CN219916272U - Electronic equipment spare part and electronic equipment - Google Patents

Abstract

The embodiment of the utility model discloses an electronic equipment part and electronic equipment, relates to the technical field of electronic equipment, and solves the problem that the electronic equipment part is difficult to disassemble. The electronic equipment part provided by the embodiment of the utility model comprises a body and a dismounting structure. The body is spliced or abutted to the mounting position of the part on the electronic equipment, the dismounting structure comprises a rotating piece and a rotating shaft, the rotating piece comprises an input end and an output end, the rotating shaft is fixedly connected to the body, the rotating piece can rotate around the rotating shaft, and an included angle is formed between the axial direction of the rotating shaft and the splicing direction or the abutting direction of the body. When the rotating piece rotates around the rotating shaft, the output end can be propped against the installation position, so that the rotating shaft is far away from the installation position, and the rotating shaft drives the body to be far away from the installation position.

Description

Electronic equipment spare part and electronic equipment

Technical Field

The embodiment of the utility model relates to the technical field of electronic equipment, in particular to an electronic equipment part and electronic equipment.

Background

The electronic equipment parts are installed on the electronic equipment in various modes, such as a memory or a display card of a computer is installed on a main board of the computer in a plugging installation mode, the memory or the display card and the main board can be kept relatively fixed by setting a pretightening force, and at the moment, the problem that the memory or the display card is difficult to disassemble due to overlarge pretightening force; in addition, for some heat dissipating devices, in order to improve the contact between the heat dissipating device and the heating element, a heat conducting adhesive is further arranged between the heat dissipating device and the heating element, and the heat conducting adhesive has certain adhesion, so that the problem that the heat dissipating device is difficult to detach can occur.

Disclosure of Invention

In view of this, the embodiment of the utility model provides an electronic device component and an electronic device.

The technical scheme of the embodiment of the utility model is realized as follows:

in a first aspect, an embodiment of the present utility model provides an electronic device component, including a body and a detachment structure. The body is spliced or abutted to the mounting position of the parts on the electronic equipment; the disassembly structure comprises a rotating member and a rotating shaft, wherein the rotating member comprises an input end and an output end. The rotating shaft is fixedly connected to the body, the rotating piece can rotate around the rotating shaft, and an included angle is formed between the axial direction of the rotating shaft and the inserting direction or the abutting direction of the body. When the rotating piece rotates around the rotating shaft, the output end can be propped against the installation position, so that the rotating shaft is far away from the installation position, and the rotating shaft drives the body to be far away from the installation position.

According to the electronic equipment component provided by the embodiment of the utility model, the disassembly structure is arranged on the electronic equipment component, so that the electronic equipment component can be conveniently disassembled from the installation position of the electronic equipment component by operating the rotating part of the disassembly structure, and the disassembly of the electronic equipment component is more convenient. Besides, the electronic equipment parts can be disassembled without other tools, and meanwhile, the force of the input end of the control operation rotating piece is easy to separate gradually from the mounting position of the electronic equipment parts, so that the electronic equipment parts are protected, and the electronic equipment parts are prevented from being damaged.

In one possible implementation of the utility model, the rotation shaft is arranged between the input end and the output end, and when the input end rotates in a direction away from the installation position, the output end abuts against the installation position, so that the rotation shaft is away from the installation position, and the rotation shaft drives the body to be away from the installation position.

In one possible implementation manner of the present utility model, the rotation shaft is disposed on a side of the output end away from the input end, and when the input end rotates in a direction approaching to the installation position, the output end abuts against the installation position, so that the rotation shaft is away from the installation position, and the rotation shaft drives the body to be away from the installation position.

In one possible implementation of the present utility model, the rotating member is a plate-like structure, and the plate-like structure is disposed on a side surface of the body, and an extending direction of the plate-like structure is parallel to an extending direction of the side surface of the body.

In one possible embodiment of the utility model, the output end is provided with a first projection near the edge of the mounting location, the direction of extension of the first projection being parallel to the direction of extension of the mounting location.

In one possible implementation of the utility model, the first protrusion is disposed towards the body, and at least part of the first protrusion may abut against a bottom surface of the body, the input end is disposed with a second protrusion towards the body, and at least part of the second protrusion may abut against the body, the first protrusion and the second protrusion being for fixing the rotary member; and when the rotating shaft is arranged between the input end and the output end, the second convex part is positioned at one side of the input end close to the installation position; when the rotary shaft is disposed on a side of the output end away from the input end, the second protrusion is located on a side of the input end away from the mounting position.

In one possible implementation of the present utility model, the rotating member is deformable in a direction away from the body, and the second protrusion is disengaged from the body when the rotating member is deformed in a direction away from the body.

In one possible embodiment of the utility model, the input end is provided with an extension which is angled with respect to the direction of rotation of the rotary part.

In one possible implementation of the utility model, the distance between the input end and the rotation axis is greater than the distance between the output end and the rotation axis.

In a second aspect, an embodiment of the present utility model provides an electronic device, where the electronic device includes the electronic device part provided in the first aspect and a mounting base of the electronic device part, where a mounting position of the electronic device part is provided on the mounting base, and a body of the electronic device part is plugged into or abutted against the mounting position of the electronic device part.

The electronic equipment provided by the embodiment of the utility model comprises the electronic equipment parts provided by the first aspect, so that the electronic equipment has the same technical effects that the electronic equipment parts are convenient to detach, the electronic equipment parts can be detached without other tools, the force of the input end of the operation rotating part is easy to control, the installation positions of the electronic equipment parts and the electronic equipment parts are gradually separated, the protection effect on the electronic equipment parts is also realized, and the electronic equipment parts are prevented from being damaged.

Drawings

FIG. 1 is an exemplary diagram of a disassembly structure provided by an embodiment of the present utility model;

FIG. 2 is an exemplary view of another disassembly structure provided by an embodiment of the present utility model;

fig. 3 is an exemplary diagram of components of an electronic device according to an embodiment of the present utility model;

fig. 4 is a second exemplary diagram of components of an electronic device according to an embodiment of the present utility model;

fig. 5 is an exploded view of components of an electronic device according to an embodiment of the present utility model;

fig. 6 is a schematic enlarged partial view of an input end of a rotating member of a component part of an electronic device according to an embodiment of the present utility model;

fig. 7 is a schematic enlarged partial view of an output end of a rotating member of a component part of an electronic device according to an embodiment of the present utility model.

Reference numerals:

01-mounting position of electronic equipment parts; 1-a body of an electronic device component; 11-a fixed block; 111-connecting holes; 2-a disassembly structure; 21-a rotating member; 211-input terminal; 2111-a second protrusion; 2112-extension; 212-an output; 2121-first protrusions; 22-a rotation axis; 221-fasteners.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the specific technical solutions of the present utility model will be described in further detail below with reference to the accompanying drawings in the embodiments of the present utility model. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In embodiments of the present utility model, 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 implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the embodiments of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Furthermore, in the embodiments of the present utility model, the terms "upper," "lower," "left," and "right," etc., are defined with respect to the orientation in which the components in the drawings are schematically disposed, and it should be understood that these directional terms are relative terms, which are used for descriptive and clarity with respect to each other, and which may vary accordingly with respect to the orientation in which the components in the drawings are disposed.

In embodiments of the present utility model, unless explicitly specified and limited otherwise, the term "coupled" is to be construed broadly, and for example, "coupled" may be either fixedly coupled, detachably coupled, or integrally formed; can be directly connected or indirectly connected through an intermediate medium.

In embodiments of the present utility model, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In embodiments of the utility model, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g." in an embodiment of the present utility model is not to be taken as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

The embodiment of the utility model provides an electronic device, and it should be noted that the type of the electronic device is not limited in the embodiment of the utility model, and the electronic device may refer to a desktop computer, a notebook computer, a tablet computer, a mobile phone, a television and the like. Generally, electronic devices include a plurality of different types of electronic device components. There are various ways of mounting electronic device components on the electronic device, such as a plugging mounting way or an abutting mounting way. The electronic device is also provided with a mounting base for the electronic device components, corresponding to the electronic device components. For example, for the memory of the desktop computer, the memory is a component of the electronic device, the motherboard is a mounting base of the component of the electronic device, and the mounting slot of the memory is a mounting position of the component of the electronic device. For other electronic device components than the memory, the mounting base of the electronic device components and the mounting positions of the electronic device components can be understood with reference to the above description.

In addition, a heat dissipation device is generally and correspondingly arranged on the heat-generating component of the electronic device, and in order to increase the contact between the heat dissipation device and the heat-generating component, a heat-conducting adhesive is generally arranged between the heat-generating component and the heat dissipation device, however, the heat-conducting adhesive also has certain adhesion, and the heat-generating component and the heat dissipation device can be adhered together.

For the situation, the problem that the memory is not easy to detach due to the fact that the pretightening force of the mounting groove of the memory is large; or the problem that the heat-radiating device and the heat-generating component are not easy to detach due to the adhesion of the heat-conducting glue. In this case, the memory or the heat dissipating device needs to be disassembled by means of a tool, and if the tool is improperly used, there is a problem that the memory or the heat dissipating device is damaged.

In view of this, referring to fig. 1 to 7, an embodiment of the present utility model also provides an electronic device part including a body 1 of the electronic device part and a detachable structure 2. Wherein the body 1 of the electronic device component is inserted into or abutted against the mounting position 01 of the electronic device component. Illustratively, referring to fig. 1 and 2, there are some examples of the disassembly structure 2. The dismounting structure 2 comprises a rotating member 21 and a rotating shaft 22, the rotating member 21 comprising an input end 211 and an output end 212. The rotating shaft 22 is fixedly connected to the body 1 of the electronic equipment part, the rotating member 21 can rotate around the rotating shaft 22, and an included angle is formed between the axial direction of the rotating shaft 22 and the plugging direction or the abutting direction of the body. When the rotary member 21 rotates around the rotation shaft 22, the output end 212 of the rotary member 21 can be abutted against the mounting position 01 of the electronic device component, and the rotation shaft 22 can be separated from the mounting position 01 of the electronic device component. Meanwhile, the rotating shaft 22 is fixedly connected to the body 1 of the electronic equipment part, so that the rotating shaft 22 drives the body 1 of the electronic equipment part to be far away from the mounting position 01 of the electronic equipment part, and the purpose of dismounting the electronic equipment part from the mounting position 01 of the electronic equipment part is achieved.

In the embodiment of the present utility model, the types of the electronic device parts are not limited, and the electronic device parts may refer to various types of electronic device parts installed in a plugging manner or an abutting manner, such as a memory, a graphics card, a hard disk, a heat dissipation device, or a battery. In the embodiment of the present utility model, the body 1 of the electronic device component refers to the main structure of the electronic device component, that is, the enabled portion of the electronic device component.

Meanwhile, in the embodiment of the present utility model, the specific structural forms of the rotary member 21 and the rotary shaft 22 are not limited either. For example, the rotary member 21 may be formed in a rod-like or plate-like structure, or the rotary member 21 may be formed in a special-shaped structure that satisfies the above-described space requirement according to the space situation around the mounting position 01 of the electronic device component. Meanwhile, there are various forms for the arrangement of the rotation shaft 22, and in some embodiments of the present utility model, the fastening member 221 may be directly used as the rotation shaft 22, and for example, referring to fig. 5, an installation position of the fastening member 221 may be provided on the body 1 of the electronic device part, for example, a fixing block 11 may be provided on the body 1 of the electronic device part corresponding to the position of the fastening member 221, a connection hole 111 may be provided on the fixing block 11, and the fastening member 221 may be fixedly connected to the connection hole 111 through the rotation member 21. In this way, the fastener 221 can serve as a fixing function for the rotary member 21 in addition to the rotary shaft 22, facilitating assembly of the rotary member 21 and the body 1 of the electronic device component.

The plugging direction or the contact direction of the body 1 of the electronic device component here refers to the moving direction of the electronic device component during the mounting process of the electronic device component. The axial direction of the rotation shaft 22 and the plugging direction or the abutting direction of the body 1 of the electronic equipment component have an included angle, that is, the direction in which the axis of the rotation shaft 22 is located has an included angle with the plugging direction or the abutting direction. In this way, the output end 212 of the rotating member 21 can be brought closer to the mounting position 01 of the electronic device component during the rotation of the rotating member 21 about the rotation axis 22, and can be brought into contact with the mounting position 01 of the electronic device component.

For example, for a memory or graphics card mounted on a motherboard or a heat sink fin set mounted on a central processing unit (Central Processing Unit, CPU) on the motherboard, the plugging direction or abutment direction refers to a direction perpendicular to the plane of the motherboard and pointing to the motherboard. At this time, the axial direction of the rotation shaft 22 forms an angle with the direction perpendicular to the plane of the main plate, that is, the axial direction of the rotation shaft 22 is not perpendicular to the plane of the main plate. The embodiment of the present utility model does not limit the angle between the axial direction of the rotation shaft 22 and the plugging direction or the abutting direction of the body, and may be adaptively selected according to the space situation near the installation position 01 of the electronic device component, and in some embodiments of the present utility model, the angle between the axial direction of the rotation shaft 22 and the plugging direction or the abutting direction of the body is set to 90 degrees.

The input end 211 of the rotator 21 is one end for inputting force or moment to the rotator 21, and the output end 212 of the rotator 21 is one end for outputting force or moment. The rotation shaft 22 plays a role of limiting the rotation member 21. By operating the input end 211 of the rotary member 21 to rotate the rotary member 21 in different directions, the output end 212 can be made relatively close to the mounting position 01 of the electronic device component or far from the mounting position 01 of the electronic device component. The output end 212 of the rotator 21 can be brought into abutment with the mounting position 01 of the electronic device component by controlling the rotation direction of the rotator 21. At this time, the reaction force of the mounting position 01 of the electronic device component to the output end 212 forces the rotation shaft 22 to move in a direction away from the mounting position 01 of the electronic device component, and at the same time, the rotation shaft 22 is fixedly connected to the body 1 of the electronic device component, thereby driving the body 1 of the electronic device component to move in a direction away from the mounting position 01 of the electronic device component. In addition, in order to enable the output end 212 to smoothly abut against the mounting position 01 of the electronic device component when the rotary member 21 rotates around the rotary shaft 22, the position of the rotary shaft 22 and the position of the output end 212 may be adjusted to achieve the above object.

Thus, the electronic device component provided by the embodiment of the utility model is provided with the dismounting structure 2, so that the electronic device component can be conveniently dismounted from the mounting position 01 of the electronic device component by operating the rotating piece 21 of the dismounting structure 2. Specifically, by operating the input end 211 of the rotary member 21, the rotary member 21 is rotated, and the output end 212 of the rotary member 21 is moved toward the mounting position 01 of the electronic device component, thereby abutting against the mounting position 01 of the electronic device component. Continuing to operate the input end 211 of the rotating member 21, at this time, due to the limiting effect of the mounting position 01 of the electronic device component on the output end 212, the rotating shaft 22 is forced to be far away from the mounting position 01 of the electronic device component, so as to drive the body 1 of the electronic device component to be far away from the mounting position 01 of the electronic device component, thereby realizing the disassembly of the electronic device component. Therefore, the electronic equipment parts can be conveniently disassembled. Besides, the electronic equipment parts can be disassembled without other tools, and meanwhile, the force of the input end 211 of the control operation rotating piece 21 is easy to gradually separate the electronic equipment parts from the mounting position 01 of the electronic equipment parts, so that the electronic equipment parts are protected, and the electronic equipment parts are prevented from being damaged.

For convenience in describing the details of the electronic device component provided in the embodiment of the present utility model, referring to fig. 3 to 7, the electronic device component is taken as an example of a heat dissipation fin group for dissipating heat from a CPU, and the electronic device component provided in the embodiment of the present utility model is described taking an example that an included angle between an axis direction of the rotation shaft 22 and a plugging direction or an abutting direction is 90 degrees.

In the embodiment of the present utility model, the arrangement of the relative positions of the input end 211, the output end 212, and the rotation shaft 22 of the rotation member 21 is not limited. For example, referring to fig. 1, the rotation shaft 22 may be disposed between the input end 211 and the output end 212 of the rotation member 21. In addition, referring to fig. 2, the rotation shaft 22 may be disposed at a side of the output end 212 remote from the input end 211, that is, the output end 212 may be disposed between the rotation shaft 22 and the input end 211.

Specifically, in some embodiments of the present utility model, referring to fig. 1, in a case where the rotation shaft 22 is disposed between the input end 211 and the output end 212, when the input end 211 rotates in a direction away from the mounting position 01 of the electronic device part, the output end 212 rotates in a direction approaching the mounting position 01 of the electronic device part due to the limiting effect of the rotation shaft 22. Thus, when the output end 212 abuts against the mounting position 01 of the electronic device component, the input end 211 is continuously operated to rotate in a direction away from the mounting position 01 of the electronic device component, and the rotation shaft 22 can be forced to be away from the mounting position 01 of the electronic device component due to the limit action of the mounting position 01 of the electronic device component on the output end 212, so that the body 1 of the electronic device component is driven to be away from the mounting position 01 of the electronic device component.

In other embodiments of the present utility model, referring to fig. 2, in the case where the rotation shaft 22 is provided at a side of the output end 212 remote from the input end 211, when the input end 211 rotates in a direction approaching the mounting position 01 of the electronic device part, the output end 212 rotates in a direction approaching the mounting position 01 of the electronic device part due to the limiting effect of the rotation shaft 22. Thus, when the output end 212 abuts against the mounting position 01 of the electronic device component, the input end 211 is continuously operated to rotate in a direction approaching the mounting position 01 of the electronic device component, and the rotation shaft 22 can be forced to be far away from the mounting position 01 of the electronic device component due to the limit action of the mounting position 01 of the electronic device component on the output end 212, so that the body 1 of the electronic device component is driven to be far away from the mounting position 01 of the electronic device component. Referring to fig. 2, a protruding portion may be provided between the rotation shaft 22 and the input end 211 as the output end 212. In addition, the rotary member 21 may be provided to extend along a folding line, and the folding point may be the output end 212.

On this basis, referring to fig. 3 to 7, in some embodiments of the present utility model, the main body structure of the rotary member 21 is provided in a plate-like structure, the rotary member 21 of the plate-like structure is provided on the side face of the body 1 of the electronic device part, and the extending direction of the plate-like structure is made parallel to the extending direction of the side face of the body.

Thus, through the arrangement, the space occupied by the rotating member 21 can be saved, and the occupied volume of the electronic equipment parts provided by the embodiment of the utility model is reduced. Meanwhile, the extending direction of the plate-shaped structure is parallel to the extending direction of the side surface of the body, so that the plate-shaped structure is convenient to operate, and the torsional strength of the rotating member 21 can be improved.

Further, referring to fig. 3, 4, 5 and 7, in some embodiments of the present utility model, a first protruding portion 2121 is disposed at an edge of the output end 212 near the mounting location 01 of the electronic device component, and an extending direction of the first protruding portion 2121 is parallel to an extending direction of the mounting location 01 of the electronic device component. For example, referring to fig. 5, for the rotary member 21 of a plate-like structure, a bent structure parallel to the extending direction of the mounting position 01 of the electronic device component may be provided at the position of the output end 212. In this way, the body structure of the first protruding portion 2121 and the rotating member 21 can be provided as an integrated structure, which can facilitate the production of the rotating member 21 and can also improve the stress intensity of the rotating member 21. Alternatively, the first protruding portion 2121 may be separately formed and then fixedly connected to the output end 212 of the rotary member 21, and the separately formed first protruding portion 2121 may be fixedly connected to the output end 212 of the rotary member 21 by welding or bonding, for example. In this way, the first protruding portion 2121 can be made of a material different from that of the rotary member 21, so that the material of the mounting position 01 of the electronic device component can be better adapted, and the damage to the mounting position 01 of the electronic device component can be prevented, and the adaptability of the rotary member 21 in the embodiment of the present utility model can be improved.

In the embodiment of the present utility model, the position of the first protruding portion 2121 with respect to the body 1 of the electronic device component is not limited, and by way of example, referring to fig. 5, the first protruding portion 2121 may be disposed on the side of the rotating member 21 close to the body 1 of the electronic device component; the first protruding portion 2121 may be provided on a side of the rotary member 21 away from the body 1 of the electronic device component; the first protruding portion 2121 may be provided across both sides of the rotating member 21, with a part of the structure of the first protruding portion 2121 being located on the side of the rotating member 21 close to the body 1 of the electronic device component, and a part of the structure of the first protruding portion 2121 being located on the side of the rotating member 21 away from the body 1 of the electronic device component.

Meanwhile, the extending direction of the first protruding portion 2121 is set to be parallel to the extending direction of the mounting position 01 of the electronic device component, so that the stress area between the first protruding portion 2121 and the mounting position 01 of the electronic device component can be increased, the stress intensity of the first protruding portion 2121 and the mounting position 01 of the electronic device component can be reduced, the mounting position 01 of the first protruding portion 2121 and the electronic device component is not easy to damage, and the service life of the electronic device component provided by the embodiment of the utility model can be prolonged.

On this basis, referring to fig. 3 and 5, in some embodiments of the present utility model, the first protruding portion 2121 is disposed toward the body 1 of the electronic device component, and at least part of the structure of the first protruding portion 2121 can abut against the bottom surface of the body 1 of the electronic device component. Here, the bottom surface of the body 1 of the electronic device component means the surface of the body 1 of the electronic device component on the side close to the mounting position 01 of the electronic device component. In addition, whether or not a separate structure needs to be provided on the body 1 of the electronic device part to satisfy the partial structure of the first protruding portion 2121 against the bottom surface of the body 1 of the electronic device part may be considered according to the specific situation between the body 1 of the electronic device part and the mounting position 01 of the electronic device part.

For example, referring to fig. 3, for a radiator fin group, the radiator fin group generally includes a base and radiator fins, and a gap is provided between an edge of the base of the radiator fin group and the mounting position 01 of the electronic device component of the radiator fin group, for a gap between the bottom surface of the body 1 of the electronic device component and the mounting position 01 of the electronic device component. In this way, the partial structure of the first protruding portion 2121 can be abutted against the bottom surface of the body 1 of the electronic device component by the gap; for no gap between the bottom surface of the body 1 of the electronic device component and the mounting position 01 of the electronic device component, a corresponding notch may be provided on the bottom surface of the body 1 of the electronic device component at a position corresponding to the first protruding portion 2121, so that the partial structure of the first protruding portion 2121 may be abutted against the notch by using the notch.

Meanwhile, referring to fig. 1 to 6, in the embodiment of the present utility model, a second protrusion 2111 is further provided at the input end 211 of the rotary member 21, and at least part of the second protrusion 2111 may abut against the body 1 of the electronic device part. In the embodiment of the present utility model, the specific structural form of the second protrusion 2111 is not limited, and for the rotating member 21 of the plate-like structure, the plate-like structure may be folded toward the body to form a protrusion toward the body of the electronic device component, thereby forming the second protrusion 2111 in the embodiment of the present utility model.

In addition, the mounting position 01 of the second protrusion 2111 relative to the main structure of the rotary member 21, which is close to or far from the electronic device component, may be determined according to the relative positions of the rotary shaft 22 and the input end 211 and the output end 212.

Specifically, referring to fig. 1, when the rotary shaft 22 is disposed between the input terminal 211 and the output terminal 212, the second protrusion 2111 is located on the side of the input terminal 211 near the mounting position 01 of the electronic device component. At this time, in the case where a gap is provided between the bottom surface of the body 1 of the electronic device component and the mounting position 01 of the electronic device component, the gap may be used to abut a part of the structure of the second protrusion 2111 against the bottom surface of the body of the electronic device; for no gap between the bottom surface of the body 1 of the electronic device component and the mounting position 01 of the electronic device component, a corresponding notch may be provided on the bottom surface of the body 1 of the electronic device component at a position corresponding to the second protrusion 2111, so that the partial structure of the second protrusion 2111 may be abutted against the notch by using the notch.

When the rotation shaft 22 is provided between the input end 211 and the output end 212, since it is necessary that the input end 211 of the rotation member 21 is rotated in a direction away from the mounting position 01 of the electronic device component at the time of dismounting the electronic device component. By disposing the second protrusion 2111 on the side of the input end 211 near the mounting position 01 of the electronic device component, and when the second protrusion 2111 abuts against the body 1 of the electronic device component, it is possible to form a limit on the rotating member 21, preventing the input end 211 from rotating in a direction away from the mounting position 01 of the electronic device component.

Referring to fig. 2, when the rotation shaft 22 is disposed at a side of the output end 212 away from the input end 211, that is, when the output end 212 is disposed between the rotation shaft 22 and the input end 211, the second protrusion 2111 is disposed at a side of the input end 211 away from the mounting position 01 of the electronic device part, and the second protrusion 2111 may abut against the body 1 of the electronic device part. At this time, the abutting position of the second protrusion 2111 may be set by utilizing the structural feature of the body 1 of the electronic device component, and for the position on the body 1 of the electronic device component where the second protrusion 2111 can abut, the second protrusion 2111 may be directly abutted to the position; for the position on the body 1 of the electronic device component, where the second protrusion 2111 is not abutted, a corresponding notch may be provided at the position on the body 1 of the electronic device component, where the second protrusion 2111 is provided, so that the notch may be used to abut a part of the structure of the second protrusion 2111 in the notch.

When the rotation shaft 22 is provided on the side of the output end 212 away from the input end 211, since it is necessary that the input end 211 of the rotation member 21 is rotated in a direction approaching the mounting position 01 of the electronic device component at the time of disassembling the electronic device component. By disposing the second protrusion 2111 on the side of the input end 211 away from the mounting position 01 of the electronic device component, and when the second protrusion 2111 abuts against the body 1 of the electronic device component, it is possible to form a limit on the rotating member 21, preventing the input end 211 from rotating in the direction of the mounting position 01 of the electronic device component.

In this way, when the partial structure of the first protruding portion 2121 and the partial structure of the second protruding portion 2111 are simultaneously abutted against the body 1 of the electronic device component, the stopper can be formed on the rotating member 21, so that the rotating member 21 and the body 1 of the electronic device component are kept relatively fixed, and the rotating member 21 is prevented from moving relative to the body 1 of the electronic device component.

On this basis, in order to achieve the rotation of the rotation member 21, in some embodiments of the present utility model, the rotation member 21 may be deformed in a direction away from the body 1 of the electronic device part to disengage the second protrusions 2111 from the electronic device part. Therefore, the limit of the second protrusion 2111 to the rotary member 21 can be released, and the rotary member 21 can be rotated, so that the electronic device component can be detached.

Illustratively, the rotary member 21 may be fabricated as a thin metal plate having a certain deformability. By applying a force to the rotary member 21 at a position close to the second protrusion 2111 toward the body 1 away from the electronic device component, the rotary member 21 can be deformed, and the second protrusion 2111 can be separated from the electronic device component, so that the second protrusion 2111 contacts the stopper of the rotary member 21. In addition, other materials having deformability may be used to form the rotary member 21 according to the embodiment of the present utility model, such as engineering plastics.

In addition, the depth of the second protrusions 2111 against the body 1 of the electronic device component may be adapted according to the deformability of the rotary member 21. For the case where the deformability of the rotary member 21 is large, the second protrusions 2111 may be set deeper against the depth of the body 1 of the electronic device part; in the case where the deformability of the rotary member 21 is small, the depth of the second portion against the body 1 of the electronic device part may be set shallower to smoothly achieve the detachment of the second protrusion 2111 from the body 1 of the electronic device part.

In addition, referring to fig. 3, 5 and 6, in some embodiments of the present utility model, an extension portion 2112 having an angle with the rotation direction of the rotary member 21 is further provided at the input end 211 of the rotary member 21. In this way, the input 211 can be easily operated by the extension 2112.

For example, the plate-like structure of the rotator 21 may be bent to form the extension portion 2112. Alternatively, the extension portion 2112 may be separately formed, and then the separately formed extension portion 2112 may be fixedly connected to the input end 211 of the rotary member 21. In the embodiment of the present utility model, the angle between the extension portion 2112 and the rotator 21 is not limited, as long as the extending direction of the extension portion 2112 has an angle with the rotation direction of the rotator 21. For example, referring to fig. 6, the extension direction of the extension portion 2112 may be set to 90 degrees to the rotation direction of the rotation member 21. Of course, other angles may be provided, and embodiments of the present utility model are not limited thereto.

On this basis, the extension portion 2112 may be provided to face the body 1 of the electronic device component, so that the volume of the electronic device component provided by the embodiment of the utility model can be further reduced. In addition, referring to fig. 6, the extension portion 2112 may be provided away from the body 1 of the electronic device component, so that the operation of the extension portion 2112 can be performed easily.

Meanwhile, in order to smoothly detach the body of the electronic device part from the mounting position 01 of the electronic device part in consideration of a large force between the body 1 of the electronic device part and the mounting position 01 of the electronic device part, in some embodiments of the present utility model, a distance between the input end 211 of the rotating member 21 and the rotating shaft 22 is greater than a distance between the output end 212 and the rotating shaft 22. In this way, the principle of lever labor saving can be utilized, and when a small force is input by the input end 211, a large force can be output by the output end 212, so that the dismounting structure 2 provided by the embodiment of the utility model can be more labor-saving.

Hereinafter, the removal of the fin group by the removal structure 2 will be described by taking the fin group as an example.

Referring to fig. 3, first, the connection bolt between the body of the fin group and the mounting position 01 of the electronic device component is detached. Then, the input end 211 of the rotating member 21 is operated to disengage the second protrusions 2111 of the rotating member 21 from the body of the fin group, thereby releasing the restriction of the rotating member 21. Referring to fig. 4, the input end 211 of the rotator 21 is then operated to rotate the input end 211 of the rotator 21 in a direction away from the mounting position 01 of the electronic device component, so that the output end 212 of the rotator 21 is rotated toward the mounting position 01 of the electronic device component due to the restriction of the rotation shaft 22. Continuing to operate the input end 211 of the rotating member 21 can make the output end 212 of the rotating member 21 abut against the mounting position 01 of the electronic device component, and continuing to operate the input end 211 of the rotating member 21 can force the rotating shaft 22 to move towards a direction away from the mounting position 01 of the electronic device component due to the limiting effect of the mounting position 01 of the electronic device component on the output end 212 of the rotating member 21, so as to drive the body of the heat radiation fin group to be separated from the mounting position 01 of the electronic device component, and complete the disassembly of the heat radiation fin group.

The foregoing embodiment numbers of the present utility model are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments. The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the scope of the utility model, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. An electronic device component, comprising:

the body is spliced or abutted to the mounting position of the parts on the electronic equipment;

the disassembly structure comprises a rotary piece and a rotary shaft, wherein the rotary piece comprises an input end and an output end, the rotary shaft is fixedly connected to the body, the rotary piece can rotate around the rotary shaft, and an included angle is formed between the axial direction of the rotary shaft and the plugging direction or the abutting direction of the body;

when the rotating piece rotates around the rotating shaft, the output end can be abutted to the installation position, so that the rotating shaft is far away from the installation position, and the rotating shaft drives the body to be far away from the installation position.

2. The electronic device component of claim 1, wherein the rotational axis is disposed between the input end and the output end, the output end abutting against the mounting location when the input end is rotated in a direction away from the mounting location, causing the rotational axis to be away from the mounting location, the rotational axis driving the body away from the mounting location.

3. The electronic device component of claim 1, wherein the rotation axis is disposed on a side of the output end away from the input end, and when the input end rotates in a direction toward the mounting position, the output end abuts against the mounting position to cause the rotation axis to be away from the mounting position, and the rotation axis drives the body to be away from the mounting position.

4. The electronic device component according to any one of claims 1 to 3, wherein the rotating member is a plate-like structure, and the plate-like structure is provided on a side surface of the body, and an extending direction of the plate-like structure is parallel to an extending direction of the side surface of the body.

5. The electronic device component of claim 4, wherein the edge of the output end near the mounting location is provided with a first protrusion, and wherein the direction of extension of the first protrusion is parallel to the direction of extension of the mounting location.

6. The electronic device component of claim 5, wherein the first protrusion is disposed toward the body and at least a portion of the first protrusion is abuttable against a bottom surface of the body, the input is disposed with a second protrusion toward the body and at least a portion of the second protrusion is abuttable against the body, the first and second protrusions are configured to secure the rotating member; and when the rotating shaft is disposed between the input end and the output end, the second protruding portion is located at a side of the input end close to the mounting position; when the rotating shaft is arranged on one side of the output end far away from the input end, the second convex part is positioned on one side of the input end far away from the installation position.

7. The electronic device component of claim 6, wherein the rotating member is deformable in a direction away from the body, and wherein the second protrusion is disengaged from the body when the rotating member is deformed in a direction away from the body.

8. The electronic device component of claim 1, wherein the input end is provided with an extension having an angle with a direction of rotation of the rotating member.

9. The electronic device component of claim 1, wherein a distance between the input and the axis of rotation is greater than a distance between the output and the axis of rotation.

10. An electronic device, comprising:

the electronic device component of any one of claims 1 to 9;

an installation base of the electronic equipment parts is provided with installation positions of the electronic equipment parts; the body of the electronic equipment part is spliced or abutted to the mounting position of the electronic equipment part.