CN115250123B - Electric power communication information receiving system - Google Patents

Abstract

The invention provides an electric power communication information receiving system, which belongs to the technical field of electric power communication and comprises a box body, a retraction mechanism, a horizontal positioning mechanism, a bearing plate, a rotating mechanism, a rotating table, a telescopic mechanism and a workbench, wherein the retraction mechanism comprises a guide rail, a moving plate and a first driver, the horizontal positioning mechanism comprises a supporting plate, a transverse moving assembly and a vertical moving assembly, and the rotating table is arranged on the rotating mechanism; the telescopic machanism sets up around the center equipartition of revolving stage, and the workstation is connected with the free end of telescopic machanism that corresponds, and workstation sliding connection is equipped with on the workstation and holds chamber, turn over folded plate and second driver in the revolving stage, and the second driver is connected with turning over folded plate, turns over folded plate and is used for installing signal receiver. The power communication information receiving system provided by the invention has the advantages that the purpose of adjusting the positions of the signal receivers on all the work tables at multiple angles and multiple positions is achieved, and the signal receiving range and the signal receiving performance of the signal receivers are improved.

Description

Electric power communication information receiving system

Technical Field

The invention belongs to the technical field of power communication, and particularly relates to a power communication information receiving system.

Background

Wireless transmission refers to a way of transmitting data by using a wireless technology, and is widely applied to the fields of industry, civilian use, aerospace and the like. In a wireless transmission system, the mounting position of a signal receiver can improve the signal receiving strength and range. At present, a small-range adjusting mode of the signal receiver mostly adopts a manual adjusting mode or uses an electric push rod and the like to push the signal receiver to move, and under the operating mode, the position, angle and other parameters of the signal receiver are low in adjusting performance, so that the receiving performance of the signal receiver is poor.

Disclosure of Invention

The invention aims to provide an electric power communication information receiving system, which is used for solving the technical problem of poor receiving performance of a signal receiver caused by low position, angle and other parameter adjustment performance of the signal receiver in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme: the power communication information receiving system comprises a box body, a retracting mechanism, a horizontal positioning mechanism, a bearing plate, a rotating mechanism, a rotating table, a plurality of telescopic mechanisms and a plurality of work tables, wherein the retracting mechanism, the horizontal positioning mechanism and the bearing plate are arranged in the box body; the horizontal positioning mechanism comprises a supporting plate, a transverse moving assembly and a vertical moving assembly, the supporting plate is fixed on the moving plate, and the bearing plate is connected with the transverse moving assembly and the vertical moving assembly; the rotating mechanism is fixedly arranged on the bearing plate, and the rotating table is arranged on the rotating mechanism; the telescopic mechanisms are uniformly distributed around the center of the rotating table, the working tables are respectively connected with the free ends of the corresponding telescopic mechanisms, and the working tables are connected to the rotating table in a sliding manner; the workbench is provided with a containing cavity, a turnover plate and a second driver, the turnover plate is rotationally connected to one end of the workbench, which is far away from the telescopic mechanism, the second driver is connected with the turnover plate, and the lower end of the turnover plate is used for installing a signal receiver.

In one possible implementation manner, a first protruding part is arranged on one group of opposite outer side surfaces of the bearing plate, a second protruding part is arranged on the other group of opposite outer side surfaces, through holes are arranged on the first protruding part and the second protruding part, and the first protruding part is positioned above the second protruding part; the transverse moving assembly comprises two first screw rods, two first mounting plates, two third drivers and two first sliding rods, wherein the two first screw rods, the two first mounting plates and the two third drivers are all arranged, the two first sliding rods are respectively in sliding fit with the through holes of the two first protruding parts, and the two ends of the first sliding rods are fixed on the two first mounting plates; the vertical moving assembly comprises two second screw rods, two second mounting plates, two fourth drivers and two second sliding rods, the two second screw rods, the two second mounting plates and the two fourth drivers are all arranged, the two second sliding rods are respectively in sliding fit with the through holes of the two second protruding parts, and two ends of the second sliding rods are fixed on the two second mounting plates; the first screw is perpendicular to the second screw.

In one possible implementation manner, the upper end of the supporting plate is provided with a rectangular mounting groove, two first screws are respectively mounted on two opposite side walls of one group of the mounting groove, and two second screws are respectively mounted on two opposite side walls of the other group of the mounting groove.

In one possible implementation manner, the lateral movement assembly and the vertical movement assembly are both located in the mounting groove, and the upper ends of the lateral movement assembly and the vertical movement assembly are both lower than the upper end of the support plate.

In one possible implementation manner, the rotating mechanism comprises a rotating box, a driving motor and a driving wheel, the rotating table is mounted on the rotating box, a transmission shaft extending into the rotating box is arranged at the lower end of the rotating table, a gear structure is arranged on the transmission shaft, and the driving wheel is mounted on an output shaft of the driving motor and meshed with the gear structure.

In a possible implementation manner, a supporting shaft and an auxiliary wheel mounted on the supporting shaft are further arranged in the rotating box, the supporting shaft is positioned on one side of the transmission shaft away from the driving motor, and the auxiliary wheel is meshed with the gear structure; the inner wall of the rotating box is provided with a bearing, the lower end of the rotating table is provided with a downward extending annular flange, and the annular flange is fixedly connected with the inner ring of the bearing.

In one possible implementation manner, the rotating table is provided with a mounting seat and a plurality of sliding rails arranged around the mounting seat, the sliding rails are in one-to-one correspondence with the telescopic mechanisms, and the working table is in sliding connection with the corresponding sliding rails.

In one possible implementation manner, the two opposite inner walls of the accommodating cavity are respectively provided with a strip groove, the turning plate is provided with a connecting shaft, and the connecting shaft slides and is rotationally connected in the strip grooves.

In one possible implementation manner, a charging interface is arranged in the accommodating cavity, and the turnover plate rotates towards the accommodating cavity to enable the signal receiver to be installed in the accommodating cavity and connected with the charging interface; and a power interface connected with the charging interface is arranged on the wall of the box body.

In one possible implementation, a cover plate is provided on the case, and the cover plate is rotatably connected to the case.

The electric power communication information receiving system provided by the invention has the beneficial effects that: compared with the prior art, the electric power communication information receiving system controls devices such as the horizontal positioning mechanism, the bearing plate, the rotating mechanism, the rotating table, the telescopic mechanism and the workbench to enter the box body under the action of the retracting mechanism before use, and the signal receiver enters the accommodating cavity of the workbench without being exposed outside under the rotation operation of the turnover plate controlled by the second driver, so that the signal receiver and the devices can be better protected; when the signal receiver is used, the first driver drives the movable plate to move upwards along the guide rail so as to drive the horizontal positioning mechanism and the bearing plate, the rotating mechanism, the rotating table, the telescopic mechanism and the working table move upwards together, the lower end of the rotating table is higher than the upper end of the box body, then the telescopic mechanism is started to drive the working tables to slide outwards on the rotating table and disperse around, the second driver is started to control the turning plate to turn outwards so as to expose the signal receiver, and the outward movement distance of the signal receiver is further increased by opening the turning plate; then the signal receiver is started to work, in the working process, the transverse moving assembly and the vertical moving assembly are started to control the bearing plate to do transverse and vertical movements of the horizontal plane in the box body, and the rotating mechanism is started to drive the rotating table to do rotary movements, so that the purpose of adjusting the positions of the signal receiver on each working table in multiple angles and multiple positions is achieved, and the signal receiving range and the signal receiving performance of the signal receiver are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front view of a power communication information receiving system according to an embodiment of the present invention;

fig. 2 is a top view of a power communication information receiving system according to an embodiment of the present invention;

fig. 3 is a schematic view of an internal structure of a support plate according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an operating state of the power communication information receiving system according to an embodiment of the present invention;

fig. 5 is a second schematic diagram of an operating state of the power communication information receiving system according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a carrier plate according to an embodiment of the present invention;

FIG. 7 is a schematic diagram illustrating connection between a rotating mechanism and a rotating table according to an embodiment of the present invention;

FIG. 8 is a front view of a table according to an embodiment of the present invention;

FIG. 9 is a top view of a table according to an embodiment of the present invention;

FIG. 10 is a schematic diagram illustrating connection between a connecting shaft and a long groove according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a charging state of a power communication information receiving system according to an embodiment of the present invention;

fig. 12 is a schematic diagram of connection between a case and a cover plate according to an embodiment of the present invention.

Wherein, each reference sign in the figure:

1. a case; 11. a cover plate; 12. a power interface;

2. a retracting mechanism; 21. a guide rail; 22. a moving plate; 23. a first driver;

3. a horizontal positioning mechanism; 31. a support plate; 311. a mounting groove; 32. a lateral movement assembly; 321. a first screw; 322. a first mounting plate; 323. a third driver; 324. a first slide bar; 33. a vertical movement assembly; 331. a second screw; 332. a second mounting plate; 333. a fourth driver; 334. a second slide bar;

4. a carrying plate; 41. a first boss; 42. a second protruding portion; 43. a through hole;

5. a rotating mechanism; 51. a rotating box; 52. a driving motor; 53. a driving wheel; 54. a support shaft; 55. an auxiliary wheel; 56. a bearing;

6. a rotating table; 61. a transmission shaft; 62. a gear structure; 63. an annular flange; 64. a mounting base; 65. a slide rail;

7. a telescoping mechanism;

8. a work table; 81. a receiving chamber; 82. a folded plate is turned over; 83. a second driver; 84. a long strip groove; 85. a connecting shaft; 86. a charging interface;

9. a signal receiver.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a 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 invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 9, a power communication information receiving system provided by the present invention will now be described. The electric power communication information receiving system comprises a box body 1, a retracting mechanism 2, a horizontal positioning mechanism 3, a bearing plate 4, a rotating mechanism 5, a rotating table 6, a plurality of telescopic mechanisms 7 and a plurality of work tables 8, wherein the retracting mechanism 2, the horizontal positioning mechanism 3 and the bearing plate 4 are arranged in the box body 1; the retracting mechanism 2 comprises a guide rail 21, a moving plate 22 and a first driver 23, the horizontal positioning mechanism 3 comprises a supporting plate 31, a transverse moving assembly 32 and a vertical moving assembly 33, the supporting plate 31 is fixed on the moving plate 22, and the bearing plate 4 is connected with the transverse moving assembly 32 and the vertical moving assembly 33; the rotating mechanism 5 is fixedly arranged on the bearing plate 4, and the rotating table 6 is arranged on the rotating mechanism 5; the plurality of telescopic mechanisms 7 are uniformly distributed around the center of the rotating table 6, the plurality of work tables 8 are respectively connected with the free ends of the corresponding telescopic mechanisms 7, and the work tables 8 are connected to the rotating table 6 in a sliding manner; the workbench 8 is provided with a containing cavity 81, a turnover plate 82 and a second driver 83, the turnover plate 82 is rotatably connected to one end of the workbench 8 far away from the telescopic mechanism 7, the second driver 83 is connected with the turnover plate 82, and the lower end of the turnover plate 82 is used for installing the signal receiver 9.

Compared with the prior art, the electric power communication information receiving system provided by the invention has the advantages that the horizontal positioning mechanism 3, the bearing plate 4, the rotating mechanism 5, the rotating table 6, the telescopic mechanism 7, the workbench 8 and other devices are controlled to enter the box body 1 under the action of the retracting mechanism 2 before use, and the signal receiver 9 enters the accommodating cavity 81 of the workbench 8 without being exposed outside under the control of the rotating operation of the turnover plate 82 by the second driver 83, so that the signal receiver 9 and the devices can be well protected; when the signal receiver 9 is used, the first driver 23 drives the movable plate 22 to move upwards along the guide rail 21 so as to drive the horizontal positioning mechanism 3 and the bearing plate 4, the rotating mechanism 5, the rotating table 6, the telescopic mechanism 7 and the working table 8 move upwards together, the lower end of the rotating table 6 is higher than the upper end of the box body 1, then the telescopic mechanism 7 is started to drive the working tables 8 to slide outwards on the rotating table 6 and disperse around, the second driver 83 is started to control the turning plate 82 to turn outwards so as to expose the signal receiver 9, and the turning plate 82 is opened so as to further increase the outwards moving distance of the signal receiver 9; then the signal receiver 9 is started to work, in the working process, the transverse moving assembly 32 and the vertical moving assembly 33 are started to control the bearing plate 4 to transversely and vertically move in the horizontal plane in the box body 1, and the rotating mechanism 5 is started to drive the rotating table 6 to rotate, so that the aim of adjusting the positions of the signal receiver 9 on each workbench 8 in multiple angles and multiple positions is fulfilled, and the signal receiving range and the signal receiving performance of the signal receiver 9 are improved.

The first driver 23 and the second driver 83 can adopt micro motors and the like, so that the size is small, and the space is not occupied too much. The telescopic mechanism 7 is an electric push rod or the like.

Referring to fig. 1 and fig. 3, as a specific embodiment of the power communication information receiving system provided by the present invention, a group of opposite outer sides of the carrier plate 4 are provided with first protrusions 41, another group of opposite outer sides are provided with second protrusions 42, through holes 43 are formed in the first protrusions 41 and the second protrusions 42, and the first protrusions 41 are located above the second protrusions 42; the lateral moving assembly 32 comprises two first screw rods 321, two first mounting plates 322, two third drivers 323 and two first sliding rods 324, wherein the two first screw rods 321, the two first mounting plates 322 and the two third drivers 323 are respectively arranged, the two first sliding rods 324 are respectively in sliding fit with the through holes 43 of the two first protruding parts 41, and two ends of the first sliding rods 324 are respectively fixed on the two first mounting plates 322; the vertical moving assembly 33 comprises two second screw rods 331, two second mounting plates 332, two fourth drivers 333 and two second sliding rods 334, wherein the two second screw rods 331, the two second mounting plates 332 and the two fourth drivers 333 are respectively arranged, the two second sliding rods 334 are respectively in sliding fit with the through holes 43 of the two second protruding parts 42, and two ends of the second sliding rods 334 are respectively fixed on the two second mounting plates 332; the first screw 321 is perpendicular to the second screw 331.

Screw holes are formed in the first mounting plate 322 and the second mounting plate 332, the first screw rod 321 is in threaded connection with the corresponding first mounting plate 322, and the second screw rod 331 is in threaded connection with the corresponding second mounting plate 332.

When the device is used, the third driver 323 is started to control the two first screw rods 321 to synchronously rotate, the two first sliding rods 324 enable the two first mounting plates 322 and the bearing plate 4 to be connected into a whole, the two first mounting plates 322 are further enabled to move along the length direction of the first screw rods 321, and the device accurately and stably moves under the sliding fit of the two second sliding rods 334 and the two second protruding parts 42, so that the bearing plate 4, the rotating mechanism 5, the rotating table 6 and the working table 8 are driven to do horizontal transverse movement, and the purposes of adjusting the working table 8 and the signal receiver 9 are further achieved.

The fourth driver 333 is started to control the two second screws 331 to rotate synchronously, the two second sliding rods 334 connect the two second mounting plates 332 and the carrying plate 4 into a whole, so that the two second mounting plates 332 move along the length direction of the second screws 331, and accurately and stably move under the sliding fit of the two first sliding rods 324 and the two first protruding parts 41, so as to drive the carrying plate 4, the rotating mechanism 5, the rotating table 6 and the working table 8 to do horizontal vertical movement, and further fulfill the aim of adjusting the working table 8 and the signal receiver 9.

Therefore, under the sliding fit action of the two first protruding parts 41 and the two second protruding parts 42, the two first sliding rods 324 and the two second sliding rods 334, the driving bearing plate 4 can move horizontally and vertically on the supporting plate 31 through the two first screw rods 321 and the two first mounting plates 322 which are transversely arranged, the two second screw rods 331 and the two second mounting plates 332 which are vertically arranged.

The first protruding portion 41 and the second protruding portion 42 are respectively provided with a through hole 43, and the first sliding rod 324 and the second sliding rod 334 slide through the corresponding through holes 43.

The two first protrusions 41 are located above the two second protrusions 42 in a staggered arrangement, so that the lateral and vertical movements of the carrier plate 4 do not interfere.

The third driver 323 and the fourth driver 333 may be micro motors, etc., and have small size and do not occupy too much space.

Referring to fig. 1 to 3, as a specific embodiment of the power communication information receiving system provided by the present invention, a rectangular mounting groove 311 is formed at an upper end of a supporting plate 31, two first screws 321 are respectively mounted on two opposite sidewalls of the mounting groove 311, and two second screws 331 are respectively mounted on two opposite sidewalls of the mounting groove 311.

The mounting groove 311 is a rectangular groove, so the mounting groove 311 is provided with four groove side walls, and the two groove side walls correspond to each other, two connecting seats are arranged on each groove side wall of the mounting groove 311, and the two connecting seats are arranged in parallel at intervals; two first screw rods 321 are installed on a group of opposite groove side walls of the installation groove 311, two ends of the first screw rods 321 are rotationally connected to two connecting seats, two second screw rods 331 are installed on another group of opposite two groove side walls of the installation groove 311, and two ends of the second screw rods 331 are rotationally connected to the corresponding two connecting seats. In this way, the first screw 321 and the second screw 331 can be smoothly and reliably rotated.

The mounting groove 311 has a certain depth, so that the lateral movement assembly 32 and the vertical movement assembly 33 can be mounted, thereby controlling the horizontal movement of the carrier plate 4 in the mounting groove 311.

Referring to fig. 1 to 3, as a specific embodiment of the power communication information receiving system provided by the present invention, the lateral moving assembly 32 and the vertical moving assembly 33 are located in the mounting groove 311, and the upper ends of the lateral moving assembly 32 and the vertical moving assembly 33 are lower than the upper end of the supporting plate 31.

The lateral movement assemblies 32, 33 are positioned entirely within the mounting groove 311 without protruding above the support plate 31, thereby reducing the total thickness of the support plate 31, the lateral movement assemblies 32, 33.

Referring to fig. 1 and 7, as a specific embodiment of the power communication information receiving system provided by the present invention, the rotating mechanism 5 includes a rotating case 51, a driving motor 52, and a driving wheel 53, the rotating table 6 is mounted on the rotating case 51, a transmission shaft 61 extending into the rotating case 51 is disposed at the lower end, a gear structure 62 is disposed on the transmission shaft 61, and the driving wheel 53 is mounted on an output shaft of the driving motor 52 and meshed with the gear structure 62.

The rotating mechanism 5 mainly comprises a rotating box 51, a driving motor 52, a driving wheel 53 and the like, wherein the rotating box 51 is fixed on the bearing plate 4, the driving motor 52 is arranged on one side inside the rotating box 51, and the driving wheel 53 is connected on an output shaft of the driving motor 52 in a key way.

The rotating table 6 is supported at the upper end of the rotating box 51, the lower end of the rotating table 6 is provided with a transmission shaft 61 extending downwards, the transmission shaft 61 enters the rotating box 51, and the transmission shaft 61 is provided with a gear structure 62, and the gear structure 62 is meshed with the driving wheel 53, so that after the driving motor 52 is started, the transmission shaft 61 and the rotating table 6 are driven to rotate under the meshing action of the driving wheel 53 and the gear structure 62, and the rotating process is stable and reliable.

And the driving motor 52, the driving wheel 53 and the gear structure 62 are all arranged inside the rotating box 51, so that the device is not easy to be interfered by external factors, and the work is efficient.

Alternatively, the transmission shaft 61 is a gear shaft, that is, the gear structure 62 and the transmission shaft 61 are integrally formed, so that the installation steps are reduced, and the connection stability of the gear structure 62 and the transmission shaft 61 is improved.

The transmission shaft 61 and the rotating table 6 are integrally formed, so that the connection strength and the working reliability between the transmission shaft 61 and the rotating table 6 are improved.

Referring to fig. 7, as a specific embodiment of the power communication information receiving system provided by the present invention, a supporting shaft 54 and an auxiliary wheel 55 mounted on the supporting shaft 54 are further disposed in the rotating box 51, the supporting shaft 54 is located at one side of the transmission shaft 61 away from the driving motor 52, and the auxiliary wheel 55 is meshed with the gear structure 62; the bearing 56 is provided on the inner wall of the rotary box 51, and the lower end of the rotary table 6 is provided with a downwardly extending annular flange 63, and the annular flange 63 is fixedly connected with the inner ring of the bearing 56.

The driving motor 52 is installed at one side of the inside of the rotating box 51, so that the center of gravity of the rotating box 51 is shifted, and meanwhile, the main gear is meshed with one side of the gear structure 62, and certain lateral force is generated on the gear structure 62 and the transmission shaft 61, so that the installation and rotation accuracy of the gear structure 62 and the transmission shaft 61 are affected.

Therefore, the supporting shaft 54 is installed on the other side of the rotating box 51, the auxiliary wheel 55 is connected on the supporting shaft 54 in a key way, and the auxiliary wheel 55 is connected with the other side of the gear structure 62 in a meshed way, so that the lateral force of the driving wheel 53 on the gear structure 62 is counteracted.

The support shaft 54 and the auxiliary wheel 55 are provided at the same time so that the center of gravity of the entire rotation mechanism 5 is not shifted any more, and thus stable and reliable operation can be achieved.

The bearing 56 is fixedly installed on the inner wall of the rotating box 51, and an annular flange 63 which enters the rotating box 51 is provided at the lower end of the rotating table 6, and the outer wall of the annular flange 63 is fixedly connected with the inner ring of the bearing 56, so that the rotating table 6 is smoothly rotated by the cooperation installation of the bearing 56 and the annular flange 63.

Referring to fig. 1 to 3, as a specific embodiment of the power communication information receiving system provided by the present invention, a rotating table 6 is provided with a mounting seat 64 and a plurality of sliding rails 65 surrounding the mounting seat 64, the sliding rails 65 are in one-to-one correspondence with the telescopic mechanisms 7, and a working table 8 is slidably connected with the corresponding sliding rails 65.

The mounting seat 64 fixes the center position of the rotating table 6 and has mounting surfaces corresponding to the telescopic mechanisms 7 one by one, the fixed ends of the telescopic mechanisms 7 are fixed on the mounting surfaces, and the plurality of sliding rails 65 are arranged in a circumferential array around the mounting seat 64.

Each workbench 8 is respectively connected to the corresponding slide rail 65 in a sliding way, and the workbench 8 can slide outwards or inwards smoothly and stably under the action of the telescopic mechanism 7.

The slide rails 65 are arranged radially, and each slide rail 65 extends in a direction away from the mounting seat 64, so that the workbench 8 can be completely slidably supported on the slide rail 65.

The installation seat 64 and the rotating table 6 are integrally formed, so that the connection strength and the working reliability between the installation seat 64 and the rotating table 6 are improved.

Referring to fig. 10, as a specific embodiment of the power communication information receiving system provided by the present invention, two opposite inner walls of the accommodating cavity 81 are respectively provided with a long groove 84, the folding plate 82 is provided with a connecting shaft 85, and the connecting shaft 85 is slidably and rotatably connected in the long groove 84.

The cross section of the long strip plate is rectangular, and the cross section of the connecting shaft 85 is circular, so that the connecting shaft 85 can rotate in the long strip groove 84 and can slide along the length direction of the long strip groove 84.

Therefore, the folding plate 82 and the workbench 8 do linear motion along the sliding rail 65 under the action of the telescopic mechanism 7, and the signal receiver 9 on the folding plate 82 can be adjusted, and meanwhile, the folding plate 82 can be manually pushed or pulled by a worker to slide along the strip groove 84 on the workbench 8, so that the aim of adjusting the position of the signal receiver 9 on the folding plate 82 is achieved.

The protective layer is installed on the inner wall of the long groove 84 or the outer side surface of the connecting shaft 85, so that the friction force between the connecting shaft 85 and the long groove 84 is increased, and the turning plate 82 can not easily slide along the long groove 84 by the acting force of the anti-slip layer, and can stably work after moving to a proper working position.

The connecting shaft 85 and the turnover plate 82 are integrally formed, so that the connection strength and the working reliability of the connecting shaft 85 and the turnover plate 82 are improved.

The lower end surface of the turnover plate 82 is provided with a limit groove, and each part, assembly and the like of the signal receiver 9 are all arranged in the limit groove, so that the situation that smaller parts are lost can be effectively prevented.

Referring to fig. 8 to 11, as a specific embodiment of the power communication information receiving system provided by the present invention, a charging interface 86 is disposed in a housing cavity 81, and a turnover plate 82 rotates toward the housing cavity 81 to enable a signal receiver 9 to be installed in the housing cavity 81 and connected with the charging interface 86; the wall of the case 1 is provided with a power interface 12 connected to the charging interface 86.

The outer side surface of the workbench 8 is provided with a plug for connecting with the power interface 12, and the plug is electrically connected with the charging interface 86 on the workbench 8.

When the signal receiver 9 is needed to receive signals, the horizontal positioning mechanism 3 and the bearing plate 4 are controlled by the retracting mechanism 2, the rotating mechanism 5, the rotating table 6, the telescopic mechanisms 7 and the working tables 8 move upwards, and the rotating table 6 and the working tables 8 are higher than the upper end of the box body 1.

The turning plate 82 is controlled to rotate outwards from the workbench 8, so that the signal receiver 9 positioned on the lower end surface of the turning plate 82 moves to the upper end surface of the turning plate 82, and accurate and efficient work is achieved.

After the signal receiving work is suspended or ended, the turning plate 82 is controlled to rotate towards the workbench 8, the signal receiver 9 enters the accommodating cavity 81 along with the rotation of the turning plate 82, the signal receiver 9 is connected with the charging interface 86, the workbench 8 is driven to move downwards into the box body 1 under the action of the retracting mechanism 2, the plug on the workbench 8 is aligned with the power interface 12, the telescopic mechanism 7 is used for controlling the workbench 8 to move towards the power interface 12, the plug is connected with the power interface 12 and then connected with the charging interface 86, and thus the charging operation of the signal receiver 9 is completed.

Referring to fig. 1 and 12, as a specific embodiment of the power communication information receiving system provided by the present invention, a cover plate 11 is provided on a case 1, and the cover plate 11 is rotatably connected to the case 1.

The upper end of the box body 1 is provided with an opening for installing the retracting mechanism 2, the horizontal positioning mechanism 3 and the bearing plate 4, and the rotating mechanism 5, the rotating table 6, the plurality of telescopic mechanisms 7 and the plurality of working tables 8 are convenient for simultaneously controlling the rotating table 6, the plurality of telescopic mechanisms 7 and the plurality of working tables 8 to pass through the opening from top to bottom or from bottom to top by means of the retracting mechanism 2, thereby achieving the purpose of entering and exiting the box body 1.

The cover plate 11 is provided to cover the case 1, thereby forming a closed and safe space in the case 1.

After the horizontal positioning mechanism 3, the carrier plate 4, the rotating mechanism 5, the rotating table 6, the plurality of telescopic mechanisms 7 and the plurality of tables 8 are retracted into the case 1 by the retracting mechanism 2, the cover plate 11 is rotated to close the case 1.

By means of the cover plate 11, the retracting mechanism 2, the horizontal positioning mechanism 3 and the bearing plate 4 are guaranteed, and the rotating mechanism 5, the rotating table 6, the plurality of telescopic mechanisms 7 and the plurality of working tables 8 cannot be affected by foreign matters such as external dust and rainwater, so that stable and efficient work can be achieved.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The electric power communication information receiving system is characterized by comprising a box body, a retracting mechanism, a horizontal positioning mechanism, a bearing plate, a rotating mechanism, a rotating table, a plurality of telescopic mechanisms and a plurality of work tables, wherein the retracting mechanism, the horizontal positioning mechanism and the bearing plate are arranged in the box body; the horizontal positioning mechanism comprises a supporting plate, a transverse moving assembly and a vertical moving assembly, the supporting plate is fixed on the moving plate, and the bearing plate is connected with the transverse moving assembly and the vertical moving assembly; the rotating mechanism is fixedly arranged on the bearing plate, and the rotating table is arranged on the rotating mechanism; the telescopic mechanisms are uniformly distributed around the center of the rotating table, the working tables are respectively connected with the free ends of the corresponding telescopic mechanisms, and the working tables are connected to the rotating table in a sliding manner; the workbench is provided with a containing cavity, a turnover plate and a second driver, the turnover plate is rotationally connected to one end of the workbench, which is far away from the telescopic mechanism, the second driver is connected with the turnover plate, and the lower end of the turnover plate is used for installing a signal receiver.

2. The power communication information receiving system according to claim 1, wherein a first protruding portion is provided on one set of opposite outer side surfaces of the carrier plate, a second protruding portion is provided on the other set of opposite outer side surfaces, through holes are provided on the first protruding portion and the second protruding portion, and the first protruding portion is located above the second protruding portion; the transverse moving assembly comprises two first screw rods, two first mounting plates, two third drivers and two first sliding rods, wherein the two first screw rods, the two first mounting plates and the two third drivers are all arranged, the two first sliding rods are respectively in sliding fit with the through holes of the two first protruding parts, and the two ends of the first sliding rods are fixed on the two first mounting plates; the vertical moving assembly comprises two second screw rods, two second mounting plates, two fourth drivers and two second sliding rods, the two second screw rods, the two second mounting plates and the two fourth drivers are all arranged, the two second sliding rods are respectively in sliding fit with the through holes of the two second protruding parts, and two ends of the second sliding rods are fixed on the two second mounting plates; the first screw is perpendicular to the second screw.

3. The power communication information receiving system according to claim 2, wherein the upper end of the supporting plate is provided with a rectangular mounting groove, two first screws are respectively mounted on two opposite side walls of one set of the mounting groove, and two second screws are respectively mounted on two opposite side walls of the other set of the mounting groove.

4. The power communication information receiving system according to claim 3, wherein the lateral movement assembly and the vertical movement assembly are both positioned in the mounting groove, and the upper ends of the lateral movement assembly and the vertical movement assembly are both lower than the upper end of the support plate.

5. The power communication information receiving system according to claim 1, wherein the rotating mechanism comprises a rotating box, a driving motor and a driving wheel, the rotating table is mounted on the rotating box, a transmission shaft extending into the rotating box is arranged at the lower end of the rotating table, a gear structure is arranged on the transmission shaft, and the driving wheel is mounted on an output shaft of the driving motor and meshed with the gear structure.

6. The power communication information receiving system according to claim 5, wherein a supporting shaft and an auxiliary wheel mounted on the supporting shaft are further arranged in the rotating box, the supporting shaft is positioned at one side of the transmission shaft away from the driving motor, and the auxiliary wheel is meshed with the gear structure; the inner wall of the rotating box is provided with a bearing, the lower end of the rotating table is provided with a downward extending annular flange, and the annular flange is fixedly connected with the inner ring of the bearing.

7. The power communication information receiving system according to claim 1, wherein the rotating table is provided with a mounting seat and a plurality of sliding rails arranged around the mounting seat, the plurality of sliding rails are in one-to-one correspondence with the plurality of telescopic mechanisms, and the working table is in sliding connection with the corresponding sliding rails.

8. The power communication information receiving system according to claim 1, wherein elongated grooves are formed in two opposite inner walls of the accommodating chamber, and a connecting shaft is arranged on the turning plate and slidably and rotatably connected in the elongated grooves.

9. The power communication information receiving system according to claim 8, wherein a charging interface is provided in the housing chamber, and the turnover plate rotates toward the housing chamber to mount the signal receiver in the housing chamber and is connected to the charging interface; and a power interface connected with the charging interface is arranged on the wall of the box body.

10. The power communication information receiving system according to claim 1, wherein a cover plate is provided on the housing, and the cover plate is rotatably connected to the housing.