CN113178786A - Energy stability monitoring management device - Google Patents

Abstract

The invention discloses an energy stability monitoring and managing device, relates to the technical field of energy monitoring, and aims to solve the problem that a common energy stability monitoring and managing device in the prior art cannot continue to monitor after overload damage occurs. First dead lever, second dead lever, third dead lever and fourth dead lever are installed respectively to the inside of the cabinet body, and first dead lever, second dead lever, third dead lever and fourth dead lever all pass through fastening screw and cabinet body fixed connection, install the overload conversion box on the preceding terminal surface of first dead lever, and the overload conversion box passes through fastening screw fixed connection with first dead lever, install first intelligence box and second intelligence box on the preceding terminal surface of fourth dead lever respectively, and first intelligence box and second intelligence box all pass through fastening screw and fourth dead lever fixed connection, install first fuse and second fuse on the preceding terminal surface of second dead lever respectively.

Description

Energy stability monitoring management device

Technical Field

The invention relates to the technical field of energy monitoring, in particular to an energy stability monitoring and managing device.

Background

Energy source means a resource capable of providing energy. The energy generally refers to heat energy, electric energy, light energy, mechanical energy, chemical energy and the like, and the energy can be divided into three main categories according to sources: firstly, energy from the sun comprises energy directly from the sun (such as sunlight thermal radiation energy) and energy indirectly from the sun (such as biomass energy of combustible minerals and firewood like coal, oil, natural gas and oil shale, hydroenergy and wind energy and the like), secondly, energy from the earth, namely geothermal energy stored in the earth, such as underground hot water, underground steam and dry hot rock mass; the other is nuclear energy stored in uranium, thorium and other nuclear fuels in the earth crust, and energy generated by the gravity of celestial bodies such as the moon, the sun and the like to the earth, such as tidal energy.

The electric energy application and consumption are the most unstable, an energy stability monitoring device is needed to be used for monitoring the electric energy application and consumption in real time, however, when the electric energy is conveyed, surge easily occurs, the damage of the energy stability monitoring device is likely to be caused by overhigh voltage, the energy stability monitoring device needs to be repaired immediately at this time, a great amount of time needs to be consumed when maintenance personnel reach the repairing position and repair the energy stability monitoring device, the electric energy is not monitored in the time period, the common energy stability monitoring management device cannot continue to monitor after overload damage occurs, and problems generated in a circuit cannot be found in time; therefore, the market urgently needs to develop an energy stability monitoring and managing device to help people solve the existing problems.

Disclosure of Invention

The invention aims to provide an energy stability monitoring and managing device, which solves the problem that the common energy stability monitoring and managing device in the background technology cannot continue monitoring work after overload damage occurs.

In order to achieve the purpose, the invention provides the following technical scheme: an energy stability monitoring and management device comprises a cabinet body, wherein a first fixed rod, a second fixed rod, a third fixed rod and a fourth fixed rod are respectively arranged in the cabinet body, the first fixed rod, the second fixed rod, the third fixed rod and the fourth fixed rod are fixedly connected with the cabinet body through fastening screws, an overload conversion box is arranged on the front end face of the first fixed rod and is fixedly connected with the first fixed rod through the fastening screws, a first intelligent box and a second intelligent box are respectively arranged on the front end face of the fourth fixed rod and are fixedly connected with the fourth fixed rod through the fastening screws, a first fuse and a second fuse are respectively arranged on the front end face of the second fixed rod and are fixedly connected with the second fixed rod through the fastening screws, a first ammeter and a second ammeter are respectively arranged on the front end face of the third fixed rod, and first ampere meter and second ampere meter all pass through fastening screw and third dead lever fixed connection, the internally mounted of first intelligence box has the mainboard frame, and the mainboard frame passes through fastening screw fixed connection with first intelligence box, install the mainboard on the preceding terminal surface of mainboard frame, and mainboard frame pass through fastening screw fixed connection, install the treater on the preceding terminal surface of mainboard, and treater and mainboard electric connection.

Preferably, first fuse and second fuse all with overload conversion box electric connection, first fuse and first ampere meter electric connection, first ampere meter and first intelligent box electric connection.

Preferably, second fuse and second ampere meter electric connection, second ampere meter and second intelligence box electric connection, the inside of the cabinet body is pressed and is installed and connect the electricity box, and connects the electricity box and pass through fastening screw fixed connection with the cabinet body, first intelligence box and second intelligence box all with connect electricity box electric connection.

Preferably, install the display on the preceding terminal surface of the cabinet body, and the display passes through fastening screw fixed connection with the cabinet body, connect electricity box and display electric connection, install the button on the preceding terminal surface of the cabinet body, and button and cabinet body fixed connection.

Preferably, install the cabinet door on the preceding terminal surface of the cabinet body, and the cabinet door passes through the hinge rotation with the cabinet body and is connected, install first translucent cover and second translucent cover on the preceding terminal surface of cabinet door respectively, and first translucent cover and second translucent cover all with cabinet door fixed connection, the base is installed to the below of the cabinet body, and the base passes through fastening screw fixed connection with the cabinet body, the both sides of the cabinet body all are provided with the radiating groove, and the radiating groove sets up structure as an organic whole with the cabinet body.

Preferably, the internally mounted of transshipment conversion box has the electromagnetism magnet ware, and the electromagnetism magnet ware passes through fastening screw fixed connection with transshipment conversion box, one side of electromagnetism magnet ware is provided with iron plate, and iron plate and electromagnetism magnet ware magnetism are connected, external terminal is installed to the top of transshipment conversion box, and external terminal passes through fastening screw fixed connection with transshipment conversion box, insulating seat is installed to one side of iron plate, and insulating seat passes through fastening screw fixed connection with iron plate, the fixing base is installed to one side of insulating seat, and the fixing base passes through fastening screw fixed connection with insulating seat, circuit sleeve is installed to the inboard of fixing base, and circuit sleeve and fixing base fixed connection.

Preferably, a conducting strip is installed below the circuit sleeve and fixedly connected with the circuit sleeve, the conducting strip is electrically connected with an external terminal, a first conductor and a second conductor are installed below the overload conversion box respectively and fixedly connected with the overload conversion box through fastening screws, the conducting strip is attached to the first conductor, a first connector is installed on one side of the first conductor and fixedly connected with the first conductor, a second connector is installed on one side of the second conductor and fixedly connected with the second conductor.

Preferably, first spring, first slide axle, second spring and second slide axle are installed respectively to the inside of transshipment box, and first spring, first slide axle, second spring and second slide axle all with transshipment box fixed connection, first slide is installed to the top of iron plate, and first slide and iron plate fixed connection, the second slide is installed to the below of iron plate, and second slide and iron plate fixed connection, first slide and first spring fixed connection, first slide and first slide axle sliding connection, second slide and second spring fixed connection, second slide and second slide axle sliding connection.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is through the arrangement of the overload converting box, the first intelligent box and the second intelligent box, the energy stability monitoring device is connected with the first intelligent box through the overload converting box under the normal working state, the first intelligent box is in the working state, the second intelligent box is in the normally closed state, when the surge occurs in the circuit, the electromagnetic iron attracting device in the overload converting box loses the electric power immediately, at the moment, the first intelligent box loses the electric power, the second intelligent box is connected with the electricity to work immediately, the energy stability monitoring device is ensured to be in the working state all the time, and after the first intelligent box stops working, the second intelligent box sends a signal to inform the maintenance personnel to maintain immediately, thereby the energy monitoring device can still work immediately after the overload is broken, the energy is prevented from having the non-monitoring state, and the problem in the circuit can be discovered immediately all the time, the working effect of the energy stability monitoring device is improved.

2. According to the energy stability monitoring device, the first fuse and the second fuse are arranged, the first fuse is used for protecting the first intelligent box and also used for breaking the circuit of the electromagnetic iron attracting device, and the second fuse is used for protecting the second intelligent box, so that the energy stability monitoring device is prevented from being damaged by surge in the electric energy transmission process, and the energy stability monitoring device is more reliable and safer to use.

Drawings

Fig. 1 is a front view of an energy stability monitoring and managing apparatus according to the present invention;

FIG. 2 is a side view of an energy stability monitoring and management apparatus of the present invention;

fig. 3 is a schematic diagram of an internal structure of an energy stability monitoring and managing apparatus according to the present invention;

fig. 4 is a schematic view of the internal structure of the overload switching cassette of the present invention;

fig. 5 is a schematic diagram of the internal structure of the first smart box of the present invention.

In the figure: 1. a cabinet body; 2. a base; 3. a display; 4. a button; 5. a cabinet door; 6. a first transparent cover; 7. a second transparent cover; 8. a first ammeter; 9. a second ammeter; 10. a heat sink; 11. a first fixing lever; 12. a second fixing bar; 13. a third fixing bar; 14. a fourth fixing bar; 15. an overload switching box; 16. an external terminal; 17. a first fuse; 18. a second fuse; 19. a first smart box; 20. a second smart box; 21. an electromagnetic iron attracting device; 22. an iron plate; 23. an insulating base; 24. a fixed seat; 25. a line casing; 26. a conductive sheet; 27. a first electrical conductor; 28. a first connector; 29. a second electrical conductor; 30. a second connector; 31. a first spring; 32. a first slider; 33. a first slide shaft; 34. a second spring; 35. a second slide carriage; 36. a second slide shaft; 37. a motherboard frame; 38. a main board; 39. a processor; 40. and (6) an electricity receiving box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: an energy stability monitoring and management device comprises a cabinet body 1, wherein a first fixed rod 11, a second fixed rod 12, a third fixed rod 13 and a fourth fixed rod 14 are respectively arranged in the cabinet body 1, the first fixed rod 11, the second fixed rod 12, the third fixed rod 13 and the fourth fixed rod 14 are fixedly connected with the cabinet body 1 through fastening screws, an overload conversion box 15 is arranged on the front end surface of the first fixed rod 11, the overload conversion box 15 is fixedly connected with the first fixed rod 11 through the fastening screws, a first intelligent box 19 and a second intelligent box 20 are respectively arranged on the front end surface of the fourth fixed rod 14, the first intelligent box 19 and the second intelligent box 20 are respectively fixedly connected with the fourth fixed rod 14 through the fastening screws, a first fuse 17 and a second fuse 18 are respectively arranged on the front end surface of the second fixed rod 12, the first fuse 17 and the second fuse 18 are respectively fixedly connected with the second fixed rod 12 through the fastening screws, install first ampere meter 8 and second ampere meter 9 on the preceding terminal surface of third dead lever 13 respectively, first ampere meter 8 and second ampere meter 9 all pass through fastening screw and third dead lever 13 fixed connection, the internally mounted of first intelligence box 19 has mainboard frame 37, mainboard frame 37 passes through fastening screw fixed connection with first intelligence box 19, install mainboard 38 on the preceding terminal surface of mainboard frame 37, mainboard 38 passes through fastening screw fixed connection with mainboard frame 37, install treater 39 on the preceding terminal surface of mainboard 38, treater 39 and mainboard 38 electric connection.

Further, first fuse 17 and second fuse 18 all with overload conversion box 15 electric connection, first fuse 17 and first ampere meter 8 electric connection, first ampere meter 8 and first intelligent box 19 electric connection, the inner structure of first intelligent box 19 and second intelligent box 20 is the same.

Further, second fuse 18 and second ampere meter 9 electric connection, second ampere meter 9 and second intelligence box 20 electric connection, the inside of the cabinet body 1 is pressed and is installed and connect electric box 40, connects electric box 40 and passes through fastening screw fixed connection with the cabinet body 1, first intelligence box 19 and second intelligence box 20 all with connect electric box 40 electric connection, second ampere meter 9 does not have the electric current to pass through under normal operating condition.

Further, install display 3 on the preceding terminal surface of the cabinet body 1, display 3 passes through fastening screw fixed connection with the cabinet body 1, connects electricity box 40 and display 3 electric connection, installs button 4 on the preceding terminal surface of the cabinet body 1, button 4 and cabinet body 1 fixed connection, but each item data under the display 3 real-time display energy operating condition.

Further, install cabinet door 5 on the preceding terminal surface of the cabinet body 1, cabinet door 5 passes through hinge rotation with the cabinet body 1 and is connected, install first translucent cover 6 and second translucent cover 7 on the preceding terminal surface of cabinet door 5 respectively, first translucent cover 6 and second translucent cover 7 all with cabinet door 5 fixed connection, base 2 is installed to the below of the cabinet body 1, base 2 passes through fastening screw fixed connection with the cabinet body 1, the both sides of the cabinet body 1 all are provided with radiating groove 10, radiating groove 10 sets up structure as an organic whole with the cabinet body 1, first translucent cover 6 is corresponding with first ampere meter 8's position, second translucent cover 7 is corresponding with second ampere meter 9 position.

Further, the inside of the overload conversion box 15 is provided with an electromagnetic iron attracting device 21, the electromagnetic iron attracting device 21 is fixedly connected with the overload conversion box 15 through a fastening screw, one side of the electromagnetic iron attracting device 21 is provided with an iron plate 22, the iron plate 22 is magnetically connected with the electromagnetic iron attracting device 21, the external terminal 16 is installed above the overload conversion box 15, the external terminal 16 is fixedly connected with the overload conversion box 15 through a fastening screw, one side of the iron plate 22 is provided with an insulating base 23, the insulating base 23 is fixedly connected with the iron plate 22 through a fastening screw, one side of the insulating base 23 is provided with a fixing base 24, the fixing base 24 is fixedly connected with the insulating base 23 through a fastening screw, a line sleeve 25 is installed on the inner side of the fixing base 24, the line sleeve 25 is fixedly connected with the fixing base 24, and the electromagnetic iron attracting device 21 is connected with the first fuse 17.

Further, a conducting strip 26 is installed below the circuit sleeve 25, the conducting strip 26 is fixedly connected with the circuit sleeve 25, the conducting strip 26 is electrically connected with the external terminal 16, a first conductor 27 and a second conductor 29 are respectively installed below the overload conversion box 15, the first conductor 27 and the second conductor 29 are both fixedly connected with the overload conversion box 15 through fastening screws, the conducting strip 26 is attached to the first conductor 27, a first connector 28 is installed on one side of the first conductor 27, the first connector 28 is fixedly connected with the first conductor 27, a second connector 30 is installed on one side of the second conductor 29, the second connector 30 is fixedly connected with the second conductor 29, the first connector 28 is connected with the first fuse 17, and the second connector 30 is connected with the second fuse 18.

Further, a first spring 31, a first sliding shaft 33, a second spring 34 and a second sliding shaft 36 are respectively installed inside the overload conversion box 15, the first spring 31, the first sliding shaft 33, the second spring 34 and the second sliding shaft 36 are all fixedly connected with the overload conversion box 15, a first sliding seat 32 is installed above the iron plate 22, the first sliding seat 32 is fixedly connected with the iron plate 22, a second sliding seat 35 is installed below the iron plate 22, the second sliding seat 35 is fixedly connected with the iron plate 22, the first sliding seat 32 is fixedly connected with the first spring 31, the first sliding seat 32 is slidably connected with the first sliding shaft 33, the second sliding seat 35 is fixedly connected with the second spring 34, the second sliding seat 35 is slidably connected with the second sliding shaft 36, and the first spring 31 and the second spring 34 are in a compressed state.

The working principle is as follows: when the electromagnetic iron attracting device is used, under a normal working state, the external terminal 16 is connected with an external circuit, then the electric energy is connected with the first fuse 17 through the conducting sheet 26, the first conductor 27 and the first connecting head 28, the electromagnetic iron attracting device 21 is also supplied with power through the first fuse 17, then the first fuse 17 is connected with the first ammeter 8, the first ammeter 8 is connected with the first intelligent box 19, at the moment, the first intelligent box 19 is connected, the main board 38 and the processor 39 inside the first intelligent box normally work, monitored information is displayed through the display 3, when overload surge occurs in the circuit, the first fuse 17 is disconnected due to overhigh voltage, at the moment, the electromagnetic iron attracting device 21 and the first intelligent box 19 are simultaneously powered off, the iron plate 22 loses power after the electromagnetic iron attracting device 21 is powered off, at the moment, the compressed first spring 31 and the compressed second spring 34 respectively push the first sliding seat 32 and the second sliding seat 35 to rapidly move towards one side far away from the electromagnetic iron attracting device 21, promote iron plate 22 simultaneously, insulator seat 23, fixing base 24 and circuit sleeve 25 remove simultaneously, make conducting strip 26 and the laminating of second electric conductor 29, the electric energy will be through second electric conductor 29 and second connector 30 and second fuse 18 intercommunication this moment, second fuse 18 is connected with second ampere meter 9, second ampere meter 9 is connected with second intelligence box 20, second intelligence box 20 will work with the circular telegram this moment, realize the effect of the conversion that opens circuit, avoid the condition emergence of unable monitoring after the monitoring devices opens circuit, and the data transmission signal that the inside treater 39 of second intelligence box 20 will collect to control center, make maintenance personal can in time reach the scene and overhaul work.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an energy stability monitoring management device, includes cabinet body (1), its characterized in that: a first fixed rod (11), a second fixed rod (12), a third fixed rod (13) and a fourth fixed rod (14) are respectively installed inside the cabinet body (1), the first fixed rod (11), the second fixed rod (12), the third fixed rod (13) and the fourth fixed rod (14) are fixedly connected with the cabinet body (1) through fastening screws, an overload conversion box (15) is installed on the front end face of the first fixed rod (11), the overload conversion box (15) is fixedly connected with the first fixed rod (11) through the fastening screws, a first intelligent box (19) and a second intelligent box (20) are respectively installed on the front end face of the fourth fixed rod (14), the first intelligent box (19) and the second intelligent box (20) are fixedly connected with the fourth fixed rod (14) through the fastening screws, a first fuse (17) and a second fuse (18) are respectively installed on the front end face of the second fixed rod (12), and first fuse (17) and second fuse (18) all through fastening screw and second dead lever (12) fixed connection, install first ampere meter (8) and second ampere meter (9) on the preceding terminal surface of third dead lever (13) respectively, and first ampere meter (8) and second ampere meter (9) all through fastening screw and third dead lever (13) fixed connection, the internally mounted of first intelligence box (19) has mainboard frame (37), and mainboard frame (37) and first intelligence box (19) pass through fastening screw fixed connection, install mainboard (38) on the preceding terminal surface of mainboard frame (37), and mainboard (38) and mainboard frame (37) pass through fastening screw fixed connection, install treater (39) on the preceding terminal surface of mainboard (38), and treater (39) and mainboard (38) electric connection.

2. The energy stability monitoring and managing device according to claim 1, wherein: first fuse (17) and second fuse (18) all with overload conversion box (15) electric connection, first fuse (17) and first ampere meter (8) electric connection, first ampere meter (8) and first intelligent box (19) electric connection.

3. The energy stability monitoring and managing device according to claim 2, wherein: second fuse (18) and second ampere meter (9) electric connection, second ampere meter (9) and second intelligence box (20) electric connection, the inside of the cabinet body (1) is pressed and is installed and connect electricity box (40), and connects electricity box (40) and the cabinet body (1) to pass through fastening screw fixed connection, first intelligence box (19) and second intelligence box (20) all with connect electricity box (40) electric connection.

4. The energy stability monitoring and managing device according to claim 3, wherein: install display (3) on the preceding terminal surface of the cabinet body (1), and display (3) and the cabinet body (1) pass through fastening screw fixed connection, connect electricity box (40) and display (3) electric connection, install button (4) on the preceding terminal surface of the cabinet body (1), and button (4) and cabinet body (1) fixed connection.

5. The energy stability monitoring and managing device according to claim 1, wherein: install cabinet door (5) on the preceding terminal surface of the cabinet body (1), and cabinet door (5) and the cabinet body (1) rotate through the hinge and be connected, install first translucent cover (6) and second translucent cover (7) on the preceding terminal surface of cabinet door (5) respectively, and first translucent cover (6) and second translucent cover (7) all with cabinet door (5) fixed connection, base (2) are installed to the below of the cabinet body (1), and base (2) and the cabinet body (1) pass through fastening screw fixed connection, the both sides of the cabinet body (1) all are provided with radiating groove (10), and radiating groove (10) set up structure as an organic whole with the cabinet body (1).

6. The energy stability monitoring and managing device according to claim 1, wherein: the overload conversion device is characterized in that an electromagnetic iron attracting device (21) is arranged inside the overload conversion box (15), the electromagnetic iron attracting device (21) is fixedly connected with the overload conversion box (15) through a fastening screw, an iron plate (22) is arranged on one side of the electromagnetic iron attracting device (21), the iron plate (22) is magnetically connected with the electromagnetic iron attracting device (21), an external terminal (16) is arranged above the overload conversion box (15), the external terminal (16) is fixedly connected with the overload conversion box (15) through the fastening screw, an insulating base (23) is arranged on one side of the iron plate (22), the insulating base (23) is fixedly connected with the iron plate (22) through the fastening screw, a fixing base (24) is arranged on one side of the insulating base (23), the fixing base (24) is fixedly connected with the insulating base (23) through the fastening screw, and a circuit sleeve (25) is arranged on the inner side of the fixing base (24), and the circuit sleeve (25) is fixedly connected with the fixed seat (24).

7. The energy stability monitoring and managing device according to claim 6, wherein: the circuit comprises a circuit sleeve (25), and is characterized in that a conducting strip (26) is installed below the circuit sleeve (25), the conducting strip (26) is fixedly connected with the circuit sleeve (25), the conducting strip (26) is electrically connected with an external terminal (16), a first conductor (27) and a second conductor (29) are respectively installed below an overload conversion box (15), the first conductor (27) and the second conductor (29) are fixedly connected with the overload conversion box (15) through fastening screws, the conducting strip (26) is attached to the first conductor (27), a first connector (28) is installed on one side of the first conductor (27), the first connector (28) is fixedly connected with the first conductor (27), a second connector (30) is installed on one side of the second conductor (29), and the second connector (30) is fixedly connected with the second conductor (29).

8. The energy stability monitoring and managing device according to claim 7, wherein: a first spring (31), a first sliding shaft (33), a second spring (34) and a second sliding shaft (36) are respectively arranged in the overload conversion box (15), and the first spring (31), the first sliding shaft (33), the second spring (34) and the second sliding shaft (36) are all fixedly connected with the overload conversion box (15), a first sliding seat (32) is arranged above the iron plate (22), the first sliding seat (32) is fixedly connected with the iron plate (22), a second sliding seat (35) is arranged below the iron plate (22), the second sliding seat (35) is fixedly connected with the iron plate (22), the first sliding seat (32) is fixedly connected with the first spring (31), the first sliding seat (32) is connected with the first sliding shaft (33) in a sliding mode, the second sliding seat (35) is fixedly connected with the second spring (34), and the second sliding seat (35) is connected with the second sliding shaft (36) in a sliding mode.

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