CN213847443U - Intelligent power grid electric energy quality health monitoring equipment - Google Patents

Abstract

The utility model relates to the technical field of monitoring equipment, and discloses intelligent power grid electric energy quality and health monitoring equipment, which comprises a monitoring equipment shell and a rotating mechanism, wherein spring layers are fixedly connected with two sides of the inner wall of the monitoring equipment shell, a clapboard is fixedly connected between the two spring layers, a monitoring head placing groove is arranged between the lower end of the clapboard and the bottom end of the inner wall of the shell of the monitoring device in a chiseling way, a rotating mechanism is fixedly arranged between the upper end of the clapboard and the upper side of the inner wall of the monitoring equipment shell, the surface of the front end of the monitoring equipment shell is fixedly connected with an operating panel, and the surface of the middle part of the operation panel is fixedly provided with a control button, the top of the monitoring equipment shell is fixedly connected with the handle through a notch, the monitoring device shell is characterized in that the cooling fins which are uniformly distributed are fixedly arranged on the left side of the back face of the monitoring device shell, and a power jack is fixedly arranged at the lower right end of the back face of the monitoring device shell. The intelligent power grid electric energy quality health monitoring equipment has the advantages of reasonable and simple structural design and wide monitoring range.

Description

Intelligent power grid electric energy quality health monitoring equipment

Technical Field

The utility model relates to a monitoring facilities technical field just discloses smart power grids electric energy quality health monitoring equipment.

Background

The intelligent power grid electric energy quality health monitoring equipment is an instrument electric energy quality general term used for monitoring various indoor and outdoor parameters, the electric energy quality and the change trend thereof are determined through measuring representative values of electric energy quality factors, along with the development of structure adjustment and industrial technology upgrading of China industry, a monitoring and special optimization system facing high energy consumption and high material consumption has larger market demand, and in order to meet the requirements of realizing circular economy, energy conservation and emission reduction, the demands of enterprises such as steel, petrifaction, electric power, nonferrous metal and the like on an electric energy monitoring system and a safety monitoring system are further increased.

The existing intelligent power grid electric energy quality health monitoring equipment has the following defects:

1. the existing intelligent power grid electric energy quality health monitoring equipment has a limited monitoring range;

2. the existing intelligent power grid electric energy quality health monitoring equipment does not dissipate heat of an electric element of the equipment, and is not intelligent enough.

Therefore, intelligent power grid power quality health monitoring equipment is designed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a smart power grids electric energy quality health monitoring equipment. The problem of carry not convenient enough, monitoring range is limited and do not dispel the heat to equipment electrical component, and intelligent inadequately is solved.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

smart power grids electric energy quality health monitoring equipment, including monitoring facilities shell and rotary mechanism, the inner wall both sides fixedly connected with spring layer of monitoring facilities shell, and two fixedly connected with baffle between the spring layer, it has the monitoring head standing groove to chisel between baffle lower extreme and the monitoring facilities shell inner wall bottom, fixed mounting has rotary mechanism between baffle upper end and the monitoring facilities shell inner wall upside, monitoring facilities shell front end fixed surface is connected with operating panel, and operating panel middle part fixed surface installs control button, notch and handle fixed connection are passed through at the top of monitoring facilities shell, the back left side fixed mounting of monitoring facilities shell has evenly distributed's fin, monitoring facilities shell back right side lower extreme fixed mounting has electrical socket.

Furthermore, the inside fixed mounting of rotary mechanism has driving motor, driving motor passes through the connecting axle and drives the driving gear rotation connection, the driving gear passes through the external screw thread and is connected with driven gear meshing, driving motor, driving gear and driven gear symmetric connection.

Furthermore, the driven gear is connected with the rotary rod through the center shaft in a rotating mode, and one side of the rotary rod is connected with a monitoring head in a threaded mode.

Further, operating panel front end fixed surface installs the display screen frame, and display screen frame inboard inlays and has the display screen, control button passes through wire and rotary mechanism electric connection.

Further, monitoring facilities shell left side skin weld has the cold air duct, and the cold air duct passes through opening and the inside through connection of monitoring facilities shell, one side fixed mounting of cold air duct has the air-cooler, and cold air duct and air-cooler are symmetrical about the monitoring head.

Furthermore, the left side and the right side in the rotating mechanism are rotationally connected with the monitoring head through rotating rods, and the rotating directions of the monitoring head are opposite.

The utility model has the advantages that:

1. the utility model discloses a, through setting up rotary mechanism, at first two driving motor work in personnel's accessible control button start rotary mechanism, then driving motor passes through the connecting axle and drives the driving gear and rotate and then drive driven gear and rotate, thereby driven gear passes through the rotary rod and drives the monitoring head rotatory, another driving motor passes through the driving gear simultaneously, driven gear and rotary rod drive the monitoring head rotatory, and direction of rotation is opposite with preceding monitoring head direction of rotation, all-round monitoring has finally been realized, the result passing signal line transmission with the monitoring shows in the display screen at last, the personnel of being convenient for take measures through monitoring data, monitoring quality has been guaranteed.

3. The utility model discloses a, through setting up cold air duct, air-cooler and fin, personnel's accessible control button starts the air-cooler work, then inside the air-cooler transported cold wind to the monitoring facilities shell through the cold air duct with this with cold wind blows in the monitoring facilities shell, takes away the heat of inside production, and the heat that cold wind was taken away is again through a plurality of fins with this realization inside heat is scattered.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of the inside of the housing of the monitoring device of the present invention;

fig. 3 is a left side view of the present invention;

fig. 4 is a rear view of the present invention.

In the figure: 1. monitoring the equipment housing; 2. a display screen frame; 3. an operation panel; 4. a control button; 5. rotating the rod; 6. a driven gear; 7. a partition plate; 8. a spring layer; 9. a display screen; 10. a monitoring head; 11. a driving gear; 12. a monitoring head placing groove; 13. a handle; 14. a rotation mechanism; 15. a heat sink; 16. a power jack; 17. an air cooler; 18. a cold air duct; 19. the motor is driven.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to FIGS. 1-4: the intelligent power quality health monitoring equipment for the power grid comprises a monitoring equipment shell 1 and a rotating mechanism 14, wherein spring layers 8 are fixedly connected to two sides of the inner wall of the monitoring equipment shell 1, a partition plate 7 is fixedly connected between the two spring layers 8, a monitoring head placing groove 12 is arranged between the lower end of the partition plate 7 and the bottom end of the inner wall of the monitoring equipment shell 1 in a chiseling mode, the rotating mechanism 14 is fixedly arranged between the upper end of the partition plate 7 and the upper side of the inner wall of the monitoring equipment shell 1, an operating panel 3 is fixedly connected to the surface of the front end of the monitoring equipment shell 1, a control button 4 is fixedly arranged on the middle surface of the operating panel 3, the top of the monitoring equipment shell 1 is fixedly connected with a handle 13 through a notch, radiating fins 15 which are uniformly distributed are fixedly arranged on the left side of the back of the monitoring equipment shell 1, a power supply jack 16 is fixedly arranged at the right lower end of the back of the monitoring equipment shell 1, firstly, a person starts the rotating mechanism 14 to work through the control button 4 on the operating panel 3, then rotary mechanism 14 drives two monitoring heads 10 rotatoryly, with this expansion monitoring range, start the work of air-cooler 17 simultaneously with this, then air-cooler 17 transports cold wind through cold air duct 18 to monitoring facilities shell 1 inside with this with cold wind insufflates monitoring facilities shell 1 inside, take away the heat of inside production, the heat that cold wind was taken away is again through a plurality of fin 15 with this realization inside heat and is dispelled, at last the monitoring is finished the back and is pulled down monitoring head 10 and put into monitoring head standing groove 12, because the spring layer 8 of monitoring head standing groove 12 both sides installation, consequently, can protect monitoring head 10.

Wherein, rotary mechanism 14 inside fixed mounting has driving motor 19, and driving motor 19 drives driving gear 11 through the connecting axle and rotates the connection, and driving gear 11 passes through the external screw thread to be connected with driven gear 6 meshing, driving motor 19, driving gear 11 and driven gear 6 symmetric connection, driving motor 19 drive driving gear 11 through the connecting axle and rotate and then drive driven gear 6 and rotate to driven gear 6 drives monitoring head 10 rotation through rotary rod 5.

Wherein, driven gear 6 rotates with rotary rod 5 through the center pin to be connected, and one side threaded connection of rotary rod 5 has monitoring head 10, and driven gear 6's rotation can drive monitoring head 10 rotatory through rotary rod 5.

Wherein, operating panel 3 front end fixed surface installs display screen frame 2, and 2 inboard inlays of display screen frame and has display screen 9, and control button 4 passes through wire and rotary mechanism 14 electric connection, and control button 4 is used for controlling rotary mechanism 14 and air-cooler 17 operating condition, and display screen 9 is used for showing data or image display that monitoring head 10 monitored, and the personnel of being convenient for carry out the analysis to power quality.

Wherein, monitoring facilities shell 1 left side skin weld has cold wind pipeline 18, and cold wind pipeline 18 passes through the inside through connection of opening and monitoring facilities shell 1, one side fixed mounting of cold wind pipeline 18 has air-cooler 17, and cold wind pipeline 18 and air-cooler 17 are symmetrical about monitoring head 10, inside monitoring facilities shell 1 with this will be insufflated with cold wind to air-cooler 17 transports cold wind through cold wind pipeline 18 to monitoring facilities shell 1, take away the heat of inside production, the heat that cold wind was taken away is again through a plurality of fin 15 with this realization inside heat and is dispeled.

Wherein, the inside left and right sides of rotary mechanism 14 is connected with monitoring head 10 through rotary rod 5 rotation, and monitoring head 10's direction of rotation is opposite to this monitoring range that can expand.

To sum up, when the utility model is used, firstly, a person starts the rotating mechanism 14 through the control button 4 on the operation panel 3 to work, the driving motor 19 drives the driving gear 11 to rotate through the connecting shaft and further drives the driven gear 6 to rotate, so that the driven gear 6 drives the monitoring head 10 to rotate through the rotating rod 5, meanwhile, another driving motor 19 drives the monitoring head 10 to rotate through the driving gear 11, the driven gear 6 and the rotating rod 5, the rotating direction is opposite to the rotating direction of the previous monitoring head 10, finally, the omnibearing monitoring is realized, finally, the monitoring result is transmitted to the display screen 9 through the signal wire to be displayed, the person can conveniently take measures through the monitoring data, the monitoring quality is ensured, meanwhile, the air cooler 17 is started to work, then the air cooler 17 conveys cold air to the inside of the monitoring device shell 1 through the cold air pipeline 18 so as to blow the cold air into the monitoring device shell 1, take away the heat of inside production, the heat that cold wind was taken away is again through a plurality of fin 15 with this realization inside heat dispels, and the monitoring head 10 is pulled down after finishing at last monitoring and is put into monitoring head standing groove 12, because the spring layer 8 of 12 both sides installations of monitoring head standing groove, consequently can protect monitoring head 10.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (6)

1. Smart power grids electric energy quality health monitoring equipment, including monitoring facilities shell (1) and rotary mechanism (14), its characterized in that: two sides of the inner wall of the monitoring equipment shell (1) are fixedly connected with spring layers (8), a clapboard (7) is fixedly connected between the two spring layers (8), a monitoring head placing groove (12) is arranged between the lower end of the clapboard (7) and the bottom end of the inner wall of the monitoring equipment shell (1), a rotating mechanism (14) is fixedly arranged between the upper end of the clapboard (7) and the upper side of the inner wall of the monitoring equipment shell (1), the front end surface of the monitoring equipment shell (1) is fixedly connected with an operation panel (3), and the surface of the middle part of the operation panel (3) is fixedly provided with a control button (4), the top of the monitoring equipment shell (1) is fixedly connected with a handle (13) through a notch, the left side of the back surface of the monitoring equipment shell (1) is fixedly provided with evenly distributed radiating fins (15), and a power jack (16) is fixedly arranged at the lower right end of the back surface of the monitoring equipment shell (1).

2. The smart grid power quality health monitoring device of claim 1, wherein: the rotary mechanism (14) is internally and fixedly provided with a driving motor (19), the driving motor (19) drives a driving gear (11) to rotate through a connecting shaft, the driving gear (11) is meshed with a driven gear (6) through external threads, and the driving motor (19), the driving gear (11) and the driven gear (6) are symmetrically connected.

3. The smart grid power quality health monitoring device of claim 2, wherein: driven gear (6) are connected through center pin and rotary rod (5) rotation, and one side threaded connection of rotary rod (5) has monitoring head (10).

4. The smart grid power quality health monitoring device of claim 1, wherein: operating panel (3) front end fixed surface installs display screen frame (2), and display screen frame (2) inboard is inlayed and is had display screen (9), control button (4) pass through wire and rotary mechanism (14) electric connection.

5. The smart grid power quality health monitoring device of claim 1, wherein: monitoring devices shell (1) left side skin weld has cold wind pipeline (18), and cold wind pipeline (18) through opening and monitoring devices shell (1) inside through connection, one side fixed mounting of cold wind pipeline (18) has air-cooler (17), and cold wind pipeline (18) and air-cooler (17) are symmetrical about monitoring head (10).

6. The smart grid power quality health monitoring device of claim 1, wherein: the left side and the right side in the rotating mechanism (14) are rotationally connected with the monitoring head (10) through a rotating rod (5), and the rotating direction of the monitoring head (10) is opposite.

Images