KR20150003367U - Anti-impact type double channel connector - Google Patents

Abstract

The present invention relates to an impact-resistant double-channel connector, which comprises a base plate, a first connecting arm, a contact arm, a second connecting arm, and a pair of L-shaped force receiving plates, and a groove is formed in the bottom surface of the base plate. The first end of the first connection arm is connected to the second end of the base plate such that the second end of the first connection arm extends upwardly with respect to the first end of the first connection arm. And is connected to the first end of the contact arm and the second end of the first connection arm. The first end of the second connection arm is connected to the second end of the contact arm, and the second end of the second connection arm extends downwardly to the base plate and is contactable with the base plate. Each of the pair of L-shaped force receiving plates is provided on a base plate. The cross-sectional surface of the first connecting arm is curved in which one side is opened from the longitudinal direction toward the second connecting arm, 1 Install a power groove through the connecting arm in the width direction. An impact resistant double channel connector according to an embodiment of the present invention has two connecting passages, and thus has excellent overall strength.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an impact-resistant double-

The present invention relates to a connector, and more particularly to a shockproof double channel connector or a connector including such an elastic piece.

Electrical connectors are widely used, for example, for connecting electronic components to a circuit board. The conventional electrical connector includes a sheet-like body 10 'and an elastic arm 11' raised upward from one end of the body 10 ', as shown in FIG. 11, One end of the body 11 'is connected to the body 10' and the other end is substantially arc-shaped. In use, the body 10 'is soldered onto a printed circuit board (PCB), the electronic component contacts the resilient arm 11' and presses the resilient arm 11 'downward, . On the other hand, the reliability of the contact between the elastic arm 11 'and the electronic component is assured by the upward elastic force of the elastic arm 11'.

Conventional connectors have the following disadvantages.

First, the conventional connector has only one connecting passage formed by the elastic arms 11 ', which is the only connecting passage. Since the high frequency current flows between the electronic component and the circuit board only through this unique connection path, the high frequency connection characteristic of the connector is insufficient.

Secondly, since the reliability of the contact between the elastic arm 11 'and the electronic component is assured only by the elastic force of the elastic arm 11', the deformation of the elastic arm 11 'is large and the internal stress thereof becomes large, Is in a limited range, the reliability of the contact is lowered, and the durability of the elastic arm 11 'is poor.

Thirdly, when the electronic component presses the elastic arm 11 'downward, if it is excessively pressed downward, the elastic arm 11' can contact the circuit board and cause a failure such as a short circuit . Further, when the elastic arm 11 'is excessively pressed downward, it can be permanently deformed and can not be recovered even if the electronic parts are removed. Therefore, when the electronic parts are again connected, the elastic arm 11 'loses the elastic force in the upward direction and affects the contact reliability between the elastic arm 11' and the electronic part.

Fourth, the elastic arms 11 'can move in the forward direction shown in Fig. 11 when they are pressed downward. Therefore, a twisting force can be generated in the elastic arm 11 ', so that the connection between the body 10' and the circuit board can be broken.

The present invention relates to solving at least one of the problems existing in the prior art. Accordingly, an object of the present invention is to provide an impact-resistant double-channel connector having two connecting passages and having excellent overall strength and excellent rigidity.

An impact resistant double channel connector according to one embodiment of the present invention comprises:

A base plate defining a first end and a second end along a longitudinal direction and forming a groove adjacent to the first end on a bottom surface and extending in a width direction and passing through the base plate in a longitudinal direction;

A first connection arm, a first end of the first connection arm is connected to a second end of the base plate, and a second end of the first connection arm is connected to the first end of the first connection arm in an upward direction Extended;

A contact arm, the first end of the contact arm being connected to the second end of the first connection arm;

The first end of the second connection arm is connected to the second end of the contact arm and the second end of the second connection arm extends downwardly toward the base plate to contact the base plate, Can; And

The pair of L-shaped force receiving plates and the pair of L-shaped force receiving plates are respectively installed on the base plate, and the long portions of the pair of L-shaped force receiving plates extend along the longitudinal direction and are spaced apart from each other in the width direction Type force receiving plate, and a pair of the L-shaped force receiving plates extend in the width direction and the free end sides of the short length portions of the pair of L-shaped force receiving plates face each other, A curved shape having one side opened from the longitudinal direction toward the second connection arm and provided with a depression on the bottom plate facing the opening of the first connection arm and passing through the width direction of the first connection arm;

.

Since the impact-resistant double-channel connector according to one embodiment of the present invention has two connecting paths, the high-frequency current flows to the smallest path of the resistance, so that high-frequency high-frequency connection characteristics are obtained and generation of high- . In addition, since the elastic force of the double-channel connector is high, it is possible to improve the reliability of connection between the electronic component and the circuit board, extend the durability, and also provide a pair of L- It can be ensured that the connection arm is prevented from being excessively compressed so that the strength is high, the rigidity is good and the double channel connector is not broken during assembly and use. Therefore, when the circuit board is soldered to the base plate, grooves are formed in the base plate so that the solder enters the grooves and the solder between the base plate and the circuit board is more firmly soldered can do.

Further, the shockproof double channel connector according to the present invention has the following additional technical features.

In some embodiments of the present invention, the force sensing grooves are multiple and spaced apart in the width direction.

In some embodiments of the present invention, the power groove is formed in a lug of a side of the first coupling arm. Therefore, it is convenient for machining of the power groove.

In some embodiments of the present invention, the force sensing grooves are one and formed in the widthwise center of the first connection arm.

In some embodiments of the present invention, the L-shaped force receiving plate is provided with a reinforcing rib groove, and the reinforcing rib groove has a longitudinal reinforcing rib groove provided in a long portion of the L-shaped force receiving plate, And a longitudinal reinforcing rib groove extending from the short portion to the long portion. Therefore, the rigidity and strength of the L-shaped force receiving plate can be further improved.

According to a more specific embodiment of the present invention, the impact-resistant double-channel connector comprises a plurality of stoppers and a third connecting arm parallel to the base plate, the lower ends of the plurality of stoppers being respectively connected to the pair of L- And the upper ends of the plurality of stoppers extend up to a portion where the contact arm and the first connection arm are connected to each other so that the contact arm and the second connection arm move in the upward direction, Wherein a first end of the arm is connected to the first connection arm, a second end of the third connection arm is connected to the contact arm, and an upper end of the stopper is connected to the upper end of the second end of the third connection arm When a plurality of stoppers are installed, when the contact arm is subjected to a pulling force directed upward, the second connection arm is pulled up To provide a protection function against the second connection arm and to ensure that the impact resistant double channel connector is not damaged during assembly and use and that the shockproof double channel connector has better overall strength, The processing of the connector is convenient, and the elasticity of the double-channel connector is further increased.

Optionally, the upper end of the stopper and the upper surface of the second end of the third connection arm are in contact. Thus, the stopper effectively performs the function of the stopper.

Alternatively, the stopper is of an inverted L-shape, the vertical portion of the stopper being connected to the upper edge of the elongated portion of the corresponding L-shaped force receiving plate, and the horizontal portion of the stopper, And is in contact with the upper surface. Therefore, the structure of the stopper is simple and processing is convenient.

Optionally, the L-shaped force receiving plate and the corresponding stopper are integrally formed.

In some embodiments of the present invention, the first end and the second end of the base plate each extend in the longitudinal direction such that the length exceeds a length of the L-shaped force receiving plate.

In some embodiments of the present invention, the first connection arm is C-shaped, U-shaped, V-shaped, or arch-shaped opening in the longitudinal direction toward one side of the second connection arm. Thus, the durability of the shockproof double channel connector is improved by increasing the elasticity of the first connection arm.

Preferably, the first connection arm is formed with an annular block notch adjacent its first end and facing upwardly. Therefore, the reliability of soldering of the bottom surface of the base plate to the circuit board is assured and the elasticity of the first connection arm is not affected.

Specifically, the block notch is an arc-shaped opening downward.

In some embodiments of the present invention, the second end of the contact arm first extends in the upper direction relative to the first end of the contact arm, and then extends in the lower direction again. Therefore, the elasticity of the contact arm can be increased.

In addition, the second end of the contact arm is deflected in an arc shape.

In some embodiments of the present invention, the second end of the second connection arm first extends toward the base plate in a downward direction, then is deflected and extends upwardly away from the base plate.

In addition, the second end of the second connection arm is bent in an arc shape.

In one embodiment of the present invention, the second end of the second connection arm is in constant contact with the base plate.

In another embodiment of the present invention, the second end of the second connection arm and the base plate are always spaced apart and only when the contact arm is pressed downwardly, the second end of the second contact arm and the base plate Lt; / RTI >

Optionally, the impact resistant double channel connector is integrally fabricated by deflecting a resilient metal sheet. Therefore, the manufacture of the shockproof double channel connector is very simple and the cost is low.

Additional aspects and advantages of the invention will be set forth in part in the description that follows, and in part will be apparent from the description, or may be learned by practice of the invention.

Are included herein.

The foregoing aspects and / or additional aspects and advantages of the present invention will become apparent and appreciated more readily from the following detailed description, taken in conjunction with the drawings, in which:
1 is a front view of an impact resistant double channel connector according to an embodiment of the present invention.
2 is a plan view of an impact resistant double channel connector according to one embodiment of the present invention.
3 is a left side view of the shockproof double channel connector shown in Fig.
4 is a plan view of an impact resistant double channel connector according to another embodiment of the present invention.
5 is a left side view of the shockproof double channel connector shown in Fig.
6 is a plan view of an impact resistant double channel connector according to an embodiment of the present invention.
7 is a left side view of the shockproof double channel connector shown in Fig.
FIG. 8 is a front view of an impact resistant double channel connector according to an embodiment of the present invention, in which a stopper is provided on a double L-shaped force receiving plate.
9 is a perspective view of the impact resistant double channel connector shown in Fig.
FIG. 10 is an exemplary view for connecting an impact resistant double-channel connector and an electronic component to a circuit board according to an embodiment of the present invention, wherein the contact arm is not subjected to an action force directed downward.
FIG. 11 is an exemplary view illustrating an impact-resistant double-channel connector according to an embodiment of the present invention and a circuit board and an electronic component connected to each other, wherein the contact arm receives a downward force.
12 is a graph of the pressure-compression amount of an impact-resistant double-channel connector and an L-force receiving plate according to an embodiment of the present invention.
13 is an exemplary view of a conventional connector.

Reference will now be made in detail to embodiments of the present invention. The above embodiments are shown in the drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions. The embodiments shown in the drawings are illustrative only and are not intended to limit the present invention.

In the detailed description of the present invention, the terms "center", "lengthwise", "widthwise", "above", "below", "before", "after", "left", "right" The relationship indicating the orientation or position, such as "horizontal", "top", "under", "inner", "out", etc. is the orientation or positional relationship shown in the drawing, which facilitates explanation of the design, And does not imply or imply relative importance.

Unless specifically and specifically constrained otherwise, the technical terms "mount", "interconnect", "connection", "fixed" and the like should be understood in a broad sense. For example, it may be a fixed connection, a removable connection or an integral connection, a mechanical connection, an electrical connection, a direct interconnection, an indirect interconnection via an intermediate medium, It may be an internal connection. Those skilled in the art will recognize that the technical terms above may be understood in their specific context according to the specific circumstances. Also, unless the context clearly dictates otherwise, the term "several" in this specification refers to two or more.

The connector 100 according to one embodiment of the present invention will be described in detail with reference to FIGS. 1 to 12 below. The shockproof double channel connector 100 is for connecting the circuit board 200 and the electronic component 300.

1 to 9, a connector 100 according to an embodiment of the present invention includes a base plate 1, a first connecting arm 2, a contact arm 3, a second connecting arm 4 ), And a pair of L-shaped force receiving plates (7).

1) and a second end (a left end portion shown in Fig. 1) are defined along the longitudinal direction, and the base plate 1 has a base plate 1, (10) which is adjacent to the first end of the base plate (1) and extends in the width direction and penetrates the base plate (1) in the longitudinal direction. That is, the grooves 10 pass through the base plate 1 along the width direction and the longitudinal direction, respectively. That is, the base plate 1 is formed with the hole 10 extending along the width direction. Therefore, the soldering between the base plate 1 and the circuit board 200 is further strengthened.

1) of the first connection arm 2 is connected to the second end of the base plate 1 and the second end of the first connection arm 2 The upper end of the first connection arm 2 extends upwardly with respect to the first end of the first connection arm 2. Herein, the term "upward direction " refers to a direction including a vertically upward direction, an oblique upward direction, and a bent upward direction. For example, in the example shown in FIG. 1, the second end of the first connection arm 2 extends in an upward direction in the form of an arc. Here, "extend in the upper direction" means that the second end of the first connection arm 2 is higher than the first end of the first connection arm 2. [

And is connected to the first end of the contact arm 3 (the lower left end in Fig. 1) and the second end of the first connection arm 2. 1) of the second linking arm 4 and the second end of the second linking arm 4 (the upper end in Fig. 1) and the second end of the contact arm 3 (The lower end in Fig. 1) downwardly toward the base plate 1 and is contactable with the base plate 1. 1, the second end of the second connection arm 4 extends obliquely downward to the base plate 1, but the present invention is not limited in this respect, and the second end of the second connection arm 4 May extend vertically downward.

A pair of L-shaped force receiving plates 7 are respectively provided on the base plate 1 and a long portion 70 of the pair of L-shaped force receiving plates 7 extends along the longitudinal direction and extends along the width direction Shaped power receiving plates 7 are extended in the width direction and the free end sides of the short length portions 71 of the pair of L-shaped force receiving plates 7 face each other do. In the embodiment of the present invention, the two L-shaped force receiving plates 7 are respectively a first L-shaped force receiving plate 7a and a second L-shaped force receiving plate 7b, The first L-shaped force receiving plate 7a is provided on the rear side of the base plate 1 and the second L-shaped force receiving plate 7b is provided on the front side of the base plate 1. [ The short length portion 71 of the first L-shaped force receiving plate 7a extends forward perpendicularly to the right end of the long length portion 70 of the first L-shaped force receiving plate 7a, The short length portion 71 of the L-shaped force receiving plate 7b extends rearward perpendicular to the right end portion of the long length portion 70 of the second L-shaped force receiving plate 7b. A distance between the free end side of the short portion 71 of the first L-shaped force receiving plate 7a and the free end side of the short length portion 71 of the second L-shaped force receiving plate 7b is a certain distance.

The cross-sectional surface of the first connecting arm 2 is curved with one opening toward the second connecting arm 4 in the longitudinal direction, and in some embodiments of the present invention, the first connecting arm 2 extends in the longitudinal direction A U-shape, a V-shape, or an arcuate shape opened toward the second connection arm 4 side. 1-9, the first connecting arm 2 is formed into a C-shaped arc type whose opening faces to the right. Therefore, the elasticity of the first connection arm 2 can be increased, and the elastic force for maintaining the contact between the electronic component 300 and the contact arm 3 can be increased by the elastic force of the first connection arm 2 and the contact arm 3 Lt; / RTI > The internal stresses of the first connection arm 2 and the contact arm 3 are reduced under the same elastic force to improve the durability of the connector 100. [

A power groove 20 is formed in the bottom plate facing the opening of the first connection arm 2 and penetrates the first connection arm 2 in the width direction of the first connection arm 2. That is, Through the first connection arm (2) in the width direction of the first connection arm (2). The size of the double force reduction groove 20 can be adjusted according to the magnitude of the external force received by the first connection arm 2 and thus the elastic deformation in which the first connection arm 2 is connected by the built- The elasticity of the shockproof double-channel connector 100 can be assured by adjusting the effective width to be achieved.

Accordingly, the shockproof double channel connector 100 according to the embodiment of the present invention has two connecting passages. 10 and 11, the circuit board 200 is soldered to the lower surface of the base plate 1, and the electronic component 300 is brought into contact with the contact arm 3, The contact arm 3 and the first connection arm 2 are deformed so that the second end of the second connection arm 4 and the base plate 1 are in contact with each other. There are two connection passages between the contact arm 3 and the base plate 1, that is, between the electronic component 300 and the circuit board 200, and the first connection passageway includes the contact arm 3 and the first connection arm 2 - the base plate 1 and the second connecting passage is the contact arm 3 - the second connecting arm 4 - the base plate 1. At the same time, since the elastic force for maintaining contact between the double channel connector 100 and the electronic component 300 is generated by the deformation of the contact arm 3 and the first connection arm 2, the elastic force is increased and the electronic component 300 And the circuit board 200. In addition, the internal stress of the contact arm 3 and the first connection arm 2 is small and the durability is improved with the same elastic force. 11, when the pressure for pressing the contact arm 3 downward is large, the second connection arm 4 is deformed to be deformed to the upper surface of the base plate 1, . At this time, by providing a pair of L-shaped force receiving plates 7, a function of supporting and restricting the plastic deformation that may occur in the contact arm 3, the first connecting arm 2 and the second connecting arm 4 Can be performed.

12, the amount of compression of the L-shaped force receiving plate 7 (that is, the amount of compression of the L-shaped force receiving plate 7) The deformation amount of the L-shaped force receiving plate 7 is changed from 0 mm to 0.6 mm, and the amount of deformation is very small. That is, each of the L-shaped force receiving plates 7 can bear a pressure of 200 Nf or less.

Since the impact-resistant double-channel connector 100 according to the embodiment of the present invention has two connecting passages, the high-frequency electric energy can flow along the path with the smallest impedance, so that the high- Noise can be avoided. On the other hand, since the impact resistance type double channel connector 100 has a large elastic force, the reliability of the connection between the electronic component and the circuit board is improved and the durability is improved. Further, since a pair of L-shaped force receiving plates 7 are provided, excessive compression of the first connecting arm 2, the contact arm 3, and the second connecting arm 4 can be prevented and the first connecting arm 2 ), The contact arm 3 and the second connection arm 4 are prevented from losing their elasticity and the strength of the L-shaped force receiving plate 7 is high, so that the double channel connector 100 is damaged So that the shockproof double channel connector 100 has a better overall strength and the groove 10 is formed in the base plate 1 so that the circuit board 200 is placed on the lower surface of the base plate 1 The solder is introduced into the groove 10 at the time of soldering to make the soldering between the base plate 1 and the circuit board 200 more robust.

As shown in FIGS. 2 and 3, according to an embodiment of the present invention, a plurality of the power grooves 20 are spaced apart from each other in the width direction. As shown in Fig. 2 and Fig. 3, there are two power grooves 20 and are spaced apart in the longitudinal direction. 4 and 5, according to another embodiment of the present invention, there is one power groove 20 and is formed at the center of the width direction of the first connection arm 2, that is, in the width direction, (20) is located in the middle of the first connection arm (2).

6 and 7, according to a further embodiment of the present invention, the power recess 20 is formed in the side lug of the first connection arm 2. Therefore, it is convenient for machining the power recess 20 Do. As shown in Figs. 6 and 7, there are two power grooves 20. The installation position and opening of the power groove 20 are not limited to this but are specifically limited depending on the actual situation.

According to the embodiment of the present invention, the reinforcing rib groove (72) is provided in the L-shaped force receiving plate (7). Specifically, as shown in Figs. 3, 5, 7 and 9, longitudinal reinforcing rib grooves 72a are provided in a long portion 70 of the L-shaped force receiving plate 7, and L Shaped force receiving plate 7 is provided with a horizontal reinforcing rib groove 72b extending from a portion 71 having a shorter length to a portion having a longer length. First, the horizontal reinforcing rib grooves 72b are formed in the L shape. Therefore, the strength of the L-shaped force receiving plate 7 can be further improved.

8 and 9, according to another embodiment of the present invention, the shockproof double channel connector 100 further includes a plurality of stoppers 5, and the lower ends of the stoppers 5 The upper ends of the plurality of stoppers 5 are connected to a pair of L-shaped force receiving plates 7 and extended to the upper portion where the contact arm 3 and the first connection arm 2 are connected to each other, Thereby limiting the distance that the second connecting arm 4 moves upward. 9, the lower end of the first stopper 5a is connected to the first L-shaped force receiving plate 7a, and the second stopper 5b is connected to the second stopper 5a. In this embodiment, And the lower end of the second L-shaped force receiving plate 7b is connected to the second L-shaped force receiving plate 7b.

Therefore, when a plurality of stoppers 5 are installed, it is possible to prevent the second connection arm 4 from being dragged when the contact arm 3 is subjected to a pulling force directed toward the upper direction, And also ensures that the impact resistant double channel connector 100 is not damaged during assembly and use and the impact resistant double channel connector 100 has better overall strength.

The shockproof double channel connector 100 further includes a third connecting arm 6 substantially parallel to the base plate 1. 1) of the third connection arm 6 is connected to the first connection arm 2 and the second end of the third connection arm 6 (the right end in Fig. 1) Is connected to the contact arm 3 and the upper end of the stopper 5 extends up to the upper end of the second end of the third connecting arm 6. [ Optionally, the upper end of the stopper 5 and the upper surface of the second end of the third connection arm 6 are in contact. That is, in the steady state, the stopper 5 may contact or have a small gap with the upper surface of the second end of the third connecting arm 6. As will be described here, the third connection arm 6 can be seen as a part of the contact arm 3. By providing the third connection arm 6, the processing of the double channel connector 100 can be facilitated and the elastic force of the double channel connector 100 can be further increased. At this time, the first connecting passage is a contact arm 3, a third connecting arm 6, a first connecting arm 2, and a base plate 1, and the second connecting passage is a contact arm 3 and a second connecting arm 4) - the base plate (1).

9, the stopper 5 is of an inverted L shape, and the vertical portion 50 of the stopper 5 is provided with a long portion 70 (see FIG. 9) of the corresponding L-shaped force receiving plate 7, And the horizontal portion 51 of the stopper 5 is in contact with the upper surface of the third connecting arm 6. [ 9, the vertical portion 50 of the first stopper 5a is connected to the upper edge of the elongated portion 70 of the first L-shaped force receiving plate 7, and the second stopper 5b are connected to the elongated portion 70 of the second L-shaped force receiving plate 7b. Therefore, the structure of the stopper 5 is simple and the processing is easy to form. In addition, the L-shaped force receiving plate 7 can be integrally formed with the corresponding corresponding stopper 5, that is, the first stopper 5a can be integrally formed with the first L-shaped force receiving plate 7a And the second stopper 5b can be integrally formed with the second L-shaped force receiving plate 7b. For example, through punching on an integrated elastic metal sheet.

As shown in Figure 1, in some embodiments of the present design, the first end and the second end of the base plate 1 have a lengthwise portion 70 of the L-shaped force receiving plate 7 in the longitudinal direction Lt; / RTI >

In some embodiments of the present invention, as shown in FIG. 1, a block notch 21 is formed in the first connection arm 2 adjacent to the first end and recessed upward. Specifically, the block notch 21 is arc-shaped. In the embodiment of the present invention shown in Fig. 1, the block notch 21 is vertically recessed upward. In other words, the opening of the block notch 21 is oriented vertically downward. However, the present invention is not limited to this, and the opening of the block notch 21 may be inclined upward to the right side, and the opening of the block notch 21 may be inclined upward to the left side.

By providing the block notch 21, when the base plate 1 is soldered to the circuit board 200, the block notch 21 can block the flow of the solder to the first connection arm 2, The reliability of the soldering between the lower surface of the base plate 1 and the circuit board 200 can be assured and the elastic force of the first connection arm 2 will not be affected.

In some embodiments of the present invention, as shown in Fig. 1, the second end of the contact arm 3 extends in the upper direction first and then in the lower direction with respect to the first end of the contact arm 3 Refracted. Specifically, the second end of the contact arm 3 is refracted in the form of an arc. That is, the second end of the contact arm 3 first extends in the right upper direction and then in the arc-like downward direction. Therefore, the elasticity of the contact arm 3 can be increased.

As shown in Figs. 1 to 9, in order to improve the reliability of contact with the electronic component 300, the contact portion 31 is provided at the top portion of the contact arm 3. Specifically, the contact portion 31 may be formed by plating on the top portion of the contact arm 3. Therefore, the conductivity can be efficiently improved.

1, in one embodiment of the present invention, the second end of the second connection arm 4 first extends downwardly to the base plate 1, then is refracted and extends in an upward direction, (1). Further, the second end of the second connection arm 4 is bent in an arc shape. In other words, the second end of the second connection arm 4 first extends to the base plate 1 in an inclined manner in the left lower direction, then is refracted in an arc shape and extends upward to the left. In other words, the second end of the second connecting arm 4 has a substantially L shape with a transition arc.

The second end of the second connecting arm 4 is always in contact with the base plate 1. The second end of the second connecting arm 4 is always in contact with the upper surface of the base plate 1 regardless of whether the contact arm 3 is pressed downward by the electronic component 300 or not. The second end of the second connection arm 4 is always spaced apart from the base plate 1 and only when the contact arm 3 is pressed downward, And the two ends are brought into contact with the base plate 1.

The shockproof double channel connector 100 of an embodiment of the present invention can be integrally formed by a curved single resilient metal sheet, such as a beryllium copper sheet or a super titanium copper sheet. Thus, the manufacture of the shockproof double channel connector 100 is easy and inexpensive. In addition, the impact resistant double channel connector 100 according to the embodiment of the present invention can be plated on its surface with a plating thickness of, for example, 2 m to 60 m. The base plate 1 and the contact portion 31 of the top portion of the contact arm 3 can be plated to save the plating material and lower the cost. At this time, the plating thickness of the contact portion 31 is 15-60 mu m to improve the soldering performance of the plate 1 and improve the electrical conduction performance and contact performance between the contact arm 3 and the electronic component 300, .

In the example of the present invention, the width (i.e., the size in the width direction) of the shockproof double channel connector 100 is about 1-3.0 mm; Its height (i.e., its vertical size) is about 0.8-5.0 mm; Its length (i.e. its size in the longitudinal direction) is about 2.0-7.0 mm; The height after compression is about 0.3-3.5 mm. The beryllium copper sheet or super titanium copper sheet used for manufacturing the shockproof double-channel connector 100 of the present invention has a thickness of about 0.05-0.2 mm, and the manufacturing accuracy is high. Its shape and position tolerance is less than ± 0.10 mm and the overall dimension CPK (Process Capability Index) is 1.33 and its mass production consistency is good.

The impact-resistant double-channel connector 100 according to the embodiment of the present invention is arc-trensited without hooks and acute angles as a whole, so that the mass production process (pre-plating stamping and plating process In later punching production). Further, when the shockproof double channel connector 100 is soldered on the circuit board 200, the shockproof double channel connector 100 will not be caught on other parts either.

The shockproof double-channel connector 100 according to the embodiment of the present invention conforms to the REACH standard (Registration, Evaluation, Authorization and Restriction of Chemicals). Thus, it has good resistance to corrosion, impact and impact. Salt-spray test at a concentration of 5% and a pH of 7.0 for 48 hours; Vibration test IEC68-2-36; Crash test IEC 68-2-27; The operating current of the double-channel connector 100 at operating temperature -40 ° C to + 85 ° C is 3 A, the maximum current is 3.5 A, and the contact resistance is less than 15 mΩ.

Hereinafter, the operation principle of the shockproof double channel connector 100 according to the embodiment of the present invention will be described with reference to Figs. The case where the stopper 5 is not provided in the impact double-channel connector 100 will be described as an example.

10 and 11, the impact-resistant double-channel connector 100 is soldered to the circuit board 200 through the base plate 1. As shown in FIG. The electronic component 300 is positioned above the contact arm 3. When the contact arm 3 is pressed downward, the contact arm 3 and the first connection arm 2 are compressed and an upward directional elastic force is generated. The electronic component 300 is brought into contact with the contact portion 31 of the contact arm 3 by the elastic force of the contact arm 3 and the first connection arm 2. At the same time, the second connecting arm 4 moves downward, and its lower end moves to the left with respect to the base plate 1 so as to be in contact with the base plate 1. After the second end of the contact arm 3 and the second connection arm 4 move downwardly by a predetermined distance, the additional downward movement is stopped due to clogging of the pair of L-shaped force receiving plates 7, The arm 3, the first connection arm 2, and the second connection arm 4 are prevented from being excessively compressed.

As described above, the impact resistant double channel connector 100 according to the embodiment of the present invention is provided between the electronic component 300 and the circuit board 200 (i.e., between the contact portion 31 of the contact arm 3 and the base plate 200) (1)). The first connection passage is a contact arm 3, a third connection arm 6, a first connection arm 2 and a base plate 1, and the second connection passage is a contact arm 3 and a second connection arm 4) - the base plate (1). Therefore, it has one more connecting passage than the conventional connector, and provides one more connecting passage for the high-frequency current between the base plate 1 and the contact portion 31. The high-frequency current can flow along the path with the smallest impedance, thus realizing good high-frequency characteristics without high frequency interference. In addition, an elastic force, which maintains contact between the connector 100 and the electronic component 300, is provided by a common deformation of the contact arm 3 and the first connection arm 2, . In the case of the same elastic force, the stress is dispersed, and the internal stress in the contact arm 3 and the first connecting arm 2 is consequently reduced, and the durability is improved.

In addition, through the provision of the depression 20, the first connecting arm 2 can reach the required elasticity and the elastic force of the shockproof double channel connector 100 is secured. At the same time, a pair of L- The first connecting arm 2 and the second connecting arm 4 can perform the function of supporting and restricting the plastic deformation which can be generated in the first connecting arm 2 and the second connecting arm 4. [ That is, the first connecting arm 2 and the second connecting arm 4 are prevented from being excessively compressed to lose elasticity, and the L-shaped force receiving plate 7 is formed in an L-shape, 7). In addition, by providing at least one reinforcing rib groove (72) in the L-shaped force receiving plate (7), the strength of the L-shaped force receiving plate (7) (As shown in FIG. 12, it is possible to cope with a downward impact force of 150 Nf or more). It is possible to ensure that the entire impact type double channel connector 100 has a higher strength and to release the impact force to the downward direction and then the impact type double channel connector 100 can still be recovered to the operating height before the compression, Thereby ensuring that the connector 100 can operate normally.

At the same time, by providing the stopper 5, it is possible to prevent the second connection arm 4 from being pulled in the direction of receiving the pulling force of the second connection arm 4 in the upward direction, Protects the shockproof double channel connector 100 from damage during assembly and use and ensures that the impact double channel connector 100 has better overall strength.

An impact resistant double channel connector 100 according to embodiments of the present invention is arc-shaped with no acute angle as a whole and is integrally formed by refracting a single piece of metal sheet. Therefore, the manufacture is simple and will not hinder other parts in the assembly process.

Reference throughout this specification to "one embodiment", "some embodiments", "an example," "an example," "an example," and " Means that the features described in connection with the examples and examples are included in at least one embodiment or example. The exemplary representation of the term herein is not necessarily to the same embodiment or example. In addition, a particular feature, structure, material, or characteristic may be combined in any suitable manner or embodiments.

While illustrative embodiments have been shown and described, it will be understood by those skilled in the art that modifications, substitutions, and alterations may be made within the embodiments without departing from the spirit and principles of the invention. All such variations, substitutions, and alterations are within the scope of the claims and their equivalents.

100: Connector
200: circuit board
300: Electronic parts
1: Base plate
2: first connection arm
3: contact arm
4: second connection arm
5: Stopper
6: Third connection arm
7: L-shaped force plate
7a: first L-shaped force receiving plate
7b: a second L-shaped force receiving plate
10: home
21: Block notch
31:
50: vertical portion
70: Long section
71: short section
72: reinforcing rib groove

Claims (20)

A base plate defining a first end and a second end along a longitudinal direction and forming a groove adjacent to the first end on a bottom surface and extending in a width direction and passing through the base plate in a longitudinal direction;
A first connection arm, a first end of the first connection arm is connected to a second end of the base plate, and a second end of the first connection arm is connected to the first end of the first connection arm in an upward direction Extended;
A contact arm, the first end of the contact arm being connected to the second end of the first connection arm;
A first end of the first connection arm is connected to a second end of the contact arm and a second end of the second connection arm extends downwardly toward the base plate, Can; And
The pair of L-shaped force receiving plates and the pair of L-shaped force receiving plates are respectively installed on the base plate and the long portions of the pair of L-shaped force receiving plates extend along the longitudinal direction and are spaced apart from each other in the width direction Type force receiving plate, the pair of L-shaped force receiving plates extend in the width direction and the free end sides of the pair of L-shaped force receiving plates face each other,
Wherein a cross-sectional surface of the first connection arm is curved in which one side is opened from the longitudinal direction toward the second connection arm, and has a curved shape that passes through the bottom plate facing the opening of the first connection arm in the width direction of the first connection arm A force groove is installed;
And a second end connected to the second end. The method according to claim 1,
Wherein the plurality of sensing grooves are spaced apart from each other in the width direction. The method according to claim 1,
Wherein the power groove is formed in a lag at a side of the first connection arm. The method according to claim 1,
Wherein the one or more reduction grooves are formed at the center of the width direction of the first connection arm. The method according to claim 1,
The reinforcing rib groove is provided in the L-shaped force receiving plate, and the reinforcing rib groove is formed in a longitudinal reinforcing rib groove provided in a long portion of the L-shaped force receiving plate, And a reinforcing rib groove extending in the horizontal direction. 6. The method according to any one of claims 1 to 5,
And a plurality of stoppers, and a third connecting arm parallel to the base plate, wherein the lower ends of the plurality of stoppers are connected to the pair of L-shaped force receiving plates, respectively, Wherein the first connecting arm extends to a position above a portion to which the first connecting arm is connected and a distance that the contact arm and the second connecting arm move upward and a first end of the third connecting arm is connected to the first connecting arm And the second end of the third connection arm is connected to the contact arm, and the upper end of the stopper extends up to the second end of the third connection arm. The method according to claim 6,
And an upper surface of the stopper is in contact with an upper surface of a second end of the third connection arm. The method according to claim 6,
The vertical portion of the stopper is connected to the upper rim of the elongated portion of the corresponding L-shaped force receiving plate, and the horizontal portion of the stopper is connected to the upper surface of the third connecting arm Impact resistant double channel connector. The method according to claim 6,
Wherein the L-shaped force receiving plate and the corresponding stopper are integrally formed. The method according to claim 1,
And the first end and the second end of the base plate each extend in the longitudinal direction to exceed a length of the L-shaped force receiving plate. The method according to claim 1,
And the first connection arm is a C-shaped, U-shaped, V-shaped, or arch-shaped opening in the longitudinal direction toward one side of the second connection arm. The method according to claim 1,
Wherein the first connection arm has a block notch formed adjacent thereto at a first end thereof and oriented upwardly. 13. The method of claim 12,
Wherein the block notch is an arc type whose opening faces downward. The method according to claim 1,
The second end of the contact arm first extending upwardly with respect to the first end of the contact arm, and then extending downward again. 15. The method of claim 14,
And the second end of the contact arm is deflected in an arc shape. The method according to claim 1,
Wherein the second end of the second connection arm first extends toward the base plate in a downward direction and then is refracted to extend upwardly away from the base plate. 17. The method of claim 16,
And the second end of the second connection arm is deflected in an arc shape. The method according to claim 1,
And the second end of the second connection arm is in constant contact with the base plate. The method according to claim 1,
Wherein the second end of the second connection arm and the base plate are spaced apart from each other and the second end of the second contact arm contacts the base plate only when the contact arm is pressed downward, . The method according to claim 1,
Impact-resistant double-channel connector that is integrally manufactured by bending an elastic metal sheet.

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