CN211906135U

CN211906135U - Notebook computer camera shields device

Info

Publication number: CN211906135U
Application number: CN202020868553.XU
Authority: CN
Inventors: 谢子能
Original assignee: Fujian Huawenzongheng Network Technology Co ltd
Current assignee: Fujian Huawenzongheng Network Technology Co ltd
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2020-11-10
Anticipated expiration: 2030-05-21

Abstract

The utility model provides a shielding device for a notebook computer camera, which comprises a driving piece, a shielding part and a shell, wherein the driving piece, a driving piece matched with the driving piece, a pressure column and a connecting piece arranged in the length direction of the driving piece and the pressure column are included in the driving device; the utility model provides a new technical scheme solve the camera and shield the problem, effectively ensure user's privacy safety.

Description

Notebook computer camera shields device

Technical Field

The utility model relates to a notebook computer equipment field, in particular to notebook computer camera shields device.

Background

The notebook is widely used by the public as a necessary tool for daily office work and study in modern life, but for a notebook system, especially the safety of a camera becomes an important social problem in the modern society. The notebook computer cameras are mainly arranged in a pop-up mode and an embedded mode, and the embedded camera is wide in coverage range and is seriously influenced by computer intrusion of hackers and the like.

The shielding device for the embedded camera mainly has three types in the prior art:

the patent application No. 201920201732.5 discloses a camera shielding device, which comprises a transverse shielding unit, wherein the shielding unit comprises a hollow position and a shielding position, and the shielding effect of a camera is realized by the transverse movement of the shielding unit;

patent application No. 201620490881.4 discloses a camera protection device for a notebook computer, which comprises a mounting groove on the notebook computer, wherein a turnover part is arranged in the mounting groove in a turnover manner, and the camera is arranged on the inner side of the turnover part, so that two purposes of protecting and shielding the camera can be simultaneously realized;

patent application No. 201911420079.2 discloses a camera shielding mechanism, which comprises a fixed disk, a rotating ring and a plurality of baffle plates, wherein the center of the fixed disk is used for arranging a lens of a camera module; rotatory ring rotates along its axial direction and sets up on the fixed disk, and a plurality of separation blades are arranged and axial rotation sets up on solid fixed ring along fixed disk circumference, can drive each separation blade when rotatory ring rotates and make syntropy deflection, shelter from or give way out the camera lens of camera module. Above-mentioned camera shields mechanism rotates and then drives the separation blade through the rotatory ring rotation of drive and rotates, realizes sheltering from or letting out the function of camera module camera lens, can effectively avoid being taken secretly when the system is invaded, has protected user's individual privacy.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides a new technical scheme, a notebook computer camera shields device to guarantee user privacy safety.

The technical scheme is as follows:

in order to achieve the above object, the utility model discloses a main technical scheme include: a shielding device for a notebook computer camera comprises

The driving mechanism comprises a driving piece, a mounting frame, a connecting piece and a pressure column, wherein the output end of the driving piece is connected with the driving piece, threads are arranged on the outer surface of the driving piece, the mounting frame is arranged on the upper portion of the driving piece, the pressure column is arranged in the mounting frame and horizontally aligned with the driving piece, a group of connecting pieces are arranged in the length direction of the driving piece and respectively comprise a first connecting piece and a second connecting piece, the connecting piece comprises a connecting block and a connecting column, the connecting block is provided with a first connecting hole and a second connecting hole, the first connecting hole is sleeved on the pressure column, the inner wall of the second connecting hole is provided with threads and is meshed with the driving piece, the first connecting piece and the second connecting piece can vertically move in opposite directions;

the shielding part comprises a shielding plate, a protruding part and an auxiliary block, the shielding plate comprises an upper end shielding plate and a lower end shielding plate, a first supporting column and a third supporting column are respectively fixed to the front portion and the rear portion of the upper end shielding plate, a second supporting column and a fourth supporting column are respectively fixed to the front portion and the rear portion of the lower end shielding plate, the protruding part is arranged on two opposite sides of the shielding plate, one opposite side of a first connecting piece is fixedly connected with the first supporting column, one opposite side of the second connecting piece is fixedly connected with the second supporting column, the third supporting column is connected with the fourth supporting column through a spring, an accommodating cavity is surrounded on the inner side of the shielding part, and a camera module is arranged in the accommodating cavity;

the camera comprises a shell, wherein the shell is wrapped on a driving mechanism and a shielding part, a camera hole is formed in the front part of the shell and is matched with a camera module, sliding grooves are formed in two opposite sides of the inner surface of the shell and are matched with a protruding part, four fixing columns are horizontally arranged in the shell and are respectively arranged at four corners of two sides in the shell, an upper end shielding plate is tangent to the upper side of each fixing column, and a lower end shielding plate is tangent to the lower side of each fixing column.

Preferably, the shielding plate is made of flexible opaque material.

Preferably, electromagnets with opposite polarities are arranged in the front supporting columns respectively and are electrically connected with an external power supply.

Preferably, the springs are arranged in multiple groups, and the springs are symmetrically arranged.

Has the advantages that:

the beneficial effects of the utility model reside in that: by adopting the technical scheme, the camera module is shielded and exposed by the shielding plate, so that the user can be effectively helped to control the opening and closing of the camera, and the privacy safety of the user is effectively protected.

Drawings

FIG. 1 is a functional structure diagram of the present invention;

FIG. 2 is a front view of the functional structure of the present invention;

FIG. 3 is a side sectional view of the functional structure of the present invention

Fig. 4 is a front view of the housing of the present invention.

[ description of reference ]

1-a drive mechanism; 101-a mounting frame; 102-a pressure column; 103-a transmission member; 104-a connector; 1041-connecting block; 1042-connecting column; 1043-a first connector; 1044-a second connector; 2-a shielding part; 201-a shielding plate; 2011-upper end shielding plate; 2012-lower end shield; 202-fixed column; 203-a protrusion; 204-support column; 2041-a first support column; 2042-a second support column; 2043-third support column; 2044-fourth support column; 3-a camera module; 4-a shell; 5-shooting hole.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.

Referring to fig. 1 to 4, the present invention provides a camera shielding device for a notebook computer, including a driving mechanism 1, the driving mechanism 1 includes a driving member, a driving member 103, an installation frame 101, a connection member 104 and a pressure column 102, the output end of the driving member is connected to the driving member 103, the outer surface of the driving member 103 is provided with threads, the upper portion of the driving member is provided with the installation frame 101, the pressure column 102 is disposed in the installation frame 101 and horizontally aligned with the driving member 103, the length direction of the driving member 103 is provided with a set of connection members 104, which are a first connection member 1043 and a second connection member 1044 respectively, the connection member 104 includes a connection block 1041 and a connection column 1042, the connection block 1041 is provided with a first connection hole and a second connection hole, the first connection hole is sleeved on the pressure column 102, the inner wall of the second connection hole is provided with threads and engaged with the driving member 103, the first connection member 1043 and, the connecting column 1042 is fixedly connected to one side of the connecting block 1041 away from the transmission member 103; the shielding part 2, the shielding part 2 includes a shielding plate 201, a protruding part 203 and an auxiliary block, the shielding plate 201 includes an upper end shielding plate 2011 and a lower end shielding plate 2012, the front and rear parts of the upper end shielding plate 2011 are respectively fixed with a first supporting column 2041 and a third supporting column 2043, the front and rear parts of the lower end shielding plate 2012 are respectively fixed with a second supporting column 2042 and a fourth supporting column 2044, the protruding part 203 is disposed on two opposite sides of the shielding plate 201, one opposite side of the first connecting part 1043 is fixedly connected with the first supporting column 2041, one opposite side of the second connecting part 1044 is fixedly connected with the second supporting column 2042, the third supporting column 2043 is connected with the fourth supporting column 2044 through a spring, an accommodating cavity is surrounded by the inner side of the shielding part 2, and the camera module 3 is disposed inside the accommodating cavity; the camera comprises a shell 4, wherein the shell 4 is wrapped in a driving mechanism 1 and a shielding part 2, a camera hole 5 is formed in the front part of the shell 4, the camera hole 5 is matched with a camera module 3, sliding grooves are formed in two opposite sides of the inner surface of the shell 4 and are matched with a protruding part 203, four fixing columns 202 are horizontally arranged in the shell 4, the fixing columns 202 are respectively arranged at four corners of two sides in the shell 4, an upper end shielding plate 2011 is tangent to the upper side of each fixing column 202, and a lower end shielding plate 2012 is tangent to the lower side of each fixing column 202. Therefore, the shielding and exposure of the notebook camera can be effectively controlled through the improvement, and the privacy safety of a user is effectively guaranteed.

In the above embodiment, the driving member 103 is driven by the driving member, and the first connecting block 1041 and the second connecting block 1041 on the driving member 103 are controlled to move in the opposite directions, so as to drive the upper end shielding plate 2011 and the lower end shielding plate 2012 and move on the preset track through the matching of the protruding portions 203 at the two sides and the sliding blocks in the housing 4, and at this time, the upper end shielding plate 2011 and the lower end shielding plate 2012 are connected through the arrangement of the springs in the third supporting column 2043 and the fourth supporting column 2044, and the connectivity between the shielding plates 201 is effectively improved.

The following is an exemplary description of the structure and assembly of the drive mechanism 1 and the shield portion 2, respectively:

1. drive mechanism 1

As shown in fig. 1-3, the driving mechanism 1 includes a driving member, a transmission member 103, a mounting frame 101, a connecting member 104 and a pressure column 102, an output end of the driving member is connected to the transmission member 103, an outer surface of the transmission member 103 is provided with threads, an upper portion of the driving member is provided with the mounting frame 101, the pressure column 102 is disposed in the mounting frame 101 and horizontally aligned with the transmission member 103, a set of connecting members 104 are disposed in a length direction of the transmission member 103, and are respectively a first connecting member 1043 and a second connecting member 1044, the connecting members 104 include connecting

members

1041 and 1042, the connecting member 1041 is provided with a first connecting hole and a second connecting hole, the first connecting hole is sleeved on the pressure column 102, an inner wall of the second connecting hole is provided with threads and engaged with the transmission member 103, the first connecting member 1043 and the second connecting, the connecting column 1042 is fixedly connected to one side of the connecting block 1041 away from the transmission member 103;

specifically, taking an exposed camera as an example, the driving member starts to operate, and drives the first connecting block 1041 and the second connecting block 1041 on the driving member 103 to move in opposite directions, and are respectively connected to the first supporting column 2041 and the second supporting column 2042 through the connecting column 1042, wherein the pressure column 102 is sleeved in the first connecting hole, so that not only can the stabilizing device operate, but also the connecting block 1041 can stably move in a specified direction as a guide member. Meanwhile, the driving device is simple in equipment and small in size, and can be effectively matched with the use of an ultrathin screen or mobile equipment.

2. Shielding part 2

As shown in fig. 1 to 3, the shielding portion 2 includes a shielding plate 201, a protruding portion 203 and an auxiliary block, the shielding plate 201 includes an upper end shielding plate 2011 and a lower end shielding plate 2012, a first supporting column 2041 and a third supporting column 2043 are respectively fixed to the front and the rear of the upper end shielding plate 2011, a second supporting column 2042 and a fourth supporting column 2044 are respectively fixed to the front and the rear of the lower end shielding plate 2012, the protruding portion 203 is disposed on two opposite sides of the shielding plate 201, one opposite side of the first connecting member 1043 is fixedly connected to the first supporting column 2041, one opposite side of the second connecting member 1044 is fixedly connected to the second supporting column 2042, the third supporting column 2043 is connected to the fourth supporting column 2044 by a spring, an accommodating cavity is surrounded by the inner side of the shielding portion 2, and the camera module 3 is disposed inside the accommodating cavity; wherein, shielding plate 201 is flexible light-tight material, can effectually shield the camera, prevents that the camera from invading and non-initiative is opened, simultaneously, the spring sets up to the multiunit, the spring symmetrical arrangement, be provided with relative polarity's electro-magnet in the anterior support column 204 respectively, electro-magnet and external power source electric connection effectively strengthen the connection at anterior and the rear portion of upper end shielding plate 2011, lower extreme shielding plate 2012, securing device.

Specifically, in the above embodiment, the connecting column 1042 drives the first supporting column 2041 and the second supporting column 2042 to move in opposite directions, at this time, the power supply of the electromagnet is turned off and loses magnetism, the shielding plate 201 moves according to a fixed line under the cooperation of the side protruding portion 203 of the shielding plate and the inner sliding groove of the housing 4, and in the moving process, the restoring force of the spring between the third supporting column 2043 and the fourth supporting column 2044 acts to stabilize the operation of the shielding plate 201, when the shielding plate 201 moves to a proper position, the camera is exposed, and at this time, a normal shooting task is performed through the camera hole 5 formed in the surface of the housing 4. It should be noted that, in the process of exposing the camera, the electromagnet is in a completely power-off state, and when the camera is shielded, the electromagnet is in a power-on state, and the polarities of the electromagnet and the camera are opposite and attract each other, so that the connectivity between the front parts of the shielding plates 201 is ensured.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims

1. A shielding device for a notebook computer camera is characterized by comprising

2. The shielding device for a notebook computer camera as claimed in claim 1, wherein the shielding plate is made of flexible opaque material.

3. The shielding device for the camera of the notebook computer according to claim 1, wherein electromagnets with opposite polarities are respectively disposed inside the first supporting column and the second supporting column, and the electromagnets are electrically connected to an external power source.

4. The camera shelter of claim 1, wherein the springs are arranged in multiple groups, and the springs are symmetrically arranged.