CN115498439A - Detachable socket - Google Patents

Abstract

The application provides a row is inserted to detachable. The detachable power strip comprises a plurality of power strip modules which are sequentially connected, wherein one power strip module in every two adjacent power strip modules at least comprises a first connecting part, a first clamping piece is arranged on the first connecting part, the other power strip module at least comprises a second connecting part, and the second connecting part is provided with a second clamping piece; the adjacent two power strip modules are electrically connected and connected in a plug-in manner through the matching of the first connecting part and the second connecting part, and the adjacent two power strip modules are prevented from falling off through the clamping of the first clamping piece and the second clamping piece. The detachable power strip can select power strip modules with different functions according to actual requirements, so that the multifunctional function of the detachable power strip is realized, and the purchase cost and the resource waste are reduced; and simultaneously, two adjacent plug row modules can be prevented from falling off along the plugging direction.

Description

Detachable socket

Technical Field

The invention relates to the technical field of power strip processing, in particular to a detachable power strip.

Background

The power strip is an indispensable electric appliance tool in daily life and is widely applied.

At present, a socket is generally in a cuboid structure, and a plurality of modules with fixed functions are generally integrated on the socket so as to meet a plurality of functional requirements; however, the existing socket has limited and fixed functional modules, which cannot be selected according to the actual needs of users, and the problem of waste caused by the fact that a plurality of functional modules are unused easily occurs; and a large storage space is required, which is inconvenient to store.

Disclosure of Invention

The application provides a detachable power strip which can solve the problems that the existing power strip is limited and fixed in functional modules, cannot be selected according to actual needs of users, and is easy to cause waste due to the fact that a plurality of functional modules are idle; and a large storage space is required.

In order to solve the technical problem, the application adopts a technical scheme that: a detachable power strip is provided. The detachable power strip comprises a plurality of power strip modules which are sequentially connected, wherein one power strip module in every two adjacent power strip modules at least comprises a first connecting part, a first clamping piece is arranged on the first connecting part, the other power strip module at least comprises a second connecting part, and the second connecting part is provided with a second clamping piece; two adjacent row of inserting modules realize the electricity and the plug-in connection of the two through the cooperation of first connecting portion and second connecting portion to block through first fastener and second fastener in order to prevent two adjacent row of inserting modules and drop.

The number of the power strip modules is at least three, and each power strip module except the two power strip modules at the end part of at least three power strip modules comprises a first connecting part and a second connecting part.

The first connecting part comprises a plugging groove and a first conductive piece arranged in the plugging groove; the second connecting part comprises a plug connector and a second conductive piece arranged on the plug connector, the plug connector of the power strip module is inserted into the plug-in slot of the adjacent power strip module to realize the plug-in connection of the two adjacent power strip modules, and the first conductive piece is in contact with the second conductive piece and is electrically connected with the second conductive piece.

The direction of the groove opening of the inserting groove is vertical to the arrangement direction of the plurality of inserting row modules.

The socket module also comprises a body part, wherein the first part of the plug connector is connected with the body part and is parallel to the arrangement direction of the socket modules; the second part of the plug connector is vertical to the first part and is arranged at a distance from the body part so as to be inserted into the plug slot; the distance between the second part of the plug connector and the main body part is consistent with the wall thickness of the plug groove at the corresponding position.

The first conducting piece is provided with a first clamping piece, the second conducting piece is provided with a second clamping piece, and the first clamping piece and the second clamping piece are clamped in the process that the plug connector is inserted into the plug-in connection groove.

The plug groove is provided with a bottom wall and a side wall, at least part of the first conductive piece extends along the side wall of the plug groove and forms a first conductive part, and the first clamping piece is formed on the first conductive part; at least part of the second conductive piece extends along the second part of the plug connector and forms a second conductive part, and the second clamping piece is formed on the second conductive part; the second conductive part is in contact with and electrically connected to the first conductive part.

The side wall of the insertion groove is provided with a first groove, the part of the first conductive piece extending along the side wall of the insertion groove is embedded in the first groove, and the first clamping piece protrudes out of the opening of the first groove; the surface of the body part of the second part of the plug connector facing the socket module is provided with a second groove, the part of the second conductive piece positioned on the plug connector is embedded in the second groove, and the second clamping piece protrudes out of the opening of the second groove.

The socket module further comprises a protective door, wherein the protective door is connected in the plug groove in a sliding mode and used for covering the plug groove when the plug connector is not inserted into the plug groove so as to protect the first conductive piece in the plug groove.

The power strip module further comprises an elastic piece, wherein the elastic piece is arranged between the protective door and the bottom wall of the insertion groove and used for driving the protective door to move towards the direction of the groove opening of the insertion groove.

The socket module further comprises a limiting piece arranged in the sliding path of the protective door to prevent the protective door from falling from the inserting groove.

The limiting piece and the side wall of the insertion groove limit a notch of the insertion groove, and the width dimension of the notch is consistent with that of the insertion piece.

The socket module further comprises a cover body, and the cover body covers the notch of the plug-in slot and is used for covering the notch of the plug-in slot.

The power strip module is a direct current module, an alternating current module, a Wi-Fi + night lamp module, a Bluetooth sound box module, an intelligent induction module, an infrared control module, an intelligent induction module, an air purification module, a HUB module, a wireless charging module or an LED lamp module.

According to the detachable power strip, one of two adjacent power strip modules at least comprises the first connecting part, and the other power strip module at least comprises the second connecting part, so that the two adjacent power strip modules are matched through the first connecting part and the second connecting part to realize electric connection and plug-in connection; the detachable power strip is provided with a plurality of power strip modules which are detachably connected, so that the detachable power strip can select to purchase power strip modules with specific functions or replace power strip modules with other functions according to the requirements of customers, the utilization rate of the detachable power strip is effectively improved, the problem that part of power strip modules on the detachable power strip are not used is avoided, and the purchase cost and the resource waste are reduced; in the storage process, the detachable power strip can be detached for storage, so that the occupied space is saved, and the detachable power strip is convenient to store; meanwhile, the first clamping piece is arranged on the first connecting portion, the second clamping piece is arranged on the second connecting portion, and the two adjacent power strip modules are prevented from falling off along the plugging direction of the power strip modules through the clamping of the first clamping piece and the second clamping piece, so that the detachable power strip modules are safer and more reliable.

Drawings

Fig. 1 is a schematic overall structure diagram of a detachable power strip according to an embodiment of the present application;

fig. 2 is a schematic structural view of two adjacent socket modules after being disassembled according to an embodiment of the present application;

FIG. 3 is a schematic view of a removable power strip according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a connection position between two adjacent socket modules according to an embodiment of the present application;

fig. 5 is a cross-sectional view of two adjacent socket modules after being plugged and fixed according to an embodiment of the present application;

fig. 6 is a schematic view of the plug members of two adjacent row modules before being inserted into the slots and not fixed according to an embodiment of the present disclosure;

fig. 7 is a schematic view illustrating the plug members of two adjacent row modules being inserted into the inserting grooves and fixed according to an embodiment of the present application;

fig. 8 is a schematic internal structure diagram of a socket module having a first connecting portion according to an embodiment of the present application;

fig. 9 is a schematic internal structural view of a socket module having a first connecting portion and a second connecting portion according to an embodiment of the present application;

FIG. 10 is a schematic view of the position of the protective door when the connector is not inserted into the slot according to an embodiment of the present disclosure;

fig. 11 is a schematic internal structural diagram of a socket module according to another embodiment of the present application;

fig. 12 is a schematic overall structure diagram of a socket module according to an embodiment of the present application;

fig. 13 is a schematic structural diagram of a connection position between two adjacent socket modules according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The terms "first", "second" and "third" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. In the embodiment of the present application, all the directional indicators (such as upper, lower, left, right, front, and rear … …) are used only to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

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

Referring to fig. 1 to fig. 2, fig. 1 is a schematic overall structure diagram of a detachable power strip according to an embodiment of the present application; fig. 2 is a schematic structural view of two adjacent socket modules after being disassembled according to an embodiment of the present application; in this embodiment, a detachable power strip 10 is provided, and the detachable power strip 10 may include a plurality of power strip modules 11 that are detachably connected in sequence, so that the detachable power strip 10 has a plurality of different functions.

Compared with the scheme that the power strip cannot be detached in the prior art, the detachable power strip 10 can selectively purchase the power strip modules 11 with specific functions according to the requirements of customers by setting the plurality of power strip modules 11 to be detachably connected, for example, if a user needs to charge, establish a wireless network and a bluetooth connection and the like by using the detachable power strip 10, only a direct current module, an alternating current module and a Wi-Fi module can be selectively purchased without purchasing other modules such as an infrared control module and a HUB module; or the existing socket module 11 inserted into the detachable socket 10 is replaced with a socket module 11 with other functions according to actual requirements, so that the purchase cost can be reduced, and the problem that part of the socket modules 11 on the detachable socket 10 are not used in the idle state can be avoided, thereby effectively reducing the resource waste and improving the utilization rate of the detachable socket 10; meanwhile, the detachable power strip 10 can be detached, so that the detachable power strip 10 can be detached and stored in the storage process, occupied space is saved, and storage is facilitated.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a removable power strip according to an embodiment of the present application; one of the plurality of socket modules 11, preferably, the end socket module 11 has metal pieces respectively connected to the live wire, the zero wire and the ground wire to communicate with a power supply and supply power to the other socket modules 11; specifically, the end socket module 11 may be an ac module, and the socket module 11 connected to the ac module may be a dc module, so that ac power is converted into dc power by the dc module, thereby supplying power to other socket modules 11 connected subsequently; specifically, other power strip modules 11 can be Wi-Fi module, wi-Fi + night-light module, bluetooth speaker module, intelligent induction module, infrared control module, intelligent induction module, air purification module, HUB module, wireless charging module or LED lamp module.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a connection position of two adjacent socket modules according to an embodiment of the present application; one of the two adjacent power strip modules 11 includes a body portion 111 and at least a first connecting portion 112 disposed on the body portion 111, and the other power strip module 11 includes the body portion 111 and at least a second connecting portion 113 disposed on the body portion 111, and the two adjacent power strip modules 11 are electrically connected to each other through the first connecting portion 112 and the second connecting portion 113 in a matching manner, so as to supply power to the other power strip modules 11 and achieve a plug-in connection of the two adjacent power strip modules 11.

Referring to fig. 3 and 4, the first connection portion 112 includes a mating groove 1121 and a first conductive member 1122 disposed in the mating groove 1121; the second connection portion 113 includes a plug 1131 and a second conductive member 1132 disposed on the plug 1131; in a specific embodiment, the plug members 1131 of the power strip modules 11 are inserted into the plug grooves 1121 of the adjacent power strip modules 11, so as to realize the plug-in connection of the two adjacent power strip modules 11; and after the plug member 1131 is inserted into the plug groove 1121, the first conductive member 1122 contacts and makes electrical connection with the second conductive member 1132.

Referring to fig. 2, the notch of the insertion groove 1121 is oriented to be perpendicular to the arrangement direction of the plurality of power strip modules 11; taking the direction of fig. 2 as an example, the notch of the insertion groove 1121 may be specifically downward; in this way, the side walls of the mating grooves 1121 (i.e., fitting walls 1121a described below) can limit the position of the row modules 11 in the arrangement direction of the row modules 11, thereby preventing the row modules 11 from falling off in the arrangement direction.

Referring to FIG. 2, the plug 1131 includes a first portion 1131a and a second portion 1132b; the first portion 1131a of the plug 1131 is connected to the main body 111, and is parallel to the arrangement direction of the plurality of power strip modules 11; the second portion 1132b of the plug-in component 1131 is arranged at one end of the first portion 1131a far away from the body part 111, is perpendicular to the first portion 1131a, and is arranged opposite to the body part 111; during a specific plugging process, the second portion 1132b of the plug element 1131 is inserted into the plugging slot 1121 along a direction perpendicular to an extending direction of the plurality of socket modules 11, so as to implement a plug-in type connection between two adjacent socket modules 11. The connector 1131 may be integrally formed with the main body 111.

It can be understood that, in this embodiment, the second portion 1132b of the plug element 1131 is disposed at an interval from the body portion 111 of the row module 11 where the second portion 1132b is located, and after two adjacent row modules 11 are plugged, a side wall of the insertion groove 1121, which is close to one side of the adjacent row module 11, is specifically located between the second portion 1132b of the plug element 1131 and the body portion 111, and a side wall of the insertion groove 1121, which is located between the second portion 1132b of the plug element 1131 and the body portion 111, is defined as a mating wall 1121a; in order to enable two adjacent power strip modules 11 to be tightly attached after being plugged, the overall strength is improved, and meanwhile, the problem that a single power strip module 11 is broken at the first portion 1131a of the plug connector 1131 is solved; the distance between the second portion 1132b of the plug 1131 and the main body 111 of the socket module 11 can be further made to be consistent with the wall thickness of the fitting wall 1121a; to achieve an interference fit after the engagement wall 1121a is engaged between the second portion 1132b of the plug-in component 1131 and the body portion 111 of the socket module 11 where it is located; of course, in other embodiments, the distance between the second portion 1132b of the plug 1131 and the main portion 111 of the socket module 11 may be slightly smaller than the wall thickness of the fitting wall 1121 a.

In one embodiment, referring to fig. 4, the first connecting portion 112 further has a first engaging member 114 thereon, and the second connecting portion 113 has a second engaging member 115 thereon; two adjacent socket modules 11 are clamped by the first clamping piece 114 and the second clamping piece 115 to fix the relative positions of the two adjacent socket modules 11 along the plugging direction thereof, so as to prevent the two adjacent socket modules 11 from falling off along the plugging direction thereof.

In order to prevent the problem that the two adjacent rows of modules 11 cannot be engaged due to the oscillation of the two adjacent rows of modules 11 along the arrangement direction after the plug connectors 1131 are inserted into the insertion grooves 1121, the thickness of the plug connectors 1131 may be made to be consistent with the width of the notches of the insertion grooves 1121; the thickness of the plug 1131 and the width of the slot of the plug groove 1121 both refer to the corresponding dimensions along the arrangement direction of the plurality of socket modules 11.

In one embodiment, a portion of the surface of the first conductive member 1122 facing the second conductive member 1132 forms a first engaging member 114, a portion of the surface of the second conductive member 1132 facing the first conductive member 1122 forms a second engaging member 115, and the first engaging member 114 and the second engaging member 115 are engaged with each other during the insertion of the plug member 1131 into the insertion groove 1121; specifically, the first engaging member 114 and the second engaging member 115 may be protrusions disposed along the inserting direction thereof in a staggered manner, and after the inserting component 1131 is inserted into the inserting slot 1121, the two protrusions are engaged with each other to prevent the inserting component 1131 from falling from the inserting slot 1121; of course, in other embodiments, the first engaging member 114 and the second engaging member 115 may also be a structure independent from the first conductive member 1122 and the second conductive member 1132, which is not limited in this application, and only can prevent two adjacent socket modules 11 from falling down along the plugging direction thereof.

In an embodiment, the first conductive member 1122 and/or the second conductive member 1132 may be L-shaped, the insertion groove 1121 has a bottom wall and a side wall, at least a portion of the first conductive member 1122 extends along the side wall of the insertion groove 1121 to form a first conductive portion, and the first engaging member 114 is formed on the first conductive portion; at least a portion of second conductive member 1132 extends along second portion 1132b of insertion member 1131 and forms a second conductive portion, on which second engagement member 115 is formed, and in a specific embodiment, the first conductive portion and the second conductive portion contact and are electrically connected.

Specifically, referring to fig. 5, fig. 5 is a cross-sectional view of two adjacent socket modules provided in an embodiment of the present application after being plugged and fixed; a first groove 1121b is formed in an inner side wall of the insertion groove 1121, a portion of the first conductive member 1122 extending along the side wall of the insertion groove 1121 is embedded in the first groove 1121b, and the first engaging member 114 protrudes out of an opening of the first groove 1121 b; a second groove 1131b is formed in the surface of the second part 1132b of the plug-in component 1131, which faces the body part 111 of the socket module 11 where the plug-in component 1131 is located, the part of the second conductive component 1132 located on the plug-in component 1131 is embedded in the second groove 1131b, and the second engaging component 115 protrudes out of the opening of the second groove 1131 b; through inlay the lateral wall of locating grafting groove 1121 and plug connector 1131 respectively with the first electrically conductive piece 1122 and the second electrically conductive piece 1132 in order to carry out the contact block, can utilize the intensity of grafting groove 1121 and plug connector 1131 itself like this, make first electrically conductive piece 1122 and the second electrically conductive piece 1132 can closely laminate, prevent that the two from taking place elastic deformation in the block process, lead to contact failure or can not realize the fixed problem of block well and take place.

In an embodiment, the first groove 1121b can be formed on an inner sidewall of the engaging wall 1121a of the inserting slot 1121, and the second groove 1131b can be formed on a side surface of the second portion 1132b of the inserting member 1131 facing the main body 111 of the row module 11.

Referring to fig. 6 and 7, fig. 6 is a schematic view of plug connectors of two adjacent row modules provided in this application before being inserted into the plug slots and not fixed; fig. 7 is a schematic view illustrating plug members of two adjacent socket modules being inserted into the socket and fixed; in a specific plugging process, when the plug member 1131 is just inserted into the plugging slot 1121, the first conductive member 1122 and the second conductive member 1132 are disposed in a staggered manner, and are not fixed relatively and electrically connected (see fig. 6); then, the connectors 1131 continue to move toward the bottom wall of the insertion groove 1121, so that the first conductive member 1122 and the second conductive member 1132 are contacted and the protrusion on the first conductive member 1122 and the protrusion on the second conductive member 1132 are engaged with each other (see fig. 7), so as to fix the connectors 1131 in the insertion groove 1121, and prevent two adjacent connectors 1131 from falling off from each other while achieving electrical connection; after the adjacent socket modules 11 are inserted into the inserting grooves 1121, the inserting pieces 1131 are further pushed forward to realize clamping and fixing, so that contact guarantee is effectively increased, and the falling risk is reduced; specifically, the engaging positions of the two protrusions on the first conductive member 1122 and the second conductive member 1132 may be aligned with the bottom of the two socket modules 11 after the two socket modules are plugged together.

In an embodiment, referring to fig. 8, fig. 8 is an internal structure schematic diagram of a socket module provided in an embodiment of the present application, where the socket module has a first connection portion; when the number of the socket modules 11 is two, one of the socket modules 11 may be only provided with the first connecting portion 112, and the other socket module 11 may be only provided with the second connecting portion 113, so as to achieve the detachable connection of the two socket modules 11 and reduce the cost; it will be appreciated that in this embodiment, one connection portion is provided per row module 11; of course, in the specific embodiment, each socket module 11 may also be provided with the first connection portion 112 and the second connection portion 113, so as to facilitate adding socket modules 11 with other functions on the detachable socket 10 according to the actual needs of the customer at a later stage, thereby increasing the functions of the detachable socket 10 and expanding the application range.

In another embodiment, referring to fig. 9, fig. 9 is an internal structure schematic diagram of a socket module provided in an embodiment of the present application, where the socket module has a first connection portion and a second connection portion; the number of the power strip modules 11 is at least three, each of the remaining power strip modules 11 in the at least three power strip modules 11 except the end power strip module 11 includes a first connecting portion 112 and a second connecting portion 113, and the first connecting portion 112 and the second connecting portion 113 can be arranged oppositely, so that the power strip modules 11 with other functions can be inserted into both ends of each power strip module 11, and the power strip modules 11 are arranged in a linear manner after being inserted; of course, in a specific embodiment, the end socket module 11 may also include a first connection portion 112 and a second connection portion 113 that are oppositely disposed, and the present application is not limited thereto.

Referring to fig. 5 and 10, fig. 10 is a schematic diagram illustrating a position of a protection door when a plug connector provided in an embodiment of the present application is not inserted into a plug slot; in one embodiment, to protect the first conductive member 1122 of the strip module 11, the strip module 11 may further include a protection door 16.

The protection door 16 is slidably connected in the insertion groove 1121 to cover the insertion groove 1121 when the plug 1131 is not inserted into the insertion groove 1121, and the specific structure can be seen in fig. 10 to protect the first conductive member 1122 in the insertion groove 1121; when the plug-in components 1131 of adjacent row of plug-in modules 11 are inserted into the plug-in slot 1121, the plug-in components 1131 can move toward the bottom wall of the plug-in slot 1121 under the extrusion of the plug-in components 1131 to expose the first conductive component 1122, which can be specifically configured as shown in fig. 5, so that the second conductive component 1132 on the plug-in components 1131 contact with the first conductive component 1122 and realize electrical connection and detachable connection.

Specifically, the size of the protection door 16 may be the same as the size of the insertion groove 1121, so as to completely cover the insertion groove 1121 when the plug 1131 is not inserted into the insertion groove 1121, thereby preventing dust, liquid, etc. from entering the insertion groove 1121 and affecting the conductivity and other properties of the first conductive member 1122.

In an embodiment, referring to fig. 11, fig. 11 is a schematic view of an internal structure of a socket module according to another embodiment of the present application; the socket module 11 may further include an elastic member 17, where the elastic member 17 is specifically disposed between the protection door 16 and the bottom wall of the insertion slot 1121 to drive the protection door 16 to move toward the slot opening of the insertion slot 1121; specifically, when the elastic element 17 is in the states shown in fig. 5 and 10, both the elastic element 17 can be in an elastically compressed state, and the elastic force of the elastic element 17 in the state shown in fig. 10 is smaller than the elastic force in the state shown in fig. 5, so that after the plug-in components 1131 of adjacent row of plug-in modules 11 are pulled out of the insertion slot 1121, the protection door 16 can automatically return to the position of the notch of the insertion slot 1121 under the elastic force of the elastic element 17 to shield the notch of the insertion slot 1121; of course, when the elastic member 17 is in the state of fig. 10, the elastic member 17 may be in a natural extension state.

Specifically, the number of the elastic members 17 may be two, and the two elastic members 17 are respectively disposed on two sides of the first conductive member 1122; in particular, the elastic member 17 may be a spring.

In an embodiment, referring to fig. 10, in order to prevent the protection door 16 from falling out of the insertion slot 1121, the power strip module 11 may further include a limiting member 118, and the limiting member 118 is specifically disposed in the sliding path of the protection door 16 to prevent the limiting member 118 from falling out of the insertion slot 1121; in an embodiment, the position-limiting member 118 and a sidewall of the insertion groove 1121 define a notch forming the insertion groove 1121, and in particular, the engaging wall 1121a of the insertion groove 1121 defines a notch forming the notch.

Further, referring to fig. 12, fig. 12 is a schematic view of an overall structure of a socket module according to an embodiment of the present application; the socket module 11 may further include a cover 119, and the cover 119 may specifically cover the notch of the socket 1121 to prevent dust and the like from entering the socket 1121; specifically, the cover 119, the protective door 16 and the elastic member 17 may be made of an insulating material, such as a plastic material.

In the detachable power strip 10 provided in this embodiment, one power strip module 11 of two adjacent power strip modules 11 at least includes the first connecting portion 112, and the other power strip module 11 at least includes the second connecting portion 113, so that the two adjacent power strip modules 11 are electrically connected and connected in a plug-in manner by the first connecting portion 112 and the second connecting portion 113 in a matching manner; the plurality of the socket modules 11 are detachably connected, so that the detachable socket 10 can select to purchase the socket modules 11 with specific functions or replace the socket modules 11 with other functions according to the requirements of customers, the utilization rate of the detachable socket 10 is effectively improved, the problem that part of the socket modules 11 on the detachable socket 10 are not used in an idle mode is avoided, and the purchase cost and the resource waste are reduced; in the process of storage, the detachable power strip 10 can be detached for storage, so that the occupied space is saved, and the detachable power strip is convenient to store; meanwhile, the first engaging member 114 is disposed on the first connecting portion 112, and the second engaging member 115 is disposed on the second connecting portion 113, so that the two adjacent socket modules 11 are prevented from falling off along the plugging direction thereof by engaging the first engaging member 114 with the second engaging member 115, thereby making the detachable socket 10 module safer and more reliable.

In an embodiment, referring to fig. 13, fig. 13 is a schematic structural diagram of a connection position between two adjacent socket modules according to another embodiment of the present application; a third conductive member 1142 is further disposed in the insertion groove 1121 of the row module 11, a fourth conductive member 1152 is further disposed on the insertion member 1131 of the row module 11, and after two adjacent row modules 11 are inserted, the third conductive member 1142 and the fourth conductive member 1152 are in contact and electrically connected to perform data transmission between the row modules 11; specifically, the specific structure and the engaging relationship of the third conductive element 1142 and the fourth conductive element 1152 are the same as or similar to the specific structure and the engaging relationship of the first conductive element 1122 and the second conductive element 1132, which may be referred to the description of the related text specifically, and are not described herein again.

Specifically, the number of the first conductive element 1122, the second conductive element 1132, the third conductive element 1142 and the fourth conductive element 1152 may be three, and the three conductive elements are respectively communicated with the live wire, the null wire and the ground wire; specifically, the power strip module 11 may further be provided with a charging port for charging, so that a charging head can be inserted; and/or a data interface to perform data transmission; wherein the data transfer may include retrieving or writing data.

Specifically, the first conductive member 1122 and the third conductive member 1142 may be disposed side-by-side; second conductive member 1132 and fourth conductive member 1152 may be positioned side-by-side.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (14)

1. A detachable power strip is characterized by comprising a plurality of power strip modules which are sequentially connected, wherein one power strip module in every two adjacent power strip modules at least comprises a first connecting part, a first clamping piece is arranged on the first connecting part, the other power strip module at least comprises a second connecting part, and the second connecting part is provided with a second clamping piece; the adjacent two power strip modules are matched through the first connecting part and the second connecting part to realize electric connection and plug-in connection of the two, and the adjacent two power strip modules are prevented from falling off through the clamping of the first clamping piece and the second clamping piece.

2. The removable power strip of claim 1, wherein the number of power strip modules is at least three, and each of the remaining at least three power strip modules, excluding the two power strip modules at the ends, includes the first and second connectors.

3. The removable power strip of claim 1, wherein the first connecting portion comprises a power strip and a first conductive member disposed in the power strip; the second connecting part comprises plug connectors and second conductive pieces arranged on the plug connectors, the plug connectors of the power strip modules are inserted into the plug-in slots of adjacent power strip modules to realize plug-in connection of the adjacent two power strip modules, and the first conductive pieces are in contact with the second conductive pieces to realize electric connection.

4. The removable power strip of claim 3, wherein the slot opening of the power strip is oriented perpendicular to the direction of the plurality of power strip modules.

5. The removable power strip of claim 4, wherein the power strip modules further comprise a body portion, the first portion of the plug member being coupled to the body portion and parallel to the orientation of the plurality of power strip modules; the second part of the plug connector is perpendicular to the first part and is arranged at a distance from the body part so as to be inserted into the plug slot; the distance between the second part of the plug connector and the main body part is consistent with the wall thickness of the plug-in connection groove at the corresponding position.

6. The removable strip of any of claims 3-5, wherein a portion of the surface of the first conductive member facing the second conductive member forms the first engagement, a portion of the surface of the second conductive member facing the first conductive member forms the second engagement, and the first engagement and the second engagement engage with each other during insertion of the connector into the slot.

7. The removable strip of claim 6, wherein the socket has a bottom wall and a side wall, and wherein at least a portion of the first conductive member extends along the side wall of the socket and forms a first conductive portion, and wherein the first engaging member is formed on the first conductive portion; at least part of the second conductive member extends along the second part of the connector and forms a second conductive part, and the second clamping member is formed on the second conductive part; the second conductive portion is in contact with and electrically connected to the first conductive portion.

8. The detachable socket of claim 7, wherein a first groove is formed on a sidewall of the socket, a portion of the first conductive member extending along the sidewall of the socket is embedded in the first groove, and the first engaging member protrudes out of an opening of the first groove; the second part of the plug connector is provided with a second groove towards the surface of the body part of the power strip module where the second part is located, the part, located on the plug connector, of the second conductive piece is embedded in the second groove, and the second clamping piece protrudes out of the opening of the second groove.

9. The removable strip of claim 3, wherein the strip module further comprises a protective door slidably coupled within the slot for covering the slot to protect the first conductive member when the plug is not inserted into the slot.

10. The removable power strip of claim 9, wherein the power strip module further comprises an elastic member disposed between the protective door and the bottom wall of the insertion slot for driving the protective door to move toward the slot opening of the insertion slot.

11. The removable power strip of claim 9, wherein the strip module further comprises a stop disposed in a sliding path of the protective door to prevent the protective door from falling out of the insertion slot.

12. The removable strip of claim 11 wherein the retainer and the sidewall of the slot define a slot that forms the slot, the slot having a width dimension that corresponds to a width dimension of the plug.

13. The removable power strip of claim 12, wherein the power strip module further comprises a cover covering the slot of the power strip for covering the slot of the power strip.

14. The detachable power strip of claim 1, wherein the power strip module is a dc module, an ac module, a Wi-Fi + night light module, a bluetooth speaker module, an intelligent induction module, an infrared control module, an intelligent induction module, an air purification module, a HUB module, a wireless charging module, or an LED light module.

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