KR100666305B1 - Electromagnet - Google Patents

Abstract

The present invention is achieved by providing an electromagnet that generates a magnetic field by passing an electric current, which has a body made of a hollow tubular shape, and in the horizontal direction intersecting the longitudinal direction on both upper and lower ends of the body. A bobbin having flanges and having a magnetic coil wound in a space provided between the flanges, and a pair of bobbins installed at any one of the flanges of the bobbin to provide electrical connection with each end of the magnetic coil and an outlet. An electromagnet having a terminal lug, one end of which is inserted into one of the flanges on which the terminal lug is installed, installed in parallel with each terminal lug, and the other end of which the ends of the magnetic coil are wound to provide electrical connection; It extends integrally on one side of each terminal lug and maintains a proper distance around each core. Including the crimping element installed in the ground, the crimping element is crimped by mechanical pressure means while the magnetic field coil is wound on the cores, thereby simplifying the structure by forcibly removing the magnetic coil and making an electrical connection with the terminal lugs. And a series of mechanical automated assembly is possible.

Description

Electromagnet

1 is a schematic cross-sectional view showing the configuration of a typical electromagnet.

2 is a plan view of FIG.

Figure 3 is a schematic cross-sectional view showing the configuration of the electromagnet of the present invention.

4 is a plan view of FIG.

5A and 5B are enlarged cross-sectional views illustrating a cut along the line A-A of FIG. 4, and are explanatory diagrams showing the state before the pressing element is pressed and the pressing state.

Explanation of symbols on the main parts of the drawings

100: bobbin

101,102: Flange

120: magnetic field coil

130: Terminal Lug

131: crimping element

140: The body

The present invention relates to an electromagnet that generates an electromagnetic field by passing an electric current, and more particularly, to an electromagnet which simplifies a structure and enables a series of mechanical automated assembly.

Electromagnets, such as electromagnetic valves, clutches, switches, and the like, which are driven by the electric field generated by the application of electric current, have been developed and used to date.

Such electromagnets are manufactured using bobbins having a substantially hollow tubular shape as shown in FIGS. 1 and 2, which are, for example, electromagnets applied to an electromagnet feed valve for controlling water supply of a washing machine or a refrigerator. .

Specifically, it is manufactured using a synthetic resin bobbin 10 made of a substantially hollow tubular shape, which bobbin 10 has a predetermined length in the cross direction at both ends of the upper and lower lengths of the body. The flanges 11 and 12 are integrally provided so that the main body wall of the bobbin 10 is formed in a channel shape when viewed from the side, and for generating magnetic field force in the space formed in the channel main wall of the bobbin 10. At the same time as winding the magnetic coil 20, both ends of the magnetic coil 20 is connected to a pair of terminal lugs 30 which are essentially earth and a power input terminal for power supply, wherein the terminal lug 30 is Separately manufactured to be inserted or inserted into any one of the flanges (11, 12) of the bobbin (10).

In the electromagnet configured as described above, the terminal lug 30 inserted or inserted into the flanges 11 and 12 of the bobbin 10 has a predetermined length extending outwardly from the front end of the flanges 11 and 12. The connecting piece 31 is inserted into a mating connection, i.e., an outlet, to form an electrical connection, and the rear end side protrudes outwardly from the rear end of the flanges 11 and 12 so as to protrude outward from the rear end of the magnetic field coil 20. At the same time as providing a core 32 for winding the core 32, the end of the core 32 and the magnetic coil 20 wound on the core 32 to a manual melt-deposited solder 33 for electrical connection stability Let's finish it.

However, in the electromagnet configured as described above, the electrical connection between the connecting piece 31 of the terminal lug 30 and the magnetic field coil 20 is not mechanically performed, that is, the end of the magnetic coil 20 is wound around the connecting piece 31. The process is made by the worker's manual work, and the deep brazing process is also performed by the worker's manual work.

Therefore, the electrical connection structure of the electromagnet is structurally impossible to automate and is dependent on the manual work of the worker, resulting in poor workability and low productivity, and the electrical connection between the connecting piece 31 and the magnetic field coil 20 In the deep brazing process, the coating of the magnetic field coil 20 is melted to form a connection, but the electrical connection is unstable, thereby causing a defect, thereby reducing the reliability of the product.

The present invention has been made in consideration of the above circumstances, and an object thereof is provided by insert method at an appropriate position of a flange of a bobbin, and has a mandrel for winding the end of the magnetic field coil, and is integrally connected to one side of the connecting piece in the circumferential direction of the mandrel. It is provided with an electromagnet that is capable of being assembled by a series of mechanical and automated processes by being provided with a crimping element that is extended and installed to force the end of the magnetic field coil wound on the mandrel by a crimping method and at the same time make an electrical connection.

Another object of the present invention is to provide an electromagnet capable of making the electrical connection stable and preventing the failure by making the electrical connection of the mandrel and the magnetic field coil by a compression method.

Still another object of the present invention is to provide an electromagnet capable of assembling in a series of mechanical automated processes, thereby reducing manufacturing costs and improving productivity and distributing low prices.

The object of the present invention is achieved by providing an electromagnet that generates an electromagnetic field by passing an electric current, the electromagnet having a body having a hollow tubular shape, which crosses the longitudinal direction at both ends of the body. A bobbin having flanges in the horizontal direction and wound with a magnetic coil in a space provided between the flanges, and installed in any one of the flanges of the bobbin to provide electrical connection with each of the ends of the magnetic coil and an outlet. An electromagnet having a pair of terminal lugs, one end of which is inserted into one of the flanges on which the terminal lugs are installed and installed in parallel with each terminal lug, and the other end of the core coil wound to provide electrical connection. Field, each terminal lug extends integrally and around each core Including a crimping element installed at proper intervals, the crimping element is crimped by mechanical pressing means while the magnetic field coil is wound on the cores, so that the magnetic coil is forced to peel off and make electrical connection with the terminal lugs simultaneously. The structure is simplified and a series of mechanical automated assemblies are possible.

Next, an embodiment of the present invention will be described in detail with reference to the drawings. 3 is shown in detail for the electromagnet according to the invention.

The present invention relates to the improvement of the structure of the electromagnet applied to all the actuators using electromagnetic fields such as electromagnetic valves, clutches, switches, etc., which are driven by the electromagnetic field generated by the application of electric current.

Electromagnet of the present invention is composed of a bobbin 100 and the magnetic field coil 120 and the terminal lug 130 for generating an electromagnetic field.

The bobbin 100 has a hollow tubular body, and includes flanges 101 and 102 in the horizontal direction intersecting the longitudinal direction on both upper and lower ends of the body and is provided between the flanges 101 and 102. The magnetic coil 120 is wound on the magnetic coil 120. Here, the magnetic coil 120 is coated with an insulating layer on a core wire of the same material.

In addition, one of the flanges 101 and 102 of the bobbin 100 may be provided with a pair of terminal lugs 130 for inserting the end of the magnetic coil 120 and electrical outlets. This configuration is the same as in the prior art.

Characteristic and core technology in the present invention is to improve the electrical connection structure of the terminal lug 130 and the magnetic field coil 120 to perform the connection process in a series of mechanical and automatic processes.

Specifically, as shown in FIG. 4, one end is inserted into one of the flanges 102 in which the terminal lugs 130 are installed as a pair, and are installed in parallel with each terminal lug 130, and the other end thereof has a magnetic field. Ends of the coil 120 are wound so that cores 140 are provided to provide electrical connections. Here, the cores 140 use a brass rod material having excellent conductivity, and the ends of the magnetic field coil 120 will be wound by a predetermined mechanical winding process on each of the other ends of the cores 140.

And one side of each terminal lug 130 is provided with a crimping element 131 which extends integrally from one side of the terminal lug 130 and is installed at an appropriate distance around the cores 140.

Here, the crimping element 131 wraps around the lower circumference of the core body 140 so as to maintain an appropriate interval, and the upper side has an “U” shape which is opened to achieve the winding process of the magnetic field coil 120, and After the winding process, the pressing element 131 may be mechanically compressed to make an electrical connection between the core body 140 and the magnetic field coil 120 wound on the core body 140.

5A and 5B are explanatory views showing a pressing process of the pressing element 131.

Figure 5a is a state of waiting to perform the winding process of the magnetic field coil 120 to the core 140. When the winding process of the magnetic field coil 120 is completed in the core body 140 in such a state, the pressing element 131 is forcibly pressed by the pressing means waiting in the next step as shown in FIG. 5B.
At this time, when the crimping element 131 is pressurized by the crimping means, the insulating layer of the magnetic coil 120, which is wound on the core 140, is forcibly first peeled to the pressing force, and at the same time, the terminal lug 130 and the magnetic coil 120 are pressed. Is a secondary electrical connection.

Thus, the electromagnet of the present invention may be assembled through a series of mechanical and automatic processes.

Then, the effect of the electromagnet of the present invention will be described.

The present invention has a mandrel which is installed by insert method at the flange proper position of bobbin to wind the end of the magnetic coil, and is integrally installed on one side of the connecting piece in the circumferential direction of the mandrel to crimp the end of the magnetic coil wound on the mandrel. It is equipped with a crimping element to force the stripping and electrical connection at the same time, thereby enabling assembly in a series of mechanical and automated processes.

In another aspect, the present invention is to provide an electromagnet that can make the electrical connection is made stable by the crimping method and the magnetic field coil, the electrical connection is stable and prevent the failure.

In addition, the present invention by assembling a series of mechanical automated processes, it is possible to reduce the manufacturing cost and improve the productivity to spread the low price.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be changed within the scope of the claims.

Claims (3)

A bobbin having a body having a hollow tubular shape, having flanges in the horizontal direction intersecting the longitudinal direction at upper and lower ends of the body, and having a magnetic coil wound in a space provided between the flanges; An electromagnet having a pair of terminal lugs installed on one of the flanges to provide an electrical connection to an end of the magnetic coil and to each of the outlets, Cores having one end inserted into one of the flanges on which the terminal lugs are installed and installed adjacent to each terminal lug, and the other end of which the end of the magnetic coil is wound to provide an electrical connection; A crimping element extending integrally on one side of each of the terminal lugs and installed at an appropriate interval around the cores; Wherein the magnetic coil is pressed by a mechanical pressing means in a state in which the magnetic coil is wound on the cores so that the magnetic coil is forced to peel off and at the same time makes an electrical connection with the terminal lug. . The method of claim 1, Wherein said pressing element is "U" shaped to wrap around a lower periphery of said core and to open at an upper side thereof. The method of claim 1, The core is an electromagnet comprising a brass rod.

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