CN209435244U - A kind of home intranet device applied to home intranet - Google Patents

A kind of home intranet device applied to home intranet Download PDF

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Publication number
CN209435244U
CN209435244U CN201820659812.0U CN201820659812U CN209435244U CN 209435244 U CN209435244 U CN 209435244U CN 201820659812 U CN201820659812 U CN 201820659812U CN 209435244 U CN209435244 U CN 209435244U
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China
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module
networking
shell
housing
data interface
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CN201820659812.0U
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Chinese (zh)
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何音建
王涛
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Five Erect Technology (beijing) Co Ltd
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Five Erect Technology (beijing) Co Ltd
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Abstract

The utility model discloses a kind of home intranet devices applied to home intranet, it includes multiple shells with identical special construction, an and networking module built in each shell, the networking module is gigabit switch, any one in gigabit router and cable TV coaxial line networking module, so that user can be according to itself domestic applications scene and existing wires design, it selects corresponding multiple networking modules and combination is overlapped by shell, and then complicated wires design is not needed, it does not need to achieve that home intranet in the case where each floor of big-room and luxury housing project/the different network equipments are not arranged in the different location of chummery yet, and realize all standing of home network, improve user experience, also save space and resource.In addition, the home intranet device further includes a power module comprising power supply submodule and the power line networking submodule that can realize home intranet with above-mentioned multiple networking module stack combinations.

Description

Household networking device applied to household networking
Technical Field
The utility model relates to a family's network deployment technical field has and relates to a family's network deployment device who is applied to family's network deployment.
Background
With the rapid development of digital homes, the demand of home users for network access is increasing, and the number of home internet access devices is explosively increasing. At present, Internet access devices in a family, such as Internet high-definition televisions, game machines, players, IP phones, computers, intelligent household appliances, intelligent offices and other devices, are connected to a family network by means of a single WiFi router. However, due to the poor coverage of the WiFi signal and the low wall-through performance, the data transmission coverage inside the home has a certain blind area, especially in three or more rooms (such as a multi-story villa), and the problem is serious, but the national standard requirements on signal radiation cannot be met only by increasing the signal radiation intensity. Therefore, the stability of network access cannot be guaranteed by relying on the access of the WIFI router alone. In addition, as more and more intelligent devices and monitoring devices need to be accessed to the internet, the existing single router cannot meet the application requirements of users; data exchange among different terminal devices and mutual pushing of audio and video data are more and more frequent, for example, the technologies such as DLNA, miracast and VR are widely applied, and the application scenes of audio and video in a family are continuously enriched, so that the bandwidth of a local area network system in the family is required to be higher and higher. And through the family networking, the expenditure can be saved, so that a plurality of hardware devices can realize multi-machine sharing, and the existing resources are fully utilized.
The conventional home networking includes three types, the first, data relay distribution based on wired ethernet. However, in this method, since the network cable can only realize point-to-point one-to-one transmission, the coverage rate of the network cable in the home is not high. If the coverage rate needs to be improved, a user needs to carefully design a network topology (including a network architecture, a switching node, a sink node and the like) according to the building structure and then perform wiring construction. Therefore, the networking scheme is more suitable for newly installed and repaired users and is not suitable for users with high line modification difficulty; and in the decoration process, people with high experience need to be selected to complete network wiring. Therefore, this approach is rarely used in practice. Second, the homeplug technology based on power line carrier. The power sockets are distributed in each room of the family, and the access point selection is flexible, so that the networking based on the power line is an effective means for the family deployment of telecommunication services. However, power line transmission has high noise and poor safety, and the generated radiation is not easy to solve. In addition, because high-power electrical appliances exist in most households, the high-power electrical appliances can interfere with an internal power grid, and therefore stable transmission of network signals is influenced. Third, wireless routing based data relay distribution. In this way, since the wireless signal transmission needs to simultaneously undertake the operations of the wireless device terminal access and the signal relay, that is, the two need to share the whole wireless bandwidth, a bandwidth bottleneck is easily formed. Moreover, due to the inherent wireless transmission stability problem and the low through-wall performance, the coverage and strength of wireless signals are greatly reduced under the condition that obstacles (such as furniture and walls) exist or the communication distance is long, the networking effect is influenced, and the wireless communication method is particularly obvious in a high-bandwidth application scene; the subsequent wireless network will have a certain drop in rate, typically by half the wireless transmission rate. In addition, when multiple devices are needed for relaying, the wireless repeater can only bridge the previous wireless repeater and cannot relay the main route, so that the wireless rate is halved layer by layer. Thus, for a large dwelling or villa home, the combination of wireless router + wireless repeater is clearly distracting and the rate drop is significant, even if the signal is fully covered, but not a net at all.
SUMMERY OF THE UTILITY MODEL
To the technical problem that above-mentioned exists, the utility model provides a be applied to family's network deployment device of family's network deployment.
In order to solve the technical problem, the utility model discloses a technical scheme be:
a family networking device applied to family networking comprises a plurality of shells which are sequentially stacked from top to bottom, wherein a networking module is arranged in each shell, and the networking module is any one of a cable television coaxial networking module, a kilomega switch module and a kilomega router module;
the shell is a containing space which is formed by enclosing a front side plate, a rear side plate, a left side plate, a right side plate, a bottom plate and a top plate and can contain the networking module, wherein a first data interface is arranged on the top plate and connected with the networking module in the shell, a step is arranged at the edge of the top plate, which is contacted with the left side plate, the right side plate and the front side plate, a second data interface is arranged on the bottom plate and respectively connected with the first data interface and the networking module in the shell, and the edge of the bottom plate, which is contacted with the left side plate, the right side plate and the front side plate, extends downwards to form a groove with an opening at the rear end; and is
The step on the top plate of the shell positioned at the bottom is matched with the groove on the bottom plate of the shell positioned in the middle, and the first data interface on the top plate of the shell positioned at the bottom is electrically connected with the second data interface on the bottom plate of the shell positioned in the middle; the step on the middle shell top plate is matched with the groove on the top shell bottom plate, and the first data interface on the middle shell top plate is electrically connected with the second data interface on the top shell bottom plate.
Further, be located the casing of bottom the interface is inhaled to second data interface for magnetism, family's network deployment device still includes power module, power module includes: the shell, and built-in power submodule piece and power line network deployment submodule piece in the shell, wherein, be connected with magnetism on the shell and inhale the connector, the power submodule piece passes through magnetism inhale the connector with the connection is inhaled to second data interface magnetism on the casing bottom plate, power line network deployment submodule piece respectively with the power submodule piece with magnetism is inhaled the connector and is linked to each other.
The utility model discloses an useful part lies in:
the utility model discloses a novel family's network deployment device based on multiple transmission technology combination, it includes the unique casing of a plurality of structures, every casing embeds a network deployment module, and this network deployment module in this every casing is cable TV coaxial line network deployment module, arbitrary one in giga switch module and the giga router module, thereby make the user can use the scene according to self family, based on current wiring design, select corresponding network deployment module, and carry out the stack combination through each network deployment module own casing and form networking equipment, in order to accomplish the two-way conversion between twisted pair network and the coaxial line network; furthermore, a power module is arranged, the power module comprises a power line networking module which can be superposed and combined with the networking modules in the shells and a power sub-module which can also supply power to the networking modules in the two shells simultaneously, so that after the power module is further superposed and combined with the networking modules in the shells, bidirectional conversion between a coaxial line network and a power line network is realized, or bidirectional conversion between a twisted pair network and the power line network is realized, further, home networking can be realized without complex wiring design or different network equipment arranged at different positions of each floor, full coverage of the home networking is realized, user experience is improved, and space and resources are saved.
Drawings
Fig. 1 is a schematic structural diagram of a first embodiment of a novel home networking device of the present invention;
fig. 2 is a partial sectional view of the home networking device of fig. 1;
FIG. 3 is a schematic view of a groove structure at the bottom of the housing in FIG. 1;
FIG. 4 is a front view of the housing of FIG. 1;
fig. 5 is a schematic structural diagram of a second embodiment of the novel home networking device of the present invention;
FIG. 6 is a partial cross-sectional view of FIG. 5;
fig. 7 is a schematic structural diagram of an embodiment of a home networking device applied to home networking according to the present invention;
fig. 8a is a schematic structural diagram of an embodiment of a top cover of a novel home networking device according to the present invention;
fig. 8b and 8c are schematic diagrams of the top cover of fig. 8a in combination with the home networking device of fig. 5 and the home networking apparatus of fig. 7, respectively;
fig. 9a, 9b and 9c are schematic diagrams of the connection of the home networking device and the power module in fig. 1, 8b and 8c, respectively;
FIG. 10 is a partial cross-sectional view of an inner module of the power module of FIG. 9 a;
fig. 11 is a functional block diagram of the power module of fig. 10.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings.
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The term is defined as:
family application scenario: the home application scenario herein refers to a network environment required in a house where each user resides or a network environment required in an office where the user resides. With the rapid switching of the Internet from the PC era to the mobile Internet era, home users have more and more network access requirements, and the number of home Internet devices has explosively increased, so that devices such as Internet high-definition televisions, game machines, players, IP phones, computers, intelligent home appliances, intelligent offices and the like in the home are required to be connected to the home network, but the required network environments of different users' homes are different, for example, the home of the user a only needs to be connected with a cable television, a game machine, a player, an IP phone and a computer; the family of the user B only needs an Internet high-definition television, an IP telephone and a computer; and the home of the user C only needs to be connected with the computer, the digital television and the mobile terminal, so that different users have different network environments required by the home, and naturally correspond to different application scenes.
The existing wiring design: the existing wiring design in this context means that the user house is pre-designed and constructed with the buried lines when finishing. However, due to differences of each household, existing wiring corresponding to each user may be different, for example, a living room and a bedroom in a home of the user a have coaxial line coverage, but only ethernet coverage is provided in a study room and no coaxial line coverage is provided, and a sundries room, a kitchen, a bathroom and other rooms only have power lines and no ethernet and coaxial line coverage is provided; the living room and the bedroom, the study room, the bathroom and the kitchen of the user B are all covered coaxially, and the sundries room and the balcony and the like only have power lines.
A networking module: the networking module in the text refers to intelligent equipment for network data transmission, such as a gigabit switch, a gigabit wireless router, a power modem, a cable television coaxial networking module, a household wireless infrared terminal and the like.
Home networking equipment/device: the home networking device/apparatus herein refers to a device having a housing with the features of the present invention, and any networking module is built in the device, or any combination between a plurality of housings with different networking modules built in the housing.
The utility model discloses a core thought is: considering the complexity and difference factors of home networking, in order to satisfy different application environments, different decoration environments, different use scenes and other practical differences, the utility model adopts MoCA transmission technology, designs a shell with unique structure, then integrates or fixes networking modules required by home networking in the shell, thereby selecting corresponding networking modules according to different home application scenes, for example, only selecting one networking module for certain home application scenes, and two, three or more networking modules for certain home application scenes, then performing corresponding superposition combination through respective shells of each networking module to form home networking equipment/devices, thereby realizing bidirectional conversion between an Ethernet network and a coaxial network or bidirectional conversion between the coaxial network and a power line network based on the existing wiring design, or, the bidirectional conversion between the Ethernet network and the power line network further realizes the home networking on the premise of not needing complex wiring design and not needing to set different network equipment at different positions of each floor, thereby improving the user experience and saving the space and resources.
Example one
Referring to fig. 1, for the utility model discloses a structural schematic diagram of an embodiment of a novel family's network deployment equipment for family's network deployment, specifically, this family's network deployment equipment of this embodiment includes: the device comprises a shell 11 and a networking module 12 fixed in the shell, wherein the networking module 12 is any one of a cable television coaxial line networking module, a gigabit switch module and a gigabit router module. (since the power line networking module is not separately provided by the housing as with the three networking modules, but is integrated with the power sub-module to form a new power module, the power line networking module is not mentioned in the present embodiment, but is illustrated in the fifth embodiment).
Referring to fig. 2, 3 and 4, in the embodiment, the housing 11 is an accommodating space which is formed by enclosing a front side plate 111a, a rear side plate 111b, a left side plate 114a, a right side plate 114b, a bottom plate 112 and a top plate 113 and can accommodate the networking module 12, wherein the front side plate 111a is provided with a plurality of signal indicating lamps connected with the networking module 12; the rear side plate 111b is provided with a plurality of network interfaces (and/or power switch keys and/or reset keys) connected with the networking module 12; a first data interface 116 is disposed on the top plate 113, and the first data interface 116 is connected to the networking module 12, and a step 115 is disposed on the edge of the top plate 113 contacting the front side plate 111a, the left side plate 114a, and the right side plate 114 b; the bottom plate 112 is provided with a second data interface 117, the second data interface 117 is connected to the networking module 12, meanwhile, the edge of the bottom plate 112 contacting with the front side plate 111a, the left side plate 114a and the right side plate 114b extends/recesses downwards to form a groove 118 with an opening at the rear end, and the groove 118 can match with the step 115 on the top plate 113 of another (same structure) shell 11, then
When the step 115 on the top plate 113 is matched with the groove 118 on the bottom plate 112 of the other housing 11, the first data interface 116 on the top plate 113 is connected with the second data interface 117 on the bottom plate 112 (in the groove 118) of the other housing 11; or,
when the recess 118 of the bottom plate 112 of the housing 11 is matched with the step 115 of the top plate 113 of the other housing 11, the second data interface in the recess 118 of the bottom plate 112 of the housing 11 is connected with the first data interface of the top plate 113 of the other housing 11.
In this embodiment, the first data interface and the second data interface may adopt USB interfaces, magnetic interfaces, or other data interfaces capable of supplying power and transmitting data simultaneously.
In order to facilitate heat dissipation, in the present embodiment, heat dissipation portions are disposed on the bottom plate 112 and the left and right side plates 114a and 114b, and specifically, the heat dissipation portions may be a plurality of heat dissipation holes or disposed in the form of louvers. Further, when the networking module in the housing is stacked and combined with the networking module in another housing, in order to facilitate heat dissipation of the combined networking module, in this embodiment, a plurality of posts 119 are provided on the bottom plate for supporting the networking module, and at the same time, anti-slip blocks (such as anti-slip pads 120) are provided on the groove wall of the bottom groove of the bottom plate, so that the networking module 12 is supported between the top plate 113 and the bottom plate 112 of the housing 11 through the plurality of posts 119, i.e., not in contact with the top plate 113 or the bottom plate 112, and meanwhile, due to the arrangement of the anti-slip blocks, when the housing 11 is combined with another housing 11, a certain gap exists between the two, thereby facilitating heat dissipation through the bottom plate 112 and heat dissipation through the gap between the housings.
Of course, in this embodiment, for some users with simple home application scenarios (for example, only a computer networking is needed), since each room covers a power line, only one power line network device (such as a power modem) may be plugged into a wall socket to realize home networking. However, for the users with complex home application scenarios, due to the existing wiring design defects in homes, for example, only the living room and the bedroom have coaxial line coverage, but only the study room has twisted pair coverage and no coaxial line coverage, and the rooms such as the sundries room, the kitchen, the bathroom have only power lines and no twisted pair and coaxial line coverage, so to implement network coverage, two or more than three networking modules in the three networking modules may be needed, at this time, the two or more than two housings with different networking modules built therein may be correspondingly stacked and combined (after stacking and combining, the networking modules are connected with each other through the first data interface and the second data interface of the housings, and all the networking modules may be charged through the second data interface on the housing of the networking module located at the bottom) and then directly used, or the power line network equipment and the networking modules are combined to perform combined networking (i.e. the power line network equipment and the networking modules after being combined are respectively externally connected with a wall socket, and no connection exists between each networking module and the power line network equipment), so that a user can select the networking modules with corresponding quantity and types according to the household application scene and based on the existing wiring design to realize the bidirectional conversion between the Ethernet network and the coaxial network, or the bidirectional conversion between the coaxial network and the power line network, or the bidirectional conversion between the Ethernet network and the power line network, and further realize the household networking.
Example two
Referring to fig. 5 and fig. 6, for a structural schematic diagram of another embodiment of the novel home networking device for home networking of the present invention, specifically, the home networking device of the present embodiment includes: two casings 11a and 11b, and the networking module in each casing 11, wherein, the structure of these two casings 11 is the same with the casing 11 structure in the above-mentioned embodiment one, the same part adopts the same reference numeral, and the networking module in each casing 11 can be any one of cable television coaxial line networking module, giga switch module, giga router module, and the networking module in two casings 11 is different.
Referring to fig. 5, in the present embodiment, the first housing 11a is located above the second housing 11b, i.e. the groove 118 on the bottom plate 112 of the second housing 11b is matched with the step 115 on the top plate 113 of the first housing 11a (i.e. the second housing 11b is covered/overlapped on the first housing 11a by the matching of the groove and the step); referring to fig. 6, when the two housings are stacked, the second connection port 117 of the bottom plate 112 of the second housing 11b is electrically connected to the first data interface 116 of the top plate 113 of the first housing 11a, and the second data interface 117 of the bottom plate 112 of the first housing 11a is electrically connected to the networking module 12a and the first data interface 116 of the top plate 113 respectively through wires (black thick lines in fig. 6), so that when the second data interface 118 of the bottom plate 112 of the first housing 11a is connected to an external distribution box/power supply, home networking is realized, and the networking modules in the two housings can be charged simultaneously without separately charging.
In this embodiment, the networking module 12a in the first housing 11a is a cable coaxial networking module, and the networking module 12b in the second housing 11b is a gigabit switch module, so as to implement bidirectional conversion between an ethernet network and a coaxial network, of course, the interchange of the networking modules in the two housings can also be understood, that is, the networking module 12a in the first housing 11a is a gigabit switch module, and the networking module 12b in the second housing 11b is a cable coaxial networking module. Of course, it can also be understood that the networking module 12a in the first housing 11a is a cable coaxial networking module, and the networking module 12b in the second housing 11b is a gigabit router module (or the networking module 12a in the first housing 11a is a gigabit router module, and the networking module 12b in the second housing 11b is a cable coaxial networking module), or the networking module 12a in the first housing 11a is a gigabit switch module, and the networking module 12b in the second housing 11b is a gigabit router module (or the networking module 12a in the first housing 11a is a gigabit router module, and the networking module 12b in the second housing 11b is a gigabit switch module).
As can be seen from the above, in this embodiment, the networking modules in the two housings may be any two of a cable television coaxial networking module, a gigabit switch module, and a gigabit router module, namely, any two of the three networking modules, namely the cable television coaxial networking module, the kilomega switch module and the kilomega router module, can be randomly superposed and combined through the two shells, thereby realizing the bidirectional conversion between the Ethernet network and the coaxial line network, realizing the home networking, and the two networking modules after combination can simultaneously supply power for the two combined household networking devices only by connecting the household networking devices at the bottom into one power supply, furthermore, power sockets do not need to be respectively provided for the two networking modules for respectively charging, thereby not only improving the user experience, but also saving the space, so that the user can charge other electronic terminal devices or household appliances by using the remaining power socket.
EXAMPLE III
Based on foretell family's network deployment equipment, the utility model also provides a be applied to novel network deployment device of family's network deployment (or called family's network deployment equipment), it includes a plurality of casings in the above-mentioned embodiment one, and the same part adopts the same reference numeral, and wherein, the network deployment module of establishing in every casing is cable television coaxial line network deployment module, one in giga switch module and the giga router module. In general, three or more are referred to as "a plurality", and therefore, in this embodiment, the networking modules in the plurality of housings of the home networking device are any one of the three networking modules, or two (the proportion of each networking module is set as required), or a combination of three (the proportion of each networking module is set as required). For example, when the networking device has three shells, the networking modules in the three shells may all be a cable television coaxial networking module/gigabit switch module/gigabit router module; or, two shells are internally provided with a cable television coaxial line networking module/kilomega switch module, and one shell is internally provided with a kilomega router module; or the networking modules in the three shells are respectively a kilomega switch module, a kilomega router module and a cable television coaxial networking module. The following detailed description is given with reference to specific examples.
Referring to fig. 7, in this embodiment, the home networking device includes three shells 11a, 11b, and 11c, and one networking module is disposed in each shell, and the networking modules in the three shells are respectively a cable television coaxial networking module, a gigabit switch module, and a gigabit router module.
Referring to fig. 7, in the present embodiment, the structures of the three housings are the same as the housing 11 in the first embodiment, that is, the three housings are all an accommodating space which is formed by enclosing a front side plate 111a, a rear side plate 111b, a left side plate 114a, a right side plate 114b, a bottom plate 112 and a top plate 113 and can accommodate the networking module, and the front side plate 111a is provided with a plurality of signal indicator lamps connected to the networking module in the housing; the rear side plate 111b is provided with a plurality of network interfaces (and/or power supply keys and/or reset keys) connected with the networking module in the shell; a first data interface 116 is arranged on the top plate 113, and a step 115 is arranged on the edge of the joint of the top plate 113 and the front side plate 111a, the left side plate 114a and the right side plate 114 b; the bottom plate 112 is provided with a second data interface 117, and the edge of the junction of the bottom plate 112 and the front side plate 111a, the left side plate 114a and the right side plate 114b extends downward to form a rear end opening and can accommodate a groove 118 (the same reference numerals are used for the same parts) of the step on the top plate of the other housing.
Referring to fig. 7, in the present embodiment, the first housing 11a, the second housing 11b and the third housing 11c are sequentially stacked from bottom to top, that is, the second housing 11b is located above the first housing 11a, and the third housing 11c is located above the second housing 11b, that is, the step 115 on the top plate of the first housing 11a matches with the groove on the bottom plate of the second housing 11b (that is, the second housing 11b is covered on the first housing 11 a), the groove on the bottom plate of the third housing 11c matches with the step on the top plate of the second housing 11b (that is, the third housing 11c is covered on the second housing 11 b), so that the first data interface on the top plate of the first housing 11a is connected with the second data interface on the bottom plate of the second housing 11b, the first data interface on the top plate of the second housing 11b is connected with the second data interface on the bottom plate of the third housing 11c, because the second data interface on each shell bottom plate is connected with the first data interface on the shell top plate besides the networking module in the shell, only the second data interface on the first shell 11a bottom plate is connected with an external distribution box/power supply, not only is household networking realized, but also three networking modules are simultaneously charged, and the three networking modules do not need to be respectively and independently connected with a power supply/socket for charging.
In this embodiment, the networking modules in the three housings are respectively a cable television coaxial networking module, a gigabit switch module and a gigabit router module from top to bottom, i.e. the networking module in the first housing is a gigabit router module, the networking module in the second housing is a gigabit switch module, and the networking module in the third housing is a cable television coaxial networking module, however, in this embodiment, the overlapping order of the three networking modules can be arbitrarily interchanged, for example, the networking module in the first housing is a gigabit switch module, the networking module in the second housing is a gigabit router module, the networking module in the third housing is a cable television coaxial networking module, or the networking module in the first housing is a cable television coaxial networking module, and the networking module in the second housing is a gigabit router module, the networking module in the third shell is a gigabit switch module.
Of course, according to the corresponding home application scenario, the networking modules in the three shells may also be any one of the three networking modules, or two of the three networking modules, or any combination of the three networking modules, and it can also be understood that when more than three shells with built-in networking modules are selected for home networking, where two or more than two of the networking modules built in the shells may be the same at the same time, for example, two gigabit router modules may be at the same time, or two gigabit switches may be understood.
Example four
Corresponding to the novel family networking equipment in above-mentioned each embodiment, the utility model discloses still provide a novel family networking equipment, refer to fig. 8a, fig. 8b and fig. 8c, specifically, in this embodiment, this family networking equipment still includes top cap 13 except that casing and networking module (the same part adopts the same reference numeral, and the structure and the theory of operation of this casing and networking module in this embodiment are the same with the structure and the theory of operation in above-mentioned each embodiment, no longer describe here) in above-mentioned embodiment one/two/three, and this top cap 13 sets up the top of casing 11 in embodiment one, or the top of casing 11b/11c that is located the top in embodiment two/three.
In this embodiment, the bottom of the top cover 13 extends downward from the edge of the housing 11 contacting the left, right and front side plates to form a groove with an open rear end, and the groove matches with the step on the top plate edge of the housing 11 in the first embodiment, or matches with the step on the top plate edge of the housing in the second or third embodiment. That is, in the present embodiment, the structure of the top cover 13 is similar to the structure of the housing 11, except that the top of the top cover 13 is not provided with a step at the edge of the top plate as in the case, the top is also not provided with the first data interface, and the bottom is also not provided with the second data interface. In the embodiment, the top cover is arranged on the shell to prevent dust from falling into the shell, so that the appearance is ensured.
Further, in this embodiment, an intelligent remote control module is integrated in the top cover 13, and a third data interface is disposed at the bottom of the top cover 13, so that when the top cover 13 is combined with the home networking device in the first embodiment, a groove at the bottom of the top cover 13 is matched with a step on the top plate of the housing 11 (that is, the top cover 13 covers the housing 11), and the third data interface at the bottom of the top cover 13 is electrically connected with the first data interface 116 on the top plate 113 of the housing 11; when the top cover 13 is combined with the home networking device of the second or third embodiment, the groove at the bottom of the top cover 13 is matched with the step on the top plate of the housing at the top, and the third data interface at the bottom of the top cover 13 is electrically connected with the first data interface on the top plate of the housing at the top. In a specific embodiment, the intelligent remote control module can be implemented by a single chip or a microprocessor, and correspondingly, a corresponding remote controller is configured corresponding to the intelligent remote control module, so that the intelligent remote control module receives an instruction/signal sent by the remote controller in a wireless communication mode, processes the received instruction/signal, and makes a corresponding response.
EXAMPLE five
No matter any one of the cable television coaxial line networking module, the gigabit switch module and the gigabit router module is used independently, or two or three networking modules are superposed and combined through the shell and then are jointly networked with power line network equipment, such as a power modem (the joint networking in the text means that a power supply can be respectively connected between the power line network equipment and each networking module to carry out family networking, but no circuit connection exists between the power line network equipment and each networking module), the power line is required to be connected with an external power supply through the power line independently, however, due to the fact that the power line is exposed and the power line is usually long and is placed randomly, people in a house often walk about, particularly families with children, and the activity degree and the activity range of family members are even higher, therefore, if the power line is exposed, people can easily hook the power line in the walking process, so that each networking module is tripped or powered off, and even broken, and the network cannot be normally used.
Based on this, the present invention further provides a novel home networking device for home networking, and referring to fig. 9a, 9b and 9c, specifically, the home networking device of this embodiment further includes a power module 14 in addition to each component in the first embodiment or the second embodiment or the fourth embodiment (the same component is denoted by the same reference numeral).
Referring to fig. 10 and 11, the power module 14 includes a housing, and a power submodule 142 and a power line networking submodule 141 built in the housing, wherein the housing is connected to a magnetic connector 15 through a power line, the power submodule 142 and (a network output end of) the power line networking submodule 141 are both connected to the magnetic connector 15, and the magnetic connector 15 is also magnetically connected to a second data interface on the bottom plate of the housing (when a plurality of networking modules are stacked and combined, a second data interface on the housing at the bottom is magnetically connected to the magnetic connector), that is, the power submodule supplies power to each networking module through the magnetic connector; and the (power end of the) power line networking submodule 141 is also connected to the power submodule 142.
In this embodiment, for a user with a relatively simple home application scenario (for example, only a computer needs to be networked), since each room covers a power line, and the power module in this embodiment includes a power sub-module and a power line networking sub-module, the home networking can be implemented by directly using the power module. However, for a user with a complex home application scenario, due to the existing wiring design defects in a home, for example, only a living room and a bedroom have coaxial line coverage, but only an ethernet coverage is provided in a study room and no coaxial line coverage is provided, and rooms such as a living room, a kitchen, a bathroom and the like only have power lines and no ethernet and coaxial line coverage, to implement network coverage, the home networking device in the first embodiment may need to be combined with the power module in the present embodiment in an overlapping manner, that is, the second data interface at the bottom of the housing of the built-in cable television coaxial line networking module/gigabit switch module/gigabit router module is magnetically connected with the magnetic connector of the power module; or the home networking equipment/device in the second, third, or fourth embodiment is combined with the power module in the present embodiment in a stacking manner, that is, each networking module corresponds to a groove of a bottom plate of the housing and a step on a top plate, two/three identical housings (and top covers) with different networking modules built therein are combined in a stacking manner (after the networking modules are combined in a stacking manner, the networking modules are connected with each other through a first data interface and a second data interface of the housings), and then combined in a stacking manner with the power line networking submodule in the power module (that is, the second data interface of the bottom housing is magnetically connected with the magnetic connector of the power module), so that a user can select the networking modules in corresponding number and type according to the home application scene of the user and based on the existing wiring design to realize the bidirectional conversion between the ethernet network and the coaxial network, or bidirectional conversion between a coaxial line network and a power line network, or bidirectional conversion between an Ethernet network and the power line network, so as to realize home networking; and because all networking module and top cap all can charge through the second data interface on the networking module's that is located the bottom casing in the casing to no longer need provide supply socket respectively for each networking module respectively in order to charge respectively, not only improved user experience, also practiced thrift space and resource, make the usable remaining supply socket of user charge other electronic terminal equipment or domestic appliance.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A family networking device applied to family networking is characterized by comprising a plurality of shells which are sequentially stacked from top to bottom, wherein a networking module is arranged in each shell, and the networking module is any one of a cable television coaxial networking module, a kilomega switch module and a kilomega router module;
the shell is a containing space which is formed by enclosing a front side plate, a rear side plate, a left side plate, a right side plate, a bottom plate and a top plate and can contain the networking module, wherein a first data interface is arranged on the top plate and connected with the networking module in the shell, a step is arranged at the edge of the top plate, which is contacted with the left side plate, the right side plate and the front side plate, a second data interface is arranged on the bottom plate and respectively connected with the first data interface and the networking module in the shell, and the edge of the bottom plate, which is contacted with the left side plate, the right side plate and the front side plate, extends downwards to form a groove with an opening at the rear end; and is
The step on the top plate of the shell positioned at the bottom is matched with the groove on the bottom plate of the shell positioned in the middle, and the first data interface on the top plate of the shell positioned at the bottom is electrically connected with the second data interface on the bottom plate of the shell positioned in the middle; the step on the middle shell top plate is matched with the groove on the top shell bottom plate, and the first data interface on the middle shell top plate is electrically connected with the second data interface on the top shell bottom plate.
2. The home networking device according to claim 1, wherein the number of the housings is three, and the networking modules in the three housings are a cable television coaxial networking module, a gigabit switch module and a gigabit router module.
3. The home networking device of claim 1 or 2, wherein the second data interface on the bottom housing floor is a magnetic attraction interface, the home networking device further comprising a power module, the power module comprising: the shell, and built-in power submodule piece and power line network deployment submodule piece in the shell, wherein, be connected with magnetism on the shell and inhale the connector, the power submodule piece passes through magnetism inhale the connector with the connection is inhaled to second data interface magnetism on the casing bottom plate, power line network deployment submodule piece respectively with the power submodule piece with magnetism is inhaled the connector and is linked to each other.
4. The home networking device according to claim 1 or 2, further comprising a top cover disposed above the housing at the top, wherein a bottom of the top cover is extended downward from an edge of the top of the housing where the left, right and front side plates contact to form a groove with an open rear end, and the groove at the bottom of the top cover is matched with the step on the top plate of the housing at the top.
5. The home networking device according to claim 4, wherein an intelligent remote control module is integrated in the top cover, a third data interface connected with the intelligent remote control module is further arranged at the bottom of the top cover, and the third data interface is electrically connected with the first data interface on the top plate of the housing.
6. The home networking device according to claim 1 or 2, wherein the left side plate, the right side plate, and/or the bottom plate of the housing is provided with a heat dissipation part.
7. The home networking device of claim 1 or 2, wherein the bottom plate of the housing is provided with a plurality of posts for supporting the networking module.
8. The home networking device of claim 1 or 2, wherein the left and right side plates of the housing are arc-shaped.
9. The home networking device according to claim 1 or 2, wherein a non-slip pad is arranged on a contact surface of a groove wall of the groove, which is in contact with the step, and/or a signal indicator lamp is arranged on the front side plate, and/or a plurality of network interfaces are arranged on the rear side plate.
10. The home networking device of claim 6, wherein the heat sink is a plurality of vents or louvers.
CN201820659812.0U 2018-05-04 2018-05-04 A kind of home intranet device applied to home intranet Expired - Fee Related CN209435244U (en)

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Application Number Priority Date Filing Date Title
CN201820659812.0U CN209435244U (en) 2018-05-04 2018-05-04 A kind of home intranet device applied to home intranet

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201820659812.0U CN209435244U (en) 2018-05-04 2018-05-04 A kind of home intranet device applied to home intranet

Publications (1)

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CN209435244U true CN209435244U (en) 2019-09-24

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Granted publication date: 20190924