CN219418069U - Computer with a memory for storing data - Google Patents

Abstract

The embodiment of the application relates to the technical field of computers and discloses a computer, wherein the computer comprises a host and a display, the host is provided with a first accommodating space with an opening, and the opening faces the display; the display comprises a shell, a mounting piece and a display screen, wherein the mounting piece comprises a mounting panel and a mounting side plate connected with the outer edge of the mounting panel, a second accommodating space is formed by enclosing the mounting panel and the mounting side plate, the display screen is accommodated in the second accommodating space, and the mounting piece is fixedly connected with the shell so as to fix the display screen between the mounting panel and the shell; a first buffer piece is stuck between the display screen and the mounting panel, a second buffer piece is stuck between the display screen and the mounting side plate, and a third buffer piece is stuck between the display screen and the shell; and a gas spring is further arranged between the shell and the host, one end of the gas spring is rotationally connected with the shell, and the other end of the gas spring is rotationally connected with the host. According to the embodiment of the application, vibration and impact on the display screen can be reduced, and the display screen is prevented from flashing.

Description

Computer with a memory for storing data

Technical Field

The embodiment of the application relates to the technical field of computers, in particular to a computer.

Background

Currently, with the development of technology, computers are widely used in a plurality of fields. Computers typically include a host and a display, where the display is not limited to providing display functionality, and a display with a touch screen may also provide touch functionality. In the industrial field, a display in a computer is usually fixed with a host, a screen of the display is exposed and the display cannot rotate relative to the host, and after the computer is placed or fixed in a cabinet, the computer can only watch screen contents or operate the screen at a fixed angle, so that the computer is inconvenient to use. Based on this, in application scenes where a user needs to frequently view a screen and perform a touch screen operation, and other application scenes where a screen viewing angle and convenience of the touch screen operation are required, a computer in which a display can be rotated with respect to a host is becoming mainstream.

In the rotation design scheme of the display and the host, one end of the display is rotationally connected with one end of the host, and the other end of the display is connected with the other end of the host through a sliding support, so that the display can be turned over. In addition, the sliding support can support the display after adjusting the overturning angle of the display so as to enable the display to keep the overturning angle, and the user requirement is met. However, the display has a problem of a splash screen during the sliding movement to adjust the tilting angle of the display. Accordingly, there is a need for improvements in computers to address the problem of display splash.

Disclosure of Invention

In view of the above, embodiments of the present application provide a computer to reduce vibration and impact to a display screen and prevent the display screen from flickering.

According to an aspect of an embodiment of the present application, there is provided a computer, the computer including a host and a display, the host having a first accommodation space with an opening facing the display, one end of the display being rotatably connected to the host so that the display is accommodated in the first accommodation space through the opening after being turned over, or the display is removed from the first accommodation space through the opening after being turned over; the display comprises a shell, a mounting piece and a display screen, wherein the mounting piece comprises a mounting panel and a mounting side plate connected with the outer edge of the mounting panel, a second accommodating space is formed by enclosing the mounting panel and the mounting side plate, the display screen is accommodated in the second accommodating space, and the mounting piece is fixedly connected with the shell so as to fix the display screen between the mounting panel and the shell; a first buffer piece is stuck between the display screen and the mounting panel, a second buffer piece is stuck between the display screen and the mounting side plate, and a third buffer piece is stuck between the display screen and the shell; and a gas spring is further arranged between the shell and the host, one end of the gas spring is rotationally connected with the shell, and the other end of the gas spring is rotationally connected with the host.

The embodiment of the application provides a computer, between back and the installation panel through paste the bolster locate the display screen, between the side of display screen and the installation curb plate and between the front and the casing of display screen for the bolster can cushion effort between display screen and the installation piece and the effort between display screen and the casing, with the cushioning effect to the display screen, and rotate respectively through the both ends of gas spring and connect in display and casing, make gas spring can play support and cushioning effect to the display, thereby the display is when receiving vibration and impact or computer service environment causes display vibration and impact in the upset in-process, can prevent that the display screen in the display from flashing.

In an alternative embodiment, the host machine has a left wall and a right wall, the upper end of the housing is rotatably connected to the left wall and the right wall, and a first reinforcement is fixed between the left wall and the right wall, and the first reinforcement is located at the upper end of the host machine. The first reinforcement is fixed between the left wall and the right wall of the host computer, so that the first reinforcement plays a supporting role on the left wall and the right wall of the host computer when the computer is vibrated and impacted, the structural strength of the host computer is enhanced, the vibration and the impact degree of the host computer are reduced, the vibration and the impact degree of the display are reduced, and the display screen is further prevented from flashing.

In an alternative embodiment, a second reinforcement member is further fixed between the left wall and the right wall, the second reinforcement member is located at a lower end of the first reinforcement member, and the second reinforcement member is used for supporting a lower end of the housing when the display is received in the first receiving space in a turned manner. The second reinforcement is fixed in between left wall and the right wall of host computer, therefore, the second reinforcement plays the supporting role to the left wall and the right wall of host computer when the computer receives vibration and impact, has strengthened the structural strength of host computer, has reduced the vibration and the impact degree of host computer to the vibration and the impact degree of display have been reduced, further prevent that the display screen from flashing.

In an alternative embodiment, a fourth buffer member is attached to the lower end of the housing or the second reinforcement member, and the lower end of the housing abuts against the second reinforcement member through the fourth buffer member. When the display is turned over and accommodated in the first accommodating space, the lower end of the shell of the display is abutted to the second reinforcing piece through the fourth buffer piece, so that the fourth buffer piece plays a role in buffering the shell, vibration and impact degrees of the shell are reduced, vibration and impact degrees of the display screen are reduced, and display screen flashing is further prevented.

In an alternative embodiment, a fifth buffer member is attached to the left wall or the left end of the housing, and the left end of the housing is abutted to the left wall through the fifth buffer member when the display is turned over and accommodated in the first accommodating space; the right wall or the right end of the shell is stuck with a sixth buffer part, and the display at the right end of the shell is abutted against the right wall through the sixth buffer part when being turned over and accommodated in the first accommodating space. When the display is turned over and accommodated in the first accommodating space, the left end and the right end of the shell of the display are respectively abutted to the left wall and the right wall of the host through the buffer piece, so that the buffer piece plays a role in buffering the shell, the vibration and impact degree of the shell are reduced, and the vibration and impact degree of the display screen are reduced.

In an alternative embodiment, the left wall extends to the left to form a left convex part, the left convex part is used for supporting the left end of the shell when the display is turned over and accommodated in the first accommodating space, the fifth buffer piece is attached to the left end of the left convex part or the shell, and the left end of the shell is abutted to the left convex part through the fifth buffer piece; the right wall extends to the right side to form a right protruding portion, the right protruding portion is used for supporting the right end of the shell when the display is turned over and accommodated in the first accommodating space, the sixth buffer piece is attached to the right protruding portion or the right end of the shell, and the right end of the shell is abutted to the right protruding portion through the sixth buffer piece. When the display is turned over and accommodated in the first accommodating space, the left end and the right end of the shell of the display are abutted to the left wall and the right wall of the host through the buffer piece, so that the buffer piece plays a role in buffering the shell, the vibration and impact degree of the shell are reduced, and the vibration and impact degree of the display screen are reduced. The left convex part extends to the left side and protrudes to the right side, so that the thicknesses of the left wall and the right wall of the host are moderate, the area of the shell of the display, which is abutted to the host through the buffer piece, is enlarged, the acting force intensity of the left end and the right end of the shell to the left wall and the right wall of the host is reduced, and the damage degree of the left convex part and the right convex part due to frequent abutting of the display is reduced.

In an alternative embodiment, a fixed frame is fixed to the edge of the back surface of the display screen, and the first buffer is located between the edge of the mounting panel and the fixed frame. Because the fixed frame is fixed on the edge of the back of the display screen, the first buffer piece corresponds to the edge of the back of the display screen, and the middle position of the display screen can be prevented from being extruded by the first buffer piece to influence the display performance of the display screen.

In an alternative embodiment, toughened glass is fixed between the shell and the third buffer piece, and a seventh buffer piece is stuck between the toughened glass and the shell. Because toughened glass has higher intensity, consequently, be fixed in toughened glass between casing and the third bolster, toughened glass can reduce the risk that the screen explodes because of receiving the striking of external force. Because toughened glass is fixed in between casing and the third bolster, that is toughened glass keeps apart the display screen with the external world promptly, so toughened glass can prevent that the display screen from exploding the screen, plays the guard action to the display screen. By attaching the third buffer piece between the toughened glass and the display screen and attaching the seventh buffer piece between the toughened glass and the shell, the acting force between the display screen and the shell can be buffered by the third buffer piece and the seventh buffer piece.

In an alternative embodiment, the housing includes a front case and a rear case, and the front case and the rear case enclose a third accommodating space in which the display screen and the mounting member are accommodated. The display screen and the mounting piece are accommodated in the third accommodating space formed by enclosing the front shell and the rear shell, so that dust can be reduced from entering the third accommodating space, and the display screen is protected.

In an alternative embodiment, one end of the gas spring is rotatably connected to the side wall of the rear case, and the other end is rotatably connected to the inner wall of the first accommodation space, and the depth of the first accommodation space is greater than or equal to the depth of the rear case. By the mode, when the rear shell of the display is accommodated in the first accommodating space, dust accumulation easily caused by long-term exposure of the gas spring to the outer side of the computer can be prevented, so that the extension or retraction function of the gas spring is prevented from being influenced by the dust accumulation, and the overturning function of the display is ensured.

The foregoing description is only an overview of the technical solutions of the present application, and may be implemented according to the content of the specification in order to make the technical means of the present application more clearly understood, and in order to make the above-mentioned and other objects, features and advantages of the present application more clearly understood, the following detailed description of the present application will be given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 shows a perspective view of a computer provided by an embodiment of the present application;

FIG. 2 shows an exploded view of a display in a computer provided in an embodiment of the present application;

FIG. 3 is a schematic diagram showing the structure of a mounting member in a computer according to an embodiment of the present application;

FIG. 4 is a top view of a back view of a display in a computer according to an embodiment of the present application;

FIG. 5 shows a schematic cross-sectional view along A-A and an enlarged schematic view of section B of FIG. 4;

fig. 6 shows a schematic structural diagram of a gas spring in a computer according to an embodiment of the present application.

Reference numerals in the specific embodiments are as follows:

10. a computer;

100. a host; 110. a first accommodation space; 120. a left wall; 130. a right wall; 131. a right protruding portion; 140. a first reinforcement; 150. the upper end of the host; 160. a second reinforcement; 161. a fourth buffer member;

200. a display; 210. a housing; 211. a third buffer member; 212. the upper end of the shell; 213. the lower end of the shell; 214. the left end of the shell; 215. the right end of the shell; 216. a front shell; 217. a rear case; 218. a third accommodation space; 220. a mounting member; 221. installing a panel; 2211. a first buffer member; 222. installing a side plate; 2221. a second buffer member; 223. a second accommodation space; 224. a mounting part; 230. a display screen; 240. tempered glass; 250. a seventh buffer member;

300. a gas spring;

z, a first direction; y, second direction; x, third direction.

Detailed Description

Embodiments of the technical solutions of the present application will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical solutions of the present application, and thus are only examples, and are not intended to limit the scope of protection of the present application.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the present application and in the description of the figures above are intended to cover non-exclusive inclusions.

In the description of the embodiments of the present application, the technical terms "first," "second," etc. are used merely to distinguish between different objects and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, a particular order or a primary or secondary relationship. In the description of the embodiments of the present application, the meaning of "plurality" is two or more unless explicitly defined otherwise.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In the description of the embodiments of the present application, the term "and/or" is merely an association relationship describing an association object, which means that three relationships may exist, for example, a and/or B may mean: there are three cases, a, B, a and B simultaneously. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

In the description of the embodiments of the present application, the term "plurality" refers to two or more (including two), and similarly, "plural sets" refers to two or more (including two), and "plural sheets" refers to two or more (including two).

In the description of the embodiments of the present application, the orientation or positional relationship indicated by the technical terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of describing the embodiments of the present application and for simplifying the description, rather than indicating or implying that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the embodiments of the present application.

In the description of the embodiments of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured" and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; or may be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the embodiments of the present application will be understood by those of ordinary skill in the art according to the specific circumstances.

Currently, computers are widely used in a variety of fields. The computer generally comprises a host and a display, wherein a display screen is fixed in the display, and the display screen is used for displaying contents. In the industry, the display in a computer is typically fixed in one piece with the host, and some of the display may be rotatable relative to the host. In the rotation design scheme of the display and the host, one end of the display is rotationally connected with one end of the host, and the other end of the display is connected with the other end of the host through a sliding support, so that the display can be turned over. In addition, the sliding support can support the display after adjusting the overturning angle of the display so as to enable the display to keep the overturning angle, and the user requirement is met. However, the display has a problem of a splash screen during the sliding movement to adjust the tilting angle of the display.

The inventor of the application found that the display screen flash is mainly caused by the vibration and impact of the display screen in the display due to the hard collision between the internal structures of the sliding support.

In order to solve the problems, the inventor of the application research finds that the sliding support is replaced by the gas spring, and the two ends of the gas spring are respectively connected with the display and the host in a rotating way, so that the gas spring can adjust the overturning angle of the display and can buffer the display. Through setting up the installed part in the display, hold the display screen in the installed part, be fixed in the casing of display with the installed part again in order to be fixed in the display screen between installed part and the casing, and paste between the different positions of display screen respectively with installed part and casing and establish the bolster for at the in-process of air spring regulation display flip angle, effort and the effort between display screen and the installed part between buffer buffering display screen and the casing, reduced vibration and the impact that the display screen received, prevent that the display screen from flashing.

Referring to fig. 1 to 3, fig. 1 is a perspective view of a computer 10 according to an embodiment of the present application, fig. 2 is an exploded view of a display 200 in the computer 10 according to an embodiment of the present application, and fig. 3 is a schematic view of a structure of a mounting member 220 in the computer 10 according to an embodiment of the present application.

According to an aspect of an embodiment of the present application, there is provided a computer 10, the computer 10 including a host 100 and a display 200. The host 100 has a first accommodating space 110 with an opening facing the display 200, and one end of the display 200 is rotatably connected with the host 100, so that the display 200 is accommodated in the first accommodating space 110 through the opening after being turned over, or the display 200 is removed from the first accommodating space 110 through the opening after being turned over. The display 200 includes a housing 210, a mount 220, and a display screen 230. The mounting member 220 includes a mounting panel 221 and a mounting side plate 222 connected to an outer edge of the mounting panel 221, and the mounting panel 221 and the mounting side plate 222 are enclosed to form a second accommodation space 223, and the display screen 230 is accommodated in the second accommodation space 223. The mounting member 220 is fixedly coupled with the housing 210 to fix the display screen 230 between the mounting panel 221 and the housing 210. A first buffer 2211 is stuck between the display screen 230 and the mounting panel 221, a second buffer 2221 is stuck between the display screen 230 and the mounting side plate 222, and a third buffer 211 is stuck between the display screen 230 and the housing 210. A gas spring 300 is further disposed between the housing 210 and the host 100, one end of the gas spring 300 is rotatably connected to the housing 210, and the other end is rotatably connected to the host 100.

The computer 10 is primarily mounted in a cabinet, which may be a vehicle-mounted cabinet, counter cabinet, or the like. The display 230 is a main component of the display 200 for displaying content. The display 230 may be a liquid crystal display 230, and may also have a touch function.

The mounting side plate 222 may be integrally connected to the mounting panel 221 (e.g., the mounting panel 221 is bent to form the mounting side plate 222) by connecting the mounting side plate 222 to the outer edge of the mounting panel 221, so that the overall structure of the mounting member 220 is more stable. The mounting side plate 222 may be connected to the outer edge of the mounting panel 221 by welding, adhering, or the like, so that the mounting panel 221 and the mounting side plate 222 enclose the second accommodation space 223.

As shown in fig. 3, the mounting side plate 222 is connected to the outer edge of the mounting panel 221, and the mounting side plate 222 includes a plurality of pieces spaced apart from the outer edge of the mounting panel 221. In other embodiments, the mounting side plate 222 may also be a unitary structure disposed about the outer edge of the mounting panel 221.

The first buffer 2211 is used for buffering a force between the rear surface of the display screen 230 and the mounting panel 221. The second buffer 2221 is used to buffer the force between the side of the display screen 230 and the mounting side plate 222. The third buffer 211 is used for buffering the acting force between the front surface of the display screen 230 and the housing 210. The first buffer 2211, the second buffer 2221, and the third buffer 211 may use elastic materials such as foam, silicone, and the like. Referring to fig. 4 and 5, fig. 4 is a top view of a back view of the display 200 in the computer 10 according to the embodiment of the present application, and fig. 5 is a schematic cross-sectional view along A-A and an enlarged schematic view of B in fig. 4. The mounting member 220 is fixedly connected with the housing 210 to fix the display screen 230 between the mounting panel 221 and the housing 210 by: as shown in fig. 3, the first buffer member 2211 is adhered to the mounting panel 221, the second buffer member 2221 is adhered to the mounting side plate 222, then the display screen 230 is placed in the second receiving space 223 formed by enclosing the mounting panel 221 and the mounting side plate 222, so that the back surface of the display screen 230 presses the first buffer member 2211 as shown in fig. 5, the side surface of the display screen 230 and the mounting side plate 222 press the second buffer member 2221, then the third buffer member 211 is adhered to the front case 216, and finally the mounting member 220 fixed with the display screen 230 is fixed to the case 210, so that the edge of the front surface of the display screen 230 and the case 210 press the third buffer member 211 as shown in fig. 5. Referring to fig. 2, the edge of the mounting side plate 222 is provided with a mounting portion 224, and the mounting member 220 is fixed to the housing 210 by the mounting portion 224, so that the display screen 230 is fixed in the space between the mounting member 220 and the housing 210 as shown in fig. 5.

Since the buffer members are disposed between the back and side surfaces of the display screen 230 and the mounting member 220, and between the front surface of the display screen 230 and the housing 210, when the display 200 is vibrated and impacted during the overturning process or when the display 200 is vibrated and impacted due to the use environment of the computer 10, the buffer members in the display 200 can buffer the acting force between the back surface of the display screen 230 and the mounting panel 221, the acting force between the side surface of the display screen 230 and the mounting side plate 222, and the acting force between the front surface of the display screen 230 and the housing 210, so that the buffer members play a role in damping the display screen 230.

As shown in fig. 3, the first buffer 2211 for buffering the force between the mounting panel 221 and the rear surface of the display screen 230 is provided in a plurality of strips, and is disposed at the peripheral edge of the mounting panel 221 at intervals, so that the first buffer 2211 can effectively buffer the force between the mounting panel 221 and the rear surface of the display screen 230. In some embodiments, the first buffer 2211 may be provided in a plane shape, and the first buffer 2211 may be provided to cover most or all of the area of the display screen 230, so that the number of the first buffers 2211 attached to the mounting panel 221 may be reduced, thereby reducing the attaching work time. It is to be understood that the first buffer member 2211 may be configured as a frame, for example, a "mouth" structure or a "U" structure, and the frame-shaped first buffer member 2211 has a larger size than the strip-shaped first buffer member 2211, so that the number of the first buffer members 2211 adhered to the mounting panel 221 can be reduced, thereby reducing the adhering time.

As shown in fig. 3 (the first direction Z is an upward direction), the first buffer 2211 is provided at the left, right, and lower edges of the mounting panel 221. In other embodiments, first buffers 2211 may be provided at edges of each side of mounting panel 221 such that first buffers 2211 may substantially buffer forces between mounting panel 221 and the back of display screen 230. The first buffer 2211 is disposed at an edge of the mounting panel 221, so that when the display screen 230 is received in the second receiving space 223 of the mounting member 220, the first buffer 2211 is disposed between the edge of the mounting panel 221 and an edge of a back surface of the display screen 230, so as to prevent the middle position of the display screen 230 from being affected by the extrusion of the first buffer 2211.

Referring to fig. 3, the second buffer 2221 for buffering the force between the mounting side plate 222 and the side surface of the display screen 230 is in a bar shape. The second buffer 2221 may be provided in plurality, and the plurality of second buffers 2221 may be provided on the left mounting side plate 222 and the right mounting side plate 222 (the second buffers 2221 on the right mounting side plate 222 are not shown in the drawing), and 1 second buffer 2221 may be provided on each side of the mounting side plate 222, or the plurality of second buffers 2221 may be provided at intervals. The second buffer 2221 may also be located at each side of the mounting side plate 222, so that the effect of the second buffer 2221 buffering the force of the force between the mounting side plate 222 and the side of the display screen 230 can be improved. It is understood that the second buffer 2221 may be provided in a planar shape.

The first buffer 2211 is adhered between the display screen 230 and the mounting panel 221, and the second buffer 2221 is adhered between the display screen 230 and the mounting side plate 222, in which the first buffer 2211 is adhered to the mounting panel 221 and the second buffer 2221 is adhered to the mounting side plate 222, and then the display screen 230 is placed in the mounting member 220. In other embodiments, the first buffer 2211 and the second buffer 2221 may be attached to the display screen 230, and then the display screen 230 may be placed in the mounting member 220. By attaching the first and second buffers 2211 and 2221 to the mounting member 220 or the display screen 230, the buffers are prevented from being displaced, facilitating installation. In other embodiments, the first buffer member 2211 and the second buffer member 2221 are disposed on the mounting panel 221 and the mounting side plate 222, respectively, in a non-adhesive manner, and then the display screen 230 is disposed in the mounting member 220, so that the first buffer member 2211 is adhered between the mounting panel 221 and the back surface of the display screen 230 and the second buffer member 2221 is adhered between the mounting side plate 222 and the side surface of the display screen 230.

The third buffer 211 may be provided in a frame shape as shown in fig. 2, and the frame-shaped third buffer 211 is attached to an edge of the case 210 and an edge of the display screen 230. In other embodiments, the third buffer member 211 may be disposed in a strip shape, and the plurality of third buffer members 211 are attached to the edge of the housing 210 and the edge of the display screen 230.

The third buffer 211 may be attached between the display 230 and the housing 210 by attaching the third buffer 211 to the housing 210 or the front surface of the display 230, and then fixing the mounting member 220 with the display 230 fixed to the housing 210, so that the front surface of the display 230 and the housing 210 press the third buffer 211. In other embodiments, the third buffer member 211 may be placed on the housing 210 in a non-adhesive manner, and then the mounting member 220 with the display screen 230 fixed thereon is fixed on the housing 210, so that the third buffer member 211 may be adhered between the front surface of the display screen 230 and the housing 210.

Referring to fig. 1 and 6, fig. 6 shows a schematic structural diagram of a gas spring 300 in a computer 10 according to an embodiment of the present application, the gas spring 300 may be extended or retracted, one end of the gas spring 300 is rotatably connected with a housing 210, and the other end of the gas spring 300 is rotatably connected with a host 100, so that the gas spring 300 may adjust a tilting angle of the display 200 and buffer the display 200.

According to the computer 10 provided by the embodiment of the application, the buffer piece is attached between the back of the display screen 230 and the mounting panel 221, between the side surface of the display screen 230 and the mounting side plate 222 and between the front of the display screen 230 and the shell 210, so that the buffer piece can buffer acting force between the display screen 230 and the mounting piece 220 and acting force between the display screen 230 and the shell 210 to play a damping role on the display screen 230, and the two ends of the air spring 300 are respectively connected to the display 200 and the shell 210 in a rotating manner, so that the air spring 300 can play a supporting and buffering role on the display 200, and therefore, when the display 200 is vibrated and impacted in the overturning process or when the display 200 is vibrated and impacted by the use environment of the computer 10, the display screen 230 in the display 200 can be prevented from flashing.

Referring to fig. 1, in an alternative embodiment, the main unit 100 has a left wall 120 and a right wall 130, an upper end 212 of the housing is rotatably connected to the left wall 120 and the right wall 130, and a first reinforcement member 140 is fixed between the left wall 120 and the right wall 130, and the first reinforcement member 140 is located at an upper end 150 of the main unit.

Specifically, referring to fig. 1, the upper end 212 of the housing is rotatably connected to the upper ends of the left wall 120 and the right wall 130 of the main unit 100 through a rotation shaft, two ends of the first reinforcement member 140 are fixed to the left wall 120 and the right wall 130 of the main unit 100 through threaded fasteners, and the first reinforcement member 140 is located at the upper end of the rotation shaft to shield the rotation shaft. The first reinforcement 140 is positioned at the upper end of the rotation shaft to shield the rotation shaft, improving the aesthetic appearance of the computer 10. The first reinforcement 140 is fixed to the left and right walls 120 and 130 of the main body 100 by screw fasteners, and the first reinforcement 140 is easily removed to repair or replace a rotation shaft connecting the housing 210 of the display 200 and the main body 100. In other embodiments, the first reinforcement 140 may also be secured to the left wall 120 and the right wall 130 of the host 100 by welding or fasteners. The first reinforcement 140 may also be located in the first receiving space 110.

The first reinforcement 140 may be plate-like, rod-like, etc. The plate-shaped first reinforcement 140 may reduce the thickness of the first reinforcement 140, thereby reducing the space occupied by the host 100 when the first reinforcement 140 is fixed to the left and right walls 120 and 130 of the host 100.

The first reinforcement member 140 is fixed between the left wall 120 and the right wall 130 of the main body 100, and thus, the first reinforcement member 140 plays a supporting role on the left wall 120 and the right wall 130 of the main body 100 when the computer 10 is vibrated and impacted, the structural strength of the main body 100 is reinforced, the vibration and impact degree of the main body 100 is reduced, and thus, the vibration and impact degree of the display 200 is reduced, and the display screen 230 is further prevented from flashing.

Referring to fig. 1, in an alternative embodiment, a second reinforcement 160 is further fixed between the left wall 120 and the right wall 130, the second reinforcement 160 is located at the lower end of the first reinforcement 140, and the second reinforcement 160 is used to support the lower end 213 of the housing when the display 200 is turned and received in the first receiving space 110.

Specifically, both ends of the second reinforcement 160 may be fixed to the left and right walls 120 and 130 of the main body 100 by welding or fasteners, which may be screw fasteners, snap fasteners. The second reinforcement 160 may be plate-like, rod-like, or the like. The plate-shaped second reinforcement 160 may reduce the thickness of the second reinforcement 160, thereby reducing the space occupied by the host 100 when the second reinforcement 160 is fixed to the left and right walls 120 and 130 of the host 100.

In the above manner, the second reinforcement 160 is fixed between the left wall 120 and the right wall 130 of the main body 100, so that the second reinforcement 160 supports the left wall 120 and the right wall 130 of the main body 100 when the computer 10 is vibrated and impacted, thereby reinforcing the structural strength of the main body 100, reducing the vibration and impact of the display 200, and further preventing the display screen 230 from flashing.

Referring to fig. 1, in an alternative embodiment, a fourth buffer member 161 is attached to the lower end 213 of the housing or the second reinforcement member 160, and the lower end 213 of the housing abuts against the second reinforcement member 160 through the fourth buffer member 161.

Specifically, the fourth buffer member 161 may be made of an elastic material such as foam or silica gel. The fourth buffer 161 may be fixed to the lower end 213 of the case of the display 200 or the second reinforcement 160 by being adhered. When the display 200 is turned over and accommodated in the first accommodating space 110, the lower end 213 of the housing of the display 200 is abutted against the second reinforcing member 160 through the fourth buffer member 161, so that the fourth buffer member 161 plays a role in buffering the housing 210, and reduces the vibration and impact degree of the housing 210, thereby reducing the vibration and impact degree of the display 230 and further preventing the display 230 from flashing.

Referring to fig. 1, in an alternative embodiment, a fifth buffer (not shown) is attached to the left wall 120 or the left end 214 of the housing, and the left end 214 of the housing abuts against the left wall 120 through the fifth buffer when the display 200 is flipped and received in the first receiving space 110. A sixth buffer member (not shown) is attached to the right wall 130 or the right end 215 of the housing, and the display 200 is abutted against the right wall 130 through the sixth buffer member when being received in the first receiving space 110 in a turned state.

Specifically, the material of the fifth buffer member may be an elastic material such as foam or silica gel. The fifth cushioning member may be affixed to the left wall 120 of the host 100 or the left end 214 of the housing by adhesive. The sixth cushioning member is arranged in the same manner as the fifth cushioning member.

When the display 200 is turned over and accommodated in the first accommodating space 110, the left end 214 and the right end 215 of the housing of the display 200 are respectively abutted against the left wall 120 and the right wall 130 of the host 100 through the buffer member, so that the buffer member plays a role in buffering the housing 210, and reduces the vibration and impact degree of the housing 210, thereby reducing the vibration and impact degree of the display screen 230.

Referring to fig. 1, in an alternative embodiment, a left protrusion (not shown) is formed on the left wall 120 and extends to the left, the left protrusion is used to support the left end 214 of the housing when the display 200 is received in the first receiving space 110 in a flipped manner, the fifth buffer is attached to the left protrusion or the left end 214 of the housing, and the left end 214 of the housing is abutted to the left protrusion through the fifth buffer. The right wall 130 extends rightward to form a right protruding portion 131, the right protruding portion 131 is used for supporting a right end 215 of the housing when the display 200 is turned over and accommodated in the first accommodating space 110, the sixth buffer is attached to the right protruding portion 131 or the right end 215 of the housing, and the right end 215 of the housing is abutted to the right protruding portion 131 through the sixth buffer.

Specifically, the right wall 130 may extend to the right side to form the right convex portion 131, and the right wall 130 and the right convex portion 131 may be integrally formed, or the right convex portion 131 may be fixed to the right side of the right wall 130 by welding, fastening, or the like. The foregoing integrated structure makes the overall structure more stable than the manner in which the independent right convex portion 131 is provided. The left wall may be extended to the left side to form a left convex portion in the same manner as the right wall 130 is extended to the right side to form a right convex portion 131.

When the display 200 is turned over and accommodated in the first accommodating space 110, the left end 214 and the right end 215 of the housing of the display 200 are abutted to the left wall 120 and the right wall 130 of the host 100 through the buffer member, so that the buffer member plays a role in buffering the housing 210, and the vibration and impact degree of the housing 210 are reduced, thereby reducing the vibration and impact degree of the display screen 230. The left protrusion extends to the left and the right protrusions 131 extend to the right and the right walls 120 and 130, so that the thicknesses of the left and the right walls 120 and 130 of the host 100 are moderate, the area of the housing 210 of the display 200, which is abutted to the host 100 by the buffer, is increased, and the force strength of the left and the right ends 214 and 215 of the housing to the left and the right walls 120 and 130 of the host 100 is reduced, so as to reduce the damage degree of the left and the right protrusions 131 caused by frequent abutting of the display 200.

In an alternative embodiment, a fixed frame (not shown) is fixed to an edge of the back surface of the display screen 230, and the first buffer 2211 is located between the edge of the mounting panel 221 and the fixed frame.

The fixing frame may be fixed to an edge of the display screen 230 by an adhesive or a fastener. The first buffering member 2211 is attached between the mounting panel 221 and the fixing frame, and can buffer acting force between the mounting panel 221 and the fixing frame, thereby playing a role in damping the display screen 230 and preventing the display screen 230 from flashing. Since the fixing frame is fixed to the edge of the rear surface of the display screen 230, the first buffer 2211 corresponds to the edge of the rear surface of the display screen 230, and it is possible to prevent the middle position of the display screen 230 from being affected by the extrusion of the first buffer 2211.

Referring to fig. 2, in an alternative embodiment, a tempered glass 240 is fixed between the housing 210 and the third buffer 211, and a seventh buffer 250 is attached between the tempered glass 240 and the housing 210.

Specifically, the seventh buffer 250 is double-sided tape, and the third buffer 211 is double-sided tape. During assembly, one surface of the tempered glass 240 is adhered and fixed to the housing 210 through the seventh buffer member 250, one surface of the third buffer member 211 with glue is adhered and fixed to the other surface of the tempered glass 240, and then the mounting member 220 fixed with the display screen 230 is fixedly connected with the housing 210, so that the third buffer member 211, the tempered glass 240 and the seventh buffer member 250 are fixed between the front surface of the display screen 230 and the housing 210, and the third buffer member 211 and the seventh buffer member 250 can buffer acting force between the front surface of the display screen 230 and the housing 210.

One surface of the tempered glass 240 is adhered and fixed to the case 210 by the seventh buffer 250 having double-sided tape, the tempered glass 240 is prevented from being displaced, and the third buffer 211 is prevented from being displaced by adhering and fixing the other surface of the tempered glass 240, so that when the mounting member 220 is fixed to the case 210, the display screen 230 is aligned with the position of the third buffer 211 to fix the third buffer 211, the tempered glass 240 and the seventh buffer 250 between the display screen 230 and the case 210. The other surface of the third buffer member 211 is not adhered, so that the display screen 230 can be detached from the housing 210 when the mounting member 220 and the housing 210 are detached, and thus the display screen 230 can be maintained or replaced.

It is understood that the third buffer member 211 and the seventh buffer member 250 may be provided with adhesive on one side, adhesive on both sides, or no adhesive on both sides, and that the third buffer member 211 and the seventh buffer member 250 can buffer the force between the display screen 230 and the housing 210. The seventh buffer 250 may be the same material and shape as the third buffer 211.

Since the tempered glass 240 has high strength, the tempered glass 240 is fixed between the case 210 and the third buffer 211, and the tempered glass 240 can reduce the risk of screen explosion due to impact of external force. Since the tempered glass 240 is fixed between the case 210 and the third buffer 211, that is, the tempered glass 240 isolates the display screen 230 from the outside, the tempered glass 240 can prevent the display screen 230 from bursting, and protect the display screen 230. By attaching the third buffer 211 between the tempered glass 240 and the display screen 230 and attaching the seventh buffer 250 between the tempered glass 240 and the case 210, the third buffer 211 and the seventh buffer 250 can buffer the force between the display screen 230 and the case 210.

Referring to fig. 2 and 5, in an alternative embodiment, the housing 210 includes a front case 216 and a rear case 217, and a third receiving space 218 is formed around the front case 216 and the rear case 217, and the display screen 230 and the mounting member 220 are received in the third receiving space 218.

Specifically, the front case 216 has one face, and the rear case 217 has a plurality of faces, so that the third accommodation space 218 is mainly located in the rear case 217. The front housing 216 has one face that facilitates the operation of securing the mounting member 220 to the front housing 216. In some embodiments, it is also possible that the rear housing 217 has one face and the front housing 216 has multiple faces such that the third receiving space 218 is located mainly within the front housing 216. It will be appreciated that the front housing 216 may also be multi-faceted as may the rear housing 217.

The display screen 230 and the mounting member 220 are accommodated in the third accommodating space 218 formed by enclosing the front case 216 and the rear case 217, so that dust can be reduced from entering the third accommodating space 218, and the display screen 230 is protected.

Referring to fig. 1, in an alternative embodiment, one end of the gas spring 300 is rotatably connected to a side wall of the rear housing 217, and the other end is rotatably connected to an inner wall of the first accommodating space 110, and the depth of the first accommodating space 110 is greater than or equal to that of the rear housing 217, so that the rear housing 217 is accommodated in the first accommodating space 110 after the display 200 is turned over and accommodated in the first accommodating space 110.

Specifically, the sidewall of the rear case 217 has a gap with the inner wall of the first receiving space 110 in the second direction Y, so that one end of the gas spring 300 can be connected to the sidewall of the rear case 217 and the other end can be connected to the inner wall of the first receiving space 110. As shown in fig. 1, the depth of the first receiving space 110 is the size of the first receiving space 110 along the third direction X, and the depth of the rear case 217 is the size of the rear case 217 along the second direction Y.

In this way, when the rear case 217 of the display 200 is received in the first receiving space 110, dust accumulation of the air spring 300 due to long-term exposure to the outside of the computer 10 can be prevented, so that the extension or retraction function of the air spring 300 is prevented from being affected by the dust accumulation, and the turning function of the display 200 is ensured.

In other embodiments, one end of the gas spring 300 may be rotatably connected to the back surface of the rear case 217, i.e., the surface of the rear case 217 facing the first receiving space 110. In other embodiments, one end of the gas spring 300 may also be attached to a side wall of the front housing 216. In other embodiments, the rear case 217 of the display 200 may be partially received in the first receiving space 110.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the embodiments, and are intended to be included within the scope of the claims and description. In particular, the technical features mentioned in the respective embodiments may be combined in any manner as long as there is no structural conflict. The present application is not limited to the specific embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

Claims (10)

1. The computer is characterized by comprising a host and a display, wherein the host is provided with a first accommodating space with an opening, the opening faces the display, one end of the display is rotationally connected with the host, so that the display is accommodated in the first accommodating space through the opening after being overturned, or the display is removed from the first accommodating space through the opening after being overturned;

the display comprises a shell, a mounting piece and a display screen, wherein the mounting piece comprises a mounting panel and a mounting side plate connected with the outer edge of the mounting panel, a second accommodating space is formed by enclosing the mounting panel and the mounting side plate, the display screen is accommodated in the second accommodating space, and the mounting piece is fixedly connected with the shell so as to fix the display screen between the mounting panel and the shell;

a first buffer piece is stuck between the display screen and the mounting panel, a second buffer piece is stuck between the display screen and the mounting side plate, and a third buffer piece is stuck between the display screen and the shell;

and a gas spring is further arranged between the shell and the host, one end of the gas spring is rotationally connected with the shell, and the other end of the gas spring is rotationally connected with the host.

2. The computer of claim 1, wherein the host has a left wall and a right wall, the upper end of the housing is rotatably connected to the left wall and the right wall, and a first reinforcement is fixed between the left wall and the right wall, and the first reinforcement is located at the upper end of the host.

3. The computer of claim 2, wherein a second reinforcement is further fixed between the left wall and the right wall, the second reinforcement being located at a lower end of the first reinforcement, the second reinforcement being for supporting a lower end of the housing when the display is received in the first receiving space in a flipped state.

4. A computer according to claim 3, wherein a fourth buffer member is attached to the lower end of the housing or the second reinforcement member, and the lower end of the housing abuts against the second reinforcement member through the fourth buffer member.

5. The computer according to claim 2, wherein a fifth buffer member is attached to the left wall or the left end of the housing, and the left end of the housing is abutted against the left wall through the fifth buffer member when the display is received in the first receiving space in a flipped state;

the right wall or the right end of the shell is stuck with a sixth buffer member, and the right end of the shell is abutted to the right wall through the sixth buffer member when the display is turned over and accommodated in the first accommodating space.

6. The computer according to claim 5, wherein the left wall is formed with a left protruding portion extending to the left side, the left protruding portion is used for supporting the left end of the housing when the display is received in the first receiving space in a turned manner, the fifth buffer member is attached to the left protruding portion or the left end of the housing, and the left end of the housing is abutted to the left protruding portion through the fifth buffer member;

the right wall extends to the right side to form a right protruding portion, the right protruding portion is used for supporting the right end of the shell when the display is turned over and accommodated in the first accommodating space, the sixth buffer piece is attached to the right protruding portion or the right end of the shell, and the right end of the shell is abutted to the right protruding portion through the sixth buffer piece.

7. The computer of claim 1, wherein a fixed frame is fixed to an edge of the back surface of the display screen, and the first buffer is located between an edge of the mounting panel and the fixed frame.

8. The computer of claim 1, wherein tempered glass is fixed between the housing and the third buffer member, and a seventh buffer member is attached between the tempered glass and the housing.

9. The computer according to claim 1, wherein the housing includes a front case and a rear case, the front case and the rear case enclosing to form a third accommodation space, and the display screen and the mount are accommodated in the third accommodation space.

10. The computer of claim 9, wherein one end of the gas spring is rotatably connected to a side wall of the rear case, and the other end is rotatably connected to an inner wall of the first receiving space, and a depth of the first receiving space is greater than or equal to a depth of the rear case.