CN216413325U - Plug assembly and equipment with same - Google Patents
Plug assembly and equipment with same Download PDFInfo
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- CN216413325U CN216413325U CN202121355656.7U CN202121355656U CN216413325U CN 216413325 U CN216413325 U CN 216413325U CN 202121355656 U CN202121355656 U CN 202121355656U CN 216413325 U CN216413325 U CN 216413325U
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- insulating fixing
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- insulating
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Abstract
The application discloses plug subassembly and have equipment of this plug subassembly, plug subassembly includes: a housing; a pin, a first end of the pin being connected to a first side of the housing, a second end of the pin being disposed outside the housing; and when the plug pin is inserted into the first socket, part of the insulating fixing pin is arranged in the jack of the second socket outside the first socket in a pluggable manner. The utility model provides a scheme can strengthen the contact steadiness between plug assembly and socket when using, avoids the plug assembly problem that drops in the socket, guarantees the normal work of the electrical apparatus that plug assembly connects, and then promotes user's use and experiences and improve fail safe nature.
Description
Technical Field
The present disclosure relates to a plug assembly and an electronic device having the same.
Background
Wall sockets, i.e. sockets, are sockets through which one or more electrical connections can be inserted. Wall sockets are generally used as terminals and outlets of a wall wiring system to take out power, signals and data in the wall wiring system. The wall socket is mainly applied to various indoor places such as office places, hotels, markets, families and the like, and has wide application.
At present, electrical equipment and electrical apparatus all have plug assembly (for example, wall plug formula plug assembly), insert the jack that the wall was inserted through participating in with plug assembly to for electrical equipment and electrical apparatus power supply, but some plug assembly's volume is great (for example some plug assembly regard as charger again as power adapter promptly), this plug assembly also can be called power adapter), this leads to when plug assembly's Alternating Current (Alternating Current, for short AC) participate in the wall and insert the back fastness weak, drop easily, therefore the contact bad phenomenon that causes takes place during, and then influences electrical apparatus normal work.
Therefore, in view of the above problems, the present application provides a new plug assembly and a device having the same.
SUMMERY OF THE UTILITY MODEL
To address the problems in the prior art, the present application provides a plug assembly comprising:
a housing;
a pin, a first end of the pin being connected to a first side of the housing, a second end of the pin being disposed outside the housing;
and when the plug pin is inserted into the first socket, part of the insulating fixing pin is arranged in the jack of the second socket outside the first socket in a pluggable manner.
Optionally, the plug assembly further includes a rotating shaft connected to the insulating fixing pin, the first end of the insulating fixing pin is rotatably connected to the housing through the rotating shaft, and the insulating fixing pin is configured to be rotationally switched between the retracted position and the deployed position through the rotating shaft.
Optionally, one side of the housing connected to the insulating fixing foot is provided with a receiving groove, and the receiving groove is configured to receive the insulating fixing foot in the retracted position.
Optionally, the rotating shaft is disposed at the first end of the insulating fixing pin and protrudes to two sides of the insulating fixing pin.
Optionally, a bracket is arranged inside the housing, and the rotating shaft is rotatably fixed to the bracket;
at least one end of the rotating shaft is also fixedly connected with a limiting structure, and the radial section of the limiting structure is rectangular;
the plug assembly further comprises a pressing plate, the pressing plate is located inside the shell and covers the support, the limiting structure is located between the pressing plate and the shell, the distance between the pressing plate and the inner surface of the first side of the shell is smaller than the length of a diagonal line of the radial section, and the support is fixedly connected with the inner surface of the first side.
Optionally, the rotating shaft is disposed at the first end of the insulating fixing leg and protrudes toward two sides of the insulating fixing leg, an opening is disposed on a sidewall of the accommodating groove, and the rotating shaft is rotatably disposed in the opening.
Optionally, a cantilever is disposed at the bottom of the accommodating groove, and when the insulating fixing leg is in the unfolding position, the first end of the insulating fixing leg abuts against the cantilever.
Optionally, when the insulating fixing foot is in the retracted position, at least a part of the insulating fixing foot is tightly fitted and fixed in the accommodating groove.
Optionally, a protruding portion is disposed on a side wall of the first end portion of the insulating fixing foot, or a protruding portion is disposed on a side wall of the accommodating groove, and when the insulating fixing foot is located at the retracted position, the insulating fixing foot is tightly fitted and fixed in the accommodating groove through the protruding portion.
Optionally, the first end of the insulating fixing pin is detachably connected to the housing, and the second end of the insulating fixing pin is located outside the housing.
Optionally, a first slot is disposed on a first side of the housing, and the insulating fixing pin is configured to: the first end of the insulating fixing pin is used as a rotating shaft and is rotatably arranged in the first clamping groove, wherein the first clamping groove is configured as follows: allowing the first end rotated to a first position to move into or out of a first card slot, and restricting the first end rotated to a second position from being within the first card slot and inseparable from the housing.
Optionally, a first dimension of an opening of the first card slot in the first side in a first direction is greater than a second dimension in a second direction, wherein two side walls of the first end portion of the insulating fixing leg opposite to each other are respectively provided with a protruding structure, a distance between outer side surfaces of the protruding structures is smaller than or equal to the first dimension and is greater than the second dimension, and the first direction and the second direction are parallel to a surface of the first side.
Optionally, a second slot is disposed on the first side of the housing, and the insulating fixing pin is configured to: movable in a direction parallel to a surface of the first side of the housing between a first portion and a second portion of the second card slot, wherein the insulative mounting leg is detachably connected to the second card slot when the insulative mounting leg is in the first portion, and the second portion is configured to: the first end of the insulating fixing pin is limited to be located in the second clamping groove and not separated from the shell.
Optionally, a first width of an opening of the first portion on the first side is greater than a second width of an opening of the second portion on the first side, an outer side wall of the first end portion of the insulating fixing foot is provided with a protruding structure, and a distance between outer side surfaces of the protruding structures located on two opposite sides of the first end portion is smaller than or equal to the first width and is greater than the second width.
Optionally, a first limiting structure is further disposed at the bottom of the first portion of the second slot, and when the insulating fixing pin is located in the first portion, a second limiting structure is disposed on an end surface of the insulating fixing pin, which is in contact with the bottom of the first portion, and the first limiting structure is in tight fit connection with the second limiting structure.
Optionally, the first limiting structure comprises a protrusion and the second limiting structure comprises a groove, or the first limiting structure comprises a groove and the second limiting structure comprises a protrusion.
The present application further provides an apparatus comprising the aforementioned plug assembly.
In order to solve the technical problem that present plug subassembly inserts the wall and inserts the not strong easy obscission of fastness, this application provides a plug subassembly, this plug subassembly includes insulating fixed foot, works as when participating in the first socket, part insulating fixed foot pluggable set up in the jack of the second socket in the first socket outside to contact steadiness between reinforcing plug subassembly and socket when using, the problem of avoiding plug subassembly to drop in the socket guarantees the normal work of the electrical apparatus that plug subassembly connects, and then promotes user's use and experiences and improve fail safe nature.
The device of the present application has substantially the same advantages as the plug assembly, since it has the plug assembly described above.
Drawings
The following drawings of the present application are included to provide an understanding of the present application. The drawings illustrate embodiments of the application and their description, serve to explain the principles and apparatus of the application. In the drawings, there is shown in the drawings,
FIG. 1 is a partial schematic view of an embodiment of a plug assembly with an insulative retainer pin in an extended position;
fig. 2 is a partial schematic view of the insulative retainer pin of the plug assembly of fig. 1 in a retracted position in an embodiment of the present application;
FIG. 3 is a partially exploded view of a plug assembly according to an embodiment of the present application;
FIG. 4 is an enlarged view of the insulative mounting feet of the plug assembly of FIG. 2 of the present application;
FIG. 5 is a partial schematic view of an insulative retainer pin of a plug assembly according to another embodiment of the present application in a stowed position;
FIG. 6 is a schematic view of the insulating fixing foot of FIG. 5 in a deployed position;
FIG. 7 is a schematic view of the insulating fixing foot of FIG. 5 separated from the housing;
FIG. 8 is a cross-sectional view of the insulating fixing foot of FIG. 5 in a deployed position;
FIG. 9 is a cross-sectional view of the insulating mounting foot of FIG. 5 in a stowed position;
FIG. 10 is a partial schematic view of a plug assembly according to yet another embodiment of the present application;
fig. 11 is a schematic view of the plug assembly of fig. 10 with the insulative mounting feet and housing separated;
FIG. 12 is a schematic view of the opening of a first card slot in the plug assembly shown in FIG. 10;
fig. 13 is a partial schematic view of the plug assembly of fig. 10 with the insulative retainer pins installed in the first card slots and not yet rotated;
fig. 14 is a partial view of the plug assembly of fig. 10 with the insulative retainer pins received in the first card slots and rotated;
FIG. 15 is a partial schematic view of a plug assembly according to yet another embodiment of the present application;
FIG. 16 is a schematic view of the plug assembly of FIG. 15 with the dielectric mounting feet and housing separated;
fig. 17 is a partial schematic view of the plug assembly of fig. 15 with the insulative mounting feet received in the first portion of the second card slot;
fig. 18 is a first partial view of the plug assembly of fig. 15 with the insulative mounting feet moved to a second portion of the second card slot;
fig. 19 is a second partial view of the plug assembly of fig. 15 with the insulative retainer pins moved to a second portion of the second card slot;
fig. 20 is a partial cross-sectional view of the plug assembly of fig. 15 with the insulative mounting feet moved to a second portion of the second card slot.
Reference numerals:
Insulating fixing pin 103 accommodating groove 104
Limiting structure 1062 of rotating shaft 1061 of bracket 105
Supporting plate 3101 first limiting structure 3102
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present application. It will be apparent, however, to one skilled in the art, that the present application may be practiced without one or more of these specific details. In other instances, well-known features of the art have not been described in order to avoid obscuring the present application.
It is to be understood that the present application is capable of implementation in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art. In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity. Like reference numerals refer to like elements throughout.
It will be understood that, although the terms first, second, third, etc. may be used to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the present application.
Spatial relational terms such as "under," "below," "under," "above," "over," and the like may be used herein for convenience in describing the relationship of one element or feature to another element or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures.
Embodiments of the invention are described herein with reference to cross-sectional illustrations that are schematic illustrations of idealized embodiments (and intermediate structures) of the present application. As such, variations from the shapes of the illustrations as a result, for example, of manufacturing techniques and/or tolerances, are to be expected. Thus, embodiments of the present application should not be limited to the particular shapes of regions illustrated herein but are to include deviations in shapes that result, for example, from manufacturing. Thus, the regions illustrated in the figures are schematic in nature and their shapes are not intended to illustrate the actual shape of a region of a device and are not intended to limit the scope of the present application.
In order to solve the problem that the fastness is not strong easy to drop after present plug assembly inserts the wall and inserts, this application provides a plug assembly, includes:
a housing;
a pin, a first end of the pin being connected to a first side of the housing, a second end of the pin being disposed outside the housing;
and when the plug pin is inserted into the first socket, part of the insulating fixing pin is arranged in the jack of the second socket outside the first socket in a pluggable manner.
The application provides a plug component, this plug component includes insulating fixed foot, works as when participating in and inserting first socket, part insulating fixed foot pluggable set up in the jack of the second socket in the first socket outside to contact steadiness between reinforcing plug component and the socket when using, the problem of avoiding plug component to drop in the socket guarantees the normal work of the electrical apparatus that plug component connects, and then promotes user's use and experiences and improve fail safe nature.
Next, the structure of the plug assembly of the present application is explained and explained with reference to fig. 1 to 20.
As an example, as shown in fig. 1, the plug assembly of the present application includes a housing 101 having an accommodating space therein. The shape of the housing 101 can be set as appropriate according to actual needs, and may be, for example, square, circle, ellipse, polygon or other irregular shapes. It is worth mentioning that in the figures of the present application only the first side of the housing 101 is shown, but it should be understood that the complete housing further comprises e.g. a bottom shell or the like, which is combined with the cover of the first side of the housing 101 to form a housing.
The housing 101 is usually made of an insulating material, including but not limited to plastics, such as ABS plastic, PC, etc., and the insulating material and the flame retardant material are used to increase the flame retardant temperature of the housing 101 and further enhance the safety of the housing 101, which is not limited to the above materials.
The housing 101 has therein an accommodating space for accommodating a circuit board (e.g., a PCB board), and various circuit structures and devices, etc., provided on the circuit board, which are required for realizing, for example, a plug assembly as a power adapter or a charger. When the plug assembly is a power adapter, it can have both functions of an adapter and a charger.
Illustratively, the plug assembly of the present application further includes a pin 102, a first end of the pin 102 is connected with the first side of the housing 101, and a second end of the pin 102 is disposed outside the housing 101, wherein the number of the pins 102 may be two or three, and the pin 102 may include pins 102 conforming to safety standards of various countries, for example, pins 102 conforming to safety standards of countries such as china, the united states, japan, and the united kingdom. In the present embodiment, the structure of three pins 102 disposed at intervals is mainly taken as an example, but it should be noted that the structure of the pins 102 is not limited to the above structure, and other suitable structures may be adopted.
In one example, the plug assembly of the present application further includes an insulating fixing pin 103 located outside the pin 102, a first end of the insulating fixing pin 103 is connected to the first side of the housing 101, when the pin 102 is inserted into the first socket, a part of the insulating fixing pin 103 is pluggable to a jack (for example, a ground wire hole of the second socket or other suitable holes) of the second socket outside the first socket, so as to enhance contact stability between the plug assembly and the socket during use, avoid a problem that the plug assembly drops from the socket, ensure normal operation of an electrical appliance connected to the plug assembly, and further improve user experience and safety and reliability.
Optionally, the insulating fixing pin 103 is made of an insulating material, such as plastic, rubber, etc., so that the insulating fixing pin 103 only plays a fixing role and avoids electrical connection with other circuits.
The insulating fixing foot 103 may be connected with the first side of the housing 101 in any suitable manner, such as fixedly connected, rotatably connected, detachably connected, etc., and due to the limitation of the wall-mounted structure, in some cases, another socket is not provided outside the first socket into which the pin 102 is inserted, or another socket outside the first socket does not have a ground wire hole or a socket corresponding to the fixing foot, so the insulating fixing foot 103 of the present application may also be rotatably connected with the first side of the housing 101, the insulating fixing foot 103 rotates to the extended position when needed, and the insulating fixing foot 103 is in the retracted position when not needed, so as to avoid obstructing the insertion of the pin 102 into the socket.
Although the present application mainly uses one insulative fixing pin 103 as an example, it is understood that the plug assembly may further include a plurality of insulative fixing pins 103, and the insulative fixing pins 103 may correspond to a plurality of insertion holes of the second socket, if necessary. Herein, the shape and size of the insulating fixing foot 103 are configured to match the size and shape of the insertion hole to be inserted, for example, the insulating fixing foot 103 is substantially cylindrical, and the second end surface of the cylindrical shape may be a curved surface, and the size of the curved surface matches the size of the ground hole.
Two implementations of the insulating fixing foot rotatably connecting the first side of the housing will be described below, but it is understood that the following description is only by way of example, and that other suitable connection means may be applied to the present application.
In a first example, as shown in fig. 1 to 4, the plug assembly further includes a rotating shaft 1061 connected to the insulating fixing foot 103, a first end of the insulating fixing foot 103 is rotatably connected to the housing through the rotating shaft 1061, and the insulating fixing foot 103 is configured to be rotatably switched between the retracted position and the deployed position through the rotating shaft 1061.
Alternatively, the angle between the deployed position and the stowed position is substantially 90 degrees, as shown in fig. 2, when the insulating securing leg 103 is in the stowed position, the axial direction of the insulating securing leg 103 is substantially parallel to the outer surface of the first side of the housing, and when the insulating securing leg 103 is in the open position, as shown in fig. 1, the axial direction of the insulating securing leg 103 is substantially perpendicular to the outer surface of the first side of the housing, and when the insulating securing leg 103 is in the open position, the second end of the insulating securing leg 103 is located outside of the housing.
Optionally, a face of the housing that is connected to the insulating fixing foot 103 (i.e., a first side of the housing) is provided with a receiving slot 104, and the receiving slot 104 is configured to receive the insulating fixing foot 103 in the retracted position, so as to prevent the insulating fixing foot 103 in the open position from interfering with the insertion of the pin into the jack. On the premise that the receiving groove 104 can receive the insulating fixing pin 103, the shape and size of the receiving groove 104 can be set reasonably according to actual needs.
Alternatively, as shown in fig. 3, the rotating shaft 1061 is disposed at a first end of the insulating fixing leg 103 and protrudes to two sides of the insulating fixing leg 103, a bracket is disposed inside the housing, and the rotating shaft 1061 is rotatably fixed to the bracket. The bracket can be two brackets arranged at intervals, and the top end of the bracket is arranged in an inwards concave arc shape to be matched with the rotating shaft 1061.
Optionally, a limiting structure 1062 is further fixedly connected to at least one end of the rotating shaft 1061, the limiting structure 1062 is configured to limit the rotation of the insulating fixing foot in the retracted position or the deployed position, and a radial cross-sectional shape of the limiting structure 1062 is a rectangle, which may be a rectangle or a square. Optionally, the two ends of the rotating shaft 1061 may be provided with the limiting structures 1062, or only one end of the rotating shaft 1061 may be provided with the limiting structures 1062, which may be set reasonably according to actual needs.
Optionally, the plug assembly further includes a pressing plate 107, the pressing plate 107 is located inside the housing 101 and covers the bracket, wherein the bracket is fixedly connected to the inner surface of the first side, the rotating shaft 1061 is rotatably fixed on the bracket through the pressing plate 107, and the limiting structure 1062 is located between the pressing plate 107 and the inner surface of the first side of the housing 101, for example, between the pressing plate 107 located outside the bracket and the inner surface of the first side of the housing 101, when the insulating fixing foot 103 is in the extended position or in the retracted position, two parallel first surfaces and second surfaces of the limiting structure 1062 are parallel to the inner surface of the first side of the housing 101, and the first surfaces and the second surfaces are perpendicular to the end surface of the rotating shaft 1061, optionally, the distance between the pressing plate 107 and the inner surface of the first side of the housing 101 may be greater than or equal to the distance between the first surfaces, and the distance between the pressing plate 107 and the inner surface of the first side of the housing 101 is smaller than the radial section of the limiting structure 1062 (for example, the distance between the pressing plate 107 and the inner surface of the first side of the housing 101 and the limiting structure 1062 is smaller than the radial section of the second side of the insulating fixing foot 103 E.g., a rectangular cross-section, which may be rectangular or square), and, with such an arrangement, when the insulating fixing foot 103 is in the stowed or deployed position, since the limiting structure 1062 is limited by the housing 101 and the pressing plate 107, when the external force is not applied, the rotating shaft 1061 can not rotate any more, thereby serving as a limiting function, optionally, the portion of the pressure plate 107 opposite to the limiting structure 1062 is an elastic structure, such as a cantilever structure, or a structure made of a material having elasticity, etc., by which, when the insulating fixing foot 103 is subjected to an external force, the limiting structure 1062 can exert a pressure on the elastic structure under the action of an external force, so that the elastic structure is deformed, and then the deformation is to allow the limiting structure 1062 to rotate, so as to allow the rotating shaft 1061 to drive the insulating fixing foot 103 to rotate, thereby realizing the switching between the retracted position and the extended position of the insulating fixing foot 103.
Alternatively, the pressure plate 107 may be fixed in the housing 101 by any suitable means, such as screwing, bonding, welding, etc., and in the embodiment of the present application, the pressure plate 107 is fixed by a screw 108 connected to a threaded seat provided in the housing 101. The assembly of the insulating fixing feet can be facilitated by screwing, for example, the insulating fixing feet can penetrate into the first side of the casing 101 from the inside of the casing 101, and the insulating fixing feet are fixed by the pressing plate 107 and the screw 108. It is worth mentioning that for the convenience of assembly, the first side of the casing 101, i.e. the portion for mounting the insulating fixing feet 103 and the pins 105, may be a first cover, which may be further combined with a second cover to form the complete casing 101.
With the first example structure, the insulating fixing foot 103 may be installed outward from the housing, which may be referred to as an internal-loading plug assembly.
In a second example, as shown in fig. 7, the rotating shaft 109 is disposed on two opposite side walls of the first end of the insulating fixing leg 103 and protrudes to two sides of the insulating fixing leg 103, an opening 111 is disposed on a side wall of the receiving groove 104, and the rotating shaft 109 is rotatably disposed in the opening 111. The shape of the rotating shaft 109 may be cylindrical, and optionally, the axial direction of the rotating shaft 109 is substantially perpendicular to the length extending direction of the insulating fixing foot 103.
In this example, as shown in fig. 7, the insulating fixing foot 103 may be installed from the outside of the housing, that is, externally installed, and optionally, for convenience of installation, grooves 112 are further provided on two side walls at the opening of the receiving groove 104.
Optionally, the bottom of the receiving groove 104 is provided with a cantilever 110, when the insulating fixing foot 103 is in the unfolding position, the first end of the insulating fixing foot 103 abuts against the cantilever 110, so that the insulating fixing foot in the unfolding position is limited to rotate by the cantilever 110 to ensure that the insulating fixing foot is stably in the unfolding position, thereby facilitating the insertion of the insulating fixing foot into the jack. Alternatively, the included angle between the extended position and the retracted position is substantially 90 degrees, when the insulating fixing foot 103 rotates from the retracted position to the extended position, the side wall of the first end portion thereof abuts against the side wall of the receiving groove 104 adjacent to the first end portion of the insulating fixing foot 103, so as to limit the insulating fixing foot 103 to continue rotating in the direction larger than 90 degrees, while the first end portion of the insulating fixing foot 103 is substantially in the shape of a square block, two corners of the square block close to the cantilever 110 can be set to arc-shaped corners, and the end surface of the first end portion of the insulating fixing foot 103 abuts against the cantilever 110, as shown in fig. 8, so that the two are interfered with each other to generate an acting force to limit the insulating fixing foot 103 to be stable in the extended position, thereby preventing the insulating fixing foot 103 from rotating when being inserted into the insertion hole.
Optionally, as shown in fig. 5, when the insulating fixing foot 103 is in the retracted position, at least a part of the insulating fixing foot 103 is tightly fitted and fixed in the accommodating groove 104, as shown in fig. 9, so that the insulating fixing foot 103 is stably in the retracted position to prevent it from falling out of the accommodating groove 104, optionally, a protrusion is provided on a side wall of the first end portion of the insulating fixing foot 103, or a protrusion is provided on a side wall of the accommodating groove 104, and when the insulating fixing foot 103 is in the retracted position, the insulating fixing foot 103 is tightly fitted and fixed in the accommodating groove 104 by the protrusion (i.e., interference between the protrusion and the side wall of the accommodating groove at a position indicated by an arrow in fig. 9). Alternatively, the sidewall of the receiving groove 104 may be provided as a resilient structure, such as the cantilever 110 or made of a material having elasticity.
With the above arrangement, when the insulating fixing foot 103 is acted by an external force applied by a user, the external force applies a pressure to the cantilever 110 and the sidewall of the accommodating groove 104, so as to deform, and further deform to allow the insulating fixing foot 103 to rotate, so as to switch the insulating fixing foot 103 between the retracted position and the extended position (as shown in fig. 6).
In a third example, as shown in fig. 10, the first end 211 of the insulating fixing foot 103 is detachably connected to the housing, and the second end of the insulating fixing foot 103 is located outside the housing. Optionally, a first slot 210 is disposed on a first side of the housing, and the insulating fixing foot 103 is configured to: the first end 211 of the insulating fixing pin 103 is rotatably disposed in the first slot 210 as a rotation axis, wherein the first slot 210 is configured as: the first end 211 rotated to the first position is allowed to move into the first card slot 210 or move out of the first card slot 210, and the first end 211 rotated to the second position is restricted from being located in the first card slot 210 and not separated from the housing.
Optionally, a first dimension (a dimension d1 shown in fig. 12) of the opening of the first card slot 210 in the first side of the housing in the first direction is larger than a second dimension (a dimension d2 shown in fig. 12) in the second direction, wherein, as shown in fig. 11, two side walls of the insulating fixing foot 103 opposite to the first end 211 are respectively provided with a protruding structure 212, and a distance between outer side surfaces of the protruding structures 212 is smaller than or equal to the first dimension and larger than the second dimension, wherein the first direction and the second direction are parallel to the surface of the first side of the housing. Optionally, the depth of the first slot 210 may be set to at least accommodate the first end 211 of the insulating fixing pin, the first end 211 of the insulating fixing pin may serve as a rotation shaft, and optionally, the radial dimension of the first end 211 of the insulating fixing pin is smaller than the radial dimension of the main body portion of the insulating fixing pin connected to the first end 211, so that a groove is formed between the protrusion 212 and the end surface of the main body portion adjacent to the first end 211, and the dimension of the groove in the axial direction of the insulating fixing pin may be matched to the thickness of the housing portion on both sides of the opening of the first slot 210.
Optionally, a support plate 2101 is disposed at the bottom of the first slot 210, and when the insulating fixing pin 103 is located in the first slot 210, the support plate 2101 supports the insulating fixing pin 103 to prevent the insulating fixing pin 103 from falling into the housing.
Alternatively, the side wall of the first card slot 210 may be configured to be an arc shape, the surrounding area of the side wall may be generally cylindrical, and the outer side surface of the protruding structure 212 may also be configured to be an arc shape or a rectangle, and when the outer side surface of the protruding structure 212 is an arc shape, the radial dimension of the cylindrical shape surrounded by the side wall of the first card slot 210 is greater than the radial dimension of the arc shape of the outer side surface of the protruding structure 212, so that the protruding structure 212 can be accommodated in the first card slot 210.
Alternatively, the number of the convex structures 212 of the first end portion 211 of the insulating fixing foot 103 is two, and the convex structures are symmetrically arranged about the axial center of the first end portion 211, and when the outer side surface of each convex structure 212 is in the shape of a circular arc, the circular shape of the circular arc may be located on the central axis of the insulating fixing foot 103.
With the structure of this example, when necessary, as shown in fig. 13, a user can align the protrusion 212 of the first end 211 of the insulating fixing pin 103 with the first size of the opening of the first card slot 210 to mount the insulating fixing pin 103 into the first card slot 210 of the housing, and then rotate the insulating fixing pin 103, as shown in fig. 14, so that the insulating fixing pin 103 is fixed to the first side of the housing by clamping the first end 211 of the insulating fixing pin 103 into the first card slot 210, and when not necessary, the insulating fixing pin 103 can be rotated to a position where it can be pulled out from the opening of the first card slot 210, and then the insulating fixing pin 103 on the housing is detached to ensure that the pins of the plug assembly can be normally inserted into the socket.
In a fourth example, as shown in fig. 15, a first end of the insulating fixing foot 103 is detachably connected to the housing, and a second end of the insulating fixing foot 103 is located outside the housing, optionally, as shown in fig. 16, a first side of the housing is provided with a second slot 310, and the insulating fixing foot 103 is configured to: movable in a direction parallel to the surface of the first side of the housing between a first portion and a second portion of the second card slot 310, wherein the insulating fixing foot 103 is detachably connected to the second card slot 310 when the insulating fixing foot 103 is located at the first portion, and wherein the second portion is configured to: the first end of the insulating fixing pin 103 is restricted to be located in the second slot 310 and is not separated from the housing. With such an arrangement, when necessary, as shown in fig. 17, a user can align the first end of the insulating fixing pin 103 with the opening of the first portion of the second card slot to mount the first end into the second card slot, and then move the first end to the second portion of the second card slot, as shown in fig. 18, so that the insulating fixing pin 103 is fixed to the first side of the housing by clamping the first end of the insulating fixing pin 103 to the second portion of the second card slot 310, and when not necessary, the insulating fixing pin 103 can be moved to the first portion of the second card slot 310 to enable the first end to be disengaged from the second card slot 310, so that the insulating fixing pin 103 on the housing can be detached to ensure that the pins of the plug assembly can be normally inserted into the socket.
Optionally, a first width of an opening of a first portion of the second card slot 310 on the first side of the housing is greater than a second width of an opening of a second portion on the first side. Optionally, a protruding structure 311 is disposed on a sidewall of the first end of the insulating fixing foot 103, and a distance between outer side surfaces of the protruding structures 311 located on two opposite sides of the first end is smaller than or equal to the first width and larger than the second width. Illustratively, the protruding structures may be two protruding structures 311 symmetrically arranged about the central axis of the insulating fixing foot 103, the outer side surfaces of the protruding structures 311 may be circular arc-shaped or plane-shaped, or the protruding structures 311 may also be other protruding structures 311 of any other shape; or in other examples, the protrusion structure 311 may be an integral protrusion structure 311 protruding outward from the side of the first end portion, such as a disc-shaped protrusion structure 311, where the disc-shaped protrusion structure 311 surrounds the peripheral side wall of the first end portion, or the protrusion structure 311 may be a square block shape or other polygonal or irregular shape. Optionally, the shape and size of the opening of the first portion of the second card slot 310 and the shape and size of the protruding structure 311 are matched so that the insulating fixing foot 103 can be fitted into the second card slot 310 from the first portion.
Illustratively, as shown in fig. 19, a support plate 3101 is disposed at the bottom of the second slot 310, and when the insulating fixing pin 103 is located in the second slot 310, the support plate 3101 supports the insulating fixing pin 103 to prevent the insulating fixing pin 103 from falling into the housing. Optionally, a first limiting structure 3102 is further disposed at the bottom of the first portion of the second slot 310 (e.g., the surface of the support plate 3101 of the first portion), when the insulating fixing foot 103 is located in the first portion, a second limiting structure is disposed at an end surface of the insulating fixing foot 103 contacting with the bottom of the first portion, the first limiting structure 3102 is tightly fitted to the second limiting structure, and through the tight fitting of the first limiting structure 3102 and the second limiting structure, the insulating fixing foot 103 can be limited and fixed, so as to ensure that the insulating fixing foot 103 is stably mounted on the first side of the housing. Alternatively, as shown in fig. 17 and 20, the first limiting structure 3102 may comprise protrusions and the second limiting structure may comprise recesses, or the first limiting structure 3102 may comprise recesses and the second limiting structure may comprise protrusions, or any other suitable structure that is capable of limiting.
Optionally, at least a portion of the sidewall of the second card slot 310 may be configured as an opening to facilitate movement of the first end of the insulative mounting foot.
To sum up, the application provides a plug assembly, this plug assembly includes insulating fixed foot, when participating in and inserting first socket, partial insulating fixed foot can set up in the jack of the second socket in the first socket outside with inserting to contact steadiness between reinforcing plug assembly and the socket when using, the problem of avoiding plug assembly to drop in the socket, the normal work of the electrical apparatus that the assurance plug assembly connects, and then promote user's use and experience and improve fail safe nature.
In addition, the present application also provides a device, which includes the above-mentioned plug assembly, and specifically, the structure of the plug assembly may refer to the foregoing description and is not described herein again.
Alternatively, the device may be any consumer, such as a water heater, refrigerator, washing machine, television, computer display, etc., or it may be a charger, etc., for charging, for example, a rechargeable battery.
Since the apparatus of the present application includes the foregoing plug assembly, the same advantages as the foregoing plug assembly are provided.
Although the example embodiments have been described herein with reference to the accompanying drawings, it is to be understood that the above-described example embodiments are merely illustrative and are not intended to limit the scope of the present application thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present application. All such changes and modifications are intended to be included within the scope of the present application as claimed in the appended claims.
Claims (17)
1. A plug assembly, comprising:
a housing;
a pin, a first end of the pin being connected to a first side of the housing, a second end of the pin being disposed outside the housing;
and when the plug pin is inserted into the first socket, part of the insulating fixing pin is arranged in the jack of the second socket outside the first socket in a pluggable manner.
2. The plug assembly of claim 1, further comprising a pivot shaft coupled to the insulating securing leg, the first end of the insulating securing leg rotatably coupled to the housing via the pivot shaft, the insulating securing leg configured to be rotatably switched between a stowed position and a deployed position via the pivot shaft.
3. The plug assembly of claim 2, wherein a face of the housing coupled to the dielectric retention legs is provided with a receiving slot configured to receive the dielectric retention legs in the retracted position.
4. The plug assembly of claim 2, wherein the shaft is disposed at the first end of the insulating fixing pin and protrudes toward both sides of the insulating fixing pin.
5. The plug assembly of claim 4,
a bracket is arranged in the shell, and the rotating shaft is rotatably fixed on the bracket;
at least one end of the rotating shaft is also fixedly connected with a limiting structure, and the radial section of the limiting structure is rectangular;
the plug assembly further comprises a pressing plate, the pressing plate is located inside the shell and covers the support, the limiting structure is located between the pressing plate and the shell, the distance between the pressing plate and the inner surface of the first side of the shell is smaller than the length of a diagonal line of the radial section, and the support is fixedly connected with the inner surface of the first side.
6. The plug assembly of claim 3, wherein the shaft is disposed at the first end of the insulating fixing leg and protrudes toward both sides of the insulating fixing leg, and the sidewall of the receiving groove is formed with an opening, and the shaft is rotatably disposed in the opening.
7. The plug assembly of claim 6, wherein a bottom of the receiving slot is provided with a cantilever arm, and a first end of the insulating fixing leg abuts the cantilever arm when the insulating fixing leg is in the deployed position.
8. The plug assembly of claim 3, wherein at least a portion of the insulating securing leg is tightly fitted within the receiving slot when the insulating securing leg is in the stowed position.
9. The plug assembly of claim 8, wherein a protrusion is provided on a sidewall of the first end of the insulating fixing leg, or a protrusion is provided on a sidewall of the receiving groove, and the insulating fixing leg is tightly fitted into the receiving groove by the protrusion when the insulating fixing leg is in the retracted position.
10. The plug assembly of claim 1, wherein a first end of the insulating securing leg is removably coupled to the housing and a second end of the insulating securing leg is positioned outside the housing.
11. The plug assembly of claim 10, wherein the first side of the housing is provided with a first card slot, the insulative securing leg configured to: the first end of the insulating fixing pin is used as a rotating shaft and is rotatably arranged in the first clamping groove, wherein the first clamping groove is configured as follows: allowing the first end rotated to a first position to move into or out of a first card slot, and restricting the first end rotated to a second position from being within the first card slot and inseparable from the housing.
12. The plug assembly of claim 11, wherein a first dimension of the opening of the first card slot in the first side in a first direction is greater than a second dimension in a second direction, wherein two opposing sidewalls of the first end of the insulative mounting leg are each provided with a raised feature, a distance between outer side surfaces of the raised features is less than or equal to the first dimension and greater than the second dimension, and wherein the first and second directions are parallel to a surface of the first side.
13. The plug assembly of claim 10, wherein the first side of the housing is provided with a second card slot, the insulative securing leg configured to: movable in a direction parallel to a surface of the first side of the housing between a first portion and a second portion of the second card slot, wherein the insulative mounting leg is detachably connected to the second card slot when the insulative mounting leg is in the first portion, and the second portion is configured to: the first end of the insulating fixing pin is limited to be located in the second clamping groove and not separated from the shell.
14. The plug assembly of claim 13, wherein a first width of an opening of said first portion at said first side is greater than a second width of an opening of said second portion at said first side, an outer side wall of said first end portion of said insulative fastening foot is provided with a raised structure, and a distance between outer side surfaces of said raised structure at opposite sides of said first end portion is less than or equal to said first width and greater than said second width.
15. The plug assembly of claim 13, wherein a first limiting structure is further disposed at a bottom of the first portion of the second card slot, and when the insulating fixing leg is located in the first portion, an end surface of the insulating fixing leg contacting the bottom of the first portion is provided with a second limiting structure, and the first limiting structure is tightly fitted with the second limiting structure.
16. The plug assembly of claim 15, wherein the first retention feature comprises a protrusion and the second retention feature comprises a recess, or wherein the first retention feature comprises a recess and the second retention feature comprises a protrusion.
17. A device, characterized in that it comprises a plug assembly according to any one of claims 1 to 16.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121355656.7U CN216413325U (en) | 2021-06-17 | 2021-06-17 | Plug assembly and equipment with same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121355656.7U CN216413325U (en) | 2021-06-17 | 2021-06-17 | Plug assembly and equipment with same |
Publications (1)
Publication Number | Publication Date |
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CN216413325U true CN216413325U (en) | 2022-04-29 |
Family
ID=81280510
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121355656.7U Active CN216413325U (en) | 2021-06-17 | 2021-06-17 | Plug assembly and equipment with same |
Country Status (1)
Country | Link |
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CN (1) | CN216413325U (en) |
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2021
- 2021-06-17 CN CN202121355656.7U patent/CN216413325U/en active Active
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