KR200465414Y1 - PCB mounting-type connector - Google Patents

Abstract

The present invention relates to a board mounted connector. In the present invention, the housing 50 forming the skeleton and the appearance of the connector 40 is installed on the substrate 30. A through hole 52 is formed in the housing 50, and a locking groove 54 is formed at an end of the through hole 52 so as to be opened in a direction away from the substrate 30. The terminal 60 is inserted into the through hole 52 of the housing 50. Hanging jaw 64 is formed in the terminal 60 is hooked to the engaging groove 54, the coupling portion having an elastic force in the portion protruding to the outside through the through hole 52 in the terminal 60 ( 70) is formed. The coupling part 70 is press-fitted into the mounting hole 32 formed in the substrate 30. According to the present invention having such a configuration, since the coupling part 70 of the terminal 60 capable of elastic deformation is pressed into and fixed to the mounting hole 32 of the substrate 30, the terminal 60 without performing additional soldering work. ) Can be mounted on the substrate 30, the hooking jaw 64 formed to protrude to both sides of the terminal 60 is pressed into the locking groove 54 of the housing 50 to prevent the flow of the terminal 60 Since the terminal 60 is not easily separated from the housing 50, the operation reliability of the connector 40 is secured.

Terminal, Deformation Hole, Coupler, Hanger, Board, Mount

Description

Board mounting connector {PCB mounting-type connector}

The present invention relates to a connector, and more particularly, to a board mounted connector mounted on a printed circuit board.

1 is a cross-sectional view showing a board-mounted connector according to the prior art mounted on a printed circuit board.

As shown in this figure, the substrate 3 is a flat plate of an insulating material, and a circuit pattern is printed on the inside and the surface thereof. The circuit pattern forms a circuit on the substrate 3.

The board 3 is provided with a mounting hole 3 'into which the terminal 7 of the connector 5 to be described below is inserted. The mounting hole 3 ′ is formed by penetrating the substrate 3 up and down.

The connector 5 is mounted on the board 3. The skeleton and the appearance of the connector 5 are formed by the housing 6. In general, the housing 6 is made of a synthetic resin material that is an insulator. The terminal 7 is inserted into and fixed to the housing 6. The terminal 7 is made of a metal material having high electrical conductivity.

One end of the terminal 7 protruding out of the housing 6 is mounted on the substrate 3. That is, one end of the terminal 7 penetrates through the insertion hole 3 ′ formed in the substrate 3 and is fixed to the substrate 3 by soldering at the bottom of the substrate 3. Connected.

However, the board-mounted connector according to the prior art as described above has the following problems.

In the prior art, the terminal 7 inserted into the connector 5 and extending downward is soldered through the substrate 3. However, in some cases, soldering may be difficult. In this case, there is a problem in that the electrical coupling between the connector 5 and the substrate 3 is not maintained firmly.

In addition, since the terminal 7 is inserted into the housing 6 and fixed, there is no configuration that can firmly maintain the coupling of the housing 6 and the terminal 7, so that an external force is applied to the housing 6. When acting, a relative flow of the terminal 7 with respect to the housing 6 occurs, causing a problem that the terminal 7 is separated from the housing 6.

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to provide a board-mounted terminal that the terminal is firmly fixed to the substrate without soldering operation.

Another object of the present invention is to provide a board mounted terminal capable of preventing the flow of the terminal to the housing of the connector.

According to a feature of the present invention for achieving the object as described above, the present invention is installed in the substrate, the through hole is formed therein, the end of the through hole is formed so that the engaging groove is opened in the opposite direction of the substrate A housing; The mounting hole is inserted into the housing through the through hole, and a hooking jaw and a locking jaw that are hooked to the locking groove are formed, and a coupling part having an elastic force is formed in a portion protruding to the outside through the through hole. And a terminal press-fitted in the terminal, wherein the terminal is formed at one end of the body part, is connected to the terminal of the mating connector and is located in the inner space of the housing, and is formed at the other end of the body part. And, the deformation through-hole is formed long in the longitudinal direction of the terminal and includes a coupling portion that is pressed into the mounting hole and electrically connected to the substrate.

delete

The coupling portion is formed with stepped surfaces that are orthogonal to both side surfaces of the body portion, and insertion guide surfaces extending closer to each other toward the tip of the coupling portion from each of the stepped surface ends.

The hanger jaw is formed to protrude to both sides of the body portion between the coupling portion and the connecting portion.

One surface of the hanger toward the coupling portion is formed to be inclined downward from the body portion to the tip of the hanger.

According to the present invention, since the coupling part of the terminal capable of elastic deformation is pressed into the mounting hole of the substrate, the terminal can be mounted on the substrate without performing additional soldering. Therefore, the connector can be firmly fixed to the substrate without having a separate facility for soldering, thereby reducing the processing cost.

In addition, in the present invention, since the hooking jaw formed to protrude to both sides of the terminal is pressed into the locking groove of the housing to prevent the flow of the terminal, the terminal is not easily separated from the housing, thereby ensuring the operation reliability of the connector.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the board-mounted connector according to the present invention having the configuration as described above will be described in detail.

FIG. 2 is a perspective view showing a board mounted connector according to an embodiment of the present invention mounted on a board, and FIG. 3 is a cutaway perspective view showing a board mounted on a board through a terminal in FIG. 2. 4 is an enlarged cutaway perspective view of the main part of FIG. 3, and FIG. 5 is a side view of the terminal of the present invention.

As shown in these figures, the substrate 30 is formed in a flat plate shape of an insulating material. The substrate 30 has a predetermined area, and circuit patterns (not shown) are formed inside and on the surface thereof. The circuit pattern forms a circuit on the substrate 30. Various components such as the connector 40 to be described below are mounted on the substrate 30.

A plurality of mounting holes 32 are formed in the substrate 30. The mounting hole 32 is formed to penetrate the top and bottom of the substrate 30. Circuit patterns are also formed in the substrate 30 in which the mounting holes 32 are formed. The terminal 60 of the connector 40 is inserted into the mounting hole 32.

The connector 40 is mounted on the board 30. The exterior and the skeleton of the connector 40 are formed by the housing 50. The housing 50 is made of a synthetic resin material which is a substantially hexahedral insulator. As shown in FIG. 3, one surface of the housing 50 is opened so that the mating connector can be inserted. That is, the inner surface 50 'for coupling with the mating connector is formed in the housing 50 by the open surface.

On the opposite side of the open surface is formed a through hole 52 which communicates with the internal space 50 'and penetrates the interior of the housing 50 in the longitudinal direction. The through hole 52 is a portion through which the terminal 60 is press-fitted. The through holes 52 are formed in plural in parallel with positions corresponding to the mounting holes 32 of the substrate 30.

A locking groove 54 is formed at the tip of the through hole 52. The locking groove 54 is formed to open in the opposite direction of the substrate 30. Hanging jaw 64 to be described below is hooked to the locking groove 54.

Meanwhile, a plurality of terminals 60 are inserted into and fixed to the housing 50. The terminal 60 is to be connected to various external devices such as a fuse or a relay and is made of a metal material having high electrical conductivity and good elasticity. For example, it may be made of copper-tin alloy (CuSn ⁴ ). In particular, the terminal 60 in the present embodiment may be a metal material having a better elastic force than the conventional one, which is easily inserted into the housing 50 by the elastic force, and firm even in the inserted state It is intended to be fixed.

One end of the terminal 60 is located in the inner space of the housing 50, and the other end of the terminal 60 protrudes out of the housing 50 through the through hole 52. The terminal 60 is provided with a number corresponding to the number of the through holes 52, is inserted into the housing 50 through the through holes 52 and fixed.

As shown in FIG. 5, the terminal 60 extends toward the inner space from the body portion 62 and the body portion 62 pressed into the through hole 52 so as to be electrically connected to the terminal of the mating connector. It comprises a connecting portion 66 connected to the connection portion and the coupling portion 70 formed on the opposite side of the connecting portion 66 and protrudes to the outside through the through hole 52.

The body portion 62 has a substantially bar shape, and an outer surface thereof is formed to correspond to an inner surface of the through hole 52. Hanging jaw 64 is formed in the body portion 62. The hooking jaw 64 is formed to protrude to both sides of the body portion 62 between the coupling portion 70 and the connecting portion 66. On one surface of the hanger 64 facing the coupling part 70, a hanger 64 ′ is formed to be inclined downward from the body portion 62 to the tip of the hanger 64. The hooking jaw 64 is pressed into the locking groove 54 of the housing 50 to be hooked.

A locking jaw 65 is provided at the body portion 62 spaced a predetermined distance from the hooking jaw 64 toward the coupling portion 70. The locking jaw 65 is formed to be inclined toward the coupling portion 70. The locking jaw 65 is supported on an outer surface of the housing 50 when the terminal 60 passes through the housing 50 to prevent the terminal 60 from being separated from the housing 50.

The coupling part 70 is a part that is in contact with the surface of the substrate 30 and electrically connected. In more detail, the coupling part 70 is a part press-fitted into the mounting hole 32 of the substrate 30. To this end, the width of the coupling portion 70 is formed relatively larger than the width of the mounting hole (32).

The coupling portion 70 is formed with a stepped surface 72 that is orthogonal to both side surfaces of the body portion 62, and extends from the tip of each of the stepped surface 72 to the tip of the coupling portion 70. Insertion guide surface 74 is formed. The stepped surface 72 prevents the terminal 60 from being pulled out of the substrate 30 by the front end thereof being caught by the mounting hole 32 of the substrate 30.

Each of the insertion guide surfaces 74 extends to the distal end of the coupling part 70 so as to be close to each other. The insertion guide surface 74 serves to induce elastic deformation when the coupling part 70 is inserted into the mounting hole 32 of the substrate 30. In addition, the insertion guide surface 74 allows the terminal 60 to be easily inserted into and separated from the mounting hole 32 while the terminal 60 is mounted or separated on the substrate 30. The coupling part 70 is press-fitted into the mounting hole 32 of the substrate 30 and electrically connected to the circuit pattern.

In addition, the deformation part 76 is formed in the coupling part 70. The deformation through hole 76 is formed to be substantially elliptical in the longitudinal direction of the terminal 60. The deformation through hole 76 provides a space for allowing the elastic deformation of the coupling portion 70 when the coupling portion 70 of the terminal 60 is inserted into the mounting hole 32 of the substrate 30. to provide. As described above, the deformation through hole 76 provides an elastic force in a direction away from each other of the coupling part 70. That is, the connector 40 is coupled to the substrate 30 by being pressed into the mounting hole 32 of the substrate 30 while the coupling portion 70 of the terminal 60 is elastically deformed.

Hereinafter, the operation of the board-mounted connector according to the present invention having the configuration as described above will be described in detail.

First, a process in which the terminal 60 is coupled to the housing 50 will be described. After the terminal 60 is positioned in the inner space 50 'of the housing 50, the through hole 52 formed at the distal end of the housing 50 with the coupling portion 70 of the terminal 60. Insert it in

At this time, the coupling part 70 of the terminal 60 passes through the through hole 52 and is exposed to the outside of the housing 50, and the body part 62 of the terminal 60 is the through hole 52. ) Is pressed in.

Subsequently, when the terminal 60 enters the through hole 52, the hooking jaw 64 of the terminal 60 is caught by the locking groove 54 of the housing 50. At this time, the hook portion 64 ′ of the hooking jaw 64 causes deformation of the locking groove 54 and allows the hooking jaw 64 to be more strongly coupled to the locking groove 54. The hooking jaw 64 is supported on the inner surface of the housing 50 while being coupled to the locking groove 54, and the locking jaw 65 passes through the housing 50 to allow It is supported on the outer surface to prevent the terminal 60 from falling out of the housing 50.

As such, the body portion 62 and the hooking jaw 64 of the terminal 60 are respectively pressed into the through hole 52 and the locking groove 54 of the housing 50 so that the terminal 60 is connected to the housing. It is fixed to 50.

Then, the coupling portion 70 of the terminal 60 is inserted into each mounting hole 32 formed in the substrate 30, respectively. Since the coupling part 70 is formed larger than the mounting hole 32, the coupling part 70 is elastically deformed so that both sides of the coupling part 70 are close to each other when the coupling part 70 is inserted into the mounting hole 32.

As shown in FIGS. 2 and 3, when the bottom surface of the housing 50 contacts the substrate 30, the coupling part 70 of the terminal 60 is no longer inserted and the substrate 30 is not inserted. It is located in the mounting hole (32) of. At this time, the coupling part 70 of the terminal 60 is pressed into the mounting hole 32.

As such, when the connector 40 is mounted on the board 30, the coupling part 70 is electrically connected to the circuit pattern at the inner surface of the mounting hole 32 and is physically coupled to the connector 30. The stepped surface 72 of the coupling portion 70 is formed orthogonal to the longitudinal direction of the terminal 60 to prevent the coupling portion 70 from being easily separated from the mounting hole 32 of the substrate 30. do. That is, the coupling part 70 is elastically deformed and pressed into the mounting hole 32 of the substrate 30, and pulled in the opposite direction to the direction in which the coupling part 70 is inserted into the mounting hole 32. When the stepped surface 72 is caught by the inner surface of the mounting hole 32, the terminal 60 is firmly fixed to the substrate 30.

Of course, the soldering operation may be performed on the substrate 30 according to a design condition, so that the electrical and physical connection between the circuit pattern and the terminal 40 may be firmly performed, but the connector 40 according to the present invention may be difficult to solder. In there is an advantage that the electrical connection of the connector 40 is secured without additional soldering work.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self-evident.

1 is a cross-sectional view showing a board-mounted connector according to the prior art mounted on a board.

2 is a perspective view showing a state in which a preferred embodiment of a board-mounted connector according to the present invention is mounted on a board.

Figure 3 is a cutaway perspective view showing the connector is mounted on the board through the terminal in FIG.

Figure 4 is an enlarged perspective view of the main portion of Figure 3 enlarged.

Figure 5 is a side view showing the configuration of a terminal constituting an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

30: substrate 32: mounting hole

40: connector 50: housing

50 ': internal space 52: through hole

54: locking groove 60: terminal

62: body 64: hanger jaw

64 ': hook 66: connection

70: coupling part 72: stepped surface

74: insertion guide 76: deformation through hole

Claims (5)

A housing installed in the substrate and having a through hole formed therein, the housing having a locking groove open at an end of the through hole in an opposite direction to the substrate; The mounting hole is inserted into the housing through the through hole, and a hooking jaw and a locking jaw that are hooked to the locking groove are formed, and a coupling part having an elastic force is formed in a portion protruding to the outside through the through hole. A terminal press-fitted into The terminal is formed in the body portion, one end of the body portion, the connecting portion which is located in the inner space of the housing and electrically connected to the terminal of the mating connector, and the other end of the body portion, in the longitudinal direction of the terminal Board-mounted connector is formed in the deformation through the elongated connector comprising a coupling portion is pressed into the mounting hole and electrically connected to the substrate. delete The substrate mounting type of claim 1, wherein the coupling portion has a stepped surface that is formed orthogonal to both side surfaces of the body portion, and an insertion guide surface extending closer to each other toward the tip of the coupling portion from each of the stepped surface ends. connector. The board mounting connector according to claim 1 or 3, wherein the hooking jaw is formed to protrude to both sides of the body portion between the coupling portion and the connection portion. The board mounted connector of claim 4, wherein one surface of the hooking jaw facing the coupling part is formed to be inclined downward from the body portion to the tip of the hooking jaw.

Images