KR102432319B1 - Fuse and making method the same - Google Patents

Abstract

The present invention relates to a fuse and a method for manufacturing the same. The fuse of the present invention has a cylindrical housing (10), first and second caps (20, 20') mounted on the ends of the housing (10), located in the inner space (12) inside the housing (10), and the ends is provided integrally with a fuse element 16 electrically connected to the first and second caps 20 and 20' and the first and second caps 20 and 20' to electrically connect to the outside. Legs 28 are included. The extinguishing thread 14 is injected into the inner space 12 through the extinguishing thread injection hole 24 of the second cap 20'. A cap groove 22 is concavely formed on the outer surfaces of the first and second caps 20 and 20'. A protrusion 23 is formed inside the first and second caps 20 and 20 ′ to correspond to the cap groove 22 , and is positioned in the inner space 12 of the housing 10 . The extinguishing yarn 14 is compressed by the protrusion 23 . The arc extinguisher injection hole 24 of the first cap 20 is shielded by the bent part 18 at the end of the fuse element 16 , and a soldering part 26 is formed in the cap groove 22 to form the fuse element. An electrical connection is made between 16 and the caps 20 and 20', and the extinguisher injection port 24 is also closed.

Description

Fuse and its manufacturing method {Fuse and making method the same}

The present invention relates to a fuse and a method for manufacturing the same, and more particularly, to a fuse in which an extinguishing yarn for blocking the transmission of a spark is filled in a housing and a method for manufacturing the same.

The fuse is provided between the electrical equipment and the power supply to electrically cut off the electrical equipment and the power supply in order to prevent damage to the electric equipment when the electrical equipment is overloaded. To this end, the fuse is blown by melting the fused portion of the element therein to cut off the power transmission.

In such a fuse, a spark may be generated at the fused portion. Such a spark has a problem of carbonizing the housing or causing a fire in the housing in severe cases.

In order to block the spark from being generated and transmitted within the housing, the extinguishing thread is filled in the inside of the housing. However, the operation of filling the extinguishing yarn into the housing is a very cumbersome operation. In the process of filling and finishing the extinguishing thread, there are many problems such as overflowing the extinguishing thread to the outside of the housing.

And, when a lot of voids are generated in the extinguisher, sparks can be transmitted through the voids, so it is necessary to make sure that there are no voids when filling the extinguisher in the housing.

Japanese Patent No. 4036630 Japanese Patent No. 3967087

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the related art as described above, and to more easily and reliably fill the extinguishing yarn in the housing of the fuse.

Another object of the present invention is to minimize the air gaps filled in the fuse.

According to a feature of the present invention for achieving the above object, the present invention includes a housing in which an inner space filled with soho yarn is formed and made of an insulating material, is installed at both ends of the housing, and a cap groove is formed concavely on the outer surface, A fire extinguisher injection hole is formed in the cap groove, and a first cap and a second cap for shielding the inner space, are installed inside the housing, and the ends are soldered to the first and second caps to be electrically connected, and when overloaded It may include a fuse element having a melting and breaking part formed therein, and a connection leg provided integrally with the first cap and the second cap and electrically connected to the outside, and an inner surface corresponding to the cap groove protrudes to form a protrusion Thus, when the first cap and the second cap are mounted on the housing, they may be positioned in the inner space.

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The extinguisher injection hole formed on the bottom surface of the cap groove is a semicircular shape in which the fuse element passes through the straight line.

A bent portion is formed at at least one end of the fuse element to close the fire extinguisher injection hole of the first cap.

Both ends of the fuse element are positioned in the cap grooves of the first cap and the second cap, and a soldering part is formed and filled.

According to another feature of the present invention, a first cap and a second cap are installed at an end of a housing having an inner space to close the inner space, and a fuse element in which a fusion end is formed in the first cap and the second cap. In the method for manufacturing a fuse, the end of which is electrically connected and the extinguishing thread is filled in the inner space through the extinguishing thread injection hole formed in the second cap, the extinguishing thread injection hole formed in the cap groove recessed into the outer surface of the first cap is fuseed Connecting the first cap and the fuse element by forming a soldering part in the cap groove to close the bent part at the end of the element, and mounting the first cap to one end of the housing to close one end of the inner space The first cap mounting step, the second cap mounting step of mounting the second cap to the other end of the housing, and the extinguishing thread by inserting the extinguishing nozzle into the extinguishing thread injection hole formed in the bottom of the cap groove of the second cap. It may include an extinguishing yarn injection step of injecting into the inner space, and a soldering step of forming a soldering part inside the cap groove of the second cap, wherein in the extinguishing yarn injection step, the protrusion of the second cap is at the entrance of the inner space. and after the extinguishing injection step, the protrusion of the second cap may enter the interior of the inner space.

After the soldering step, the method further includes curing the epoxy previously applied to the surface of the housing so that the first cap and the second cap are coupled to the housing.

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The fuse and its manufacturing method according to the present invention can obtain the following effects.

In the present invention, a cap groove is formed so as to be recessed into the outer surface of the cap coupled to both ends of the housing. A fuse element protrudes through the bottom of the cap groove, and an extinguishing sand injection hole is formed. As such, the fire extinguisher injection hole is formed at a recessed position from the outer surface of the cap, so that the extinguishing yarn injected into the inner space of the housing through the extinguisher nozzle does not leak to the outside. can be filled

And, in the present invention, there is an extinguishing thread inlet in the cap blocking both ends of the housing, so the extinguishing thread is injected into the inside of the housing with the caps installed at both ends of the housing, and when the injection is completed, the bending part of the fuse element is bent to form a soldering part Since it only needs to be formed, there is an effect that the injection operation of the fire extinguisher becomes cleaner and easier.

In addition, in the present invention, when the extinguishing agent is injected in a state where the cap with the extinguisher injection hole is not completely inserted into the housing, and when the extinguisher injection is completed, the cap is moved to the position where it is completely inserted, the protrusion formed on the cap presses the extinguisher There is also an effect that no voids are generated in the Sohosa by doing this.

1 is a perspective view showing the configuration of a preferred embodiment of a fuse according to the present invention.
Figure 2 is an exploded perspective view showing the configuration of the embodiment of the present invention.
3 is a cross-sectional view showing the configuration of an embodiment of the present invention.
Figure 4 is a perspective view showing a state for injecting the extinguisher in the embodiment of the present invention.
5 is a perspective view illustrating a state in which a bent part of a fuse element is bent after injecting a fire extinguisher in an embodiment of the present invention;

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but between each component another component It will be understood that may also be "connected", "coupled" or "connected".

As shown in the drawings, the housing 10 is made of various materials. For example, there are ceramics, glass, and the like. The housing 10 is made in a cylindrical shape and has an internal space 12 therein. Both ends of the housing 10 are open, and a fuse element 16 to be described below is installed in the inner space 12 , and a fire extinguisher 14 is filled therein. The extinguisher 14 prevents sparks generated inside the housing 10 from affecting the housing 10 or propagating within the internal space 12 .

The fuse element 16 is made of a conductive metal material and is installed in the inner space 12 of the housing 10 . Both ends of the fuse element 16 are electrically connected to the first and second caps 20 and 20 ′ installed at both ends of the housing 10 . The fuse element 16 has a fusing part (without reference numerals). The fusing part is a part that melts and breaks when an overload flows. The fusing portion is formed approximately in the middle of the fuse element 16 . Both ends of the fuse element 16 are electrically connected to a cap 20 and a soldering part 26 to be described below.

At least one end of the fuse element 16 has a bent portion 18 . The bent portion 18 may be provided at both ends of the fuse element 16 , but one side may be removed by cutting it, so it is not necessary. The bent portion 18 serves to block the fire extinguishing inlet 24 in the first and second caps 20 and 20', which will be described below.

First and second caps 20 and 20 ′ are installed at both ends of the housing 10 . The first and second caps 20 and 20 ′ serve to shield the inner space 12 of the housing 10 . The first and second caps 20 and 20' are made of a conductive material. The first and second caps 20 and 20 ′ have a cylindrical shape with one side closed, and have a cylindrical inner diameter such that they can be press-fitted into the outer surface of the housing 10 . Of course, the first and second caps 20 and 20' are firmly fixed to the outer surface of the housing 10 with an adhesive such as epoxy.

A cap groove 22 is formed at the closed end of the first and second caps 20 and 20'. The cap grooves 22 are recessed into the outer surfaces of the first and second caps 20 . Since the cap groove 22 is recessed from the outer surfaces of the first and second caps 20 , a protrusion 23 is formed in the corresponding interior. The protrusion 23 enters the inner space 12 of the housing 10 and serves to compress the fire extinguisher 14 .

The cap groove 22 is provided with an extinguishing sand inlet 24 as shown in FIG. 2 or FIG. 3 . The extinguishing sand inlet 24 penetrates the bottom of the cap groove 22 so that the outside and the inner space 12 communicate with each other. The sohosa inlet 24 is semicircular as can be seen in FIG. 2 in this embodiment. Such a configuration allows the fuse element 16 to pass through along the straight edge of one side, while allowing the extinguishing sand 14 to be easily injected through the extinguishing nozzle (not shown). For reference, the fire extinguisher inlet 24 of the first cap 20 is not used, which is a bent part 18 of the end of the fuse element 16 before the first cap 20 is installed in the housing 10 . ) to block the fire extinguishing yarn inlet 24 and to close the fire extinguishing yarn inlet 24 by forming a soldering part 26 .

For reference, the first and second caps 20 and 20' are preferably the same. Of course, it is also possible to use one having an extinguishing yarn inlet 24 only on one side and a slit having only a slit through which the fuse element 16 can pass without the extinguishing yarn inlet 24 on the other side. However, in terms of the common use of parts, it is preferable to use the one having the fire extinguishing inlet 24 in both the first and second caps 20 and 20'.

A soldering part 26 is formed in the cap groove 22 of the first and second caps 20 and 20'. The soldering part 26 physically and electrically connects the first and second caps 20 and 20' and the fuse element 16 . It is preferable that the soldering part 26 is formed so as not to protrude from the cap groove 22 .

The first and second caps 20 and 20' are provided with a connecting leg 28 integrally with each other. The connecting leg 28 has a rectangular plate shape in this embodiment. The connection leg 28 functions to electrically connect the fuse and the outside. A fastening hole 30 may be formed in the connection leg 28 . A fastening bolt for fastening with an external terminal passes through the fastening hole 30 . Without the fastening hole 30, the connecting leg 28 may be in the form of a terminal to be connected to an external receptacle-type terminal. The connecting leg 28 is composed of an extension part 32 protruding orthogonally from one end of the first and second caps 20 and 20' and a connecting part 33 extending orthogonally from the extension part. The connection part 33 extends side by side in the same direction as the extension direction of the housing 10 .

Hereinafter, the manufacturing and use of a fuse according to the present invention having the above-described configuration and a manufacturing method thereof will be described in more detail.

A process of manufacturing the fuse of the present invention will first be described. The housing 10, the fuse element 16, and the first and second caps 20 and 20' are pre-made and provided on an assembly line.

First, the first cap 20 and the fuse element 16 are coupled. To this end, a soldering part 26 is formed in the cap groove 22 . In forming the soldering part 26, in order to prevent the base material of the soldering part 26 from falling out through the arc extinguishing thread inlet 24, the bent part 18 is bent to block the arc extinguishing thread inlet 24 . In this state, the soldering part 26 is formed so that the fuse element 16 and the first cap 20 are electrically and physically coupled.

Next, the first cap 20 to which the fuse element 16 is coupled is mounted on one end of the housing 10 . In order to couple the first cap 20 to the housing 10 , epoxy is applied to the outer surface of the housing 10 so that the housing 10 and the first cap 20 are coupled to each other through curing later. In the first cap 20 coupled to the housing 10 , the arc extinguishing sand injection hole 24 is blocked by the bending part 18 and the soldering part 26 . For reference, coupling the fuse element 16 and the first cap 20 through the soldering part 26 may be performed after the first cap 20 is mounted to the housing 10 .

A second cap 20 ′ is mounted on the opposite end of the housing 10 . When the second cap 20 ′ is mounted on the housing 10 , epoxy is applied to the outer surface of the housing 10 in advance, and between the inner surface of the second cap 20 ′ and the outer surface of the housing 10 . Make sure there is an epoxy on it. The epoxy allows the caps 20 and 20' and the housing 10 to adhere to each other through hardening after the injection of the extinguishing yarn 14 is finished.

The arc extinguishing inlet 24 formed in the second cap 20 ′ is open, and there is no bent part 18 at the corresponding end of the fuse element 16 . This is because the arc extinguishing sand inlet 24 in the second cap 20' is blocked by forming the soldering part 26 even if it is not blocked by the bending part 18.

After the second cap 20 ′ is mounted on the housing 10 , a fire extinguisher nozzle is inserted into the fire extinguisher injection hole 24 of the second cap 20 ′, and the fire extinguisher yarn 14 is injected. In the process of injecting the extinguishing yarn 14 , vibration is applied to the housing 10 to prevent voids from being generated in the extinguishing yarn 14 .

On the other hand, when the second cap 20' is mounted on the housing 10, the protrusion 23 of the second cap 20' is moved to the housing ( It is preferable to remain in the state not inserted up to the entrance of the inner space 12 of 10). This is by pushing the second cap 20 ′ to be completely inserted into the housing 10 and mounted on the protrusion 23 after the fire extinguisher 14 is completely filled in the inner space 12 of the housing 10 . This is to apply pressure to the extinguisher 14 by the In this way, when pressure is applied to the extinguishing yarn 14 using the protrusion 23 , the voids inside the extinguishing yarn 14 can be eliminated.

After the extinguishing thread 14 is completely filled in the inner space 12 of the housing 10 and the second cap 20' is also in place, the cap groove 22 of the second cap 20' is A soldering portion 26 is formed there. When the soldering part 26 is formed, the arc extinguisher injection hole 24 of the second cap 20' is closed, and the second cap 20' and the fuse element 16 are electrically connected.

Next, an operation of curing the epoxy applied to the outer surface of the housing 10 is performed so that the caps 20 and 20 ′ are securely mounted to the housing 10 .

The completed fuse is used by connecting the connecting leg 28 to the power supply side and the load side. That is, in the case of the illustrated embodiment, electrical connection is performed by respectively fastening external terminals to the connection leg 28 to perform electrical connection, and when an overload is applied to the load side, the fuse element 16 is blown away. As the part melts and breaks, it is no longer overloaded on the load side.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: housing 12; inner space
14: SOHO 16: fuse element
18: bent part 20: first cap
20': second cap 22: cap groove
24: Sohosa injection port 26: Soldering part
28: connecting leg 30: fastener

Claims (8)

A housing with an inner space filled with sohosa and made of an insulating material,
A first cap and a second cap installed at both ends of the housing, a cap groove is formed concavely on an outer surface, a fire extinguisher injection hole is formed in the cap groove, and shielding the inner space;
a fuse element installed inside the housing and having an end soldered to the first cap and the second cap to be electrically connected, and a fuse element having a fused end portion that melts and breaks when overloaded;
and a connecting leg provided integrally with the first cap and the second cap and electrically connected to the outside;
An inner surface corresponding to the cap groove protrudes to form a protrusion, and the fuse is positioned in the inner space when the first cap and the second cap are mounted on the housing.
delete The fuse according to claim 1, wherein the extinguisher injection hole formed in the bottom surface of the cap groove has a straight semicircular shape through which the fuse element passes.
The fuse of claim 1 , wherein a bent portion is formed at at least one end of the fuse element to close the extinguisher injection hole of the first cap.
5. The fuse according to any one of claims 1, 3, and 4, wherein both ends of the fuse element are positioned in the cap grooves of the first cap and the second cap, and a soldering part is formed and filled.
A first cap and a second cap are installed at the ends of the housing in which the inner space is formed to close the inner space, and the ends of the fuse element having a fuse part formed in the first and second caps are electrically connected to the second cap. In the manufacturing method of a fuse in which the extinguishing thread is filled in the inner space through the formed extinguishing thread injection hole,
Connecting the first cap and the fuse element by closing the blower injection hole formed in the cap groove recessed into the outer surface of the first cap by closing the bent part at the end of the fuse element, and forming a soldering part in the cap groove;
a first cap mounting step of attaching the first cap to one end of the housing to close one end of the inner space;
a second cap mounting step of mounting the second cap to the other end of the housing;
An extinguishing agent injection step of injecting the extinguishing thread into the inner space by inserting a extinguishing thread nozzle into the extinguishing thread injection hole formed in the bottom of the cap groove of the second cap;
a soldering step of forming a soldering part inside the cap groove of the second cap;
In the extinguishing yarn injection step, the protrusion of the second cap is located at the entrance of the inner space, and the protrusion of the second cap enters the interior of the inner space after the extinguishing yarn injection step.
The method of claim 6 , further comprising curing the epoxy previously applied to the surface of the housing so that the first cap and the second cap are coupled to the housing after the soldering step.
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