WO2022037435A1 - 电子设备 - Google Patents

电子设备 Download PDF

Info

Publication number
WO2022037435A1
WO2022037435A1 PCT/CN2021/111708 CN2021111708W WO2022037435A1 WO 2022037435 A1 WO2022037435 A1 WO 2022037435A1 CN 2021111708 W CN2021111708 W CN 2021111708W WO 2022037435 A1 WO2022037435 A1 WO 2022037435A1
Authority
WO
WIPO (PCT)
Prior art keywords
conductive
display screen
electronic device
conductive member
middle frame
Prior art date
Application number
PCT/CN2021/111708
Other languages
English (en)
French (fr)
Inventor
徐钟麒
吴承勋
涂海生
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Publication of WO2022037435A1 publication Critical patent/WO2022037435A1/zh

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/04Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation using electrically conductive adhesives
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • H04M1/0266Details of the structure or mounting of specific components for a display module assembly
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

Definitions

  • the present application relates to the technical field of electronic products, and in particular, to an electronic device.
  • the purpose of the present application is to provide an electronic device to reduce the internal stress of the connecting components while ensuring the performance of the antenna, so as to improve the structural stability of the connection between the display screen and the middle frame.
  • the application provides an electronic device, including:
  • the conductive member electrically connects the display screen and the middle frame;
  • the conductive member is provided with a buffer portion, and there is a preset distance between the buffer portion and the display screen.
  • the buffer portion provided in the conductive member has a preset distance between the buffer portion and the display screen, and the distance between the buffer portion and the display screen is set by setting the same , in order to limit the internal stress generated by the conductive parts to act on the display screen and lift the display screen.
  • the buffer part provided in this way will not damage the integrity of the connection position between the conductive part and the middle frame and the display screen, that is, it will not reduce the maximum contact area of the electrical connection position, and avoid the reduction of the contact area and the reduction of the reliability of the connection, thereby reducing the reliability of the connection. cause the location to be easily degummed. It is not necessary to reduce the internal stress by reducing the contact area of the electrical connection position, so as to avoid affecting the performance of the antenna and the display performance of the display screen.
  • the conductive member includes a conductive portion and a support portion, the conductive portion covers at least part of the support portion, and the conductive portion electrically connects the display screen and the middle frame;
  • the conductive portion is provided with the buffer portion, or the support portion is provided with the buffer portion, or both the conductive portion and the support portion are provided with the buffer portion.
  • the conductive part can ensure good electrical conductivity, and at the same time, it will not lift up the display screen due to its own internal stress, so that the display screen and the middle frame are degummed. .
  • the number of antennas that need to be arranged inside increases, and the conductive parts arranged near the antennas will also increase.
  • the display will Therefore, the internal stress is further relieved by setting a buffer part in at least one of the conductive part and the support part, and a preset distance is maintained between the buffer part and the display screen, which can ensure better antenna performance.
  • the display screen and the middle frame will not be debonded.
  • the conductive portion includes a first end and a second end, the first end is used to electrically connect the display screen, and the second end is used to electrically connect the middle frame , the support portion is arranged between the first end and the second end;
  • the conductive part further includes two or more connection segments, the connection segments cover the outer surface of the support part, the connection segments connect the first end and the second end, and are adjacent to each other.
  • the space between the connecting segments forms at least part of the buffer portion.
  • the conductive member when the conductive portion covers the support portion, along the thickness direction H, the conductive member includes a first connection end and a second connection end, the first connection end and the second connection end. There is a middle section between the connecting ends, the first connecting end is used for connecting the display screen, and the second connecting end is used for connecting the middle frame;
  • the cross-sectional area of the first connection end is S1
  • the cross-sectional area of the second connection end is S2
  • the minimum cross-sectional area of the middle section is S3, S3 ⁇ S1, and S3 ⁇ S2;
  • the buffer portion is formed at the position where the cross-sectional area of the middle section is S3.
  • the first connection end and the second connection end are respectively connected to the display screen and the middle frame, so as to ensure the "grounding" performance of the electrical connection without reducing the contact area between the display screen and the middle frame.
  • the formed buffer part can have conductive properties without affecting the stability of the electrical connection between the display screen and the middle frame, and at the same time, it can reduce the internal stress of the conductive parts, and the distance from the buffer part to the display screen is always at a preset distance, which can be avoided. The case where the conductive part pushes up the display screen by excessive internal stress.
  • the cross-sectional area of the intermediate section gradually increases, and from the buffer portion to the second connection end, The cross-sectional area of the middle section gradually increases.
  • variable cross-section Through the arrangement of the variable cross-section, the internal stress of the conductive component is reduced, the space occupied by the interior is reduced, and the utilization rate of the interior space is improved.
  • the minimum cross-sectional area S3 of the middle section is not less than three-quarters of the cross-sectional area S1 of the first connecting end.
  • the electrical conductivity of the conductive part in the conductive part can be ensured, and the influence of the buffer part with variable cross-section can be avoided.
  • the shape of the cross section of the conductive member includes a circle, an ellipse, a quadrangle, a polygon, and a rhombus.
  • At least one of the conductive portion and the support portion is provided with a concave portion, and the concave portion forms the buffer portion.
  • the buffer portion can be arranged on at least one of the conductive portion and the support portion according to the actual layout requirements of the internal space, and corresponding adjustments can be made according to the actual situation, so that the recessed portion is located between the display screen and the display screen.
  • the distance is at a preset distance, and the buffer part formed by the buffer can achieve a better effect of reducing internal stress, and will not affect the conductive performance of the conductive member.
  • At least one of the conductive portion and the support portion is provided with a through hole, and the through hole forms the buffer portion.
  • the distance from the through hole to the display screen is always at a preset distance, so as to avoid degumming of the glued position between the display screen and the middle frame.
  • Adjustments can be made according to the conductive parts that do not require internal stress when they are installed between the display screen and the middle frame.
  • the support portion is foam.
  • the internal stress of the conductive part itself is reduced, which is beneficial to the structural stability of the connection between the display screen and the middle frame.
  • the electronic device further includes a conductive glue, and the conductive glue glues the conductive components to the middle frame and the display screen respectively.
  • the application also provides an electronic device, comprising:
  • the conductive member electrically connects the display screen and the middle frame;
  • the conductive member is provided with a buffer portion, and along the thickness direction H, at least one of the buffer portions penetrates the conductive member.
  • the integrity of the conductive parts can be destroyed, and the penetration design can reduce the contact area between the conductive parts and the display screen and the middle frame, and reduce the internal stress generated by the conductive parts on the display screen. to avoid the problem of easy debonding between the display screen and the middle frame due to excessive internal stress.
  • the conductive component wraps a conductive unit, and along the thickness direction H, the conductive unit is electrically connected to the display screen and the middle frame, respectively;
  • a plurality of the conductive units are combined to form a through-hole structure that communicates with each other, and the through-holes form the buffer portion.
  • the conductive units can be adaptively adjusted. The distance between them can meet different needs and improve the general performance of conductive parts.
  • the conductive unit further includes openings
  • the opening communicates the through hole with the outside.
  • the conductive member or any conductive unit provided with through holes For the conductive member or any conductive unit provided with through holes, its own internal stress can be further released, and the stability of the adhesive between the display screen and the middle frame can be improved.
  • 1 is a schematic partial schematic diagram of an electronic device provided by the application, wherein the direction indicated by the arrow is the thickness direction H;
  • FIG. 2 is a cross-sectional view of the first conductive member in FIG. 1 , wherein the direction indicated by the arrow is the thickness direction H;
  • FIG. 3 is a cross-sectional view of the second type of conductive member in FIG. 1 , wherein the direction indicated by the arrow is the thickness direction H;
  • FIG. 4 is a cross-sectional view of the third conductive member in FIG. 1, wherein the direction indicated by the arrow is the thickness direction H;
  • FIG. 5 is a cross-sectional plan view of the position of the buffer portion in the conductive member in FIG. 1;
  • Fig. 6 is the sectional view of the fourth conductive member in Fig. 1;
  • Fig. 7 is the sectional view of the fifth conductive member in Fig. 1;
  • Fig. 8 is the sectional view of the sixth conductive member in Fig. 1;
  • FIG. 9 is a schematic structural diagram of a seventh conductive member in FIG. 1;
  • FIG. 10 is a schematic structural diagram of the conductive portion in FIG. 9;
  • FIG. 11 is a schematic structural diagram of the eighth type of conductive member in FIG. 1;
  • FIG. 12 is a schematic partial schematic diagram of another electronic device provided by the application, wherein the direction indicated by the arrow is the thickness direction H;
  • FIG. 13 is a top view of the conductive member in FIG. 12 .
  • an embodiment of the present application discloses an electronic device.
  • the electronic device includes a display screen 2 and a middle frame 1 .
  • the antennas When the antennas are arranged inside the mobile phone, the antennas will be different from the display screen when receiving or sending signals. 2 is prone to interference, which reduces the performance of the antenna or affects the display interface of the display screen 2.
  • the electronic device is provided with a conductive member 3, and along the thickness direction H, the conductive member 3 electrically connects the display screen 2 and the middle frame 1; by electrically connecting the display screen 2 and the middle frame 1, the The display screen 2 is "grounded", so as to avoid the interference between the antenna and the display screen 2, and avoid the clutter generated by the antenna, thereby improving the anti-interference ability of the display screen 2.
  • the set of conductive parts 3 there can be more than one.
  • the conductive parts 3 are adaptively arranged near the antennas to ensure that the conductive parts 3 can play a better role. effect, while avoiding the interference between the antenna and the display screen 2 .
  • the form and distance of the conductive member 3 arranged around the antenna can be adjusted according to the actual situation, which is not specifically limited here.
  • the number of the conductive parts 3 provided inside will increase, so that the conductive parts 3 are respectively connected to the display screen.
  • the contact area between the screen 2 and the middle frame 1 is increased.
  • the conductive member 3 provided since it needs to maintain electrical connection with the display screen 2 and the middle frame 1, in the cooperation of the three, the internal stress generated by the conductive member 3 itself will act on the middle frame 1 and the display screen 2, Since the display screen 2 and the middle frame 1 are connected by glue, under the internal stress of the conductive member 3, it is easy to debond the display screen 2 and the middle frame 1, and the display screen 2 is partially raised.
  • the stability of the adhesive connection between the display screen 2 and the middle frame 1 is worse, and debonding is more likely to occur.
  • a buffer portion 31 can be provided on the conductive member 3.
  • the buffer portion 31 It is used to reduce the internal stress of the conductive member 3 and prevent it from acting on the display screen 2 and affecting the reliability of the adhesive between the display screen 2 and the middle frame 1 .
  • At least one buffer portion 31 may be arranged such that, along the thickness direction H, at least one buffer portion 31 penetrates the conductive member 3 .
  • the penetration design can reduce the contact area between the conductive member 3 and the display screen 2 and the middle frame 1, thereby reducing the damage caused by the conductive member 3.
  • the internal stress acts on the display screen 2, so as to avoid the problem of easy debonding between the display screen 2 and the middle frame 1 due to excessive internal stress.
  • the buffer portion 31 provided can be directly on the conductive member 3 .
  • the provided one or more through-hole structures penetrating along the thickness direction H are convenient for mass production and cost saving.
  • the conductive member 3 can also be split into a plurality of identical or different conductive units 34. Along the thickness direction H, the conductive units are respectively electrically connected to the display screen 2 and the middle frame 1; the plurality of conductive units 34 are combined. A structure with through holes communicating with each other is formed, and the through holes form the buffer portion 31 .
  • the distance between the conductive units 34 can meet different requirements and improve the general performance of the conductive parts 3 used.
  • the one or more through holes/through holes formed may include circles, prisms, meshes.
  • the specific structure and coordination are not specifically limited here.
  • one or more openings 341 are also provided thereon, and the openings 341 connect the through holes to the outside.
  • the extending direction of the opening 341 is not limited, as long as the through hole/through hole can be communicated with the outside, which is not specifically limited here.
  • the conductive member 3 in which the conductive member 3 is penetrated by the buffer portion 31 arranged along the thickness direction H, although the internal stress can be reduced by local hollowing out, the conductive member 3 can be prevented from being easily lifted up by the display screen 2 and degummed.
  • the contact area between the conductive member 3 and the display screen 2 and the middle frame 1 is reduced.
  • the conductive member 3 and the display screen 2, the conductive member 3 and the middle frame are reduced.
  • the stability of the electrical connection between 1 and 1 can easily cause the mating position to fall off.
  • the present application provides another specific embodiment, and there is a preset distance between the buffer portion 31 and the display screen 2 .
  • the buffer portion 31 provided in the conductive member 3 has a preset distance from the buffer portion 31 to the display screen 2, and the buffer portion 31 is connected to the display screen 2 through the buffer portion 31.
  • the distance between the screens 2 is kept constant, so as to limit the internal stress generated by the conductive member 3 to act on the display screen 2 and lift the display screen 2 up.
  • the buffer portion 31 provided in this way will not damage the integrity of the connection position between the conductive member 3 and the middle frame 1 and the display screen 2, that is, it will not reduce the maximum contact area of the electrical connection position, and avoid the reduction of the contact area to make the connection reliable. Reduced performance, which in turn leads to easy debonding of the site. It is not necessary to reduce the internal stress by reducing the contact area of the electrical connection position, so as to avoid affecting the performance of the antenna and the display performance of the display screen 2 .
  • the conductive member 3 in order to realize the conduction of the conductive member 3, can be set as a metal piece, such as a metal elastic sheet. Guarantee the performance of the antenna and the display performance of the display screen 2. However, for metal parts, due to their own characteristics, the internal stress is too large. If the performance of the antenna is improved, when more conductive parts 3 need to be arranged in the limited space in the mobile phone, the metal parts are easier to be under internal stress. The display screen 2 is jacked up, causing degumming. As shown in FIG.
  • the conductive member 3 can include a conductive portion 32 and a support portion 33, the conductive portion 32 covers at least part of the support portion 33, and the conductive portion 32 electrically connects the display screen 2 and the middle frame 1; the conductive portion 32 A buffer portion 31 is provided, or the support portion 33 is provided with a buffer portion 31 , or both the conductive portion 32 and the support portion 33 are provided with a buffer portion 31 .
  • the conductive part 32 is a metal part
  • the supporting part 33 is a non-metallic part with small internal stress, so that the conductive part 3 can ensure good electrical conductivity while being set by the combination of the conductive part 32 and the supporting part 33.
  • the display screen 2 Due to the excessive internal stress, the display screen 2 will be lifted up, and the glue between the display screen 2 and the middle frame 1 will be debonded. With the improvement of the performance of the mobile phone, the number of antennas that need to be arranged inside increases, and the conductive parts 3 arranged near the antennas will also increase accordingly. In order to avoid the increase of the total internal stress caused by the increase of the conductive parts 3 When the display screen 2 is lifted up, the buffer portion 31 is provided on at least one of the conductive portion 32 and the support portion 33 to further release the internal stress, and a preset distance is maintained between the buffer portion 31 and the display screen 2 . While ensuring better antenna performance, the display screen 2 and the middle frame 1 will not be debonded.
  • a structure such as conductive foam can be directly used to completely cover the inner support part 33, the inner support part is foam, the outer conductive part 32 is a metal part, and the metal
  • the sheet covers the entire foam, and a non-completely covered structure can also be made by itself, which is not specifically limited here.
  • the conductive portion 32 provided to cover (completely or not completely cover) the outside of the support portion 33, in order to ensure that the electrical connection between the display screen 2 and the middle frame 1 can be achieved, it will not be affected by the set Due to the influence of the buffer portion 31, the electrical conductivity is lowered. As shown in FIG. 9 , FIG. 10 and FIG.
  • the conductive portion 32 includes a first end 324 and a second end 325 , the first end 324 is used to electrically connect the display screen 2 , and the second end 325 is used to electrically connect Connecting the middle frame 1, a support portion 33 is provided between the first end 324 and the second end 325; the conductive portion 32 also includes two or more connection segments 326, the connection segments 326 cover the outer surface of the support portion 33, and the connection segments 326 connects the first end 324 and the second end 325 , and the gap between adjacent connecting segments 326 forms at least part of the buffer portion 31 .
  • the electrical connection between the display screen 2 and the middle frame 1 is achieved by the conductive portion 32 by means of a structure in which the first end 324 and the second segment are connected by setting the connection segment 326, and the hollow structure formed between the plurality of connection segments 326 can be used.
  • Part of the support portion 33 is exposed to form a structure in which the conductive portion 32 does not completely cover the support portion 33 , which reduces the internal stress of the conductive portion 32 and improves the stability of the adhesive connection between the display screen 2 and the middle frame 1 .
  • the conductive part 3 when the conductive part 32 completely covers the support part 33, as shown in FIG. 2, FIG. 3 and FIG. 4, along the thickness direction H, the conductive part 3 includes a first connection end 321 and a second connection end 322, the first connection There is a middle section 323 between the end 321 and the second connection end 322, the first connection end 321 is used to connect the display screen 2, and the second connection end 322 is used to connect the middle frame 1; the cross-sectional area of the first connection end 321 is S1 , the cross-sectional area of the second connecting end 322 is S2, the minimum cross-sectional area of the middle section 323 is S3, S3 ⁇ S1, and S3 ⁇ S2; wherein, the position where the cross-sectional area of the middle section 323 is S3 forms the buffer portion 31 .
  • the buffer portion 31 formed in the middle section 323 can have electrical conductivity without affecting the stability of the electrical connection between the display screen 2 and the middle frame 1.
  • the internal stress of the conductive member 3 can be reduced, and the buffer portion 31 can reach the display.
  • the distance of the screen 2 is always at the preset distance, which can avoid the situation where the conductive member 3 pushes up the display screen 2 through excessive internal stress.
  • the intermediate section 323 provided is a combination of the conductive portion 32 and the supporting portion 33, the first connection end 321, the second connection end 322 can be a combination of the two, or only a part of the conductive part 32, as long as the surface finally contacting the display screen 2 and the middle frame 1 is a part of the conductive part 32, which is not specifically limited here.
  • the conductive member 3 since the conductive member 3 needs to be arranged in the limited space inside the mobile phone, and with the thinning of the mobile phone, the internal space is reduced. At the same time of good antenna performance, the conductive member 3 will not lift up the display screen 2 due to excessive internal stress, and when the buffer portion 31 is provided, the space occupied by the conductive member 3 in the interior can be reduced, which is beneficial to the lightness and thinness of the mobile phone. change.
  • the cross-sectional area of the middle section 323 gradually increases in the direction from the buffer portion 31 to the first connecting end 321 , and the cross-sectional area of the middle section 323 gradually increases from the buffer portion 31 to the second connecting end 322 . increase. Through the arrangement of the variable cross-section, the internal stress of the conductive member 3 is reduced, the space occupied by the interior is reduced, and the utilization rate of the interior space is improved.
  • the performance of the antenna will not be reduced, so the first connection end 321 and the second connection end 322 are in contact with the display screen 2 and the middle frame 1 respectively.
  • the area does not change before and after the buffer portion 31 is provided.
  • the arrangement of the variable cross-section will not reduce the "grounding" performance between the display screen 2 and the middle frame 1, and Causes the influence of the display screen 2 on the performance of the antenna, so for the variable cross-section set, it is necessary to make the position with the smallest cross-sectional area larger than a certain range value, and avoid setting too small to make the perimeter of the conductive part 32 at this position small.
  • the minimum cross-sectional area S3 of the middle section is not less than three-quarters of the cross-sectional area S1 of the first connecting end 321, so as to ensure that the minimum cross-sectional area of the middle section 323 does not exceed the range value, which can be guaranteed.
  • the conductive performance of the conductive portion 32 in the conductive member 3 is prevented from being affected by the buffer portion 31 with a variable cross-section.
  • the shape of its cross-section can include various shapes, which can be regular shapes.
  • the shape of the cross-section of the conductive member 3 includes a circle, an ellipse, a quadrilateral, a polygon, a rhombus, or an irregular shape, which is not made here. Specific restrictions.
  • the conductive portion 32 and the support portion 33 may be provided with a recessed portion, and the recessed portion may form the buffer portion 31 .
  • the buffer portion 31 can be arranged on at least one of the conductive portion 32 and the support portion 33 according to the actual layout requirements of the internal space, and corresponding adjustments can be made according to the actual situation, so that the recessed portion can reach the display.
  • the distance between the screens 2 is at a preset distance, and the buffer portion 31 formed by the buffer portion 31 can achieve a better effect of reducing internal stress without affecting the conductive performance of the conductive member 3 .
  • At least one of the conductive portion 32 and the support portion 33 may be provided with a through hole, and the through hole forms the buffer portion 31 .
  • the distance from the through holes to the display screen 2 is always at a preset distance, so as to avoid degumming of the glued position between the display screen 2 and the middle frame 1 .
  • the number of through holes provided may be one, or It can be two or more, and any adjacent through holes are connected or disconnected with each other, that is, when multiple through holes are provided, a plurality of interconnected honeycomb structures can be formed.
  • the plane with the preset distance forms a grid-like structure, as shown in FIG. 5 , or it may be a plurality of channel structures that are not connected to each other, which is not specifically limited here.
  • the axial direction and the thickness direction H may be perpendicular to each other, or may be inclined with a certain non-zero included angle, which is not specifically limited here.
  • connection for the connection structure in which the conductive member 3 is electrically connected to the middle frame 1 and the display screen 2, the connection can be in the form of metal parts locking or welding, or the conductive member 3 can be connected with the middle frame 1 and the middle frame 1 and The display screen 2 is glued and connected, which is not specifically limited here.
  • the conductive adhesive is used for adhesive connection, since the buffer portion 31 provided reduces the internal stress of the conductive component 3, the conductive adhesive does not need to be coated with an excessively thick coating to ensure the structural stability of the electrical connection and avoid excessive electrical conductivity.
  • the glue is solidified, it flows into the internal electronic components, causing damage to the electronic components, and at the same time, it is beneficial to the thinning of the mobile phone.

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

本申请涉及电子产品技术领域,尤其涉及一种电子设备,该电子设备包括:显示屏;中框;导电部件,沿厚度方向H,所述导电部件将所述显示屏与所述中框电连接;其中,所述导电部件设有缓冲部,所述缓冲部到所述显示屏之间具有预设距离。利用本申请提供的电子设备,以在保证天线性能的同时,降低连接部件的内应力,以提高显示屏和中框连接的结构稳定性。

Description

电子设备 技术领域
本申请涉及电子产品技术领域,尤其涉及一种电子设备。
背景技术
随着电子技术的发展,对于手机等需要信号传递的电子产品,其内部的天线性能越好,所能够传输的信号越好,且随着5G的到来,为了保证更好的天线性能,需要在手机内部有限的空间内布置更多数量的天线,并且,在布置天线的同时,为了避免天线的性能受到显示屏的干扰,需要在内部空间布置有一定数量的弹片,将显示屏和中框电连接以形成“接地”的结构,保证了天线的性能。但是此种利用设置的弹片电连接的形式,弹片由于自身具有一定的内应力,容易将显示屏顶起,进而破坏显示屏和中框之间胶粘连接的稳定性,如果布置的降低弹片的数量,又会降低天线的性能。
申请内容
本申请的目的在于提供了一种电子设备,以在保证天线性能的同时,降低连接部件的内应力,以提高显示屏和中框连接的结构稳定性。
本申请提供了一种电子设备,包括:
显示屏;
中框;
导电部件,沿厚度方向H,所述导电部件将所述显示屏与所述中框电连接;
其中,所述导电部件设有缓冲部,所述缓冲部到所述显示屏之间具有预设距离。
在通过导电部件将显示屏和中框电连接时,在导电部件中设置的缓冲部,该缓冲部到显示屏之间具有预设距离,通过缓冲部与显示屏之间的距离不变的设置,以限制导电部件产生的内应力作用于显示屏而将显示屏顶起。同时, 此种设置的缓冲部不会破坏导电部件与中框、显示屏连接位置的完整度,即不会降低电连接位置的最大接触面积,避免接触面积降低而使连接的牢靠性降低,进而导致该位置容易脱胶。不需要通过降低电连接位置的接触面积来实现降低内应力,避免影响天线性能和显示屏的显示性能。
一种可能的设计中,所述导电部件包括导电部和支撑部,所述导电部包覆至少部分的所述支撑部,所述导电部将所述显示屏和所述中框电连接;
所述导电部设置有所述缓冲部,或者,所述支撑部设置有所述缓冲部,或者,所述导电部和所述支撑部均设置有所述缓冲部。
以通过导电部和支撑部的组合设置,而使导电部件在能够保证较好的导电性能的同时,不会由于自身内应力过大而将显示屏顶起,使显示屏和中框之间脱胶。而随着手机性能的提升,内部所需要布置的天线的数量增多,布置于天线附近的导电部件也会随之增多,为了避免导电部件的增多带来的总的内应力增大而造成将显示屏顶起的情况,故而通过在导电部和支撑部中的至少一者设置缓冲部的方式,进一步释放内应力,缓冲部与显示屏之间维持预设距离,能够保证较好的天线性能的同时不会造成显示屏与中框脱胶。
一种可能的设计中,沿厚度方向H,所述导电部包括第一端和第二端,所述第一端用于电连接显示屏,所述第二端用于电连接所述中框,所述第一端和所述第二端之间设置所述支撑部;
所述导电部还包括两个或两个以上连接段,所述连接段覆盖于所述支撑部的外表面,所述连接段将所述第一端和所述第二端连接,相邻所述连接段之间的空隙形成至少部分所述缓冲部。
保证能够实现显示屏和中框的电连接,且不会受到设置的缓冲部的影响而降低导电性能。
一种可能的设计中,所述导电部包覆所述支撑部时,沿厚度方向H,所述导电部件包括第一连接端和第二连接端,所述第一连接端和所述第二连接端之间具有中间段,所述第一连接端用于连接所述显示屏,所述第二连接端用于连接所述中框;
所述第一连接端的横截面积为S1,所述第二连接端的横截面积为S2,所述中间段的最小横截面积为S3,S3<S1,且S3<S2;
其中,所述中间段的横截面积为S3的位置形成所述缓冲部。
通过设置的第一连接端和第二连接端分别连接显示屏和中框,能够在不降低与显示屏、中框连接的接触面积而保证电连接的“接地”性能的基础上,在中间段形成的缓冲部能够具有导电性能而不会影响显示屏和中框之间的电连接稳定性同时,能够降低导电部件的内应力,缓冲部到显示屏的距离始终处于预设距离,即可避免导电部件通过过大的内应力将显示屏顶起的情况。
一种可能的设计中,沿厚度方向H,所述缓冲部到所述第一连接端的方向,所述中间段的截面积逐渐增大,从所述缓冲部到所述第二连接端的方向,所述中间段的截面积逐渐增大。
通过此种变截面的设置,而在降低了导电部件内应力的同时,降低了内部占用的空间,提高内部空间的利用率。
一种可能的设计中,S1=S2时,所述中间段的最小横截面积S3不低于四分之三的所述第一连接端的横截面积S1。
以保证中间段的最小横截面积不超过该范围值,即可保证导电部件中导电部的导电性能,避免受到设置为变截面的缓冲部影响。
一种可能的设计中,所述导电部件的横截面的形状包括圆形、椭圆形、四边形、多边形、菱形。
以适应不同空间布局的要求,提高导电部件的应用范围。
一种可能的设计中,所述导电部和所述支撑部的至少一者设有凹陷部,所述凹陷部形成所述缓冲部。
通过此种凹陷部的设置,可以根据内部空间的实际布局需求,将缓冲部设置于导电部和支撑部的至少一者,可以根据实际情况做相应的调整,以使凹陷部到显示屏之间的距离处于预设距离,其形成的缓冲部能够达到较好的降低内应力的效果的同时,不会影响导电部件的导电性能。
一种可能的设计中,所述导电部和所述支撑部的至少一者设有通孔,所述通孔形成所述缓冲部。
以通过贯穿的通孔的设置,通孔到显示屏的距离始终处于预设距离,避免显示屏与中框胶粘位置发生脱胶。
一种可能的设计中,所述通孔为两个或两个以上,任意相邻的所述通孔之间相互连通或断开。
可以根据不用内应力要求的导电部件在安装于显示屏和中框之间时,做相应的调整。
一种可能的设计中,所述支撑部为泡棉。
通过泡棉的设置,与金属件相比,降低了导电部件自身的内应力,有利于显示屏和中框连接的结构稳定性。
一种可能的设计中,所述电子设备还包括导电胶,所述导电胶将所述导电部件分别与所述中框和所述显示屏胶粘连接。
避免过多的导电胶在为凝固时流入内部的电子部件,而造成电子部件的损坏,同时有利于手机的轻薄化。
本申请还提供了一种电子设备,包括:
显示屏;
中框;
导电部件,沿厚度方向H,所述导电部件将所述显示屏与所述中框电连接;
其中,所述导电部件设有缓冲部,沿厚度方向H,至少一个所述缓冲部贯穿所述导电部件。
通过沿厚度方向H贯穿导电部件的设置,能够破坏导电部件完整性的同时,贯穿的设计能够使导电部件与显示屏、中框连接的接触面积降低,而降低导电部件产生的内应力对显示屏的作用力,从而避免内应力过大而导致显示屏和中框之间容易脱胶的问题。
一种可能的设计中,所述导电部件包导电单元,沿厚度方向H,所述导电单元分别与所述显示屏和所述中框电连接;
多个所述导电单元组合形成具有相互连通的贯通孔结构,所述贯通孔形成所述缓冲部。
通过多个导电单元组合的形式,能够根据不同的需求,根据显示屏和中框之间的空腔在安装其他零部件后,根据不同位置所留有的空间的大小,适 应性调整导电单元之间的距离,以满足不同的需求,提高导电部件使用的通用性能。
一种可能的设计中,所述导电单元还包括开孔;
所述开孔将所述贯通孔与外部连通。
对于设置通孔的导电部件或任一导电单元,能够进一步释放自身的内应力,提高显示屏和中框之间胶粘的稳定性。
应当理解的是,以上的一般描述和后文的细节描述仅是示例性的,并不能限制本申请。
附图说明
图1为本申请所提供一种电子设备局部简单示意图,其中,箭头所指方向为厚度方向H;
图2为图1中第一种导电部件剖面图,其中,箭头所指方向为厚度方向H;
图3为图1中第二种导电部件剖面图,其中,箭头所指方向为厚度方向H;
图4为图1中第三种导电部件剖面图,其中,箭头所指方向为厚度方向H;
图5为图1中导电部件中设置缓冲部位置的剖面俯视图;
图6为图1中第四种导电部件剖面图;
图7为图1中第五种导电部件剖面图;
图8为图1中第六种导电部件剖面图;
图9为图1中第七种导电部件结构示意图;
图10为图9中的导电部的结构示意图;
图11为图1中第八种导电部件结构示意图;
图12为本申请所提供的另一种电子设备局部简单示意图,其中,箭头所指方向为厚度方向H;
图13为图12中的导电部件俯视图。
附图标记:
1-中框;2-显示屏;3-导电部件;31-缓冲部;32-导电部;321-第一连接端;322-第二连接端;323-中间段;324-第一端;325-第二端;326-连接段;33-支撑部;34-导电单元;341-开孔。
此处的附图被并入说明书中并构成本说明书的一部分,示出了符合本申请的实施例,并与说明书一起用于解释本申请的原理。
具体实施方式
为了更好的理解本申请的技术方案,下面结合附图对本申请实施例进行详细描述。
在一种具体实施例中,下面通过具体的实施例并结合附图对本申请做进一步的详细描述。
本申请一实施例公开了一种电子设备,如图1和图12所示,该电子设备包括显示屏2和中框1,随着电子产品的发展,手机5G的逐渐普及,在内部布置的天线数量较多,以提高手机信号接收和发送的能力。由于其对内部的天线性能要求越来越高,布置于中框1的天线的数量有可能也会随着增多,而将天线布置在手机内部时,天线在接受或发送信号时,与显示屏2很容易产生干涉,而降低天线的性能或使显示屏2的显示界面受影响。为了避免产生此种问题,电子设备设有导电部件3,沿厚度方向H,导电部件3将显示屏2与中框1电连接;以通过将显示屏2与中框1电连接的形式,而实现将显示屏2“接地”,从而避免天线与显示屏2的干涉,避免天线产生杂波,进而提高显示屏2的抗干扰能力。
而对于设置的导电部件3,可以为多个,根据天线在手机内部布置的位置和数量的不同,适应性的在靠近天线的位置布置导电部件3,以保证导电部件3能够起到更好的效果,而避免天线与显示屏2之间的干涉。其中,在靠近天线位置布置的导电部件3,导电部件3在天线周围布置的形式和距离可以根据实际情况做相应调整,在此不做具体限定。
具体的,对于设置的导电部件3,随着天线性能的提升,为了避免显示屏2受到影响而产生花屏等情况,其内部设置的导电部件3的数量会增加,而使导电部件3分别与显示屏2和中框1的接触面积增加。但是对于设置的 导电部件3,由于其需要保持与显示屏2和中框1的电连接,在三者的配合中,导电部件3自身产生的内应力会作用于中框1和显示屏2,由于显示屏2和中框1采用胶粘连接,在导电部件3的内应力下,很容易使显示屏2和中框1之间脱胶,而使显示屏2局部凸起的情况。并且,随着导电部件3数量的多,使显示屏2和中框1之间胶粘连接的稳定性更差,更容易产生脱胶的情况。
其中,为了避免设置的导电部件3由于其内应力而造成显示屏2和中框1之间脱胶,影响两者连接的可靠性,故可以在导电部件3设有缓冲部31,该缓冲部31用于降低导电部件3的内应力,而避免其作用显示屏2而影响显示屏2和中框1之间胶粘的牢靠性。
更为具体的,对于设置的能够降低导电部件3内应力的缓冲部31,可以采用不同的结构配合形式,以下以设置的不同的缓冲部31结构配合为例做具体说明:
在一种具体的实施例中,如图12所示,对于设置于导电部件3的缓冲部31,可以设置为,沿厚度方向H,至少一个缓冲部31贯穿导电部件3。通过沿厚度方向H贯穿导电部件3的设置,破坏导电部件3完整性的同时,贯穿的设计能够使导电部件3与显示屏2、中框1连接的接触面积降低,而降低导电部件3产生的内应力对显示屏2的作用力,从而避免内应力过大而导致显示屏2和中框1之间容易脱胶的问题。
具体的,通过设置的缓冲部31而降低与显示屏2、中框1电连接的接触面积同时降低了自身的内应力的结构配合中,对于设置的缓冲部31,可以为在导电部件3直接设置的沿厚度方向H贯穿的一个或多个通孔结构,以便于批量加工生产,节约成本。如图13所示,也可以将导电部件3拆分为多个相同或不同的导电单元34,沿厚度方向H,导电单元分别与显示屏2和中框1电连接;多个导电单元34组合形成具有相互连通的贯通孔结构,贯通孔形成缓冲部31。通过多个导电单元34组合的形式,能够根据不同的需求,根据显示屏2和中框1之间的空腔在安装其他零部件后,根据不同位置所留有的空间的大小,适应性调整导电单元34之间的距离,以满足不同的需求,提高导电部件3使用的通用性能。
可选的,无论是直接在导电部件3开设通孔还是通过导电单元34组合形成贯通孔的结构配合形式,所形成的一个或多个通孔/贯通孔可以包括圆形、棱形、网格形、蜂巢型等多种不同的形状,以通过内部局部挖空的形式来降低导电部件3自身的内应力,其具体结构配合在此不做具体限定。
更为具体的,对于设置通孔的导电部件3或任一导电单元34,为了能够进一步释放自身的内应力,其上还设置一个或多个开孔341,开孔341将贯通孔与外部连通,该开孔341的延伸方向不限,只要能够将通孔/贯通孔与外部连通即可,在此不做具体限定。
上述中通过沿厚度方向H设置的缓冲部31来贯穿导电部件3的结构配合形式,虽然能够通过内部的局部挖空来降低内应力,而避免导电部件3容易将显示屏2顶起而脱胶。但是此种结构配合中,也会导致导电部件3分别与显示屏2和中框1电连接的接触面积降低,此种情况下,降低了导电部件3和显示屏2、导电部件3和中框1之间的电连接的稳定性,容易使配合位置脱落,为了避免产生此种问题,本申请提供了另一种具体实施方式,缓冲部31到显示屏2之间具有预设距离。即在通过导电部件3将显示屏2和中框1电连接时,在导电部件3中设置的缓冲部31,该缓冲部31到显示屏2之间具有预设距离,通过缓冲部31与显示屏2之间的距离不变的设置,以限制导电部件3产生的内应力作用于显示屏2而将显示屏2顶起。同时,此种设置的缓冲部31不会破坏导电部件3与中框1、显示屏2连接位置的完整度,即不会降低电连接位置的最大接触面积,避免接触面积降低而使连接的牢靠性降低,进而导致该位置容易脱胶。不需要通过降低电连接位置的接触面积来实现降低内应力,避免影响天线性能和显示屏2的显示性能。
其中,为了能够实现导电部件3的导电,该导电部件3可以设置为金属件,如金属弹性片,弹性片的设置不会占用过大的内部空间的同时,能够保证较好的导电性能,以保证天线性能和显示屏2的显示性能。但是,对于金属件来说,由于自身的特性,其内应力过大,如果天线性能提升,所需要在手机内有限的空间内布置更多的导电部件3时,金属件在内应力下更容易将显示屏2顶起,而造成脱胶。如图2所示,故可以使导电部件3包括导电部32和支撑部33,导电部32包覆至少部分的支撑部33,导电部32将显示屏2和中框1电连接;导电部32设置有缓冲部31,或者,支撑部33设置有缓冲 部31,或者,导电部32和支撑部33均设置有缓冲部31。导电部32为金属件,支撑部33为内应力较小的非金属件,以通过导电部32和支撑部33的组合设置,而使导电部件3在能够保证较好的导电性能的同时,不会由于自身内应力过大而将显示屏2顶起,使显示屏2和中框1之间脱胶。而随着手机性能的提升,内部所需要布置的天线的数量增多,布置于天线附近的导电部件3也会随之增多,为了避免导电部件3的增多带来的总的内应力增大而造成将显示屏2顶起的情况,故而通过在导电部32和支撑部33中的至少一者设置缓冲部31的方式,进一步释放内应力,缓冲部31与显示屏2之间维持预设距离,能够保证较好的天线性能的同时不会造成显示屏2与中框1脱胶。
可选的,对于导电部32和支撑部33的配合,可以直接选用导电泡棉等将内部支撑部33完全包覆的结构,内部的支撑部为泡棉,外部导电部32为金属件,金属薄片包覆整个泡棉,也可以自行制作非完全包覆的结构,在此不做具体限定。
具体的,对于设置的包覆(为完全包覆或未完全包覆)于支撑部33外部的导电部32,为了保证能够实现显示屏2和中框1的电连接,且不会受到设置的缓冲部31的影响而降低导电性能。如图9、图10和图11所示,沿厚度方向H,导电部32包括第一端324和第二端325,第一端324用于电连接显示屏2,第二端325用于电连接中框1,第一端324和第二端325之间设置支撑部33;导电部32还包括两个或两个以上连接段326,连接段326覆盖于支撑部33的外表面,连接段326将第一端324和第二端325连接,相邻连接段326之间的空隙形成至少部分缓冲部31。以通过设置连接段326将第一端324和第二段连接的结构配合来实现导电部32将显示屏2与中框1的电连接,并且,多个连接段326之间形成的中空结构能够将部分的支撑部33露出,形成导电部32未完全包覆支撑部33的结构,降低了导电部32的内应力,提高显示屏2和中框1胶粘连接的稳定性。
或者,在导电部32完全包覆支撑部33时,如图2、图3和图4所示,沿厚度方向H,导电部件3包括第一连接端321和第二连接端322,第一连接端321和第二连接端322之间具有中间段323,第一连接端321用于连接显示屏2,第二连接端322用于连接中框1;第一连接端321的横截面积为S1,第二连接端322的横截面积为S2,中间段323的最小横截面积为S3,S3<S1, 且S3<S2;其中,中间段323的横截面积为S3的位置形成缓冲部31。通过设置的第一连接端321和第二连接端322分别连接显示屏2和中框1,能够在不降低与显示屏2、中框1连接的接触面积而保证电连接的“接地”性能的基础上,在中间段323形成的缓冲部31能够具有导电性能而不会影响显示屏2和中框1之间的电连接稳定性同时,能够降低导电部件3的内应力,缓冲部31到显示屏2的距离始终处于预设距离,即可避免导电部件3通过过大的内应力将显示屏2顶起的情况。
在此需要强调的是,导电部32包覆支撑部33而形成的导电部件3中,其设置的中间段323为导电部32和支撑部33的组合,第一连接端321、第二连接端322可以为两者的组合,也可以仅为导电部32的一部分,只要最终与显示屏2和中框1接触的面为导电部32的一部分即可,在此不做具体限定。
更为具体的,如图6所示,由于导电部件3需要设置在手机内部的有限空间内,且随着手机的轻薄化,内部空间的减小,为了保证设置的导电部件3在能够保证较好的天线性能的同时,导电部件3不会由于内应力过大而将显示屏2顶起,并且,在通过设置缓冲部31时能够减少导电部件3在内部的占用空间,有利于手机的轻薄化。导电部件3沿厚度方向H,缓冲部31到第一连接端321的方向,中间段323的截面积逐渐增大,从缓冲部31到第二连接端322的方向,中间段323的截面积逐渐增大。通过此种变截面的设置,而在降低了导电部件3内应力的同时,降低了内部占用的空间,提高内部空间的利用率。
另外,为了能够保证导电部件3通过设置的变截面而降低内应力的同时,不会降低天线的性能,故第一连接端321和第二连接端322分别与显示屏2、中框1的接触面积在设置缓冲部31的前后均不会变化。且为了保证导电部件3较好的导电性能,对于设置的第一连接端321和第二连接端322,两者分别与显示屏2、中框1的接触面积相同,即S1=S2,并且,在此基础上,为了保证变截面的设置在能够姐节约内部空间、降低导电部件3内应力的同时,变截面的设置不会造成显示屏2和中框1之间“接地”性能降低,而造成显示屏2对天线性能的影响,故对于设置的变截面,需要使其横截面积最小的位置大于某一范围值,而避免过小的设置而使该位置导电部32的周长较小,而造成在显示屏2和中框1之间没有足够的导电性能。可选的,中间段的最小 横截面积S3不低于四分之三的第一连接端321的横截面积S1,以保证中间段323的最小横截面积不超过该范围值,即可保证导电部件3中导电部32的导电性能,避免受到设置为变截面的缓冲部31影响。
可选的,对于设置的导电部件3,由于其需要布置于内部有限的空间中,为了能够节约空间,需要能够适应在不同形状的空间下布置导电部件3,故对于设置的导电部件3,对其横截面的形状可以包括多种,可以为规则的形状,如导电部件3的横截面的形状包括圆形、椭圆形、四边形、多边形、菱形,也可以为不规则的形状,在此不做具体限定。
在一种实施例中,如图3、图7和图8所示,当手机内部的空间减少或不足时,而又需要布置数量更多的导电部件3来保证天线的性能,对于设置的导电部件3,也可以为在导电部32和支撑部33的至少一者设有凹陷部,凹陷部形成缓冲部31。通过此种凹陷部的设置,可以根据内部空间的实际布局需求,将缓冲部31设置于导电部32和支撑部33的至少一者,可以根据实际情况做相应的调整,以使凹陷部到显示屏2之间的距离处于预设距离,其形成的缓冲部31能够达到较好的降低内应力的效果的同时,不会影响导电部件3的导电性能。
在另一种实施例中,如图2、图3、图4和图11所示,也可以在导电部32和支撑部33的至少一者设有通孔,通孔形成缓冲部31。以通过贯穿的通孔的设置,通孔到显示屏2的距离始终处于预设距离,避免显示屏2与中框1胶粘位置发生脱胶。
具体的,对于在相应的导电部32和支撑部33的至少一者设置通孔,而使通孔到显示屏2之间具有预设距离的结构配合中,设置的通孔可以为一个,也可以为两个或两个以上,任意相邻的通孔之间相互连通或断开,即在设置有多个通孔时,可以形成多个相互连通的蜂窝状结构,也可以在距离显示屏2预设距离的平面形成网格状结构,如图5所示,亦或者为多个相互不连通的通道结构等,在此不做具体限定。并且,对于设置的通孔,其轴线方向与厚度方向H之间可以为相互垂直的设置,也可以为具有一定非零夹角的倾斜设置,在此不做具体限定。
可选的,对于导电部件3电连接中框1和显示屏2的连接结构中,可以采用通过金属件锁扣或焊接的形式连接,也可以通过导电胶将导电部件3分 别与中框1和显示屏2胶粘连接,在此不做具体限定。而通过导电胶胶粘连接时,由于设置的缓冲部31降低了导电部件3的内应力,导电胶也无需涂覆过厚的涂层即可保证电连接的结构稳定性,避免过多的导电胶在为凝固时流入内部的电子部件,而造成电子部件的损坏,同时有利于手机的轻薄化。
需要指出的是,本专利申请文件的一部分包含受著作权保护的内容。除了对专利局的专利文件或记录的专利文档内容制作副本以外,著作权人保留著作权。

Claims (15)

  1. 一种电子设备,其特征在于,包括:
    显示屏;
    中框;
    导电部件,沿厚度方向H,所述导电部件将所述显示屏与所述中框电连接;
    其中,所述导电部件设有缓冲部,所述缓冲部到所述显示屏之间具有预设距离。
  2. 根据权利要求1所述的电子设备,其特征在于,所述导电部件包括导电部和支撑部,所述导电部包覆至少部分的所述支撑部;
    所述导电部设置有所述缓冲部,或者,所述支撑部设置有所述缓冲部,或者,所述导电部和所述支撑部均设置有所述缓冲部。
  3. 根据权利要求2所述的电子设备,其特征在于,沿厚度方向H,所述导电部包括第一端和第二端,所述第一端用于电连接显示屏,所述第二端用于电连接所述中框,所述第一端和所述第二端之间设置所述支撑部;
    所述导电部还包括两个或两个以上连接段,所述连接段覆盖于所述支撑部的外表面,所述连接段将所述第一端和所述第二端连接,相邻所述连接段之间的空隙形成至少部分所述缓冲部。
  4. 根据权利要求2所述的电子设备,其特征在于,所述导电部包覆所述支撑部时,沿厚度方向H,所述导电部件包括第一连接端和第二连接端,所述第一连接端和所述第二连接端之间具有中间段,所述第一连接端用于连接所述显示屏,所述第二连接端用于连接所述中框;
    所述第一连接端的横截面积为S1,所述第二连接端的横截面积为S2,所述中间段的最小横截面积为S3,S3<S1,且S3<S2;
    其中,所述中间段的横截面积为S3的位置形成所述缓冲部。
  5. 根据权利要求4所述的电子设备,其特征在于,沿厚度方向H,所述缓冲部到所述第一连接端的方向,所述中间段的截面积逐渐增大,从所述缓冲部到所述第二连接端的方向,所述中间段的截面积逐渐增大。
  6. 根据权利要求4所述的电子设备,其特征在于,S1=S2时,所述中间段 的最小横截面积S3不低于四分之三的所述第一连接端的横截面积S1。
  7. 根据权利要求4所述的电子设备,其特征在于,所述导电部件的横截面的形状包括圆形、椭圆形、四边形、多边形、菱形。
  8. 根据权利要求2-7中任一项所述的电子设备,其特征在于,所述导电部和所述支撑部的至少一者设有凹陷部,所述凹陷部形成所述缓冲部。
  9. 根据权利要求2-7中任一项所述的电子设备,其特征在于,所述导电部和所述支撑部的至少一者设有通孔,所述通孔形成所述缓冲部。
  10. 根据权利要求9所述的电子设备,其特征在于,所述通孔为两个或两个以上,任意相邻的所述通孔之间相互连通或断开。
  11. 根据权利要求1-7中任一项所述的电子设备,其特征在于,所述支撑部为泡棉。
  12. 根据权利要求1-7中任一项所述的电子设备,其特征在于,所述电子设备还包括导电胶,所述导电胶将所述导电部件分别与所述中框和所述显示屏胶粘连接。
  13. 一种电子设备,其特征在于,包括:
    显示屏;
    中框;
    导电部件,沿厚度方向H,所述导电部件将所述显示屏与所述中框电连接;
    其中,所述导电部件设有缓冲部,沿厚度方向H,至少一个所述缓冲部贯穿所述导电部件。
  14. 根据权利要求13所述的电子设备,其特征在于,所述导电部件包导电单元,沿厚度方向H,所述导电单元分别与所述显示屏和所述中框电连接;
    多个所述导电单元组合形成具有相互连通的贯通孔结构,所述贯通孔形成所述缓冲部。
  15. 根据权利要求14所述的电子设备,其特征在于,所述导电单元还包括开孔;
    所述开孔将所述贯通孔与外部连通。
PCT/CN2021/111708 2020-08-21 2021-08-10 电子设备 WO2022037435A1 (zh)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN202010851040.2 2020-08-21
CN202010851040.2A CN114079685B (zh) 2020-08-21 2020-08-21 电子设备

Publications (1)

Publication Number Publication Date
WO2022037435A1 true WO2022037435A1 (zh) 2022-02-24

Family

ID=80282606

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2021/111708 WO2022037435A1 (zh) 2020-08-21 2021-08-10 电子设备

Country Status (2)

Country Link
CN (1) CN114079685B (zh)
WO (1) WO2022037435A1 (zh)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050052582A1 (en) * 2003-09-09 2005-03-10 Toppoly Optoelectronics Corp. Touch panel liquid crystal display
CN201584189U (zh) * 2009-08-05 2010-09-15 田悦明 导电泡棉组合体及显示屏组件
CN206212406U (zh) * 2016-10-18 2017-05-31 常州瑞讯电子有限公司 包边型柔性电路板
CN108215357A (zh) * 2016-12-15 2018-06-29 北京小米移动软件有限公司 移动终端及制作方法
CN109348695A (zh) * 2018-09-29 2019-02-15 华为技术有限公司 一种泡棉和终端

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN208782036U (zh) * 2018-04-28 2019-04-23 Oppo广东移动通信有限公司 电子装置
CN109088966B (zh) * 2018-09-29 2020-11-03 东莞市钰晟电子科技有限公司 一种屏背光组件的接地结构及移动终端
CN208820830U (zh) * 2018-10-19 2019-05-03 Oppo广东移动通信有限公司 电子装置
CN109151122B (zh) * 2018-10-24 2020-10-09 Oppo(重庆)智能科技有限公司 显示屏组件、电子设备及显示屏组件的组装方法
CN210270703U (zh) * 2019-10-30 2020-04-07 维沃移动通信有限公司 一种电子设备

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050052582A1 (en) * 2003-09-09 2005-03-10 Toppoly Optoelectronics Corp. Touch panel liquid crystal display
CN201584189U (zh) * 2009-08-05 2010-09-15 田悦明 导电泡棉组合体及显示屏组件
CN206212406U (zh) * 2016-10-18 2017-05-31 常州瑞讯电子有限公司 包边型柔性电路板
CN108215357A (zh) * 2016-12-15 2018-06-29 北京小米移动软件有限公司 移动终端及制作方法
CN109348695A (zh) * 2018-09-29 2019-02-15 华为技术有限公司 一种泡棉和终端

Also Published As

Publication number Publication date
CN114079685A (zh) 2022-02-22
CN114079685B (zh) 2023-07-18

Similar Documents

Publication Publication Date Title
US9082549B2 (en) Electronic component
JP7246490B2 (ja) アンテナ構造及び高周波多周波数帯無線通信端末
JP2022515501A (ja) アンテナ構造及び高周波無線通信端末
WO2017113799A1 (zh) 柔性电路板及移动终端
WO2020233225A1 (zh) 终端
WO2022037435A1 (zh) 电子设备
CN101090599B (zh) 电路板
WO2021000079A1 (zh) 一种天线模组及移动终端
JP2013059015A (ja) 構造物および構造物の製造方法
WO2023088325A1 (zh) 折叠屏电子设备
CN210469881U (zh) Pcb板拼接结构及天线装置
JP2008270363A (ja) 高周波パッケージ
CN203434381U (zh) 防止电子装置间相互干扰的连接器
CN102458035B (zh) 一种开槽印制板结构
CN206674295U (zh) 一种低阻抗多层线路板
CN217389090U (zh) 一种节约布线空间的印刷电路板安装孔结构
CN202282463U (zh) 反射板、天线、基站及通信系统
CN214852007U (zh) 具有金属化孔的pcb板
CN202231263U (zh) 同轴连接器插头、同轴连接器插座以及同轴连接器
CN205385602U (zh) 麦克风电路板和mems麦克风
CN112803164B (zh) 小型化多频天线及其制作方法
CN205812492U (zh) 一种印制电路板及手机外壳
CN220253692U (zh) 一种带有屏蔽功能的针孔件
CN202696842U (zh) 蓝牙耳机电路板
CN209691948U (zh) 一种陶瓷天线贴片

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 21857530

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 21857530

Country of ref document: EP

Kind code of ref document: A1