CN220382575U - Intelligent power load management device - Google Patents

Abstract

The utility model discloses an intelligent power load management device, comprising: the box the lid closes and is equipped with sealed lid behind the box the fixed mounting panel that is equipped with in the box the interval runs through on the mounting panel and is equipped with a plurality of logical grooves the mounting panel is installed a plurality of electrical components the box left and right sides is equipped with ventilation portion the box below interval is equipped with a plurality of mounting grooves, each the mounting groove top is equipped with wiring portion, each be equipped with connecting portion in the mounting groove be equipped with the fixed establishment who can fix electrical component's line on wiring portion be equipped with the connecting mechanism that can connect connecting portion on wiring portion in the mounting groove, compare prior art, can facilitate the user to watch the interface that does not use, can make things convenient for external equipment to connect on the connecting portion of bottom the box simultaneously.

Description

Intelligent power load management device

Technical Field

The utility model relates to the technical field of power load management, in particular to an intelligent power load management device.

Background

In the process of power generation, power supply and power consumption, voltage conversion and electric energy transmission are required to be carried out through a plurality of transformers, and in the process of each transformation and electric power transmission, the transformers have a large amount of electric energy loss, wherein the electric energy loss comprises active power loss and reactive power loss, the active power loss becomes copper loss, and the reactive power loss becomes iron loss. Since power systems use a large number of different transformers, the overall power loss of the transformers is quite dramatic throughout the process of generating, transmitting, transforming, distributing and using power. Incomplete statistics show that the power loss of the transformer accounts for about 30% of the loss of the whole power system. Therefore, the active and reactive power loss of the power is researched through the power load management device, so that the power load management device is reduced to a reasonable operation level, various transformers are enabled to work at economic operation points, the efficiency of the transformers is fully exerted to achieve the purpose of saving electric energy, and the power load management device mainly comprises a cabinet body, a main transformer, a load critical point calculation module, a transformer load detection module and a transformer operation control module, wherein the main transformer, the load critical point calculation module, the transformer load detection module and the transformer operation control module are arranged inside.

When the existing power load management device is used, for the rainproof requirement, the interfaces are placed at the bottom of the cabinet body, and when new power equipment to be managed needs to be connected, the interfaces are inconvenient to observe and are not used, meanwhile, the problem that wiring from the bottom is inconvenient exists, and wiring efficiency is low.

Disclosure of Invention

The utility model aims to provide an intelligent power load management device which can solve at least one of the technical problems, and the technical scheme of the utility model is as follows:

an intelligent power load management apparatus comprising: the box the lid closes and is equipped with sealed lid behind the box the fixed mounting panel that is equipped with of box the interval runs through on the mounting panel and is equipped with a plurality of logical grooves the mounting panel is installed a plurality of electrical components the box left and right sides is equipped with ventilation portion the box below interval is equipped with a plurality of mounting grooves, each the mounting groove top is equipped with wiring portion, each be equipped with connecting portion in the mounting groove be equipped with the fixed establishment on wiring portion with electrical component's line on the wiring portion be equipped with the coupling mechanism that can connect connecting portion on wiring portion in the mounting groove.

Further, the ventilation part comprises air cavities which are arranged on the inner walls of the left side and the right side of the box body in a sealing mode, round grooves are symmetrically formed in the air cavities, exhaust fans are arranged in the round grooves, and dust-separating nets are arranged on the left side and the right side of the box body in parallel with the ventilation cavities.

Furthermore, a stop bar is arranged above each mounting groove in a surrounding manner, and guide bars are fixed on the inner walls around the mounting grooves.

Further, the wiring portion comprises wire holders fixed on the various bars, a plurality of wiring grooves are formed in the wire holders, and a plurality of inserting grooves are formed in the bottoms of the wire holders.

Further, the connecting portion comprises sockets movably arranged in the mounting grooves, the sockets are movably inserted in the mounting grooves through guide bars, a plurality of connectors are arranged above the sockets, and external connectors are arranged on the rear sides of the sockets.

Further, the fixed establishment is including setting up each a plurality of through-holes on the line seat, through-hole and wiring groove intercommunication, each the through-hole internalization is pegged graft and is had the briquetting, each the line seat is gone up the activity cover and is equipped with the pivot, each the interval is equipped with a plurality of spur gears in the pivot, each all be fixed with the rack on the briquetting, rack and spur gear engagement the pivot can be pegged graft and have the hexagonal dwang both ends are fixed with rotation handle and polygonal grafting cap respectively, each the line seat front side is fixed with polygonal slot, polygonal grafting cap sets up in polygonal slot fixedly connected with spring between rotation handle and the pivot.

Further, the coupling mechanism is including setting up the roof in each socket bottom, each the equal symmetry activity of roof below articulates there is the connecting rod, each the equal movable sleeve in mounting groove is equipped with the dwang the symmetry is equipped with the screw thread opposite in screw thread direction on the dwang the symmetry activity is pegged graft in each the bottom has the screw thread cover in the mounting groove, screw thread cover and the screw thread cooperation that approaches, screw thread cover and connecting rod are articulated each other.

In summary, compared with the prior art, the utility model has the following beneficial effects:

the utility model provides an intelligent power load management device, which is characterized in that when in use, a user installs an electric element on a mounting plate, simultaneously leads out a wire body of the electric element from a plurality of through grooves which are penetrated and arranged on the mounting plate at intervals, the led-out wire is connected to a wiring part, the electric element which is installed in the same way can be connected to the wiring part which is not inserted into the wire body through the wire body, then the wire of the electric element is fixed on the wiring part through a fixing mechanism, finally the connecting part is connected to the wiring part through a connecting mechanism, the connecting part is connected with external equipment, and the air in a box body can be discharged through a ventilation part.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic representation of the present utility model in semi-section.

Fig. 3 is an exploded view of the present utility model.

FIG. 4 is an enlarged schematic view of the utility model at A-1 of FIG. 3.

Reference numerals illustrate: 1. a case; 2. sealing cover; 3. a mounting plate; 4. a through groove; 5. an electrical component; 6. a ventilation unit; 7. a mounting groove; 8. a wiring section; 9. a connection part; 100. a fixing mechanism; 200. a connecting mechanism; 61. a wind chamber; 62. an exhaust fan; 63. a dust-separating net; 71. a stop bar; 72. a guide bar; 81. a wire seat; 82. wiring grooves; 83. a plug-in groove; 91. a socket; 92. a plug; 93. a connector; 101. a through hole; 102. briquetting; 103. a rotating shaft; 104. spur gears; 105. a rack; 106. a hexagonal rotating rod; 107. rotating the handle; 108. polygonal plug-in cap; 109. polygonal slots; 110. a spring; 201. a top plate; 202. a connecting rod; 203. a rotating lever; 204. a thread; 205. and (5) a threaded sleeve.

Detailed Description

The utility model is further described in the following description and detailed description with reference to the drawings:

an intelligent power load management apparatus as shown in fig. 1 to 4, comprising: the box 1 the lid that closes is equipped with sealed lid 2 the box 1 internal fixation is equipped with mounting panel 3 is last to be run through in interval and is equipped with a plurality of logical groove 4 mounting panel 3 installs a plurality of electrical component 5 the box 1 left and right sides is equipped with ventilation portion 6 box 1 below interval is equipped with a plurality of mounting grooves 7, each mounting groove 7 top is encircled and is equipped with shelves 71 the inner wall is fixed with around the mounting groove 7 guide bar 72, each mounting groove 7 top is equipped with wiring portion 8, each be equipped with connecting portion 9 in mounting groove 7 be equipped with on the wiring portion 8 can fix the line of electrical component 5 on wiring portion 8 be equipped with in the mounting groove 7 can connect the coupling mechanism 200 on wiring portion 8 with connecting portion 9.

The intelligent power load management device with the structure comprises a mounting plate 3, a connecting part 9, a ventilating part 6, a wiring part 8, a connecting mechanism 100, a connecting part 9 and a connecting part 9, wherein the connecting part 5 is arranged on the mounting plate 3 by a user, wires of the electric element 5 are led out from the plurality of through grooves 4 which are formed in the mounting plate 3 at intervals in a penetrating way, the led-out wires are connected to the wiring part 8, the wires of the electric element 5 which are installed in a new way can be connected to the wiring part 8 without being inserted into the wires through the wires, the connecting part 100 is used for fixing the wires of the electric element on the wiring part 8, the connecting part 9 is connected with external equipment through the connecting mechanism 200, and the air in a box body can be discharged through the ventilating part 6.

As shown in fig. 3, in some embodiments of the present utility model, the ventilation unit 6 includes air chambers 61 sealed on the inner walls of the left and right sides of the case 1, circular grooves 64 are symmetrically provided on each of the air chambers 61, exhaust fans 62 are installed in each of the circular grooves 64, the air chambers 61 are connected in parallel on the left and right sides of the case 1, dust-separating nets 63 are provided, the air outside the case 1 is sucked into the left air chamber 61 through the exhaust fans 62 provided on the left circular groove 64, at this time, the dust in the air is separated by the left dust-separating net 63, and the air in the case 1 is sucked into the right air chamber 61 through the exhaust fans 62 of the right circular groove 64, and finally discharged from the right dust-separating net 63 to the outside of the case 1.

As shown in fig. 2 and fig. 2, in some embodiments of the present utility model, the wire connection part 8 includes wire holders 81 fixed to each of the bars 71, a plurality of wire connection grooves 82 are provided on each of the wire holders 81, a plurality of insertion grooves 83 are provided under each of the wire holders 81, a wire body led out of the electrical component 5 is inserted into the wire connection groove 82 on the wire holder 81, and a plurality of insertion grooves 83 provided under the wire holders 81 are connected to the connection part 9, and the wire of the electrical component 5 is fixed in the wire connection groove 82 by the fixing mechanism 100.

As shown in fig. 2 and 3, in some embodiments of the present utility model, the connection portion 9 includes a socket 91 movably disposed in each mounting groove 7, each socket 91 is movably inserted into the mounting groove 7 through a guide bar 72, a plurality of connectors 92 are disposed above each socket 91, an external connector 93 is disposed at the rear side of each socket 91, and the socket 91 is driven to move upwards by the connection mechanism 200, so that the connectors 92 above the socket 91 are in butt joint with the inserting grooves 83, and then a user connects the external connector 93 with external equipment.

As shown in fig. 4, in some embodiments of the present utility model, in order to achieve the effect of fixing the wires of the electrical components 5 on the wire connection portion 8, the fixing mechanism 100 includes a plurality of through holes 101 provided on each wire seat 81, the through holes 101 are communicated with the wire connection grooves 82, a pressing block 102 is movably inserted into each through hole 101, a rotating shaft 103 is movably sleeved on each wire seat 81, a plurality of spur gears 104 are provided on each rotating shaft 103 at intervals, racks 105 are fixed on each pressing block 102, the racks 105 are meshed with the spur gears 104, a hexagonal rotating rod 106 is movably inserted into the rotating shaft 103, a rotating handle 107 and a polygonal inserting cap 108 are fixed at both ends of the hexagonal rotating rod 106, a polygonal inserting groove 109 is fixed at the front side of each wire seat 81, the polygonal inserting cap 108 is provided in the polygonal inserting groove 109, and a spring 110 is fixedly connected between the rotating handle 107 and the rotating shaft 103.

When the intelligent power load management device with the structure is used, a user pulls the rotating handle 107 to enable the hexagonal rotating rod 106 to drive the polygonal plug-in cap 108 inserted into the polygonal slot 109 to be pulled out, at the moment, the user rotates the rotating handle 107 to enable the hexagonal rotating rod 106 to drive the rotating shaft 103 to rotate, the rotating shaft 103 drives the spur gear 104 to rotate, the spur gear 104 drives the rack 105 to enable the pressing block 102 to move along the through hole 101 when the spur gear 104 rotates, the pressing block 102 presses the wire body of the electric element 5 in the wiring groove 82, finally, the user releases the rotating handle 107 to reset the hexagonal rotating rod 106 through the spring 110, and at the moment, the hexagonal rotating rod 106 drives the polygonal plug-in cap 108 to be inserted into the polygonal slot 109 to finish locking.

As shown in fig. 1, in some embodiments of the present utility model, in order to achieve the effect of connecting the connection portion 9 to the connection portion 8, the connection mechanism 200 includes a top plate 201 disposed at the bottom of each socket 91, a connecting rod 202 is movably hinged below each top plate 201, a rotating rod 203 is movably sleeved at the bottom of each installation groove 7, threads 204 with opposite directions of threads are symmetrically disposed on the rotating rod 203, a threaded sleeve 205 is movably inserted at the bottom of each installation groove 7, the threaded sleeve 205 is in threaded engagement with adjacent threads 204, and the threaded sleeve 205 and the connecting rod 202 are mutually hinged.

When the intelligent power load management device with the structure is used, a user drives the rotating rod 203 to rotate, threads 204 with opposite thread directions are symmetrically arranged on the rotating rod to drive adjacent thread sleeves 205 to move relatively, the rotating rod 203 is driven to swing upwards when the thread sleeves 205 move, the connecting rod 202 movably hinged below the top plate 201 drives the top plate 201 to move upwards, and at the moment, the top plate 201 drives the socket 91 to move upwards, so that the plug 92 above the socket 91 is plugged in the plugging groove 83.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the utility model and the advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. An intelligent power load management apparatus, comprising: the box (1) the lid closes and is equipped with sealed lid (2) behind box (1) internal fixation is equipped with mounting panel (3) go up the interval and run through and be equipped with a plurality of logical groove (4) mounting panel (3) are installed a plurality of electrical component (5) box (1) left and right sides is equipped with ventilation portion (6) box (1) below interval is equipped with a plurality of mounting groove (7), in each mounting groove (7) top is equipped with wiring portion (8), in each be equipped with connecting portion (9) in mounting groove (7) be equipped with on wiring portion (8) fixed establishment (100) on wiring portion (8) can be with the line of electrical component (5) be equipped with in mounting groove (7) can connect connecting mechanism (200) on wiring portion (8) with connecting portion (9).

2. The intelligent power load management device according to claim 1, wherein the ventilation part (6) comprises air cavities (61) which are arranged on the inner walls of the left side and the right side of the box body (1) in a sealing manner, circular grooves (64) are symmetrically formed in each air cavity (61), exhaust fans (62) are arranged in each circular groove (64), and dust separation nets (63) are arranged on the left side and the right side of the box body (1) in parallel with the air cavities (61).

3. An intelligent power load management device according to claim 1, characterized in that a stop strip (71) is arranged around each installation groove (7), and guide strips (72) are fixed on the inner wall around the installation groove (7).

4. An intelligent power load management device according to claim 3, characterized in that the wiring section (8) comprises wire holders (81) fixed to the respective bars (71), a plurality of wiring grooves (82) are provided on each of the wire holders (81), and a plurality of plugging grooves (83) are provided under each of the wire holders (81).

5. An intelligent power load management device according to claim 3, characterized in that the connection part (9) comprises sockets (91) movably arranged in the mounting grooves (7), each socket (91) is movably inserted in the mounting groove (7) through a guide bar (72), a plurality of connectors (92) are arranged above each socket (91), and an external connector (93) is arranged at the rear side of each socket (91).

6. The intelligent power load management device according to claim 4, wherein the fixing mechanism (100) comprises a plurality of through holes (101) arranged on each wire seat (81), the through holes (101) are communicated with the wiring grooves (82), pressing blocks (102) are movably inserted into the through holes (101), rotating shafts (103) are movably sleeved on the wire seats (81), a plurality of spur gears (104) are arranged on the rotating shafts (103) at intervals, racks (105) are fixed on the pressing blocks (102), the racks (105) are meshed with the spur gears (104), hexagonal rotating rods (106) are movably inserted into the rotating shafts (103), rotating handles (107) and polygonal inserting caps (108) are respectively fixed at two ends of the hexagonal rotating rods (106), polygonal inserting grooves (109) are fixed on the front sides of the wire seats (81), the polygonal inserting caps (108) are arranged in the polygonal inserting grooves (109), and springs (110) are fixedly connected between the rotating handles (107) and the rotating shafts (103).

7. The intelligent power load management device according to claim 5, wherein the connection mechanism (200) comprises a top plate (201) arranged at the bottom of each socket (91), connecting rods (202) are movably hinged below each top plate (201), rotating rods (203) are movably sleeved at the bottom in each mounting groove (7), threads (204) with opposite thread directions are symmetrically arranged on the rotating rods (203), threaded sleeves (205) are movably spliced at the bottoms in each mounting groove (7), the threaded sleeves (205) are in threaded fit with adjacent threads (204), and the threaded sleeves (205) and the connecting rods (202) are mutually hinged.