CN220693541U - Mounting mechanism of electronic equipment - Google Patents

Abstract

The utility model discloses an installation mechanism of electronic equipment, which comprises a balance part, a first sliding part, a second sliding part, a third sliding part, a fixing part, a limiting part and an unlocking part; the balance part is connected with the fixed part through a rope, the first sliding part comprises two sliding parts which are arranged at intervals along the first direction, the second sliding part comprises two sliding parts which are arranged at intervals along the first direction, the third sliding part comprises two sliding parts which are arranged at intervals along the first direction, the fixed part comprises a fixed plate and a fixed frame, and the limiting part is positioned at the top end of the fixed frame and is connected with the first sliding part; the unlocking part comprises a rolling device and an unlocking device, the unlocking device is rotatably connected with the fixed plate around the first direction, the unlocking device is elastically connected with the fixed frame, the rolling device is arranged at the top end of the unlocking device along the second direction, and the unlocking part can be switched between an unlocking state and a locking state. The utility model can conveniently realize the operation of the electronic equipment under the condition of insufficient space.

Description

Mounting mechanism of electronic equipment

Technical Field

The present disclosure relates to electronic devices, and particularly to an electronic device mounting mechanism.

Background

The display is widely applied to modern production workshops and is used for realizing visual management of the production workshops. The mounting and fixing of the display are particularly important, and at present, two main mounting and fixing modes of the display are fixed, and the mounting mode needs to be designed according to the height of a human machine, cannot be adjusted, and has larger requirements on space structures; the other is joint support installation, and the installation mode is capable of adjusting the height, but needs a certain installation space, the joint support is easy to bump under the condition of insufficient space, meanwhile, the joint support is different in position, the production line body is disordered, and the operation is inconvenient.

Disclosure of Invention

The utility model aims to solve the problem of high requirement on installation space. The utility model provides an installation mechanism of electronic equipment, which can conveniently realize the operation of the electronic equipment under the condition of insufficient space.

In order to solve the technical problems, an embodiment of the utility model discloses an installation mechanism of electronic equipment, which comprises a balancing part, a first sliding part, a second sliding part, a third sliding part, a fixing part, a limiting part and an unlocking part; wherein:

the balance part is connected with the fixed part through a rope;

the first sliding parts comprise two sliding parts which are arranged at intervals along a first direction, each sliding part extends along a second direction, and the second direction is intersected with the first direction;

the second sliding parts comprise two sliding parts which are arranged at intervals along the first direction, and each second sliding part is connected with the first sliding part in a manner of sliding along the second direction;

the third sliding parts comprise two sliding parts which are arranged at intervals along the first direction, and each third sliding part is connected with the second sliding part in a manner of sliding along the second direction;

the fixing part comprises a fixing plate and a fixing frame, the fixing plate is arranged on the rear side of the fixing frame along a third direction and is arranged at intervals with the fixing frame, the fixing plate is connected with the rope, the third direction is intersected with the first direction and the second direction respectively, the fixing frame is connected with the third sliding part, and the fixing frame is used for mounting electronic equipment;

along the second direction, the limiting part is positioned at the top end of the fixed frame and is connected with the first sliding part;

the unlocking part comprises a rolling device and an unlocking device, the unlocking device is rotatably connected with the fixed plate around a first direction, the unlocking device is elastically connected with the fixed frame, the rolling device is arranged at the top end of the unlocking device along a second direction, and the unlocking part can be switched between an unlocking state and a locking state;

the rolling device can be separated from the lower part of the limiting part by rotating the unlocking device, so that the unlocking part is in the unlocking state;

when the unlocking part moves downwards along the second direction, the rolling device rolls along the limiting part to be positioned below the limiting part, so that the unlocking part is in the locking state.

By adopting the technical scheme, a motor or a cylinder and other power devices which consume energy are not needed, and the manual operation is simple and labor-saving. When the electronic equipment needs to be pulled down, the weight of the electronic equipment is balanced through the balancing part, the electronic equipment is installed on the fixed frame, the fixed frame is connected with the third sliding part, the third sliding part can slide along the second sliding part, the second sliding part can slide along the first sliding part, therefore, the electronic equipment can slide downwards along the second sliding part along the third sliding part along the fixed frame by pulling the fixed frame, meanwhile, the fixed frame moves downwards along the first sliding part along the second sliding part, and simultaneously, the unlocking device is elastically connected with the fixed frame, so that the unlocking device moves synchronously while the fixed frame moves downwards until the rolling device at the top of the unlocking device moves to the limiting part, at the moment, the rolling device can roll to the lower side of the limiting part along the limiting part under the action of elastic force, so that the unlocking part is in a locking state, and the fixed part does not move downwards any more when reaching a preset distance.

When electronic equipment needs upward movement, because unlocking device rotates with the fixed plate to be connected, consequently can be through rotating unlocking device for unlocking device top's rolling device can break away from the below of spacing portion, make unlocking device be in the unblock state, the motion of fixed part no longer receives the restriction simultaneously, can be under balanced portion balancing action, along with the third sliding part upwards slide along the second sliding part, simultaneously along with the second sliding part upwards slide along first sliding part, until the top of moving first sliding part, the operation all need not the power device that needs the energy consumption such as motor or cylinder above, and manual operation is simple and convenient laborsaving.

By adopting the technical scheme, the technical scheme can be used in occasions involving stations and non-stations, the structure is stable and reliable, the service life is long, the neatness of a production line can be effectively improved in batch use, the injury risk of workers bumping heads is greatly reduced, the technical scheme does not need a gas-electric energy source, the requirement of installation occasions is low, the applicability is strong, the practicability is high, the operation is simple and light, the electronic equipment can be easily moved to the height convenient to operate by pulling the fixed frame when the electronic equipment needs to be lowered, the electronic equipment is not needed temporarily, and the electronic equipment can be automatically lifted by pulling the unlocking device when the electronic equipment needs to be lifted.

According to another specific embodiment of the utility model, the embodiment of the utility model discloses a mounting mechanism of an electronic device, wherein the limiting part comprises a bottom surface and an inclined surface, and the inclined surface is obliquely arranged towards the second sliding part and has an included angle smaller than 90 degrees with the bottom surface; when the unlocking part moves downwards along the second direction, the rolling device can roll along the inclined surface to be positioned below the bottom surface under the action of elastic force; when the unlocking device is rotated, the rolling device can be separated from the bottom surface, and under the action of elastic force, the rolling device can be positioned above the inclined surface and roll along the inclined surface.

By adopting the technical scheme, because the included angle between the bottom surface of the limiting part and the inclined surface is smaller than 90 degrees, when the unlocking device is converted into the locking state from the unlocking state, namely, when the rolling device rolls from top to bottom along the limiting part, the distance between the unlocking device and the fixed frame is larger and larger, the elastic force is expressed as tension at the moment, and then under the action of elastic restoring force, the rolling device can roll to the lower part of the limiting part, and the unlocking device is in the locking state; when the unlocking device is rotated, the elastic force is expressed as tension at the moment, so that the rolling device can be separated from the lower part of the limiting part, the unlocking device is in an unlocking state, and then the rolling device can roll along the inclined surface of the limiting part under the action of elastic restoring force.

According to another embodiment of the present utility model, an embodiment of the present utility model discloses an electronic device mounting mechanism, wherein the limiting portion further includes a vertical surface, and the vertical surface is located above the inclined surface and connected to the inclined surface along the second direction.

By adopting the technical scheme, when the unlocking part is converted into the locking state from the unlocking state, the rolling device can roll to the inclined plane along the vertical plane, the transition of the vertical plane is provided, the distance between the unlocking device and the fixed frame can be slowly reduced, and the used elastic force can also be slowly increased.

According to another specific embodiment of the utility model, the embodiment of the utility model discloses an installation mechanism of electronic equipment, the unlocking device comprises an unlocking frame, the unlocking frame comprises two unlocking rods and a connecting rod, the two unlocking rods are arranged at intervals along the first direction, the connecting rod is used for connecting the two unlocking rods, the two unlocking rods extend along the second direction and are rotatably connected with the back surface of the fixed plate, and the tops of the two unlocking rods are respectively provided with the rolling device along the second direction.

By adopting the technical scheme, the unlocking rod is rotationally connected with the back of the fixed plate, so that the unlocking device can rotate along the fixed plate, the rolling device at the top of the unlocking rod can be away from the bottom surface of the limiting part when the unlocking rod rotates, and the unlocking device can be locked.

According to another embodiment of the utility model, the mounting mechanism of the electronic equipment is disclosed, and the unlocking device further comprises an unlocking handle, wherein the unlocking handle is connected with one side, close to the fixed frame, of the connecting rod.

By adopting the technical scheme, the unlocking handle is arranged, so that an operator can operate the unlocking device to rotate more conveniently.

According to another embodiment of the utility model, the embodiment of the utility model discloses a mounting mechanism of an electronic device, and the two connecting rods are respectively connected with the fixed frame through a first elastic piece.

By adopting the technical scheme, the connecting rod and the fixed frame are connected through the first elastic piece, when the connecting rod is rotated, the first elastic piece can be in a stretching state, and the rolling device can be pulled to be far away from the bottom surface of the limiting part, so that the unlocking device is locked.

According to another specific embodiment of the utility model, the mounting mechanism of the electronic device is disclosed, one side, far away from the rolling device, of each of the two connecting rods is provided with a first thread, each of the first threads is provided with a third opening, along the second direction, two sides of the top of the fixed frame are respectively provided with a second thread, each of the second threads is provided with a fourth opening, and two ends of the first elastic piece respectively hook the third opening and the fourth opening.

By adopting the technical scheme, the first elastic piece can be detachably connected with the fixing frame and the unlocking device.

According to another embodiment of the present utility model, the mounting mechanism of an electronic device is disclosed in an embodiment of the present utility model, the fixing portion further includes two first connection plates disposed at intervals along the first direction, each of the first connection plates extends along the third direction, two ends of the first connection plates are respectively connected to the fixing plate and the fixing frame, the two first connection plates are respectively connected to the third sliding portion, and the fixing frame is provided with a first opening for mounting the electronic device.

By adopting the technical scheme, the fixing plate and the fixing frame can be connected through the two first connecting plates, and meanwhile, the two first connecting plates are connected with the third sliding part, so that the whole fixing part can move along the second sliding part along with the third sliding part stably.

According to another embodiment of the utility model, the mounting mechanism of the electronic device is disclosed, and along the second direction, first buffer blocks are arranged at intervals along the first direction at the bottom of the fixed frame.

By adopting the technical scheme, through setting up first buffer memory piece, reduce the painful sense when operating personnel carelessly runs into fixed frame.

According to another embodiment of the present utility model, an embodiment of the present utility model discloses a mounting mechanism for an electronic device, wherein a second opening is formed in a bottom of the fixing frame along the second direction, and the second opening is used for a user to operate the fixing portion.

By adopting the technical scheme, through setting up the second trompil for can be more laborsaving and convenient when operating personnel downward pulling fixed frame.

According to another embodiment of the present utility model, an embodiment of the present utility model discloses a mounting mechanism of an electronic device, the rope being connected to the balance and the fixing portion, respectively, through a fixed pulley.

By adopting the technical scheme, the direction of the balance part can be changed through the fixed pulley, so that the balance part can drive the fixed part to move along the second direction through the rope.

Drawings

Fig. 1 is a front view of an electronic device mounting structure according to an embodiment of the present utility model, in which an unlocking portion is in a locked state.

Fig. 2 is a side view of the electronic device mounting structure according to the embodiment of the present utility model, where the unlocking portion is in a locked state.

Fig. 3 is a rear view showing an electronic device mounting structure provided by an embodiment of the present utility model, in which the unlocking portion is in a locked state.

Fig. 4 shows an enlarged view of the area a in fig. 3, with the unlocking portion in the locked state.

Fig. 5 is a front view of the electronic device mounting structure according to the embodiment of the present utility model, where the unlocking portion is in an unlocked state.

Fig. 6 is a rear view of the electronic device mounting structure according to the embodiment of the present utility model, in which the unlocking portion is in an unlocked state.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present specification, by describing the embodiments of the present utility model with specific examples. While the description of the utility model will be described in connection with the preferred embodiments, it is not intended to limit the inventive features to the implementation. Rather, the purpose of the utility model described in connection with the embodiments is to cover other alternatives or modifications, which may be extended by the claims based on the utility model. The following description contains many specific details for the purpose of providing a thorough understanding of the present utility model. The utility model may be practiced without these specific details. Furthermore, some specific details are omitted from the description in order to avoid obscuring the utility model. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

It should be noted that in this specification, like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present embodiment, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", "inner", "bottom", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship in which the inventive product is conventionally put in use, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present utility model.

The terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

In the description of the present embodiment, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present embodiment can be understood in a specific case by those of ordinary skill in the art.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 4, the present application provides a mounting mechanism for an electronic device, where the electronic device is taken as a display as an example, but the mounting mechanism for an electronic device is not limited thereto, and the mounting mechanism for an electronic device provided in the present application can be applied to any case involving a station and a non-station. The mounting mechanism of the electronic equipment comprises a balance part 1, a first sliding part 2, a second sliding part 3, a third sliding part 4, a fixed part 5, a limiting part 6 and an unlocking part 7; wherein: the balance 1 is connected to the fixed part 5 by a rope 10. Illustratively, referring to fig. 1, the first sliding portion 2 includes two first sub-sliding portions 2a disposed at intervals along a first direction (i.e., the X direction shown in fig. 1), and second sub-sliding portions 2b disposed on the left side and on the right side, the first sub-sliding portions 2a extending along a second direction (i.e., the Y direction shown in fig. 1), and the second sub-sliding portions 2b extending along the second direction (i.e., the Y direction shown in fig. 1), wherein the second direction (i.e., the Y direction shown in fig. 1) is perpendicular to the first direction (i.e., the X direction shown in fig. 1).

The positional relationship between the first direction and the second direction is not particularly limited in this application, and the present embodiment will be described by taking the first direction and the second direction as perpendicular examples, as long as they intersect.

Illustratively, with continued reference to fig. 1, the second sliding portion 3 includes two third sub-sliding portions 3a disposed at intervals along the first direction (i.e., the X direction shown in fig. 1), and a fourth sub-sliding portion 3b disposed on the right side, the third sub-sliding portion 3a being slidably connected to the first sub-sliding portion 2a along the second direction (i.e., the Y direction shown in fig. 1), and the fourth sub-sliding portion 3b being slidably connected to the second sub-sliding portion 2b along the second direction (i.e., the Y direction shown in fig. 1).

Illustratively, with continued reference to fig. 1, the third sliding portion 4 includes two fifth sub-sliding portions 4a on the left side and sixth sub-sliding portions 4b on the right side, which are disposed at intervals in the first direction (i.e., the X direction shown in fig. 1), the fifth sub-sliding portions 4a being slidably connected to the third sub-sliding portions 3a in the second direction (i.e., the Y direction shown in fig. 1), and the sixth sub-sliding portions 4b being slidably connected to the fourth sub-sliding portions 3b in the second direction (i.e., the Y direction shown in fig. 1).

Referring to fig. 1 to 3, the fixing part 5 includes a fixing plate 50 and a fixing frame 51, the fixing plate 50 is disposed at a rear side of the fixing frame 51 in a third direction (i.e., a Z direction shown in fig. 2) and is spaced apart from the fixing frame 51, the fixing plate 50 is connected to the rope 10, wherein the third direction (i.e., the Z direction shown in fig. 2) is perpendicular to the first direction (i.e., the X direction shown in fig. 2) and the second direction (i.e., the Y direction shown in fig. 2), the fixing frame 51 is connected to the third sliding part 4, and the fixing frame 51 is used to mount the display 8.

The positional relationship between the third direction and the first and second directions is not particularly limited, and the third direction is perpendicular to the first and second directions as long as the third direction is intersected.

The specific shape of the fixing frame 51 is not limited, and may be, for example, a rectangular frame having a first opening 511, wherein the left and right sides of the fixing frame are respectively connected to the fifth sub-sliding portion 4a and the sixth sub-sliding portion 4b along the Y direction shown in fig. 1, the display 8 is mounted in the first opening 511, and the display 8 is fixed such that the display 8 can move along with the fifth sub-sliding portion 4a and the sixth sub-sliding portion 4b along the Y direction shown in fig. 1, or may be provided only as two fixing plates extending along the Y direction shown in fig. 1.

Illustratively, referring to fig. 2 to 4, in the second direction (i.e., the Y direction shown in fig. 2), the stopper 6 is located at the top end of the fixed frame 51 and is connected to the first slider 2; the unlocking part 7 includes a rolling device 70 rotatably connected with the fixing plate 50 around a first direction (i.e., X direction shown in fig. 3) and an unlocking device elastically connected with the fixing frame 51, and the rolling device 70 is provided at a tip of the unlocking device along a second direction (i.e., Y direction shown in fig. 3), and the unlocking part 7 is switchable between an unlocked state and a locked state.

Illustratively, referring to fig. 3 and 5, by rotating the unlocking device, the rolling device 70 can be disengaged from under the stopper 6 to put the unlocking portion 7 in the unlocked state (i.e., the state shown in fig. 5); when the unlocking portion 7 moves downward in the second direction (i.e., Y direction shown in fig. 5), the rolling device 70 rolls along the stopper portion 6 to be located below the stopper portion 6, so that the unlocking portion 7 is in the locked state (i.e., state shown in fig. 3). Illustratively, referring to fig. 1, the balance portion 1 may be located above the first sliding portion 2 or flush with the top end of the first sliding portion 2, that is, along the Y direction shown in fig. 1, the horizontal plane where the bottom surface of the balance portion 1 is located above the horizontal plane where the top end of the first sliding portion 2 is located or flush with the horizontal plane where the top end of the first sliding portion 2 is located, but not limited thereto, the position of the balance portion 1 may be as illustrated in the present embodiment, or may be located behind the fixed frame 51.

For example, referring to fig. 3 and 5, the balancing part 1 may be a balancing crane, and may be adjusted according to the weight of the display 8, by balancing the weight of the display 8 by the balancing part 1, when the fixed frame 51 is pulled down, the fifth sub-sliding part 4a slides down along the third sub-sliding part 3a (i.e., the b direction shown in fig. 5), the sixth sub-sliding part 4b slides down along the fourth sub-sliding part 3b (i.e., the b direction shown in fig. 5), the third sub-sliding part 3a slides down along the first sub-sliding part 2a (i.e., the b direction shown in fig. 5), the fourth sub-sliding part 3b slides down along the second sub-sliding part 2b (i.e., the b direction shown in fig. 5), and the fixed frame 51 can slide down accordingly, i.e., the fixed frame 51 moves down along the b direction shown in fig. 5 while driving the display 8 to slide down.

Since the unlocking device is elastically connected with the fixed frame 51, the unlocking device moves synchronously while the fixed frame 51 moves downwards, when the rolling device 70 at the top of the unlocking device moves onto the limiting part 6, the rolling device 70 can roll along the limiting part 6 to the lower part of the limiting part 6 under the action of elastic force, so that the unlocking part 7 is in a locking state (namely, the state shown in fig. 3), and the fixed part 5 also reaches a preset distance at the moment and does not move downwards any more.

As an example, with continued reference to fig. 3 and 5, when the display 8 needs to move upward, since the unlocking device is rotationally connected to the fixing plate 50, the rolling device 70 at the top end of the unlocking device can be separated from the lower side of the limiting portion 6 by rotating the unlocking device, so that the unlocking device is in the unlocked state (i.e., the state shown in fig. 5), while the movement of the fixing portion 5 is no longer limited, under the balance of the balancing portion 1, the sixth sub-sliding portion 4b can slide upward (i.e., the direction a shown in fig. 3) along the fourth sub-sliding portion 3b as the third sub-sliding portion 4a slides upward (i.e., the direction a shown in fig. 3), and the fourth sub-sliding portion 3a slides upward (i.e., the direction a shown in fig. 3) along the first sub-sliding portion 2a, and the fourth sub-sliding portion 3b slides upward (i.e., the direction a shown in fig. 3) until moving to the top end of the first sub-sliding portion 2a and the second sub-sliding portion 2b (i.e., the state 5 shown in fig. 3).

The technical scheme can be used in occasions related to stations and non-stations, the structure is stable and reliable, the service life is long, the neatness of a production line can be effectively improved through batch use, the risk of injury of workers against the head is greatly reduced, the technical scheme is free of gas and electric energy sources, the requirements on installation occasions are low, the applicability is high, the practicability is high, the operation is simple and light, when the operation is needed to be reduced, the electronic equipment can be easily moved to the height convenient to operate by pulling the fixing frame, the electronic equipment is not needed to be used temporarily, and when the operation is needed to be increased, the electronic equipment of the unlocking device is pulled to be automatically increased.

The sliding connection between the third sub-sliding portion 3a and the first sub-sliding portion 2a, between the fourth sub-sliding portion 3b and the second sub-sliding portion 2b, and between the fifth sub-sliding portion 4a and the third sub-sliding portion 3a, and between the sixth sub-sliding portion 4b and the fourth sub-sliding portion 3b are not limited, and may be a combination of a slider and a slide rail as shown in the present embodiment, or may be a lead screw structure.

Illustratively, referring to fig. 2, a collar 500 is disposed on a side of the fixing plate 50 facing the balance 1, the rope 10 is sleeved in the collar 500, the rope 10 is respectively connected with the balance 1 and the collar 500 through a fixed pulley 11, and the direction of the balance 1 force can be changed through the fixed pulley 11, so that the balance 1 can drive the fixing part 5 to move along a second direction (i.e., a Y direction shown in fig. 2) through the rope 10.

Illustratively, referring to fig. 3, the fixing portion 5 further includes two first connection plates disposed at intervals along a first direction (i.e., the X direction shown in fig. 3), including a first sub connection plate 52a located at a left side and a second sub connection plate 52b located at a right side, the first sub connection plate 52a extending along a third direction (i.e., the Z direction shown in fig. 3), two ends of the first sub connection plate 52a being respectively connected to the fixing plate 50 and the left side of the fixing frame 51, the first sub connection plate 52a being connected to the fifth sub sliding portion 4a, the second sub connection plate 52b extending along a third direction (i.e., the Z direction shown in fig. 3), two ends of the second sub connection plate 52b being respectively connected to the fixing plate 50 and the right side of the fixing frame 51, and the second sub connection plate 52b being connected to the sixth sub sliding portion 4b.

Illustratively, with continued reference to fig. 3, a first sub-buffer block 512a is disposed at the bottom of the left side of the fixed frame 51 along the second direction (i.e., the Y direction shown in fig. 3), a second sub-buffer block 512b is disposed at the bottom of the right side of the fixed frame 51, and the first sub-buffer block 512a and the second sub-buffer block 512b are disposed at intervals along the first direction (i.e., the X direction shown in fig. 3), so that the pain feeling when the operator carelessly touches the fixed frame 51 is reduced by disposing the first sub-buffer block 512a and the second sub-buffer block 512 b.

Illustratively, referring to fig. 1, a second opening 513 is opened at the bottom of the fixing frame 51 in a second direction (i.e., Y direction shown in fig. 2), and the second opening 513 is used for a user to operate the fixing part 5.

Illustratively, referring to fig. 3 and 4, the limiting portion 6 includes two limiting portions 6a disposed at intervals along the X direction shown in fig. 3, that is, includes a first limiting portion 6a located on the left side and a second limiting portion 6b located on the right side, the first limiting portion 6a includes a first bottom surface 60a, a first inclined surface 61a and a first vertical surface 62a, the first inclined surface 61a is disposed obliquely toward the third sub-sliding portion 3a and has an angle smaller than 90 ° with the first bottom surface 60a, and the first vertical surface 62a is located above the first inclined surface 61a and is connected with the first inclined surface 61a along the second direction (i.e., the Y direction shown in fig. 3); the second limiting portion 6b includes a second bottom surface 60b, a second inclined surface 61b and a second vertical surface 62b, the second inclined surface 61b is inclined toward the fourth sub-sliding portion 3b, an included angle between the second inclined surface 61b and the second bottom surface 60b is smaller than 90 °, and the second vertical surface 62b is located above the second inclined surface 61b and connected with the second inclined surface 61b along the second direction (i.e., the Y direction shown in fig. 3).

For example, referring to fig. 3 and 5, when the unlocking part 7 moves downward in the second direction (i.e., moves in the direction b shown in fig. 5), the first rolling means 70a described later can roll along the first inclined surface 61a to be located under the first bottom surface 60a and is restricted by the first bottom surface 60a, and the second rolling means 70b described later can roll along the second inclined surface 61b to be located under the second bottom surface 60b and is restricted by the second bottom surface 60b, i.e., is in the state shown in fig. 3, under the elastic force.

As an example, with continued reference to fig. 3 and 5, when the unlocking means is turned, the first rolling means 70a described later can be separated from the first bottom surface 60a, the second rolling means 70b described later can be separated from the second bottom surface 60b, the first rolling means 70a described later can be located above the first inclined surface 61a and roll along the first inclined surface 61a to the first vertical surface 60a until it is separated from the first limiting portion 6a, and the second rolling means 70b described later can be located above the second inclined surface 61b and roll along the second inclined surface 61b to the second vertical surface 60b until it is separated from the second limiting portion 6b, i.e., in the state shown in fig. 5.

Illustratively, referring to fig. 3 in combination with fig. 4 and 5, the unlocking means includes an unlocking frame 71, and the unlocking frame 71 includes two unlocking levers, which are a first unlocking lever 710a located at the left side and a second unlocking lever 710b located at the right side, respectively, disposed at intervals in a first direction (i.e., the X direction shown in fig. 3) and a connecting lever 711 connecting the two unlocking levers.

The first unlocking lever 710a extends along the second direction (i.e., Y direction shown in fig. 3) and is rotatably connected to the back of the fixing plate 50, the top of the first unlocking lever 710a is provided with a first rolling device 70a, one side of the first unlocking lever 710a away from the first rolling device 70a is provided with a first thread 7100a, the first thread 7100a is provided with a third opening 71000a, the top of the left side of the fixing frame 51 is provided with a second thread 510a along the second direction, the second thread 510a is provided with a fourth opening 5100a, and two ends of the first elastic member 52a respectively hook the third opening 71000a and the fourth opening 5100a.

The second unlocking lever 710b extends along a second direction (i.e., Y direction shown in fig. 3) and is rotatably connected to the back of the fixing plate 50, the top of the second unlocking lever 710b is respectively provided with a second rolling device 70b, one side of the second unlocking lever 710b away from the second rolling device 70b is provided with a third thread 7100b, the third thread 7100b is provided with a fifth opening 71000b, the top of the right side of the fixing frame 51 is provided with a fourth thread 510b along the second direction, the fourth thread 510b is provided with a sixth opening 5100b, and two ends of the second elastic member 52b respectively hook the fifth opening 71000b and the sixth opening 5100b.

Here, the types of the first elastic member 52a and the second elastic member 52b are not limited in this application, as long as they have elasticity, for example, a compression spring in this embodiment, or a rubber spring may be used.

Illustratively, with continued reference to fig. 3, the unlocking device further includes an unlocking handle 72, the unlocking handle 72 being connected with a side of the connecting rod 711 near the fixed frame 51, the unlocking handle 72 being provided with a seventh opening 720 for facilitating the user to rotate the unlocking frame 71.

While the utility model has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing is a further detailed description of the utility model with reference to specific embodiments, and it is not intended to limit the practice of the utility model to those descriptions. Various changes in form and detail may be made therein by those skilled in the art, including a few simple inferences or alternatives, without departing from the spirit and scope of the present utility model.

Claims (11)

1. The mounting mechanism of the electronic equipment is characterized by comprising a balance part, a first sliding part, a second sliding part, a third sliding part, a fixing part, a limiting part and an unlocking part; wherein:

the balance part is connected with the fixed part through a rope;

the first sliding parts comprise two sliding parts which are arranged at intervals along a first direction, each sliding part extends along a second direction, and the second direction is intersected with the first direction;

the second sliding parts comprise two sliding parts which are arranged at intervals along the first direction, and each second sliding part is connected with the first sliding part in a manner of sliding along the second direction;

the third sliding parts comprise two sliding parts which are arranged at intervals along the first direction, and each third sliding part is connected with the second sliding part in a manner of sliding along the second direction;

the fixing part comprises a fixing plate and a fixing frame, the fixing plate is arranged on the rear side of the fixing frame along a third direction and is arranged at intervals with the fixing frame, the fixing plate is connected with the rope, the third direction is intersected with the first direction and the second direction respectively, the fixing frame is connected with the third sliding part, and the fixing frame is used for mounting electronic equipment;

along the second direction, the limiting part is positioned at the top end of the fixed frame and is connected with the first sliding part;

the unlocking part comprises a rolling device and an unlocking device, the unlocking device is rotatably connected with the fixed plate around a first direction, the unlocking device is elastically connected with the fixed frame, the rolling device is arranged at the top end of the unlocking device along a second direction, and the unlocking part can be switched between an unlocking state and a locking state;

the rolling device can be separated from the lower part of the limiting part by rotating the unlocking device, so that the unlocking part is in the unlocking state;

when the unlocking part moves downwards along the second direction, the rolling device rolls along the limiting part to be positioned below the limiting part, so that the unlocking part is in the locking state.

2. The mounting mechanism of an electronic device according to claim 1, wherein the stopper portion includes a bottom surface and an inclined surface, the inclined surface being inclined toward the second sliding portion and having an angle of less than 90 ° with the bottom surface; when the unlocking part moves downwards along the second direction, the rolling device can roll along the inclined surface to be positioned below the bottom surface under the action of elastic force; when the unlocking device is rotated, the rolling device can be separated from the bottom surface, and under the action of elastic force, the rolling device can be positioned above the inclined surface and roll along the inclined surface.

3. The mounting mechanism of an electronic device according to claim 2, wherein the stopper portion further includes a vertical surface along the second direction, the vertical surface being located above the inclined surface and connected to the inclined surface.

4. The mounting mechanism of an electronic device according to claim 1, wherein the unlocking means comprises an unlocking frame including two unlocking levers arranged at intervals along the first direction and a connecting lever connecting the two unlocking levers, the two unlocking levers extending along the second direction and being rotatably connected to the back surface of the fixing plate, and the rolling means being provided at the top portions of the two unlocking levers, respectively, along the second direction.

5. The mounting mechanism of an electronic device according to claim 4, wherein the unlocking means further comprises an unlocking handle connected to a side of the connecting rod adjacent to the fixed frame.

6. The mounting mechanism of an electronic device according to claim 4, wherein two of the connecting rods are connected to the fixed frame through first elastic members, respectively.

7. The mounting mechanism of electronic equipment according to claim 6, wherein a first thread is mounted on a side of each of the two connecting rods, which is far from the rolling device, a third opening is formed in each of the first threads, a second thread is mounted on both sides of the top of the fixing frame in the second direction, a fourth opening is formed in each of the second threads, and both ends of the first elastic member hook the third opening and the fourth opening.

8. The mounting mechanism of an electronic device according to claim 1, wherein the fixing portion further includes two first connection plates disposed at intervals along the first direction, each of the first connection plates extends along the third direction, both ends of the first connection plates are respectively connected to the fixing plate and the fixing frame, both ends of the first connection plates are respectively connected to the third sliding portion, and the fixing frame is provided with a first opening for mounting the electronic device.

9. The mounting mechanism of an electronic device according to claim 1, wherein a bottom of the fixed frame is provided with first buffer blocks arranged at intervals along the first direction along the second direction.

10. The mounting mechanism of claim 1, wherein in the second direction, a second opening is provided in a bottom of the fixing frame, the second opening being for a user to operate the fixing portion.

11. The mounting mechanism of an electronic device according to claim 1, wherein the rope is connected to the balance portion and the fixing portion, respectively, via fixed pulleys.