CN220190060U - Socket - Google Patents

Abstract

The utility model relates to the field of circuit equipment, and provides a socket, wherein a live wire hole, a zero wire hole and a ground wire hole are formed in the socket; the socket further comprises a charging wire and a winding assembly, wherein the winding assembly is arranged on the socket, and the charging wire is suitable for being wound on the winding assembly. According to the socket provided by the utility model, when the position of the power line of an electric appliance is higher than that of the socket, the power line of the electric appliance can be inserted into the socket under the condition of not bending, so that the risk of bending and breaking the power line is avoided, the short circuit condition possibly caused by the distortion stress of the socket is avoided, the safety of a circuit is improved, and meanwhile, the use comfort of a user when the power line is inserted into the socket is improved; the user need not to look for charging wire and charging plug in addition when having the demand of charging, and is more convenient, has promoted user experience, and the charging wire can be convenient accomodate simultaneously, and is more pleasing to the eye.

Description

Socket

Technical Field

The utility model relates to the technical field of circuit equipment, in particular to a socket.

Background

With the improvement of the living standard of people, the market of household appliances is increasingly enlarged, and correspondingly, the use demands of sockets are also increasing. A drawback of the current commercial sockets is that the height of the electrical power cord of the electrical appliance is usually greater than the height of the socket, especially when the socket is installed in a corner or the socket is located 20 to 30 cm from the ground. At the moment, the power line is plugged in, and the outgoing line direction is bent 180 degrees to realize power on. In such a case, the power cord is at risk of buckling open. Meanwhile, the socket itself is also subjected to torsional stress, and the dangerous condition of short circuit can occur in the long time, so that the use safety of consumers is threatened. Moreover, the arrangement is not humanized enough when in use, the plugging is inconvenient when in use, and even the risk of electric shock to a user caused by poor contact exists.

Most of the existing sockets are designed with jacks formed in the panel, and based on the fact that users need to search for charging wires and charging plugs when the users have charging demands. It may also be necessary to prepare different types of charging wires for different electronic devices. This causes a large charge preparation workload and inconvenient use.

Disclosure of Invention

The utility model provides a socket, which is used for solving the problems that a power line is bent when an electric appliance is connected into the socket in the prior art and the existing socket is inconvenient to charge, and enhancing the safety and convenience of the use of the socket.

The utility model provides a socket, which is provided with a live wire hole, a zero wire hole and a ground wire hole, wherein the live wire hole and the zero wire hole are arranged above the ground wire hole;

the socket further comprises a charging wire and a winding assembly, wherein the winding assembly is arranged on the socket, and the charging wire is suitable for being wound on the winding assembly.

According to the socket provided by the utility model, the socket further comprises a shell, and the winding assembly is rotatably arranged in the shell.

According to the socket provided by the utility model, the charging wire comprises a wire body and a connector, wherein the first end of the wire body is fixedly connected to the winding assembly, the connector is arranged at the second end of the wire body, and a first adsorption piece is arranged on the connector;

the housing is provided with a second adsorption element, and the joint is suitable for being switched between a first position and a second position, wherein the first adsorption element is suitable for being matched with the second adsorption element, and the second position is suitable for being separated from the first adsorption element.

According to the socket provided by the utility model, the socket further comprises an elastic component, wherein the elastic component is arranged in the shell and connected with the winding component, and the elastic component is suitable for pulling the winding component to enable the wire body to be wound on the winding component.

According to the socket provided by the utility model, the live wire hole, the neutral wire hole and the ground wire hole are formed in the first side wall of the shell, the second side wall of the shell is provided with the wire passing hole, and the wire body is suitable for being penetrated out of the shell through the wire passing hole;

wherein the first sidewall and the second sidewall are in different planes.

According to the socket provided by the utility model, the decorative sheet is arranged at the position corresponding to the wire through hole on the shell.

According to the socket provided by the utility model, the sheath is arranged between the wire body and the connector.

According to the socket provided by the utility model, the shell is further provided with a locking mechanism, the winding assembly is suitable for being switched between an unlocking state and a locking state, the locking mechanism is separated from the winding assembly in the unlocking state, and the locking mechanism is suitable for locking the winding assembly in the locking state.

According to the socket provided by the utility model, the locking mechanism comprises the locking pin, the locking pin is provided with the locking block, the winding assembly is provided with the winding disc, the edge of the winding disc is provided with the locking groove along the circumferential direction of the winding disc, the winding assembly is in the locking state under the condition that the locking block is inserted into the locking groove, and the winding assembly is in the unlocking state under the condition that the locking block is separated from the locking groove.

According to the socket provided by the utility model, the shell is also provided with an interface.

According to the socket provided by the utility model, the live wire hole and the zero wire hole are arranged above the ground wire hole, so that when the position of the power wire of an electric appliance is higher than that of the socket, the power wire of the electric appliance can be inserted into the socket under the condition of not bending, thereby avoiding the risk of bending and breaking the power wire, avoiding the possible short circuit condition of the socket caused by torsional stress, improving the safety of a circuit, and improving the use comfort of a user when the power wire is inserted into the socket; the charging wire and the winding assembly are arranged through the socket, and the charging wire is wound on the winding assembly, so that a user does not need to search for the charging wire and the charging plug when the charging requirement exists, the charging wire is more convenient, user experience is improved, and meanwhile the charging wire can be conveniently stored and is more attractive.

Drawings

In order to more clearly illustrate the utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a socket according to an embodiment of the present utility model;

fig. 2 is a schematic structural view of a winding assembly and a locking mechanism provided in an embodiment of the present utility model.

Reference numerals:

100. a first sidewall; 101. a fire wire hole; 102. a zero line hole; 103. a ground wire hole; 104. an interface; 105. a housing; 200. a second sidewall; 210. a charging wire; 211. a wire body; 212. a joint; 220. a winding assembly; 221. a winding disc; 222. a locking groove; 230. a locking mechanism; 231. a locking pin; 232. and a locking block.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The socket of the present utility model is described below with reference to fig. 1 to 2.

As shown in fig. 1 to 2, an embodiment of the present utility model provides a socket, on which a live wire hole 101, a neutral wire hole 102 and a ground wire hole 103 are formed, where the live wire hole 101 and the neutral wire hole 102 are disposed above the ground wire hole 103; the socket further comprises a charging wire 210 and a winding assembly 220, wherein the winding assembly 220 is arranged on the socket, and the charging wire 210 is suitable for winding on the winding assembly 220.

According to the socket provided by the embodiment of the utility model, the live wire hole 101 and the zero wire hole 102 are arranged above the ground wire hole 103, so that when the position of the power wire of an electric appliance is higher than that of the socket, the power wire of the electric appliance can be inserted into the socket under the condition of not bending, thereby avoiding the risk of bending and breaking the power wire, avoiding the short circuit condition of the socket possibly caused by torsional stress, improving the safety of a circuit, and improving the use comfort of a user when the power wire is inserted into the socket; through setting up the socket and including charging wire 210 and winding subassembly 220, charging wire 210 winds in winding subassembly 220 for the user need not look for charging wire 210 and charging plug in addition when having the demand of charging, and is more convenient, has promoted user experience, and charging wire 210 can conveniently accomodate simultaneously, and is more pleasing to the eye.

Specifically, as shown in fig. 1, the live wire hole 101 and the neutral wire hole 102 are provided above the ground wire hole 103. This arrangement is opposite to the design that the live and neutral holes of the current commercial outlets are located below the ground hole. After the power line is plugged into a socket in the market, the outlet direction is downward, and if the electric appliance is placed higher than the socket, the power line must be bent 180 degrees to realize power-on. The socket is generally arranged at a corner, so that the height of the socket is generally low, and the situation is more common.

Therefore, by adopting the arrangement mode in the embodiment of the utility model, the electric appliance power line with the position higher than that of the socket can be inserted into the socket under the condition of not bending, so that the risk of bending and breaking the power line is avoided, the condition of short circuit possibly caused by the distortion stress of the socket is avoided, and the safety of a circuit is improved. Meanwhile, the user does not need to bend the power line when plugging the power line, so that the use comfort of the user is improved.

As shown in fig. 1, the charging cord 210 is used to charge an external device. The external device may be a mobile phone, a tablet, a headset, etc., which is not limited herein. In other words, the charging line 210 in the embodiment of the present utility model can charge various common electronic devices, and has better universal applicability. Further, the charging wire 210 includes a wire body 211 and a connector 212. The connector 212 is at least one of a Lightning connector, a Micro-USB connector and a Type-C connector. It will be appreciated that, in order to enable the charging cord 210 to perform the function of charging the external device, a structure for powering on the charging cord 210 is correspondingly provided at the end of the cord body 211 of the charging cord 210.

The winding assembly 220 is a structure for winding the charging wire 210. In this embodiment, the winding assembly 220 is disposed within the housing 105 of the receptacle. The housing 105 is here a shell-like structure that can act against external loads, surrounding the elements of the socket, and protecting and preventing dust from entering. The winding assembly 220 is rotatably disposed inside the housing 105. It can be appreciated that the charging wire 210 can be wound around the winding assembly 220 by the rotation of the winding assembly 220 itself, so as to facilitate the storage of the charging wire 210. In other words, the winding assembly 220 may wind up the charging cord 210 and store it in the housing 105, and may withdraw the charging cord 210 from the housing 105 when in use.

To perform the function of winding the charging wire 210 around the winding assembly 220, the first end of the wire body 211 is fixedly connected to the winding assembly 220. When the winding assembly 220 rotates, the first end of the wire body 211 fixed to the winding assembly 220 rotates together with the winding assembly 220, and the second end of the wire body 211 extends out of the housing 105 and stretches relative to the housing 105, so that the wire body 211 can be wound on the winding assembly 220. It is understood that the connector 212 is disposed at the second end of the wire body 211.

In the embodiment of the present utility model, the joint 212 is provided with a first absorbing member, and the housing 105 is provided with a second absorbing member. The joint 212 is adapted to switch between a first position in which the first suction member is adapted to cooperate with the second suction member and a second position in which the first suction member is adapted to be separated from the second suction member.

As shown in fig. 1, the joint 212 is provided with a first absorbent member, the housing 105 is provided with a second absorbent member, and the first absorbent member and the second absorbent member can be mated with each other. When the first absorbent component is mated with the second absorbent component, the fitting 212 is in the first position; when the first absorbent component is separated from the second absorbent component, the tab 212 is in the second position. When the connector 212 is in the first position, the connector is relatively fixed with the position of the shell 105, so that the whole socket is simpler and more ornamental; when the connector 212 is in the second position, a user can hold the connector 212 to draw out the wire body 211 wound on the winding assembly 220, thereby facilitating the taking and the use.

For example, the first and second absorbing members may be magnets or nylon, so long as they can cooperate with each other to movably connect the connector 212 to the housing 105. Through the arrangement, under the condition that a user does not have a charging requirement, the connector 212 can be adsorbed on the shell 105 through the mutual matching of the first adsorption piece and the second adsorption piece, so that the connector 212 is simply stored, and the ornamental value of the socket is improved.

According to an embodiment of the present utility model, the socket further includes an elastic member, which is mounted inside the housing 105 and connected to the winding member 220, and is adapted to pull the winding member 220 to wind the wire body 211 around the winding member 220.

The elastic member is a structure connected to the winding member 220 to enable the winding member 220 to automatically rotate. The spring assembly is also mounted inside the housing 105. The elastic assembly pulls the winding assembly 220 to rotate relative to the housing 105, which may cause the wire body 211 to be automatically wound on the winding assembly 220. Correspondingly, pulling on the tab 212 may cause the wire 211 to disengage from the winding assembly 220, thereby extending a sufficient length out of the housing 105.

For example, the elastic assembly may be a clockwork spring disposed inside the housing 105 and connected to the winding assembly 220. The spring contracts to drive the winding assembly 220 to automatically rotate, and the charging wire 210 is wound on the winding assembly 220 layer by layer; when the tension of the user pulling the charging wire 210 is greater than the elastic force provided by the clockwork spring, the clockwork spring is stretched, and at this time, the charging wire 210 can be pulled out by a proper length according to the requirement.

According to the socket provided by the embodiment of the utility model, the live wire hole 101, the neutral wire hole 102 and the ground wire hole 103 are formed on the first side wall 100 of the housing 105, the second side wall 200 of the housing 105 is provided with a wire passing hole, and the wire body 211 is suitable for passing out of the housing 105 through the wire passing hole; wherein the first sidewall 100 and the second sidewall 200 are in different planes.

In order to improve the space utilization rate inside the socket, in this embodiment, the live wire hole 101, the neutral wire hole 102 and the ground wire hole 103 are disposed on the first side wall 100 of the housing 105, and the via wire hole is disposed on the second side wall 200 of the housing 105, where the first side wall 100 and the second side wall 200 are in different planes. The wire through holes herein, i.e., the wire body 211 described above, extend out of the housing 105. It will be appreciated that the area of the via is greater than the cross-sectional area of the wire body 211 so as not to impede the movement of the wire body 211; and at the same time, less than the cross-sectional area of the connector 212, prevents the connector 212 from being retracted into the housing 105 under the pulling action of the spring assembly, which would otherwise be inconvenient to use.

That is, the winding assembly 220 is disposed below the via hole on the second sidewall 200, and the plane of the winding assembly 220 is parallel to the first sidewall 100. By this arrangement, the winding assembly 220 does not interfere with the insertion of the plug of the appliance into the receptacle on the first sidewall 100, and a reasonable use of space is achieved.

According to the socket provided by the embodiment of the utility model, the shell 105 is provided with the decorative sheet at the position corresponding to the wire through hole.

As shown in fig. 1, a decorative sheet is provided at the position of the via hole, and the decorative sheet can be distinguished from the housing 105 in terms of color, pattern, etc. to play a role of being conspicuous and convenient for a user to take the joint 212. The length of the decorative sheet is slightly greater than the tab 212 so that the profile of the tab 212 can fall entirely within the scope of the decorative sheet when the tab 212 is in the first position.

According to the socket provided by the embodiment of the utility model, a sheath is arranged between the wire body 211 and the connector 212.

As the number of times the user charges increases, the change of the joint 212 between the first position and the second position increases, and at this time, the position between the wire body 211 and the joint 212 may be aged due to bending. Therefore, in this embodiment, a sheath is disposed between the wire body 211 and the connector 212, so as to play a role in resisting aging. Alternatively, the cross-sectional area of the position wire body 211 may be increased to perform the same function.

According to an embodiment of the present utility model, a locking mechanism 230 is further disposed on the housing 105, and the winding assembly 220 is adapted to switch between an unlocked state, in which the locking mechanism 230 is separated from the winding assembly 220, and a locked state, in which the locking mechanism 230 is adapted to lock the winding assembly 220.

As shown in fig. 2, a locking mechanism 230 for locking the winding assembly 220 is provided on the housing 105. Since the extended lengths of the winding assembly 220 and the charging wire 210 are directly related, the present embodiment provides a locking mechanism 230 for locking the winding assembly 220 to improve charging convenience. Particularly, when a user pulls the charging wire 210 to a desired length after charging using the socket including the winding assembly 220 and the elastic assembly as described above, the charging wire 210 is retracted by the pulling action of the elastic assembly when the user releases the charging wire 210, causing great inconvenience to charging. The present embodiment allows the winding assembly 220 to be switched between the unlocked state and the locked state by providing the locking mechanism 230. The locking mechanism 230 is capable of mating with the winding assembly 220, the winding assembly 220 being in a locked state when the locking mechanism 230 is mated with the winding assembly 220; when the locking mechanism 230 is disengaged from the winding assembly 220, the winding assembly 220 is in an unlocked state.

According to the socket provided by the embodiment of the utility model, the locking mechanism 230 includes a locking pin 231, a locking block 232 is disposed on the locking pin 231, a winding disc 221 is disposed on the winding assembly 220, a locking groove 222 is formed on an edge of the winding disc 221 along a circumferential direction of the winding disc 221, the winding assembly 220 is in the locked state when the locking block 232 is inserted into the locking groove 222, and the winding assembly 220 is in the unlocked state when the locking block 232 is removed from the locking groove 222.

As shown in fig. 2, the locking mechanism 230 includes a locking pin 231, and the locking pin 231 is movable in the axial direction of the winding assembly 220. A locking block 232 is provided on the locking pin 231 for locking the winding assembly 220. The winding assembly 220 is provided with a winding disc 221, and a locking groove 222 is formed in the circumferential direction of the edge of the winding disc 221. It will be appreciated that the locking block 232 is adapted to be inserted into the locking slot 222 to block rotation of the winding assembly 220. In the present embodiment, the number of the locking grooves 222 is three. Of course, in other embodiments, the number of locking slots 222 may be increased or decreased as desired. The greater the number of the locking grooves 222, the higher the adjustment accuracy of the extension length of the charging wire 210.

When the locking block 232 is inserted into the locking groove 222, the winding assembly 220 is in the locked state, and the winding assembly 220 is fixed relative to the housing 105, so that the charging wire 210 extends for a certain length, and a user can conveniently perform a charging operation; with the lock block 232 disengaged from the lock groove 222, the winding assembly 220 is in the unlocked state, in which the charging cord 210 can be pulled out or wound in.

According to the socket provided by the embodiment of the utility model, the shell 105 is further provided with an interface 104.

As shown in fig. 1, an interface 104 is provided on the first side wall 100 of the housing 105. The interface 104 in this embodiment is set as a Type-C interface and a USB interface. Of course, those skilled in the art may change the type of the interface 104 according to actual needs when implementing the present embodiment, which is not limited in this embodiment.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A socket, wherein a live wire hole (101), a zero wire hole (102) and a ground wire hole (103) are formed in the socket, and the socket is characterized in that the live wire hole (101) and the zero wire hole (102) are arranged above the ground wire hole (103);

the socket further comprises a charging wire (210) and a winding assembly (220), wherein the winding assembly (220) is arranged on the socket, and the charging wire (210) is suitable for being wound on the winding assembly (220).

2. The socket of claim 1, further comprising a housing (105), wherein the winding assembly (220) is rotatably disposed inside the housing (105).

3. The socket of claim 2, wherein the charging cord (210) comprises a cord body (211) and a connector (212), a first end of the cord body (211) is fixedly connected to the winding assembly (220), the connector (212) is disposed at a second end of the cord body (211) and a first absorbent member is disposed on the connector (212);

the housing (105) is provided with a second absorbent member, and the joint (212) is adapted to switch between a first position in which the first absorbent member is adapted to cooperate with the second absorbent member and a second position in which the first absorbent member is adapted to be separated from the second absorbent member.

4. A socket according to claim 3, further comprising an elastic assembly mounted inside the housing (105) and connected to the winding assembly (220), the elastic assembly being adapted to pull the winding assembly (220) to wind the wire body (211) around the winding assembly (220).

5. A socket according to claim 3, wherein the live wire hole (101), the neutral wire hole (102) and the ground wire hole (103) are formed in a first side wall (100) of the housing (105), a wire passing hole is formed in a second side wall (200) of the housing (105), and the wire body (211) is adapted to pass out of the housing (105) through the wire passing hole;

wherein the first side wall (100) and the second side wall (200) are in different planes.

6. The socket of claim 5, wherein a decorative sheet is provided on the housing (105) at a position corresponding to the via hole.

7. A socket according to claim 3, wherein a sheath is provided between the wire body (211) and the connector (212).

8. The socket according to any one of claims 2 to 7, wherein a locking mechanism (230) is further provided on the housing (105), the winding assembly (220) being adapted to switch between an unlocked state, in which the locking mechanism (230) is separated from the winding assembly (220), and a locked state, in which the locking mechanism (230) is adapted to lock the winding assembly (220).

9. The socket according to claim 8, wherein the locking mechanism (230) comprises a locking pin (231), a locking block (232) is arranged on the locking pin (231), a winding disc (221) is arranged on the winding assembly (220), a locking groove (222) is formed in the edge of the winding disc (221) along the circumferential direction of the winding disc (221), the winding assembly (220) is in the locking state when the locking block (232) is inserted into the locking groove (222), and the winding assembly (220) is in the unlocking state when the locking block (232) is separated from the locking groove (222).

10. The socket according to any one of claims 2 to 7, wherein an interface (104) is further provided on the housing (105).