CN205004532U - Power connector - Google Patents

Abstract

The utility model discloses a power connector, including insulator, a conductive terminal, the 2nd conductive terminal, inserted block, first U -shaped shell fragment and second U -shaped shell fragment. The inserted block can remove between the primary importance and the second place. When inserted block during in the primary importance, the inserted block does not compress first U -shaped shell fragment and second U -shaped shell fragment for first wire and second wire can insert among the insulator, when the inserted block is removed the second place, inserted block first U -shaped shell fragment of compression and second U -shaped shell fragment for the first wire and the second wire that insert insulator are pushed on a conductive terminal and the 2nd conductive terminal by first U -shaped shell fragment and second U -shaped shell fragment respectively. Consequently, be in the utility model discloses in, only need impress the inserted block in the plastic body, the connection that just can conveniently realize the wire is with fixed, labour saving and time saving, convenient on -the -spot installation wiring.

Description

Power connector

Technical field

The utility model relates to a kind of power connector.

Background technology

In the prior art, the power connector for wire being electrically connected to busbar (Busbar) generally comprise a pin connector and with this pin connector to the socket connector of joining.In order to prevent overcurrent or overvoltage, generally also need to install a fuse on pin connector, this fuse is connected between positive wire and positive bus bar.

For existing power connector, when assembling at the scene, need to use special erecting tools, such as, special screwdriver, could connect wire and be fixed on pin connector.In addition, also need pin connector and socket connector to be docking together.Therefore, existing power connector not only cost is high, and its assembling is wasted time and energy, and can not realize Fast Installation at the scene.

Utility model content

The purpose of this utility model is intended at least one aspect solving the above-mentioned problems in the prior art and defect.

An object of the present utility model is to provide a kind of power connector, and it can not only reduce costs, and can realize wire and be connected with the fast electric of busbar.

According to an aspect of the present utility model, a kind of power connector is provided, comprises: insulating body; First conducting terminal, is arranged in described insulating body, is suitable for being electrically connected with the first wire; With the second conducting terminal, be arranged in described insulating body, be suitable for being electrically connected with the second wire.Described power connector also comprises: inserted block, is arranged in described insulating body, between described first conducting terminal and described second conducting terminal; First U-shaped shell fragment, is arranged in described insulating body, between described inserted block and described first conducting terminal; With the second U-shaped shell fragment, be arranged in described insulating body, between described inserted block and described second conducting terminal.Described inserted block is configured to move between the first location and the second location; When described inserted block is moved primary importance, described inserted block does not compress described first U-shaped shell fragment and the second U-shaped shell fragment, the conductor of described first wire can be inserted between described first conducting terminal and described first U-shaped shell fragment, and the conductor of described second wire can insert between described second conducting terminal and described second U-shaped shell fragment; When described inserted block is moved to the second place, the described inserted block described first U-shaped shell fragment of compression and the second U-shaped shell fragment, the conductor of the first wire of insertion and the conductor of the second wire are squeezed on the first conducting terminal and the second conducting terminal by the first U-shaped shell fragment and the second U-shaped shell fragment respectively, thus the electrical connection realized between the first wire and the first conducting terminal and the electrical connection between the second wire and the second conducting terminal.

According to an embodiment of the present utility model, on the first side of the first conducting terminal, be formed with the first groove at described inserted block, and on the second side of the second conducting terminal, be formed with the second groove at described inserted block; Described first U-shaped shell fragment has towards the first end of described inserted block and the second end towards described first conducting terminal; Described second U-shaped shell fragment has towards the first end of described inserted block and the second end towards described second conducting terminal; When described inserted block is in primary importance, the first end of described first U-shaped shell fragment and described second U-shaped shell fragment is contained in described first and second grooves respectively; Move to the process of the described second place at described inserted block from described primary importance, the first end of described first U-shaped shell fragment and described second U-shaped shell fragment moves to the outside of described first and second grooves respectively along the inclined lead wall in described first and second grooves, thus compresses described first U-shaped shell fragment and described second U-shaped shell fragment step by step; And when described inserted block is in the second place, second end of described first U-shaped shell fragment and described second U-shaped shell fragment is squeezed on the conductor of described first wire and described second wire respectively, thus is squeezed in respectively on the first conducting terminal and the second conducting terminal by the conductor of the first wire and the second wire.

According to another embodiment of the present utility model, described power connector also comprises and is arranged on the first rotating shaft in described insulating body and the second rotating shaft respectively rotationally, and the end face of described first rotating shaft and the second rotating shaft is formed with the first arc mounting groove and the second arc mounting groove respectively; And the base portion of described first U-shaped shell fragment and described second U-shaped shell fragment is arranged in described first arc mounting groove and described second arc mounting groove respectively.

According to another embodiment of the present utility model, the outer wall of described inserted block is formed with elongated guiding groove, and on the inwall of described insulating body, be formed with elongated guide hump, described guide hump and described guiding groove are combined together, to guide described inserted block to move smoothly in described insulating body.

According to another embodiment of the present utility model, described inserted block comprises base portion and the stem from described base portion definite length extended, and the width of described base portion is greater than the width of described stem.

According to another embodiment of the present utility model, described power connector also comprises: fuse module, is arranged in described insulating body, has the first electrode tip and the second electrode tip; With the 3rd conducting terminal, be arranged in described insulating body, there is the first elastic connecting contravention of being suitable for being electrically connected with the first electrode tip of described fuse module and be suitable for the second elastic connecting contravention with the first busbar electric connector, described first conducting terminal has the elastic connecting contravention being suitable for being electrically connected with the second electrode tip of described fuse module, and described second conducting terminal has the elastic connecting contravention being suitable for being electrically connected with the second busbar.

According to another embodiment of the present utility model, the elastic connecting contravention of described first conducting terminal comprises a pair shell fragment, and the first electrode tip of described fuse module is suitable for being clamped between a pair shell fragment of described first conducting terminal.

According to another embodiment of the present utility model, described power connector also comprises switch element, and described switch element comprises a pair spacer be formed on described inserted block; When described inserted block is in described primary importance, described a pair spacer lays respectively at the both sides of the second electrode tip of described fuse module, and outwards strut a pair shell fragment of described first conducting terminal, the second electrode tip of described fuse module and described first conducting terminal electric isolution are opened; When described inserted block is in the described second place, described a pair spacer leaves the second electrode tip of described fuse module, makes a pair shell fragment of described first conducting terminal and the second electrode tip electrical contact of described fuse module.

According to another embodiment of the present utility model, the first elastic connecting contravention of described 3rd conducting terminal comprises a pair first shell fragments, and the first electrode tip of described fuse module is suitable for being clamped between a pair first shell fragments; And the second elastic connecting contravention of described 3rd conducting terminal comprises a pair second shell fragments, described first busbar is suitable for being clamped between a pair second shell fragments.

According to another embodiment of the present utility model, the elastic connecting contravention of described second conducting terminal comprises a pair shell fragment, and described second busbar is suitable for being clamped between a pair shell fragment of described second conducting terminal.

According to another embodiment of the present utility model, described insulating body is formed and is suitable for inserting the first slot of described first busbar and being suitable for the second slot of insertion second busbar; A pair second shell fragments of described 3rd conducting terminal are arranged in the both sides of described first slot, so as with the first busbar electrical contact of insertion first slot; And a pair shell fragment of described second conducting terminal is arranged in the both sides of described second slot, so as with the second busbar electrical contact of insertion second slot.

According to another embodiment of the present utility model, described power connector also comprises a push rod, and described push rod is arranged in described insulating body rotationally; When described push rod rotates along first direction, the end of described push rod outwards pushes described fuse module, to be released from described insulating body by described fuse module; And when described fuse module inserts in described insulating body, described fuse module promotes described push rod and rotates along direction opposite to the first direction.

According to another embodiment of the present utility model, the end of described push rod bends predetermined angular relative to the main part of described push rod; And be formed with a pivoting hole in the bending place of described push rod, and being formed with on the inwall of described insulating body is suitable for being assembled to the snag axis in described pivoting hole.

According in foregoing individual embodiments of the present utility model, the electrical connection between wire and busbar just can be realized by means of only single power connector, therefore, reduce the manufacturing cost of whole power connector, and, when assembling at the scene, inserted block is only needed to be pressed in plastic body, just can realize the connection of wire easily and fix, time saving and energy saving, facilitate in-site installation wiring.

In addition, according in foregoing individual embodiments of the present utility model, the effective contact area between conducting terminal and wire is comparatively large, therefore, reduces the contact impedance between conducting terminal and wire, can transmit larger electric current.

By the description hereinafter done the utility model with reference to accompanying drawing, other object of the present utility model and advantage will be apparent, and can help there is comprehensive understanding to the utility model.

Accompanying drawing explanation

Fig. 1 display is according to the assembly drawing of the power connector of an embodiment of the present utility model;

Fig. 2 shows the decomposing schematic representation of the power connector shown in Fig. 1;

Fig. 3 display, according to the assembly drawing of the power connector of an embodiment of the present utility model, wherein do not show insulating body and busbar, and inserted block is in primary importance; With

Fig. 4 display, according to the assembly drawing of the power connector of an embodiment of the present utility model, wherein do not show insulating body, and inserted block is in the second place.

Embodiment

Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.In the description, same or analogous drawing reference numeral indicates same or analogous parts.The explanation of following reference accompanying drawing to the utility model execution mode is intended to make an explanation to overall utility model design of the present utility model, and not should be understood to one restriction of the present utility model.

In addition, in the following detailed description, for ease of explaining, many concrete details have been set forth to provide the complete understanding to this disclosure embodiment.But significantly, one or more embodiment also can be implemented when not having these details.In other cases, known construction and device diagrammatically embodies to simplify accompanying drawing.

According to general technical design of the present utility model, a kind of power connector is provided, comprises: insulating body; First conducting terminal, is arranged in described insulating body, is suitable for being electrically connected with the first wire; With the second conducting terminal, be arranged in described insulating body, be suitable for being electrically connected with the second wire.Described power connector also comprises: inserted block, is arranged in described insulating body, between described first conducting terminal and described second conducting terminal; First U-shaped shell fragment, is arranged in described insulating body, between described inserted block and described first conducting terminal; With the second U-shaped shell fragment, be arranged in described insulating body, between described inserted block and described second conducting terminal.Described inserted block is configured to move between the first location and the second location; When described inserted block is moved primary importance, described inserted block does not compress described first U-shaped shell fragment and the second U-shaped shell fragment, the conductor of described first wire can be inserted between described first conducting terminal and described first U-shaped shell fragment, and the conductor of described second wire can insert between described second conducting terminal and described second U-shaped shell fragment; When described inserted block is moved to the second place, the described inserted block described first U-shaped shell fragment of compression and the second U-shaped shell fragment, the conductor of the first wire of insertion and the conductor of the second wire are squeezed on the first conducting terminal and the second conducting terminal by the first U-shaped shell fragment and the second U-shaped shell fragment respectively, thus the electrical connection realized between the first wire and the first conducting terminal and the electrical connection between the second wire and the second conducting terminal.

Fig. 1 display is according to the assembly drawing of the power connector of an embodiment of the present utility model; The decomposing schematic representation of the power connector shown in Fig. 1 is shown with Fig. 2.

In an embodiment of the present utility model, disclose a kind of power connector.As depicted in figs. 1 and 2, this power connector mainly comprises insulating body 100, first conducting terminal 300, second conducting terminal 400, inserted block 200, first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020.

Fig. 3 display, according to the assembly drawing of the power connector of an embodiment of the present utility model, wherein do not show insulating body 100 and busbar 1,2, and inserted block 200 is in primary importance; With Fig. 4 display according to the assembly drawing of the power connector of an embodiment of the present utility model, wherein do not show insulating body 100, and inserted block 200 is in the second place.

As shown in Figures 1 to 4, in the illustrated embodiment in which, the first conducting terminal 300 is arranged in insulating body 100, is suitable for being electrically connected with the first wire 10.Second conducting terminal 400 is arranged in insulating body 100, is suitable for being electrically connected with the second wire 20.

As shown in Figure 3 and Figure 4, inserted block 200 is arranged in insulating body 100, between the first conducting terminal 300 and the second conducting terminal 400.First U-shaped shell fragment 3020 is arranged in insulating body 100, between inserted block 200 and the first conducting terminal 300.Second U-shaped shell fragment 4020, is arranged in insulating body 100, between inserted block 200 and the second conducting terminal 400.

In an embodiment of the present utility model, inserted block 200 is configured to move between primary importance (position shown in Fig. 3) and the second place (position shown in Fig. 4).

As Fig. 3 clearly illustrates, in the illustrated embodiment in which, when inserted block 200 is moved primary importance, inserted block 200 does not compress the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020, the conductor 11 of the first wire 10 can be inserted between the first conducting terminal 300 and the first U-shaped shell fragment 3020 easily, and the conductor 21 of the second wire 20 can insert between the second conducting terminal 400 and the second U-shaped shell fragment 4020 easily.

As Fig. 4 clearly illustrates, in the illustrated embodiment in which, when inserted block 200 is moved to the second place, inserted block 200 compresses the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020, the conductor 11 of the first wire 10 of insertion and the conductor 21 of the second wire 20 are squeezed on the first conducting terminal 300 and the second conducting terminal 400 by the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 respectively, thus realize fixing and being electrically connected and fixing and being electrically connected between the second wire 20 with the second conducting terminal 400 between first wire 10 with the first conducting terminal 300.

As shown in Figures 2 to 4, in an embodiment of the present utility model, on the first side of the first conducting terminal 300, be formed with the first groove 201 at inserted block 200, and on the second side of the second conducting terminal 400, be formed with the second groove 202 at inserted block 200.First U-shaped shell fragment 3020 has towards the first end 3021 of inserted block 200 and the second end 3022 towards the first conducting terminal 300.Second U-shaped shell fragment 4020 has towards the first end 4021 of inserted block 200 and the second end 4022 towards the second conducting terminal 400.

As shown in Figures 2 and 3, when inserted block 200 is in the primary importance shown in Fig. 3, the first end 3021,4021 of the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 is contained in the first and second grooves 201,202 respectively.Now, first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 can not be subject to the extruding of inserted block 200, therefore, first wire 10 can easily insert between the first wire 10 and the first conducting terminal 300, and the second wire 20 can easily insert between the second wire 20 and the second conducting terminal 400.

As shown in Figure 2, Figure 3 and Figure 4, move to the process of the second place shown in Fig. 4 at inserted block 200 from the primary importance shown in Fig. 3, the first end 3021,4021 of the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 moves to the outside of the first groove 201 and the second groove 202 respectively along the inclined lead wall in the first groove 201 and the second groove 202, thus utilizes this inserted block 200 to compress the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 step by step.

As shown in Figure 2 and Figure 4, when inserted block 200 is in the second place shown in Fig. 4, second end 3022,4022 of the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 is squeezed on the conductor 11,21 of the first wire 10 and the second wire 20 respectively, thus is squeezed in respectively on the first conducting terminal 300 and the second conducting terminal 400 by the conductor 11,21 of the first wire 10 and the second wire 20.

As shown in Figure 2 to Figure 3, in the illustrated embodiment in which, power connector also comprises the first rotating shaft 3010 and the second rotating shaft 4010 be arranged on rotationally respectively in insulating body 100, and the end face of the first rotating shaft 3010 and the second rotating shaft 4010 is formed with the first arc mounting groove 3011 and the second arc mounting groove 4011 respectively; And the base portion of the first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 is arranged in the first arc mounting groove 3011 and the second arc mounting groove 4011 respectively.Like this, move to the process of the second place shown in Fig. 4 at inserted block 200 from the primary importance shown in Fig. 3, first U-shaped shell fragment 3020 and the second U-shaped shell fragment 4020 can rotate around the axis of the first rotating shaft 3010 and the second rotating shaft 4010 respectively under inserted block 200 drives, like this, the insertion of inserted block 200 is convenient to.

As shown in Figures 2 to 4, in the illustrated embodiment in which, the outer wall of inserted block 200 is formed elongated guiding groove 203, and on the inwall of insulating body 100, be formed with elongated guide hump (not shown), this guide hump and guiding groove 203 are combined together, to guide inserted block 200 to move smoothly in insulating body 100.

As shown in Figures 2 to 4, in the illustrated embodiment in which, inserted block 200 comprises base portion 220 and the stem 210 from base portion 220 definite length extended, and the width of base portion 220 is greater than the width of stem 210.

As shown in Figures 2 to 4, in an embodiment of the present utility model, power connector also comprises fuse module 600 and the 3rd conducting terminal 500.Fuse module 600 is arranged in insulating body 100, has the first electrode tip 610 and the second electrode tip 620.3rd conducting terminal 500 is arranged in insulating body 100, has the first elastic connecting contravention 510 of being suitable for being electrically connected with the first electrode tip 610 of fuse module 600 and is suitable for the second elastic connecting contravention 520 with the first busbar 1 electric connector.

As shown in Figures 2 to 4, the first conducting terminal 300 has the elastic connecting contravention 320 being suitable for being electrically connected with the second electrode tip 620 of fuse module 600, and the second conducting terminal 400 has the elastic connecting contravention 420 being suitable for being electrically connected with the second busbar 2.

As shown in Figures 2 to 4, in the illustrated embodiment in which, the elastic connecting contravention 320 of the first conducting terminal 300 comprises a pair shell fragment 320,320, and the first electrode tip 610 of fuse module 600 is suitable for being clamped between a pair shell fragment 320,320 of the first conducting terminal 300.

As shown in Figures 2 to 4, in the illustrated embodiment in which, power connector also comprises switch element, and this switch element comprises a pair spacer 211,212 be formed on inserted block 200.When inserted block 200 is in primary importance, a pair spacer 211,212 lays respectively at the both sides of the second electrode tip 620 of fuse module 600, and outwards strut a pair shell fragment 320,320 of the first conducting terminal 300, the second electrode tip 620 of fuse module 600 and the first conducting terminal 300 electric isolution are opened; When inserted block 200 is in the second place, a pair spacer 211,212 leaves the second electrode tip 620 of fuse module 600, makes a pair shell fragment 320,320 of the first conducting terminal 300 and the second electrode tip 620 electrical contact of fuse module 600.

As shown in Figures 2 to 4, in the illustrated embodiment in which, the first elastic connecting contravention 510 of the 3rd conducting terminal 500 comprises a pair first shell fragments 510,510, and the first electrode tip 610 of fuse module 600 is suitable for being clamped between a pair first shell fragments 510,510; And the second elastic connecting contravention 520 of the 3rd conducting terminal 500 comprises a pair second shell fragment 520,520, first busbars 1 to be suitable for being clamped between a pair second shell fragments 520,520.

As shown in Figures 2 to 4, in the illustrated embodiment in which, the elastic connecting contravention 420 of the second conducting terminal 400 comprises a pair shell fragment 420,420, and the second busbar 2 is suitable for being clamped between a pair shell fragment 420,420 of the second conducting terminal 400.

As shown in Figures 2 to 4, in the illustrated embodiment in which, insulating body 100 is formed with the first slot 101 being suitable for insertion first busbar 1 and the second slot 102 being suitable for insertion second busbar 2; A pair second shell fragments 520,520 of the 3rd conducting terminal 500 are arranged in the both sides of the first slot 101, so as with the first busbar 1 electrical contact of insertion first slot 101; And a pair shell fragment 420,420 of the second conducting terminal 400 is arranged in the both sides of the second slot 102, so as with the second busbar 2 electrical contact of insertion second slot 102.

As shown in Figures 1 to 4, in an embodiment of the present utility model, power connector also comprises a push rod 700, and this push rod 700 is arranged in insulating body 100 rotationally.When push rod 700 rotates (in the drawings for rotating up) along first direction, the end 710 of push rod 700 outwards can push fuse module 600, to be released from insulating body 100 by fuse module 600; And when fuse module 600 inserts in insulating body 100, fuse module 600 promotes push rod 700 and rotates in the opposite direction along with first party.

As Fig. 2 clearly illustrates, the end 710 of push rod 700 bends predetermined angular relative to the main part of push rod 700; And a pivoting hole 701 is formed in the bending place of push rod 700.Being formed on the inwall of insulating body 100 is suitable for the snag axis (not shown) be assembled in pivoting hole 701.Like this, push rod 700 just can the snag axis on insulating body 100 rotate.

In foregoing individual embodiments of the present utility model, the electrical connection between wire 10,20 and busbar 1,2 just can be realized by means of only single power connector, and without the need to providing independent pin connector and independent socket connector, therefore, the utility model not only reduces the manufacturing cost of whole power connector, also avoid the step of assembled plug connector and socket connector, save the built-up time of power connector.

In addition, in foregoing individual embodiments of the present utility model, when assembling power connector at the scene, only need inserted block 200 to be pressed in plastic body 100, just can realize the connection of wire 10,20 easily and fix, time saving and energy saving, facilitate in-site installation wiring.

In addition, according in foregoing individual embodiments of the present utility model, the effective contact area between conducting terminal 300,400 and wire 10,20 is comparatively large, therefore, reduce the contact impedance between conducting terminal 300,400 and wire 10,20, larger electric current can be transmitted.

It will be appreciated by those skilled in the art that, embodiment described above is all exemplary, and those skilled in the art can make improvements, when the conflict of the structure described in various embodiment in not recurring structure or principle, independent assortment can be carried out.

Although be illustrated the utility model by reference to the accompanying drawings, embodiment disclosed in accompanying drawing is intended to carry out exemplary illustration to the utility model preferred implementation, and can not be interpreted as one restriction of the present utility model.

Although some embodiments of this overall utility model design have been shown and explanation, those skilled in the art will appreciate that, when not deviating from principle and the spirit of this overall utility model design, can make a change these embodiments, scope of the present utility model is with claim and their equivalents.

It should be noted that word " comprises " and do not get rid of other element or step, word "a" or "an" is not got rid of multiple.In addition, any element numbers of claim should not be construed as restriction scope of the present utility model.

Claims (13)

1. a power connector, comprising:

Insulating body (100);

First conducting terminal (300), is arranged in described insulating body (100), is suitable for being electrically connected with the first wire (10); With

Second conducting terminal (400), is arranged in described insulating body (100), is suitable for being electrically connected with the second wire (20),

It is characterized in that:

Described power connector also comprises:

Inserted block (200), is arranged in described insulating body (100), is positioned between described first conducting terminal (300) and described second conducting terminal (400);

First U-shaped shell fragment (3020), is arranged in described insulating body (100), is positioned between described inserted block (200) and described first conducting terminal (300); With

Second U-shaped shell fragment (4020), is arranged in described insulating body (100), is positioned between described inserted block (200) and described second conducting terminal (400),

Described inserted block (200) is configured to move between the first location and the second location,

When described inserted block (200) is moved primary importance, described inserted block (200) does not compress described first U-shaped shell fragment (3020) and the second U-shaped shell fragment (4020), make the conductor (11) of described first wire (10) can insert between described first conducting terminal (300) and described first U-shaped shell fragment (3020), and the conductor (21) of described second wire (20) can insert between described second conducting terminal (400) and described second U-shaped shell fragment (4020)

When described inserted block (200) is moved to the second place, described inserted block (200) compresses described first U-shaped shell fragment (3020) and the second U-shaped shell fragment (4020), the conductor (11) of the first wire (10) of insertion and the conductor (21) of the second wire (20) is made to be squeezed on the first conducting terminal (300) and the second conducting terminal (400) by the first U-shaped shell fragment (3020) and the second U-shaped shell fragment (4020) respectively, thus the electrical connection realized between the first wire (10) and the first conducting terminal (300) and the electrical connection between the second wire (20) and the second conducting terminal (400).

2. power connector according to claim 1, is characterized in that:

On the first side of the first conducting terminal (300), be formed with the first groove (201) at described inserted block (200), and on the second side of the second conducting terminal (400), be formed with the second groove (202) at described inserted block (200);

Described first U-shaped shell fragment (3020) has towards the first end of described inserted block (200) (3021) and the second end (3022) towards described first conducting terminal (300);

Described second U-shaped shell fragment (4020) has towards the first end of described inserted block (200) (4021) and the second end (4022) towards described second conducting terminal (400);

When described inserted block (200) is in primary importance, the first end (3021,4021) of described first U-shaped shell fragment (3020) and described second U-shaped shell fragment (4020) is contained in described first and second grooves (201,202) respectively;

Move to the process of the described second place at described inserted block (200) from described primary importance, the first end (3021,4021) of described first U-shaped shell fragment (3020) and described second U-shaped shell fragment (4020) moves to the outside of described first and second grooves (201,202) respectively along the inclined lead wall in described first and second grooves (201,202), thus compresses described first U-shaped shell fragment (3020) and described second U-shaped shell fragment (4020) step by step; And

When described inserted block (200) is in the second place, second end (3022,4022) of described first U-shaped shell fragment (3020) and described second U-shaped shell fragment (4020) is squeezed on the conductor (11,21) of described first wire (10) and described second wire (20) respectively, thus is squeezed in respectively on the first conducting terminal (300) and the second conducting terminal (400) by the conductor (11,21) of the first wire (10) and the second wire (20).

3. power connector according to claim 2, is characterized in that:

Described power connector also comprises and is arranged on the first rotating shaft (3010) in described insulating body (100) and the second rotating shaft (4010) respectively rotationally, and the end face of described first rotating shaft (3010) and the second rotating shaft (4010) is formed with the first arc mounting groove (3011) and the second arc mounting groove (4011) respectively; And

The base portion of described first U-shaped shell fragment (3020) and described second U-shaped shell fragment (4020) is arranged in described first arc mounting groove (3011) and described second arc mounting groove (4011) respectively.

4. power connector according to claim 3, is characterized in that:

The outer wall of described inserted block (200) is formed elongated guiding groove (203), and on the inwall of described insulating body (100), be formed with elongated guide hump, described guide hump and described guiding groove (203) are combined together, to guide described inserted block (200) to move smoothly in described insulating body (100).

5. power connector according to claim 4, is characterized in that:

Described inserted block (200) comprises base portion (220) and the stem (210) from described base portion (220) definite length extended, and the width of described base portion (220) is greater than the width of described stem (210).

6. power connector according to claim 1, is characterized in that:

Described power connector also comprises:

Fuse module (600), is arranged in described insulating body (100), has the first electrode tip (610) and the second electrode tip (620); With

3rd conducting terminal (500), be arranged in described insulating body (100), there is the first elastic connecting contravention (510) of being suitable for being electrically connected with first electrode tip (610) of described fuse module (600) and be suitable for the second elastic connecting contravention (520) with the first busbar (1) electric connector

Described first conducting terminal (300) has the elastic connecting contravention (320) being suitable for being electrically connected with second electrode tip (620) of described fuse module (600), and

Described second conducting terminal (400) has the elastic connecting contravention (420) being suitable for being electrically connected with the second busbar (2).

7. power connector according to claim 6, is characterized in that:

The elastic connecting contravention (320) of described first conducting terminal (300) comprises a pair shell fragment (320,320), and first electrode tip (610) of described fuse module (600) is suitable for being clamped between a pair shell fragment (320,320) of described first conducting terminal (300).

8. power connector according to claim 7, is characterized in that:

Described power connector also comprises switch element, and described switch element comprises a pair spacer (211,212) be formed on described inserted block (200);

When described inserted block (200) is in described primary importance, described a pair spacer (211,212) lays respectively at the both sides of second electrode tip (620) of described fuse module (600), and outwards strut a pair shell fragment (320,320) of described first conducting terminal (300), second electrode tip (620) of described fuse module (600) and described first conducting terminal (300) electric isolution are opened;

When described inserted block (200) is in the described second place, described a pair spacer (211,212) leaves second electrode tip (620) of described fuse module (600), makes a pair shell fragment (320,320) of described first conducting terminal (300) and the second electrode tip (620) electrical contact of described fuse module (600).

9. power connector according to claim 8, is characterized in that:

First elastic connecting contravention (510) of described 3rd conducting terminal (500) comprises a pair first shell fragments (510,510), and first electrode tip (610) of described fuse module (600) is suitable for being clamped between a pair first shell fragments (510,510); And

Second elastic connecting contravention (520) of described 3rd conducting terminal (500) comprises a pair second shell fragments (520,520), and described first busbar (1) is suitable for being clamped between a pair second shell fragments (520,520).

10. power connector according to claim 9, is characterized in that:

The elastic connecting contravention (420) of described second conducting terminal (400) comprises a pair shell fragment (420,420), and described second busbar (2) is suitable for being clamped between a pair shell fragment (420,420) of described second conducting terminal (400).

11. power connectors according to claim 10, is characterized in that:

Described insulating body (100) is formed and is suitable for inserting first slot (101) of described first busbar (1) and being suitable for second slot (102) of insertion second busbar (2);

A pair second shell fragments (520,520) of described 3rd conducting terminal (500) are arranged in the both sides of described first slot (101), so as with the first busbar (1) electrical contact of insertion first slot (101); And

A pair shell fragment (420,420) of described second conducting terminal (400) is arranged in the both sides of described second slot (102), so as with the second busbar (2) electrical contact of insertion second slot (102).

12. power connectors according to claim 6, is characterized in that:

Described power connector also comprises a push rod (700), and described push rod (700) is arranged in described insulating body (100) rotationally;

When described push rod (700) rotates along first direction, end (710) outwards pushing described fuse module (600) module of described push rod (700), to release described fuse module (600) from described insulating body (100); And

When described fuse module (600) inserts in described insulating body (100), described fuse module (600) promotes described push rod (700) and rotates along direction opposite to the first direction.

13. power connectors according to claim 12, is characterized in that:

The end (710) of described push rod (700) bends predetermined angular relative to the main part of described push rod (700); And

Be formed with a pivoting hole (701) in the bending place of described push rod (700), and being formed with on the inwall of described insulating body (100) is suitable for being assembled to the snag axis in described pivoting hole (701).