CN218514665U - Anti-touch device and server equipment - Google Patents

Abstract

The utility model provides an anti-touch device and server equipment, the anti-touch device comprises a fixed component, a rotating component and a shielding component, the fixed component comprises a fixed part, an elastic part and a connecting part, the fixed part is connected with the server, a cavity is arranged in the fixed part, the elastic part and the connecting part are both positioned in the cavity, and the elastic part is connected between the connecting part and the cavity wall of the cavity; part of the rotating part is arranged in the cavity in a penetrating mode and connected with the connecting piece, and the shielding piece is connected with the rotating part and located outside the fixing piece; the shield is configured to shield the power switch button of the server in a shielding position, and expose the power switch button in an open position; rotating to the in-process of opening the position by sheltering from the position, the shielding part is configured to drive the connecting piece and removes towards the elastic component in the cavity to compress the elastic component, the utility model provides a prevent touching device can avoid touching switch button when server routine maintenance.

Description

Anti-touch device and server equipment

Technical Field

The utility model relates to a server technical field, in particular to prevent touching device and server equipment.

Background

With the continuous development of data centers, the number of devices in the data centers is also continuously increased, and the daily operation and maintenance work is heavier and heavier.

Servers are the core of the equipment department, and the number of the servers in the data center is huge. In daily operations such as configuration and maintenance of servers, servers in fixed positions need to be marked by people according to indicator lights so as to find needed equipment in a plurality of servers.

However, since the power switch button of the server is close to the indicator light, the server may be accidentally turned off due to the fact that the power switch button is touched when the indicator light is turned on, and the server is damaged or even normal operation of the service is affected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a prevent touching device and server equipment when not influencing power switch button's on the server normal use, can shelter from the power switch button on the server to avoid touching power switch button when server routine maintenance.

The utility model provides a first aspect provides an anti-touch device, is applied to the server, and anti-touch device includes fixed subassembly, rotation piece and shielding piece, fixed subassembly includes mounting, elastic component and connecting piece, the mounting is connected in the server, there is the cavity in the mounting, elastic component and connecting piece all are located in the cavity, the elastic component is connected in the connecting piece with between the cavity wall of cavity;

part of the rotating part is arranged in the cavity in a penetrating mode and connected with the connecting piece, and the shielding piece is connected with the rotating part and located outside the fixed part; the shutter is configured to shutter on a power switch button of the server in a shutter position, the power switch button being exposed in an open position; in the process of rotating from the shielding position to the opening position, the shielding piece is configured to drive the connecting piece to move towards the elastic piece in the cavity so as to compress the elastic piece.

In some optional embodiments, the surface of the connecting member connected to the elastic member is a plane.

In some alternative embodiments, the connecting member is a baffle attached to a side of the rotating member.

In some optional embodiments, one end of the elastic member abuts against the baffle, and the other end of the elastic member is bent towards the side of the cavity where the baffle is located and abuts against the cavity wall of the cavity.

In some alternative embodiments, the shutter rotates to the open position after rotating a preset angle from the shielding position; when the shielding piece is located at the opening position, the rotating piece is abutted to the fixing piece.

In some optional embodiments, the fixed part has a fixed plate connected to the server, an end of the rotating part is inserted into the cavity and is disposed to abut against the fixed plate, the rotating part has an abutting surface along its axial direction, and the connecting part is located on a side of the rotating part facing away from the abutting surface;

when the rotating part is located at the shielding position, the abutting surface and the fixed plate are arranged at the preset angle, and when the rotating part is located at the opening position, the abutting surface is parallel to and abutted against the fixed plate.

In some optional embodiments, the preset angle is 90 degrees, the rotation member is a quarter cylinder, and the abutment surface is a cross section of the quarter cylinder in the axial direction;

the fixing piece is a semi-elliptical cylinder, and the fixing plate is a cross-sectional plate of the semi-elliptical cylinder in the axial direction.

In some alternative embodiments, the shielding element is located at one end of the rotating element away from the fixed element, and is detachably connected or integrally connected with one axial side of the rotating element.

In some optional embodiments, the shielding member is a transparent baffle plate, and the size of the transparent baffle plate is larger than or equal to that of the power switch button.

The utility model discloses the second aspect provides a server equipment, server equipment include the server and as above any prevent touching the device, prevent touching the mounting of device connect in the server, prevent that touching the shielding piece of device shelters from on the switch button of server.

The utility model provides a touch-proof device and server equipment, through the setting of the fixed subassembly in the touch-proof device, because the fixed subassembly includes mounting, elastic component and connecting piece are all located the cavity of mounting, and the elastic component is connected between the cavity wall of connecting piece and cavity, makes the elastic component elastic connection between connecting piece and cavity wall; on the basis, as part of the structure of the rotating part penetrates through the cavity and is connected with the connecting part, the shielding part is connected with the rotating part, so that the shielding part and the rotating part are fixed on the fixing part; and, the shielding piece is configured to shield the outside of the power switch button of the server at the shielding position, the power switch button is exposed at the opening position, in the process of rotating to the opening position from the shielding position, the shielding piece is configured to drive the connecting piece to move towards the elastic piece in the cavity, so as to compress the elastic piece, when the server is subjected to daily maintenance, the shielding piece can shield the outside of the power switch button at the shielding position, so as to avoid the situation that a worker touches the power switch button, so that the server is accidentally closed, the server is damaged, and the normal operation of a service is influenced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of a touch panel according to an embodiment of the present invention;

fig. 2 is an assembly diagram of a touch screen device on a server in a blocking position according to an embodiment of the present invention;

fig. 3 is an assembly diagram of a touch screen device on a server in an open position according to an embodiment of the present invention;

FIG. 4 is a schematic view of the internal construction of the fixing assembly with the shield in the shielding position;

figure 5 is a schematic view of the internal construction of the fixing assembly with the shield in the open position.

Description of reference numerals:

100-anti-touch devices;

1-a stationary component;

11-a fixing member;

111-a cavity;

112-a fixing plate;

113-a bottom wall;

1131, perforating holes;

12-a connector;

13-an elastic member;

2-a rotating member;

21-an abutment surface;

22-end portion;

3-a shield;

4-a fastener;

200-a server;

210-power switch button;

220-indicator light.

Detailed Description

As described in the background, servers are the core of the facility department, and there are enormous numbers in data centers. In daily operations such as configuration or maintenance of servers, a large number of servers may need to be configured in batches, and in order to quickly and accurately find a server needing to be configured from a large number of servers, a User Identification (UID) indicator lamp on the server needs to be manually turned on, and the server at a fixed position is marked through the UID indicator lamp, so that a needed device can be found from the large number of servers, and convenience is brought to configuration of the server.

However, since the power switch button on the server and the UID indicator lamp are close to each other, there is a strong possibility that the server in operation is accidentally turned off due to the power switch button being touched by a human operator in daily maintenance of the server, which may cause damage to the server and even may affect the service.

In addition, in the daily operations such as moving and putting on shelves of the servers, the servers may touch the power switch button on the server due to the too close distance between the servers. Moreover, when the worker is on duty, the server alarm may need to be processed in time in the middle of the night, and when the worker on duty finds the corresponding fault server and marks the fault server, the worker on duty may touch the power switch button due to poor mental state and other conditions, which may have serious consequences.

For reducing because the human factor touches switch button, cause the influence to the server, this patent has proposed a touch-proof device, be applied to the server, when not influencing switch button on the server's normal use, can shelter from switch button on the server, in order to avoid touching switch button when server routine maintenance, thereby the effectual switch button of having avoided because of touching, and the server that leads to in work is unexpected to be closed, cause the harm to the server, influence the normal operating etc. of business.

The structure of the touch screen device of the present invention will be further explained with reference to the drawings and the embodiments.

Fig. 1 illustrates a schematic structural view of a touch preventing device, fig. 2 illustrates an assembly view of the touch preventing device on a server in a shielding position, fig. 3 illustrates an assembly view of the touch preventing device on the server in an open position, and fig. 4 illustrates an internal structural view of a fixing assembly when a shielding member is in a shielding position.

Referring to fig. 1 to 4, the touch preventing apparatus 100 includes a fixing assembly 1, a rotating member 2, and a shutter 3, and the fixing assembly 1 includes a fixing member 11, an elastic member 13, and a connecting member 12. The fixed member 11 is connected to the server 200, the fixed member 11 has a cavity 111 therein, the elastic element 13 and the connecting element 12 are both located in the cavity 111, and the elastic element 13 is connected between the connecting element 12 and a cavity wall (not shown in the figures) of the cavity 111.

The elastic member 13 may be a spring, or in some embodiments, the elastic member 13 may also be another elastic structure such as silicone rubber. That is, the elastic member 13 may include, but is not limited to, a spring.

With continued reference to fig. 1 to 4, a part of the structure of the rotating member 2 is inserted into the cavity 111 and connected to the connecting member 12, and the shielding member 3 is connected to the rotating member 2 and located outside the fixing member 11. The shutter 3 is configured to shutter on the power switch button 210 of the server 200 in a shutter position, and to expose the power switch button 210 in an open position; during the rotation from the shielding position to the open position, the shielding member 3 is configured to bring the connecting member 12 to move toward the elastic member 13 within the cavity 111 to compress the elastic member 13. Among them, the positional relationship of the shutter 3 with respect to the power switch button 210 at the shielding position can be referred to as shown in fig. 2, and the positional relationship of the shutter 3 with respect to the power switch button 210 at the opening position can be referred to as shown in fig. 3.

The utility model discloses a setting of fixed subassembly 1 in touch-proof device 100, because fixed subassembly 1 includes mounting 11, elastic component 13 and connecting piece 12 all are located mounting 11's cavity 111, and elastic component 13 is connected between connecting piece 12 and cavity wall for elastic component 13 elastic connection is between connecting piece 12 and cavity wall.

On the basis, as part of the structure of the rotating part 2 is arranged in the cavity 111 in a penetrating way and is connected with the connecting part 12, when the end part 22 of the rotating part 2 is arranged in the cavity 111 in a penetrating way, the assembly of the rotating part 2 in the cavity 111 of the fixing part 11 can be realized through the connecting part 12. Since the blinder 3 is connected to the rotating member 2 so as to realize the fixation of the blinder 3 to the rotating member 2 and the fixing member 11, the blinder 3 and the rotating member 2 are assembled to the server 200 through the fixing member 11.

Moreover, the shielding member 3 is configured to shield the power switch button 210 of the server 200 at a shielding position, and expose the power switch button 210 at an opening position, so that when the power switch button 210 is not needed to be used or when the server 200 is subjected to routine maintenance, for example, when the UID indicating lamp 220 is manually turned on, the shielding member 3 can shield the power switch button 210, so as to avoid that when the UID indicating lamp 220 is manually turned on, a worker accidentally touches the power switch button 210, which causes the server 200 to be accidentally turned off, which damages the server 200 and affects the normal operation of a service. Accordingly, when the worker needs to operate the power switch button 210, the shutter 3 may be moved to the open position by rotating the shutter 3 or rotating the rotating member 2, etc., to expose the power switch button 210, thereby facilitating the worker's operation on the power switch button 210.

Therefore, the utility model discloses a setting of shielding piece 3, when not influencing power on-off button 210's normal use on server 200, can shelter from power on-off button 210 on server 200, in order to avoid touching power on-off button 210 when server 200 routine maintenance (for example, the manual operation such as manual work is lighted UID pilot lamp 220, server 200 moves, go up the shelf), thereby effectually avoided because of touching power on-off button 210, and the server 200 accident that leads to being worked is closed, cause the harm to server 200, influence the normal operating etc. of business.

It should be noted that, since the shielding member 3 and the connecting member 12 are both connected to the rotating member 2, and the elastic member 13 is elastically connected between the connecting member 12 and the inner wall of the fixing member 11, in the process of rotating from the shielding position to the opening position, the shielding member 3 can be configured to drive the connecting member 12 to move towards the elastic member 13 in the cavity 111, so as to compress the elastic member 13, so that the elastic member 13 is elastically deformed.

After the worker finishes the operation on the power switch button 210 at the open position, under the action of the elastic element 13 (e.g., the resilience of the elastic element 13), the connecting element 12 is driven to move in the cavity 111 in a direction away from the elastic element 13 (e.g., rotate around the axial direction of the rotating element 2), and since the shielding element 3 is connected to the connecting element 12 through the rotating element 2, during the movement of the connecting element 12, the connecting element 12 will also drive the rotating element 2 to rotate synchronously, so that the shielding element 3 is driven by the rotating element 2 to automatically rotate from the open position to the shielding position, and after the worker finishes the operation on the power switch button 210, the shielding element 3 is manually rotated to the shielding position, which can improve the protection effect of the anti-touch device 100.

The fixing member 11 may be fixed to the server 200 near the power switch button 210 by means of adhesion, fastening by a fastening member 4, or the like. The present invention is not further limited to the connection mode of the fixing member 11 to the server 200.

Continuing to refer to fig. 2 and 3, shielding piece 3 can be a transparent baffle, and the size of the transparent baffle can be greater than or equal to that of power switch button 210, so that power switch button 210 can be shielded through the transparent baffle, and when power switch button 210 is protected, the state of power switch button 210 can be observed by an operator conveniently.

The shape of transparent baffle can be with switch button 210's structure looks adaptation to when the realization is effectively sheltered from to switch, can reduce the size of transparent baffle. The power switch button 210 may be cylindrical or other shapes. Taking a cylindrical shape as an example, the transparent baffle may be a circular baffle adapted to the structure of the power switch button 210, and the diameter of the circular baffle may be larger than the outer diameter of the power switch button 210.

Alternatively, in some embodiments, and with continued reference to FIG. 2, the transparent barrier may also be configured differently than the power switch button 210. Taking the shape of the power switch button 210 as a cylinder as an example, the shape of the transparent baffle may be a polygon or an ellipse, etc., wherein the polygon may include but is not limited to a quadrangle (such as a rectangle). Taking the rectangle as an example, and continuing with FIG. 2, the length L and width w of the transparent barrier can each be greater than the outer diameter of the power switch button 210. Here, the length L of the transparent shield may be understood as a length of the transparent shield in the axial direction of the rotation member 2.

The shielding member 3 can be made of a transparent material in the prior art to form a transparent baffle. In the present application, the transparent material forming the transparent barrier is not further limited.

With continued reference to fig. 1 to 3, in some embodiments, the shielding member 3 may be located at an end of the rotating member 2 away from the fixing member 11 and detachably connected or integrally connected to one axial side of the rotating member 2, so that the shielding member 3 can be located outside the fixing member 11 while the shielding member 3 is assembled in the fixing member 11 through the rotating member 2, thereby shielding the power switch button 210 and achieving the touch prevention effect on the power switch button 210.

Wherein the shielding member 3 can be detachably connected to one side of the rotation member 2 in the axial direction by a fastening member 4. Illustratively, the fastener 4 may include, but is not limited to, a bolt or screw, etc.

Referring to fig. 4, the surface of the connecting member 12 connected to the elastic member 13 may be a plane, so as to increase the contact area between the elastic member 13 and the connecting member 12, and enhance the abutting effect of the elastic member 13 on the connecting member 12, so as to prevent the elastic member 13 from being excessively deformed toward one side of the elastic member 13 under the action of the connecting member 12, which affects the service life of the elastic member 13 and the effect of the shielding member 3 automatically rotating from the open position to the shielding position.

Wherein the coupling member 12 may be a baffle plate coupled to one side of the rotation member 2 so that the structure of the coupling member 12 can be simplified while compressing the elastic member 13 when the rotation member 2 is assembled in the fixing member 11. Alternatively, in some embodiments, the connector 12 may be other structures having a flat surface. That is, the connector 12 may include, but is not limited to, a baffle. In the present application, the structure of the connecting member 12 is not further limited.

Continuing to refer to fig. 4, one end of the elastic element 13 abuts against the baffle, and the other end bends toward the side where the baffle is located in the cavity 111 and abuts against the cavity wall of the cavity 111, so that when the elastic element 13 is connected between the connecting element 12 and the cavity wall, and the shielding element 3 rotates from the shielding position to the opening position, the connecting element 12 can compress the elastic element 13, so that after the operation of the worker on the power switch button 210 is finished, the shielding element 3 can automatically rotate from the opening position to the shielding position under the action of the elastic element 13, and the protection of the power switch button 210 is realized.

The arrangement of the elastic member 13 (e.g., a spring) in the cavity 111 illustrated in fig. 4 is not limited to the arrangement of the elastic member 13.

Figure 5 shows a schematic view of the internal structure of the fixing assembly with the shield in the open position. The relative positions of the rotary member 2 and the connecting member 12 within the cavity 111 and the fixed member 11 are only illustrated in figure 5 in the open position, it being understood that in the open position the resilient member 13 is compressed by the movement of the connecting member 12.

Referring to fig. 2 to 5, the shutter 3 rotates to the open position after rotating a predetermined angle from the blocking position. When the shutter 3 is located at the open position, the rotating member 2 abuts against the fixed member 11 to restrict the position of the rotating member 2 relative to the fixed member 11. Therefore, the rotating part 2 abuts against the fixed part 11, so that the rotating part 2 is limited from continuously rotating in the fixed part 11, the position of the rotating part 2 relative to the fixed part 11 is limited, the elastic part 13 in the fixed part 11 can be protected from being always kept in an elastic deformation range while the operation of a worker on the power switch button 210 is not hindered, the failure rate of the elastic part 13 is reduced, and the anti-touch device 100 has longer service life.

With continued reference to fig. 4 and 5, the fixed component 11 has a fixed plate 112 connected to the server 200, the end 22 of the rotating component 2 is inserted into the cavity 111 and is disposed to abut against the fixed plate 112, the rotating component 2 has an abutting surface 21 along its axial direction, and the connecting component 12 is located on the side of the rotating component 2 away from the abutting surface 21, so that the connecting component 12 is connected to the elastic component 13 without affecting the abutting between the abutting surface 21 and the fixed plate 112.

The inner wall of the fixing member 11 includes a side of the fixing plate 112 facing the cavity 111, one end of the elastic member 13 abuts against the connecting member 12, and the other end abuts against the side of the fixing plate 112 facing the cavity 111.

As shown in fig. 4, when the rotating member 2 is located at the shielding position, the abutting surface 21 and the fixing plate 112 are arranged at a predetermined angle, and as shown in fig. 5, when the rotating member 2 is located at the opening position, the abutting surface 21 is parallel to and abuts against the fixing plate 112. Like this when sheltering from the position, because butt face 21 is the angle setting of predetermineeing with fixed plate 112, make shielding piece 3 in having the in-process that shelters from the position and rotate to the open position, can drive the butt face 21 synchronous rotation that rotates piece 2, so that when shielding piece 3 rotates to predetermineeing the angle and is located the open position, butt face 21 can be parallel and butt in fixed plate 112, thereby it rotates 2's continuation to restrict through fixed plate 112, and then restriction shielding piece 3's continuation rotates, so that when not hindering the staff and operating on switch 210, can also protect elastic component 13 in mounting 11 to remain throughout in elastic deformation's within range.

Because the end 22 of the rotating part 2 is inserted into the cavity 111, the fixing part 11 can be connected to the end 22 of the rotating part 2, so that the space on the server 200 can be reasonably utilized to fix the fixing part 11 on the server 200 while the layout of devices on the surface of the server 200 is not affected, and thus the fixing of the anti-touch device 100 on the server 200 is realized.

Alternatively, in some embodiments, the middle portion of the rotating member 2 may be inserted into the cavity 111, that is, the fixing member 11 may be connected to the middle portion of the rotating member 2. In the present embodiment, the positional relationship of the fixed member 11 with respect to the rotating member 2 is not further limited.

The structure of the anti-touch device 100 of the present invention will be further described below by taking the case that the end 22 of the rotating member 2 is inserted into the cavity 111.

Referring to fig. 4 and 5, in some embodiments, the preset angle may be 90 degrees, the rotation member 2 may be a quarter cylinder, and the abutment surface 21 may be a section in the axial direction of the quarter cylinder. The fixing member 11 may be a semi-elliptical cylinder, and the fixing plate 112 is a sectional plate in the axial direction of the semi-elliptical cylinder. In this way, in the process that the shielding piece 3 rotates 90 degrees from the shielding position to the opening position, the rotating piece 2 rotates synchronously with the shielding piece 3, and the abutting surface 21 also rotates 90 degrees from the initial position to the position parallel to and abutting against the fixed plate 112 along with the rotating piece 2, so that the elastic piece 13 can be compressed while the shielding piece 3 and the rotating piece 2 are limited to continue rotating, and the elastic piece 13 is protected to be always kept in the range of elastic deformation.

The initial position can be understood as a position in which the abutment surface 21 illustrated in fig. 4 is disposed at a predetermined angle to the fixing plate 112.

A quarter cylinder is understood to mean a quarter of a cylinder in the axial direction of the cylinder itself, i.e. the axial cross section of the quarter cylinder is a sector with a central angle of 90 degrees. The semi-elliptic cylinder can be understood as a half part of the elliptic cylinder in the axial direction of the semi-elliptic cylinder, and the axial section of the semi-elliptic cylinder corresponds to an arc with a central angle of 180 degrees. At this time, the fixing member 11 may be referred to as a fixing cap. In some embodiments, the retaining cap may also be a fully or partially transparent structure to facilitate viewing of the structure inside the retaining cap.

Wherein, the bottom wall 113 of the fixed member 11 is further provided with a through hole 1131 communicated with the cavity 111, and the end 22 of the rotating member 2 can pass through the through hole 1131, penetrate through the cavity 111, and is connected to the connecting member 12.

In order to limit the rotation of the rotating member 2 in the fixed member 11, in other embodiments, the through hole 1131 may be a semicircular hole, and the diameter of the semicircular hole may be larger than the radius of the quarter cylinder, so as to allow the end 22 of the rotating member 2 to pass through the through hole 1131 and be located in the cavity 111 while limiting the further rotation of the rotating member 2 in the cavity 111.

It should be noted that in some embodiments, the preset angle may be other angles, such as 70 degrees, 80 degrees, etc., which can expose the power switch button 210 for the convenience of the worker. When the preset angle is other angles, the number of the rotating member 2 in the axial area of the cylinder can be adjusted accordingly, so that when the shielding member 3 rotates to the preset angle and is located at the opening position, the abutting surface 21 can be parallel to and abutted against the fixed plate 112. Here, the preset angle is not further limited.

In some embodiments, other limiting structures, such as a limiting post, etc., may be disposed on the inner wall of the fixing member 11, so that the rotating member 2 can abut against the limiting post during the rotation from the shielding position to the opening position, thereby limiting the rotation of the rotating member 2 and the shielding member 3.

The fixing plate 112 may be fixed to the server 200 by foam glue or the like, so as to fix the fixing member 11 and the touch-proof device 100 to the server 200. The foam adhesive may include, but is not limited to, polyacrylate.

On the basis, the embodiment of the present invention further provides a server device, the server device may include the server 200 and the touch-preventing device 100 of any one of the above, the fixing member 11 of the touch-preventing device 100 is connected to the server 200, and the shielding member 3 of the touch-preventing device 100 is shielded on the power switch button 210 of the server 200.

The fixing member 11 may be fixed to the server 200 through the fixing plate 112, and the fixing of the fixing plate 112 to the server 200 may refer to the description in the foregoing, which is not further limited herein.

It should be noted that the utility model discloses a shelter from piece 3 of preventing touching device 100 shelters from on the switch of power button 210 of server 200, can avoid the staff when need not to operate on switch of power button 210, touch on switch of power button 210, lead to server 200 accident to close, cause the harm to server 200, influence the normal operating of business, and after the operation of staff on the switch of opening the position end switch of power button 210, under the effect of elastic component 13, connecting piece 12 can rotate to sheltering from the position by opening the position automatically through rotating 2 drive shelter from piece 3, promote the guard action who prevents touching device 100.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "comprises" and "comprising," and any variations thereof, as used herein, are intended to cover a non-exclusive inclusion, such that a process, method, display structure, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral to one another; either directly or indirectly through intervening media, such as through internal communication or through an interaction between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate a number of the indicated technical features.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The anti-touch device is applied to a server and is characterized by comprising a fixing component, a rotating component and a shielding component, wherein the fixing component comprises a fixing component, an elastic component and a connecting component;

part of the structure of the rotating part penetrates through the cavity and is connected with the connecting part, and the shielding part is connected with the rotating part and is positioned outside the fixed part; the shutter is configured to shutter on a power switch button of the server in a shutter position, the power switch button being exposed in an open position; in the process of rotating from the shielding position to the opening position, the shielding piece is configured to drive the connecting piece to move towards the elastic piece in the cavity so as to compress the elastic piece.

2. The touch screen of claim 1, wherein the face of the connecting member that connects to the resilient member is planar.

3. The touch screen apparatus of claim 2, wherein the connecting member is a stop plate connected to one side of the rotatable member.

4. The touch screen of claim 3, wherein one end of the elastic member abuts against the baffle plate, and the other end of the elastic member is bent toward the side of the cavity where the baffle plate is located and abuts against the wall of the cavity.

5. The touch screen apparatus according to claim 1, wherein the shutter rotates from the shielding position to the open position after rotating a predetermined angle; when the shielding piece is located at the opening position, the rotating piece is abutted to the fixing piece.

6. The touch preventing device according to claim 5, wherein the fixing member has a fixing plate connected to the server, the rotating member has an end portion penetrating through the cavity and disposed to abut against the fixing plate, the rotating member has an abutting surface along its axial direction, and the connecting member is located on a side of the rotating member facing away from the abutting surface;

when the rotating part is located at the shielding position, the abutting surface and the fixed plate are arranged at the preset angle, and when the rotating part is located at the opening position, the abutting surface is parallel to the fixed plate and abuts against the fixed plate.

7. The touch screen of claim 6, wherein the predetermined angle is 90 degrees, the rotation member is a quarter cylinder, and the abutment surface is a cross section in the axial direction of the quarter cylinder;

the fixing piece is a semi-elliptical cylinder, and the fixing plate is a section plate of the semi-elliptical cylinder in the axial direction.

8. The touch screen apparatus according to any one of claims 1 to 7, wherein the shielding member is located at an end of the rotating member remote from the fixed member and is detachably or integrally connected to one side of the rotating member in the axial direction.

9. Touch screen as claimed in any of claims 1 to 7, characterized in that the shield is a transparent baffle, the size of which is greater than or equal to the size of the power switch button.

10. A server apparatus, comprising a server and the touch-proof device according to any one of claims 1 to 9, wherein a fixing member of the touch-proof device is connected to the server, and a shielding member of the touch-proof device is shielded on a power switch button of the server.

Images