CN112721026A

CN112721026A - Injection molding process for router antenna shell

Info

Publication number: CN112721026A
Application number: CN202011474570.6A
Authority: CN
Inventors: 王祥敦
Original assignee: Suzhou Xiangyingsheng Precision Industry Co ltd
Current assignee: Suzhou Xiangyingsheng Precision Industry Co ltd
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-04-30

Abstract

The invention discloses an injection molding process of a router antenna shell, belonging to the field of routers, and the injection molding process of the router antenna shell comprises the following steps: s1, before injection molding, the whole composed of the signboard and the injection molding protective layer is placed in the movable mold of the injection mold, the signboard and the injection molding protective layer are located in the middle of the movable mold, and the side, far away from the signboard, of the injection molding protective layer is attached to the inner wall of the movable mold, an anti-counterfeiting mark and a logo are arranged in the signboard of the scheme, the signboard can be prevented from being stolen by illegal merchants, a fluorescent agent in the signboard is made to emit light by an ultraviolet lamp, an antenna shell has good ornamental performance and attractive eyes, the logo inside plays a good role in publicity, a router controls the ultraviolet lamp to be normally bright and flicker and switch between a closing mode according to the network signal intensity, a user can know the condition of a network signal at any time by observing the signboard, and the inner side of the signboard is provided with a reflecting layer, so that the wireless network signal intensity in a certain area is effectively enhanced.

Description

Injection molding process for router antenna shell

Technical Field

The invention relates to the field of routers, in particular to an injection molding process of a router antenna shell.

Background

A router may also be referred to as a gateway device. The router is the network layer relay and the third layer relay task completed in the OSI/RM, and stores and forwards packets between different networks, and it is mainly to separate networks in different logics. While data is transmitted in one subnet to another subnet and can be processed by the routing function of the router. In network communication, the router has the functions of judging network addresses and selecting IP paths, a flexible link system can be constructed in a plurality of network environments, and each subnet is linked through different data packets and medium access modes. The router only receives information transmitted by a source station or other relevant routers in operation, and is an interconnection device based on a network layer.

Routing technology has also advanced and advanced over the years, and particularly, the fifth generation of routers has emerged, which satisfy the comprehensive applications of data, voice and image, and are gradually selected and widely used by most home networks. In addition, in the years, the routing technology of China is more and more mature, and meanwhile, the modern intelligent technology is combined, so that people can experience the effects of rapidness and rapidness in the process of using the routing technology, and the development of the internet and network technology is promoted and promoted. The part of the router used for sending and receiving signals is an antenna, and the antenna is made of soft materials and cannot be bent, so that the antenna needs to be protected by an antenna shell.

At present, most of materials of an antenna shell are plastic, the antenna shell is basically manufactured by an injection molding method, but the antenna shell only has a single antenna protection function, the demand of the existing router is large, an anti-counterfeiting mark pasted on the back of the router shell is easily torn down by illegal merchants and pasted on counterfeit and inferior products, and the existing antenna shell only has a protection function and does not exert a good display function in a standing state.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide an injection molding process of a router antenna shell, the scheme is that the antenna shell with multiple functions is produced by adding a signboard into the existing injection molding process, an anti-counterfeiting mark and a logo are embedded in the signboard, the antenna shell can be prevented from being stolen by illegal merchants, the brand image of a genuine product is effectively protected, an ultraviolet lamp connected with a router is installed in the signboard, the ultraviolet lamp enables a fluorescent agent in the signboard to emit light, the antenna shell has good ornamental performance, the situation that the antenna shell is easily ignored in the past is changed, eyeballs can be attracted, the logo in the router can play a good role of publicity, the router controls the ultraviolet lamp to be switched among a normally-on mode, a flickering mode and a closing mode according to network signal intensity, a user can know the condition of a network signal at any time by observing the signboard without getting up to go to the router for checking, and the inner side of the signboard is provided with a reflecting layer capable of reflecting electromagnetic waves, so that the signal intensity of a wireless network in a certain area is effectively enhanced.

2. Technical scheme

In order to solve the problems, the invention adopts the following technical scheme:

the injection molding process of the router antenna shell comprises the following steps:

s1, before injection molding, the whole body formed by the signboard and the injection molding protective layer is placed in a movable mold of an injection mold, the signboard and the injection molding protective layer are positioned in the middle of the movable mold, and one surface of the injection molding protective layer, which is far away from the signboard, is attached to the inner wall of the movable mold;

s2, filling the plastic melt after die assembly, entering a pressure maintaining stage after filling, filling inert gas before pressure maintaining, utilizing gas-assisted molding to assist pressure maintaining so as to prevent the signboard from cracking in the pressure maintaining process, and entering a cooling stage after pressure maintaining is finished;

and S3, opening the mold and demolding, wherein the injection molding protective layer is directly separated from the signboard during demolding, and the injection molding protective layer is removed from the driven mold before the next injection molding.

Furthermore, the signboard and the injection molding protective layer in the step S1 are connected in a bonding mode, so that the injection molding protective layer and the signboard are conveniently separated.

Furthermore, the signboard in the S1 step includes embedded layer and reflection stratum, the embedded layer is transparent casing, is convenient for vwatch, the reflection stratum adopts the reflection electromagnetic wave material, and the signal that the reflection stratum reflection antenna sent effectively strengthens the wireless network signal intensity in a certain region.

Further, the cavity has been seted up to the inside of embedded layer, a plurality of ultraviolet lamps of being connected with the router are installed to the lower extreme of cavity, and the router switches over between the mode according to network signal intensity control ultraviolet lamp at normal bright, scintillation and closing, and the inside of cavity from top to bottom inlays in proper order and has logo and false proof mark, the intussuseption of cavity has the fluorescent agent, and the ultraviolet lamp shines the fluorescent agent and makes it luminous, increases the sight.

Furthermore, a plurality of anchoring pieces which are arranged at equal intervals are inlaid at the side of the embedded layer.

Furthermore, a plurality of barbs are fixedly connected to the anchoring piece, the anchoring piece and the barbs are made of shape memory materials, the anchoring piece and the barbs are changed in shape due to heat of plastic melt during injection molding, and the barbs increase the connection strength of the signboard and the antenna shell.

Furthermore, a plurality of equidistant interior manhole holes that set up are seted up to the avris of interior inlayer, and during part plastics fuse-element inlayed interior manhole hole when moulding plastics, increase signboard and antenna case's joint strength, and a plurality of interior manhole holes and a plurality of anchor assembly crisscross setting.

Furthermore, the sealing layer is fixedly connected to the side of the signboard and used for protecting the anchoring piece, the sealing layer is made of a vaporizable material, and the sealing layer is vaporized by heat of the plastic melt, so that the connection between the signboard and the antenna shell is not affected.

Furthermore, the two sides of the injection molding protective layer are both rubber surfaces, the side wall of the injection molding protective layer, which is far away from the signboard, is provided with a plurality of equally spaced negative pressure holes, and the negative pressure holes can increase the bonding firmness in the process of attaching the injection molding protective layer to the inner wall of the movable mold.

Further, install the terminal that matches with the ultraviolet lamp on the inlayer, and the terminal runs through the reflection stratum, at the in-process of equipment router, with the light control circuit and the terminal connection of router for the ultraviolet lamp is connected with the router, the mode of ultraviolet lamp is three kinds for normally bright, scintillation and closing, if the network signal of router is good then the ultraviolet lamp is in the mode of normally bright, if the network signal is relatively poor then the ultraviolet lamp is in the scintillation mode, if the condition of disconnected net then the ultraviolet lamp is in the mode of closing.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the scheme is that the signboard is added in the existing injection molding process to produce the antenna shell with multiple functions, the signboard is internally embedded with the anti-counterfeiting mark and the logo, the anti-counterfeiting mark and the logo can be prevented from being stolen by illegal merchants, the brand image of genuine products is effectively protected, the signboard is internally provided with the ultraviolet lamp connected with the router, the ultraviolet lamp enables the fluorescent agent in the signboard to emit light, the antenna shell has good ornamental performance, the condition that the antenna shell is easily ignored by people in the past is changed, the eyeball can be attracted, the logo in the router plays a good role in publicity, the router controls the ultraviolet lamp to be switched among a normal-bright mode, a flashing mode and a closing mode according to the intensity of network signals, a user can know the condition of the network signals at any time by observing the signboard without getting up to the router to check, and the inner side of the signboard is provided with a reflecting layer capable of reflecting electromagnetic waves, so that the signal intensity of a wireless network in a certain area is effectively enhanced.

(2) The signboard and the injection molding protective layer in the step S1 are connected in an adhesion mode, so that the injection molding protective layer and the signboard can be conveniently separated.

(3) The signboard in the step S1 includes an embedded layer and a reflecting layer, the embedded layer is a transparent shell and is convenient for viewing, the reflecting layer adopts a material for reflecting electromagnetic waves, and the reflecting layer reflects signals sent by an antenna, so that the wireless network signal intensity in a certain area is effectively enhanced.

(4) The cavity has been seted up to the inside on embedded layer, and a plurality of ultraviolet lamps of being connected with the router are installed to the lower extreme of cavity, and the router switches between normal bright, scintillation and the mode of closing according to network signal intensity control ultraviolet lamp, and the inside of cavity from top to bottom inlays in proper order has logo and false proof mark, and the intussuseption of cavity has the fluorescent agent, and the ultraviolet lamp shines the fluorescent agent and makes it luminous, increases the sight.

(5) The anchoring piece is fixedly connected with a plurality of barbs, the anchoring piece and the barbs are made of shape memory materials, the anchoring piece and the barbs are changed in shape due to heat of plastic melt during injection molding, and the barbs increase the connection strength of the signboard and the antenna shell.

(6) Interior manhole that a plurality of equidistant settings were seted up to the avris of interior inlayer, during the injection molding partial plastic melt inlays in interior manhole, increases signboard and antenna case's joint strength, and a plurality of interior manhole and a plurality of anchor assembly crisscross setting.

(7) The sealing layer is fixedly connected to the side of the signboard and is used for protecting the anchoring piece, the sealing layer is made of a vaporizable material, and the sealing layer is vaporized by heat of the plastic melt, so that the connection between the signboard and the antenna shell is not affected.

(8) The both sides of the protective layer of moulding plastics are the face of gluing, and the protective layer of moulding plastics keeps away from the lateral wall of signboard and sets up the negative pressure hole that a plurality of equidistant settings, and at the in-process of pasting at the movable mould inner wall the protective layer of will moulding plastics, the fastness of the multiplicable bonding in negative pressure hole.

(9) Install the terminal that matches with the ultraviolet lamp on the embedded layer, and the terminal runs through the reflection stratum, at the in-process of equipment router, with the light control circuit and the wiring terminal connection of router for the ultraviolet lamp is connected with the router, the mode of ultraviolet lamp is three kinds for normally bright, scintillation and closing, if the network signal of router is good then the ultraviolet lamp is in the mode of normally bright, if the network signal is relatively poor then the ultraviolet lamp is in the scintillation mode, if the condition of disconnected net then the ultraviolet lamp is in the mode of closing appears.

Drawings

FIG. 1 is a schematic view of a front view of the signboard of the present invention;

FIG. 2 is a partial structural diagram of an antenna housing according to the present invention;

FIG. 3 is a schematic side view of the signboard of the present invention;

FIG. 4 is a schematic top cross-sectional view of an antenna housing according to the present invention;

FIG. 5 is a schematic front view of the anchor of the present invention;

FIG. 6 is a schematic diagram of a front view of an antenna housing according to the present invention;

FIG. 7 is a flow chart of the injection molding process of the present invention.

The reference numbers in the figures illustrate:

the anti-counterfeiting decorative plate comprises a signboard 1, an embedded layer 101, a reflecting layer 102, an injection molding protective layer 2, a negative pressure hole 201, a cavity 3, an ultraviolet lamp 4, a fluorescent agent 5, an anchoring member 6, a barb 601, an injection hole 7 and a sealing layer 8.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-7, the injection molding process of the router antenna housing, referring to fig. 7, includes the following steps:

s1, before injection molding, the whole body formed by the signboard 1 and the injection molding protective layer 2 is placed in a movable mold of an injection mold, the signboard 1 and the injection molding protective layer 2 are located in the middle of the movable mold, and one surface, far away from the signboard 1, of the injection molding protective layer 2 is attached to the inner wall of the movable mold;

s2, filling the plastic melt after die assembly, entering a pressure maintaining stage after filling, filling inert gas before pressure maintaining, utilizing gas-assisted molding to assist in pressure maintaining so as to prevent the signboard 1 from cracking in the pressure maintaining process, and entering a cooling stage after pressure maintaining is finished;

and S3, finally opening the mold and demolding, wherein the injection molding protective layer 2 is directly separated from the signboard 1 during demolding, and the injection molding protective layer 2 is removed from the driven mold before the next injection molding.

Referring to fig. 3-4, the signboard 1 and the injection molding protective layer 2 in the step S1 are connected by bonding, both sides of the injection molding protective layer 2 are both adhesive surfaces, and the sidewall of the injection molding protective layer 2 away from the signboard 1 is provided with a plurality of negative pressure holes 201 arranged at equal intervals, in the process of attaching the injection molding protective layer 2 to the inner wall of the movable mold, the negative pressure holes 201 can increase the bonding firmness and facilitate the separation of the injection molding protective layer 2 from the signboard 1, referring to fig. 3, the signboard 1 in the step S1 includes an embedded layer 101 and a reflective layer 102, the embedded layer 101 is a transparent shell, which is convenient for viewing and admiring, the reflective layer 102 adopts a reflective electromagnetic wave material, the reflective layer 102 reflects signals sent by an antenna, which effectively enhances the wireless network signal strength in a certain area, the interior of the embedded layer 101 is provided with a cavity 3, the lower end of the cavity 3 is provided with a plurality of ultraviolet lamps 4 connected with, referring to fig. 4, a binding post matched with the ultraviolet lamp 4 is installed on the embedded layer 101, the binding post penetrates through the reflecting layer 102, in the process of assembling the router, a light control circuit of the router is connected with the binding post, so that the ultraviolet lamp 4 is connected with the router, the working modes of the ultraviolet lamp 4 are three, namely normally-on, flickering and turning-off, if a network signal of the router is good, the ultraviolet lamp 4 is in the normally-on mode, if the network signal is poor, the ultraviolet lamp 4 is in the flickering mode, if a network is disconnected, the ultraviolet lamp 4 is in the turning-off mode, the router controls the ultraviolet lamp 4 to be switched among the normally-on, flickering and turning-off modes according to the strength of the network signal, a logo and an anti-counterfeiting mark are sequentially inlaid in the cavity 3 from top to bottom, the cavity 3 is filled with a fluorescent agent 5, and the ultraviolet lamp 4 irradiates the;

referring to fig. 1-2 and 6, the side of the embedded layer 101 is embedded with a plurality of anchors 6 arranged at equal intervals, referring to fig. 5, the anchors 6 are fixedly connected with a plurality of barbs 601, the anchors 6 and the barbs 601 both adopt shape memory materials, the heat of the plastic melt during injection causes the anchors 6 and the barbs 601 to change shape, the barbs 601 increase the connection strength between the signboard 1 and the antenna housing, the side of the embedded layer 101 is provided with a plurality of inner injection holes 7 arranged at equal intervals, part of the plastic melt during injection is embedded into the inner injection holes 7 to increase the connection strength between the signboard 1 and the antenna housing, the inner injection holes 7 and the anchors 6 are arranged in a staggered manner, the side of the signboard 1 is fixedly connected with a sealing layer 8 for protecting the anchors 6, the sealing layer 8 adopts a vaporizable material, and the heat of the plastic melt vaporizes the sealing layer 8, this does not affect the connection of the signboard 1 to the antenna housing.

The scheme is that the signboard is added in the existing injection molding process to produce the antenna shell with multiple functions, the signboard is internally embedded with the anti-counterfeiting mark and the logo, the anti-counterfeiting mark and the logo can be prevented from being stolen by illegal merchants, the brand image of genuine products is effectively protected, the signboard is internally provided with the ultraviolet lamp connected with the router, the ultraviolet lamp enables the fluorescent agent in the signboard to emit light, the antenna shell has good ornamental performance, the condition that the antenna shell is easily ignored by people in the past is changed, the eyeball can be attracted, the logo in the router plays a good role in publicity, the router controls the ultraviolet lamp to be switched among a normal-bright mode, a flashing mode and a closing mode according to the intensity of network signals, a user can know the condition of the network signals at any time by observing the signboard without getting up to the router to check, and the inner side of the signboard is provided with a reflecting layer capable of reflecting electromagnetic waves, so that the signal intensity of a wireless network in a certain area is effectively enhanced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the equivalent replacement or change according to the technical solution and the modified concept of the present invention should be covered by the scope of the present invention.

Claims

1. The injection molding process of the router antenna shell comprises the following steps:

s1, before injection molding, the whole body formed by the signboard (1) and the injection molding protective layer (2) is placed in a movable mold of an injection mold, the signboard (1) and the injection molding protective layer (2) are located in the middle of the movable mold, and one surface, far away from the signboard (1), of the injection molding protective layer (2) is attached to the inner wall of the movable mold;

s2, filling the plastic melt after die assembly, entering a pressure maintaining stage after filling, filling inert gas before pressure maintaining, utilizing gas-assisted molding to assist in pressure maintaining so as to prevent the signboard (1) from cracking in the pressure maintaining process, and entering a cooling stage after pressure maintaining is finished;

and S3, finally opening the mold and demolding, wherein the injection molding protective layer (2) is directly separated from the signboard (1) during demolding, and the injection molding protective layer (2) is removed from the driven mold before the next injection molding.

2. The router antenna housing injection molding process of claim 1, wherein: and the signboard (1) in the step S1 is connected with the injection molding protective layer (2) in an adhesion mode.

3. The router antenna housing injection molding process of claim 1, wherein: the signboard (1) in the step S1 comprises an embedded layer (101) and a reflecting layer (102), wherein the embedded layer (101) is a transparent shell, and the reflecting layer (102) is made of an electromagnetic wave reflecting material.

4. The router antenna housing injection molding process of claim 3, wherein: cavity (3) have been seted up to the inside of embedded layer (101), a plurality of ultraviolet lamps (4) of being connected with the router are installed to the lower extreme of cavity (3), and the inside of cavity (3) from top to bottom inlays in proper order and has logo and anti-fake label, the intussuseption of cavity (3) is filled with fluorescent agent (5).

5. The router antenna housing injection molding process of claim 3, wherein: and a plurality of anchoring pieces (6) arranged at equal intervals are inlaid at the side of the embedded layer (101).

6. The router antenna housing injection molding process of claim 5, wherein: the anchoring piece (6) is fixedly connected with a plurality of barbs (601), and the anchoring piece (6) and the barbs (601) are made of shape memory materials.

7. The router antenna housing injection molding process of claim 3 or 5, wherein: interior manhole (7) that a plurality of equidistant settings were seted up to the avris of interior inlay layer (101), and a plurality of interior manhole (7) and a plurality of anchor assembly (6) crisscross setting.

8. The router antenna housing injection molding process of claim 2, wherein: the side of the signboard (1) is fixedly connected with a sealing layer (8), and the sealing layer (8) is made of a vaporizable material.

9. The router antenna housing injection molding process of claim 2, wherein: the two sides of the injection molding protective layer (2) are both rubber surfaces, and the side wall of the injection molding protective layer (2) away from the signboard (1) is provided with a plurality of equally spaced negative pressure holes (201).

10. The router antenna housing injection molding process of claim 4, wherein: the embedded layer (101) is provided with a binding post matched with the ultraviolet lamp (4), the binding post penetrates through the reflecting layer (102), and the ultraviolet lamp (4) is in three working modes of normally bright, flickering and closing.