CN218830412U - Based on 5G thing networking visual control ware - Google Patents

Abstract

The utility model provides a based on visual controller of 5G thing networking, is provided with the cap body, image collector, is used for showing image collector shoots the display in the field of vision, is used for driving image collector stretches out or accomodates in the flexible module of the cap body, flexible module with the display all assemble in the cap body. The utility model discloses a based on 5G thing networking visual control ware passes through the display and shows image collector's shooting field of vision to the user, realizes position control through flexible module regulation image collector telescopic position simultaneously to improve image collector flexibility and shooting quality.

Description

Based on 5G thing networking visual control ware

Technical Field

The utility model relates to a visual safety helmet technical field, in particular to based on 5G thing networking visual control ware.

Background

The visual controller is a controller which is operated by an operator to collect images and videos, the controller can be specifically a safety helmet, two main ways of the visual safety helmet in the prior art are provided, the first way is to fix a camera above the safety helmet through a binding band or directly, for example, a multifunctional safety helmet with the publication number of CN 111700335A; the second type is that a camera is embedded into the safety helmet, such as an intelligent safety helmet with the publication number of CN 211794554U; however, both of these visual controllers have disadvantages, specifically, the first captured image may be in error with the user's view of the image, which may result in an incomplete captured image; the second kind can not or be difficult to adjust the camera because the camera is embedded inside the safety helmet, causes the camera nimble low.

Therefore, it is necessary to provide a visual controller based on the 5G internet of things and solve the deficiencies of the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to avoid prior art's weak point and provide a visual controller based on 5G thing networking. This based on visual controller of 5G thing networking can be according to shooting the field of vision regulation image collector to improve image collector flexibility and shoot the quality.

The above object of the present invention is achieved by the following technical measures:

the utility model provides a based on visual controller of 5G thing networking is provided with the cap body, image collector, be used for showing image collector shoots the display in the field of vision, be used for driving image collector stretches out or accomodates in the flexible module of the cap body, flexible module with the display all assembles in the cap body.

The utility model discloses a based on 5G thing networking visual control ware, still set up and be used for driving the display stretch out or accomodate in the lift module of the cap body, the lift module assemble in the cap body, the display is fixed in the lift module.

Preferably, the telescopic module is provided with a first transmission mechanism for driving the image collector to move in a telescopic manner, a first driving mechanism for driving the first transmission mechanism to move in a telescopic manner and a first in-place detection mechanism for detecting the telescopic position of the first transmission mechanism, the first driving mechanism and the first in-place detection mechanism are fixedly assembled on the cap body, the image collector is detachably assembled on the first transmission mechanism, and the first transmission mechanism is in transmission connection with the first driving mechanism.

Preferably, the first transmission mechanism is provided with an assembly seat, a rack and a gear, the assembly seat is integrally connected to one end of the rack, the gear is fixedly assembled on a rotating shaft of the first driving mechanism, the gear is meshed with the rack and connected, and the image collector is detachably assembled on the assembly seat.

Preferably, the first in-place detection mechanism is provided with a first magnetic attraction block, a second magnetic attraction block and a first hall element, the first magnetic attraction block is fixedly assembled at the other end of the rack, the second magnetic attraction block is fixedly assembled on the assembly seat, the first hall element is fixedly assembled on the cap body, and the first magnetic attraction block and the second magnetic attraction block are respectively connected with the first hall element in a movable magnetic manner.

Preferably, the lifting module is provided with a second transmission mechanism for driving the display to move up and down, a second driving mechanism for driving the second transmission mechanism to move up and down, a second in-place detection mechanism for detecting the lifting position of the second transmission mechanism, and a guide post, wherein the second in-place detection mechanism, the second driving mechanism and the guide post are respectively and fixedly assembled on the cap body, the display is fixedly assembled on the second transmission mechanism, the second transmission mechanism is in transmission connection with the second driving mechanism, and the second transmission mechanism is slidably sleeved on the guide post.

Preferably, the second transmission mechanism is provided with a swing rod, a sliding support and a sliding ring, one end of the swing rod is fixedly connected with a rotating shaft of the second driving mechanism, one end of the swing rod is rotatably sleeved with the sliding ring, the sliding ring is slidably assembled on the sliding support, the sliding support is slidably sleeved on the guide column, and the display is fixedly assembled on the sliding support in a sliding manner.

Preferably, the sliding support is provided with a through hole and a sliding groove, the through hole is slidably sleeved on the outer surface of the guide post, and the sliding ring is assembled in the sliding groove.

Preferably, the second in-place detection mechanism is provided with a third magnetic attraction block, a second hall component and a third hall component, the second hall component and the third hall component are respectively and fixedly assembled on the cap body, and the third magnetic attraction block is fixedly assembled on the sliding support. And the second Hall component is positioned above the third Hall component.

Preferably, the cap body is provided with a front shell and a main shell, the front shell is fixedly assembled in front of the main shell, an accommodating space is formed between the front shell and the main shell, and the telescopic module and the lifting module are located in the accommodating space.

Preferably, a camera channel for extending the image collector is arranged in the middle of the front shell.

Preferably, the visor of the main housing is provided with a screen passage for the display to enter and exit.

The utility model discloses a based on 5G thing networking visual control ware, still be provided with 5G signal reception module and the control module group that is used for receiving the work order, 5G signal reception module flexible module image collector with the display respectively with the control module group is connected.

Preferably, the work instruction is at least one of an image collector telescopic instruction or a display lifting instruction.

The utility model discloses a based on 5G thing networking visual control ware is provided with the cap body, image collector, is used for showing image collector shoots the display in the field of vision, is used for driving image collector stretches out or accomodates in the flexible module of the cap body, flexible module with the display all assemble in the cap body. The utility model discloses a based on 5G thing networking visual control ware passes through the display and shows image collector's shooting field of vision to the user, realizes position control through flexible module regulation image collector telescopic position simultaneously to improve image collector flexibility and shooting quality.

Drawings

The present invention will be further described with reference to the accompanying drawings, but the contents in the drawings do not limit the present invention in any way.

Fig. 1 is a schematic perspective view of a visual controller based on a 5G internet of things.

Fig. 2 is another angle view of fig. 1.

Fig. 3 is a schematic structural diagram of a 5G internet of things-based visual controller with a hidden front shell.

Fig. 4 is a schematic structural diagram of the expansion module.

Fig. 5 is another angle view of fig. 4.

Fig. 6 is a schematic structural diagram of the lifting module.

Fig. 7 is another angle view of fig. 6.

Fig. 8 is a schematic structural view of the sliding bracket.

In fig. 1 to 8, the following are included:

a cap body 100, a front shell 110, a main shell 120,

An image collector 200, a display 300,

A telescopic module 400,

A first transmission mechanism 410, an assembly seat 411, a rack 412, a gear 413,

A first driving mechanism 420,

A first in-place detection mechanism 430, a first magnetic block 431, a second magnetic block 423, a first Hall element 433,

A lifting module 500,

A second transmission mechanism 510, a swing rod 511, a sliding bracket 512, a slip ring 513, a through hole 514, a sliding groove 515,

A second driving mechanism 520,

A second in-place detection mechanism 530, a third magnetic attraction block 531, a second Hall element 532, a third Hall element 533,

The posts 540 are guided.

Detailed Description

The technical solution of the present invention will be further explained by the following examples.

Example 1.

The utility model provides a based on visual controller of 5G thing networking, as shown in fig. 1 to 8, be provided with cap body 100, image collector 200, be used for showing image collector 200 and shoot the display 300 in the field of vision, be used for driving image collector 200 and stretch out or accomodate in the flexible module 400 of cap body 100, flexible module 400 and display 300 all assemble in cap body 100.

It should be noted that, when the user needs the image capturing view of the image capturing device 200, the display 300 is used to observe the image capturing view of the image capturing device 200, and the position of the image capturing device 200 is adjusted by the retractable module 400 according to the image capturing view, so as to achieve the best image capturing angle.

The utility model discloses a based on 5G thing networking visual control ware, still set up and be used for driving display 300 and stretch out or accomodate in the lifting module 500 of the cap body 100, lifting module 500 assembles in the cap body 100, and display 300 is fixed in lifting module 500.

It should be noted that the lifting module 500 of the present invention is used for extending the display 300 to the outside of the cap body 100 through the lifting module 500 when the user needs the image collector 200 to shoot the visual field; after the position of the image collector 200 is determined, the display 300 is accommodated in the cap body 100 through the lifting module 500.

When the helmet is normally worn, the forehead, the hindbrain, the top of the head, and the bottom of the head of the user are defined as the front side, the rear side, the top, and the bottom of the helmet, respectively.

The telescopic module 400 is provided with a first transmission mechanism 410 for driving the image collector 200 to move telescopically, a first driving mechanism 420 for driving the first transmission mechanism 410 to move telescopically, and a first in-place detection mechanism 430 for detecting the telescopic position of the first transmission mechanism 410, wherein the first driving mechanism 420 and the first in-place detection mechanism 430 are fixedly assembled on the cap body 100, the image collector 200 is detachably assembled on the first transmission mechanism 410, and the first transmission mechanism 410 is in transmission connection with the first driving mechanism 420.

The first transmission mechanism 410 is provided with a mounting seat 411, a rack 412 and a gear 413, the mounting seat 411 is integrally connected to one end of the rack 412, the gear 413 is fixedly mounted on a rotating shaft of the first driving mechanism 420, the gear 413 is meshed with the rack 412, and the image collector 200 is detachably mounted on the mounting seat 411.

First detection mechanism 430 that targets in place is provided with first magnetism and inhales piece 431, second magnetism and inhales piece 423, first hall components and parts 433, and first magnetism is inhaled piece 431 fixed mounting in another end of rack 412, and second magnetism is inhaled piece 423 fixed mounting in assembly seat 411, and first hall components and parts 433 fixed mounting in the cap body 100, first magnetism inhale piece 431 and second magnetism inhale piece 423 respectively with first hall components and parts 433 movable magnetic connection.

It should be noted that the operation principle of the telescopic module 400 is as follows: when the image collector 200 needs to extend out of the cap body 100, the first driving mechanism 420 is started, the first driving mechanism 420 drives the gear 413 to rotate, and the gear 413 drives the rack 412 to move towards the outside of the cap body 100, so that the image collector 200 is driven to extend out of the cap body 100; when the image collector 200 needs to be retracted into the cap body 100, the first driving mechanism 420 drives the gear 413 to rotate in the reverse direction, and the gear 413 drives the rack 412 to move in the reverse direction towards the cap body 100, so as to drive the image collector 200 to be retracted into the cap body 100. The first in-place detection mechanism 430 works on the principle that when the first magnetic block 431 reaches the sensing area of the first hall element 433, the retracted position of the image collector 200 reaches the limit, and when the second magnetic block 423 reaches the sensing area of the first hall element 433, the extended position of the image collector 200 reaches the limit.

The lifting module 500 is provided with a second transmission mechanism 510 for driving the display 300 to move up and down, a second driving mechanism 520 for driving the second transmission mechanism 510 to move up and down, a second in-place detection mechanism 530 for detecting the lifting position of the second transmission mechanism 510, and a guide post 540, wherein the second in-place detection mechanism 530, the second driving mechanism 520, and the guide post 540 are respectively and fixedly assembled on the cap body 100, the display 300 is fixedly assembled on the second transmission mechanism 510, the second transmission mechanism 510 is in transmission connection with the second driving mechanism 520, and the second transmission mechanism 510 is slidably sleeved on the guide post 540.

The second transmission mechanism 510 is provided with a swing link 511, a sliding bracket 512 and a sliding ring 513, one end of the swing link 511 is fixedly connected with a rotating shaft of the second driving mechanism 520, one end of the swing link 511 is rotatably sleeved with the sliding ring 513, the sliding ring 513 is slidably assembled on the sliding bracket 512, the sliding bracket 512 is slidably sleeved on the guide column 540, and the display 300 is fixedly assembled on the sliding bracket 512 in a sliding manner.

The sliding bracket 512 is provided with a through hole 514 and a sliding groove 515, the through hole 514 is slidably sleeved on the outer surface of the guide post 540, and the sliding ring 513 is assembled on the sliding groove 515. The second in-place detection mechanism 530 is provided with a third magnetic attraction block 531, a second hall element 532 and a third hall element 533, the second hall element 532 and the third hall element 533 are respectively and fixedly assembled on the cap body 100, and the third magnetic attraction block 531 is fixedly assembled on the sliding support 512. And the second hall element 532 is located above the third hall element 533.

It should be noted that the working principle of the lifting module 500 is as follows: when the display 300 needs to ascend or descend, the second driving mechanism 520 is started, the second driving mechanism 520 drives the swing rod 511 to rotate clockwise or counterclockwise, the swing rod 511 drives the sliding ring 513 to perform circular motion, the sliding ring 513 slides left and right in the sliding groove 515 during the circular motion, the sliding support 512 and the display 300 are driven to ascend or descend, and the display 300 extends out or is stored in the cap body 100. The second in-place detection mechanism 530 operates on the principle that when the third magnetic attraction block 531 reaches the sensing area of the second hall element 532, the accommodation (rising) of the display 300 reaches the limit, and when the second magnetic attraction block 423 reaches the sensing area of the third hall element, the extension (falling) of the display 300 reaches the limit.

The cap body 100 is provided with a front shell 110 and a main shell 120, the front shell 110 is fixedly assembled in front of the main shell 120, an accommodating space exists between the front shell 110 and the main shell 120, and the telescopic module 400 and the lifting module 500 are located in the accommodating space. The middle of the front shell 110 is provided with a camera channel for the image collector 200 to extend out. The visor of the main case 120 is provided with a screen passage for the entrance and exit of the display 300.

The utility model discloses a based on 5G thing networking visual control ware, still be provided with 5G signal reception module (not shown in the figure) and the control module group (not shown in the figure) that are used for receiving the work order, 5G signal reception module, flexible module 400, image collector 200 and display 300 are connected with the control module group respectively. The work instruction is at least one of a telescopic instruction of the image collector 200 or a lifting instruction of the display 300.

It should be noted that the utility model discloses a 5G signal reception module effect is the receipt work order, and 5G signal reception module sends work order to control module group simultaneously, and control module group is according to flexible module 400 of work order and display 300. The work instruction is specifically to control the telescopic module 400 and the lifting module 500 to work, so as to realize the movement of the image collector 200 and the display 300. The control module receives and processes the acquired image data, develops the image data to the display 300, and displays the image data on the display 300.

It should be explained that, the utility model discloses a control module group is for having data processing and control function's singlechip or chip, and this kind of control module group is the basic function of singlechip or chip, and the singlechip or the chip of this kind of function have extensive application, like the STM32 singlechip, and the selection and the pin of model wherein should be known to the technical personnel in the field are connected, no longer recite one by one here. The utility model discloses a 5G signal reception module's function receives signal reception module of external instruction, and this kind of signal reception module has wide application in industrial production, and this kind of signal reception module should know to technical personnel in the field, so also can not be tired out here one by one.

This based on visual controller of 5G thing networking shows image collector 200's shooting field of vision to the user through display 300, realizes position control through flexible module 400 regulation image collector 200 flexible position simultaneously to improve image collector 200 flexibility and shooting quality.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a visual controller based on 5G thing networking which characterized in that: the helmet is provided with a helmet body, an image collector, a display used for displaying the shooting view of the image collector, and a telescopic module used for driving the image collector to extend out or be accommodated in the helmet body, wherein the telescopic module and the display are assembled on the helmet body;

the lifting module is used for driving the display to extend out of or be accommodated in the cap body, the lifting module is assembled on the cap body, and the display is fixed on the lifting module;

the telescopic module is provided with a first transmission mechanism for driving the image collector to move in a telescopic mode, a first driving mechanism for driving the first transmission mechanism to move in a telescopic mode and a first in-place detection mechanism for detecting the telescopic position of the first transmission mechanism, the first driving mechanism and the first in-place detection mechanism are fixedly assembled on the cap body, the image collector is detachably assembled on the first transmission mechanism, and the first transmission mechanism is in transmission connection with the first driving mechanism.

2. The 5G Internet of things-based visual controller according to claim 1, wherein: the first transmission mechanism is provided with an assembly seat, a rack and a gear, the assembly seat is integrally connected to one tail end of the rack, the gear is fixedly assembled on a rotating shaft of the first driving mechanism, the gear is meshed with the rack and connected with the rack, and the image collector is detachably assembled on the assembly seat.

3. The visualization controller based on the 5G Internet of things of claim 2, wherein: first detection mechanism that targets in place is provided with first magnetism and inhales piece, second magnetism and inhales piece, first hall components and parts, first magnetism inhale piece fixed assembly in another end of rack, second magnetism inhale piece fixed assembly in the assembly seat, first hall components and parts fixed assembly in the cap body, first magnetism inhale the piece with second magnetism inhale the piece respectively with first hall components and parts movable magnetic connection.

4. The visualization controller based on the 5G Internet of things of claim 1, wherein: the lifting module is provided with a second transmission mechanism for driving the display to move up and down, a second driving mechanism for driving the second transmission mechanism to move up and down, a second in-place detection mechanism for detecting the lifting position of the second transmission mechanism and a guide post, the second in-place detection mechanism, the second driving mechanism and the guide post are fixedly assembled on the cap body respectively, the display is fixedly assembled on the second transmission mechanism, the second transmission mechanism is in transmission connection with the second driving mechanism, and the second transmission mechanism is slidably sleeved on the guide post.

5. The 5G Internet of things-based visualization controller of claim 4, wherein: the second transmission mechanism is provided with a swing rod, a sliding support and a sliding ring, one end of the swing rod is fixedly connected with a rotating shaft of the second driving mechanism, one end of the swing rod is rotatably sleeved with the sliding ring, the sliding ring is assembled on the sliding support in a sliding mode, the sliding support is sleeved on the guide column in a sliding mode, and the display is fixedly assembled on the sliding support in a sliding mode.

6. The visualization controller based on the 5G Internet of things of claim 5, wherein: the sliding support is provided with a through hole and a sliding groove, the through hole is sleeved on the outer surface of the guide post in a sliding mode, and the sliding ring is assembled in the sliding groove;

the second in-place detection mechanism is provided with a third magnetic block, a second Hall element and a third Hall element, the second Hall element and the third Hall element are respectively and fixedly assembled on the cap body, and the third magnetic block is fixedly assembled on the sliding support; and the second Hall component is positioned above the third Hall component.

7. The visualization controller based on the 5G Internet of things of claim 1, wherein: the helmet body is provided with a front shell and a main shell, the front shell is fixedly assembled in front of the main shell, an accommodating space is formed between the front shell and the main shell, and the telescopic module and the lifting module are located in the accommodating space;

a camera channel for the image collector to extend out is arranged in the middle of the front shell;

and a screen channel for the display to enter and exit is arranged on the brim of the main shell.

8. The visualization controller based on the 5G Internet of things of any one of claims 1 to 6, wherein: the system is also provided with a 5G signal receiving module and a control module, wherein the 5G signal receiving module, the telescopic module, the image collector and the display are respectively connected with the control module;

the working instruction is at least one of an image collector telescopic instruction or a display lifting instruction.

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