CN220493101U - Mounting device - Google Patents

Abstract

The application discloses installation device relates to communication engineering technical field for solve the inconvenient problem of communication equipment maintenance on the installation device. The mounting device comprises a mounting seat, a supporting piece, a mounting frame and a first driving assembly. One side of the mounting seat is provided with a mounting surface. The support is arranged on the mounting surface. The mounting frame is located the mount pad and is close to support piece one side, and is located support piece one side. Along a first direction, the mounting frame is in sliding connection with the support. The installation frame is internally provided with an installation space for placing communication equipment. Wherein the first direction intersects the mounting surface. The first driving component is connected with the supporting piece and is connected with the mounting frame. The first driving component is used for driving the mounting frame to move along a first direction. The mounting device is used for mounting communication equipment.

Description

Mounting device

Technical Field

The application relates to the technical field of communication engineering, in particular to a mounting device.

Background

The communication generally comprises military communication and civil communication, and the implementation of the communication is independent of communication equipment. The communication device generally refers to a device for solving serial communication, professional bus type communication, industrial ethernet communication and conversion between various communication protocols in an industrial field, and is classified into a wireless communication device and a wired communication device. The wired communication equipment mainly comprises a router, a switch, a modem and the like, and the wireless communication equipment mainly comprises wireless access point equipment, a wireless network bridge, a wireless lightning arrester, an antenna and the like.

In order to improve the signal transceiving capability of the wireless communication device, the wireless communication device is generally required to be matched with an installation device for use. The mounting device generally comprises a base, a support rod and a mounting frame. The base may be adapted to be mounted on the ground. The bracing piece sets up in base one side of keeping away from ground, and the mounting frame is connected with the one end that the base was kept away from to the bracing piece, and the inside wireless communication equipment that can be used for of mounting frame. Thus, the wireless communication equipment placed in the mounting frame has a certain height from the ground, and the signal receiving and transmitting effect is good.

However, to current installation device, when the maintainer need overhaul the communication equipment in the installing frame, need use supplementary climbing instrument to overhaul, overhaul inconvenient.

Disclosure of Invention

The application provides a mounting device for solve the inconvenient problem of communication equipment maintenance on the mounting device.

The application provides a mounting device, including mount pad, support piece, installing frame and first drive assembly. One side of the mounting seat is provided with a mounting surface. The support is arranged on the mounting surface. The mounting frame is located the mount pad and is close to support piece one side, and is located support piece one side. Along a first direction, the mounting frame is in sliding connection with the support. The installation frame is internally provided with an installation space for placing communication equipment. Wherein the first direction intersects the mounting surface. The first driving component is connected with the supporting piece and is connected with the mounting frame.

The first driving component is used for driving the mounting frame to move along a first direction.

The mounting device provided by the application, the mounting surface on the mounting seat can provide mounting positions for the supporting piece and other structures in the mounting device. The side of the mounting base facing away from the mounting surface can be used for connection to the ground, so that the mounting device can be fixed to the ground. When the mounting frame moves towards the direction close to the mounting surface, the mounting frame can drive the communication equipment to move towards the direction close to the ground, so that maintenance staff can stand on the ground to maintain the communication equipment, and maintenance difficulty of the communication equipment can be reduced. When the mounting frame moves towards the direction far away from the mounting surface, the mounting frame can drive the communication equipment to move towards the direction far away from the ground, so that the communication equipment is at a certain height from the ground, and the signal receiving and transmitting effect of the communication equipment can be improved.

Under the drive action of the first drive assembly, the mounting frame can automatically slide on the support piece, and maintenance personnel are not required to manually drive the mounting frame, so that the sliding of the mounting frame on the support piece is more convenient to realize, the use convenience of the mounting device is greatly improved, the maintenance difficulty of communication equipment is further reduced, and the maintenance time is shortened.

Optionally, a sliding groove is formed on one side, close to the mounting frame, of the supporting piece, and the sliding groove extends along the first direction. A part of the mounting frame is positioned in the chute and is in sliding connection with the chute. The mounting frame is provided with a connecting hole. The first driving assembly comprises a first motor and a first screw rod, wherein the first motor is positioned on one side of the supporting piece and is connected with the supporting piece. The first motor has a first output shaft. The first screw is connected with the first output shaft. The first screw rod extends along the first direction, penetrates through the connecting hole and is in threaded connection with the mounting frame.

Optionally, a through hole is formed on a side, away from the mounting seat, of the supporting piece, and the through hole is communicated with the sliding groove. The first motor is located the support piece and keeps away from mount pad one side, and first output shaft wears to locate in the through-hole. The first screw rod is located the spout, and one end is connected with first output shaft, and the other end supports with the cell wall of spout.

Optionally, a guiding groove is formed in the bottom of the sliding groove, and the guiding groove extends along the first direction. The installation frame comprises a frame body, a connecting block and a guide block. An installation space is formed inside the frame body. The connecting block is positioned on one side of the frame body close to the supporting piece and is connected with the frame body. The connecting block is positioned in the chute. Along the first direction, the connecting hole has been seted up to one side of connecting block, and the connecting hole is the through-hole. The guide block is located one side of the connecting block away from the frame body and connected with the connecting block. The guide block is positioned in the guide groove and is in sliding connection with the guide groove.

Optionally, the mounting frame is kept away from mount pad one side and has been seted up and dodges the hole, dodges hole and installation space intercommunication. The mounting device further comprises a placing piece and a driving piece, and the placing piece is arranged in the mounting space. One side of the placing piece far away from the mounting seat is provided with a placing surface used for placing communication equipment. The driving piece is located one side of the mounting frame far away from the mounting seat and is connected with the mounting frame. The driving piece is provided with a driving shaft, and the driving shaft penetrates through the avoiding hole and is connected with the placing piece. The driving piece is used for driving the placing piece to rotate around the axis of the avoidance hole through the driving shaft.

Optionally, a guiding groove is formed in the inner side of the mounting frame, and the guiding groove is annular and is arranged around the avoidance hole in a circle. The mounting device further comprises a guide piece, wherein the guide piece is positioned on one side of the placing piece far away from the mounting seat and is connected with the placing piece. The guide piece is positioned in the guide groove and is movably connected with the guide groove.

Optionally, the guide member includes a connecting portion and a roller, and the connecting portion is connected to the placement member. The roller is located on one side of the connecting part far away from the placing piece and is rotationally connected with the connecting part. The roller is positioned in the guide groove and is in rolling connection with the guide groove.

Optionally, the placing piece comprises a first abutting plate and a second abutting plate, and a placing surface is arranged on one side, far away from the mounting seat, of the first abutting plate. The second leaning plate is positioned on one side of the first leaning plate far away from the mounting seat and is connected with the driving shaft. A gap is formed between the second abutting plate and the first abutting plate. The connecting plate is located one side of the second abutting plate, which is close to the first abutting plate, and is connected with the second abutting plate and the first abutting plate.

Optionally, a sliding hole is formed on one side of the first abutting plate, which is close to the second abutting plate, and the sliding hole is a through hole. The connecting plate is arranged in the sliding hole in a penetrating way and is in sliding connection with the first abutting plate. The mounting device further comprises a second driving assembly, wherein the second driving assembly is arranged in the mounting space, is positioned on one side of the first abutting plate away from the second abutting plate, is connected with the mounting frame and is connected with the first abutting plate. The second driving component is used for driving the first abutting plate to move towards a direction approaching or separating from the second abutting plate.

Optionally, the second driving assembly includes a fixing base, a second motor, a second screw, and a driving column. The fixing seat is connected with the mounting frame. A fixing hole is formed in one side, close to the first abutting plate, of the fixing base. And the hole wall of the fixed hole is provided with a limit groove, and the extending direction of the limit groove is the same as the axis direction of the fixed hole. The second motor is positioned in the fixing hole and is connected with the fixing seat. The second motor has a second output shaft. The second screw rod is positioned in the fixed hole and connected with the second output shaft. The second screw extends along the axial direction of the fixing hole. The driving column penetrates through the fixing hole, and the periphery side is provided with a limiting part. The limiting part is positioned in the limiting groove and is in sliding connection with the limiting groove. And a driving hole is formed in the end face of one end of the driving column along the axis direction of the fixing hole, and a second screw rod penetrates through the driving hole and is in threaded connection with the driving column. The other end of the driving column is connected with the first abutting plate.

Drawings

The accompanying drawings are included to provide a further understanding of the technical aspects of the present application, and are incorporated in and constitute a part of this specification, illustrate the technical aspects of the present application and together with the examples of the present application, and not constitute a limitation of the technical aspects of the present application.

FIG. 1 is a schematic view of a mounting device provided in an embodiment of the present application;

FIG. 2 is a cross-sectional view of a mounting device provided in an embodiment of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a cross-sectional view of a second drive assembly provided in an embodiment of the present application.

Reference numerals:

100-mounting devices; 1-a mounting base; 2-a support; 3-a mounting frame; 4-a first drive assembly; 5-placing pieces; 6-a driving member; 7-a second drive assembly; 8-a guide; 11-mounting surface; 21-a chute; 22-through holes; 23-a guide groove; 31-installation space; 32-a taking and placing port; 33-a frame; 34-connecting blocks; 35-a guide block; 36-avoiding holes; 37-guiding grooves; 41-a first motor; 42-a first screw; 51-placing the surface; 52-a first abutment plate; 53-a second abutment plate; 54-connecting plates; 521-sliding holes; 61-drive shaft; 71-a fixed seat; 72-a second motor; 73-a second screw; 74-driving the column; 711-fixing holes; 712-limit grooves; 721-a second output shaft; 741-a limit part; 81-connecting part; 82-roller.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is correspondingly changed.

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 present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context. In addition, when describing a pipeline, the terms "connected" and "connected" as used herein have the meaning of conducting. The specific meaning is to be understood in conjunction with the context.

In the embodiments of the present application, words such as "exemplary" or "such as" are used to mean serving as examples, illustrations, or descriptions. Any embodiment or design described herein as "exemplary" or "for example" should not be construed 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 mounting device is used for mounting and fixing the mounting tool of the communication equipment, and aims at the existing mounting device, when the communication equipment mounted on the mounting device needs to be overhauled, an overhauling staff needs to use the auxiliary climbing tool to overhaul the communication equipment, and overhaul is very inconvenient, so that overhaul time is long.

A special bracket for detecting signals of communication equipment is proposed in the related art, and comprises a fixing mechanism, an adjusting mechanism, a supporting rod, a base and a rotating mechanism. The lower side of the fixing mechanism is fixedly connected with the upper side of the rotating mechanism, the lower side of the rotating mechanism is fixedly connected with the upper side of the adjusting mechanism, the lower side of the adjusting mechanism is fixedly connected with the upper side of the supporting rod, and the lower side of the supporting rod is fixedly connected with the upper side of the base.

Because the mechanism of the bracket is too complicated, the maintenance and the daily maintenance of maintenance personnel are not facilitated, and the time spent on the maintenance is longer, so that the practicability of the bracket is reduced. In addition, the support rod in the support can only be fixed in length, and the angle and the height of the support rod can not be adjusted, so that the application range of the support is limited.

Based on this, the embodiment of the present application provides a mounting device, as shown in fig. 1, fig. 1 is a schematic diagram of the mounting device provided in the embodiment of the present application, and the mounting device 100 may be used for mounting a communication device, and includes a mounting base 1, a supporting member 2, and a mounting frame 3.

One side of the mounting base 1 has a mounting surface 11, and the support 2 is provided on the mounting surface 11. The mounting surface 11 on the mount 1 may provide a mounting location for the support 2 as well as other structures in the mounting device 100. The side of the mount 1 facing away from the mounting surface 11 may be used to connect to the ground, thereby allowing the mounting device 100 to be secured to the ground.

The shape of the mount 1 may be specifically set according to practical situations, and the shape of the mount 1 may be set in a rectangular plate shape, for example.

The installation frame 3 is internally formed with an installation space 31, and the installation space 31 can be used for placing communication equipment. The shape of the mounting frame 3 is not particularly limited herein, and the mounting frame 3 may be rectangular parallelepiped frame-like in shape, for example.

In order to facilitate the taking and placing of the communication equipment in the installation space 31, the installation frame 3 is provided with a taking and placing opening 32 communicated with the installation space 31. The number of the pick-and-place openings 32 is not particularly limited herein, and illustratively, the number of the pick-and-place openings 32 is two, and the two pick-and-place openings 32 are respectively opened at two opposite sides of the mounting frame 3.

With continued reference to fig. 1, the mounting frame 3 is located on the side of the mounting base 1 adjacent to the support 2 and on the side of the support 2. Along the first direction X, the mounting frame 3 is slidingly connected with the support 2. Wherein the first direction X intersects the mounting surface 11. The mounting frame 3 is movable in a direction approaching or separating from the mounting surface 11, so that the communication device in the mounting frame 3 can be moved in a direction separating from or approaching the mounting surface 11.

Illustratively, when the mounting frame 3 moves in a direction close to the mounting surface 11, the mounting frame 3 can drive the communication device to move in a direction close to the ground, so that an maintainer can stand on the ground to overhaul the communication device, and overhaul difficulty of the communication device can be reduced. When the mounting frame 3 moves towards the direction far away from the mounting surface 11, the mounting frame 3 can drive the communication equipment to move towards the direction far away from the ground, so that the communication equipment can be at a certain height from the ground, and the signal receiving and transmitting effect of the communication equipment can be improved.

The number of the supporting members 2 may be specifically set according to actual requirements, and as shown in fig. 1, for example, the number of the supporting members 2 is two, and the two supporting members 2 are respectively located at two opposite sides of the mounting frame 3 and are connected with the mounting seat 1. In this way, since the supporting members 2 are supported on two opposite sides of the mounting frame 3, the mounting frame 3 has higher stability when sliding along the first direction X, and the mounting device 100 has higher structural strength.

In order to make sliding of the mounting frame 3 on the support 2 easier to achieve, with continued reference to fig. 1, the mounting device 100 may further comprise a first drive assembly 4, the first drive assembly 4 being connected to the support 2 and to the mounting frame 3. The first driving component 4 is used for driving the mounting frame 3 to move along the first direction X.

Thus, under the driving action of the first driving component 4, the mounting frame 3 can automatically slide on the supporting piece 2, and a maintainer does not need to manually drive the mounting frame 3, so that the sliding of the mounting frame 3 on the supporting piece 2 is more convenient to realize, the use convenience of the mounting device 100 is greatly improved, the overhaul difficulty of communication equipment is further reduced, and the overhaul time is shortened.

It should be noted that, as shown in fig. 1, when the number of the supporting members 2 is two, the number of the first driving assemblies 4 is also two. One of the first driving units 4 is connected to the first support member 2 and to a surface of the mounting frame 3 adjacent to the first support member 2. The other first driving member 4 is connected to the second support member 2 and to a surface of the mounting frame 3 on a side close to the second support member 2.

With continued reference to fig. 1, in some embodiments, a chute 21 is formed in a side of the support member 2 adjacent to the mounting frame 3, and the chute 21 extends in the first direction X. A part of the mounting frame 3 is positioned in the chute 21 and slidingly connected with the chute 21. Under the guiding action of the chute 21, the mounting frame 3 is slidable on the support 2 along the extending direction (i.e., the first direction X) of the chute 21.

As shown in fig. 2, fig. 2 is a cross-sectional view of a mounting device 100 according to an embodiment of the present application, and a connection hole (not shown) is formed in a mounting frame 3. The first driving assembly 4 may include a first motor 41 and a first screw 42. The first motor 41 is located at one side of the support 2 and is connected to the support 2. The first motor 41 has a first output shaft (not shown in the drawings). The first screw 42 is connected to the first output shaft. The first screw 42 may externally output power through the first output shaft, thereby driving the first screw 42 to rotate.

The first screw 42 extends in the first direction X, penetrates through the connecting hole, and is in threaded connection with the mounting frame 3. It will be appreciated that the connection hole is a threaded hole, and the first screw 42 is threaded into the connection hole and can be screwed with the mounting frame 3.

Since a part of the mounting frame 3 is clamped in the chute 21, when the first screw 42 rotates, the chute wall of the chute 21 can abut against the mounting frame 3, so that the mounting frame 3 can be prevented from rotating together with the first screw 42. Thus, when the first screw 42 rotates, the mounting frame 3 is driven to move along the extending direction (i.e. the first direction X).

In some other embodiments, the first driving assembly 4 may also be a cylinder, which is provided on the support 2, and the output end of which is connected to the mounting frame 3. The mounting frame 3 can also be moved in the first direction X under the drive of the cylinder.

When the first driving assembly 4 includes the first motor 41 and the first screw 42, the arrangement position of the first motor 41 on the support member 2 is not particularly limited herein, and the first motor 41 may be disposed on the side of the support member 2 near the mounting frame 3, in which case the first screw 42 is also disposed on the side of the support member 2 near the mounting frame 3, for example. Of course, to facilitate the mounting of the first motor 41 on the support 2, the first motor 41 may also be arranged on the side of the support 2 remote from the mounting seat 1.

With continued reference to fig. 2, when the first motor 41 is disposed on the side of the support member 2 away from the mounting seat 1, a through hole 22 is formed on the side of the support member 2 away from the mounting seat 1, and the through hole 22 is communicated with the chute 21. The first motor 41 is located on the side of the support 2 away from the mounting base 1, and a first output shaft (not shown) is disposed through the through hole 22. The first screw 42 is located in the chute 21, and has one end connected to the first output shaft and the other end abutting against the wall of the chute 21.

The first output shaft of the first motor 41 located above the support 2 may extend into the chute 21 through the through hole 22, so as to be connected with the first screw 42 in the chute 21, and drive the first screw 42 to rotate in the chute 21. When the first driving assembly 4 operates, as the upper end of the first screw rod 42 is connected with the first output shaft, the lower end of the first screw rod 42 is propped against the groove wall of the chute 21, and the upper end and the lower end of the first screw rod 42 can be limited, so that the first screw rod 42 is not easy to shift when the mounting frame 3 is driven to move in the chute 21, and the reliability of the first driving assembly 4 is greatly improved.

In order to further prevent the first driving component 4 from being displaced when the mounting frame 3 is moved, in some embodiments, as shown in fig. 3, fig. 3 is a partial enlarged view of a portion a in fig. 2, a guiding groove 23 is formed at a bottom of the sliding groove 21, and the guiding groove 23 extends along the first direction X. It will be appreciated that the notch of the guide groove 23 is disposed toward the mounting frame 3.

As shown in fig. 2, the mounting frame 3 may include a frame body 33, a connection block 34, and a guide block 35. The inside of the frame 33 forms an installation space 31. The connection block 34 is located on the side of the frame 33 close to the support 2, and is connected to the frame 33. The connection block 34 is located in the chute 21. A connection hole (not shown) is formed in one side of the connection block 34 along the first direction X, and the connection hole is a through hole.

As shown in fig. 3, the guide block 35 is located on a side of the connection block 34 away from the frame 33 (fig. 2), and is connected to the connection block 34. The guide block 35 is positioned in the guide groove 23 and is in sliding connection with the guide groove 23.

Thus, when the mounting frame 3 moves along the first direction X, the connecting block 34 in the mounting frame 3 is clamped in the chute 21, and the connecting block 34 can move along the first direction X under the guiding action of the chute 21. Since the guide block 35 in the mounting frame 3 is clamped in the guide groove 23, the guide block 35 can move along the first direction X under the guiding action of the guide groove 23.

Therefore, by making the mounting frame 3 include the connection block 34 and the guide block 35, the mounting frame 3 can stably move along the first direction X under the double guiding action of the guide groove 23 and the slide groove 21, thereby effectively preventing the mounting frame 3 from being shifted in position during the movement process and improving the reliability of the mounting device 100.

When the number of the supporting members 2 and the first driving units 4 is two, the number of the connecting blocks 34 and the guide blocks 35 in the mounting frame 3 is two. The two connecting blocks 34 are respectively arranged on two opposite sides of the frame 33 and are respectively positioned in the sliding grooves 21 on the two supporting pieces 2. The first screws 42 of the two first driving assemblies 4 are respectively penetrated into the connecting holes of the two connecting blocks 34. One of the guide blocks 35 is provided on the side of one of the connection blocks 34 remote from the frame 33, in the guide groove 23 on one of the support members 2. The other guide block 35 is provided on the side of the other connection block 34 remote from the frame 33 and is located in the guide groove 23 on the other support 2.

In some embodiments, as shown in fig. 1, the mounting device 100 may further include a placement member 5, the placement member 5 being disposed within the mounting space 31. The side of the placement member 5 remote from the mounting base 1 has a placement surface 51, and the placement surface 51 may be used for placing communication equipment.

In order to enable the communication equipment on the placement surface 51 to rotate in the installation space 31, and further adjust the signal receiving and transmitting range of the communication equipment, an avoidance hole 36 is formed in one side, away from the installation seat 1, of the installation frame 3, and the avoidance hole 36 is communicated with the installation space 31. The mounting device 100 may further include a driving member 6, where the driving member 6 is located on a side of the mounting frame 3 away from the mounting base 1 and is connected to the mounting frame 3. The driving member 6 has a driving shaft 61 (fig. 2), and the driving shaft 61 is inserted into the escape hole 36 and connected to the placement member 5. The driving member 6 is used for driving the placement member 5 to rotate around the axis of the escape hole 36 through the driving shaft 61.

In this way, through setting up driving piece 6 in installation device 100, because driving shaft 61 of driving piece 6 can stretch into in installation space 31 through dodging hole 36, and then can be connected with placing piece 5, drive placing piece 5 and rotate in installation space 31, the communication equipment on the placing piece 5 can take place to rotate under the drive of driving piece 6, and then can adjust its signal receiving and dispatching scope, has further promoted installation device 100's practicality.

The driving member 6 may be a motor, and an output shaft of the motor is disposed in the avoidance hole 36 and connected to the placement member 5. In this case, the motor can rotate the placement element 5 via its output shaft during operation.

Of course, the driving member 6 may further include an air cylinder, a rack, a gear and a rotating shaft, where the air cylinder is disposed on a side of the mounting frame 3 away from the mounting seat 1, and the rack is connected with an output end of the air cylinder. The rotating shaft is arranged in the avoiding hole 36 in a penetrating way and is connected with the placing piece 5. The gear is sleeved on the rotating shaft and meshed with the rack. In this case, the gear can be driven to rotate by the rack during operation of the cylinder, so that the rotating shaft can be driven to rotate in the avoiding hole 36, and the placing piece 5 can be driven to rotate in the installation space 31.

The configuration of the placement member 5 is not particularly limited herein, and as illustrated in fig. 2, the placement member 5 may include a first abutment plate 52, a second abutment plate 53, and a connection plate 54, for example. The first abutment plate 52 has a placement surface 51 on a side thereof remote from the mounting base 1. The second abutment plate 53 is located on the side of the first abutment plate 52 away from the mounting base 1 and is connected to the drive shaft 61. A gap is provided between the second abutting plate 53 and the first abutting plate 52. The connection plate 54 is located on the side of the second abutting plate 53 close to the first abutting plate 52, and is connected to the second abutting plate 53 and the first abutting plate 52.

The gap between the first abutting plate 52 and the second abutting plate 53 can provide a placing space for the communication equipment, and the placing surface 51 on the upper side of the first abutting plate 52 can form a support for the communication equipment.

Since the second abutting plate 53 is connected with the driving shaft 61, and the second abutting plate 53 is connected with the first abutting plate 52 through the connecting plate 54, the driving shaft 61 can drive the first abutting plate 52 to rotate through the second abutting plate 53 and the connecting plate 54, and further can drive the communication equipment on the placing surface 51 to rotate.

By making the placement piece 5 include the first abutting plate 52, the second abutting plate 53 and the connecting plate 54, since the driving shaft 61 is located above the second abutting plate 53 and connected with the second abutting plate 53, the communication device is placed below the second abutting plate 53, and the driving shaft 61 does not interfere with the placement of the communication device on the placement surface 51, thereby making the use of the mounting device 100 more convenient.

The number of the connection plates 54 may be specifically set according to actual circumstances, and illustratively, the number of the connection plates 54 may be set to two.

Of course, in some other embodiments, the placement member 5 comprises only the first abutment plate 52, in which case the drive shaft 61 is connected to the placement face 51 of the first abutment plate 52.

When the placement member 5 includes the first abutment plate 52, the second abutment plate 53 and the connection plate 54, and the communication device is placed between the first abutment plate 52 and the second abutment plate 53, in order to prevent the communication device from shaking on the placement surface 51, in some embodiments, with continued reference to fig. 2, a sliding hole 521 is formed on a side of the first abutment plate 52 adjacent to the second abutment plate 53, and the sliding hole 521 is a through hole. The connection plate 54 is inserted into the sliding hole 521 and slidably connected to the first abutment plate 52. The mounting device 100 may further include a second driving assembly 7, where the second driving assembly 7 is disposed in the mounting space 31, is located on a side of the first abutment plate 52 away from the second abutment plate 53, is connected to the mounting frame 3, and is connected to the first abutment plate 52. The second driving component 7 is used for driving the first abutting plate 52 to move towards or away from the second abutting plate 53.

It will be appreciated that when the number of the connection plates 54 is two, the number of the slide holes 521 is correspondingly provided two. The two connection plates 54 are respectively inserted into the two sliding holes 521 and slidably connected to the first abutment plate 52.

Since the connection plate 54 can achieve a sliding connection with the first abutting plate 52 through the slide hole 521, the first abutting plate 52 can slide in a direction approaching or moving away from the second abutting plate 53. Since the second driving assembly 7 is connected to the first abutting plate 52, the second driving assembly 7 can apply a force to the first abutting plate 52, so that the first abutting plate 52 can be moved in a direction approaching or moving away from the first abutting plate 52.

When the first abutting plate 52 moves towards the direction approaching to the second abutting plate 53, the communication equipment can be pressed and fixed between the first abutting plate 52 and the second abutting plate 53, so that the communication equipment can be effectively prevented from moving on the placement surface 51, and the firmness of the communication equipment on the mounting device 100 is improved.

When the communication device is overhauled and needs to be detached from the mounting device 100, an overhauler can drive the first abutting plate 52 to move towards a direction away from the second abutting plate 53 through the second driving assembly 7, so that a gap between the first abutting plate 52 and the second abutting plate 53 is increased, and the overhauler can conveniently take out the communication device from the gap.

In order to enable the second driving assembly 7 to move the first abutment plate 52 in a direction approaching or moving away from the second abutment plate 53, in some embodiments, as shown in fig. 4, fig. 4 is a cross-sectional view of the second driving assembly 7 provided in the embodiment of the present application, the second driving assembly 7 may include a fixing seat 71, a second motor 72, a second screw 73, and a driving post 74. The fixing base 71 is connected to the mounting frame 3 (fig. 2). The fixing base 71 has a fixing hole 711 formed on a side thereof adjacent to the first abutting plate 52 (fig. 2). The hole wall of the fixing hole 711 is provided with a limit groove 712, and the extending direction of the limit groove 712 is the same as the axial direction of the fixing hole 711. The second motor 72 is located in the fixing hole 711 and connected to the fixing base 71. The second motor 72 has a second output shaft 721. The second screw 73 is located in the fixing hole 711 and connected to the second output shaft 721. The second screw 73 extends in the axial direction of the fixing hole 711. The driving post 74 is inserted into the fixing hole 711, and has a stopper 741 on the peripheral side. The limit part 741 is positioned in the limit groove 712 and is in sliding connection with the limit groove 712. Along the axial direction of the fixing hole 711, a driving hole (not shown in the figure) is formed in an end surface of one end of the driving post 74, and the second screw 73 is inserted into the driving hole and is in threaded connection with the driving post 74. The other end of the drive post 74 is connected to the first abutment plate 52.

The fixing hole 711 on the fixing base 71 may provide an installation position for the second motor 72, the second screw 73, and the driving post 74, and the second motor 72, the second screw 73, and the driving post 74 may be fixed in the installation space 31 through the fixing base 71.

The second motor 72 may rotate the second screw 73 through a second output shaft 721. Because the second screw 73 is arranged in the driving hole in a penetrating way and is in threaded connection with the driving column 74, and the limiting part 741 on the driving column 74 is clamped in the limiting groove 712 on the wall of the fixing hole 711, the second screw 73 can drive the driving column 74 to move along the extending direction of the second screw 73 when rotating.

Since the driving post 74 is connected to the first abutment plate 52, the driving post 74 can drive the first abutment plate 52 to move along the extending direction of the second screw 73 when moving along the extending direction of the second screw 73, so that the first abutment plate 52 can be driven to move towards a direction approaching or separating from the second abutment plate 53, and the communication device can be pressed and fixed between the first abutment plate 52 and the second abutment plate 53.

The number of the limiting grooves 712 on the fixing base 71 and the number of the limiting portions 741 on the driving post 74 may be specifically set according to practical situations, and as shown in fig. 4, for example, the number of the limiting portions 741 is two, and the two limiting portions 741 are respectively disposed on two opposite sides of the driving post 74. Correspondingly, at this time, the number of the limiting grooves 712 is also two, and the two limiting parts 741 are respectively clamped in the two limiting grooves 712.

In some other embodiments, the second driving assembly 7 may also be a cylinder, where the output end of the cylinder is located on the side of the first abutment plate 52 near the mounting seat 1, and is connected to the mounting frame 3, and the output end of the cylinder is connected to the first abutment plate 52. In this way, the first abutting plate 52 can also be moved in a direction approaching or moving away from the second abutting plate 53 by the cylinder.

In order to prevent the placement member 5 from being displaced during rotation, in some embodiments, as shown in fig. 2, a guide groove 37 is formed on the inner side of the mounting frame 3, the guide groove 37 is annular, and the guide groove 37 is disposed around the avoiding hole 36. The mounting device 100 may further comprise a guide 8, the guide 8 being located on a side of the placement member 5 remote from the mounting base 1 and being connected to the placement member 5. The guide member 8 is located in the guide groove 37 and is movably connected with the guide groove 37.

In this way, under the guidance of the guide groove 37, the guide member 8 can rotate around the circumference of the avoidance hole 36, so that the placement member 5 can always rotate around the axis of the avoidance hole 36, thereby effectively preventing the placement member 5 from shifting in the rotation process, and further improving the reliability of the installation device 100 in use.

In some embodiments, with continued reference to fig. 2, the guide 8 may include a connection 81 and a roller 82, the connection 81 being connected to the placement member 5. The roller 82 is located at a side of the connecting portion 81 away from the placement member 5, and is rotatably connected to the connecting portion 81. The roller 82 is positioned in the guide groove 37 and is in rolling connection with the guide groove 37. When the placement member 5 rotates, the placement member 5 may drive the roller 82 to roll within the guide slot 37 via the connection member.

Because the guide piece 8 is in rolling connection with the guide groove 37 through the roller 82, the friction force between the guide piece 8 and the guide groove 37 is smaller relative to the sliding connection between the guide piece 8 and the guide groove 37, so that the resistance force born by the placing piece 5 during rotation is smaller, and the driving piece 6 only needs to output smaller acting force during rotation of the placing piece 5, the output power of the driving piece 6 is reduced, and the energy consumption is saved.

Of course, in some other embodiments, the guide 8 comprises only a connector, which is then located in the guide slot 37 in sliding connection with the guide slot 37. In this way, the guide 8 is simpler in construction and less costly.

The foregoing is merely a specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A mounting device for mounting a communication device, the mounting device comprising:

the mounting seat is provided with a mounting surface on one side;

a support member disposed on the mounting surface;

the mounting frame is positioned on one side of the mounting seat close to the supporting piece and one side of the supporting piece; the mounting frame is connected with the supporting piece in a sliding manner along a first direction; an installation space is formed in the installation frame, and the installation space is used for placing the communication equipment; wherein the first direction intersects the mounting surface; the method comprises the steps of,

the first driving assembly is connected with the supporting piece and the mounting frame; the first driving component is used for driving the mounting frame to move along the first direction.

2. The mounting device according to claim 1, wherein a chute is formed in a side of the support member adjacent to the mounting frame, the chute extending in the first direction; a part of the mounting frame is positioned in the chute and is in sliding connection with the chute; the mounting frame is provided with a connecting hole; the first drive assembly includes:

the first motor is positioned at one side of the supporting piece and is connected with the supporting piece; the first motor has a first output shaft; the method comprises the steps of,

the first screw is connected with the first output shaft; the first screw rod extends along the first direction, penetrates through the connecting hole and is in threaded connection with the mounting frame.

3. The mounting device according to claim 2, wherein a through hole is formed in one side of the support member away from the mounting seat, and the through hole is communicated with the chute; the first motor is positioned at one side of the supporting piece far away from the mounting seat, and the first output shaft penetrates through the through hole; the first screw is positioned in the chute, one end of the first screw is connected with the first output shaft, and the other end of the first screw is abutted to the wall of the chute.

4. A mounting device according to claim 3, wherein a guiding groove is provided at the bottom of the chute, the guiding groove extending in the first direction;

the mounting frame includes:

a frame body in which the installation space is formed; the method comprises the steps of,

the connecting block is positioned on one side of the frame body, which is close to the supporting piece, and is connected with the frame body; the connecting block is positioned in the chute; the connecting hole is formed in one side of the connecting block along the first direction, and is a through hole; the method comprises the steps of,

the guide block is positioned at one side of the connecting block away from the frame body and is connected with the connecting block; the guide block is positioned in the guide groove and is in sliding connection with the guide groove.

5. The mounting device according to claim 1, wherein a dodging hole is formed in one side of the mounting frame away from the mounting seat, and the dodging hole is communicated with the mounting space;

the mounting device further includes:

the placement piece is arranged in the installation space; the side, far away from the mounting seat, of the placing piece is provided with a placing surface, and the placing surface is used for placing the communication equipment; the method comprises the steps of,

the driving piece is positioned at one side of the mounting frame far away from the mounting seat and is connected with the mounting frame; the driving piece is provided with a driving shaft, and the driving shaft penetrates through the avoiding hole and is connected with the placing piece; the driving piece is used for driving the placing piece to rotate around the axis of the avoidance hole through the driving shaft.

6. The mounting device according to claim 5, wherein a guide groove is formed in the inner side of the mounting frame, and the guide groove is annular and is arranged around the avoiding hole in a circle; the mounting device further includes:

the guide piece is positioned at one side of the placing piece far away from the mounting seat and is connected with the placing piece; the guide piece is positioned in the guide groove and is movably connected with the guide groove.

7. The mounting device of claim 6, wherein the guide comprises:

a connecting part connected with the placing piece; the method comprises the steps of,

the roller is positioned at one side of the connecting part far away from the placing piece and is rotationally connected with the connecting part; the roller is positioned in the guide groove and is in rolling connection with the guide groove.

8. The mounting device of claim 5, wherein the placement member comprises:

the first abutting plate is provided with the placing surface at one side far away from the mounting seat;

the second leaning plate is positioned at one side of the first leaning plate away from the mounting seat and is connected with the driving shaft; a gap is formed between the second abutting plate and the first abutting plate; the method comprises the steps of,

the connecting plate is positioned on one side, close to the first abutting plate, of the second abutting plate and is connected with the second abutting plate and the first abutting plate.

9. The mounting device according to claim 8, wherein a sliding hole is formed in a side of the first abutting plate, which is close to the second abutting plate, and the sliding hole is a through hole; the connecting plate is arranged in the sliding hole in a penetrating way and is connected with the first abutting plate in a sliding way;

the mounting device further includes:

the second driving assembly is arranged in the installation space, is positioned at one side of the first abutting plate away from the second abutting plate, is connected with the installation frame and is connected with the first abutting plate; the second driving component is used for driving the first abutting plate to move towards the direction approaching to or away from the second abutting plate.

10. The mounting device of claim 9, wherein the second drive assembly comprises:

the fixed seat is connected with the mounting frame; a fixing hole is formed in one side, close to the first abutting plate, of the fixing base; a limiting groove is formed in the hole wall of the fixing hole, and the extending direction of the limiting groove is the same as the axis direction of the fixing hole;

the second motor is positioned in the fixing hole and is connected with the fixing seat; the second motor has a second output shaft;

the second screw rod is positioned in the fixed hole and is connected with the second output shaft; the second screw extends along the axis direction of the fixing hole; the method comprises the steps of,

the driving column penetrates through the fixing hole, and the periphery of the driving column is provided with a limiting part; the limiting part is positioned in the limiting groove and is in sliding connection with the limiting groove; a driving hole is formed in the end face of one end of the driving column along the axis direction of the fixing hole, and the second screw rod penetrates through the driving hole and is in threaded connection with the driving column; the other end of the driving column is connected with the first abutting plate.