CN217215295U - Wiring subassembly, public seat of connector, connector subassembly, driving system and unmanned equipment - Google Patents

Abstract

The utility model discloses a wiring component, a connector male seat, a connector component, a power system and unmanned equipment, which relate to the technical field of connectors, wherein a limiting part is arranged on the inner wall of a wire passing hole of a connector lug, and a wire pressing part which can be matched with the limiting part is arranged on a wire pressing component; when the wire pressing component is close to the connector lug and is located at the first position, the limiting part pushes and presses the wire part to be close to the wire passing hole, so that the wire passing hole is narrowed, and the wire can be extruded and restrained in the wire passing hole. Through being applied to in wire connector subassembly, driving system and unmanned equipment with this wiring subassembly, make the wire can be in the state of phase separation with the connector lug and be provided with the public seat of connector of this connector lug before the threading, treat that the wire is worn out the back from corresponding walking the line passageway, rethread wiring subassembly is connected wire and the public seat of connector to the assembly, the threading degree of difficulty of system, equipment have been reduced, corresponding assembly and wiring efficiency have been improved.

Description

Wiring assembly, male connector seat, connector assembly, power system and unmanned equipment

Technical Field

The utility model relates to a technical field of connector especially relates to a wiring subassembly, public seat of connector, connector assembly, driving system and unmanned aerial vehicle.

Background

Electrical connectors, also commonly referred to as circuit connectors, are used to bridge two conductors on a circuit so that current or signals can flow from one conductor to the conductive device of the other conductor. In brief, the components for completing the electrical connection between circuits or electronic machines are called connectors, i.e. the bridge between them.

In a general circuit structure, in order to electrically connect two circuits or two electrical devices, elements, and the like that are disposed at an interval in the same circuit, two circuits to be connected are connected by a wire, and in some circuit structures that require frequent replacement and maintenance, a connector is used to connect the wire and the corresponding circuit in order to facilitate the detachment and installation of the connecting circuit. The connector generally comprises a male seat and a female seat, wherein a wiring terminal of the male seat and a wiring terminal of the female seat are respectively inserted and fixed in the male seat and the female seat. The wire is connected with the male base wiring terminal and the female base wiring terminal, and current conduction is realized when the male base and the female base are in plugging fit.

In some devices with a relatively compact structure or special use scenes, due to the consideration of appearance and protectiveness, a wire can pass through a narrow wire passing channel after being connected with one circuit and is connected with another circuit after being led out from the wire passing channel. If the lead and the male seat are firstly separated, the lead is connected with the male seat after being threaded, so that the wiring difficulty is improved, the wiring efficiency and the assembly efficiency of equipment are reduced, and the inconvenience is brought to corresponding operators.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an one of purpose lies in: the wiring assembly solves the technical problem of low efficiency of a wiring process caused by high wiring difficulty between a wire and a circuit.

The embodiment of the utility model provides a second purpose lies in: the utility model provides a public seat of connector, through the cooperation of wiring component middling pressure line component and connector lug, make and to dismantle at any time between public seat of connector and the wire, solve the big technical problem of the wiring degree of difficulty between public seat of connector and the wire.

The embodiment of the utility model provides a third of purpose lies in: the connector assembly improves the assembly difficulty between the connector assembly and a circuit and between a lead and a connector male seat, and accordingly improves the installation and wiring efficiency of the connector assembly in corresponding application scenes or equipment.

The fourth purpose of the embodiment of the utility model lies in: the power system is provided, and the technical problems that the application scene of the power system is limited and the wiring structure is limited are solved.

The fifth purpose of the embodiment of the utility model lies in: the unmanned equipment solves the technical problem that the wiring structure of the unmanned equipment is limited, the size of the unmanned equipment can be further reduced, and the structure of the unmanned equipment is more compact.

In order to achieve one of the purposes, the utility model adopts the following technical scheme:

the wiring assembly comprises a wiring head, a wiring hole and a limiting part, wherein the wiring hole is formed in the wiring head; the line pressing component defines a line pressing part which can be matched with the limiting part; the wire pressing component can be close to or far away from the wire through hole along a first direction, so that the wire pressing component can be in a first position connected with the connector lug or a second position separated from the connector lug; when the wire pressing component is positioned at the first position, the limiting part pushes the wire pressing part to approach towards the axis of the wire passing hole, so that the space between the wire pressing part and the wire passing hole is narrowed, and a lead penetrating through the wire passing hole can be extruded and restrained in the wire passing hole; when the wire pressing component is located at the second position, the limiting part is disengaged from the wire pressing part, and the wire pressing part resets to release the space, so that the wire can freely move in the wire passing hole along the axial direction of the wire passing hole.

To achieve the second purpose, the utility model adopts the following technical proposal:

in a second aspect, a male connector housing is provided, comprising a male housing defining a fixing cavity therein; a male socket terminal mounted in the fixing cavity; as described above, in the wiring assembly, the terminal block is disposed on the male housing, and the wire passing hole is communicated with the fixing cavity; the wire can penetrate into the fixed cavity from the wire passing hole and is electrically connected with the male seat terminal, and the wire is close to the wire passing hole along the first direction through the wire pressing component so as to be fixed in the fixed cavity and the wire passing hole at the first position.

To achieve the third purpose, the utility model adopts the following technical proposal:

in a third aspect, there is provided a connector assembly comprising a male connector housing as described above; the connector female seat is used for limiting a female seat jack which can be in plug-in fit with the male seat plug; and the female socket terminal is arranged in the female socket jack, and when the male socket plug is plugged in the female socket jack, the male socket terminal is electrically connected with the female socket terminal.

To achieve the fourth purpose, the utility model adopts the following technical proposal:

in a fourth aspect, a power system is provided, comprising an electric machine; the electronic speed regulator is used for controlling the working state of the motor; in the connector assembly, the female connector seat is fixedly arranged on the shell of the motor; the motor is electrically connected with the electronic speed regulator through the connector assembly.

In order to achieve the fifth purpose, the utility model adopts the following technical scheme:

in a fifth aspect, an unmanned device is provided, comprising a body; the horn is connected to the machine body, and a wiring channel is defined in the horn; the power system as described above, the motor and the electronic speed regulator are mounted on the horn at intervals; the electronic speed regulator is connected with the male connector seat through a wire, one end of the wire is electrically connected with the electronic speed regulator, the other end of the wire penetrates into the wiring channel and penetrates out of the wiring channel at a position close to the motor, the other end of the wire is electrically connected with the male connector seat through the wiring assembly, and the motor is inserted in the female connector seat through the male connector seat and is electrically connected with the electronic speed regulator.

The utility model has the advantages that: the utility model discloses a wiring subassembly, through the downthehole spacing portion that sets up of crossing that sets up at the connector lug, form corresponding line ball portion on the line ball component, at the wiring in-process, the wire penetrates in the line hole, the line ball component along the first direction be close to cross the line hole and with cross the line hole formation relation of being connected, be in the primary importance, at this in-process, spacing portion supports to push the line ball portion and is close to towards crossing the line downthehole, so that cross the line hole and narrow, let the wire can be extruded and retrain crossing the line hole, accomplish the wiring. The lead can be separated from the connector lug and the connector male seat provided with the connector lug before threading, after the lead passes through the corresponding wiring channel, then the lead is connected with the male connector seat through the wiring component, and the male connector seat is in inserting fit with the female connector seat, so that the two points are electrically connected, the assembly and threading difficulty of the system and the equipment is reduced, the corresponding assembly and wiring efficiency is improved, meanwhile, the situation that the threading structure is limited by the connector male seat in the threading process is avoided, the wire can be threaded from the wire routing channel with smaller size, so that the wire routing structure in the equipment can be designed to be more compact, and then the application range of the power system is wider, the volume of the unmanned equipment can be correspondingly reduced due to the compact wiring structure, and the compactness of the system and the equipment is further improved.

In addition, when the wire needs to be detached from the connector lug, the wire pressing component only needs to be separated from the connector lug along the first direction and is located at the second position, the restraint of the wire in the wire passing hole is removed, and the effect of quick detachment is achieved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a front view of a connector assembly according to an embodiment of the present invention in an assembled state;

fig. 2 is a sectional view showing an assembled state of the connector assembly according to the embodiment of the present invention;

FIG. 3 is an enlarged view of section A of FIG. 2;

FIG. 4 is a schematic view of a second position of the wire connection assembly according to the embodiment of the present invention;

FIG. 5 is a schematic view illustrating the movement of the wire connecting assembly from the second position to the first position according to an embodiment of the present invention;

FIG. 6 is a second schematic view illustrating the wire connecting assembly of the embodiment of the present invention moving from the second position to the first position;

FIG. 7 is a schematic view of a first position of the wiring assembly according to the embodiment of the present invention;

FIG. 8 is one of an isometric view of a connector assembly according to an embodiment of the present invention (with the wire connecting assembly removed);

fig. 9 is a second isometric view of the connector assembly of the present invention (with the wire connector assembly removed);

FIG. 10 is an exploded view of the connector assembly according to an embodiment of the present invention (with the wiring assembly removed);

fig. 11 is a second exploded view of the connector assembly according to the embodiment of the present invention (with the wiring assembly removed);

fig. 12 is an isometric view of a housing of the female housing according to an embodiment of the present invention;

fig. 13 is an isometric view of the work housing according to an embodiment of the present invention.

In the figure: 10. a connector lug; 11. a wire passing hole; 12. a limiting part; 121. a second pressing surface; 13. a clamping block; 131. a bevel; 132. a clamping head; 20. a wire pressing member; 21. a wire pressing hole; 211. a first pressing surface; 22. a wire pressing part; 23. a card slot; 231. an elastic reset arm; 24. a waterproof sealing sleeve; 30. a male housing; 31. a fixed cavity; 32. a male connector; 33. a guide post; 40. a male socket terminal; 50. a female housing; 51. an accommodating chamber; 52. a female socket jack; 53. a wiring cavity; 531. injecting glue holes; 532. a wire guide hole; 54. a first housing; 55. a second housing; 56. a guide groove; 60. a female socket terminal; 70. an electric motor.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solutions adopted by the present invention, and the technical effects achieved by the present invention clearer, it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments, and the technical solutions of the embodiments of the present invention are further described in detail below. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 7, the present embodiment provides a wiring assembly, which is characterized in that the wiring difficulty between the male connector seat and the wire is reduced, the wiring efficiency between the male connector seat and the wire is improved, and the wire is convenient to be connected to the male connector seat after being fixed to the wiring structure in a penetrating manner. The present embodiment is applicable to various types of power systems and unmanned equipment including the motor 70, and is used to connect the motor 70 and the electronic speed regulator in the power system and the unmanned equipment to supply power to the power system and the equipment and transmit signals. The power system of the present application may be applied to different types of mobile platforms that may move in any suitable environment, such as in the air (e.g., fixed wing aircraft, rotorcraft), in the water (e.g., ship or submarine), on land (e.g., automobile or train), in space (e.g., space craft, satellite or probe), and any combination of the above. The movable platform may be an aircraft, such as an Unmanned Aerial Vehicle (UVA for short). In some embodiments, the movable platform may carry a living body, such as a human or animal.

The above mentioned unmanned device may be an unmanned aerial vehicle, an unmanned ship, etc., and may be considered as one type of movable platform, and this embodiment is exemplified by the unmanned aerial vehicle as an example, and it is understood that the type of the unmanned device may also be other devices as described above, which cannot be understood as a limitation of the present invention. Specifically, the unmanned aerial vehicle may be a multi-rotor unmanned aerial vehicle, such as a four-rotor unmanned aerial vehicle, a six-rotor unmanned aerial vehicle, an eight-rotor unmanned aerial vehicle, a twelve-rotor unmanned aerial vehicle, and the like, which may be used to carry loads to accomplish predetermined tasks, such as carrying imaging devices to take photographs, carrying pesticides, nutrients, and spraying devices to perform plant protection tasks, and the like.

Before further description of the wire connection assembly, the male connector holder and the connector assembly, it should be noted that, taking the exploded view of the connector assembly in fig. 10-11 as an example, the height direction along the connector assembly is defined as the height direction of the male connector holder and the female connector holder described herein, i.e. the "first direction" indicated by the arrow in the drawing, and specifically, referring to fig. 2, 4 and 10-12, the height direction generally refers to the extending direction of the fixing cavity 31 and the accommodating cavity 51 and the length direction of the male terminal 40 and the female terminal 60 in the mounted state, and also refers to the axial direction of the wire passing hole 11; in contrast, the connector assembly of the present embodiment has a long side and a short side because it is provided with 3 male socket plugs 32 and female socket jacks 52 side by side, and the direction along the short side of the connector assembly is defined as the width direction of the connector assembly, i.e. the "second direction" indicated by the arrow in the drawing.

The connector assembly comprises a connector lug 10, wherein the connector lug 10 is used for connecting with a wire, the external structure of the connector lug 10 is not specifically limited, and can be a rectangular body, a cylinder and other structures, the external structure of the connector lug 10 of the embodiment is a cylinder as an example, a wire through hole 11 is formed in the connector lug 10, preferably, the central axis of the wire through hole 11 coincides with the central axis of the whole connector lug 10, that is, the wire through hole 11 axially penetrates through two opposite ends of the connector lug 10 along the axial direction of the connector lug 10, so that the wire can penetrate into the connector lug from the outside of a connector male base through the wire through hole 11 and form an electrical connection with a male base terminal 40. The limiting portion 12 is defined at the wire passing hole 11, and it can be understood that the limiting portion 12 is disposed on a hole wall of the wire passing hole 11, or disposed at an end of the wire passing hole 11, or formed by extending an end of the wire passing hole 11 in a first direction, and is configured to cooperate with the wire pressing portion 22 on the wire pressing member 20, and a specific structure of the limiting portion is not limited herein, as long as the limiting portion can cooperate with the wire pressing portion 22, and the wire pressing portion 22 can cooperate with the wire passing hole 11 to restrain the wire in the wire passing hole 11, and the specific structure of the limiting portion can be embodied in the following contents of this embodiment. The wire pressing portion 22 may be formed by protruding outward from a side of the wire pressing member 20 facing the wire passing hole 11, and the structure of the wire pressing portion 22 may include two arc-shaped bumps or a bump without limitation to shape, and may also include a bump with a ring-shaped structure, but is not limited thereto, as long as the wire pressing portion can cooperate with the limiting portion 12 to restrain the wire.

The wire pressing member 20 can be close to or far away from the wire passing hole 11 along the axial direction (equivalent to the first direction) of the wire passing hole 11, on the basis, in order to avoid the loss of the wire pressing member 20, the wire pressing member 20 and the connector lug 10 can be movably connected, so that the wire pressing member 20 can be connected with the connector lug 10 to a certain extent no matter what state the wire pressing member 20 is in, of course, the wire pressing member 20 can also be in a completely separated state from the connector lug 10 in a non-use state, therefore, the wire pressing member 20 can be separately and independently processed from the connector lug 10, and the wire pressing member 20 can be replaced when being damaged by fatigue.

Specifically, when the wire pressing member 20 is close to the wire passing hole 11 and is relatively fixed with the connector lug 10, the wire pressing member 20 can be located at a first position connected with the connector lug 10, and in a state that the wire pressing member 20 is located at the first position, if a wire passes through the wire passing hole 11, the wire pressing member 20 can restrict the wire in the wire passing hole 11, so that the wire and the male connector base form a connection relation; when the wire pressing member 20 is far away from the wire passing hole 11 and is separated from the connector lug 10, the wire pressing member 20 can be in a second position separated from the connector lug 10, and in the state that the wire pressing member 20 is in the second position, the wire pressing member 20 does not influence the inside of the wire passing hole 11, and it can be understood that the degree of freedom of the wire is not limited by the wire pressing member 20. The specific principle of the wire pressing member 20 for restraining or releasing the wire is that, when the wire pressing member 20 approaches the wire passing hole 11 along the first direction, the wire pressing portion 22 will approach the limiting portion 12 gradually and cooperate with the limiting portion 12 during the approach, and during the cooperation between the limiting portion 12 and the wire pressing portion 22, the limiting portion 12 will apply an acting force to the wire pressing portion 22 in the central direction (axial direction) of the wire passing hole 11, so that the limiting portion 12 will push the wire pressing portion 22 to approach the central direction of the wire passing hole 11, so as to narrow the space capable of threading in the wire passing hole 11, so that the surface of the wire originally placed in the wire passing hole 11 is pressed by the wire pressing portion 22, and when the size of the space in the wire passing hole 11 is gradually squeezed and narrowed by the wire pressing portion 22 to be smaller than the diameter of the wire, the wire pressing portion 22 will apply a certain pressure to the surface of the wire, so as to press the wire against the hole wall of the wire passing hole 11, and the wire pressing member 20 is connected with the connector lug 10 and is matched and kept at the first position, so that the freedom degree of the wire in the axial direction of the wire passing hole 11 can be limited, and the wire can be fixed. If the wire pressing part 22 with the annular structure is selected, the contact area between the wire pressing part 22 and the lead can be further increased, so that the constraint effect of the wire pressing part 22 on the lead can be further increased.

When the wire pressing member 20 is away from the wire passing hole 11 from the first position along the first direction, the wire pressing portion 22 will move gradually towards the direction away from the position-limiting portion 12, and gradually disengage from the position-limiting portion 12 in the process of keeping away from the position-limiting portion 22, and in the process of gradually disengaging the wire pressing portion 22 from the position-limiting portion 12, the acting force exerted by the position-limiting portion 12 on the wire pressing portion 22 will gradually decrease, and finally the acting force will disappear when disengaging from the position-limiting portion, so that the wire pressing portion 22 will gradually reset and move towards the direction away from the wire passing hole 11, the space capable of threading in the wire passing hole 11 will gradually widen, so that the surface pressure of the wire pressed and restrained in the wire passing hole 11 will gradually decrease, when the space size in the wire passing hole 11 gradually widens to be larger than the diameter of the wire in the process of gradually keeping away from the wire passing hole 11 by the wire pressing portion 22, at this time, the wire pressing member 20 will be in the second position, therefore, the lead can freely move along the axial direction of the wire through hole 11 in the wire through hole 11, and further can selectively penetrate into the wire through hole 11 or be drawn out from the wire through hole 11.

By the simple structure of the wiring assembly, the single pin wire can be freely wired at the corresponding connector lug 10 in any state, thereby realizing the electrical connection between the electronic device accessed by the male connector seat and the electronic device accessed by the female connector seat through the inserting and matching of the male connector seat and the female connector seat, the lead can be pre-connected with the male connector seat through the wiring component as in the traditional wiring scheme, that is, the wire pressing member 20 is located at the first position, and is connected to the corresponding female connector seat after passing through the threading structure of the circuit structure such as system, device, etc., if the wire passing channel in the threading structure is too narrow, it is not convenient for the male connector seat to thread, the male connector housing can be separated from the conductor prior to threading and the crimping member 20 can be in the second position after the conductor is threaded through the threading structure and then quickly connected to the male connector housing by the wire connector assembly. Like this, when having reduced the assembly of system, equipment, the threading degree of difficulty, the corresponding assembly and the wiring efficiency that have improved system, equipment also can avoid the wire at the condition that the public seat of connector restricted of threading in-process, the wire can be followed the line passageway of walking that the size is less than the public seat of connector size and threaded, thereby can design the line structure of walking inside the equipment compacter, and then let driving system's range of application wider, unmanned equipment's volume also can be because of walking the corresponding reduction of line structure compacter, further improve the compactness of system and equipment.

In addition, the wire is dismantled from the public seat of connector and also only need drive line ball component 20 and keep away from connector lug 10 along the first direction can to realize the quick dismantlement of wire and the public seat of connector, like this, when driving system and unmanned equipment need maintain, change corresponding part or wire, just can realize the dismantlement between the circuit structure more fast, improve the efficiency of system and equipment in routine maintenance, change.

In order to ensure that the wire pressing member 20 is stably connected with the connector lug 10 in the first position, and prevent the wire from being released from the wire passing hole 11, in an embodiment, a snap structure may be provided between the connector lug 10 and the wire pressing member 20, and the snap structure may form a snap fit when the wire pressing member 20 moves to the first position near the connector lug 10 to restrain the wire pressing member 20 in the first position; and in the state of disengaging the snap fit, the wire pressing member 20 disengages from the connector lug 10 and moves to the second position.

The buckle structure can be arranged between the connector lug 10 and the wire pressing member 20 and is separately processed with the connector lug 10 and the wire pressing member 20, correspondingly, a corresponding structure which can be matched with the buckle structure can be processed on the connector lug 10 and the wire pressing member 20, so that when the connector lug 10 and the wire pressing member 20 need to be matched and connected, the buckle structure can be better assembled between the connector lug 10 and the wire pressing member 20; in the process of processing and forming the wire connector 10 and the wire pressing member 20, snap-fit snap structures can be processed on the wire connector 10 and the wire pressing member 20 respectively, so that the wire pressing member 20 and the wire connector 10 can be directly snap-fit.

It should be noted that, the snap structure is a connection structure for determining the combination between the parts, which can achieve a simple and fast assembly effect, the snap structure is designed with various structural assembly forms, and it is a conventional means of those skilled in the art, and the specific structure of the snap structure is not limited herein as long as the snap structure can achieve the above-mentioned purpose of keeping the wire pressing member 20 stable on the connector lug 10, and has a detachable function.

As a preferable scheme, the fastening structure in this embodiment includes a fastening block 13 and a slot 23, the fastening block 13 may be disposed on the connector lug 10, correspondingly, the slot 23 is disposed on the wire pressing member 20, and the fastening block 13 can be fastened into the slot 23 when approaching the slot 23, and forms a fastening fit with the slot 23; or the card slot 23 can also be arranged on the connector lug 10, and correspondingly, when the card slot 23 is arranged on the connector lug 10, the card connecting block 13 is arranged on the wire pressing member 20.

When the wire pressing member 20 is close to the connector lug 10, the clamping block 13 and the clamping groove 23 can be in snap fit, so that the wire pressing member 20 is restrained at the first position.

Certainly, when draw-in groove 23 and buckle are two or more, can be provided with joint piece 13 and draw-in groove 23 simultaneously on connector lug 10 and the line ball component 20, as long as draw-in groove 23 and joint piece 13 on the connector lug 10 can correspond with draw-in groove 23 and the cooperation position of joint piece 13 on the line ball component 20, guarantee that joint piece 13 can correspond to block in the middle of the draw-in groove 23, let line ball component 20 keep in the primary importance can. The clamping blocks 13 and the clamping grooves 23 can be three, four, five or more, the arrangement intervals can also adopt unequal intervals, and the wire pressing members 20 can be firmly fixed on the connector lug 10 when the clamping blocks 13 and the clamping grooves 23 are in snap fit.

In order to further improve the stability of the wire pressing member 20 in the first position engaging with the wire connector lug 10 and the stability of the wire connection in the wire passage 11, in one embodiment, the wire pressing member 20 may be provided with a wire pressing hole 21 corresponding to the wire passage 11, wherein, in order to improve the compactness of the wire pressing member 20 and the wire connector lug 10 in the engaged state, the wire pressing member 20 may be in a ring structure, so that the wire pressing member 20 and the wire connector lug 10 can be engaged to form a barrel structure when the wire pressing member 20 is engaged with the end of the wire connector lug 10, in this embodiment, the diameter of the wire pressing hole 21 is the same as the diameter of the wire passage 11, of course, the diameter of the wire pressing hole 21 may be larger or smaller than the diameter of the wire passage 11 as long as the wire penetrating into the wire connector lug 10 can pass through smoothly, and when the wire pressing member 20 is in the first position, the wire pressing hole 21 is coincident with the axis of the wire passage 11, the wire can penetrate into the connector lug 10 along the axial direction of the wire pressing hole 21 and the wire passing hole 11, the condition that the wire is damaged due to the fact that the wire is pressed when the wire pressing hole 21 and the wire passing hole 11 are staggered in the axial direction can be avoided, and the condition that the wire is stressed unevenly and is difficult to fix due to the fact that the wire pressing hole 21 and the wire passing hole 11 are staggered in the axial direction can be avoided.

In one embodiment, the number of the clamping blocks 13 and the clamping grooves 23 may be the same, and the number of the clamping blocks 13 and the clamping grooves 23 is at least two, each clamping groove 23 or each clamping block 13 may be disposed around the periphery of the wire pressing hole 21 at equal intervals, each clamping block 13 or each clamping groove 23 on the wire holder 10 corresponds to the position of the clamping block 13 or each clamping groove 23 disposed on the wire pressing member 20, and specifically, in order to enable the clamping blocks 13 and the clamping grooves 23 on the wire holder 10 and the wire pressing member 20 to form a snap fit when the wire pressing member 20 is in the first position, the clamping blocks 13 or the clamping grooves 23 on the wire pressing member 20 may both extend in a direction close to the wire holder 10, so that the clamping blocks 13 or the clamping grooves 23 on the wire pressing member 20 can be snapped on the clamping blocks 13 or the clamping grooves 23 on the wire holder 10 in the first position of the wire pressing member 20, and conversely, the clamping blocks 13 or the clamping grooves 23 on the wire holder 10 may both extend in a direction close to the wire pressing member 20, similarly, the wire pressing member 20 can be in the first position state, and the clamping block 13 or the clamping groove 23 on the wire pressing member 20 can be clamped on the clamping block 13 or the clamping groove 23 on the connector lug 10.

It should be noted that the above-mentioned direction approaching the wire connector terminal 10 and the direction approaching the wire pressing member 20 are both relative position directions of the wire pressing member 20 and the wire connector terminal 10 when the wire pressing member 20 is at the first position.

In this embodiment, the number of the clamping blocks 13 and the number of the clamping grooves 23 are two, two clamping grooves 23 are formed in the wire pressing member 20, the two clamping grooves 23 are respectively arranged on two opposite sides of the wire pressing member 20, correspondingly, the two clamping blocks 13 are arranged on the outer surface of the connector lug 10, the two clamping grooves 23 extend towards the direction close to the connector lug 10 and are arranged towards the center direction of the wire pressing hole 21, the distance between each clamping groove 23 and the wire pressing member 20 is equal to the distance between each clamping groove 23 and the corresponding clamping block 13 when the wire pressing member 20 is located at the first position, and therefore the clamping grooves 23 can be clamped into the clamping blocks 13 on the connector lug 10 when the wire pressing member 20 is located at the first position. Further, an assembly space is formed between the two clamping grooves 23 and used for installing the connector lug 10, when the wire pressing member 20 is close to the connector lug 10, the connector lug 10 is inserted into the assembly space, so that the two clamping grooves 23 are respectively located on two opposite sides of the outer surface of the connector lug 10, and through the buckling fit of the clamping blocks 13 and the clamping grooves 23, the two opposite sides of the wire pressing member 20 are affected by the buckling structures, an acting force continuously close to the direction of the connector lug 10 is formed, and the tight fit with the connector lug 10 is kept.

As another alternative of the above arrangement of the clamping block 13 and the clamping groove 23, the arrangement is also implemented on the basis that the wire pressing member 20 is provided with a wire pressing hole 21 corresponding to the wire passing hole 11, and the wire pressing member 20 is in an annular structure, in this alternative, the clamping block 13 and the clamping groove 23 are both in an annular structure and are respectively arranged around the outer wall surface of the connector lug 10 and the inner wall of the wire pressing hole 21.

In one embodiment, the positions of the ring-shaped structure of the engaging block 13 and the engaging groove 23 may be set as follows: first, the clamping block 13 can be arranged around the outer wall surface of the wire pressing member 20 with a cylindrical structure by taking the wire pressing hole 21 as a center, and correspondingly, the clamping groove 23 can be arranged around the outer wall surface of the connector lug 10 with a cylindrical structure by taking the wire passing hole 11 as a center; secondly, the clamping groove 23 can be arranged around the outer wall surface of the wire pressing member 20 with the wire pressing hole 21 as the center, and correspondingly, the clamping block 13 can be arranged around the outer wall surface of the connector lug 10 with the wire passing hole 11 as the center.

It should also be noted that, in order to enable the wire pressing member 20 and the engaging blocks 13 and the engaging slots 23 on the connector lug 10 to form a snap fit when the wire pressing member 20 is located at the first position, the engaging blocks 13 or the engaging slots 23 on the wire pressing member 20 may extend in a direction close to the connector lug 10, so that the engaging blocks 13 or the engaging slots 23 on the wire pressing member 20 can be snapped onto the engaging blocks 13 or the engaging slots 23 on the connector lug 10 in the first position state; conversely, the clamping block 13 or the clamping groove 23 on the connector lug 10 can also extend along the direction close to the wire pressing member 20, and the clamping block 13 or the clamping groove 23 on the wire pressing member 20 can be clamped on the clamping block 13 or the clamping groove 23 on the connector lug 10 in the first position state.

It should be noted that the above-mentioned direction approaching the wire connector lug 10 and the direction approaching the wire pressing member 20 are both relative position directions of the wire pressing member 20 and the wire connector lug 10 when the wire pressing member 20 is at the first position.

By taking the wire pressing member 20 provided with the clamping groove 23, the connector lug 10 provided with the clamping block 13 as an example, the clamping block 13 takes the wire passing hole 11 as a center, and surrounds the outer wall surface of the connector lug 10 arranged in the cylindrical structure, the clamping groove 23 arranged on the wire pressing member 20 extends towards the direction close to the connector lug 10, and is arranged towards the center direction of the wire pressing hole 21, and the distance from the clamping groove 23 to the wire pressing member 20 is equal to the distance from the clamping block 13 when the wire pressing member 20 is in the first position, so that the clamping groove 23 can be clamped into the clamping block 13 on the connector lug 10 when the wire pressing member 20 is in the first position. Further, the clamping groove 23 of the ring structure is surrounded to form an assembly space, the assembly space is used for installing the connector lug 10, when the wire pressing member 20 is close to the connector lug 10, the connector lug 10 is inserted into the assembly space, so that the clamping groove 23 of the ring structure is sleeved on the outer surface of the connector lug 10, the clamping block 13 is matched with the clamping groove 23 in a buckling mode, the part surrounding the wire pressing member 20 is affected by the buckling structure, acting force continuously close to the direction of the connector lug 10 is formed, and tight fit of the connector lug 10 is kept.

In order to enable the wire pressing member 20 to gradually enter the first position from the second position near the connector lug 10, the clamping groove 23 can be more easily in a snap fit relationship with the clamping block 13, in an embodiment, the clamping block 13 can be a wedge-shaped clamping block, and the surface of the clamping block 13 defines an inclined surface 131, because the surface of the clamping block 13 is the inclined surface 131, the clamping block 13 can gradually protrude in the first direction on the connector lug 10 or the wire pressing member 20, and a clamping head 132 used for being clamped into the clamping groove 23 is formed at the end of the inclined surface 131, so that the clamping groove 23 can move along the inclined surface 131 in the process that the clamping block 13 is near the clamping groove 23, and the clamping head 132 is finally clamped, and the wire pressing member 20 is kept at the first position.

When the clamping block 13 is arranged on the connector lug 10, the surface of the clamping block 13 inclines towards the direction of the wire pressing member 20, and the clamping head 132 is arranged at one end of the clamping block 13, which is far away from the wire pressing member 20; when the clamping blocks 13 are arranged on the wire pressing member 20, the surfaces of the clamping blocks 13 incline towards the direction of the connector lug 10, and the clamping head 132 is arranged at one end of the clamping blocks 13 far away from the connector lug 10.

Taking the case that the wire pressing member 20 is provided with the clamping groove 23, the wire connector 10 is provided with the clamping block 13, the surface of the clamping block 13 inclines towards the wire pressing member 20, that is, the clamping block 13 gradually protrudes from one end close to the wire pressing member 20 towards one end far away from the wire pressing member 20, and the clamping head 132 is formed at the end of the inclined plane 131, when the wire pressing member 20 moves from the second position to the first position, the clamping groove 23 will first contact with the inclined plane 131 and move along the inclined plane 131 along the first direction, the clamping groove 23 will be gradually jacked up by the inclined plane 131 towards the direction far away from the wire connector 10, and finally the clamping block 23 and the clamping head 132 form a snap fit state when the wire pressing member 20 reaches the first position, thereby reducing the difficulty of the wire pressing member 20 in the wire connecting process, the clamping groove 23 can easily form a snap fit with the clamping block 13 when the wire pressing member 20 moves from the second position to the first position, and the clamping block 13 and the clamping groove 23 can be kept stable under the action of the clamping head 132, the pressing member 20 is kept fixed at the first position, so that the installation is facilitated, and the stability in the assembled state is improved.

As described above, in an embodiment, in the embodiment that the engaging piece 13 is disposed on the wire pressing member 20, an elastic reset arm 231 may be further disposed between the engaging piece 13 and the wire pressing member 20; in embodiments where the catch 23 is provided on the clip member 20, a resilient return arm 231 may also be provided between the catch 23 and the clip member 20.

One end of the elastic return arm 231 is connected to the wire pressing member 20, and the other end of the elastic return arm 231 extends in a direction away from the wire pressing member 20, i.e., in a direction toward the connector lug 10 as described in the present embodiment. Of course, it is also possible to provide the elastic reset arm 231 between the wire connector 10 and the engaging groove 23 or the engaging block 13 provided on the wire connector 10, if the wire pressing member 20 is provided with the elastic reset arm 231, the engaging block 13 or the engaging groove 23 on the wire connector 10 is provided on the outer surface of the wire connector 10, and if the wire connector 10 is provided with the elastic reset arm 231, the engaging groove 23 or the engaging block 13 on the wire pressing member 20 is provided on the outer surface of the wire pressing member 20. The elastic restoring arm 231 can be used as an extension member of the above-mentioned slot 23 or the engaging piece 13, so that the engaging piece 13 can be accurately inserted into the slot 23 when the wire pressing member 20 is engaged with the connector lug 10.

Further, the elastic reset arm 231 has a certain degree of freedom and elastic reset capability, so that in the process of assembling, disassembling and assembling or disassembling the clamping block 13 and the clamping groove 23, the clamping groove 23 or the clamping block 13 can move along with the elastic reset arm 231 towards the direction far away from the connector lug 10 or the wire pressing member 20 under the influence of the inclined surface 131 or the clamping head 132, and the clamping fit or the disengagement is facilitated.

As will be described in detail below, the specific matching structure of the wire pressing portion 22 and the limiting portion 12 is that one side of the wire pressing portion 22 is inclined from one end of the wire pressing portion far away from the connector lug 10 to one end of the wire pressing portion close to the connector lug 10 to form a first abutting surface 211; correspondingly, one side of the limiting part 12 is inclined from one end far away from the connector lug 10 to one end close to the connector lug 10 to form a second abutting surface 121 which can be in contact with the first abutting surface 211 in a matching manner, when the wire pressing member 20 is in the first position state, the limiting part 12 applies an acting force close to the center direction of the wire through hole 11 to the first abutting surface 211 through the second abutting surface 121, so that the wire pressing part 22 moves towards the axis of the wire through hole 11, when a wire passes through the wire through hole 11, the wire pressing part 22 can abut against the surface of the wire, and when the limiting part 12 and the wire pressing part 22 are arranged around the periphery of the wire, each wire pressing part 22 is abutted against the corresponding limiting part 12 in the first position state and moves towards the center direction of the wire through hole 11, so as to form a wire clamping structure, and the wire is clamped between the wire through hole 11.

It should be further noted that, as shown in fig. 4, in order to enable the limiting portion 12 to apply a certain force to the wire pressing portion 22 towards the axis of the wire pressing hole 21 when the wire pressing member 20 is in the first position, the present embodiment is to make the connector assembly in a vertically placed state, that is, the connector male seat is located at the upper part of the drawing, the connector female seat is located at the lower part of the drawing, and the vertical direction is parallel to the axes of the wire pressing hole 21 and the wire passing hole 11, an included angle formed between the first pressing surface 211 and the horizontal plane is defined as an inclination angle α, an included angle formed between the second pressing surface 121 and the horizontal plane is defined as an inclination angle β, and in the state that the wire pressing member 20 is in the second position, the inclination angles α and β are the same, and of course, the inclination angles α and β may be different from each other, but it should be noted that, in order to make the wire pressing portion 22 and the limiting portion 12 better match, the length of the pressing part 22 can be larger than that of the limiting part 12, and it can be understood that: the length of the first abutting surface 211 is greater than that of the second abutting surface 121, or, it can be understood from another layer, the maximum thickness of the wire pressing portion 22 is greater than the width of the gap between the limiting portion 12 and the lead wire located in the wire passing hole 11, thus, when the wire pressing member 20 is located at the first position, the wire pressing portion 22 and the limiting portion 12 cannot reach a completely matched structure, it can be understood that, because the width of the gap between the limiting portion 12 and the lead wire located in the wire passing hole 11 is less than the maximum thickness of the wire pressing portion 22, when the wire pressing portion 22 extends beyond the wire passing hole 11, a mutual acting force will naturally occur between the limiting portion 12 and the wire pressing portion 22, and at this time, the limiting portion 12 applies an acting force approaching the axis of the wire pressing portion 21 to the wire pressing portion 22. Optionally, in addition to generating an interaction force between the limiting portion 12 and the wire pressing portion 22 by the difference of the extension lengths, the angles of the inclination angle α and the inclination angle β may be changed, so that the limiting portion 12 and the wire pressing portion 22 reach the above-mentioned state that cannot be completely matched, and an interaction force is generated at the first position to push the wire pressing portion 22 to extrude toward the wire pressing hole 21.

Furthermore, in order to enable the wire to be clamped in the wire hole 11 more stably when the wire pressing member 20 is located at the first position, the wire pressing member 20 is provided with a wire pressing hole 21 corresponding to the wire hole 11, the specific structure of the wire pressing member is consistent with that of the wire pressing hole 21, the wire pressing portion 22 is arranged around the wire pressing hole 21, correspondingly, the wire pressing portion 22 corresponding to the limiting portion 12 is arranged around the wire hole 11, the wire pressing portion 22 and the limiting portion 12 can be multiple, or the wire pressing portion 21 and the wire hole 11 can be arranged around the ring-shaped structure.

Under the condition that the wire pressing portions 22 and the limiting portions 12 are multiple, the multiple wire pressing portions 22 and the limiting portions 12 are preferably arranged on the peripheries of the wire passing holes 11 and the wire pressing holes 21 at intervals in a surrounding mode, the positions of the limiting portions 12 and the positions of the wire pressing portions 22 are in one-to-one correspondence, and it is ensured that each limiting portion 12 can correspondingly push each wire pressing portion 22 to form an annular wire claw structure under the condition that the wire pressing member 20 is in the first position state, so that each wire pressing portion 22 can clamp a wire in the direction close to the center of the wire pressing hole 21; and under the condition that the wire pressing portion 22 and the limiting portion 12 are both of an annular structure, the wire pressing portion 22 and the limiting portion 12 are arranged around the wire passing hole 11 and the wire pressing hole 21 in an annular structure, and in the state that the wire pressing member 20 is at the first position, the limiting portion 12 can apply acting force to the wire pressing portion 22, the acting force is close to the axis of the wire pressing hole 21, so that the wire pressing portion 22 can be extruded around the periphery of the wire, and the degree of freedom of the wire in the wire pressing hole 21 is restrained.

In one embodiment, to improve the waterproofing performance of the entire wiring assembly, the wiring assembly may further include a waterproof sealing boot 24. Thus, in the assembly process of the wire connecting assembly, as shown in fig. 4, the wire can be sleeved with the waterproof sealing sleeve 24 in the state that the wire pressing member 20 is located at the second position, and then the wire pressing member 20 is sleeved with the wire through the wire pressing hole 21, so that a waterproof sealing layer is formed between the wire and the wire pressing hole 21.

The process of connecting the push-down wire member 20 to the connector lug 10 is explained below:

as shown in fig. 5, during the movement of the wire pressing member 20 from the second position toward the first position in the first direction, the catching groove 23 moves along the inclined surface 131 with the wire pressing member 20 and is pushed open by the catching block 13 when moving to the catching block 13;

as shown in fig. 6, when the top surface of the inner cavity of the wire pressing member 20 is about to contact but not contact with the top of the connector lug 10, the card connector 132 of the card connecting block 13 is not completely clamped in the card slot 23, the position-limiting portion 12 contacts with the first inclined surface 131 of the wire pressing portion 22 through the second inclined surface 131, the wire pressing portion 22 does not receive the acting force of the position-limiting portion 12 or the acting force is weak although the position-limiting portion 12 and the wire pressing portion 22 are in a contact state, and at this time, a gap still exists between the wire pressing hole 21 and the waterproof sealing sleeve 24;

as shown in fig. 7, when the wire pressing member 20 is continuously moved in the first direction to contact the top of the connector lug 10 and is located at the first position, the limiting portion 12 applies an acting force to the wire pressing portion 22 in a direction close to the wire pressing hole 21, so that the wire pressing portion 22 abuts against the surface of the waterproof sealing sleeve 24, the wire is clamped by the waterproof sealing sleeve 24, the card-in connector 132 is completely clamped into the card slot 23, and the end of the card slot 23 is also clamped into the positioning slot at the end of the card-in connector 132.

As shown in fig. 8-fig. 13, the utility model also provides a public seat of connector, public seat of connector includes public seat casing 30, public seat casing 30 structure is similar with female seat casing 50 structure, its inside fixed chamber 31 of injecing, the relative both ends in fixed chamber 31 communicate with the public seat of connector is outside respectively, public seat plug 32 is injecing to public seat casing 30's one of them one end, public seat casing 30's the other end sets up foretell wiring subassembly, so that install public seat terminal 40 head and the tail both ends in fixed chamber 31 respectively just to public seat plug 32 with cross the setting of line hole 11, connector lug 10 sets up in public seat casing 30, and cross line hole 11 and be linked together with fixed chamber 31.

Public seat terminal 40 is installed in fixed chamber 31, public seat plug 32 is used for with the female seat cooperation of pegging graft of connector, realize the public seat of connector and the female seat of connector electricity and be connected, and the one end of public seat terminal 40 is used for inserting the wire, it is fixed mutually with the wire tip through the mode of crimping, realize being connected with other circuits, the wire can penetrate fixed chamber 31 and with public seat terminal 40 electric connection from crossing line hole 11, and be close to line hole 11 along the first direction through line ball component 20, so that line ball component 20 reachs first position department, and then be fixed in fixed chamber 31 and cross in the line hole 11 with the wire.

Further, the utility model also provides a connector assembly, this connector assembly includes the above-mentioned male seat of connector and a corresponding female seat of connector, the female seat of connector includes female seat shell 50, its inside defines and holds the chamber 51, hold opposite ends of chamber 51 and communicate with the outside of male seat shell 30 separately, in order to define female seat jack 52 that can be pegged graft with male seat plug 32 and can insert the wiring chamber 53 of wire; one part of the female socket terminal 60 is disposed in the wiring cavity 53, and the other part is disposed in the female socket jack 52, so that when the male socket plug 32 is plugged into the female socket jack 52, the male socket terminal 40 is electrically connected to the female socket terminal 60.

In order to ensure that the male housing 30 and the female housing 50 more accurately guide and insert the male plug 32 into the female jack 52 during the insertion and mating process, a guiding structure may be disposed between the male housing 30 and the female housing 50, and the male connector may be inserted into the female connector or separated from the female connector along a first direction under the guidance of the guiding structure.

Specifically, the guide structure includes a plurality of guide posts 33 arranged outside the male housing 30 and extending along the first direction, and a guide groove 56 arranged outside the female housing 50 and extending along the first direction and matching with the guide posts 33, wherein when the guide posts 33 and the guide groove 56 are provided in plurality, the guide posts 33 and the guide groove 56 are in one-to-one correspondence. When the male connector seat is inserted into the female connector seat along the first direction, the guide grooves 56 guide the guide posts 33, so that the movement direction of the male connector seat is limited, the male connector seat can be smoothly inserted into the female connector seat along the plugging direction, and similarly, the guide posts 33 and the guide grooves 56 are matched to guide the disassembly of the male connector seat and the female connector seat, so that the damage of a connector assembly caused by the wrong force application direction when the male connector seat is disassembled is avoided.

Furthermore, in order to reduce the installation difficulty of the female connector base and avoid the situation that the female connector base needs to be pulled out of a corresponding circuit in a wiring process to form a lead with redundant allowance. The female housing 50 may include a first housing 54 and a second housing 55, the second housing 55 being detachably connected to the first housing 54 and enclosing a receiving chamber 51 in a connected state.

First casing 54 mainly plays isolated and protective effect with second casing 55, and optionally, detachable connection can be realized through connection modes such as buckle, mortise and tenon joint, grafting, screw connection between first casing 54 and the second casing 55, and in this embodiment, taking unmanned aerial vehicle as an example, because unmanned aerial vehicle's motor 70 needs to operate for a long time with high strength, therefore, first casing 54 in this embodiment preferably adopts the screw connection that joint strength is higher with second casing 55. Specifically, the opposite ends of the accommodating cavity 51 are both communicated with the exterior of the female connector, one end of the accommodating cavity defines a female socket jack 52 for being in plug-in fit with the male connector, one end close to the wiring cavity 53 defines a wire guide 532 for passing through a wire, the wire guide 532 can be opened and closed by disassembling and assembling the first shell 54 and the second shell 55, in this embodiment, the female socket jack 52 is in a cylindrical structure, the female socket terminal 60 is similar to a cylinder, the female socket insertion hole 52 of the cylinder structure surrounds the end of the female socket terminal 60, and forms a plugging space for plugging the male socket plug 32 with the female socket terminal 60, of course, it may be a polygonal tubular structure such as a triangular tubular structure or a rectangular tubular structure, as long as the male connector seat 50 can form a plug-in fit with the female connector seat along the second direction or can be separated from the female connector seat along the second direction.

Specifically, the first housing 54 and the second housing 55 are detachably or fittingly connected in the second direction to open or close the accommodation chamber 51. Taking the connector female seat as an example, only one accommodating cavity 51 is provided, the second direction may be a radial direction of the accommodating cavity 51, when the first housing 54 and the second housing 55 are detached and separated along the second direction, one side of the accommodating cavity 51 along the length direction is opened, so that one side of the accommodating cavity 51 along the length direction is opened to form an installation space; taking 3 accommodating cavities 51 arranged side by side in the female connector holder as an example, since 3 accommodating cavities 51 are arranged in the female connector holder, the female connector holder can certainly form a three-dimensional structure with long sides and short sides, and in this state, the second direction is the width direction of the female connector holder, when the first shell 54 and the second shell 55 are detached and separated, 3 accommodating cavities 51 are simultaneously opened, so that the side parts are opened in the length direction of the 3 independent accommodating cavities 51 to form an installation space.

Further, in the state that the accommodating cavity 51 is opened, the female socket terminal 60 can be separated from the accommodating cavity 51 or put into the accommodating cavity 51 along the second direction, i.e. along the same direction of the disassembling and assembling directions of the first shell 54 and the second shell 55, so that the female socket terminal 60 can be installed into the accommodating cavity 51 along the radial direction of the accommodating cavity 51, and the female socket terminal 60 is prevented from being put into the accommodating cavity 51 along the length direction of the accommodating cavity 51 or the female socket terminal 60 is prevented from being put into the accommodating cavity 51 during the process of forming the female socket.

The specific assembling process of the connector female seat comprises the following steps:

s10, detaching the first casing 54 and the second casing 55 from the assembled and connected state to the detached and separated state, and if the first casing 54 and the second casing 55 are in the detached and separated state originally, omitting this step;

s20, taking the female socket terminal 60 out of the containing cavity 51, and if the female socket terminal 60 is originally separated from the first shell 54 and the second shell 55, omitting the step;

s30, connecting an end of a lead (an enameled wire extending from the motor 70) to one end of the female socket terminal 60, and pressing the lead by the female socket terminal 60 to form a tight electrical connection with the lead;

s40, placing the first housing 54 or the second housing 55 on one side of the female socket terminal 60, and loading the female socket terminal 60 into the single-side receiving cavity 51 of the first housing 54 or the second housing 55 along the second direction, and stabilizing the female socket terminal 60 in the single-side receiving cavity 51;

s50, the first housing 54 or the second housing 55 not fitted with the female socket terminal 60 and the second housing 55 or the first housing 54 fitted with the female socket terminal 60 are assembled so that the lead wire is fixed in the lead wire hole 532 and the female socket terminal 60 is fixed in the accommodation chamber 51.

Through the assembling steps, when the length of the wire is short, namely under the condition that the length of the enameled wire extending out of the motor 70 is limited, the wire connection of the enameled wire is prevented from being stretched, or the enameled wire extending out of the motor 70 is controlled under the condition that one end of the connector is connected into the female seat terminal 60, the length of the enameled wire extending out of the motor 70 just meets the connection requirement, after the wire connection is finished, the enameled wire with the redundant length part is not required to be retracted into the motor 70, the condition that the enameled wire needs to be retracted into the motor 70 for too long after the enameled wire connection is avoided, the wire is effectively protected, meanwhile, the relatively compact wiring structure is ensured, and finally, the wire is combined with a wiring assembly, the compact structure of the female seat of the integral connector is improved, and the integral structure of a power system and unmanned equipment is compact.

In addition, the female seat casing 50 can be provided with the glue injection hole 531, the glue injection hole 531 communicates the wiring cavity 53, the wiring cavity 53 is communicated with the outside of the female seat casing 50 through the glue injection hole 531, so that the wiring cavity 53 can be filled with waterproof glue from the outside of the female seat casing 50 through the glue injection hole 531, so that the wiring cavity 53 is filled with the waterproof glue, the waterproof glue filled in the wiring cavity 53 can be coated on the outer wall of the female seat terminal 60, and a gap between the female seat terminal 60 and the wire guide hole 532 is filled. Like this, utilize waterproof glue to seal the gap between wiring chamber 53 and wire guide 532 to female seat terminal 60 and the wire guide 532 to prevented effectively that water or steam from leading-in to wiring chamber 53 along the wire in, in order to realize improving female seat casing 50's waterproof sealing performance, satisfied the needs that use, and then ensure signal and current transmission's stability, reliability. The connector assembly can ensure the stability of current and signal transmission in the application of a power system and unmanned equipment, the stability and the reliability of the operation of the equipment are improved, and the application range of the waterproof connector is further enlarged.

Here, in order to further improve the water tightness of the wire connecting assembly, the wire connecting head 10 may further be provided with a waterproof sealing sleeve 24, and when a wire is inserted into the wire passing hole 11, the waterproof sealing sleeve 24 may be sleeved on the wire, placed inside the wire pressing hole 21 and the wire passing hole 11, and fixed to the surface of the wire by pressing the wire pressing portion 22.

The embodiment further provides a power system using the connector assembly, the power system includes a motor 70, an electronic speed regulator and the connector assembly, the electronic speed regulator is used for controlling the working state of the motor 70, the connector female seat is fixedly arranged on the housing of the motor 70, and the motor 70 is electrically connected with the electronic speed regulator through the connector assembly.

One end of the male socket terminal 40 is connected to a wire by crimping, and here, the male socket terminal 40 and the female socket terminal 60 may be made of conductive materials such as copper, copper alloy, aluminum alloy, conductive plastic, conductive rubber, and the like. Specifically, the 3 male socket terminals 40 are respectively in press fit with the three-phase lines, the other ends of the three-phase lines are electrically connected with the electronic speed regulator, the female socket shell 50 electrically connects the enameled wire extending out of the motor 70 with the female socket terminal 60 through the wiring mode, the female socket shell 50 is pre-installed on the shell of the motor 70 after connection, and finally the male socket plug 32 is inserted into the female socket plug, so that the electronic speed regulator is conducted with the motor 70.

The motor 70 in this embodiment is referred to by a section of the housing of the motor 70. the motor 70 can be a three-phase motor 70, and the motor 70 can operate under the control of an electronic governor.

The power system described in this embodiment can make the connection between the electronic speed regulator and the male connector seat be performed after the wire is subjected to the threading procedure through the wiring component, the wire connected with the electronic speed regulator is connected with the male connector seat after passing through the wiring channel of the corresponding device and application scene, thereby avoiding the situation that the male connector seat is difficult to or unable to pass through the wiring channel when being connected with the male connector seat, the wiring channel structure can further reduce the size thereof, the size of the wiring channel is smaller than that of the male connector seat and larger than the diameter of the wire, the wire can be ensured to pass through the wiring channel, after the wire penetrates out of the wiring channel, the wire is connected with the male connector seat through the wiring component and then is in inserting fit with the female connector seat on the motor 70, and the device and application scene which the power system can apply are wider. Meanwhile, the detachable female seat shell 50 structure and the corresponding glue injection hole 531 structure are matched, so that the overall structure of the power system is more compact, the waterproof performance is higher, the compactness and the corresponding performance of the power system and the equipment and the scene applying the power system are further improved, and the connector is more favorable for maintenance.

Furthermore, the present embodiment also provides an unmanned aerial vehicle using the power system, which includes a horn on a body, the horn defining a routing channel therein, the power system being mounted on the unmanned aerial vehicle, and specifically, the motor 70 and the electronic governor being mounted on the horn at intervals.

The specific assembly process of the connector assembly and the unmanned device comprises the following steps:

s10, electrically connecting the enameled wire extending from the motor 70 with the female socket terminal 60 by the above method, and installing the female socket terminal 60 into the female socket housing 50;

s20, pre-installing the female housing 50 on the motor 70 housing;

s30, injecting waterproof glue into the wiring cavity 53 through the glue injection hole 531;

s40, a lead connected with the electronic speed regulator penetrates into a wiring channel in the machine arm and penetrates out of the machine arm at a position close to the motor 70;

s50, the wire pressing member 20 is movably sleeved on the wire, and the wire penetrates into the fixing cavity 31 of the male socket shell 30 through the wire through hole 11 and is electrically connected with the male socket terminal 40;

s60, moving the pressing member 20 from the second position to the first position, and connecting to the connector lug 10 through a snap-fit structure, wherein the position-limiting portion 12 is in a state of pushing against the wire portion 22, so that the pressing portion 22 clamps and fixes the wire in the wire-passing hole 11, thereby completing the electrical connection between the electronic governor and the motor 70.

In the description herein, it is to be understood that the terms "upper," "lower," "left," "right," and the like are used merely for convenience in description and simplicity in operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it will be understood by those skilled in the art that the specification as a whole and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (20)

1. A wiring assembly, comprising:

the wire connecting head (10) is provided with a wire passing hole (11), and a limiting part (12) is limited by the inner wall of the wire passing hole (11);

the line pressing component (20) defines a line pressing part (22) which can be matched with the limiting part (12);

the wire pressing member (20) can be close to or far away from the wire passing hole (11) along a first direction so that the wire pressing member (20) can be in a first position connected with the connector lug (10) or a second position separated from the connector lug (10);

when the wire pressing component (20) is located at the first position, the limiting part (12) pushes the wire pressing part (22) to approach towards the axis of the wire passing hole (11) so as to narrow the space between the wire pressing part (22) and the wire passing hole (11) and enable a lead wire penetrating through the wire passing hole (11) to be squeezed and restrained in the wire passing hole (11);

when the wire pressing member (20) is in the second position, the limiting part (12) is disengaged from the wire pressing part (22), and the wire pressing part (22) is reset to release the space, so that the wire can freely move in the wire passing hole (11) along the axial direction of the wire.

2. The wiring lug assembly of claim 1, further comprising:

and the waterproof sealing sleeve (24) is sleeved on the periphery of the lead and is positioned between the line pressing part (22) and the lead when being sleeved on the periphery of the lead.

3. The terminal assembly of claim 1, wherein a snap-fit arrangement is provided between the terminal head (10) and the wire clip member (20) for restraining the wire clip member (20) in the first position.

4. The wiring lug assembly of claim 3, wherein the snap-fit structure comprises:

a clamping block (13) and a clamping groove (23) which can be mutually clamped;

the clamping block (13) is arranged on the connector lug (10), and the clamping groove (23) is arranged on the wire pressing component (20); or, the clamping block (13) is arranged on the wire pressing component (20), and the clamping groove (23) is arranged on the connector lug;

when the clamping block (13) is in snap fit with the clamping groove (23), the wire pressing component (20) is located at a first position; when the clamping block (13) is disengaged from the clamping groove (23), the line pressing member (20) is located at the second position.

5. The wiring assembly according to claim 4, wherein the wire pressing member (20) is provided with wire pressing holes (21) corresponding to the wire passing holes (11), and the number of the clamping blocks (13) is the same as that of the clamping grooves (23);

when the number of the clamping grooves is one, the clamping grooves (23) are opposite to the clamping blocks (13), one of the clamping grooves is arranged on the periphery of the wire pressing hole (21), and the other clamping groove is arranged on the periphery of the wire passing hole (11);

when the number is more than one, the clamping grooves (23) and the clamping blocks (13) are in one-to-one correspondence, and the corresponding clamping grooves (23) are opposite to the clamping blocks (13); wherein, each clamping groove (23) or each clamping block (13) are arranged around the periphery of the pressure wire hole (21) at equal intervals.

6. The terminal assembly according to claim 4, wherein the wire pressing member (20) defines a wire pressing hole (21) corresponding to the wire passing hole (11), the engaging piece (13) and the engaging groove (23) are integrally formed in a ring structure, one of the engaging piece (13) and the engaging groove (23) is disposed around the wire pressing hole (21), and the other is disposed around the wire passing hole (11).

7. The terminal assembly of claim 5 or 6, wherein one of the clamping block (13) and the clamping groove (23) is arranged on the outer circumferential surface of the terminal head (10), and the other clamping block is arranged on the outer circumferential surface of the wire pressing member (20) and faces the wire pressing hole (21), so that the clamping groove (23) and the clamping block (13) can be oppositely arranged and form a snap connection when the wire pressing member (20) is in the first position.

8. The terminal assembly according to any one of claims 4-7, characterized in that the snap-in blocks (13) are wedge-shaped blocks and their surfaces define a ramp (131);

under the condition that the clamping block (13) is arranged on the connector lug (10), the surface of the clamping block (13) inclines towards the direction of the wire pressing member (20);

under the condition that the clamping blocks (13) are arranged on the wire pressing members (20), the clamping blocks (13) incline towards the direction of the connector lug (10).

9. The junction assembly of claim 8, characterised in that, in the case of the snap-in block (13) being provided on the wire clip member (20), a resilient return arm (231) is provided between the snap-in block (13) and the wire clip member (20); under the condition that the clamping groove (23) is arranged on the line pressing member (20), an elastic reset arm (231) is arranged between the clamping groove (23) and the line pressing member (20);

one end of the elastic reset arm (231) is connected with the line pressing member (20), and the other end of the elastic reset arm (231) extends towards the direction far away from the line pressing member (20).

10. The terminal assembly of claim 1, wherein one side of the crimping portion (22) is inclined from an end remote from the terminal (10) toward an end close to the terminal (10) to form a first abutting surface (211);

correspondingly, one side of the limiting part (12) is inclined from one end far away from the connector lug (10) to one end close to the connector lug (10) to form a second abutting surface (121) which is used for being matched and contacted with the first abutting surface (211); in the state that the wire pressing component (20) is at the first position, the limiting part (12) applies acting force approaching towards the axis of the wire passing hole (11) to the first abutting surface (211) through the second abutting surface (121) so as to enable the wire pressing part (22) to move towards the axis of the wire passing hole (11).

11. The wire connection assembly according to claim 10, wherein the wire pressing member (20) is provided with a wire pressing hole (21) corresponding to the wire passing hole (11), and the wire pressing part (22) is arranged around the periphery of the wire pressing hole (21);

correspondingly, the limiting part (12) is arranged on the periphery of the wire passing hole (11) in a surrounding mode.

12. The wiring assembly according to claim 10, wherein the wire pressing member (20) is provided with wire pressing holes (21) corresponding to the wire passing holes (11), and the number of the wire pressing parts (22) is the same as that of the limiting parts (12);

when the number is more than one, the pressure line parts (22) are opposite to the position of the limiting part (12), and one of the pressure line parts is arranged on the periphery of the pressure line hole (21);

when the number is more than one, the pressing parts (22) correspond to the limiting parts (12) one by one, and the corresponding pressing parts (22) and the Hull limiting parts (12) are opposite in position; wherein, each pressing part (22) or each limiting part (12) is arranged around the periphery of the pressing hole (21) at equal intervals.

13. A male connector receptacle, comprising:

a male housing (30) defining a fixed cavity (31) therein;

a male socket terminal (40) mounted to the fixing cavity (31);

the terminal assembly of any one of claims 1-12, the terminal head (10) being disposed in the male housing (30) and the wire passage hole (11) being in communication with the fixing cavity (31);

the lead can penetrate into the fixing cavity (31) from the wire through hole (11) and is electrically connected with the male socket terminal (40), and the lead is close to the wire through hole (11) along the first direction through the wire pressing component (20) so as to be fixed in the fixing cavity (31) and the wire through hole (11) at a first position.

14. Male connector socket according to claim 13, wherein the fixing cavity (31) defines a male socket plug (32) communicating with the outside of the male socket housing (30), the male socket plug (32) being intended for a plug-fit with a female connector socket;

the connector lug (10) and the male socket plug (32) are respectively arranged at two opposite ends of the male socket shell (30), so that the head end and the tail end of the male socket terminal (40) are respectively and rightly opposite to the male socket plug (32) and the wire passing hole (11).

15. A connector assembly, comprising:

the connector male socket of claim 14;

a female connector housing defining a female receptacle (52) adapted to mate with the male plug (32);

and the female socket terminal (60) is arranged in the female socket jack (52), and when the male socket plug (32) is plugged in the female socket jack (52), the male socket terminal (40) is electrically connected with the female socket terminal (60).

16. The connector assembly of claim 15, wherein the female connector housing further comprises:

a female housing (50) defining a receiving cavity (51) therein, opposite ends of the receiving cavity (51) being respectively communicated with the outside of the male housing (30) to define the female receptacle (52) and a wiring cavity (53) accessible to a wire;

the female socket terminal (60) is arranged in the accommodating cavity (51).

17. The connector assembly of claim 16, wherein the female housing (50) comprises:

a first housing (54);

a second housing (55) connected to the first housing (54) to enclose the accommodation chamber (51);

the first shell (54) and the second shell (55) can be detachably connected or assembled along a second direction so as to open or close the accommodating cavity (51);

the female socket terminal (60) is detachably mounted in the accommodating cavity (51);

the female socket terminal (60) can be detached from the accommodation cavity (51) or fitted into the accommodation cavity (51) in a second direction in a state where the accommodation cavity (51) is opened.

18. The connector assembly of claim 16, wherein a portion of the female socket terminal (60) is located in the wiring cavity (53) and another portion of the female socket terminal (60) is located in the female socket receptacle (52);

and the female seat shell (50) is provided with a glue injection hole (531), and the glue injection hole (531) is communicated with the wiring cavity (53).

19. A power system, comprising:

a motor (70);

an electronic governor for controlling the operating state of the motor (70);

the connector assembly of claim 15 or 18, the female connector housing being fixedly arranged to a housing of the electric motor (70);

the motor (70) is electrically connected with the electronic speed regulator through the connector assembly.

20. An unmanned device, comprising:

a body;

the machine arm is connected to the machine body, and a wiring channel is defined in the machine arm;

the power system of claim 19, said motor (70) being mounted on said horn in spaced relation to said electronic governor;

the electronic speed regulator is connected with the connector male seat through a wire, one end of the wire is electrically connected with the electronic speed regulator, the other end of the wire penetrates into the wiring channel and penetrates out of the wiring channel at a position close to the motor (70), the other end of the wire is electrically connected with the connector male seat through the wiring assembly, and the motor (70) is inserted into the connector female seat through the connector male seat and is electrically connected with the electronic speed regulator.

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