CN215222360U - Campus energy-saving management and control system based on 5G - Google Patents

Abstract

The utility model relates to a campus energy-saving management and control system based on 5G, which comprises a camera, a campus management and control terminal and a display device; the display equipment comprises a display screen, a hollow frame, a secondary filtering component, a ventilation filtering system and a driving component, wherein the hollow frame is used for mounting the display screen, and an air blowing port is formed in the surface, which is in contact with the display screen, of the hollow frame; the secondary filtering component comprises fixed pulleys arranged at four corners of the hollow frame and a net type filtering layer rotationally connected to the outside of the fixed pulleys. The utility model discloses a frame that will install the display screen sets up to hollow tubulose, and the net formula filter layer on the outside edge of hollow frame is blown to the external cold wind that lets in, gets into in the hollow tube again after filtering and blows to every display screen surface from blowing the mouth, can give display screen and hollow frame and dispel the heat fast to filtration is abundant, can not influence display screen life.

Description

Campus energy-saving management and control system based on 5G

Technical Field

The utility model belongs to the technical field of energy-conserving management and control, concretely relates to campus energy-conserving management and control system based on 5G.

Background

In order to manage and control various safety conditions in a campus, various sensors and cameras are generally required to be installed in various places, then a certain area is monitored in real time, monitored contents can be transmitted to a computer host through a series of signal conversion equipment such as a wireless transceiver through wireless signals, and finally, image information is displayed through a display screen to complete a management and control standard.

However, in the existing campus monitoring room, a plurality of display screens are generally used for displaying each monitoring picture, and the plurality of display screens are connected with a computer host for managing and controlling work. The display screen is embedded installation in the wall generally to dispel the heat through the fan, during the ventilation cooling circulation, the dust entering can be brought into to the air, consequently can set up filtration equipment in air intake department generally, but filtration equipment can reduce gradually after long-term the use, influences the life of a plurality of display screens.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving management and control system in campus based on 5G of a simple structure, reasonable in design just for solving above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a campus energy-saving management and control system based on 5G comprises a camera, a campus management and control terminal and a display device, wherein the camera is connected with the campus management and control terminal through a 5G network, the campus management and control terminal is connected with the display device through a data line, and a monitoring image acquired by the camera is received by the campus management and control terminal and is sent to the display device for display;

the display equipment comprises a display screen, a hollow frame, a secondary filtering component, a ventilation filtering system and a driving component, wherein the hollow frame is used for mounting the display screen, and an air blowing port is formed in the surface, which is in contact with the display screen, of the hollow frame;

the secondary filtering component comprises fixed pulleys arranged at four corners of the hollow frame and a net type filtering layer rotationally connected to the outside of the fixed pulleys, and cold air discharged from the air outlet enters the hollow frame after being filtered by the net type filtering layer and is blown to the surface of each display screen from the air blowing port.

As the utility model discloses a further optimization scheme, hollow frame includes horizontal frame and mullion, horizontal frame and mullion are the hollow tube, horizontal frame and mullion distribute perpendicularly into latticed, and horizontal frame and mullion junction are linked together, the display screen is installed in horizontal frame and mullion connect every net that forms.

As a further optimization scheme of the utility model, hollow frame keeps away from drive assembly's the fixed outer deckle board that is equipped with in outside edge, the bull stick of fixed pulley one end passes through the bearing and is connected with the outer deckle board, run through on the outer deckle board and seted up the air exit, set up the protection filter screen in the air exit.

As a further optimization scheme of the utility model, the net type filter layer is made of activated carbon fiber, glass fiber or non-woven fabric material, and the scraping plate is fixedly arranged on the hollow outer frame plate corresponding to the surfaces of the two sides of the net type filter layer.

As the utility model discloses a further optimization scheme, hollow frame sets up in arranging the caulking groove of seting up on the installation face, the outer deckle board sets up in the caulking groove outside edge, and the fixed guard plate that is equipped with of caulking groove inner wall, drive assembly and ventilation filtration system all install on the guard plate.

As the utility model discloses a further optimization scheme, ventilation filtration system includes air-blower, hollow air-out framed panel and first filter assembly, hollow air-out framed panel is fixed in the guard plate lateral wall through the support, the air outlet is seted up in hollow air-out framed panel and net formula filtering layer contact on the surface, the air-blower is fixed in guard plate rear side surface, first filter assembly inlays and locates just front end in guard plate bottom lateral wall and connect the air intake in guard plate surface, first filter assembly presss from both sides intraformational inlet channel and air-blower access connection through seting up in the guard plate, the air-blower export is through air-out pipeline and hollow air-out framed panel intercommunication.

As the utility model discloses a further optimization scheme, first filtering component comprises bellows and the multilayer filter screen that sets up in bellows with sliding, and air intake department sets up the dodge gate, a plurality of meshs have been seted up on the dodge gate.

As the utility model discloses a further optimization scheme, drive assembly sets up articulated arm, drive articulated arm pivoted actuating mechanism on the guide rail including setting up guide rail, the slip on the lateral wall behind the hollow frame, articulated arm and guide rail set up to two at least, and two articulated arms and two guide rail longitudinal symmetry set up, and the guide rail is fixed in on the hollow frame, the articulated arm both ends are all rotated and are connected with articulated seat, and the articulated seat of articulated arm one end slides and set up in the guide rail, the articulated seat of the articulated arm other end is fixed in on the hollow air-out framed panel.

As the utility model discloses a further optimization scheme, actuating mechanism is for installing the handle on the frame plate or the servo motor who is connected with the articulated shaft of articulated arm, servo motor and campus management and control terminal connection.

The beneficial effects of the utility model reside in that:

1) the utility model discloses a set up the frame of installing the display screen into hollow tube form, the outside let in cold wind blows to the net formula filter layer on the edge of hollow frame outside, and the reentrant hollow tube after filtering blows to every display screen surface from blowing the mouth, can give display screen and hollow frame quick heat dissipation to air filtration is abundant, can not influence display screen life;

2) the utility model discloses an utilize fixed pulley installation net formula filter layer, when hollow frame shifted out the caulking groove, drive the net formula filter layer and shift out, rotate net formula filter layer cooperation scraper blade and use, can clear up the net formula filter layer, also make things convenient for the change of net formula filter layer.

Drawings

FIG. 1 is an overall system topology of the present invention;

fig. 2 is a schematic view of the overall cross-sectional structure of the present invention;

fig. 3 is an enlarged view of a portion a of the structure of fig. 2 according to the present invention;

fig. 4 is a schematic view of the overall cross-sectional structure of the hollow frame of the present invention when it is removed;

FIG. 5 is a schematic view of a partial structure of the hollow frame of the present invention;

fig. 6 is a front view of the display device of the present invention;

fig. 7 is a schematic view of the cross-sectional structure of the hollow air outlet frame plate of the present invention;

FIG. 8 is a partial rear view of the outer frame panel of the present invention;

in the figure: 1. a camera; 2. a campus control terminal; 3. a display device; 31. a display screen; 32. a hollow frame; 321. a transverse frame; 322. a vertical frame; 33. a secondary filtration component; 331. a fixed pulley; 332. a net type filter layer; 34. a ventilation filtration system; 341. a blower; 342. a hollow air-out frame plate; 343. a primary filtration assembly; 35. a drive assembly; 351. a guide rail; 352. an articulated arm; 353. a drive mechanism; 354. a hinged seat; 4. an outer frame plate; 5. an air outlet; 6. a squeegee; 7. caulking grooves; 8. a protection plate; 9. an air blowing port; 10. an air outlet; 11. an air inlet channel; 12. an air outlet pipeline; 13. and an air inlet.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1, a campus energy saving management and control system based on 5G includes a camera 1, a campus management and control terminal 2, and a display device 3; campus management and control terminal 2 is the computer, camera 1 is connected with campus management and control terminal 2 through the 5G network, campus management and control terminal 2 is connected with display device 3 through the data line.

The implementation mode is specifically as follows: the monitoring image that camera 1 gathered is received and is sent to display device 3 through campus management and control terminal 2 and show, when camera 1 shot in the classroom nobody, if this moment for the entrance guard time, for example night banning, can close through the display screen 31 that campus management and control terminal 2 control corresponds this moment, practices thrift the energy consumption.

As shown in fig. 2 to 8, the display device 3 includes a display screen 31, a hollow frame 32 for mounting the display screen 31 and having a blowing port 9 on a surface contacting with the display screen 31, a secondary filter assembly 33 disposed at an edge of the hollow frame 32, a ventilation filter system 34 having an air outlet 10 corresponding to the secondary filter assembly 33, and a driving assembly 35 for driving the hollow frame 32 and the secondary filter assembly 33 to move back and forth;

the hollow frame 32 is arranged in a caulking groove 7 formed in the mounting surface, the outer frame plate 4 is arranged on the outer side edge of the caulking groove 7, a protection plate 8 is fixedly arranged on the inner wall of the caulking groove 7, and the driving assembly 35 and the ventilation and filtration system 34 are both arranged on the protection plate 8; the hollow frame 32 comprises a transverse frame 321 and a vertical frame 322, the transverse frame 321 and the vertical frame 322 are both hollow tubes, the transverse frame 321 and the vertical frame 322 are vertically distributed in a grid shape, the connecting part of the transverse frame 321 and the vertical frame 322 is communicated, and the display screen 31 is arranged in each grid formed by connecting the transverse frame 321 and the vertical frame 322; the outer edge of the hollow frame 32, which is far away from the driving component 35, is fixedly provided with an outer frame plate 4, an air outlet 5 is arranged on the outer frame plate 4 in a penetrating manner, and a protective filter screen is arranged in the air outlet 5;

the secondary filtering component 33 comprises a fixed pulley 331 and a mesh filtering layer 332, wherein the fixed pulley 331 is installed at four corners of the hollow frame 32, the mesh filtering layer 332 is rotatably connected to the outside of the fixed pulley 331, a rotating rod at one end of the fixed pulley 331 is connected with the outer frame plate 4 through a bearing, and cold air discharged from the air outlet 10 enters the hollow frame 32 after being filtered by the mesh filtering layer 332 and is blown to the surface of each display screen 31 from the air blowing port 9. The net type filter layer 332 is made of activated carbon fiber, glass fiber or non-woven fabric materials, and scraping plates 6 are fixedly arranged on the hollow outer frame plates 4 corresponding to the two side surfaces of the net type filter layer 332;

the ventilation filter system 34 comprises a blower 341, a hollow air outlet frame plate 342 and a primary filter assembly 343, the hollow air outlet frame plate 342 is fixed on the side wall of the protection plate 8 through a bracket, the air outlet 10 is arranged on the surface of the hollow air outlet frame plate 342 contacting with the mesh filter layer 332, the blower 341 is fixed on the surface of the rear side of the protection plate 8, the primary filter assembly 343 is embedded in the side wall of the bottom of the protection plate 8 and the front end of the primary filter assembly is connected with an air inlet 13 on the surface of the protection plate 8, the primary filter assembly 343 is connected with the inlet of the blower 341 through an air inlet channel 11 arranged in the interlayer of the protection plate 8, and the outlet of the blower 341 is communicated with the hollow air outlet frame plate 342 through an air outlet pipeline 12;

the primary filter assembly 343 is composed of an air box and a plurality of layers of filter screens slidably arranged in the air box, a movable door is arranged at the air inlet 13, a plurality of meshes are formed in the movable door, and the arrangement of the meshes is such that the external air can enter the air box, and the movable door is opened, so that the plurality of layers of filter screens can be taken out for cleaning or replacement;

the driving assembly 35 comprises a guide rail 351 arranged on the rear side wall of the hollow frame 32, an articulated arm 352 slidably arranged on the guide rail 351, and a driving mechanism 353 for driving the articulated arm 352 to rotate, at least two articulated arms 352 and at least two guide rails 351 are arranged, the two articulated arms 352 and the two guide rails 351 are arranged in an up-and-down symmetrical manner, the guide rail 351 is fixed on the hollow frame 32, two ends of the articulated arm 352 are rotatably connected with articulated seats 354, the articulated seat 354 at one end of the articulated arm 352 is slidably arranged in the guide rail 351, and the articulated seat 354 at the other end of the articulated arm 352 is fixed on the hollow air outlet frame plate 342; the driving mechanism 353 is a handle mounted on the outer frame plate 4 or a servo motor connected to a hinge shaft of the hinge arm 352, and the servo motor is connected to the campus management and control terminal 2.

The implementation mode is specifically as follows: during the use of the display device 3, the ventilation and filtration system 34 is started, the blower 341 is started, the outside air is sucked into the air box through the air inlet 13, and is primarily filtered by a plurality of layers of filter screens, the filtered air enters the hollow air outlet frame plate 342 from the air inlet channel 11 and then passes through a plurality of air outlet pipelines 12, is finally discharged from the air outlet 10, is blown to the mesh filter layer 332 at the edge of the outer side wall of the hollow frame 32, is filtered again by the mesh filter layer 332 and is blown to the surface of the hollow frame 32 and the inner cavity of the hollow frame 32, finally, the air is blown to the back side surface of the display screen 31 from the air blowing port 9, the heat emitted from the back side of the display screen 31 and the heat conducted from the display screen 31 to the hollow frame 32 are both taken away by cold air, the cold air at the position is relative to the heat of the display screen 31, and the air after heat exchange is exhausted through the air outlet 5 on the outer frame plate 4, so that the heat dissipation of the display screen 31 is realized;

when the display screen 31 needs to be replaced or the net type filter layer 332 needs to be cleaned and replaced, the outer frame plate 4 is pulled by the handle to realize the rotation of the articulated arm 352 or the articulated arm 352 is controlled to rotate by the servo motor;

when the hinge arm 352 rotates, the hinge seat 354 at one end slides in the guide rail 351 to adapt to the hollow frame 32 pulled out to the outside, and when the hollow frame 32 is pulled out of the caulking groove 7, people can enter between the hollow frame 32 and the caulking groove 7 from one side to perform the replacement work of the display screen 31;

when the mesh filter layer 332 is cleaned, the mesh filter layer 332 can be manually pulled to rotate on the fixed pulley 331, and at this time, the scraper 6 can contact with the mesh filter layer 332, so that dust on the surface of the mesh filter layer 332 can be cleaned.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (9)

1. The utility model provides a campus energy-conserving management and control system based on 5G which characterized in that: the system comprises a camera (1), a campus management and control terminal (2) and a display device (3), wherein the camera (1) is connected with the campus management and control terminal (2) through a 5G network, and the campus management and control terminal (2) is connected with the display device (3) through a data line;

the display equipment (3) comprises a display screen (31), a hollow frame (32) which is used for installing the display screen (31) and is provided with an air blowing port (9) on the surface contacted with the display screen (31), a secondary filtering component (33) arranged at the edge of the hollow frame (32), a ventilation filtering system (34) of which the air outlet (10) corresponds to the secondary filtering component (33), and a driving component (35) which drives the hollow frame (32) and the secondary filtering component (33) to move back and forth;

the secondary filtering component (33) comprises fixed pulleys (331) arranged at four corners of the hollow frame (32) and mesh filtering layers (332) rotatably connected to the outer portions of the fixed pulleys (331), and cold air discharged from the air outlet (10) enters the hollow frame (32) after being filtered by the mesh filtering layers (332) and is blown to the surface of each display screen (31) from the air blowing port (9).

2. The campus energy conservation management and control system based on 5G according to claim 1, characterized in that: hollow frame (32) are including horizontal frame (321) and mullion (322), horizontal frame (321) and mullion (322) are the hollow tube, horizontal frame (321) and mullion (322) are distributed perpendicularly into latticed, and horizontal frame (321) and mullion (322) junction are linked together, display screen (31) are installed in every net that horizontal frame (321) and mullion (322) connect and form.

3. The campus energy conservation management and control system based on 5G according to claim 1, characterized in that: the fixed outer deckle board (4) that are equipped with in the outside edge of keeping away from drive assembly (35) in hollow frame (32), the bull stick of fixed pulley (331) one end passes through the bearing and is connected with outer deckle board (4), run through on outer deckle board (4) and seted up air exit (5), set up the protection filter screen in air exit (5).

4. The campus energy conservation management and control system based on 5G according to claim 3, characterized in that: the net type filter layer (332) is made of activated carbon fiber, glass fiber or non-woven fabric materials, and scraping plates (6) are fixedly arranged on the hollow outer frame plates (4) corresponding to the surfaces of the two sides of the net type filter layer (332).

5. The campus energy conservation management and control system based on 5G according to claim 3, characterized in that: the hollow frame (32) is arranged in a caulking groove (7) formed in the mounting surface, the outer frame plate (4) is arranged on the outer side edge of the caulking groove (7), a protection plate (8) is fixedly arranged on the inner wall of the caulking groove (7), and the driving assembly (35) and the ventilation and filtration system (34) are arranged on the protection plate (8).

6. The campus energy conservation management and control system based on 5G according to claim 5, characterized in that: ventilation filtration system (34) includes air-blower (341), hollow air-out frame board (342) and first filter assembly (343), hollow air-out frame board (342) is fixed in guard plate (8) lateral wall through the support, air outlet (10) are seted up on the surface of hollow air-out frame board (342) and net formula filter layer (332) contact, air-blower (341) are fixed in guard plate (8) rear side surface, first filter assembly (343) inlay locate in guard plate (8) bottom lateral wall and front end in guard plate (8) surface connection air intake (13), first filter assembly (343) are through seting up in guard plate (8) interbedded inlet channel (11) and air-blower (341) access connection, air-blower (341) export communicates through air-out pipeline (12) and hollow air-out frame board (342).

7. The campus energy conservation management and control system based on 5G according to claim 6, characterized in that: first filtering component (343) comprise bellows and the multilayer filter screen that slides and set up in bellows, and air intake (13) department sets up the dodge gate, a plurality of meshs have been seted up on the dodge gate.

8. The campus energy conservation management and control system based on 5G according to claim 6, characterized in that: drive assembly (35) including setting up guide rail (351), the slip on hollow frame (32) rear side wall and setting up articulated arm (352) on guide rail (351), drive articulated arm (352) pivoted actuating mechanism (353), articulated arm (352) and guide rail (351) set up to two at least, and two articulated arm (352) and two guide rail (351) longitudinal symmetry set up, and guide rail (351) are fixed in on hollow frame (32), articulated arm (352) both ends all rotate and are connected with articulated seat (354), and articulated seat (354) the slip of articulated arm (352) one end sets up in guide rail (351), articulated seat (354) of articulated arm (352) other end are fixed in on hollow air-out framed board (342).

9. The campus energy conservation management and control system based on 5G according to claim 8, characterized in that: actuating mechanism (353) are the handle of installing on outer deckle board (4) or the servo motor who is connected with the articulated shaft of articulated arm (352), servo motor is connected with campus management and control terminal (2).

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