CN110854581B - Terminal with a terminal body - Google Patents

Abstract

The invention discloses a terminal, which comprises a first arm; the conducting connection part is formed by bending and extending one end of the first arm, and the conducting connection part is contacted with the first electronic element; the abutting arm is formed by bending and extending from the opposite other end of the first arm towards the guide connection part, and abuts against the guide connection part; the second arm extends from the position between the two opposite ends of the first arm to the direction far away from the guide connection part, and is provided with a contact part which contacts the second electronic element, so that the first arm, the second arm and the abutting arm have good elasticity, are not easy to fatigue and form a plurality of parallel conductive paths, and the performance of signal transmission of the terminal is improved.

Description

Terminal with a terminal body

[ technical field ] A method for producing a semiconductor device

The present invention relates to a terminal, and more particularly, to a terminal electrically connecting a first electronic component and a second electronic component.

[ background of the invention ]

Terminals are widely used in electrical connectors of various electronic devices to electrically connect a first electronic component and a second electronic component. In order to facilitate the transmission of electrical signals during the electrical transmission process, those skilled in the art usually design a plurality of spring arms of the terminal to form a plurality of transmission paths between the first electronic component and the second electronic component to reduce the impedance of the terminal. A terminal of the prior art, the terminal comprising a substrate, the substrate contacting the first electronic component; a first elastic arm is bent and extended upwards from one end of the substrate and towards the other end of the substrate, a first contact part is arranged at the top end of the first elastic arm, and the first contact part is contacted with the second electronic element; a second elastic arm obliquely extends from the first contact part to the substrate, and when the second electronic element is pressed and connected with the first contact part, the second elastic arm is abutted against the substrate; and a third elastic arm obliquely extends upwards from one end of the substrate, the third elastic arm and the first elastic arm extend from the same end of the substrate, the third elastic arm is provided with a second contact part to contact the second electronic element, and the substrate contacts the first electronic element due to the fact that the terminal is provided with the first contact part and the second contact part which are both contacted with the second electronic element and the second elastic arm extending from the first contact part is abutted against the substrate, so that a plurality of conducting paths between the first electronic element and the second electronic element are realized.

However, when the second electronic component is pressed against the first contact portion, the force of the second electronic component acting on the first contact portion acts directly on the second elastic arm, so that the lower end of the second elastic arm abuts against the substrate, and since the first contact portion connecting the first elastic arm and the second elastic arm is pressed by the second electronic component, the opposite end of the first elastic arm is connected to the substrate, and the substrate contacts the first electronic component, the elastic deformation space of the first elastic arm and the second elastic arm is small, the elasticity is poor, and fatigue is easily generated.

Therefore, it is necessary to design a new terminal to overcome the above problems.

[ summary of the invention ]

The invention aims to provide a terminal which is provided with a guide connection part bent and extended at one end of a first arm to contact a first electronic element, a butting arm bent and extended at the opposite end of the first arm to be butted with the guide connection part, and a second arm extended between the opposite ends of the first arm to contact a second electronic element, so that the first arm, the second arm and the butting arm have good elasticity, are not easy to fatigue and are provided with a plurality of conducting paths.

In order to achieve the purpose, the invention adopts the following technical scheme:

a terminal electrically connecting a first electronic component and a second electronic component, comprising: a first arm; the conducting connection part is formed by bending and extending one end of the first arm, and the conducting connection part is contacted with the first electronic element; the abutting arm is formed by bending and extending from the opposite other end of the first arm towards the guide connection part, and abuts against the guide connection part; and the second arm extends from the position between the two opposite ends of the first arm to the direction far away from the guide connection part, and is provided with a contact part which is contacted with the second electronic element.

Further, the first arm comprises a first branch and a second branch which are arranged at intervals, a cross beam is connected with the first branch and the second branch, and the second arm is formed by extending obliquely from one side of the cross beam.

Further, a slot is formed between the first leg and the second leg, one end of the slot extending through the first arm into the lead-in portion and an opposite end of the slot extending to a position at least one-half the length of the abutment arm.

Further, a first included angle is arranged between the first arm and the second arm, the first included angle is arranged in an acute angle mode, a second included angle is arranged between the butting arm and the first arm, the first included angle is larger than the second included angle, a third included angle is arranged between the guiding portion and the first arm, and the second included angle is larger than the third included angle.

Further, when the second electronic component is pressed on the contact portion, the angles of the first included angle, the second included angle and the third included angle are all reduced, and the size relationship among the first included angle, the second included angle and the third included angle is kept unchanged.

Further, when the second electronic component is not pressed in the contact portion, a gap is formed between the abutting arm and the guide portion, when the second electronic component is pressed in the contact portion, the second arm is elastically deformed and drives the first arm to be elastically deformed, and the abutting arm abuts against the guide portion.

Further, the first arm has a first end connected to the connecting portion and a second end connected to the abutting arm, and a vertical distance between the first end and the first electronic component is smaller than a vertical distance between the second end and the first electronic component.

Further, the tilt direction of the second arm is the same as the tilt direction of the first arm.

Further, when the second electronic component is not pressed against the contact portion, the contact arm is abutted against the first position of the guide portion.

Further, when the second electronic component is pressed against the contact portion, the contact arm abuts against a second position of the guide portion, the second position being closer to the center of the guide portion than the first position.

Compared with the prior art, the terminal has the following beneficial effects:

because the second arm is formed by extending from the position between the two opposite ends of the first arm to the direction far away from the guide connection part, when the second electronic element is pressed and connected to the contact part, the force acting on the contact part is transmitted to the first arm through the second arm, and then the force is acted on the abutting arm through the second arm, so that one end of the abutting arm abuts against the guide connection part, the other opposite end of the abutting arm does not directly contact with the second electronic element, and the abutting arm is less stressed and is not easy to fatigue; the force acting on the second arm is transmitted to the guide connection part through the turning of the first arm, one end of the first arm is connected with the guide connection part, and the opposite end of the first arm does not directly contact the second electronic element, so that the first arm and the second arm have large elastic compression amount, good elasticity and low fatigue; and because the abutting arm abuts against the conducting part, two conducting paths which are mutually connected in parallel are sequentially formed between the first electronic component and the second electronic component, namely the contact part, the second arm, the first arm, the conducting part, the contact part, the second arm, the first arm, the abutting arm and the conducting part, so that the impedance of the terminal is reduced, and the signal transmission performance of the terminal is improved.

[ description of the drawings ]

Fig. 1 is an exploded perspective view of a terminal and a first electronic component according to the present invention;

FIG. 2 is a perspective view of the terminal and the first electronic component of the present invention;

FIG. 3 is a front view of the terminal of the present invention shown without contacting a second electronic component;

FIG. 4 is a schematic view of another state of the terminal of the present invention not contacting a second electronic component;

fig. 5 is a front view of the terminal of the present invention contacting a second electronic component;

fig. 6 is a top view of the terminal of the present invention.

Detailed description of the embodiments reference is made to the accompanying drawings in which:

terminal 100 first electronic component 200 second electronic component 300

First arm 1 first end 11 second end 12

First branch 13 and second branch 14 are slotted 15

Through hole 21 of guide part 2 of cross beam 16

Third angle C abuts arm 3 and second angle B

First included angle A contact part 41 of second arm 4

First position P and second position Q

[ detailed description ] embodiments

For a better understanding of the objects, structure, features, and functions of the invention, reference should be made to the drawings and detailed description that follow.

As shown in fig. 1 and 5, the terminal 100 of the present invention is used for electrically connecting a first electronic component 200 and a second electronic component 300, the terminal 100 is formed by stamping a metal plate, and each terminal 100 includes a first arm 1; a lead part 2 bent and extended from the lower end of the first arm 1 contacts the first electronic component 200; a butting arm 3 is bent and extended from the upper end of the first arm 1; a second arm 4 extends upward from the upper end and the lower end of the first arm 1 to contact the second electronic component 300.

As shown in fig. 2, 3 and 6, the first arm 1 has a first end 11 and a second end 12, and the first arm 1 is disposed obliquely such that the first end 11 is located at the bottom end of the first arm 1 and the second end 12 is located at the top end of the first arm 1, i.e. the vertical distance between the first end 11 and the first electronic component 200 is smaller than the vertical distance between the second end 12 and the first electronic component 200, the first arm 1 includes a first branch 13 and a second branch 14 which are disposed at intervals, a slot 15 is formed between the first branch 13 and the second branch 14, the slot 15 completely penetrates through the first arm 1, a beam 16 connects the first branch 13 and the second branch 14, the first branch 13 and the second branch 14 between the beam 16 and the first end 11 are disposed parallel to each other, the first branch 13 and the second branch 14, which are located between the cross member 16 and the second end 12, are close to each other in a direction away from the cross member 16, so that the width of the upper half of the first arm 1 is gradually narrowed, increasing the elasticity of the first arm 1.

As shown in fig. 1 and 3, the guiding portion 2 is formed by bending the first end 11 through a 180 ° semicircular arc and extending horizontally, so that a third included angle C is formed between the guiding portion 2 and the first arm 1, the third included angle C is an acute angle, and the lower end of the slot 15 extends downward from the first end 11 until entering the horizontal portion of the guiding portion 2, which increases the flexibility of the connection between the guiding portion 2 and the first arm 1, so that the elasticity of the first arm 1 is better, in this embodiment, the guiding portion 2 is welded to the first electronic component 200, and the plurality of through holes 21 penetrate the guiding portion 2 up and down, the plurality of through holes 21 can accommodate excess tin during welding, so as to prevent tin-climbing, and the tin reaches the upper surface of the guiding portion 2 from the lower surface of the guiding portion 2 through the through holes 21, so as to ensure that the welding of the guiding portion 2 is firmer (in other embodiments, the conductive portion 2 may not be soldered to the first electronic element 200, and the conductive portion 2 directly contacts the conductive pad on the first electronic element 200), and in this embodiment, the first electronic element 200 is a circuit board, the first electronic element 200 is used as a carrier to carry a plurality of the terminals 100 to be mounted on a motherboard (not shown) of a machine (in other embodiments, the first electronic element 200 may also be a motherboard on a machine, and the terminals 100 are assembled in an insulating body (not shown), and the terminals 100 are mounted on the first electronic element 200 through the insulating body).

As shown in fig. 2 and 3, the abutting arm 3 is formed by bending downward and inward from the second end 12, so that a second included angle B is formed between the abutting arm 3 and the first arm 1, the second included angle B is an acute angle, so that the abutting arm 3 is formed by bending inward from the first arm 1, and is not bent in a direction away from the first arm 1, the overall length of the terminal 100 can be reduced, and thus more dense arrangement is achieved, and the second included angle B is greater than the third included angle C; the upper end of the slot 15 extends downwards from the second end 12 to a position where the abutting arm 3 is at least half of the length, the length of the slot 15 is extended, the width of the metal plate on the two sides of the slot 15 of the abutting arm 3 is narrowed, the elasticity of the abutting arm 3 is increased, and the slot 15 is formed in the first arm 1 and the abutting arm 3, so that the first arm 1 and the abutting arm 3 form two channels on the two opposite sides of the slot 15, and the sensitivity of the terminal 100 is reduced; in this embodiment, when the second arm 4 does not contact the second electronic component 300, the abutting arm 3 does not contact the guiding portion 2, that is, a gap is formed between the lower end of the abutting arm 3 and the guiding portion 2.

As shown in fig. 2 and 3, the second arm 4 is formed by extending obliquely upward from one side of the cross member 16, the direction of inclination of the second arm 4 is the same as the direction of inclination of the first arm 1, ensuring that the second arm 4 transmits sufficient force to the first arm 1, so that the first arm 1 drives the abutting arm 3 to contact the guiding part 2, a first included angle A is formed between the second arm 4 and the first arm 1, the first included angle A is an acute angle, and the first included angle A is larger than the second included angle B, under the condition of ensuring that the abutting arm 3 has better elasticity, the guide part 2 can not generate larger reverse abutting force to the abutting arm 3, the first included angle A is larger than the second included angle B, the second included angle B is larger than the third included angle C, the height of the terminal 100 is also reduced while ensuring the overall elasticity of the terminal 100.

As shown in fig. 3 and 5, the second arm 4 has a contact portion 41 contacting the second electronic component 300, when the second electronic component 300 is pressed against the contact portion 41, the second arm 4 is elastically deformed by a force and further drives the first arm 1 to elastically deform, so that the first arm 1 moves downward, the first arm 1 drives the abutting arm 3 to abut against the guiding portion 2, and two parallel conductive paths of the contact portion 41, the second arm 4, the first arm 1, the guiding portion 2, the contact portion 41, the second arm 4, the first arm 1, the abutting arm 3, and the guiding portion 2 are sequentially formed between the first electronic component 200 and the second electronic component 300, so that the impedance of the terminal 100 is reduced; when the second electronic component 300 is pressed against the contact portion 41, the first, second and third included angles a, B and C are all reduced relative to the angles of the second electronic component 300 not pressed against the contact portion 41 due to the extrusion deformation of the first, second and third arms 1, 4 and 3, and the size relationship between the first included angle a and the second included angle B is still maintained to be larger than the second included angle B, and the second included angle B is larger than the third included angle C, so that the size relationship between the parts of the terminal 100 before and after being pressed is not changed, which is beneficial to the terminal 100 returning to the original state after being used, and increasing the service life of the terminal 100.

As shown in fig. 4 and 5, in another state of the terminal 100 of the present invention, when the second electronic component 300 is not pressed against the contact portion 41, the contact arm 3 contacts the first position P of the guide portion 2, when the second electronic component 300 is pressed against the contact portion 41, the contact arm 3 contacts the second position Q of the guide portion 2, the second position Q is closer to the center of the guide portion 2 than the first position P, and the contact arm 3 slides from the first position P to the second position Q, so as to ensure stable contact between the contact arm 3 and the guide portion 2.

In summary, the terminal 100 of the present invention has the following beneficial effects:

(1) since the second arm 4 is formed by extending from between two opposite ends of the first arm 1 toward a direction away from the guide portion 2, when the second electronic component 300 is pressed against the contact portion 41, a force acting on the contact portion 41 is transmitted to the first arm 1 through the second arm 4, and then a force acts on the contact arm 3 through the second arm 4, so that one end of the contact arm 3 is in contact with the guide portion 2, and the other opposite end of the contact arm 3 is not in direct contact with the second electronic component 300, and the contact arm 3 is less stressed and less prone to fatigue; and, the force acting on the second arm 4 is transmitted to the conductive connection part 2 only through the turning of the first arm 1, one end of the first arm 1 is connected to the conductive connection part 2, and the opposite end of the first arm 1 does not directly contact the second electronic component 300, so that the first arm 1 and the second arm 4 have a large elastic compression amount, and are good in elasticity and not easy to fatigue.

(2) Since the abutting arm 3 abuts against the conductive connection part 2, two conductive paths connected in parallel with each other are sequentially formed between the first electronic component 200 and the second electronic component 300, namely, the contact part 41, the second arm 4, the first arm 1, the conductive connection part 2, the contact part 41, the second arm 4, the first arm 1, the abutting arm 3 and the conductive connection part 2, so that the impedance of the terminal 100 is reduced, and the signal transmission performance of the terminal 100 is improved.

(3) The first arm 1 includes the first branch 13 and the second branch 14 which are arranged at intervals, and the slot 15 is formed between the first branch 13 and the second branch 14, so that under the condition that the overall width of the first arm 1 is unchanged, the first arm 1 is provided with the first branch 13 and the second branch 14 which have narrower widths, so that the flexibility of the first arm 1 is better, and meanwhile, a plurality of conductive paths which are connected in parallel with each other can be separated from the first arm 1, so that the inductance of the terminal 100 is reduced.

(4) One end of the slot 15 extends through the first arm 1 into the guiding part 2, the other opposite end of the slot 15 extends to a position at least one-half of the length of the abutting arm 3, the length of the slot 15 is extended at two ends, the elasticity of the first arm 1 is increased, the width of the abutting arm 3 at two sides of the slot 15 is narrowed relative to the width of the abutting arm 3 at other positions, the elasticity of the abutting arm 3 is increased, and the slots 15 are arranged on the first arm 1 and the abutting arm 3, so that the first arm 1 and the abutting arm 3 form two channels at two opposite sides of the slot 15, and the sensitivity of the terminal 100 is reduced.

(5) The first included angle a is arranged in an acute angle, and the first included angle a is larger than the second included angle B, under the condition that the abutting arm 3 is ensured to be better elastic, the guide connection part 2 cannot generate larger reverse abutting force on the abutting arm 3, and the second included angle B is an acute angle, so that the abutting arm 3 is formed by inwards reversely folding from the first arm 1 and is not bent towards the direction far away from the first arm 1, the overall length of the terminal 100 can be reduced, and more intensive arrangement is realized; first contained angle A is greater than second contained angle B, second contained angle B is greater than third contained angle C is guaranteeing also reduce under the whole elastic condition of terminal 100 the height of terminal 100.

(6) When the second electronic component 300 is crimped on the contact portion 41, the angles of the first included angle a, the second included angle B and the third included angle C are all reduced, the first included angle a is larger than the second included angle B, the second included angle B is larger than the third included angle C, and the size relationship between the parts of the terminal 100 before and after being pressed is not changed, so that the terminal 100 is favorable for recovering to the original state after being used, and the service life of the terminal 100 is prolonged.

(7) The vertical distance between the first end 11 and the first electronic element 200 is smaller than the vertical distance between the second end 12 and the first electronic element 200, so that the first arm 1 is obliquely arranged relative to the first electronic element 200, and the abutting arm 3 can be bent from the second end 12 which is far away to contact with the guide part 2 which is near to the abutting arm, the length of the abutting arm 3 is increased, a larger deformation space is provided for the abutting arm 3, and the elasticity of the abutting arm 3 is better.

(8) The inclination direction of the second arm 4 is the same as that of the first arm 1, so that the second arm 4 can transmit enough force to the first arm 1, and the first arm 1 can drive the abutting arm 3 to contact the guide part 2.

(9) When the second electronic component 300 is not pressed against the contact portion 41, the contact arm 3 abuts against the first position P of the guide portion 2, the contact arm 3 slides from the first position P to the second position Q during the pressing of the second electronic component 300 against the contact portion 41, and the second position Q is closer to the center of the guide portion 2 than the first position P, so that the contact arm 3 is stably contacted with the guide portion 2.

The above detailed description is only for the purpose of illustrating the preferred embodiments of the present invention, and not for the purpose of limiting the scope of the present invention, therefore, all technical changes that can be made by applying the present specification and the drawings are included in the scope of the present invention.

Claims (9)

1. A terminal electrically connecting a first electronic component and a second electronic component, comprising:

a first arm;

the conducting connection part is formed by bending and extending one end of the first arm, and the conducting connection part is contacted with the first electronic element;

the abutting arm is formed by bending and extending from the opposite other end of the first arm towards the guide connection part, and abuts against the guide connection part;

the second arm extends towards the direction far away from the guide connection part from between the two opposite ends of the first arm to form, the second arm is provided with a contact part, the contact part contacts the second electronic element, the first arm comprises a first branch and a second branch which are arranged at intervals, a cross beam is connected with the first branch and the second branch, and the second arm extends from one side of the cross beam in an inclined mode.

2. The terminal of claim 1, wherein: a slot is formed between the first leg and the second leg, one end of the slot extending through the first arm into the lead-in portion and an opposite end of the slot extending to a position at least one-half the length of the abutment arm.

3. The terminal of claim 1, wherein: the first arm and the second arm have a first contained angle therebetween, first contained angle is the acute angle setting, the butt joint arm with a second contained angle has between the first arm, first contained angle is greater than the second contained angle, just the guide connection portion with a third contained angle has between the first arm, the second contained angle is greater than the third contained angle.

4. The terminal of claim 3, wherein: when the second electronic element is pressed on the contact part, the angles of the first included angle, the second included angle and the third included angle are all reduced, and the size relation among the first included angle, the second included angle and the third included angle is kept unchanged.

5. The terminal of claim 1, wherein: when the second electronic component is not pressed and connected to the contact portion, a gap is formed between the abutting arm and the guide connection portion, when the second electronic component is pressed and connected to the contact portion, the second arm elastically deforms and drives the first arm to elastically deform, and the abutting arm abuts against the guide connection portion.

6. The terminal of claim 1, wherein: the first arm is provided with a first end connected with the guide connection part and a second end connected with the abutting arm, and the vertical distance between the first end and the first electronic element is smaller than that between the second end and the first electronic element.

7. The terminal of claim 1, wherein: the second arm is inclined in the same direction as the first arm.

8. The terminal of claim 1, wherein: when the second electronic component is not pressed on the contact part, the abutting arm abuts against the first position of the guide part.

9. The terminal of claim 8, wherein: when the second electronic component is pressed on the contact part, the abutting arm abuts against a second position of the guide part, and the second position is closer to the center of the guide part than the first position.

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