CN216362186U - Male end connector, electric connector assembly and power supply or consumption equipment - Google Patents

Abstract

The utility model discloses a male end connector, an electric connector assembly and power supply or consumption equipment. The male end connector comprises a male end connector body and a sliding block. The male end connector body defines a female end housing receptacle for receiving a female end connector. The slider is disposed in the male end connector body and is capable of moving relative to the male end connector body to enter or exit the female end housing cavity to lock or unlock the female end connector. The electric connector assembly has the advantages of simple structure, stable locking state, good connection performance, convenience in operation and good waterproof and dustproof performance.

Description

Male end connector, electric connector assembly and power supply or consumption equipment

Technical Field

The utility model relates to the technical field of connectors, in particular to a male end connector, an electric connector assembly using the male end connector and power supply or consumption equipment.

Background

The electrical connector assembly is the core component of the cable connection. The electrical connector assembly needs to have convenience in insertion operation and stability of electrical connection after insertion.

The male and female end connectors of prior art electrical connector assemblies are connected in a plug-in manner. In order to maintain the stability of the electrical connection after insertion, the male end connector and the female end connector are arranged to be inserted and pulled out at a specific angle. However, this method requires a high operation angle, and has poor sealing and waterproof capabilities and dust-proof capabilities.

Therefore, there is still a need for an improved electrical connector assembly having convenient handling and good water resistance.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving the above problems, and thus provides a male end connector comprising a male end connector body and a slider. The male end connector body defines a female end housing receptacle for receiving a female end connector. The slider is disposed in the male end connector body and is capable of moving relative to the male end connector body to enter or exit the female end housing cavity to lock or unlock the female end connector.

Further, the male end connector also comprises a driving member. The driving piece is arranged on the male end connector body and can move relative to the male end connector body, and the driving piece can drive the sliding block to withdraw from the female end housing cavity.

Further, the female end housing cavity is formed by being recessed from the bottom of the male end connector body along a first direction, the driving piece can move relative to the male end connector body along the first direction, and the sliding block can move relative to the female end housing cavity along a direction perpendicular to the first direction.

Further, the male end connector also comprises a drive fitting part. The driving matching part is arranged on the sliding block and/or the driving piece, so that when the driving piece moves along the first direction, the sliding block can be driven to move along the direction perpendicular to the first direction.

Further, the driving matching part comprises a driving inclined plane arranged on the driving piece and a sliding block inclined plane arranged on the sliding block.

Further, the slider has a slider locking position and a slider releasing position and is movable between the slider locking position and the slider releasing position, and the driver has a driver locking position and a driver releasing position and is movable between the driver locking position and the driver releasing position. The slider and the driver are configured to: the slide is movable between the slide locking position and the slide releasing position when the driver is in the driver locking position; and when the driving piece moves from the driving piece locking position to the driving piece releasing position, the driving piece can drive the sliding block to move from the sliding block locking position to the sliding block releasing position. The slider and the female end connector are configured to: when the female end connector enters the female end housing cavity, the female end connector can push the sliding block to move from the sliding block locking position to the sliding block releasing position

Further, the male end connector also comprises a sliding block elastic piece and a driving piece elastic piece. A slider resilient member is disposed on the male end connector body to drive the slider from the slider release position to the slider lock position. The elastic piece of the driving piece is arranged on the male end connector body so as to drive the driving piece to move from the releasing position of the driving piece to the locking position of the driving piece.

The utility model also provides an electric connector assembly which comprises the male end connector and the female end connector. The female end connector comprises a female end shell, a concave portion is formed in the female end shell, the female end shell can extend into the female end shell accommodating cavity, and the free end of the sliding block can be accommodated in the concave portion.

Further, female end connector still includes base plate and sealing washer, female end shell is followed the base plate extends along first direction and forms, the sealing washer cover is established female end shell is last, works as male end connector with when female end connector is connected, the sealing washer is held male end connector with between the female end connector.

The utility model also provides a power supply or consumption device which comprises the electric connector assembly.

The electrical connector assembly of the present invention comprises at least the following advantages:

first, the electrical connector assembly of the present invention has a simple structure, and has a stable locking state and good connection performance. Specifically, the male end connector is provided with the sliding block, and the female end connector and the male end connector can be locked through the movement of the sliding block. Even if the sliding block is subjected to sudden conditions such as vibration, jolt, collision, mistaken pulling and the like, the sliding block is not easy to fall off as the sliding block is received by the female end connector, and therefore good connection performance can be guaranteed.

Secondly, the electric connector assembly is convenient to operate. Specifically, when the operator wishes to connect the female end connector and the male end connector, the operator can connect the female end connector and the male end connector by the action of insertion, and the female end connector and the male end connector are locked by the slider without additional operation of the operator. When the operator wishes to unlock the female and male end connectors, the operator can unlock and separate the female and male end connectors by pressing the driving member and pulling out the same without requiring the operator to be specially trained or to perform specialized operations in a specific direction.

Thirdly, the electric connector assembly of the utility model has good waterproof and dustproof performance. Particularly, the female end connector is completely inserted into the male end connector, so that the dustproof effect is better. In addition, set up the sealing washer on female end connector, when female end connector and public end connector are connected, the sealing washer can be by the centre gripping between female end connector and public end connector to realize good water-proof effects.

Drawings

FIG. 1 is a perspective view of a male end connector and a female end connector of the present invention in a connected state;

FIG. 2 is a perspective view of the male end connector of the present invention;

FIG. 3 is an exploded schematic view of the male end connector of the present invention;

FIG. 4 is a cross-sectional view of the male end connector body of the male end connector of the present invention;

FIG. 5 is a perspective view of the female end connector of the present invention;

figure 6 is a mating cross-sectional view of the male and female end connectors of the present invention.

The reference numbers illustrate: male end connector 1, male end connector body 10, driving element 11, pressing element 111, driving rod 112, step 113, driving inclined plane 114, slider 12, slider first part 121, slider second part 122, slider inclined plane 123, slider elastic element 13, driving element elastic element 14, male end housing 20, male end binding part 21, upper cavity 23, partition 24, passage 241, support column 242, sleeve 243, driving element elastic element cavity 244, edge extension 245, circumferential partition 25, slider passage 251, auxiliary partition 26, female end housing cavity 271, female end body cavity 272, slider cavity 28, fixing rod 29, first pin 31, second pin 32, female end connector 5, base plate 50, female end connector body 51, first pin butt joint part 511, second pin butt joint part 512, female end housing 52, female end 53, male end receiving part 54, sealing ring 55, And a recess 56.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The utility model is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It is to be understood that although directional terms, such as "upper", "lower", "left", "right", "inner", "outer", and the like, may be used herein to describe various example structural elements and components of the utility model, these terms are used herein for convenience of description only and are to be construed as exemplary orientations shown in the drawings. Because the disclosed embodiments of the utility model can be arranged in a variety of orientations, these directional terms are used for purposes of illustration only and are not to be construed as limiting.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the drawings only show the components related to the present invention rather than the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

Some exemplary embodiments of the utility model have been described for illustrative purposes, and it is to be understood that the utility model may be practiced otherwise than as specifically described.

The electrical connector assembly of the utility model comprises a male end connector 1 as shown in figure 2 and a female end connector 5 as shown in figure 5. As shown in fig. 1 and 6, the male end connector 1 can be connected with the female end connector 5 and establish an electrical connection.

As shown in fig. 2-4, the male end connector 1 of the present invention comprises a male end connector body 10 and a lock release assembly. A lock release assembly is provided on the male end connector body 10 for locking and releasing the female end connector 5. In particular, when the male end connector body 10 and female end connector 5 are connected in place, the lock release assembly is able to lock the male end connector body 10 and female end connector 5 so that they are held in place to maintain a good electrical connection. When the male end connector body 10 needs to be disconnected from the female end connector 5, the operator presses the lock release assembly to release the female end connector 5.

As shown in fig. 3, the lock release assembly of the male end connector 1 comprises a driver 11 and a driver resilient member 14. The driving member 11 includes a pressing member 111 and two driving rods 112. The pressing piece 111 is a substantially circular thin plate having an axis extending in the up-down direction (i.e., the first direction). The edge of the upper part of the pressing member 111 is provided with a step 113 for cooperating with the male connector body 10 to limit the driving member 11. Two driving levers 112 are provided below the pressing piece 111. Two drive rods 112 are formed to extend substantially in the up-down direction, and the upper ends thereof are connected to the lower surface of the pressing piece 111. The two drive levers 112 are disposed at positions symmetrically arranged with respect to an axis (not shown) of the pressing member 111. The bottom of the two drive rods 112 are provided with drive ramps 114. The driving ramp 114 is disposed obliquely to the horizontal direction. In other words, the driving slope 114 has a proximal end closer to the lower surface of the pressing piece 111 and a distal end farther from the lower surface of the pressing piece 111. The proximal end of the drive ramp 114 is closer to the axis of the pressing piece 111 than the distal end of the drive ramp 114. The driving member elastic member 14 is disposed below the pressing member 111 to provide a force for the upward movement of the pressing member 111. Specifically, the driving member elastic member 14 is a spring, and has an upper end abutting against the bottom of the pressing member 111 and a lower end abutting against the male terminal connector body 10. The driver 11 has a driver locking position and a driver releasing position, and is movable between the driver locking position and the driver releasing position. The specific movement of the drive member 11 will be described below in connection with fig. 6.

As shown in fig. 3, the lock releasing assembly of the male end connector 1 further includes two sliders 12 and two slider elastic members 13. The two sliders 12 are respectively disposed below the two drive levers 112 of the drive member 11. Specifically, each of the sliders 12 is substantially L-shaped. Which includes a first slider portion 121 and a second slider portion 122. The slider first portion 121 is formed to extend substantially in the left-right direction (i.e., the second direction, which is perpendicular to the first direction), and the slider second portion 122 is formed to extend substantially in the up-down direction. The lower end of the slider second portion 122 is connected to one end of the slider first portion 121 near the axis of the pressing member 111. The upper end of the second slider portion 122 is provided with a slider slope 123 for cooperating with the driving slope 114 of the driving rod 112. The slider slope 123 is disposed obliquely to the horizontal direction. In other words, the slider ramp 123 has a proximal end that is closer to the upper surface of the slider first portion 121 and a distal end that is further from the upper surface of the slider first portion 121. The distal end of the slider slope 123 is closer to the axis of the pressing piece 111 than the proximal end of the slider slope 123. The two driving member elastic members 14 are respectively provided corresponding to the two sliders 12 so as to provide a force for the movement of the two sliders 12 outward (i.e., away from the axis of the pressing member 111). Specifically, the driving member elastic member 14 is a spring, one end of which abuts against the slider second portion 122 of the slider 12, and the other end of which abuts against the male end connector body 10. The slider 12 has a slider locking position and a slider releasing position, and is movable in the left-right direction (i.e., the second direction) between the slider locking position and the slider releasing position. The specific movement of the slider 12 will be described below in connection with fig. 6.

As shown in fig. 2-4, the male connector body 10 includes a male end housing 20 and a divider plate 24. Male end housing 20 defines an upper pocket 23 and a lower pocket by a divider plate 24. Specifically, the male housing 20 is substantially a cylinder extending in the up-down direction (i.e., the first direction). An upper receptacle 23 is formed recessed downwardly from the upper portion of the male end housing 20 for receiving the driver 11 and the driver resilient member 14. The male end housing 20 is coaxially disposed with the pressing piece 111. At the top of the male end housing 20 is an inward edge extension 245 for engaging the step 113 on the driver 11 to limit the driver 11. A lower receptacle is formed recessed upwardly from the lower portion of the male end housing 20 for receiving the two sliders 12, the two slider springs 13 and at least a portion of the female end connector 5. A divider plate 24 extends transversely between the upper and lower pockets 23, and is connected to the inner wall of the male end housing 20. Two passages 241 are provided on the partition plate 24, and penetrate through the partition plate 24 in the up-down direction, so that the two driving rods 112 can extend from the upper receiving chamber 23 to the lower receiving chamber. The upper portion of the partition plate 24 is provided with a support column 242 and a sleeve 243. Support posts 242 are generally cylindrical and are disposed coaxially with male end housing 20 and extend upwardly from the upper surface of divider plate 24. The sleeve 243 has a hollow portion, which is sleeved on the outer side of the supporting column 242. A sleeve 243 is also formed extending upward from the upper surface of the partition plate 24, and is disposed coaxially with the support column 242 and the male end housing 20. The inner peripheral surface of the sleeve 243 is spaced from the outer peripheral surface of the support post 242 to define a drive member spring pocket 244 for receiving the lower portion of the drive member spring 14.

As shown in fig. 2-4, the male end connector body 10 further includes a circumferential divider plate 25 and an auxiliary divider plate 26. The circumferential partition plate 25 is substantially cylindrical and is formed to extend downward from the lower surface of the partition plate 24. The circumferential partition 25 and the male housing 20 enclose an annular female housing receptacle 271 for receiving the female housing 52 of the female connector 5 (see fig. 5). The auxiliary partition plate 26 is a thin circular plate, which is disposed below the partition plate 24 and at a distance from the partition plate 24. The auxiliary partition plate 26 is connected to the circumferential partition plate 25 so as to form a substantially cylindrical slider receiving cavity 28 for receiving the two sliders 12 and the two slider elastic members 13, surrounded by the circumferential partition plate 25 and the auxiliary partition plate 26 is formed to have a female-end body receiving cavity 272 having a downward opening for receiving the female-end connector body 51 of the female-end connector 5, surrounded by the circumferential partition plate 25. Specifically, the slider accommodating chamber 28 is provided therein with a fixing rod 29 which is disposed substantially at the center of the slider accommodating chamber 28 (i.e., disposed through the axis of the pressing piece 111) and is connected to the auxiliary partition plate 26. Two slider channels 251 are provided on the circumferential wall of slider pocket 28 (i.e., circumferential divider plate 25) that extend through circumferential divider plate 25 to communicate slider pocket 28 with female housing pocket 271. One end of each of the two slider elastic pieces 13 is fitted over the fixing rod 29, and the other end is fitted over the slider 12, so that the two sliders 12 can move in the left-right direction. The two sliders 12 are respectively aligned with the two slider channels 251 so that the sliders 12 can extend from the slider pockets 28 and into the female housing pockets 271 or so that the sliders 12 can be retracted from the female housing pockets 271 into the slider pockets 28.

As shown in fig. 2-4, the male connector body 10 further includes a male terminal harness portion 21 and eight pins. The male terminal harness portion 21 is provided at one side of the upper end of the male terminal housing 20, and is connected with the male terminal housing 20. Eight pins are provided below the partition plate 24 and are formed extending downward from the partition plate 24. Eight pins each extend through the slider pocket 28 and into the female body pocket 272. Those skilled in the art will appreciate that the eight pin positions do not impede the movement of the slider 12 and the driver 11. The eight stitches include two 221 stitches (i.e., the first stitch 31) and six 140 stitches (i.e., the second stitch 32). Each of the eight pins includes a wire (not shown). When the male end connector 1 and the female end connector 5 are connected, the wires in the pins in the male end connector 1 are connected with the wires in the pin butt joint part in the female end connector 5, so that power and/or signal communication is formed. The wires of the eight pins may extend along the divider plate 24 and into the male end harness portion 21 for connection to other equipment.

Those skilled in the art will appreciate that the type and number of pins in the present invention are provided as illustrative examples only, and any number and type of pins are within the scope of the present invention.

When the components in the male end connector 1 are in place and not subjected to external forces, the driver 11 is in the driver locking position and the slider 12 is in the slider locking position, as shown in fig. 6. Specifically, the driver spring 14 and the two slider springs 13 are both in a compressed state. The driver spring 14 in the compressed state exerts an upward force on the driver 11. Since the step 113 of the driver 11 is stopped by the edge extension 245 of the male end housing 20, the driver 11 can be maintained in the driver locking position. The upper surface of the driver 11 is now flush with the upper surface of the male end housing 20. The slider spring 13 in the compressed state exerts an outward (i.e., away from the axis of the male end housing 20) force on the slider 12. The slider 12 extends out of the female housing cavity 271 so as to remain in the slider locked position.

As shown in fig. 5 to 6, the female-end connector 5 includes a substrate 50, a female-end connector body 51, a female-end housing 52, and a female-end harness portion 53. The base plate 50 is a generally square plate, and the female-end connector body 51 and the female-end housing 52 are formed extending upward from the upper surface of the base plate 50. The bus bar portion 53 is formed extending downward from the lower surface of the substrate 50. The female connector body 51 is generally cylindrical. The female housing 52 is substantially cylindrical. Which is sleeved outside the female end connector body 51 and is arranged coaxially with the female end connector body 51. The outer peripheral surface of the female connector body 51 is spaced from the inner peripheral surface of the female housing 52 to form a male end receiving portion 54 for receiving the circumferential partition plate 25 in the male connector 1. The female end housing 52 is provided with two recesses 56 on its inner peripheral surface for receiving the slider 12. In the present example, the two recesses 56 are disposed along the same diameter of the female end housing 52. The female connector body 51 is provided with eight pin butting portions. Eight pin abutments are formed recessed inwardly from the upper end face of the female connector body 51 along the axis of the female connector body 51. The eight stitch abutments include two 211 stitch abutments (i.e., a first stitch abutment 511) and six 140 stitch abutments (i.e., a second stitch abutment 512). Each of the eight pin interfaces houses a wire (not shown). The electric wires extend in the female connector body 51, and extend into the female harness portion 53 after passing through the substrate 50, thereby being connected with other devices. When the male connector 1 and the female connector 5 are connected, the two first pins 31 and the six second pins 32 of the male connector 1 can be inserted into the two first pin butting parts 511 and the six second pin butting parts 512, respectively, so that the electric wires in the pins can contact the electric wires in the pin butting parts. In addition, the root of the female end shell 52 is also sleeved with a sealing ring 55, so that the connection gap can be sealed when the male end connector 1 and the female end connector 5 are connected, and the waterproof and dustproof effects are achieved.

The specific structure and connection process in the state of connection of the male terminal connector 1 and the female terminal connector 5 are described below with reference to fig. 6:

when the operator needs to connect the male end connector 1 and the female end connector 5 together, the operator aligns the eight pins of the male end connector 1 with the eight pin abutments of the female end connector 5 and moves the male end connector 1 and the female end connector 5 towards each other, as shown in fig. 6. During the movement of the male end connector 1 towards the female end connector 5, the free end of the slider 12 located in the female end housing cavity 271 contacts the female end housing 52. Due to the contact and upward movement of the female housing 52, the female housing 52 will urge the slider 12 inward (i.e., toward the axis of the male housing 20). That is, the slider 12 is in the slider release position after exiting the female housing cavity 271 under the urging of the female housing 52. Subsequently, during continued upward movement of the female housing 52, the inner wall of the female housing 52 always pushes against the free end of the slider 12, thereby holding the slider 12 in the slider release position. Until after the male end connector 1 is fully inserted into the female end connector 5, the slider 12 is aligned with the recess 56 and the slider 12 is no longer obstructed by the inner wall of the female end housing 52 and moves outwardly under the urging of the driver resilient member 14, moving from the slider release position to the slider locking position. The seal ring 55 is now tightly clamped between the male housing 20 and the base plate 50. Thereby, the female end connector 5 is locked to the male end connector 1.

When the operator needs to disconnect the male end connector 1 from the female end connector 5, the operator presses the driver 11 downwards. The driving slope 114 of the driving rod 112 of the driving member 11 pushes the slider slope 123 of the slider 12, thereby moving the slider 12 inward. When the driver 11 moves down from the driver locking position to the driver releasing position, the slider 12 moves from the slider locking position to the slider releasing position. The slide 12 exits the recess 56 and female end housing pocket 271, thereby releasing the female end connector 5. The operator can now pull the male end connector 1 and the female end connector 5 apart.

After the male end connector 1 is disconnected from the female end connector 5, the operator can release the driver 11. The actuator 11 will move upwardly under the urging of the actuator spring 14 to return from the actuator release position to the actuator lock position, and the slider 12 will move outwardly under the urging of the slider spring 13 to return from the slider release position to the slider lock position.

It should be noted that, in the present invention, the driving inclined surface 114 at the bottom of the driving member 11 and the slider inclined surface 123 on the slider 12 form a driving matching portion, so that the slider 12 can be driven to move in a second direction perpendicular to the first direction when the driving member 11 moves downward in the first direction. However, it will be understood by those skilled in the art that the drive engagement portion may be provided on the driving member 11 and the slider 12, or may be provided only on the driving member 11 or the slider 12. For example, a drive ramp is provided only on the driver 11. Further, the drive engagement portion may also be formed of various structures, such as a slope, a curved surface, and the like.

It should be noted that although the male terminal connector 1 of the present invention is provided with two sliders 12 and two slider elastic members 13, and the female terminal housing 52 is provided with two corresponding recesses 56, those skilled in the art will understand that any number of sliders 12, slider elastic members 13 and recesses 56 may be provided, and any number of sliders 12, slider elastic members 13 and recesses 56 are within the protection scope of the present invention.

The electrical connector assembly of the present invention may be used in any power supplying or consuming device.

The electrical connector assembly of the present invention comprises at least the following advantages:

first, the electrical connector assembly of the present invention has a simple structure, and has a stable locking state and good connection performance. Specifically, the male end connector is provided with the sliding block, and the female end connector and the male end connector can be locked through the movement of the sliding block. Even if the sliding block is subjected to sudden conditions such as vibration, jolt, collision, mistaken pulling and the like, the sliding block is not easy to fall off as the sliding block is received by the female end connector, and therefore good connection performance can be guaranteed.

Secondly, the electric connector assembly is convenient to operate. Specifically, when the operator wishes to connect the female end connector and the male end connector, the operator can connect the female end connector and the male end connector by the action of insertion, and the female end connector and the male end connector are locked by the slider without additional operation of the operator. When the operator wishes to unlock the female and male end connectors, the operator can unlock and separate the female and male end connectors by pressing the driving member and pulling out the same without requiring the operator to be specially trained or to perform specialized operations in a specific direction.

Thirdly, the electric connector assembly of the utility model has good waterproof and dustproof performance. Particularly, the female end connector is completely inserted into the male end connector, so that the dustproof effect is better. In addition, set up the sealing washer on female end connector, when female end connector and public end connector are connected, the sealing washer can be by the centre gripping between female end connector and public end connector to realize good water-proof effects.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A male end connector, comprising:

a male end connector body (10) defining a female end housing receptacle (271) for receiving a female end connector (5); and

a slider (12) disposed in the male end connector body (10) and movable relative to the male end connector body (10) to enter or exit the female end housing cavity (271) to lock or unlock the female end connector (5).

2. The male end connector of claim 1, further comprising:

the driving piece (11) is arranged on the male end connector body (10) and can move relative to the male end connector body (10), and the driving piece (11) can drive the sliding block (12) to withdraw from the female end housing cavity (271).

3. The male end connector of claim 2, wherein:

the female end housing cavity (271) is formed by sinking from the bottom of the male end connector body (10) along a first direction, the driving piece (11) can move relative to the male end connector body (10) along the first direction, and the sliding block (12) can move relative to the female end housing cavity (271) along a direction perpendicular to the first direction.

4. The male end connector of claim 3, further comprising:

and the driving matching part is arranged on the sliding block (12) and/or the driving part (11) so as to drive the sliding block (12) to move along the direction perpendicular to the first direction when the driving part (11) moves along the first direction.

5. The male end connector of claim 4, wherein:

the driving matching part comprises a driving inclined surface (114) arranged on the driving piece (11) and a sliding block inclined surface (123) arranged on the sliding block (12).

6. The male end connector of claim 2, wherein the male end connector is a male end connector

The slide block (12) is provided with a slide block locking position and a slide block releasing position and can move between the slide block locking position and the slide block releasing position, and the driving piece (11) is provided with a driving piece locking position and a driving piece releasing position and can move between the driving piece locking position and the driving piece releasing position;

the slider (12) and the driver (11) are configured to: the slide (12) is movable between the slide locking position and the slide releasing position when the driver (11) is in the driver locking position; and when the driving piece (11) moves from the driving piece locking position to the driving piece releasing position, the driving piece (11) can drive the slide block (12) to move from the slide block locking position to the slide block releasing position;

the slider (12) and the female end connector (5) are configured to: when the female end connector (5) enters the female end housing cavity (271), the female end connector (5) can push the slider (12) to move from the slider locking position to the slider releasing position.

7. The male end connector of claim 6, further comprising:

a slider elastic member (13) provided on the male terminal connector body (10) to drive the slider (12) to move from the slider releasing position to the slider locking position; and

a driver resilient member (14) disposed on the male connector body (10) to drive the driver (11) to move from the driver release position to the driver lock position.

8. An electrical connector assembly, comprising:

the male end connector of any one of claims 1-7; and

the female end connector (5) comprises a female end shell (52), a concave part (56) is arranged on the female end shell (52), the female end shell (52) can extend into the female end shell cavity (271), and the free end of the sliding block (12) can be accommodated in the concave part (56).

9. The electrical connector assembly of claim 8, wherein:

female end connector (5) still include base plate (50) and sealing washer (55), female end shell (52) are followed base plate (50) extend along the first direction and form, sealing washer (55) cover is established female end shell (52) are last, work as male end connector with when female end connector (5) are connected, sealing washer (55) are held male end connector with between female end connector (5).

10. A power supply or consumption device comprising an electrical connector assembly according to claim 8 or 9.

Images