CN219643167U - Multi-path electric connector - Google Patents

Abstract

The utility model relates to the technical field of electric connectors, and particularly provides a multipath electric connector which comprises an insulating shell, a spring piece part, a conductive piece and an insulating supporting part, wherein the spring piece part and the conductive piece are arranged in the insulating shell, the spring piece part comprises a spring piece and a connecting plate, the spring piece comprises fixing arms and elastic arms which are integrally bent and formed, at least two spring pieces are arranged, the connecting plate is arranged between the fixing arms of the two spring pieces, so that the two spring pieces are arranged in parallel and a gap is formed between the two spring pieces; wherein, the shell fragment part is including setting up two spring leaf at least, and two spring leaves pass through the connecting plate and connect, and this structure can install a plurality of spring leaves simultaneously through installing a shell fragment part, and this has avoided every spring leaf to install the trouble that brings alone in multichannel electric connector's production equipment process, improves installation convenience and work efficiency.

Description

Multi-path electric connector

Technical Field

The utility model relates to the technical field of electric connectors, in particular to a multipath electric connector.

Background

The electric connector can rapidly realize connection of wires, circuit boards and circuit boards, is an indispensable component in electronic equipment, has wider and wider application field, has various forms and structures, and has various different structural forms along with different application objects, frequencies, power, application environments and the like.

In the prior art, a multi-path electric connector exists, however, a plurality of clamping springs for connecting a plurality of conductors are generally arranged in a shell of the multi-path electric connector, each clamping spring is independently arranged, so that the multi-path electric connector has low efficiency in production and assembly and inconvenient installation, the production cost of the multi-path electric connector is high, and an unstable phenomenon exists when a single clamping spring is installed in the shell; in addition, the key is easy to have the problem of position deviation when pushing the elastic arm of the clamping spring, which can lead to the phenomenon that the key is askew and is blocked, thereby reducing the service life.

Disclosure of Invention

The utility model aims to solve the problems that each clamping spring in the shell of the existing multi-path electric connector is independently arranged, so that the multi-path electric connector is low in efficiency and inconvenient to install in production and assembly, and the production cost of the multi-path electric connector is high.

In order to solve the problems, the utility model provides the following technical scheme:

the utility model provides a multichannel electric connector, includes insulating housing, shell fragment part, electrically conductive piece and insulating supporting part, the shell fragment part with electrically conductive piece all set up in the insulating housing, the shell fragment part includes spring leaf and connecting plate, the spring leaf includes the fixed arm and the elastic arm of integrated into one piece bending shaping, the spring leaf is provided with two at least, the connecting plate is used for setting up two between the fixed arm of spring leaf to make two the spring leaf juxtaposing and have the interval space between two the spring leaf;

the conductive piece comprises a conductive spring seat, the fixed arm of the elastic piece component is used for being connected with one side wall of the conductive spring seat, and the elastic arm of the elastic piece component is used for being elastically contacted with the other side wall of the conductive spring seat;

the insulating supporting portion is arranged on the conductive spring seat, the insulating supporting portion comprises a positioning portion and two supporting tables, the supporting tables are located on two sides of the positioning portion, and the two supporting tables are respectively used for supporting the two spring pieces of the elastic piece component, so that part of the positioning portion is located in the interval gap.

Compared with the prior art, the multipath electric connector provided by the utility model has the following beneficial effects:

the insulating shell provides a carrier for the part equipment, the spring piece parts comprise at least two spring pieces, the two spring pieces are connected through the connecting plate, and the structure can simultaneously install a plurality of spring pieces by installing one spring piece part, so that the trouble caused by independent installation of each spring piece is avoided in the production and assembly process of the multi-channel electric connector, the installation convenience and the working efficiency are improved, the plurality of spring pieces are connected through the connecting plate, and compared with the single spring piece, the stability of the integral installation of the spring piece part in the insulating shell is also improved; the insulating supporting part supports the elastic piece part on the conductive spring seat, so that the fixed arm of the elastic piece part is used for being connected with one side wall of the conductive spring seat, and the elastic arm of the elastic piece part is used for being elastically contacted with the other side wall of the conductive spring seat; the supporting table supports the spring piece and plays a main supporting role, and the positioning part and the interval clearance are matched and play a main positioning role, so that the production efficiency is further improved.

Preferably, the side walls of the positioning parts facing the two supporting tables are respectively provided with a limiting groove;

the multi-path electric connector further comprises a key, wherein the key is movably arranged on the insulating shell and faces the elastic arm, and at least one side of the key is aligned with the limit groove and moves along the limit groove.

Preferably, the spring piece further comprises an arc-shaped connecting plate, wherein the arc-shaped connecting plate is used for connecting the elastic arm and the fixed arm;

the insulation supporting part further comprises a supporting column and an auxiliary protrusion, the supporting column is arranged at the vertical top end of the supporting table, the auxiliary protrusion is used for being arranged on the axial side wall of the supporting column and located at the vertical top end of the supporting column, and the arc-shaped connecting plate at least partially surrounds the auxiliary protrusion or is arranged on the auxiliary protrusion.

Preferably, the lower end of the positioning part is provided with a positioning foot;

the lower extreme of connecting plate is provided with the constant head tank, the locating foot be used for with the constant head tank looks joint.

Preferably, the conductive member further comprises a conductive plate, and the conductive spring seat is fixedly connected with the conductive plate;

the multi-path electric connector further comprises a wire pressing frame and screws, wherein the wire pressing frame and the screws are movably arranged in the insulating shell, and the wire pressing frame is movably connected with the conductive plate through the screws.

Preferably, a chamber for accommodating the spring plate component, the insulating support part and the conductive piece and a mounting groove for accommodating the wire pressing frame are arranged in the insulating shell, and the wire pressing frame is used for moving up and down in the mounting groove;

the screw is rotatably arranged in the insulating shell through a bearing, a threaded hole is formed in the upper top plate of the wire pressing frame in a penetrating mode, and the screw is in threaded connection with the threaded hole; one end of the conducting plate is located in the wire pressing frame, an insulating pressing plate is arranged on the upper end face of the conducting plate located in the wire pressing frame, the lower end of the screw is in contact with the insulating pressing plate, and the distance between the lower end of the conducting plate and the inner bottom face of the wire pressing frame is set.

Preferably, a side wall of the conductive spring seat, which is in contact with the elastic arm, is provided with a clamping protrusion and a clamping groove, the clamping protrusion is arranged on the upper portion of the clamping groove, and the clamping protrusion is used for limiting the elastic arm in the clamping groove.

Preferably, the middle part of the elastic arm is bent to form an abutting groove;

one side is provided with the entrance hole on the insulating casing, the entrance hole be used for with the elastic arm with conductive spring seat contacts department alignment, one side of entrance hole is provided with the auxiliary hole, the auxiliary hole with the butt groove aligns, the button be used for the activity set up in the auxiliary hole.

Preferably, the support table is provided with a support surface, and the bending shape of the support surface is matched with the bending shape of the elastic arm.

Preferably, the two opposite side walls of the conductive spring seat are provided with buckling holes;

the both ends of location portion are provided with the buckle, the buckle be used for with buckle hole looks joint.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a multi-path electrical connector according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of an insulating housing and its internal components according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a key, a spring member and an insulating support according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram showing the exploded structure of the key, the spring member and the insulating support portion according to the embodiment of the present utility model;

fig. 5 is a schematic view of a spring member with three spring pieces and an insulating support portion with two support portions according to an embodiment of the present utility model.

Reference numerals illustrate:

the insulating shell comprises an insulating shell body, a 10 outer cover, a 11 cavity, a 12 mounting groove, a 13 wire inlet hole, a 14 auxiliary hole, a 2 elastic piece component, a 21 spring piece, a 22 connecting plate, a 23 fixing arm, a 24 elastic arm, a 25 interval gap, a 26 arc connecting plate, a 27 positioning groove, a 28 abutting groove, a 3 conductive piece, a 31 conductive spring seat, a 32 conductive plate, a 33 clamping protrusion, a 34 clamping groove, a 35 clamping hole, a 4 insulating support part, a 41 positioning part, a 42 support table, a 420 support surface, a 43 limiting groove, a 44 support column, a 45 auxiliary protrusion, a 46 positioning pin, a 47 clamping protrusion, a 5 key, a 6 wire pressing frame, 61 screws and a 62 insulating pressing plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the coordinate system XYZ provided herein, the positive direction of the X axis represents the right direction, the negative direction of the X axis represents the left direction, the positive direction of the Y axis represents the front direction, the negative direction of the Y axis represents the rear direction, the positive direction of the Z axis represents the upper direction, and the negative direction of the Z axis represents the lower direction; the Z-axis, X-axis, Y-axis are meant to be illustrative only and to simplify the description of the present utility model and are not indicative or implying that the apparatus or elements being referred to must have, be constructed and operated in a particular orientation and therefore are not to be construed as limiting the present utility model.

Referring to fig. 1-5, the multi-path electric connector provided by the utility model comprises an insulating housing 1, a spring piece part 2, a conductive piece 3 and an insulating supporting part 4, wherein the spring piece part 2 and the conductive piece 3 are both arranged in the insulating housing 1, the spring piece part 2 comprises a spring piece 21 and a connecting plate 22, the spring piece 21 comprises a fixing arm 23 and an elastic arm 24 which are integrally bent and formed, at least two spring pieces 21 are arranged, the connecting plate 22 is used for being arranged between the fixing arms 23 of the two spring pieces 21, so that the two spring pieces 21 are arranged in parallel and a gap 25 is formed between the two spring pieces 21;

referring to fig. 2, the conductive member 3 includes a conductive spring seat 31, the fixed arm 23 of the elastic member 2 is configured to be connected to one side wall of the conductive spring seat 31, and the elastic arm 24 of the elastic member 2 is configured to elastically contact with the other side wall of the conductive spring seat 31.

Specifically, the manner in which the fixing arm 23 of the spring piece 21 is connected to one side wall of the conductive spring seat 31 may be welding or riveting, or may be fixed by a structure in which a buckle 47 is provided on each of the fixing arm 23 of the spring piece 21 and one side wall of the conductive spring seat 31.

Referring to fig. 2-4, the insulating support portion 4 is disposed on the conductive spring seat 31, the insulating support portion 4 includes a positioning portion 41 and two support tables 42, the support tables 42 are located on two sides of the positioning portion 41, and the two support tables 42 are respectively used for supporting the two spring plates 21 of the spring plate member 2, so that a portion of the positioning portion 41 is located in the spacing gap 25.

Specifically, the width of the positioning portion 41 is matched with the width of the spacing gap 25, when the elastic sheet is installed, the spacing gap 25 of the elastic sheet component 2 is aligned with the positioning portion 41, and the positioning portion 41 is inserted into the spacing gap 25, at this time, the two support tables 42 support the two spring pieces 21, and the spring pieces 21 are located at proper positions on the support tables 42.

In this embodiment, the insulating housing 1 provides a carrier for component equipment, the spring piece part 2 includes at least two spring pieces 21, the two spring pieces 21 are connected by the connecting plate 22, the structure can simultaneously install a plurality of spring pieces 21 by installing one spring piece part 2, which avoids the trouble caused by independent installation of each spring piece 21 in the production and assembly process of the multi-path electric connector, improves the installation convenience and the working efficiency, and the plurality of spring pieces 21 are connected by the connecting plate 22, which also increases the stability of the integral installation of the spring piece part 2 in the insulating housing 1 compared with the single spring piece part 21; the insulating support 4 supports the elastic piece part 2 on the conductive spring seat 31, so that the fixed arm 23 of the elastic piece part 2 is used for being connected with one side wall of the conductive spring seat 31, and the elastic arm 24 of the elastic piece part 2 is used for being elastically contacted with the other side wall of the conductive spring seat 31; the supporting table 42 supports the spring piece 21 for main supporting, and the positioning portion 41 cooperates with the spacing gap 25 for main positioning, so that the production efficiency is further improved.

Referring to fig. 4, preferably, the positioning portion 41 is provided with a limiting groove 43 on a side wall facing to the two supporting tables 42 respectively;

the multi-path electric connector further comprises a key 5, wherein the key 5 is movably arranged on the insulating housing 1 and is arranged towards the elastic arm 24, and at least one side of the key 5 is aligned with the limit groove 43 and moves along the limit groove 43.

Specifically, the limiting groove 43 has a rectangular structure, the key 5 is pressed toward the elastic arm 24 and moves along the limiting groove 43, when the key 5 pushes the elastic arm 24 to move to the bottom end of the limiting groove 43, the key 5 is limited to stop moving, at this time, the elastic arm 24 is pushed to deform away from the side wall of the conductive spring seat 31, so that the elastic contact relationship with the conductive spring seat 31 is released, and a gap is formed between the elastic arm 24 and the side wall of the conductive spring seat 31 for the lead to pass through; after the wire penetrates into the gap, the external force to the key 5 is removed, and the key 5 is reset under the action of the spring piece 21, and at this time, the elastic arm 24 resets and clamps the wire together with the side wall of the conductive spring seat 31.

In this embodiment, the setting of the limiting groove 43 has a guiding function, so that the key 5 can move along the limiting groove 43, thereby avoiding the sounding position deviation of the key 5 during movement, further avoiding the blocking phenomenon caused by the skew of the key 5, and being beneficial to prolonging the service life of the device to a certain extent; the limiting groove 43 further has a limiting effect, when the key 5 is reset, the key 5 moves to the upper side of the limiting groove 43, when the key 5 moves to the bottom end of the limiting groove 43, the key 5 is limited to stop moving, and the structure can effectively prevent the spring piece 21 from being deformed beyond the limit caused by the fact that the key 5 moves over the head, is favorable for protecting the spring piece 21, and further improves the service life of the elastic piece part 2.

Referring to fig. 3, preferably, the spring plate 21 further includes an arc-shaped connection plate 26, and the arc-shaped connection plate 26 is used for connecting the elastic arm 24 and the fixed arm 23;

the insulation support 4 further comprises a support column 44 and an auxiliary protrusion 45, the support column 44 is disposed at the vertical top end of the support table 42, the auxiliary protrusion 45 is disposed on the axial side wall of the support column 44 and is located at the vertical top end of the support column 44, and the arc-shaped connection plate 26 at least partially surrounds the auxiliary protrusion 45 or is disposed on the auxiliary protrusion 45.

Specifically, the auxiliary protrusion 45 is partially cylindrical, and the axis of the auxiliary protrusion 45 is parallel to the axis of the support column 44.

In this embodiment, in order to maintain the spring leaf 21 in its preset position, the auxiliary projection 45 on the support column 44 is arranged and configured such that the spring leaf 21 with its arcuate connecting plate 26 at least partially surrounds the end or rests on the auxiliary projection 45; wherein, the auxiliary protrusions 45 are provided to increase the movable space of the spring plate 21, so that the spring plate 21 can be opened to open the gap in a proper range, thereby facilitating the passage of the wires.

Referring to fig. 3 to 4, preferably, the lower end of the positioning portion 41 has a positioning leg 46;

the lower extreme of connecting plate 22 is provided with constant head tank 27, locating foot 46 is used for with constant head tank 27 looks joint.

In this embodiment, the positioning pins 46 and the positioning grooves 27 are disposed to further enhance the positioning function of the spring member 2, so that the spring member 2 is kept in a preset position thereof, thereby increasing the accuracy of assembling the device and reducing defective products.

Preferably, the conductive member 3 further includes a conductive plate 32, and the conductive spring seat 31 is fixedly connected to the conductive plate 32;

the multi-path electric connector further comprises a wire pressing frame 6 and a screw 61, wherein the wire pressing frame 6 and the screw 61 are movably arranged in the insulating shell 1, and the wire pressing frame 6 is movably connected with the conductive plate 32 through the screw 61.

Specifically, the inner wall of the lower end of the wire pressing frame 6 is of an arc-shaped structure and is used for being attached to the outer wall of the conductor.

In this embodiment, the conductive plate 32 is arranged to facilitate the series connection of a plurality of conductive springs, thereby facilitating the simplification of parts; the wire frame 6 is provided for mounting a conductor, which is provided between the inner bottom surface of the wire frame 6 and the lower end surface of the conductive plate 32, and is fixed by the screw 61 so that the conductor is connected to the conductive plate 32.

Referring to fig. 1-2, preferably, a chamber 11 for accommodating the spring member 2, the insulating support 4 and the conductive member 3, and a mounting groove 12 for accommodating the wire frame 6 are provided in the insulating housing 1, and the wire frame 6 is configured to move up and down in the mounting groove 12;

the screw 61 is rotatably arranged in the insulating shell 1 through a bearing, a threaded hole is formed in the upper top plate of the wire pressing frame 6 in a penetrating mode, and the screw 61 is in threaded connection with the threaded hole; one end of the conductive plate 32 is located in the wire pressing frame 6, an insulating pressing plate 62 is arranged on the upper end face of the conductive plate 32 located in the wire pressing frame 6, the lower ends of the screws 61 are in contact with the insulating pressing plate 62, and a distance is arranged between the lower end of the conductive plate 32 and the inner bottom face of the wire pressing frame 6.

Specifically, the elastic piece component 2, the insulating support portion 4 and the conductive piece 3 are all disposed inside the cavity 11, the mounting groove 12 is communicated with the cavity 11, and the height of the mounting groove 12 is higher than that of the wire pressing frame 6, so that the wire pressing frame 6 moves up and down in the mounting groove 12.

Referring to fig. 1, the insulating housing 1 includes a housing body and an outer cover 10, and the chamber 11 and the mounting groove 12 are covered by the outer cover 10 to ensure the integrity of the insulating housing 1 and prevent the components from falling.

In this embodiment, in a normal state, the wire pressing frame 6 is located at the lower end of the mounting groove 12, the conductor is inserted between the lower end of the conductive plate 32 and the inner bottom surface of the wire pressing frame 6, and then the screw 61 is turned, so that the wire pressing frame 6 moves upward in the mounting groove 12 under the action of the screw 61 and the threaded hole, and the inner bottom surface of the wire pressing frame 6 gradually presses the conductor, so as to tighten the connection between the conductor and the conductive plate 32.

Referring to fig. 4, preferably, a side wall of the conductive spring seat 31 contacting the elastic arm 24 is provided with a clamping protrusion 33 and a clamping groove 34, the clamping protrusion 33 is disposed on an upper portion of the clamping groove 34, and the clamping protrusion 33 is used for limiting the elastic arm 24 in the clamping groove 34.

In this embodiment, the positioning of the clamping protrusion 33 and the clamping groove 34 can limit the position of the elastic arm 24, which is beneficial to preventing the elastic arm 24 from moving out of the conductive spring seat 31 to affect the electrical connection effect.

Referring to fig. 4, preferably, the middle portion of the elastic arm 24 is bent to form an abutment groove 28;

the insulating casing 1 is last one side be provided with entrance hole 13, entrance hole 13 be used for with elastic arm 24 with conductive spring seat 31 contact department aligns, one side of entrance hole 13 is provided with auxiliary hole 14, auxiliary hole 14 with the butt groove 28 is relative aligns, button 5 be used for the activity set up in auxiliary hole 14.

In this embodiment, the key 5 pushes the elastic arm 24 of the spring piece 21 through the abutment slot 28, and the abutment slot 28 is beneficial to preventing the end of the key 5 contacting with the elastic arm 24 from sliding off the elastic arm 24 to affect the operation effect; the auxiliary hole 14 is aligned with the abutting groove 28, the structure facilitates the user to insert the auxiliary hole 14 into the abutting groove 28 by using the key 5 to push the elastic arm 24 open, so that a gap is reserved between the side wall of the elastic arm 24 and the side wall of the conductive spring seat 31, a wire can conveniently enter from the wire inlet hole 13 and penetrate into the gap, then, the external force to the key 5 is removed, and the key 5 and the elastic arm 24 are reset and clamp the wire together with the side wall of the conductive spring seat 31.

Preferably, the support table 42 has a support surface 420 thereon, and the support surface 420 has a bent shape matching the bent shape of the elastic arm 24.

In this embodiment, the upper end of the support table 42 has a supporting effect on the spring plate 21, and the profile of the surface bending shape of the support surface 420 matches the profile of the bending shape of the elastic arm 24, and this structure serves as a stop for the elastic arm 24 when it deflects and at the same time as an overstretching protection for the elastic arm 24 of the spring plate 21.

Preferably, the two opposite side walls of the conductive spring seat 31 are provided with buckling holes 35;

the two ends of the positioning portion 41 are provided with a buckle 47, and the buckle 47 is used for being clamped with the buckle hole 35.

In this embodiment, the snap hole 35 and the snap 47 are provided such that the insulating support 4 is detachably connected to the conductive spring seat 31, so as to facilitate installation and maintenance of workers.

Referring to fig. 5, when the spring element 2 has three spring pieces 21, correspondingly, two connecting plates 22 connect the three spring pieces 21 in turn, and at this time, the insulating support 4 has two positioning portions 41 and three support tables 42, so as to correspond to the three spring pieces 21, and so on.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (10)

1. The utility model provides a multichannel electric connector, includes insulating housing (1), shell fragment part (2), electrically conductive piece (3) and insulating supporting part (4), shell fragment part (2) with electrically conductive piece (3) all set up in insulating housing (1), a serial communication port, shell fragment part (2) include spring leaf (21) and connecting plate (22), spring leaf (21) are including integrative bending shaping fixed arm (23) and elastic arm (24), spring leaf (21) are provided with two at least, connecting plate (22) are used for setting up two between fixed arm (23) of spring leaf (21) in order to make two spring leaf (21) set up side by side and have interval space (25) between two spring leaf (21);

the conductive piece (3) comprises a conductive spring seat (31), the fixed arm (23) of the elastic piece component (2) is used for being connected with one side wall of the conductive spring seat (31), and the elastic arm (24) of the elastic piece component (2) is used for being elastically contacted with the other side wall of the conductive spring seat (31);

the insulating support portion (4) set up in on the electrically conductive spring holder (31), insulating support portion (4) include location portion (41) and two brace table (42), brace table (42) are located the both sides of location portion (41), two brace table (42) are used for supporting respectively two spring leaf (21) of shell fragment part (2), so that part location portion (41) are located in interval space (25).

2. The multi-path electric connector according to claim 1, wherein limiting grooves (43) are formed in side walls of the positioning portions (41) facing the two supporting tables (42), respectively;

the multi-path electric connector further comprises a key (5), wherein the key (5) is movably arranged on the insulating shell (1) and faces the elastic arm (24), and at least one side of the key (5) is aligned with the limiting groove (43) and moves along the limiting groove (43).

3. The electrical multi-way connector according to claim 1, wherein the spring plate (21) further comprises an arc-shaped connection plate (26), the arc-shaped connection plate (26) being adapted to connect the elastic arm (24) and the fixing arm (23);

the insulation supporting part (4) further comprises a supporting column (44) and an auxiliary protrusion (45), the supporting column (44) is arranged at the vertical top end of the supporting table (42), the auxiliary protrusion (45) is used for being arranged on the axial side wall of the supporting column (44) and is located at the vertical top end of the supporting column (44), and the arc-shaped connecting plate (26) at least partially surrounds the auxiliary protrusion (45) or is arranged on the auxiliary protrusion (45).

4. The multi-way electrical connector according to claim 1, wherein the lower end of the positioning portion (41) has a positioning foot (46);

the lower extreme of connecting plate (22) is provided with constant head tank (27), locating foot (46) be used for with constant head tank (27) looks joint.

5. The electrical multipath connector of claim 1, wherein the conductive member (3) further comprises a conductive plate (32), the conductive spring seat (31) being adapted for fixed connection with the conductive plate (32);

the multi-path electric connector further comprises a wire pressing frame (6) and screws (61) which are movably arranged in the insulating shell (1), and the wire pressing frame (6) is movably connected with the conductive plate (32) through the screws (61).

6. The multi-path electrical connector according to claim 5, wherein a chamber (11) for accommodating the spring piece member (2), the insulating support portion (4) and the conductive member (3) and a mounting groove (12) for accommodating the wire frame (6) are provided in the insulating housing (1), and the wire frame (6) is configured to move up and down in the mounting groove (12);

the screw (61) is rotatably arranged in the insulating shell (1) through a bearing, a threaded hole is formed in the upper top plate of the wire pressing frame (6) in a penetrating mode, and the screw (61) is in threaded connection with the threaded hole; one end of the conducting plate (32) is located in the wire pressing frame (6), an insulating pressing plate (62) is arranged on the upper end face of the conducting plate (32) located in the wire pressing frame (6), the lower end of the screw (61) is in contact with the insulating pressing plate (62), and a distance is arranged between the lower end of the conducting plate (32) and the inner bottom face of the wire pressing frame (6).

7. The electrical multipath connector of claim 1, wherein a side wall of the electrically conductive spring seat (31) contacting the elastic arm (24) is provided with a clamping protrusion (33) and a clamping groove (34), the clamping protrusion (33) is disposed on an upper portion of the clamping groove (34), and the clamping protrusion (33) is used for limiting the elastic arm (24) in the clamping groove (34).

8. The electrical multi-way connector according to claim 2, wherein the middle part of the elastic arm (24) is bent to form an abutment groove (28);

one side is provided with entrance hole (13) on insulating casing (1), entrance hole (13) be used for with elastic arm (24) with conductive spring seat (31) looks contact department aligns, one side of entrance hole (13) is provided with auxiliary hole (14), auxiliary hole (14) with butt groove (28) align, button (5) are used for the activity set up in auxiliary hole (14).

9. The electrical multipath connector of claim 1, wherein the support table (42) has a support surface (420), the support surface (420) having a curved shape matching the curved shape of the resilient arm (24).

10. The electrical multipath connector of any of claims 1-9, wherein the electrically conductive spring seat (31) is provided with snap holes (35) on opposite side walls;

two ends of the positioning part (41) are provided with buckles (47), and the buckles (47) are used for being clamped with the buckle holes (35).