the connection plate body.

6. A laterally aligned outlet reactor according to claim 3, wherein: the terminal main body, the connecting pipe and the busbar connecting plate are integrated.

7. A laterally aligned outlet reactor according to claim 3, wherein: the terminal body is of a hollow structure.