CN112165058A

CN112165058A - Energy-saving bus duct with high-protection-level copper-aluminum composite conductor

Info

Publication number: CN112165058A
Application number: CN202011074568.XA
Authority: CN
Inventors: 吴娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-01

Abstract

The invention provides an energy-saving bus duct with a high-protection-level copper-aluminum composite conductor, which comprises a main body box, wherein an energy-saving storage box is arranged at the bottom of the main body box, a fire extinguishing box is arranged inside the main body box, a first guide rail and a second guide rail are arranged on the upper surface of the main body box, the top surfaces of the first guide rail and the second guide rail are in contact with the bottom surface of a movable shielding plate, an upper long strip plate is fixed on the top surface of the movable shielding plate, the front end of the upper long strip plate is fixedly connected with the top end of a front suspension arm, a first permanent magnet is fixed at the bottom end of the front suspension arm, the right magnetic pole of the first permanent magnet is an N magnetic pole, an iron core is arranged on the right side of the first permanent magnet, a coil is arranged on the periphery of the middle part of the iron core. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have non-contact top cover opening and closing capability, cannot realize automatic fire extinguishing, energy saving and power storage and the like, and is beneficial to popularization and application.

Description

Energy-saving bus duct with high-protection-level copper-aluminum composite conductor

Technical Field

The invention relates to the technical field of bus ducts, in particular to an energy-saving bus duct with a high-protection-level copper-aluminum composite conductor.

Background

The bus duct is a closed metal device made of copper, aluminum, and the like, and has been increasingly used as a substitute for electric wires and cables in low-voltage power transmission main engineering projects. Nowadays, the wiring system is indispensable for electrical equipment and power systems of high-rise buildings, factories, and the like. Because of the need of various building electric power of buildings, factories, etc., and the need has a tendency to increase year by year, the use of the original circuit wiring method, i.e., the pipe-through method, brings many difficulties in construction, and when the power distribution system is to be changed, it is almost impossible to make it simpler, but if the bus duct is adopted, the purpose can be achieved very easily, and in addition, the building can be more beautiful. The bus duct features serial matching, commercial production, small volume, large capacity, short design and construction period, convenient assembly and disassembly, safety and reliability, and long service life. Developed countries abroad, hong Kong, Macau and the like are very popular in China.

The invention of the copper-aluminum composite conductor energy-saving bus duct with high protection level brings various conveniences to production and life of people, and the copper-aluminum composite conductor energy-saving bus duct with high protection level plays an indispensable role in modern production and life. However, the existing energy-saving bus duct with a high protection level copper-aluminum composite conductor does not always have the non-contact top cover opening and closing capability and cannot achieve the technical problems of automatic fire extinguishing, energy saving, power storage and the like, so in view of the above, research and improvement are carried out on the existing structure and defects, a novel energy-saving bus duct with a high protection level copper-aluminum composite conductor is provided, the problems can be effectively solved, and popularization and application are facilitated.

Disclosure of Invention

The invention aims to provide an energy-saving bus duct with a high-protection-level copper-aluminum composite conductor, and aims to solve the technical problems that the prior art does not have non-contact top cover opening and closing capacity, cannot realize automatic fire extinguishing, energy saving and power storage and the like.

In order to achieve the purpose, the invention provides an energy-saving bus duct with a high-protection grade copper-aluminum composite conductor, which comprises a main body box, wherein an energy-saving storage battery box is arranged at the bottom of the main body box, a fire extinguishing box is arranged inside the main body box, a first guide rail and a second guide rail are arranged on the upper surface of the main body box, the top surfaces of the first guide rail and the second guide rail are in contact with the bottom surface of a movable shielding plate, an upper long strip plate is fixed on the top surface of the movable shielding plate, the front end of the upper long strip plate is fixedly connected with the top end of a front suspension arm, a first permanent magnet is fixed at the bottom end of the front suspension arm, the right magnetic pole of the first permanent magnet is an N magnetic pole, an iron core is arranged on the right side of the first permanent magnet, a coil is arranged on the periphery of the middle part of the iron core, and the lower surface of the coil is respectively, The top end electric connection of second allies oneself with the electric strip, first allies oneself with the electric strip, second allies oneself with the electric strip and sets up the upper portion at the controller that opens and shuts.

The inside of switching controller be provided with rectangular resistance, the upper surface of rectangular resistance and the bottom contact of pointer piece, the pointer piece set up the right-hand member lower surface at the insulating control strip, the left end of insulating control strip stretch out from the left part of switching controller, the right flank of pointer piece and the left surface of rectangular resistance between have first power, first switch, protection resistance through the wire series connection, the right flank of pointer piece pass through the bottom electric connection of wire and second linkage strip, the left surface of rectangular resistance pass through the bottom electric connection of wire and first linkage strip.

The rear end of the upper long slat is fixedly connected with the top end of the rear suspension arm, the bottom end of the rear suspension arm is fixedly provided with a return cross arm, and the end part of the return cross arm is fixedly connected with the spring end block through a return spring.

The main part roof portion be provided with the standing groove, the inside of standing groove from left to right set gradually first copper aluminium composite busbar, second copper aluminium composite busbar, third copper aluminium composite busbar, the preceding rear end of first copper aluminium composite busbar be provided with first next connecting wire groove, first upper connecting wire groove respectively, the preceding rear end of second copper aluminium composite busbar be provided with second next connecting wire groove, second upper connecting wire groove respectively, the front and back end of third copper aluminium composite busbar be provided with third next connecting wire groove, third upper connecting wire groove respectively.

The upper surface of the fire extinguishing box is provided with a powder outlet, the inner left surface of the fire extinguishing box is fixed with an electric cylinder bottom plate, the right side surface of the electric cylinder bottom plate is provided with an electric cylinder, the right power output end of the electric cylinder is provided with an action rod, the right end of the action rod is fixedly connected with the left side surface of an upper through plate, the middle part of the upper through plate is provided with an upper through hole, the lower surface of the upper through plate is in contact with the upper surface of a lower long plate, the right part of the lower long plate is provided with a lower through hole, the bottom of the lower through hole is communicated with the top of a blower through a communicating pipe, the left part of the upper surface of the upper through plate is fixed with a left triangular prism, the left side surface of the left triangular prism is fixed with a lower sealing block, the right part of the upper surface of the upper through plate is fixed with a right triangular prism, and a storage box is arranged above the left triangular prism and the right triangular prism, the inside storage of bin have the powder of putting out a fire, the left surface of bin pass through fixing bolt and fixed hanger plate fixed, fixing bolt's top and the inside upper surface of case of putting out a fire fixed, the bin right-hand deflector that is provided with just.

The fire extinguishing box is characterized in that the upper surface of the interior of the fire extinguishing box is in contact with the top end of a heat conducting block, the heat conducting block is arranged on the upper portion of a temperature-sensitive controller, the bottom end of the heat conducting block is in contact with the top end of a thermistor, the thermistor is connected with an electric cylinder controller in parallel through a lead, and the thermistor is connected with a fixed resistor, a second power supply and a second switch in series through leads.

The energy-saving storage battery box is internally provided with a first input gear and a second input gear, the peripheries of the middle parts of the first input gear and the second input gear are respectively in contact engagement with the inner periphery of an output gear ring, the left end of the upper surface of the output gear ring is fixedly connected with the bottom end of a rotary long arm, the right surface of the top end of the rotary long arm is fixedly provided with a second permanent magnet, the bottom ends of the first input gear and the second input gear are respectively in fixed connection with the top ends of a first transmission shaft and a second transmission shaft, the bottom ends of the first transmission shaft and the second transmission shaft are respectively provided with a third bevel gear and a fourth bevel gear, the bottom end of the third bevel gear is in contact engagement with the front end of the first bevel gear, the bottom end of the fourth bevel gear is in contact engagement with the front end of a second bevel gear, and the third bevel gear and the fourth bevel gear are respectively fixed on the first connection shaft and the second, And the front end and the rear end of the second connecting shaft are respectively provided with a second moving wheel and a fourth moving wheel.

The energy-saving storage battery box is characterized in that a recovery box is fixed on the upper surface inside the energy-saving storage battery box, a first conductive column and a second conductive column are arranged at the left part of the recovery box, a left conductive strip is connected between the left ends of the first conductive column and the second conductive column, a third conductive column and a fourth conductive column are arranged at the right part of the recovery box, a right conductive strip is connected between the right ends of the third conductive column and the fourth conductive column, a first diode and a third diode are connected in series between the right end of the first conductive column and the left end of the third conductive column through leads, a second diode and a fourth diode are connected in series between the right end of the second conductive column and the left end of the fourth conductive column through leads, the left side surfaces of the first diode and the fourth diode are anodes, the right side surfaces of the second diode and the third diode are anodes, an inductor and a fourth diode are connected in series between the right side surfaces of the first diode and the second diode, And (4) a storage battery.

The iron core, the long-strip resistor, the inductor, the storage battery and the like are all assembled by existing equipment, and therefore specific models and specifications are not described in detail.

The invention has the beneficial effects that:

1. the components of the energy-saving bus duct with the high-protection-level copper-aluminum composite conductor are reliably connected, the detection and the maintenance are very convenient, the realization cost is low, and an iron core, a long-strip resistor, an inductor, a storage battery and the like which are involved in equipment are all assembled by the existing equipment, so that the popularization and the application of the energy-saving bus duct with the high-protection-level copper-aluminum composite conductor in the technical field of future bus ducts are facilitated;

2. the energy-saving bus duct with the high-protection-level copper-aluminum composite conductor innovatively realizes the non-contact top cover opening and closing function, can avoid direct contact with a bus duct in the operation process of workers, and avoids electric shock accidents The second linkage strip is arranged on the upper portion of the opening-closing controller, a strip resistor is arranged inside the opening-closing controller, the upper surface of the strip resistor is in contact with the bottom end of a pointer sheet, the pointer sheet is arranged on the lower surface of the right end of an insulation control strip, the left end of the insulation control strip extends out of the left portion of the opening-closing controller, a first power supply, a first switch and a protection resistor are connected in series between the right side surface of the pointer sheet and the left side surface of the strip resistor through a lead, the right side surface of the pointer sheet is electrically connected with the bottom end of the second linkage strip through a lead, the left side surface of the strip resistor is electrically connected with the bottom end of the first linkage strip through a lead, the rear end of the upper strip sheet is fixedly connected with the top end of the rear suspension arm, a return cross arm is fixed at the bottom end of the rear suspension arm, the end of the return cross arm is fixedly connected with a spring end block through a return spring, a, A second copper-aluminum composite conductive strip and a third copper-aluminum composite conductive strip, wherein the front and rear ends of the first copper-aluminum composite conductive strip are respectively provided with a first lower connecting line groove and a first upper connecting line groove, the front and rear ends of the second copper-aluminum composite conductive strip are respectively provided with a second lower connecting line groove and a second upper connecting line groove, the front and rear ends of the third copper-aluminum composite conductive strip are respectively provided with a third lower connecting line groove and a third upper connecting line groove, then the user pushes the insulating control strip rightwards, the pointer sheet moves rightwards along with the insulating control strip, the resistance value of the long-strip resistor connected into the circuit is increased, the voltage obtained by the coil is increased, the magnetic field attraction force generated by the coil wrapping the iron core to the first permanent magnet is increased, the first permanent magnet drives the movable shielding plate to move rightwards by overcoming the return force of the return spring through the front suspension arm and the upper long slat so as to realize the closed shielding effect on the bus duct arranged in the placing groove;

3. the invention provides a novel fire extinguishing box with a high-protection-level copper-aluminum composite conductor energy-saving bus duct, which is designed to realize an automatic fire extinguishing function, can remarkably improve the protection level of the device and ensure the production safety, and particularly, the upper surface of the fire extinguishing box is provided with a powder outlet, the left surface inside the fire extinguishing box is fixed with an electric cylinder bottom plate, the right side surface of the electric cylinder bottom plate is provided with an electric cylinder, the right side power output end of the electric cylinder is provided with an actuating rod, the right end of the actuating rod is fixedly connected with the left side surface of an upper through plate, the middle part of the upper through plate is provided with an upper through hole, the lower surface of the upper through plate is contacted with the upper surface of a lower long plate, the right part of the lower long plate is provided with a lower through hole, the bottom of the lower through hole is communicated with the top of a blower through a communicating pipe, the left triangular prism is fixed on the left part of the upper surface, the right part of the upper surface of the upper general disc is fixed with a right triangular prism, a storage box is arranged above the left triangular prism and the right triangular prism, fire extinguishing powder is stored in the storage box, the left side surface of the storage box is fixed with a fixed hanging plate through a fixing bolt, the top end of the fixing bolt is fixed with the inner upper surface of the fire extinguishing box, a guide plate is arranged right and right of the storage box, the inner upper surface of the fire extinguishing box is contacted with the top end of a heat conducting block, the heat conducting block is arranged on the upper part of a temperature-sensitive controller, the bottom end of the heat conducting block is contacted with the top end of a thermistor, the thermistor is connected with an electric cylinder controller in parallel through a lead, the thermistor is connected with the fixed resistor, a second power supply and a second switch in series through leads, and then after the device catches fire, the heat is transferred to the thermistor through the heat conducting block, the resistance of the thermistor, the electric cylinder works and pushes the upper through disc, the left triangular prism, the right triangular prism and the lower sealing block to move rightwards, and when the upper through hole moves right above the lower through hole, the blower blows out fire extinguishing powder between the left triangular prism and the right triangular prism through the powder outlet to achieve the automatic fire extinguishing function;

4. the energy-saving bus duct with the high-protection grade copper-aluminum composite conductor can realize an energy-saving and electricity-storage function based on an energy-saving electricity-storage box, and partially converts motion energy into electric energy to be stored in the process of transporting and moving the device by workers, particularly, a first input gear and a second input gear are arranged in the energy-saving electricity-storage box, the peripheries of the middle parts of the first input gear and the second input gear are respectively in contact and meshing with the inner periphery of an output gear ring, the left end of the upper surface of the output gear ring is fixedly connected with the bottom end of a rotary long arm, a second permanent magnet is fixed on the right surface of the top end of the rotary long arm, the bottom ends of the first input gear and the second input gear are respectively fixedly connected with the top ends of a first transmission shaft and a second transmission shaft, and the bottom ends of the first transmission shaft and the second transmission shaft are respectively provided with a third, the bottom end of a third bevel gear is in contact and meshing with the front end of a first bevel gear, the bottom end of a fourth bevel gear is in contact and meshing with the front end of a second bevel gear, the third bevel gear and the fourth bevel gear are respectively fixed in the middle of a first connecting shaft and a second connecting shaft, a first moving wheel and a third moving wheel are respectively arranged at the front end and the rear end of the first connecting shaft, a second moving wheel and a fourth moving wheel are respectively arranged at the front end and the rear end of the second connecting shaft, a first conductive column and a second conductive column are arranged at the left part of a recycling box, a left conductive bar is connected between the left ends of the first conductive column and the second conductive column, a third conductive column and a fourth conductive column are arranged at the right part of the recycling box, a right conductive bar is connected between the right ends of the third conductive column and the fourth conductive column, a first diode and a third diode are connected in series between the right end of the first conductive column and the left end of the third conductive column through wires, a second, The left side surfaces of the first diode and the fourth diode are anodes, the right side surfaces of the second diode and the third diode are anodes, an inductor and a storage battery are connected in series between the right side surface of the first diode and the right side surface of the second diode, when a user transports the mobile device, the first connecting shaft and the second connecting shaft respectively drive the third bevel gear and the fourth bevel gear to rotate through the first bevel gear and the second bevel gear, the third bevel gear and the fourth bevel gear respectively drive the first input gear and the second input gear to rotate through the first transmission shaft and the second transmission shaft, the output gear ring drives the second permanent magnet to rotate through the rotary long arm, the magnetic induction lines of the second permanent magnet repeatedly cut the left conductive bar and the right conductive bar, and generated current is stored in the storage battery after rectification of the diodes.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

Fig. 3 is a rear view of the overall structure of the device of the present invention.

FIG. 4 is a schematic top view of the overall structure of the device of the present invention.

Fig. 5 is a schematic diagram of an internal structure of the opening and closing controller according to the present invention.

Fig. 6 is a schematic view of the internal structure of the main body case according to the present invention.

Fig. 7 is a schematic view of the internal structure of the fire extinguishing box of the present invention.

Fig. 8 is a schematic diagram of the internal structure of the temperature-sensing controller according to the present invention.

Fig. 9 is a schematic view of the internal structure of the energy-saving storage battery box according to the present invention.

Fig. 10 is a schematic view of the internal structure of the recycling bin according to the present invention.

1. A main body box, 2, an energy-saving storage battery box, 3, a fire extinguishing box, 4, a first guide rail, 5, a second guide rail, 6, a movable shielding plate, 7, an upper long strip plate, 8, a front suspension arm, 9, a first permanent magnet, 10, an iron core, 11, a coil, 12, a first connecting strip, 13, a second connecting strip, 14, an opening and closing controller, 15, an insulating control strip, 16, a lead, 17, a pointer plate, 18, a strip resistor, 19, a first power supply, 20, a first switch, 21, a protective resistor, 22, a rear suspension arm, 23, a return cross arm, 24, a return spring, 25, a spring end block, 26, a placement groove, 27, a first copper-aluminum composite conductive strip, 28, a second copper-aluminum composite conductive strip, 29, a third copper-aluminum composite conductive strip, 30, a first upper connecting wire groove, 31, a second upper connecting wire groove, 32, a third upper connecting wire groove, 33, a first lower connecting wire groove, 34 and a second lower connecting wire groove, 35. a third lower connecting line groove 36, an electric cylinder bottom plate 37, an electric cylinder 38, an actuating rod 39, an upper through disc 40, an upper through hole 41, a lower long plate 42, a lower through hole 43, a communicating pipe 44, a blower 45, a lower sealing block 46, a left triangular prism 47, a right triangular prism 48, a storage tank 49, fire extinguishing powder 50, a fixing bolt 51, a fixing hanger plate 52, a guide plate 53, a powder outlet 54, a temperature-sensitive controller 55, a heat-conducting block 56, a thermistor 57, an electric cylinder controller 58, a fixing resistor 59, a second power supply 60, a second switch 61, a first moving wheel 62, a second moving wheel 63, a first connecting shaft 64, a second connecting shaft 65, a third moving wheel 66, a fourth moving wheel 67, a first bevel gear 68, a second bevel gear 69, a third bevel gear 70, a fourth bevel gear, 71. first transmission shaft, 72, first input gear, 73, second transmission shaft, 74, second input gear, 75, output ring gear, 76, rotary long arm, 77, second permanent magnet, 78, recycling bin, 79, left conductive bar, 80, first conductive column, 81, second conductive column, 82, right conductive bar, 83, third conductive column, 84, fourth conductive column, 85, first diode, 86, second diode, 87, third diode, 88, fourth diode, 89, inductor, 90, storage battery.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 10, the energy-saving bus duct with a high protection grade copper-aluminum composite conductor provided by the invention comprises a main body box 1, an energy-saving storage battery box 2 is arranged at the bottom of the main body box 1, a fire extinguishing box 3 is arranged inside the main body box 1, a first guide rail 4 and a second guide rail 5 are arranged on the upper surface of the main body box 1, the top surfaces of the first guide rail 4 and the second guide rail 5 are in contact with the bottom surface of a movable shielding plate 6, an upper long strip plate 7 is fixed on the top surface of the movable shielding plate 6, the front end of the upper long strip plate 7 is fixedly connected with the top end of a front suspension arm 8, a first permanent magnet 9 is fixed at the bottom end of the front suspension arm 8, the right magnetic pole of the first permanent magnet 9 is an N magnetic pole, an iron core 10 is arranged on the right side of the first permanent magnet 9, an outer peripheral coil 11 is arranged in the middle of the iron core 10, the lower surface of the coil 11 is electrically connected with the top ends of the first and second

power connection strips

12 and 13, respectively, and the first and second

power connection strips

12 and 13 are arranged on the upper portion of the opening and closing controller 14.

Further, the inside of switching controller 14 be provided with rectangular resistance 18, the upper surface of rectangular resistance 18 and the bottom contact of pointer piece 17, pointer piece 17 set up the right-hand member lower surface at insulating control strip 15, the left end of insulating control strip 15 stretch out from the left part of switching controller 14, the right flank of pointer piece 17 and the left flank of rectangular resistance 18 between establish ties through wire 16 and have first power 19, first switch 20, protection resistance 21, the right flank of pointer piece 17 pass through wire 16 and the bottom electric connection of second linkage 13, the left flank of rectangular resistance 18 pass through wire 16 and the bottom electric connection of first linkage 12.

Furthermore, the rear end of the upper long slat 7 is fixedly connected with the top end of the rear suspension arm 22, the bottom end of the rear suspension arm 22 is fixed with a return cross arm 23, and the end of the return cross arm 23 is fixedly connected with a spring end block 25 through a return spring 24.

Further, the top of the main body box 1 is provided with a placement groove 26, the inside of the placement groove 26 is sequentially provided with a first copper-aluminum composite conductive strip 27, a second copper-aluminum composite conductive strip 28 and a third copper-aluminum composite conductive strip 29 from left to right, the front end and the rear end of the first copper-aluminum composite conductive strip 27 are respectively provided with a first lower connecting line groove 33 and a first upper connecting line groove 30, the front end and the rear end of the second copper-aluminum composite conductive strip 28 are respectively provided with a second lower connecting line groove 34 and a second upper connecting line groove 31, and the front end and the rear end of the third copper-aluminum composite conductive strip 29 are respectively provided with a third lower connecting line groove 35 and a third upper connecting line groove 32. Furthermore, the device can realize the non-contact top cover opening and closing function, a user pushes the insulating control strip 15 rightwards, the pointer sheet 17 moves rightwards along with the insulating control strip, the resistance value of the long-strip resistor 18 in the access circuit is increased, the voltage obtained by the coil 11 is increased, the magnetic field attraction force of the coil 11 wrapping the iron core 10 to the first permanent magnet 9 is increased, and the first permanent magnet 9 drives the movable shielding plate 6 to move rightwards through the front suspension arm 8 and the upper long strip plate 7, so that the closed shielding effect of an electric appliance placed in the placing groove 26 is realized.

Referring to fig. 1 to 10, further, a powder outlet 53 is formed in the upper surface of the fire extinguishing box 3, an electric cylinder base plate 36 is fixed to the left surface inside the fire extinguishing box 3, an electric cylinder 37 is arranged on the right side of the electric cylinder base plate 36, an actuating rod 38 is arranged at the right power output end of the electric cylinder 37, the right end of the actuating rod 38 is fixedly connected to the left side of an upper through plate 39, an upper through hole 40 is formed in the middle of the upper through plate 39, the lower surface of the upper through plate 39 contacts with the upper surface of a lower long plate 41, a lower through hole 42 is formed in the right portion of the lower long plate 41, the bottom of the lower through hole 42 is communicated with the top of a blower 44 through a communicating pipe 43, a left triangular prism 46 is fixed to the left portion of the upper surface of the upper through plate 39, a lower sealing block 45 is fixed to the left side of the left triangular prism 46, the right part of upper surface of last general dish 39 be fixed with right triangular prism 47, the top of left triangular prism 46, right triangular prism 47 be provided with bin 48, bin 48's inside storage have the powder 49 of putting out a fire, bin 48's left surface pass through fixing bolt 50 and fixed hanger plate 51 fixed, fixing bolt 50's top and the inside upper surface of case 3 of putting out a fire fixed, bin 48 right-hand deflector 52 that is provided with.

Further, the upper surface of the interior of the fire extinguishing box 3 is in contact with the top end of a heat conducting block 55, the heat conducting block 55 is arranged at the upper part of the temperature-sensitive controller 54, the bottom end of the heat conducting block 55 is in contact with the top end of a thermistor 56, the thermistor 56 is connected in parallel with an electric cylinder controller 57 through a lead 16, and the thermistor 56 is connected in series with a fixed resistor 58, a second power source 59 and a second switch 60 through the lead 16. Furthermore, the device can realize the automatic fire extinguishing function, after the device has a fire accident, the heat conducting block 55 transfers heat to the thermistor 56, the resistance value of the thermistor 56 is increased, the voltage at two ends of the electric cylinder controller 57 is increased, the electric cylinder 37 works and pushes the upper through disc 39, the left triangular prism 46, the right triangular prism 47 and the lower sealing block 45 to move rightwards, and when the upper through hole 40 moves to be right above the lower through hole 42, the blower 44 blows out the fire extinguishing powder 49 between the left triangular prism 46 and the right triangular prism 47 through the powder outlet 53 to realize the fire extinguishing function.

Referring to fig. 1 to 10, a first input gear 72 and a second input gear 74 are further arranged inside the energy-saving storage battery box 2, the outer peripheries of the middle parts of the first input gear 72 and the second input gear 74 are respectively in contact engagement with the inner periphery of an output ring gear 75, the left end of the upper surface of the output ring gear 75 is fixedly connected with the bottom end of a long rotating arm 76, a second permanent magnet 77 is fixed on the right surface of the top end of the long rotating arm 76, the bottom ends of the first input gear 72 and the second input gear 74 are respectively fixedly connected with the top ends of a first transmission shaft 71 and a second transmission shaft 73, the bottom ends of the first transmission shaft 71 and the second transmission shaft 73 are respectively provided with a third bevel gear 69 and a fourth bevel gear 70, the bottom end of the third bevel gear 69 is in contact engagement with the front end of the first bevel gear 67, the bottom end of the fourth bevel gear 70 is in contact engagement with the front end of the second bevel gear 68, the third bevel gear 69 and the fourth bevel gear 70 are respectively fixed in the middle of the first connecting shaft 63 and the second connecting shaft 64, the first moving wheel 61 and the third moving wheel 65 are respectively arranged at the front end and the rear end of the first connecting shaft 63, and the second moving wheel 62 and the fourth moving wheel 66 are respectively arranged at the front end and the rear end of the second connecting shaft 64.

Furthermore, a recycling box 78 is fixed on the upper surface inside the energy-saving storage battery box 2, a first conductive column 80 and a second conductive column 81 are arranged at the left part of the recycling box 78, a left conductive bar 79 is connected between the left ends of the first conductive column 80 and the second conductive column 81, a third conductive column 83 and a fourth conductive column 84 are arranged at the right part of the recycling box 78, a right conductive bar 82 is connected between the right ends of the third conductive column 83 and the fourth conductive column 84, a first diode 85 and a third diode conductive column 87 are connected in series between the right end of the first conductive column 80 and the left end of the third conductive column 83 through a lead 16, a second diode 86 and a fourth diode 88 are connected in series between the right end of the second conductive column 81 and the left end of the fourth conductive column 84 through a lead 16, the left side surfaces of the first diode 85 and the fourth diode 88 are anodes, the right side surfaces of the second diode 86 and the third diode 87 are anodes, and an inductor 89 and a storage battery 90 are connected in series between the right side surface of the first diode 85 and the right side surface of the second diode 86. Furthermore, the device can realize the energy-saving and electricity-storing functions, when a user transports and moves the device, the first connecting shaft 63 and the second connecting shaft 64 respectively drive the third bevel gear 69 and the fourth bevel gear 70 to rotate through the first bevel gear 67 and the second bevel gear 68, the third bevel gear 69 and the fourth bevel gear 70 respectively drive the first input gear 72 and the second input gear 74 to rotate through the first transmission shaft 71 and the second transmission shaft 73, the output gear ring 75 drives the second permanent magnet 77 to rotate through the rotary long arm 76, the magnetic induction line of the second permanent magnet 77 repeatedly cuts the left conductive strip 79 and the right conductive strip 82, and the generated current is stored in the storage battery 90 after the rectification action of the diode.

The iron core 10, the strip resistor 18, the inductor 89, the storage battery 90 and the like are all assembled by existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides an energy-saving bus duct with a high-protection-level copper-aluminum composite conductor, which comprises a main body box 1, wherein an energy-saving storage box 2 is arranged at the bottom of the main body box 1, a fire extinguishing box 3 is arranged inside the main body box 1, a first guide rail 4 and a second guide rail 5 are arranged on the upper surface of the main body box 1, the top surfaces of the first guide rail 4 and the second guide rail 5 are in contact with the bottom surface of a movable shielding plate 6, an upper long strip plate 7 is fixed on the top surface of the movable shielding plate 6, the front end of the upper long strip plate 7 is fixedly connected with the top end of a front suspension arm 8, a first permanent magnet 9 is fixed at the bottom end of the front suspension arm 8, the right magnetic pole of the first permanent magnet 9 is an N magnetic pole, an iron core 10 is arranged on the right side of the first permanent magnet 9, a coil 11 is arranged on the periphery of the middle part of the iron core 10, and the lower surface of, The top end of the second linkage strip 13 is electrically connected, the first linkage strip 12 and the second linkage strip 13 are arranged on the upper portion of the opening and closing controller 14, the inside of the opening and closing controller 14 is provided with a strip resistor 18, the upper surface of the strip resistor 18 is contacted with the bottom end of the pointer sheet 17, the pointer sheet 17 is arranged on the lower surface of the right end of the insulated control strip 15, the left end of the insulated control strip 15 extends out of the left portion of the opening and closing controller 14, a first power supply 19, a first switch 20 and a protection resistor 21 are connected in series between the right side surface of the pointer sheet 17 and the left side surface of the strip resistor 18 through a lead 16, the right side surface of the pointer sheet 17 is electrically connected with the bottom end of the second linkage strip 13 through the lead 16, the left side surface of the strip resistor 18 is electrically connected with the bottom end of the first linkage strip 12 through the lead 16, the rear end of the upper long strip 7 is fixedly connected with the top end of the rear suspension arm 22, a return cross arm 23 is fixed at the bottom end of the rear suspension arm 22, the end part of the return cross arm 23 is fixedly connected with a spring end block 25 through a return spring 24, the top of the main box 1 is provided with a placing groove 26, a first copper-aluminum composite conductive strip 27, a second copper-aluminum composite conductive strip 28 and a third copper-aluminum composite conductive strip 29 are sequentially arranged in the placing groove 26 from left to right, furthermore, the device of the invention can realize the function of opening and closing the non-contact top cover, a user pushes the insulating control strip 15 rightwards, the pointer sheet 17 moves rightwards along with the insulating control strip, the resistance value of the strip resistor 18 connected into the circuit is increased, and then the voltage obtained by the coil 11 is increased, the magnetic field attraction force generated by the coil 11 wrapping the iron core 10 to the first permanent magnet 9 is increased, and then the first permanent magnet 9 drives the movable shielding plate 6 to move rightwards through the front suspension arm 8 and the upper long slat 7 so as to realize the closed shielding effect on the electric appliances placed in the placing groove 26.

The upper surface of the fire extinguishing box 3 is provided with a powder outlet 53, the left surface inside the fire extinguishing box 3 is fixed with an electric cylinder bottom plate 36, the right side of the electric cylinder bottom plate 36 is provided with an electric cylinder 37, the right power output end of the electric cylinder 37 is provided with an actuating rod 38, the right end of the actuating rod 38 is fixedly connected with the left side of an upper through plate 39, the middle of the upper through plate 39 is provided with an upper through hole 40, the lower surface of the upper through plate 39 is contacted with the upper surface of a lower long plate 41, the right part of the lower long plate 41 is provided with a lower through hole 42, the bottom of the lower through hole 42 is communicated with the top of a blower 44 through a communicating pipe 43, the left part of the upper surface of the upper through plate 39 is fixed with a left triangular prism 46, the left side of the left triangular prism 46 is fixed with a lower sealing block 45, the right triangular prism 47 is fixed on the right part of the upper surface of the upper through plate 39, a storage box 48 is arranged above the left triangular prism 46 and the right triangular prism 47, fire extinguishing powder 49 is stored in the storage box 48, the left side surface of the storage box 48 is fixed with a fixed hanging plate 51 through a fixing bolt 50, the top end of the fixing bolt 50 is fixed with the inner upper surface of the fire extinguishing box 3, a guide plate 52 is arranged right and left of the storage box 48, the inner upper surface of the fire extinguishing box 3 is contacted with the top end of a heat conducting block 55, the heat conducting block 55 is arranged at the upper part of a temperature sensing controller 54, the bottom end of the heat conducting block 55 is contacted with the top end of a thermistor 56, the thermistor 56 is connected with an electric cylinder controller 57 in parallel through a lead 16, further, the device can realize the automatic fire extinguishing function, after a fire accident happens to the device, the heat conducting block 55 transmits heat to the thermistor 56, the resistance value of the thermistor 56 is increased, and the voltage at two ends of the electric cylinder controller 57 is increased, the electric cylinder 37 works and pushes the upper through disc 39, the left triangular prism 46, the right triangular prism 47 and the lower sealing block 45 to move rightwards, and when the upper through hole 40 moves to the position right above the lower through hole 42, the blower 44 blows out fire extinguishing powder 49 between the left triangular prism 46 and the right triangular prism 47 through the powder outlet 53 to achieve the fire extinguishing function.

A first input gear 72 and a second input gear 74 are arranged in the energy-saving accumulator box 2, the outer peripheries of the middle parts of the first input gear 72 and the second input gear 74 are respectively in contact engagement with the inner periphery of an output gear ring 75, the left end of the upper surface of the output gear ring 75 is fixedly connected with the bottom end of a rotary long arm 76, a second permanent magnet 77 is fixed on the right surface of the top end of the rotary long arm 76, the bottom ends of the first input gear 72 and the second input gear 74 are respectively fixedly connected with the top ends of a first transmission shaft 71 and a second transmission shaft 73, the bottom ends of the first transmission shaft 71 and the second transmission shaft 73 are respectively provided with a third bevel gear 69 and a fourth bevel gear 70, the bottom end of the third bevel gear 69 is in contact engagement with the front end of the first bevel gear 67, the bottom end of the fourth bevel gear 70 is in contact engagement with the front end of the second bevel gear 68, the third bevel gear 69 and the fourth bevel gear 70 are respectively fixed in the middle of the first connecting shaft 63 and the second connecting shaft 64, the front end and the rear end of the first connecting shaft 63 are respectively provided with a first moving wheel 61 and a third moving wheel 65, the front end and the rear end of the second connecting shaft 64 are respectively provided with a second moving wheel 62 and a fourth moving wheel 66, the upper surface in the energy-saving storage box 2 is fixedly provided with a recycling box 78, the left part of the recycling box 78 is provided with a first conductive column 80 and a second conductive column 81, a left conductive bar 79 is connected between the left ends of the first conductive column 80 and the second conductive column 81, the right part of the recycling box 78 is provided with a third conductive column 83 and a fourth conductive column 84, a right conductive bar 82 is connected between the right ends of the third conductive column 83 and the fourth conductive column 84, a first diode 85, a second diode 85 and a fourth diode 82 are connected in series between the right end of the first conductive column 80, A third diode 87, a second diode 86 and a fourth diode 88 are connected in series between the right end of the second conductive pillar 81 and the left end of the fourth conductive pillar 84 through a conducting wire 16, furthermore, the inventive device can realize the energy-saving and power-storage functions, when the user transports the inventive device, the first connecting shaft 63 and the second connecting shaft 64 respectively drive the third bevel gear 69 and the fourth bevel gear 70 to rotate through the first bevel gear 67 and the second bevel gear 68, the third bevel gear 69 and the fourth bevel gear 70 respectively drive the first input gear 72 and the second input gear 74 to rotate through the first transmission shaft 71 and the second transmission shaft 73, the output gear ring 75 drives the second permanent magnet 77 to rotate through the rotary long arm 76, the magnetic induction line of the second permanent magnet 77 repeatedly cuts the left conductive strip 79 and the right conductive strip 82, and the generated current is stored in the storage battery 90 after the rectification action of the diode.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an energy-saving busway with high protection level copper aluminium composite conductor, its characterized in that, including main part case (1), the bottom of main part case (1) be provided with energy-conserving accumulator case (2), the inside of main part case (1) be provided with case (3) of putting out a fire, the upper surface of main part case (1) be provided with first guide rail (4), second guide rail (5), the top surface of first guide rail (4), second guide rail (5) and the bottom surface contact of movable sunshade board (6), the top surface mounting of movable sunshade board (6) have last rectangular board (7), the front end of last rectangular board (7) and the top fixed connection of preceding davit (8), the bottom mounting of preceding davit (8) have first permanent magnet (9), the right side magnetic pole of first permanent magnet (9) be the N magnetic pole, the right-hand iron core (10) that is provided with of first permanent magnet (9), the middle part periphery of iron core (10) be provided with coil (11), the lower surface of coil (11) respectively with the top electric connection of first antithetical couplet electric strip (12), second antithetical couplet electric strip (13), first antithetical couplet electric strip (12), second antithetical couplet electric strip (13) set up the upper portion at switching controller (14).

2. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the inside of switching controller (14) be provided with rectangular resistance (18), the bottom contact of the upper surface of rectangular resistance (18) and pointer piece (17), pointer piece (17) set up the left end lower surface at insulating control strip (15), the left end of insulating control strip (15) stretch out from the left part of switching controller (14), the right flank of pointer piece (17) and the left flank of rectangular resistance (18) between establish ties through wire (16) have first power (19), first switch (20), protection resistance (21), the right flank of pointer piece (17) pass through the bottom electric connection of wire (16) and second linkage strip (13), the left flank of rectangular resistance (18) pass through the bottom electric connection of wire (16) and first linkage strip (12).

3. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the rear end of the upper long slat (7) is fixedly connected with the top end of the rear suspension arm (22), the bottom end of the rear suspension arm (22) is fixedly provided with a return cross arm (23), and the end part of the return cross arm (23) is fixedly connected with a spring end block (25) through a return spring (24).

4. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the main part case (1) top be provided with standing groove (26), the inside of standing groove (26) from left to right set gradually first copper aluminium composite bus bar (27), second copper aluminium composite bus bar (28), third copper aluminium composite bus bar (29), the front and back end of first copper aluminium composite bus bar (27) be provided with first lower connecting wire groove (33), first upper connecting wire groove (30) respectively, the front and back end of second copper aluminium composite bus bar (28) be provided with second lower connecting wire groove (34), second upper connecting wire groove (31) respectively, the front and back end of third copper aluminium composite bus bar (29) be provided with third lower connecting wire groove (35), third upper connecting wire groove (32) respectively.

5. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the upper surface of the fire extinguishing box (3) is provided with a powder outlet (53), the left surface of the interior of the fire extinguishing box (3) is fixed with an electric cylinder bottom plate (36), the right side surface of the electric cylinder bottom plate (36) is provided with an electric cylinder (37), the right power output end of the electric cylinder (37) is provided with an actuating rod (38), the right end of the actuating rod (38) is fixedly connected with the left side surface of an upper through plate (39), the middle part of the upper through plate (39) is provided with an upper through hole (40), the lower surface of the upper through plate (39) is contacted with the upper surface of a lower long plate (41), the right part of the lower long plate (41) is provided with a through hole (42), the bottom of the lower through hole (42) is communicated with the top of a blower (44) through a communicating pipe (43), the left triangular prism (46) is fixed on the left part of the upper surface of the upper through plate (39), left triangular prism (46)'s left surface be fixed with down sealing block (45), the right part of the upper surface of last expert dish (39) be fixed with right triangular prism (47), left triangular prism (46), the top of right triangular prism (47) be provided with bin (48), the inside storage of bin (48) put out a fire powder (49), the left surface of bin (48) fixed with fixed hanger plate (51) through fixing bolt (50), the top of fixing bolt (50) and the inside fixed surface of case (3) that goes out a fire, bin (48) right-hand deflector (52) that are provided with.

6. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the upper surface of the interior of the fire extinguishing box (3) is in contact with the top end of a heat conducting block (55), the heat conducting block (55) is arranged at the upper part of a temperature-sensitive controller (54), the bottom end of the heat conducting block (55) is in contact with the top end of a thermistor (56), the thermistor (56) is connected with an electric cylinder controller (57) in parallel through a lead (16), and the thermistor (56) is connected with a fixed resistor (58), a second power supply (59) and a second switch (60) in series through the lead (16).

7. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: a first input gear (72) and a second input gear (74) are arranged in the energy-saving storage battery box (2), the peripheries of the middle parts of the first input gear (72) and the second input gear (74) are respectively in contact engagement with the inner periphery of an output gear ring (75), the left end of the upper surface of the output gear ring (75) is fixedly connected with the bottom end of a rotary long arm (76), a second permanent magnet (77) is fixed on the right surface of the top end of the rotary long arm (76), the bottom ends of the first input gear (72) and the second input gear (74) are respectively fixedly connected with the top ends of a first transmission shaft (71) and a second transmission shaft (73), the bottom ends of the first transmission shaft (71) and the second transmission shaft (73) are respectively provided with a third bevel gear (69) and a fourth bevel gear (70), the bottom end of the third bevel gear (69) is in contact engagement with the front end of a first bevel gear (67), the bottom end of the fourth bevel gear (70) is in contact engagement with the front end of the second bevel gear (68), the third bevel gear (69) and the fourth bevel gear (70) are respectively fixed in the middle of the first connecting shaft (63) and the middle of the second connecting shaft (64), the front end and the rear end of the first connecting shaft (63) are respectively provided with a first moving wheel (61) and a third moving wheel (65), and the front end and the rear end of the second connecting shaft (64) are respectively provided with a second moving wheel (62) and a fourth moving wheel (66).

8. The energy-saving bus duct with high protection level copper-aluminum composite conductor of claim 1, characterized in that: the energy-saving storage battery box (2) is characterized in that a recovery box (78) is fixed to the upper surface of the interior of the energy-saving storage battery box (2), a first conductive column (80) and a second conductive column (81) are arranged at the left portion of the recovery box (78), a left conductive strip (79) is connected between the left ends of the first conductive column (80) and the second conductive column (81), a third conductive column (83) and a fourth conductive column (84) are arranged at the right portion of the recovery box (78), a right conductive strip (82) is connected between the right ends of the third conductive column (83) and the fourth conductive column (84), a first diode (85) and a third diode (87) are connected in series between the right end of the first conductive column (80) and the left end of the third conductive column (83) through a conducting wire (16), and a second diode (86) and a third diode (87) are connected in series between the right end of the second conductive column (81) and the left end of the fourth, The left side surfaces of the first diode (85) and the fourth diode (88) are anodes, the right side surfaces of the second diode (86) and the third diode (87) are anodes, and an inductor (89) and a storage battery (90) are connected in series between the right side surface of the first diode (85) and the right side surface of the second diode (86).