CN220421015U - Foldable plug structure of patch board - Google Patents

Abstract

The utility model discloses a foldable plug structure of a patch board, and relates to the technical field of patch boards. The patch board comprises a patch board main body, a patch board and a patch board, wherein the patch board main body is provided with a built-in quick-charging technology; the placement shell is arranged at one end outside the patch board main body and is communicated with the interior of the patch board main body; the plug part is arranged in the placement shell and is used for supplying power to the patch board main body, wherein the output end of the plug part is arranged in the placement shell, the input end of the plug part is arranged outside the placement shell, and when the input end is stressed manually, the output end can be separated from the placement shell. According to the utility model, the patch board main body is set into the patch board with the built-in quick-charging technology, and the wiring harness of the patch board is selected to be stored in the storage shell or inserted in the expansion assembly according to the requirements, so that the device can store the connector during operation, the connecting part of the connector is effectively protected, and the service life is prolonged.

Description

Foldable plug structure of patch board

Technical Field

The utility model relates to the technical field of patch boards, in particular to a foldable plug structure of a patch board.

Background

The wiring board is an indispensable daily necessities of every family, and along with domestic appliance is more and more, the socket on the wall can't satisfy the use of electrical apparatus, needs to connect more electrical apparatus through the wiring board, and the wiring board of wireless cable can be used to this kind of condition, and the plug of this kind of wiring board is direct setting on the wiring board. In order to facilitate the storage of the patch board, a patch board with a foldable plug is appeared in the market, such as a socket converter with a rotary plug in chinese patent No. CN210779376U, and a rotary plug structure of the socket converter is disclosed.

However, when the device is actually used, the patch board is a traditional patch board, however, the current stage pursues high charging efficiency and short charging time, the traditional patch board cannot meet the requirements, and therefore, the applicant proposes a novel foldable plug structure of the patch board so as to solve the defects.

Disclosure of Invention

The utility model aims to provide a foldable plug structure of a patch board, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a foldable plug structure of a patch panel, comprising:

a patch board main body provided with a built-in quick-charging technology;

the placement shell is arranged at one end outside the patch board main body and is communicated with the interior of the patch board main body;

the plug component is arranged in the placement shell and is used for supplying power to the patch board main body, wherein the output end of the plug component is arranged in the placement shell, the input end of the plug component is arranged outside the placement shell, when the input end is stressed manually, the output end can be separated from the placement shell, and when the input end is not stressed manually, the output end can automatically return to the interior of the placement shell;

an extension assembly mounted on the back of the patch panel body and adapted to allow the plug member to fit different power outlets;

the expansion assembly includes:

the folding frame is fixed at the middle end of the back of the patch board main body, a transformation connector is connected in the folding frame in a rotating mode, and the transformation connector is matched with the input end of the plug part.

Still further, the plug member includes:

the power supply wire harness and the quick charging plug are fixed, and one end of the power supply wire harness is fixed with the quick charging plug, and the other end of the power supply wire harness is arranged in the placing shell.

Further, a wire harness opening is reserved at one end, close to the plug part, of the folding frame, and the wire harness opening is matched with the power supply wire harness.

Furthermore, one end of the voltage transformation connector, which is close to the wire harness port, is provided with a connecting notch which is matched with the quick-charging plug.

Further, rubber pads are respectively fixed at two ends of the back of the patch board main body and used for lifting the height of the patch board main body when the patch board main body is placed on the horizontal ground.

Furthermore, a deformable plastic material beam clamp is fixed at the rubber pad close to the placement shell, and the power supply wire beam can be clamped in the beam clamp.

Furthermore, the back of the patch board main body is provided with a wire slot, the wire slot is matched with the power supply wire harness, and the wire slot spans between a rubber pad provided with the wire harness clamp and the expansion assembly.

Still further, place the internally mounted of casing and receive line subassembly, receive line subassembly and include:

one end of the assembly rod penetrates through the placement shell and is communicated with a circuit in the patch board main body, and the other end of the assembly rod is fixed in the placement shell;

one end of the return spring is fixed with the assembly rod, and the other end of the return spring is fixed with a sleeve capable of conducting electricity;

one end of the power supply wire harness is coiled and fixed outside the sleeve.

Still further, the quick charge technique is, for example, any one of QC (Quick Charge) and PD (Power Delivery).

Furthermore, the quick-charging plug is a type-C connector, and the voltage transformation connector is any one of a three-pin connector and a two-pin connector.

The utility model provides a folding plug structure of wiring board, is through setting up the wiring board main part into the wiring board of built-in quick charge technique to let the pencil of this wiring board select to accomodate the inside of placing the casing or peg graft the setting in the inside of extension subassembly as required, make the device when the operation, can accomodate the joint, effectively protect the junction of joint, increase of service life.

In addition, the folding design makes the quick-fill connector more compact and portable, portable and deposit. It can be conveniently put into a pocket, a bag or a suitcase without occupying too much space. This is particularly useful for people who often need to go out or travel;

then, the shape and angle of the foldable quick-fill connector can be adjusted according to the requirements, so that the foldable quick-fill connector is easier to store and organize. The connector can be folded and placed at a proper position in the home, the office or the journey, so that the confusion and entanglement of wires are avoided;

finally some conventional quick-fill connectors may result in poor contact, wire damage or breakage due to heavy pressure between the connection wire and the plug. The foldable joint design may reduce the risk of damage due to compression and tension, thereby improving the stability and durability of the joint.

Drawings

FIG. 1 is an isometric view of the present utility model;

FIG. 2 is a view showing the back structure of the present utility model;

FIG. 3 is a structural view of a plug member of the present utility model;

FIG. 4 is a structural view of the wire takeup assembly of the present utility model;

FIG. 5 is an enlarged view of a portion A of FIG. 2;

fig. 6 is a structural composition diagram of the expansion assembly of the present utility model.

In the figure: 1. a patch board main body; 2. placing a shell; 3. a plug member; 301. a power supply harness; 302. a quick-charging plug; 4. an expansion component; 401. a folding frame; 402. a pressure-variable joint; 403. a connecting notch; 404. a harness opening; 5. rubber cushion; 6. a wire slot; 7. a wire harness clip; 8. a wire winding assembly; 801. a sleeve; 802. a return spring; 803. and (5) assembling a rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but 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 wiring board is an indispensable daily necessities of every family, and along with domestic appliance is more and more, the socket on the wall can't satisfy the use of electrical apparatus, needs to connect more electrical apparatus through the wiring board, and the wiring board of wireless cable can be used to this kind of condition, and the plug of this kind of wiring board is direct setting on the wiring board. In order to conveniently store the patch board, a patch board with a foldable plug appears in the market, however, when the patch board is actually used, the patch board is a traditional patch board, however, the traditional patch board cannot meet the requirements of pursuing high charging efficiency and short charging time at present, and the applicant proposes a novel patch board with a foldable plug structure to solve the defects.

As shown in fig. 1 to 6, the present utility model provides a technical solution: a foldable plug structure of a patch panel, comprising: a patch panel main body 1 provided with a built-in quick-fill technology; a placement case 2 which is installed at one end outside the patch panel body 1 and which communicates with the inside of the patch panel body 1; a plug part 3 installed in the placement housing 2 and used for supplying power to the patch board body 1, wherein an output end of the plug part 3 is arranged in the placement housing 2, an input end of the plug part 3 is arranged outside the placement housing 2, when the input end is stressed manually, the output end can be separated from the placement housing 2, and when the input end is not stressed manually, the output end can automatically return to the interior of the placement housing 2; an extension assembly 4 mounted on the back of the patch panel body 1 and adapted to allow the plug member 3 to be fitted to different power outlets; the expansion assembly 4 includes:

the folding frame 401 is fixed at the middle end of the back of the patch board main body 1, and the inside of the folding frame is rotatably connected with the transformation connector 402, and the transformation connector 402 is matched with the input end of the plug part 3.

In this application, the patch panel with the quick-charging technology built in the patch panel main body 1 is a power expansion device with a quick-charging function. It integrates fast-charging technology inside a patch panel, which can provide higher charging Power and faster charging speed for connected devices, and this type of patch panel is typically equipped with multiple sockets supporting fast-charging, such as Quick Charge (QC), power Delivery (PD), or other fast-charging standards. These receptacles may automatically identify the connected devices and provide corresponding power outputs based on their charging needs.

It should be noted that, in the practical use process, the patch board with the built-in quick-charging technology also has the following characteristics:

first, multi-functional design: in addition to quick-charge sockets, they often include common sockets and USB ports to meet the charging needs of various devices, such as cell phones, tablet computers, notebook computers, cameras, and the like.

Second, a security protection mechanism: in order to ensure safety, the patch boards are provided with safety functions such as overload protection, short-circuit protection, overheat protection and the like, so that accidents caused by high-power charging are prevented.

Third, high efficiency energy utilization: the patch board with the built-in quick-charging technology generally adopts an intelligent power distribution mechanism, and can dynamically adjust power output according to equipment requirements, so that the energy utilization efficiency is improved to the greatest extent.

Fourth, compact portability: such patch panels are often designed to be compact and portable and easy to use. Some models also have a foldable or rotatable plug, increasing convenience and flexibility.

Fifth, through the wiring board that uses built-in quick charge technique, the user can conveniently provide quick charge for a plurality of equipment, saves charge time, improves charge efficiency to ensure safe and reliable.

It is emphasized that, this application is through setting up wiring board main part 1 into the wiring board of built-in quick charge technique to let the pencil of this wiring board select to accomodate the inside of placing casing 2 or peg graft the setting in the inside of extension subassembly 4 as required, make the device when the operation, can accomodate the joint, effectively protect the junction of joint, increase of service life.

In addition, the folding design makes the quick-fill connector more compact and portable, portable and deposit. It can be conveniently put into a pocket, a bag or a suitcase without occupying too much space. This is particularly useful for people who often need to go out or travel;

then, the shape and angle of the foldable quick-fill connector can be adjusted according to the requirements, so that the foldable quick-fill connector is easier to store and organize. The connector can be folded and placed at a proper position in the home, the office or the journey, so that the confusion and entanglement of wires are avoided;

finally some conventional quick-fill connectors may result in poor contact, wire damage or breakage due to heavy pressure between the connection wire and the plug. The foldable joint design may reduce the risk of damage due to compression and tension, thereby improving the stability and durability of the joint.

As can be seen with reference to fig. 3, in the present application, the plug part 3 comprises: the power supply wire bundle 301 and the quick charge plug 302, one end of the power supply wire bundle 301 and the quick charge plug 302 are fixed, and the other end is installed inside the placement housing 2. As can be seen from fig. 6, the folding frame 401 has a wire harness opening 404, which is adapted to the power supply wire harness 301, at the end of the folding frame 401 adjacent to the plug part 3. Wherein the end of the voltage transformation connector 402 near the wire harness port 404 is self-formed with a connection notch 403 adapted to the quick-fill plug 302.

Referring to fig. 2 and 5, in the present application, rubber pads 5 are fixed at two ends of the back of the patch board main body 1, the rubber pads 5 are used for raising the height of the patch board main body 1 when placed on the horizontal ground, plastic material beam clamps 7 capable of deforming are fixed at the positions, close to the rubber pads 5, of the placement shell 2, the power supply wire bundles 301 can be clamped in the beam clamps 7, in addition, wire slots 6 are formed in the back of the patch board main body 1, the wire slots 6 are matched with the power supply wire bundles 301, and the wire slots 6 span between the rubber pads 5 provided with the beam clamps 7 and the expansion assembly 4.

Referring to fig. 4, in the present application, a wire winding assembly 8 is installed in the placement housing 2, and the wire winding assembly 8 includes: an assembly rod 803, one end of which penetrates the placement housing 2 and communicates with the circuit in the patch panel body 1, and the other end of which is fixed inside the placement housing 2; a return spring 802, one end of which is fixed to the fitting rod 803, and the other end of which is fixed to a sleeve 801 capable of conducting electricity; one end of the power supply harness 301 is wound and fixed outside the sleeve 801.

It should be added that the quick-charging technology in the present application is, for example, any one of QC (Quick Charge) and PD (Power Delivery), the quick-charging plug 302 is a type-C connector, and the variable-voltage connector 402 is any one of a three-pin connector and a two-pin connector.

It should be further noted that, for example, QC (Quick Charge) technology is a fast charging technology developed by high-pass company. The device aims to enable equipment supporting quick charging to acquire electric quantity more quickly by increasing charging power, and provide more efficient charging experience.

The following are some key features of QC techniques:

first, fast charge: the QC technique may increase the charging power to a higher level, thereby increasing the charging speed of the device. In particular, it can charge more electric quantity for equipment in a short time, saves the charge time.

Second, intelligent adaptation: the QC technology adopts an intelligent adaptation function, and can dynamically adjust output voltage and current according to the charging requirement of the equipment. In this way, even if the QC charger is used to charge different brands and models of devices, it is possible to ensure that the proper charging power is provided stably and safely.

Third, interoperability: QC technology is widely used in the market, and is supported by numerous devices and chargers. This means that a user can use a charger conforming to the QC standard to quickly charge a variety of compatible devices without the need for an additional adapter or charging cord.

Fourth, safe and reliable: the QC technology is equipped with multiple safety protection mechanisms including overvoltage protection, overheat protection, short-circuit protection, etc. to ensure the safety and stability of the device during charging.

Furthermore, the PD (Power Delivery) technology referred to in this application is a high power, multi-functional charging and data transfer standard intended to provide a faster, more convenient power supply and data transfer scheme.

The following are some key features of PD technology:

first, high power output: PD technology supports power output up to 100W, far exceeding the power of the conventional USB standard. This means that it can provide fast charging for devices requiring a greater power supply, such as notebook computers, tablet computers and other high power devices.

Second, intelligent power management: the PD technology has an intelligent power management function, and can dynamically adjust power output according to the requirements of the connected equipment. The method can identify the charging requirement of the connecting equipment, optimize power distribution and ensure a high-efficiency and stable charging process.

Third, bidirectional charging: the PD technology supports bidirectional charging, so that the charger can supply power to the equipment, and the equipment can also supply power to the charger. This function allows the device to act as a charger to provide charging services to other devices when needed.

Fourth, fast charging and fast data transfer: PD technology enables faster charging speeds and data transfer speeds. By supporting higher currents and faster data transfer rates, it can greatly reduce the time required for charging and data transfer.

Multifunctional application: PD technology is not only applicable to charging of mobile devices, but also to other fields such as car charging, display connection and peripheral device connection. It provides a more flexible, convenient solution to meet the power supply and data transmission requirements of different devices.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Foldable plug structure of wiring board, its characterized in that includes:

a patch board main body provided with a built-in quick-charging technology;

the placement shell is arranged at one end outside the patch board main body and is communicated with the interior of the patch board main body;

the plug component is arranged in the placement shell and is used for supplying power to the patch board main body, wherein the output end of the plug component is arranged in the placement shell, the input end of the plug component is arranged outside the placement shell, when the input end is stressed manually, the output end can be separated from the placement shell, and when the input end is not stressed manually, the output end can automatically return to the interior of the placement shell;

an extension assembly mounted on the back of the patch panel body and adapted to allow the plug member to fit different power outlets;

the expansion assembly includes:

the folding frame is fixed at the middle end of the back of the patch board main body, a transformation connector is connected in the folding frame in a rotating mode, and the transformation connector is matched with the input end of the plug part.

2. The foldable plug structure of the patch panel according to claim 1, wherein:

the plug member includes:

the power supply wire harness and the quick charging plug are fixed, and one end of the power supply wire harness is fixed with the quick charging plug, and the other end of the power supply wire harness is arranged in the placing shell.

3. The foldable plug structure of the patch panel according to claim 2, wherein:

and a wire harness opening is reserved at one end of the folding frame, which is close to the plug part, and the wire harness opening is matched with the power supply wire harness.

4. The foldable plug structure of the patch panel according to claim 3, wherein:

one end of the voltage transformation connector, which is close to the wire harness port, is provided with a connecting notch which is matched with the quick-charging plug.

5. The foldable plug structure of the patch panel according to claim 2, wherein:

rubber pads are fixed at two ends of the back of the patch board main body respectively and used for lifting the height of the patch board main body when placed on the horizontal ground.

6. The foldable plug structure of the patch panel of claim 5, wherein:

the plastic beam clamp capable of deforming is fixed at the rubber pad close to the placement shell, and the power supply wire beam can be clamped in the beam clamp.

7. The foldable plug structure of the patch panel of claim 6, wherein:

the back of wiring board main part has been seted up the wire casing, the wire casing with power supply pencil looks adaptation, and the wire casing spanned between the cushion and the extension subassembly of installing the pencil clamp.

8. The foldable plug structure of the patch panel of claim 6, wherein:

the internally mounted of place casing has a receipts line subassembly, and receipts line subassembly includes:

one end of the assembly rod penetrates through the placement shell and is communicated with a circuit in the patch board main body, and the other end of the assembly rod is fixed in the placement shell;

one end of the return spring is fixed with the assembly rod, and the other end of the return spring is fixed with a sleeve capable of conducting electricity;

one end of the power supply wire harness is coiled and fixed outside the sleeve.

9. The foldable plug structure of the patch panel according to claim 1, wherein:

the quick charge technique is, for example, any one of QC (Quick Charge) and PD (Power Delivery).

10. The foldable plug structure of the patch panel according to claim 2, wherein:

the quick-charging plug is a type-C connector, and the voltage transformation connector is any one of a three-pin connector and a two-pin connector.