CN112382865A - Wiring terminal and electric connector - Google Patents

Abstract

The invention relates to a wiring terminal and an electric connector with high space utilization rate, wherein the wiring terminal comprises an insulating shell, a cover plate, an operating part, an electric conductor and an elastic clamping part, wherein the insulating shell is provided with a wiring hole and a top opening; when the second end of the operating element rotates due to the fact that the operating element is pressed downwards, the second end presses the elastic free portion of the elastic clamping element, and a gap for a lead to pass through is formed between the elastic free portion and the electric conductor. Because of the operating parts establish in the electric conductor top and can rotate relative insulating housing to and the operating parts has sufficient intensity, need not prolong the second end length of operating parts just can laborsaving roof pressure elasticity clamping piece, conveniently insert or take out the wire and avoid the operating parts problem that does not kick-back to appear.

Description

Wiring terminal and electric connector

Technical Field

The invention relates to the field of wiring terminals, in particular to a wiring terminal and an electric connector which are high in space utilization rate and convenient for wiring and wire taking operations.

Background

The existing electric connector is at least provided with a wiring terminal, the wiring terminal comprises an insulating shell and a cover plate which are assembled together, a wiring hole for inserting a wire is arranged on the insulating shell, a conductive body is arranged on the insulating shell, a clamping elastic sheet is also arranged in a space formed after the insulating shell and the cover plate are assembled, and the clamping elastic sheet is provided with a fixed end part fixed on the conductive body and a free end part which can generate elastic deformation movement after being pressed. When the wiring is required to be connected in the wiring terminal, an external tool is utilized to apply downward force to the clamping elastic sheet in a direct or indirect mode, the free end part of the clamping elastic sheet is elastically deformed after being stressed to move downwards, then the wire penetrates through the wiring hole of the insulating shell, the wire penetrates through a gap which is formed by the downward movement of the clamping elastic sheet and is positioned between the free end part of the clamping elastic sheet and the electric conductor, after the downward force applied to the clamping elastic sheet is relieved, the clamping elastic sheet moves upwards under the action of the elastic restoring force of the clamping elastic sheet, and the electric conductor is clamped, so that the electric contact between the electric conductor and the electric conductor is realized.

Chinese patent CN100442600C discloses a connecting device for electrical conductors, which has a clamping portion, at which a clamping spring is arranged, which is enclosed in an insulating material housing directly or via a metal holder, the clamping spring being designed to press a conductor against a contact rail in the connected state, wherein the clamping spring is provided with an operating device designed to operate a push-out piece for operating the clamping spring to open the clamping portion, characterized in that: the operating ejector is provided on its outer surface with at least two mating areas for mating with an operating tool, the two mating areas being designed for mating with a notched groove of a screwdriver, the mating areas being arranged at an angle to each other on the operating ejector, the two notched grooves being arranged at an angle of 60-120 ° to each other on the operating ejector. The provision of the actuating push-out piece in a rotatable manner makes it particularly suitable for the actuation of a direct plug connection in a narrow position, since the actuating tool can be coupled to the actuating push-out piece in different positions and different directions in order to open the clamping spring, so that the actuating push-out piece is particularly suitable for opening the spring which acts as a compression spring on the conductor and presses it against a contact rail at the clamping point, in particular in the region of the actuating push-out piece in which the two coupling areas for the actuating tool are angled relative to one another and/or in the region of the actuating push-out piece in which they are angled relative to one another.

However, the connection device disclosed in patent CN100442600C also has some problems: in the insulating material casing with limited inner space, because the operation ejector and the clamping spring are arranged on the same side of the insulating material casing, when the operation ejector ejects the free end part of the clamping spring so as to facilitate the lead to be connected into the insulating material casing or to be taken out from the insulating material casing, the operation ejector is required to have enough length so as to ensure that the operation ejector can eject the free end part of the clamping spring. Obviously, the operation ejector at this time needs to occupy a larger space in the insulating material housing, which reduces the space utilization rate in the insulating material housing, and finally, the actual need of the operation ejector for ejecting the clamping spring can be met only by increasing the whole volume of the insulating material housing.

Disclosure of Invention

The first technical problem to be solved by the present invention is to provide a connection terminal convenient for connection and wire-taking operations in view of the above prior art.

A second technical problem to be solved by the present invention is to provide an electrical connector according to the above prior art.

The technical scheme adopted by the invention for solving the first technical problem is as follows: a terminal, comprising:

an insulating case having a wiring hole;

the cover plate is matched and assembled with the insulating shell;

the operating piece is arranged on the insulating shell;

the electric conductor is arranged in a space formed after the insulating shell and the cover plate are assembled;

the elastic clamping piece is arranged in a space formed after the insulating shell and the cover plate are assembled, the elastic clamping piece is provided with a fixing part and an elastic free part, and the fixing part is arranged in the insulating shell;

the operating device is characterized in that the insulating shell is provided with a top opening, the first end part of the operating device is rotatably arranged on the insulating shell and is positioned above the electric conductor, and the second end part of the operating device is movably positioned in the top opening; when the second end of the operating element rotates due to the fact that the operating element is pressed downwards, the second end presses the elastic free portion of the elastic clamping element, and therefore a gap for the conducting wire to pass through is formed between the elastic free portion and the electric conductor.

When the wire needs to be taken out or accessed through the wiring hole of the wiring terminal, the first end of the operating piece can rotate relative to the insulating shell by applying pressure on the second end of the operating piece, the second end of the operating piece can move towards the inner side of the insulating shell in the top opening of the insulating shell until the second end of the operating piece is pressed against the elastic free part of the elastic clamping piece and the elastic free part moves downwards, a gap for the conductive wire to pass through is formed between the elastic free part and the electric conductor, and therefore the wire which is originally accessed into the insulating shell can be conveniently taken out or the external wire can be accessed into the inner side of the insulating shell through the wiring hole of the insulating shell; under the action of the elastic restoring force of the elastic clamping piece, the accessed lead is clamped between the elastic free part of the elastic clamping piece and the electric conductor, and the electric contact between the lead and the electric conductor is realized. Because the operating part is arranged above the electric conductor, and the operating part can rotate relative to the insulating shell, the second end part of the operating part presses the elastic free part of the elastic clamping part, so that the elastic free part of the elastic clamping part can be easily pressed in a labor-saving manner without prolonging the length of the second end part of the operating part, and a lead can be conveniently connected or taken out.

In order to limit the extent of the elastic deformation of the elastic clamping member caused by the pressing, and to avoid the elastic clamping member from being pressed excessively, thereby maintaining the elastic strength of the elastic clamping member, it is improved that, in the terminal, a limiting structure for limiting the movement stroke of the elastic free portion of the elastic clamping member is formed on the electrical conductor. Therefore, when the elastic free part of the elastic clamping piece is elastically deformed due to the jacking of the second end part of the operating piece and moves downwards towards the direction of the fixing part of the operating piece, once the elastic free part abuts against the limited structure on the electric conductor, the elastic free part can not be pressed downwards any more, so that the maximum downwards moving stroke of the elastic free part which can be reached when the elastic clamping piece is elastically deformed is limited at the limited structure, the elastic free part of the elastic clamping piece is prevented from being excessively jacked, the elastic strength of the elastic clamping piece is kept, excessive elastic deformation is avoided, and the service life of the elastic clamping piece is prolonged.

In order to achieve the rotatable arrangement of the first end portion of the operating element on the insulating housing, the terminal according to the present invention includes:

an operating element body in which a first end portion of the operating element is formed;

at least one extension arm formed on the operating element body, wherein the tail end of the extension arm is the second end part of the operating element;

the first end of the operating piece is provided with a rotating shaft, and a rotating shaft hole matched with the rotating shaft to rotate is formed in the insulating shell.

In order to facilitate the electric testing tool to electrically test the electric conductor, the terminal is further improved in that the operating member has an opening opposite to the top opening of the insulating shell, so that the electric testing tool can be inserted into the opening of the operating member and then contact the electric conductor to complete the electric testing action.

As another way of achieving the rotation of the first end portion of the operating element on the insulating housing, the insulating housing may further have a pin shaft, and the first end portion of the operating element has a pin shaft hole adapted to the pin shaft for rotation. Namely, the rotating setting effect of the operating part on the insulating shell is realized through the rotating fit between the pin shaft and the pin shaft hole.

Still further, in the connection terminal of the invention, the electric conductor includes:

and the electric conductor body is formed with a bevel edge, and the bevel edge is the limiting structure.

The first fixing part is formed on the electric conductor body and is positioned below the first end part of the operating piece;

and the second fixing part is formed on the electric conductor body, and the fixing part of the elastic clamping piece is arranged on the second fixing part.

In order to fix the electric conductor on the insulating shell conveniently, in the wiring terminal of the invention, a fixing hole is formed on the electric conductor body, and a first fixing column tightly matched with the fixing hole is formed on the insulating shell.

In order to conveniently fix the elastic clamping piece in a space formed after the insulating shell and the cover plate are assembled, in the wiring terminal, the fixing part of the elastic clamping piece and the electric conductor are fixed together through a concave-convex structure which is tightly matched with each other.

The technical scheme adopted by the invention for solving the second technical problem is as follows: an electrical connector characterized by having at least one of the connection terminals.

Compared with the prior art, the invention has the advantages that: when the wire needs to be taken out or accessed through the wiring hole of the wiring terminal, the first end of the operating piece can rotate relative to the insulating shell by applying pressure on the second end of the operating piece, the second end of the operating piece can move towards the inner side of the insulating shell in the top opening of the insulating shell until the second end of the operating piece is pressed against the elastic free part of the elastic clamping piece and the elastic free part moves downwards, a gap for the conductive wire to pass through is formed between the elastic free part and the electric conductor, and therefore the wire which is originally accessed into the insulating shell can be conveniently taken out or the external wire can be accessed into the inner side of the insulating shell through the wiring hole of the insulating shell; under the action of the elastic restoring force of the elastic clamping piece, the accessed lead is clamped between the elastic free part of the elastic clamping piece and the electric conductor, and the electric contact between the lead and the electric conductor is realized. Because the operating parts has set up the top at the electric conductor, and the operating parts can rotate relative insulating housing, and then the elasticity free portion by the second tip roof pressure elastic clamping piece of this operating parts, this binding post is suitable for in compact or the limited place in space like this, and the operating parts is small, there is sufficient intensity, and the elasticity free portion that just can easily roof pressure elastic clamping piece laborsavingly need not prolong the second tip length of operating parts, in order to make things convenient for the access wire or take out the wire, also can avoid the operating parts problem of not kick-backing to appear.

Drawings

Fig. 1 is a schematic structural view of a connection terminal according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the connection terminal shown in fig. 1 with a cover plate removed;

FIG. 3 is a front view of the structure shown in FIG. 2;

fig. 4 is an exploded view of the terminal shown in fig. 1;

FIG. 5 is a schematic view of an insulating housing according to an embodiment of the present invention;

FIG. 6 is a schematic view of an operating member according to an embodiment of the present invention;

FIG. 7 is a schematic view of an electrical conductor configuration in an embodiment of the present invention;

FIG. 8 is a schematic diagram of a spring clamp according to an embodiment of the present invention;

fig. 9 is a schematic view showing a state in which an operating member of the connection terminal presses against an elastic free portion of the elastic clamping member in the embodiment of the present invention;

fig. 10 is a schematic structural diagram of an electrical connector according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 4, the present embodiment provides a connection terminal, which includes an insulating housing 1, a cover plate 2, an operating element 3, an electrical conductor 4, and a resilient clamping element 5, wherein the cover plate 2 is assembled with the insulating housing 1 in a matching manner through a detachable structure, the operating element 3 is disposed on the insulating housing 1, and the electrical conductor 4 and the resilient clamping element 5 are both disposed in a space formed after the insulating housing 1 and the cover plate 2 are assembled. Wherein:

referring to fig. 5, the insulating housing 1 of this embodiment has a wiring hole 10, a top opening 11, a rotation shaft hole 12, a first fixing column 13, and a second fixing column 14, the top opening 11 being located at an upper end of the insulating housing.

Referring to fig. 6, the operating member 3 of this embodiment comprises an operating member body 33 and at least one extension arm 34, wherein the operating member body 33 has an opening 35 opposite to the top opening 11 of the insulating housing 1, so that an electrical test tool can contact the electrical conductor 4 after being inserted into the opening 35 of the operating member to complete the electrical test; the operating element body 33 is formed with a first end portion 31, the first end portion 31 is positioned above the electric conductor 4, an extension arm 34 is formed on the operating element body 33, a tip of the extension arm 34 forms a second end portion 32 of the operating element 3, and the first end portion 31 of the operating element 3 has a rotating shaft 311 fitted in the rotating shaft hole 12 to rotate in the rotating shaft hole 12. The first end 31 of the operating element 3 can be rotatably disposed on the insulating housing 1 by the cooperation between the rotating shaft 311 and the rotating shaft hole 12, and the second end 32 of the operating element 3 can be movably disposed in the top opening 11 of the insulating housing 1, i.e. the second end 32 can rotate around the rotating shaft 311.

Referring to fig. 7, the electric conductor 4 of this embodiment includes an electric conductor body 40, a first fixing portion 41 and a second fixing portion 42, a fixing hole 400 and an inclined edge 401 are formed on the electric conductor body 40, the first fixing post 13 passes through the fixing hole 400 and realizes a fastening fit between the first fixing post 13 and the fixing hole 400, and the inclined edge 401 is a limiting structure for limiting the moving stroke of the elastic free portion 52 of the elastic clamping member 5; the first fixing portion 41 is formed on the electrical conductor body 40, and the first fixing portion 41 is located below the first end portion 31 of the operating element 3; the second fixing portion 42 is formed on the electrical conductor body 40, and the fixing portion 51 of the elastic clamp 5 is provided on the second fixing portion 42. Wherein the electrical conductor 4 is directly installed in a space formed after the insulating housing 1 and the cover plate 2 are assembled.

Referring to fig. 8, the elastic clamping member 5 of this embodiment has a fixed portion 51, an elastic free portion 52, and an arc-shaped engaging portion 53 between the elastic free portion 52 and the fixed portion 51, the fixed portion 51 is disposed on the second fixed portion 42 of the electrical conductor 4, and the elastic free portion 52 abuts against the first fixed portion 41 of the electrical conductor 4 without being pressed. The fixing part 51 of the elastic clamping piece 5 and the electric conductor 4 are fixed together through a concave-convex structure which is tightly matched with each other, and an arc-shaped joint part 53 is tightly fixed on the second fixing column 14. When the second end portion 32 of the operating element 3 rotates due to the operating element being pressed by a downward force, the extension arm 34 of the second end portion 32 presses against the elastic free portion 52 of the elastic clamping member 5, so that a gap for passing a conductive wire is formed between the elastic free portion 52 and the electrical conductor 4.

Referring to fig. 2, 3 and 9, when a wire needs to be taken out or accessed through the wiring hole 10 of the terminal, the first end 31 of the operating element 3 rotates relative to the insulating housing 1 by applying pressure to the second end 32 of the operating element 3, and the second end 32 of the operating element 3 moves in the top opening 11 of the insulating housing 1 toward the inside of the insulating housing 1 until the extension arm 34 of the second end 32 of the operating element 3 presses against the elastic free portion 52 of the elastic clamping element 5 and moves the elastic free portion 52 downward, a gap for the wire to pass through is formed between the elastic free portion 52 and the electrical conductor 4, so that the wire which is originally accessed into the insulating housing can be taken out or an external wire can be accessed into the inside of the insulating housing conveniently; under the action of the elastic restoring force of the elastic clamping piece 5, the accessed wire is clamped between the elastic free part 52 of the elastic clamping piece 5 and the electric conductor 4, and the electric contact between the wire and the electric conductor is realized. In the binding post of this embodiment, because operating part 3 has set up the top at electric conductor 4, and operating part 3 can rotate relative insulating housing 1, and then by the second tip 32 roof pressure elasticity free portion 52 of elastic clamping piece 5 of this operating part 3, this binding post is suitable for compact or the limited place in space like this, and the operating part is small, there is sufficient intensity, and need not prolong the second tip length of operating part and just can easily roof pressure elasticity free portion of elastic clamping piece laborsavingly, in order to insert the wire or take out the wire, also can avoid the operating part problem that does not kick-back.

It should be noted that, in this embodiment, by providing the beveled edge 401 on the electrical conductor 4, when the elastic free portion 52 of the elastic clamping member 5 is elastically deformed by being pressed by the extension arm 34 of the second end portion 32 of the operating element 3 and moves downward toward the fixed portion 51 thereof, once the elastic free portion 52 abuts against the beveled edge 401 (i.e., the limited structure), the elastic free portion 52 cannot be pressed downward any more, so as to ensure that the maximum downward movement stroke of the elastic free portion 52, which can be achieved when the elastic clamping member is elastically deformed, is limited at the beveled edge 401 of the electrical conductor 4, and avoid that the elastic free portion of the elastic clamping member is excessively pressed, so that the elastic strength of the elastic clamping member is maintained, excessive elastic deformation is not generated, and the service life of the elastic clamping member is prolonged.

According to the actual situation, another structure can be adopted to realize the rotating setting effect of the first end part of the operating part on the insulating shell. For example, the insulating housing 1 may have a pin, and the first end 31 of the operating element 3 may have a pin hole adapted to rotate the pin. Therefore, when pressure is applied to the second end part of the operating element, the first end part of the operating element rotates under the matching action of the pin shaft hole and the pin shaft, and the rotating setting effect of the operating element relative to the insulating shell is also realized.

Referring to fig. 10, this embodiment also provides an electrical connector. Wherein the electrical connector has two terminals in this embodiment.

Claims (9)

1. A terminal, comprising:

an insulating case (1) having a wiring hole (10);

the cover plate (2) is matched and assembled with the insulating shell (1);

an operating element (3) provided on the insulating housing (1);

the electric conductor (4) is arranged in a space formed after the insulating shell (1) and the cover plate (2) are assembled;

the elastic clamping piece (5) is arranged in a space formed after the insulating shell (1) and the cover plate (2) are assembled, the elastic clamping piece (5) is provided with a fixing part (51) and an elastic free part (52), and the fixing part (51) is arranged in the insulating shell (1);

characterized in that the insulating housing (1) has a top opening (11), the first end (31) of the operating element (3) is rotatably arranged on the insulating housing (1) and the first end (31) is located above the electrical conductor (4), and the second end (32) of the operating element (3) is movably located in the top opening (11); when the second end part (32) of the operating element (3) rotates due to the fact that the operating element is pressed downwards, the second end part (32) presses against the elastic free part (52) of the elastic clamping piece (5), and a gap for a conducting wire to pass through is formed between the elastic free part (52) and the electric conductor (4).

2. A terminal block according to claim 1, characterised in that the electrical conductor (4) is formed with a limiting structure defining the travel of the resilient free portion (52) of the resilient clamping member (5).

3. A terminal according to claim 1, characterised in that the operating member (3) comprises:

an operation element body (33) in which a first end portion (31) of the operation element (3) is formed;

at least one extension arm (34) formed on the operating member body (33), the end of the extension arm (34) being the second end (32) of the operating member (3);

the first end portion (31) of the operating piece (3) is provided with a rotating shaft (311), and a rotating shaft hole (12) which is matched with the rotating shaft (311) to rotate is formed in the insulating shell (1).

4. A terminal block according to claim 3, characterised in that the operating member (3) has an opening (35) arranged opposite the top opening (10) of the insulating housing (1).

5. The connecting terminal as claimed in claim 1, wherein the insulating housing has a pin, and the first end portion of the operating member has a pin hole adapted to rotate the pin.

6. A terminal according to claim 2, characterized in that the electrical conductor (4) comprises:

and the electric conductor body (40) is formed with a bevel edge (401), and the bevel edge (401) is the limiting structure.

A first fixing portion (41) formed on the electric conductor body (40), the first fixing portion (41) being located below the first end portion (31) of the operation element (3);

and a second fixing portion (42) formed on the electric conductor body (40), wherein the fixing portion (51) of the elastic clamp (5) is provided on the second fixing portion (42).

7. A terminal block according to claim 6, wherein a fixing hole (400) is formed in the electric conductor body (40), and a first fixing post (13) is formed in the insulating housing (1) to be tightly fitted in the fixing hole (400).

8. A terminal according to any one of claims 1 to 7, wherein an arc-shaped engaging portion (53) is formed on the resilient clamp (5) between the resilient free portion (52) and the fixed portion (51), and a second fixing post (14) is formed on the insulating housing (1) to be fixed in cooperation with the arc-shaped engaging portion (53).

9. An electrical connector comprising at least one terminal according to any one of claims 1 to 8.

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