CN220043812U - Router positioning device - Google Patents

Abstract

The utility model discloses a router positioning device, relates to the technical field of routers, and is used for solving the problem that a network cable is easy to shake and fall off at a network cable interface of a router. The router positioning device comprises a fixed main body, wherein the fixed main body is provided with an annular side wall, the annular side wall encloses a mounting cavity with openings at two sides, and the mounting cavity is used for placing a router. And the annular side wall is provided with an avoidance hole which is used for enabling the net wire to extend in so that the net wire is connected with a net wire interface of the router. The router positioning device is used for fixing the network cable plugged on the router.

Description

Router positioning device

Technical Field

The utility model relates to the technical field of routers, in particular to a router positioning device.

Background

With the increasing development of network technology, more and more households use the internet. When the Internet is accessed to a household, a router is needed, and an external network cable is plugged into the router to realize the use of the Internet.

However, the router is not only plugged with a network cable, but also other wires are plugged with the router. When more wires are spliced on the router, the wires are easy to wind with the network wires, so that the network wires are easy to shake and fall off at the network wire interfaces of the router.

Disclosure of Invention

The utility model provides a router positioning device which is used for solving the problem that a network cable is easy to shake and fall off at a network cable interface of a router.

The utility model provides a router positioning device, which comprises a fixed main body, wherein the fixed main body is provided with an annular side wall, the annular side wall encloses a mounting cavity with openings at two sides, and the mounting cavity is used for placing a router. And the annular side wall is provided with an avoidance hole which is used for enabling the net wire to extend in so that the net wire is connected with a net wire interface of the router.

According to the router positioning device provided by the utility model, as the two sides of the installation cavity are provided with the openings, the router can be easily placed into the installation cavity through the openings. After the router is placed in the installation cavity, as the annular side wall is provided with the avoidance hole, one end of the net wire can extend into the installation cavity through the avoidance hole and is connected with a net wire interface of the router in the installation cavity. When more wires are inserted on the router, the annular side wall can play a role in protection, and a part of net wires positioned in the installation cavity cannot be wound with the wires inserted on the router. When the net wires positioned outside the installation cavity are wound with the wires inserted on the router, the annular side wall can play a role in supporting the net wires, so that the net wires are prevented from directly shaking at the net wire interface of the router, and the risk that the net wires fall off due to shaking at the net wire interface of the router is further reduced.

Optionally, the fixing body includes a first fixing part and a second fixing part, the first fixing part has a first installation groove, the first installation groove has a first groove bottom, a first groove wall and a second groove wall, and the first groove wall and the second groove wall are oppositely arranged. The second fixing piece is provided with a second mounting groove, the second mounting groove is provided with a second groove bottom, a third groove wall and a fourth groove wall, and the third groove wall and the fourth groove wall are oppositely arranged.

Wherein, the parts of the third groove wall and the fourth groove wall are embedded into the first mounting groove, and the first mounting groove and the second mounting groove form a mounting cavity. The third slot wall is connected with the first slot wall, and the second slot wall is connected with the fourth slot wall. And the second tank bottom is provided with an avoidance hole.

Optionally, the second fixing member includes a first sub-fixing member and a second sub-fixing member, wherein the first sub-fixing member includes a first fixing portion and a second fixing portion. One end of the first fixing part is connected with one end of the second fixing part, and the first fixing part and the second fixing part form an included angle. A part of the first fixing part is positioned in the first mounting groove and connected with the first groove wall. The second fixing part is provided with a first sub avoidance hole. The second sub-fixing piece comprises a third fixing part and a fourth fixing part, one end of the third fixing part is connected with one end of the fourth fixing part, and an included angle is formed between the third fixing part and the fourth fixing part. A part of the third fixing part is positioned in the first mounting groove and connected with the second groove wall. The fourth fixing part is provided with a second sub avoidance hole.

The second fixed part and the fourth fixed part are stacked, the first sub avoidance holes and the second sub avoidance holes are arranged oppositely, and the first sub avoidance holes and the second sub avoidance holes form avoidance holes.

Optionally, one end of the first groove wall, which is far away from the first groove bottom, is provided with a first sliding groove, the first sliding groove extends towards the direction close to the first groove bottom, and a part of the third groove wall is embedded into the first sliding groove. One end of the second groove wall, which is far away from the first groove bottom, is provided with a second sliding groove, the second sliding groove extends towards the direction close to the first groove bottom, and a part of the fourth groove wall is embedded into the second sliding groove.

Optionally, a gap is formed between one end of the first chute, which is close to the first tank bottom, and a gap is formed between one end of the second chute, which is close to the first tank bottom, and the first tank bottom.

Optionally, the first groove wall is provided with a first positioning hole, the second groove wall is provided with a second positioning hole, the third groove wall is provided with a third positioning hole, and the fourth groove wall is provided with a fourth positioning hole.

The router positioning device further comprises a first positioning piece and a second positioning piece. The first locating piece is arranged in the first locating hole in a penetrating mode and stretches into the third locating hole. The first groove wall and the third groove wall are connected through a first positioning piece. The second locating piece is arranged in the second locating hole in a penetrating mode and stretches into the fourth locating hole. The second groove wall and the fourth groove wall are connected through a second positioning piece.

Optionally, an end of the first positioning member near the third positioning hole has a chamfer.

Optionally, a chamfer is formed at one end of the second positioning member near the fourth positioning hole.

Optionally, the router positioning device further comprises a dust-proof member, wherein a through hole is formed in the dust-proof member, and the through hole is used for allowing the net wire to pass through. One end of the dustproof piece is abutted against the bottom of the second groove, and the other end of the dustproof piece is abutted against the periphery of the network cable interface of the router.

Optionally, the dust-proof member includes a fixing portion and a dust-proof portion. The fixing part is positioned in the avoidance hole, and a first sub through hole is formed in the fixing part. One end of the dustproof part is connected with the fixing part and is abutted against the bottom of the second tank, and the other end of the dustproof part is abutted against the periphery of the network cable interface of the router. The dustproof part is internally provided with a second sub-through hole, the first sub-through hole and the second sub-through hole are oppositely arranged, and the first sub-through hole and the second sub-through hole form a through hole.

Optionally, the fixing portion and the dust-proof portion are integrally formed of an elastic material. Along the extending direction of the through hole, the fixing part and the dustproof part are formed with a splice. The piece is located one side of through-hole, and cuts fixed part and dustproof portion.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and do not limit the utility model.

FIG. 1 is a cross-sectional view of a router positioning device according to an embodiment of the present utility model when a router is installed inside the device;

FIG. 2 is a cross-sectional view of a router positioning device according to an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of a router positioning device according to another embodiment of the present utility model;

FIG. 4 is a cross-sectional view of a first fastener provided in an embodiment of the present utility model;

FIG. 5 is an enlarged view of a portion of FIG. 1 at A;

FIG. 6 is a partial enlarged view at B in FIG. 1;

fig. 7 is an isometric view of a dust guard provided in an embodiment of the utility model.

Reference numerals:

100-router positioning means; 200-a router; 201-a network cable interface; 1-a fixed body; 2-a first positioning member; 3-a second positioning member; 4-dustproof piece; 11-annular side walls; 12-a mounting cavity; 13-avoiding holes; 14-a first fixing member; 15-a second fixing member; 41-through holes; 42-fixing part; 43-dustproof part; 44-splicing seams; 141-a first mounting groove; 142-a first groove bottom; 143-first groove walls; 144-second groove wall; 151-a second mounting groove; 152-a second groove bottom; 153-third groove wall; 154-fourth groove wall; 155-a first sub-mount; 156-a second sub-mount; 1551-a first securing portion; 1552-a second securing portion; 1553-first child avoidance aperture; 1561-third securing portion; 1562-fourth securing portion; 1563-second child-avoiding aperture; 1431—a first chute; 1441-a second runner; 1432-a first positioning hole; 1442-a second positioning hole; 1531-third positioning holes; 1541-fourth locating holes.

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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. In addition, when describing a pipeline, the terms "connected" and "connected" as used herein have the meaning of conducting. The specific meaning is to be understood in conjunction with the context.

In embodiments of the utility model, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g." in an embodiment should not be taken as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

With the increasing development of network technology, more and more families enjoy the interests of the internet. When the Internet is introduced into a household, an external network cable needs to be connected to an indoor router, and then terminals such as a computer in the household are connected to the router through wires, so that the use of the Internet can be realized.

Because the router is not only connected with the network cable, but also connected with other wires, the network cable and the other wires are easy to wind together, and the network cable is easy to drop from the router.

In order to reduce the risk of the network cable falling off the router, as shown in fig. 1, fig. 1 is a cross-sectional view of the router positioning device 100 according to the embodiment of the present utility model when the router 200 is installed inside the router positioning device 100, and the embodiment of the present utility model provides the router positioning device 100, where the router positioning device 100 may include a fixing body 1, the fixing body 1 has an annular side wall 11, the annular side wall 11 encloses a mounting cavity 12 with openings on two sides, and the mounting cavity 12 is used for placing the router 200. The annular side wall 11 is provided with an avoidance hole 13, and the avoidance hole 13 is used for enabling a network cable to extend in, so that the network cable is connected to a network cable interface 201 of the router 200.

Illustratively, the fixing body 1 may be in the shape of a rectangular parallelepiped, in which the installation cavity 12 is formed, and openings communicating with the installation cavity 12 are formed at opposite sides of the rectangular parallelepiped.

Since both sides of the installation cavity 12 have openings, the router 200 can be easily placed into the installation cavity 12 through the openings.

After the router 200 is placed in the installation cavity 12, since the annular side wall 11 is provided with the avoidance hole 13, one end of the network cable can extend into the installation cavity 12 through the avoidance hole 13 and is connected with the network cable interface 201 of the router 200 in the installation cavity 12. When more wires are plugged into the router 200, the annular side wall 11 can play a role in protecting a part of the net wires in the installation cavity 12 from being wound with the wires plugged into the router 200. When the wires inserted in the router 200 are wound around the wires outside the installation cavity 12, the annular side wall 11 can support the wires, so that the wires are prevented from directly shaking at the wire interface 201 of the router 200, and the risk that the wires fall off due to shaking at the wire interface 201 of the router 200 is reduced.

Illustratively, the cross-sectional shape of the wire is circular, the relief holes 13 are also circular, and the diameter of the wire is approximately equal to the diameter of the relief holes 13. In this way, when the net wire is inserted into the avoiding hole 13, a large friction force exists between the net wire and the annular side wall 11, and under the action of the friction force, the risk that the net wire is accidentally pulled out from the net wire interface 201 is greatly reduced, and the stability of connection between the net wire and the router 200 is improved.

Of course, the mesh wire and the escape hole 13 may have different shapes, as long as the mesh wire has a large friction force with the annular sidewall 11 after being inserted into the escape hole 13.

In order to facilitate the use of the fixing body 1, as shown in fig. 2, fig. 2 is a cross-sectional view of the router positioning device 100 according to an embodiment of the present utility model, in some embodiments, the fixing body 1 may include a first fixing member 14 and a second fixing member 15, where the first fixing member 14 has a first mounting groove 141, the first mounting groove 141 has a first groove bottom 142, a first groove wall 143, and a second groove wall 144, and the first groove wall 143 and the second groove wall 144 are disposed opposite to each other. The second fixing member 15 has a second mounting groove 151, and the second mounting groove 151 has a second groove bottom 152, a third groove wall 153, and a fourth groove wall 154, and the third groove wall 153 and the fourth groove wall 154 are disposed opposite to each other.

Portions of the third groove wall 153 and the fourth groove wall 154 are embedded in the first mounting groove 141, and the first mounting groove 141 and the second mounting groove 151 form the mounting chamber 12. The third groove wall 153 is connected to the first groove wall 143, and the second groove wall 144 is connected to the fourth groove wall 154. The second groove bottom 152 is provided with a relief hole 13.

For example, the first fixing member 14 and the second fixing member 15 may be U-shaped, and the first U-shaped fixing member 14 and the second U-shaped fixing member 15 are fastened to each other.

When the router 200 is installed in the fixing body 1 and the network cable is connected with the router 200, the router 200 may be placed in the first installation groove 141 of the first fixing member 14, then one end of the network cable extends into the second installation groove 151 through the avoidance hole 13 formed on the second groove bottom 152, and then the first fixing member 14 and the second fixing member 15 are fastened together. At this time, portions of the third groove wall 153 and the fourth groove wall 154 are embedded in the first installation groove 141, and the third groove wall 153 and the fourth groove wall 154 are connected with the first groove wall 143 and the second groove wall 144, respectively. In this way, the fixing body 1 realizes that the router 200 is placed in the installation cavity 12, so that the connection between the network cable and the router 200 is more stable.

For example, the first fixing member 14 may be integrally formed, and the second fixing member 15 may be integrally formed, so that the manufacturing process of the first fixing member 14 and the second fixing member 15 may be simplified.

Of course, the second fixing member 15 may also include multiple portions, and the manufacturer may manufacture each portion of the second fixing member 15 separately, so that the processing cost of the second fixing member 15 is low.

In some embodiments, as shown in fig. 3, fig. 3 is a cross-sectional view of a router positioning device 100 according to another embodiment of the present utility model, and the second fixing member 15 may include a first sub-fixing member 155 and a second sub-fixing member 156.

The first sub-mount 155 may include a first fixing portion 1551 and a second fixing portion 1552, one end of the first fixing portion 1551 is connected with one end of the second fixing portion 1552, and the first fixing portion 1551 and the second fixing portion 1552 form an included angle. A part of the first fixing portion 1551 is positioned in the first mounting groove 141 and connected to the first groove wall 143. The second fixing portion 1552 is provided with a first sub-escape hole 1553.

The second sub-mount 156 may include a third fixing portion 1561 and a fourth fixing portion 1562, one end of the third fixing portion 1561 is connected with one end of the fourth fixing portion 1562, and the third fixing portion 1561 and the fourth fixing portion 1562 form an included angle. A part of the third fixing portion 1561 is positioned in the first installation groove 141 and is connected to the second groove wall 144. The fourth fixing portion 1562 is provided with a second sub-escape hole 1563.

Wherein, the second fixed part 1552 and the fourth fixed part 1562 are stacked, and the first sub avoidance hole 1553 and the second sub avoidance hole 1563 are opposite, and the first sub avoidance hole 1553 and the second sub avoidance hole 1563 form the avoidance hole 13.

In order to achieve the snap-fit attachment of the first fastener 14 to the second fastener 15, the installer may first place a portion of the first fastening portion 1551 of the first sub-fastener 155 in the first mounting slot 141 and connect it to the first slot wall 143, and then place a portion of the third fastening portion 1561 of the second sub-fastener 156 in the first mounting slot 141 and connect it to the second slot wall 144. At this time, the second fixing portion 1552 and the fourth fixing portion 1562 are stacked together, and the first sub escape hole 1553 and the second sub escape hole 1563 communicate with each other to form the escape hole 13. Thus, the installer can perform the snap-fit attachment of the first fixing member 14 and the second fixing member 15.

Because the second fixing member 15 is composed of the first sub-fixing member 155 and the second sub-fixing member 156, the structures of the first sub-fixing member 155 and the second sub-fixing member 156 are relatively simple, and the manufacturing difficulty of the first sub-fixing member 155 and the second sub-fixing member 156 is relatively low, so that the manufacturing difficulty of the second fixing member 15 is reduced.

For example, as shown in fig. 3, the first sub-fixing member 155 may be L-shaped, that is, an angle formed between the first fixing portion 1551 and the second fixing portion 1552 of the first sub-fixing member 155 is 90 degrees. The second sub-mount 156 may also be L-shaped, i.e., the angle formed between the third mount 1561 and the fourth mount 1562 in the second sub-mount 156 is 90 degrees. At this time, when the first and second sub-fixtures 155 and 156 are coupled with the first and second groove walls 143 and 144, respectively, the second and fourth fixing portions 1552 and 1562 can be stacked together.

For example, the angle formed between the first and second fixing portions 1551 and 1552 may be 60 degrees, and correspondingly, the angle formed between the third and fourth fixing portions 1561 and 1562 may be 60 degrees. At this time, when the first and second sub-fixtures 155 and 156 are coupled to the first and second groove walls 143 and 144, respectively, the second and fourth fixing portions 1552 and 1562 can also be stacked together.

The shapes of the first sub-fixing member 155 and the second sub-fixing member 156 are not limited herein, as long as the second fixing portion 1552 and the fourth fixing portion 1562 can be laminated together when the first sub-fixing member 155 and the second sub-fixing member 156 are coupled with the first groove wall 143 and the second groove wall 144, respectively.

In order to achieve the connection between the third groove wall 153 and the first groove wall 143 and the connection between the second groove wall 144 and the fourth groove wall 154, as shown in fig. 4, fig. 4 is a cross-sectional view of the first fixing member 14 according to an embodiment of the present utility model, in some embodiments, one end of the first groove wall 143 away from the first groove bottom 142 has a first sliding groove 1431, the first sliding groove 1431 extends toward a direction approaching the first groove bottom 142, and a portion of the third groove wall 153 (fig. 2) is embedded in the first sliding groove 1431. The end of the second groove wall 144 remote from the first groove bottom 142 has a second groove 1441, the second groove 1441 extends in a direction toward the first groove bottom 142, and a portion of the fourth groove wall 154 (fig. 2) is embedded in the second groove 1441.

It will be appreciated that the sliding connection between the third slot wall 153 and the first slot wall 143 is enabled by the fact that a portion of the third slot wall 153 can be embedded within the first slot 1431. Similarly, since a part of the fourth groove wall 154 can be fitted into the second sliding groove 1441, the fourth groove wall 154 and the second groove wall 144 can be slidably connected.

When the first fixing element 14 and the second fixing element 15 are engaged with each other, a portion of the third groove wall 153 may be gradually embedded into the first sliding groove 1431 formed on the first groove wall 143 along the direction approaching the first groove bottom 142 from the end of the first groove wall 143 away from the first groove bottom 142. Similarly, a portion of the fourth groove wall 154 may gradually fit into the second groove 1441 formed in the second groove wall 144 from the end of the second groove wall 144 away from the first groove bottom 142 in the direction approaching the first groove bottom 142.

By providing the first chute 1431 and the second chute 1441 on the first chute wall 143 and the second chute wall 144, the user can easily install the first fixing member 14 and the second fixing member 15, and the router positioning device 100 has high convenience in use.

After a portion of the third slot wall 153 is embedded in the first slot 1431 and a portion of the fourth slot wall 154 is embedded in the second slot 1441, in order to fix the positions of the first slot wall 143 and the third slot wall 153 and the second slot wall 144 and the fourth slot wall 154 relative to each other, as shown in fig. 5, fig. 5 is a partial enlarged view of a portion of fig. 1, in some embodiments, the first slot wall 143 is provided with a first positioning hole 1432, the third slot wall 153 is provided with a third positioning hole 1531,

as shown in fig. 6, fig. 6 is a partial enlarged view of B in fig. 1, the second groove wall 144 is provided with a second positioning hole 1442, and the fourth groove wall 154 is provided with a fourth positioning hole 1541.

As shown in fig. 5 and 6, the router positioning device 100 may further include a first positioning member 2 and a second positioning member 3. The first positioning element 2 is disposed through the first positioning hole 1432 and extends into the third positioning hole 1531. The first groove wall 143 and the third groove wall 153 are connected by the first positioning member 2. The second positioning member 3 is disposed through the second positioning hole 1442 and extends into the fourth positioning hole 1541. The second slot wall 144 and the fourth slot wall 154 are connected by the second positioning member 3.

After a portion of the third groove wall 153 is embedded in the first sliding groove 1431, the user may install the first positioning member 2 in the first positioning hole 1432 and the third positioning hole 1531, and the first positioning member 2 may perform a limiting function, that is, the first positioning member 2 may limit the movement of the third groove wall 153 in a direction approaching the first groove bottom 142 or a direction separating from the first groove bottom 142.

Similarly, after a portion of the fourth groove wall 154 is embedded in the second sliding groove 1441, the user may install the second positioning member 3 in the second positioning hole 1442 and the fourth positioning hole 1541, and the second positioning member 3 may perform a limiting function, that is, the second positioning member 3 may limit the movement of the fourth groove wall 154 in a direction approaching the first groove bottom 142 or a direction separating from the first groove bottom 142.

By arranging the first positioning piece 2 and the second positioning piece 3, the position of the first fixing piece 14 and the position of the second fixing piece 15 after being buckled can be kept relatively fixed, and the stability of the router positioning device 100 in use is greatly improved.

For example, the cross-sectional shapes of the first positioning member 2 and the second positioning member 3 may be substantially T-shaped. As shown in fig. 5, a part of the first positioning member 2 is located in the first positioning hole 1432 and the third positioning hole 1531, and the other part is located at a side of the first groove wall 143 away from the first mounting groove 141. As shown in fig. 6, a part of the second positioning member 3 is located in the second positioning hole 1442 and the fourth positioning hole 1541, and the other part is located at a side of the second groove wall 144 away from the first mounting groove 141.

Illustratively, the first positioning hole 1432, the second positioning hole 1442, the third positioning hole 1531, and the fourth positioning hole 1541 may be circular holes, and portions of the first positioning member 2 and the second positioning member 3 located in the holes may be cylindrical. At this time, the portions of the first positioning member 2 located in the first positioning hole 1432 and the third positioning hole 1531 may be interference fit with the first positioning hole 1432 and the third positioning hole 1531, and the portions of the second positioning member 3 located in the second positioning hole 1442 and the fourth positioning hole 1541 may be interference fit with the second positioning hole 1442 and the fourth positioning hole 1541. In this way, the first positioning member 2 and the second positioning member 3 are more firmly installed, and the stability of the router positioning device 100 in use is further improved.

Of course, the first positioning hole 1432, the second positioning hole 1442, the third positioning hole 1531, and the fourth positioning hole 1541 may have other shapes, and the first positioning member 2 and the second positioning member 3 may have other shapes, so long as the first positioning member 2 may be tightly matched with the first positioning hole 1432 and the third positioning hole 1531, and the second positioning member 3 may be tightly matched with the second positioning hole 1442 and the fourth positioning hole 1541.

To facilitate insertion of the first detent 2 into the first detent bore 1432 and the third detent bore 1531, with continued reference to fig. 5, in some embodiments, an end of the first detent 2 proximate the third detent bore 1531 has a chamfer. Under the guiding action of the chamfer, an installer can easily insert the first positioning piece 2 into the first positioning hole 1432 and the third positioning hole 1531, so that the installation difficulty of the first positioning piece 2 is greatly reduced.

To facilitate insertion of the second positioning member 3 into the second positioning hole 1442 and the fourth positioning hole 1541, as shown in fig. 6, in some embodiments, an end of the second positioning member 3 adjacent to the fourth positioning hole 1541 has a chamfer. Under the guiding action of the chamfer, an installer can easily insert the second positioning piece 3 into the second positioning hole 1442 and the fourth positioning hole 1541, so that the installation difficulty of the second positioning piece 3 is greatly reduced.

In order to prevent foreign objects such as external dust from entering the network cable interface 201 of the router 200, as shown in fig. 7, fig. 7 is an isometric view of the dust-proof member 4 provided in the embodiment of the present utility model, in some embodiments, the router positioning device 100 may further include the dust-proof member 4, where a through hole 41 is formed in the dust-proof member 4, and the through hole 41 is used to pass a network cable.

As shown in fig. 1, one end of the dust-proof member 4 abuts against the second groove bottom 152, and the other end abuts against the periphery of the network cable interface 201 of the router 200.

Because the dustproof piece 4 is arranged between the router 200 and the second groove bottom 152, and the end part of the dustproof piece 4 abuts against the periphery of the network cable interface 201 of the router 200, when one end of the network cable is connected with the network cable interface 201 through the through hole 41 on the dustproof piece 4, the dustproof piece 4 can form protection outside the network cable interface 201, and impurities such as external dust are effectively prevented from entering the network cable interface 201 of the router 200.

In order to enable the dust-proof member 4 to stably abut against between the router 200 and the second groove bottom 152, as shown in fig. 7, in some embodiments, the dust-proof member 4 may include a fixing portion 42 and a dust-proof portion 43, wherein the fixing portion 42 is located in the escape hole 13 (fig. 1), and a first sub-through hole (not shown) is formed therein. One end of the dust-proof portion 43 is connected to the fixed portion 42, and abuts against the second groove bottom 152 (fig. 1), and the other end abuts against the periphery of the wire interface 201 (fig. 1) of the router 200. The dust-proof portion 43 is internally formed with a second sub-through hole (not shown in the drawing), the first sub-through hole being disposed opposite to the second sub-through hole, the first sub-through hole and the second sub-through hole forming the through hole 41.

One end of the wire can be connected with the wire interface 201 through the first sub through hole and the second sub through hole, and as one end of the dustproof part 43 of the dustproof piece 4 abuts against the second groove bottom 152 and the other end abuts against the periphery of the wire interface 201 of the router 200, the dustproof part 43 can play a dustproof role, and foreign matters such as external dust are prevented from entering the wire interface 201 of the router 200.

In addition, since the fixing portion 42 of the dust-proof member 4 is connected with the dust-proof portion 43, and the fixing portion 42 is located in the avoidance hole 13, the fixing portion 42 can play a limiting role, so that the dust-proof member 4 is prevented from moving in a gap between the router 200 and the second groove bottom 152, and the dust-proof member 4 can stably abut against the router 200 and the second groove bottom 152.

Illustratively, to facilitate processing of the dust guard 4, the dust guard 43 and the fixing portion 42 may be integrally formed. Of course, the dust-proof portion 43 and the fixing portion 42 may be formed separately, and are not particularly limited herein.

Since the wire needs to be threaded into the through hole 41 in the dust-proof member 4, in order to facilitate the threading of the wire, with continued reference to fig. 7, in some embodiments, the fixing portion 42 and the dust-proof portion 43 are integrally formed of an elastic material. Along the extending direction of the through hole 41, the fixing portion 42 and the dust-proof portion 43 are formed with a joint 44. The splice 44 is located at one side of the through hole 41, and cuts off the fixing portion 42 and the dust-proof portion 43.

When the user wears the net wire in the through hole 41, the fixing portion 42 and the dust-proof portion 43 can be separated from the seam 44 by an external force, and the fixing portion 42 and the dust-proof portion 43 form a placement opening after being separated from the seam 44. At this time, the user can place the net wire in the through hole 41 through the placement port and then remove the external force. Since the fixing portion 42 and the dust-proof portion 43 are made of elastic materials, the fixing portion 42 and the dust-proof portion 43 can recover to deform after the external force is removed, the net wire is inserted into the through hole 41 defined by the fixing portion 42 and the dust-proof portion 43, and the net wire is easy to insert.

To improve the versatility of the router positioning device 100 in use, as shown in fig. 4, in some embodiments, a gap is provided between an end of the first chute 1431 near the first slot bottom 142 and the first slot bottom 142, and a gap is provided between an end of the second chute 1441 near the first slot bottom 142 and the first slot bottom 142.

After the first fixing member 14 and the second fixing member 15 are fastened to each other, the space of the mounting cavity 12 formed by the first mounting groove 141 and the second mounting groove 151 is larger due to a certain distance between the end of the third groove wall 153 and the fourth groove wall 154, which is close to the first groove bottom 142, and the first groove bottom 142. In this way, more routers 200 of various sizes can be placed within the mounting cavity 12, improving versatility of the router positioning device 100 in use.

It will be appreciated that when the size of the router 200 is smaller than the size of the mounting cavity 12, a user may use other auxiliary elements such as a spacer and place the auxiliary elements between the router 200 and the first slot bottom 142 such that one end of the router 200 abuts the auxiliary element and the other end abuts the dust guard 4.

In this way, the installation cavity 12 inside the fixing body 1 is set to be a larger space and is matched with other auxiliary parts such as a cushion block, so that the router positioning device 100 can be suitable for the router 200 with a larger size and the router 200 with a smaller size, and the universality of the router positioning device 100 in use is effectively improved.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any changes or substitutions within the technical scope of the present utility model should be covered by the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. A router positioning device, comprising:

a stationary body having an annular sidewall; the annular side wall encloses a mounting cavity with openings at two sides; the installation cavity is used for placing a router; the annular side wall is provided with an avoidance hole; the avoiding holes are used for enabling the network cables to extend in, so that the network cables are connected to network cable interfaces of the router.

2. The router positioning apparatus of claim 1, wherein the stationary body comprises:

a first fixing piece provided with a first mounting groove; the first mounting groove is provided with a first groove bottom, a first groove wall and a second groove wall; the first groove wall and the second groove wall are oppositely arranged; the method comprises the steps of,

a second fixing piece provided with a second mounting groove; the second mounting groove is provided with a second groove bottom, a third groove wall and a fourth groove wall; the third groove wall and the fourth groove wall are oppositely arranged;

wherein, the parts of the third groove wall and the fourth groove wall are embedded into the first mounting groove, and the first mounting groove and the second mounting groove form the mounting cavity; the third groove wall is connected with the first groove wall, and the second groove wall is connected with the fourth groove wall; and the avoidance hole is formed in the bottom of the second groove.

3. The router positioning apparatus of claim 2, wherein the second fixture comprises:

the first sub-fixing piece comprises a first fixing part and a second fixing part; one end of the first fixing part is connected with one end of the second fixing part, and an included angle is formed between the first fixing part and the second fixing part; a part of the first fixing part is positioned in the first mounting groove and is connected with the first groove wall; the second fixing part is provided with a first sub avoidance hole; the method comprises the steps of,

the second sub-fixing piece comprises a third fixing part and a fourth fixing part; one end of the third fixing part is connected with one end of the fourth fixing part, and an included angle is formed between the third fixing part and the fourth fixing part; a part of the third fixing part is positioned in the first mounting groove and is connected with the second groove wall; the fourth fixing part is provided with a second sub avoidance hole;

the second fixing part and the fourth fixing part are stacked, the first sub avoidance holes and the second sub avoidance holes are arranged oppositely, and the first sub avoidance holes and the second sub avoidance holes form the avoidance holes.

4. The router positioning device of claim 2, wherein an end of the first slot wall remote from the first slot bottom has a first slot; the first sliding groove extends towards the direction close to the bottom of the first groove; a part of the third groove wall is embedded into the first chute;

one end of the second groove wall, which is far away from the bottom of the first groove, is provided with a second sliding groove; the second sliding groove extends towards the direction close to the bottom of the first groove; a portion of the fourth slot wall is embedded in the second slot.

5. The router positioning device of claim 4, wherein a gap is provided between an end of the first chute adjacent to the first chute bottom and the first chute bottom; and a gap is formed between one end of the second sliding groove, which is close to the first groove bottom, and the first groove bottom.

6. The router positioning device according to any one of claims 2 to 5, wherein the first slot wall is provided with a first positioning hole; the second groove wall is provided with a second positioning hole; a third positioning hole is formed in the third groove wall; a fourth locating hole is formed in the fourth groove wall;

the router positioning device further includes:

the first positioning piece penetrates through the first positioning hole and stretches into the third positioning hole; the first groove wall and the third groove wall are connected through the first positioning piece;

the second locating piece is arranged in the second locating hole in a penetrating mode and stretches into the fourth locating hole, and the second groove wall is connected with the fourth groove wall through the second locating piece.

7. The router positioning apparatus of claim 6, wherein an end of the first positioning member adjacent to the third positioning hole has a chamfer; and/or one end of the second positioning piece, which is close to the fourth positioning hole, is provided with a chamfer.

8. The router positioning apparatus of claim 2, wherein the router positioning apparatus further comprises:

a dust-proof member having a through hole formed therein; the through holes are used for enabling the net wires to pass through; one end of the dustproof piece is abutted against the bottom of the second groove, and the other end of the dustproof piece is abutted against the periphery of the network cable interface of the router.

9. The router positioning apparatus of claim 8, wherein the dust guard comprises:

the fixing part is positioned in the avoidance hole, and a first sub through hole is formed in the fixing part;

one end of the dustproof part is connected with the fixed part and is abutted against the bottom of the second groove, and the other end of the dustproof part is abutted against the periphery of the network cable interface of the router; the dustproof part is internally provided with a second sub-through hole, the first sub-through hole and the second sub-through hole are arranged oppositely, and the first sub-through hole and the second sub-through hole form the through hole.

10. The router positioning device of claim 9, wherein the fixing portion and the dust-proof portion are integrally formed of an elastic material; along the extending direction of the through hole, the fixing part and the dustproof part are formed with a splice; the splice seam is positioned at one side of the through hole and cuts off the fixing part and the dustproof part.