CN205086702U - Be applied to heavy current quick charger of electronic bus - Google Patents

Abstract

The utility model relates to a be applied to heavy current quick charger of electronic bus, including the power cabinet that charges, ground, 2 fixed pipes of positive pole, 2 the fixed pipes of negative pole, positive electrode busbar and negative electrode busbar, an anodal horizon bar one end just sets up with anodal montant is perpendicular on being fixed in anodal montant, a positive electrode cable installs on the fixed pipe of positive pole, and a negative cable installs on the fixed pipe of negative pole, high voltage insulator includes cylindrical body, 2 umbelliform insulating pieces in top, 2 umbelliform insulating pieces in top and the umbelliform insulating piece in middle part, and the umbelliform insulating piece in top is located the cylindrical body both ends, and the umbelliform insulating piece in middle part is located the cylindrical body middle part, and the umbelliform insulating piece in inferior top is located between the umbelliform insulating piece of umbelliform insulating piece in top and middle part. The utility model discloses avoid rainy day rainwater along lower continuous water film of formation in the outside of tower insulator, realized all -weather strong insulating nature, effectively solved the insulating not good problem that can't use of current direct current charging frame rainy day.

Description

Be applied to the big current quick charger of electric bus

Technical field

The utility model relates to a kind of big current quick charger being applied to electric bus, belongs to electronlmobil automatic charging technical field.

Background technology

Along with the raising of energy source of car diversified demand, electronlmobil appears on automotive market more and more, with conventional fuel oil automobile unlike, the power system of electronlmobil does not have fuel engines, but be made up of charging module, battery and motor etc., battery is electrically connected to charge by the charge port of charging module with city, battery is the propulsion source of motor, and electric machine rotation is to drive wheel.

Existing electronlmobil Problems existing; charging difficulty, length consuming time, driving distance is short; general once charging needs 2 ~ 3 hours; 150 km can be travelled, cannot compared with fuel-engined vehicle, but the use of diesel locomotive is the major reason that energy environment crisis is deepened further; therefore; low noise, zero-emission, electronlmobil that capacity usage ratio is high will substitute traditional combustion engine automobile, need adapting of charging equipment for this reason, reach that charging duration is short, stroke long, the object of reliable operation.

Summary of the invention

The purpose of this utility model is to provide a kind of big current quick charger being applied to electric bus, this big current quick charger being applied to electric bus avoids the outside lower droplet formation continuous print moisture film of rainy day rainwater along tower insulator, horizon bar and busbar is caused to conduct, achieve round-the-clock strong insulativity, efficiently solve the not good problem that cannot use of insulation of existing DC charging frame rainy day.

For achieving the above object, the technical solution adopted in the utility model is: a kind of big current quick charger being applied to electric bus, comprise charge power cabinet, ground, 2 positive pole stationary pipes, 2 negative pole stationary pipes, positive pole busbar and cathode bus bar, it is the direct current (DC) mated with electronlmobil that described charge power cabinet is used for industrial three-phase 380 volts of AC conversion, described charge power cabinet comprises cabinet further, front door, left-hand door plate and right door-plate, described cabinet is disposed with charging module district from top to bottom, center-control district and the electric district of input/output terminal, described charging module district is used for changing industrial alternating current into direct current (DC), this center-control district is respectively by upper, lower plywood and charging module district, input/output terminal electrically separate from,

Described left-hand door plate, the charging module district that right door-plate and front door are installed on cabinet is respectively left, right side is with above, described left-hand door plate, right door-plate and front door circumferentially marginarium are provided with foaming sealing band, described charging module district is left, right side and above circumferentially fringe region be provided with guiding gutter, described left-hand door plate, under right door-plate and front door are in closed condition, described foaming sealing band is pressed on the front end face of guiding gutter hermetically, described left-hand door plate, the lower surface of right door-plate and front door has several door-plate weepers, described guiding gutter lower surface has several cabinet weepers,

Described positive pole stationary pipes, negative pole stationary pipes are all fixed on ground, 2 positive pole cross bars are vertically fixed with between 2 positive pole stationary pipes, a positive pole montant is fixed with between these 2 positive pole cross bars, vertically be fixed with 2 negative pole cross bars between 2 negative pole stationary pipes, between these 2 negative pole cross bars, be fixed with a negative pole montant;

One positive pole horizon bar one end to be fixed on positive pole montant and vertically with positive pole montant to be arranged, one negative pole horizon bar one end to be fixed on negative pole montant and vertically with negative pole montant to be arranged, described positive pole busbar is installed on positive pole horizon bar, negative pole horizon bar respectively by 2 high-tension insulators, and described cathode bus bar is installed on positive pole horizon bar, negative pole horizon bar respectively by 2 high-tension insulators;

One electrode cable is installed in positive pole stationary pipes, one negative pole cable is installed in negative pole stationary pipes, the mouth being positioned at negative pole cable one end is electrically connected with cathode bus bar, the negative pole cable other end is connected to charge power cabinet, the mouth being positioned at electrode cable one end is electrically connected with positive pole busbar, the electrode cable other end is connected to charge power cabinet, in described 2 positive pole stationary pipes, at least one positive pole stationary pipes is provided with the first discharging rod, in described 2 negative pole stationary pipes, at least one negative pole stationary pipes is provided with the second discharging rod;

One electrode cable is installed in positive pole stationary pipes, and the mouth being positioned at electrode cable one end is electrically connected with positive pole busbar, and a negative pole cable is installed in negative pole stationary pipes, and the mouth being positioned at negative pole cable one end is electrically connected with cathode bus bar;

The upper end of one arc anode-supported bar is connected with positive pole horizon bar, and its lower end is connected with positive pole montant, and the upper end of an arc cathode-supported bar is connected with negative pole horizon bar, and its lower end is connected with negative pole montant;

Described high-tension insulator comprises cylindrical body, 2 top umbrella insolator discs, 2 top umbrella insolator discs and middle part umbrella insolator discs, the diameter of described middle part umbrella insolator disc is greater than the diameter of top umbrella insolator disc, and secondary top umbrella insolator disc diameter is less than top umbrella insolator disc diameter;

Described 2 top umbrella insolator discs lay respectively at cylindrical body top, described middle part umbrella insolator disc is positioned in the middle part of cylindrical body, in 2 time top umbrella insolator discs one between a top umbrella insolator disc and middle part umbrella insolator disc, another top umbrella insolator disc is between another top umbrella insolator disc and middle part umbrella insolator disc.

In technique scheme, further improvement project is as follows:

1. in such scheme, 2 described positive pole cross bars be arranged in parallel, and 2 described negative pole cross bars be arranged in parallel.

2., in such scheme, described positive pole busbar, cathode bus bar be arranged in parallel.

3. in such scheme, described electrode cable is embedded in positive pole stationary pipes, and described negative pole cable is embedded in negative pole stationary pipes.

4., in such scheme, the flange portion being positioned at described cylindrical body two ends is connected with positive pole horizon bar, negative pole horizon bar and positive pole busbar, cathode bus bar by bolt.

5., in such scheme, described input/output terminal electrically separates and forms from by the electric subarea of input side by side and the electric subarea of output.

6., in such scheme, a mounting seat is positioned at immediately below the electric district of input/output terminal.

Because technique scheme is used, the utility model compared with prior art has following advantages and effect:

1. the utility model is applied to the big current quick charger of electric bus, its battery-driven car based on DC bus charges, and flexible configuration, power supply reliability are high, achieves battery-driven car large current charge, substantially reduce charging duration, and the sustainable smooth operation of the system that achieves, adopt the cylindrical body of specific dimensions and arrangement mode, 2 top umbrella insolator discs, the high-tension insulator of 2 top umbrella insolator discs and middle part umbrella insolator disc composition, avoid the outside lower droplet formation continuous print moisture film of rainy day rainwater along tower insulator, horizon bar and busbar is caused to conduct, achieve round-the-clock strong insulativity, efficiently solve the not good problem that cannot use of insulation of existing DC charging frame rainy day, and upper and lower symmetric design, even if rainwater falls into the utility model high-tension insulator in the effect of wind-force from all directions, also continuous print moisture film can be avoided to be formed, further ensure the insulating power between round-the-clock horizon bar and busbar electricity, secondly, its electrode cable, negative pole cable are embedded in positive pole stationary pipes, negative pole stationary pipes respectively, and solve the distribution of traditional outdoor cable in disorder, the situation of cable connection cabling confusion, greatly maintains easily maintenance, secondly, add the arc support rod between horizon bar and montant, change stress point, make integrated straight current charge frame uniform force, improve overall mechanical stability.

2. the utility model is applied to the big current quick charger of electric bus, and it is according to " function division territory " design, and solve traditional outdoor battery charger device distribution in disorder, the situation of cable connection cabling confusion, greatly maintains easily maintenance; Whole cabinet waterproofing design, adopt " multiple waterproof " design, solve the shortcoming of traditional outdoor battery charger water resistance deficiency, the guiding gutter design of cabinet top, rainwater flows down along edge guiding gutter, and side, cabinet door edge uses the sealing of foaming sealing band, guarantees that rainwater can not infiltrate cupboard inside, and add the design of top discharging rod, improve the safety in utilization of thunderstorm weather; Secondly, the lower surface of its left-hand door plate, right door-plate and front door has several door-plate weepers, and described guiding gutter lower surface has several cabinet weepers, if rainwater has infiltrated in cabinet, can flow out from the weeper tank bracket.

Accompanying drawing explanation

Accompanying drawing 1 is applied to the big current quick charger structural representation of electric bus for the utility model;

Accompanying drawing 2 is charge power cabinet schematic diagram in the quick charger of the utility model big current;

Accompanying drawing 3 is A place local structure schematic diagram in accompanying drawing 2;

Accompanying drawing 4 is B place local structure schematic diagram in accompanying drawing 2;

Accompanying drawing 5 is the local structure schematic diagram of accompanying drawing 1;

Accompanying drawing 6 is the utility model big current quick charger mesohigh insulator structure schematic diagram.

In above accompanying drawing: 1, ground; 2, positive pole stationary pipes; 3, negative pole stationary pipes; 4, positive pole busbar; 5, cathode bus bar; 6, positive pole cross bar; 7, positive pole montant; 8, negative pole cross bar; 9, negative pole montant; 10, positive pole horizon bar; 11, negative pole horizon bar; 12, high-tension insulator; 121, cylindrical body; 122, top umbrella insolator disc; 123, secondary top umbrella insolator disc; 124, middle part umbrella insolator disc; 125, flange portion; 13, electrode cable; 14, negative pole cable; 15, negative pole cable; 16, charge power cabinet; 17, the first discharging rod; 18, the second discharging rod; 19, cabinet; 20, front door; 21, left-hand door plate; 22, right door-plate; 23, charging module district; 24, center-control district; 25, the electric district of input/output terminal; 251, electric subarea is inputted; 252, electric subarea is exported; 261, top plate; 262, lower plywood; 27, foam sealing band; 28, guiding gutter; 29, mounting seat; 30, door-plate weeper; 31, cabinet weeper.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described:

Embodiment 1: a kind of big current quick charger being applied to electric bus, comprise charge power cabinet 16, ground 1, 2 positive pole stationary pipes 2, 2 negative pole stationary pipes 3, positive pole busbar 4 and cathode bus bar 5, described charge power cabinet 16 is for being the direct current (DC) mated with electronlmobil by industrial three-phase 380 volts of AC conversion, described charge power cabinet 16 comprises cabinet 19 further, front door 20, left-hand door plate 21 and right door-plate 22, described cabinet 19 is disposed with charging module district 23 from top to bottom, center-control district 24 and the electric district 25 of input/output terminal, described charging module district 23 is for changing industrial alternating current into direct current (DC), this center-control district 24 is respectively by upper, lower plywood 261, 262 with charging module district 23, input/output terminal electrically separates from 25,

Described left-hand door plate 21, the charging module district 23 that right door-plate 22 and front door 20 are installed on cabinet 19 is respectively left, right side is with above, described left-hand door plate 21, right door-plate 22 and front door 20 circumferentially marginarium are provided with foaming sealing band 27, described charging module district 23 is left, right side and above circumferentially fringe region be provided with guiding gutter 28, described left-hand door plate 21, under right door-plate 22 and front door 20 are in closed condition, described foaming sealing band 27 is pressed on the front end face of guiding gutter 28 hermetically, described left-hand door plate 21, the lower surface of right door-plate 22 and front door 20 has several door-plate weepers 30, described guiding gutter 28 lower surface has several cabinet weepers 31,

Described positive pole stationary pipes 2, negative pole stationary pipes 3 are all fixed on ground 1,2 positive pole cross bars 6 are vertically fixed with between 2 positive pole stationary pipes 2, a positive pole montant 7 is fixed with between these 2 positive pole cross bars 6, vertically be fixed with 2 negative pole cross bars 8 between 2 negative pole stationary pipes 3, between these 2 negative pole cross bars 8, be fixed with a negative pole montant 9;

One positive pole horizon bar 10 one end to be fixed on positive pole montant 7 and vertically with positive pole montant 7 to be arranged, one negative pole horizon bar 11 one end to be fixed on negative pole montant 9 and vertically with negative pole montant 9 to be arranged, described positive pole busbar 4 is installed on positive pole horizon bar 10, negative pole horizon bar 11 respectively by 2 high-tension insulators 12, and described cathode bus bar 5 is installed on positive pole horizon bar 10, negative pole horizon bar 11 respectively by 2 high-tension insulators 12;

One electrode cable 13 is installed in positive pole stationary pipes 2, one negative pole cable 14 is installed in negative pole stationary pipes 3, the mouth being positioned at negative pole cable 14 one end is electrically connected with cathode bus bar 5, negative pole cable 14 other end is connected to charge power cabinet 17, the mouth being positioned at electrode cable 13 one end is electrically connected with positive pole busbar 4, electrode cable 13 other end is connected to charge power cabinet 17, in described 2 positive pole stationary pipes 2, at least one positive pole stationary pipes 2 is provided with the first discharging rod 17, in described 2 negative pole stationary pipes 3, at least one negative pole stationary pipes 3 is provided with the second discharging rod 18,

One electrode cable 13 is installed in positive pole stationary pipes 2, and the mouth being positioned at electrode cable 13 one end is electrically connected with positive pole busbar 4, and a negative pole cable 14 is installed in negative pole stationary pipes 3, and the mouth being positioned at negative pole cable 14 one end is electrically connected with cathode bus bar 5;

The upper end of one arc anode-supported bar 16 is connected with positive pole horizon bar 10, and its lower end is connected with positive pole montant 7, and the upper end of an arc cathode-supported bar 17 is connected with negative pole horizon bar 11, and its lower end is connected with negative pole montant 9;

Described high-tension insulator 12 comprises cylindrical body 121,2 top umbrella insolator discs 122,2 time top umbrella insolator disc 123 and middle part umbrella insolator disc 124, the diameter of described middle part umbrella insolator disc 124 is greater than the diameter of top umbrella insolator disc 122, and secondary top umbrella insolator disc 123 diameter is less than top umbrella insolator disc 122 diameter;

Described 2 top umbrella insolator discs 122 lay respectively at cylindrical body 121 top, described middle part umbrella insolator disc 124 is positioned in the middle part of cylindrical body 121, in 2 time top umbrella insolator discs 123 one between a top umbrella insolator disc 122 and middle part umbrella insolator disc 124, another top umbrella insolator disc 123 is between another top umbrella insolator disc 122 and middle part umbrella insolator disc 124.

2 described positive pole cross bars 6 be arranged in parallel, and 2 described negative pole cross bars 8 be arranged in parallel.

Above-mentioned positive pole busbar 4, cathode bus bar 5 be arranged in parallel.

Above-mentioned electrode cable 13 is embedded in positive pole stationary pipes 2, and described negative pole cable 14 is embedded in negative pole stationary pipes 3.

One mounting seat 29 is positioned at immediately below the electric district 7 of input/output terminal.

Be positioned at the flange portion 125 at described cylindrical body 121 two ends by bolt and positive pole horizon bar 10, negative pole

Embodiment 2: a kind of big current quick charger being applied to electric bus, comprise charge power cabinet 16, ground 1, 2 positive pole stationary pipes 2, 2 negative pole stationary pipes 3, positive pole busbar 4 and cathode bus bar 5, described charge power cabinet 16 is for being the direct current (DC) mated with electronlmobil by industrial three-phase 380 volts of AC conversion, described charge power cabinet 16 comprises cabinet 19 further, front door 20, left-hand door plate 21 and right door-plate 22, described cabinet 19 is disposed with charging module district 23 from top to bottom, center-control district 24 and the electric district 25 of input/output terminal, described charging module district 23 is for changing industrial alternating current into direct current (DC), this center-control district 24 is respectively by upper, lower plywood 261, 262 with charging module district 23, input/output terminal electrically separates from 25,

Described left-hand door plate 21, the charging module district 23 that right door-plate 22 and front door 20 are installed on cabinet 19 is respectively left, right side is with above, described left-hand door plate 21, right door-plate 22 and front door 20 circumferentially marginarium are provided with foaming sealing band 27, described charging module district 23 is left, right side and above circumferentially fringe region be provided with guiding gutter 28, described left-hand door plate 21, under right door-plate 22 and front door 20 are in closed condition, described foaming sealing band 27 is pressed on the front end face of guiding gutter 28 hermetically, described left-hand door plate 21, the lower surface of right door-plate 22 and front door 20 has several door-plate weepers 30, described guiding gutter 28 lower surface has several cabinet weepers 31,

Described positive pole stationary pipes 2, negative pole stationary pipes 3 are all fixed on ground 1,2 positive pole cross bars 6 are vertically fixed with between 2 positive pole stationary pipes 2, a positive pole montant 7 is fixed with between these 2 positive pole cross bars 6, vertically be fixed with 2 negative pole cross bars 8 between 2 negative pole stationary pipes 3, between these 2 negative pole cross bars 8, be fixed with a negative pole montant 9;

One positive pole horizon bar 10 one end to be fixed on positive pole montant 7 and vertically with positive pole montant 7 to be arranged, one negative pole horizon bar 11 one end to be fixed on negative pole montant 9 and vertically with negative pole montant 9 to be arranged, described positive pole busbar 4 is installed on positive pole horizon bar 10, negative pole horizon bar 11 respectively by 2 high-tension insulators 12, and described cathode bus bar 5 is installed on positive pole horizon bar 10, negative pole horizon bar 11 respectively by 2 high-tension insulators 12;

One electrode cable 13 is installed in positive pole stationary pipes 2, one negative pole cable 14 is installed in negative pole stationary pipes 3, the mouth being positioned at negative pole cable 14 one end is electrically connected with cathode bus bar 5, negative pole cable 14 other end is connected to charge power cabinet 17, the mouth being positioned at electrode cable 13 one end is electrically connected with positive pole busbar 4, electrode cable 13 other end is connected to charge power cabinet 17, in described 2 positive pole stationary pipes 2, at least one positive pole stationary pipes 2 is provided with the first discharging rod 17, in described 2 negative pole stationary pipes 3, at least one negative pole stationary pipes 3 is provided with the second discharging rod 18,

One electrode cable 13 is installed in positive pole stationary pipes 2, and the mouth being positioned at electrode cable 13 one end is electrically connected with positive pole busbar 4, and a negative pole cable 14 is installed in negative pole stationary pipes 3, and the mouth being positioned at negative pole cable 14 one end is electrically connected with cathode bus bar 5;

The upper end of one arc anode-supported bar 16 is connected with positive pole horizon bar 10, and its lower end is connected with positive pole montant 7, and the upper end of an arc cathode-supported bar 17 is connected with negative pole horizon bar 11, and its lower end is connected with negative pole montant 9;

Described high-tension insulator 12 comprises cylindrical body 121,2 top umbrella insolator discs 122,2 time top umbrella insolator disc 123 and middle part umbrella insolator disc 124, the diameter of described middle part umbrella insolator disc 124 is greater than the diameter of top umbrella insolator disc 122, and secondary top umbrella insolator disc 123 diameter is less than top umbrella insolator disc 122 diameter;

Described 2 top umbrella insolator discs 122 lay respectively at cylindrical body 121 top, described middle part umbrella insolator disc 124 is positioned in the middle part of cylindrical body 121, in 2 time top umbrella insolator discs 123 one between a top umbrella insolator disc 122 and middle part umbrella insolator disc 124, another top umbrella insolator disc 123 is between another top umbrella insolator disc 122 and middle part umbrella insolator disc 124.

One mounting seat 29 is positioned at immediately below the electric district 7 of input/output terminal.

The flange portion 125 being positioned at described cylindrical body 121 two ends is connected with positive pole horizon bar 10, negative pole horizon bar 11 and positive pole busbar 4, cathode bus bar 5 by bolt.

Above-mentioned input/output terminal electrically separates and is made up of the electric subarea of input side by side 251 and the electric subarea 252 of output from 25.

Adopt above-mentioned when being applied to the big current quick charger of electric bus, its battery-driven car based on DC bus charges, and flexible configuration, power supply reliability are high, achieves battery-driven car large current charge, substantially reduce charging duration, and the sustainable smooth operation of the system that achieves, adopt the cylindrical body of specific dimensions and arrangement mode, 2 top umbrella insolator discs, the high-tension insulator of 2 top umbrella insolator discs and middle part umbrella insolator disc composition, avoid the outside lower droplet formation continuous print moisture film of rainy day rainwater along tower insulator, horizon bar and busbar is caused to conduct, achieve round-the-clock strong insulativity, efficiently solve the not good problem that cannot use of insulation of existing DC charging frame rainy day, and upper and lower symmetric design, even if rainwater falls into the utility model high-tension insulator in the effect of wind-force from all directions, also continuous print moisture film can be avoided to be formed, further ensure the insulating power between round-the-clock horizon bar and busbar electricity, secondly, its electrode cable, negative pole cable are embedded in positive pole stationary pipes, negative pole stationary pipes respectively, and solve the distribution of traditional outdoor cable in disorder, the situation of cable connection cabling confusion, greatly maintains easily maintenance, again, it is according to " function division territory " design, and solve traditional outdoor battery charger device distribution in disorder, the situation of cable connection cabling confusion, greatly maintains easily maintenance, whole cabinet waterproofing design, adopt " multiple waterproof " design, solve the shortcoming of traditional outdoor battery charger water resistance deficiency, the guiding gutter design of cabinet top, rainwater flows down along edge guiding gutter, and side, cabinet door edge uses the sealing of foaming sealing band, guarantees that rainwater can not infiltrate cupboard inside, and add the design of top discharging rod, improve the safety in utilization of thunderstorm weather, secondly, the lower surface of its left-hand door plate, right door-plate and front door has several door-plate weepers, and described guiding gutter lower surface has several cabinet weepers, if rainwater has infiltrated in cabinet, can flow out from the weeper tank bracket.

Above-described embodiment, only for technical conceive of the present utility model and feature are described, its object is to person skilled in the art can be understood content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalences done according to the utility model Spirit Essence change or modify, and all should be encompassed within protection domain of the present utility model.

Claims (7)

1. one kind is applied to the big current quick charger of electric bus, it is characterized in that: comprise charge power cabinet (16), ground (1), 2 positive pole stationary pipes (2), 2 negative pole stationary pipes (3), positive pole busbar (4) and cathode bus bar (5), described charge power cabinet (16) is for being the direct current (DC) mated with electronlmobil by industrial three-phase 380 volts of AC conversion, described charge power cabinet (16) comprises cabinet (19) further, front door (20), left-hand door plate (21) and right door-plate (22), described cabinet (19) is disposed with charging module district (23) from top to bottom, center-control district (24) and the electric district of input/output terminal (25), described charging module district (23) is for changing industrial alternating current into direct current (DC), this center-control district (24) is respectively by upper, lower plywood (261, 262) with charging module district (23), input/output terminal electrically separates from (25),

Described left-hand door plate (21), the charging module district (23) that right door-plate (22) and front door (20) are installed on cabinet (19) is respectively left, right side is with above, described left-hand door plate (21), right door-plate (22) and front door (20) circumferentially marginarium are provided with foaming sealing band (27), described charging module district (23) is left, right side and above circumferentially fringe region be provided with guiding gutter (28), described left-hand door plate (21), under right door-plate (22) and front door (20) are in closed condition, described foaming sealing band (27) is pressed on the front end face of guiding gutter (28) hermetically, described left-hand door plate (21), the lower surface of right door-plate (22) and front door (20) has several door-plate weepers (30), described guiding gutter (28) lower surface has several cabinet weepers (31),

Described positive pole stationary pipes (2), negative pole stationary pipes (3) are all fixed on ground (1), 2 positive pole cross bars (6) are vertically fixed with between 2 positive pole stationary pipes (2), a positive pole montant (7) is fixed with between these 2 positive pole cross bars (6), vertically be fixed with 2 negative pole cross bars (8) between 2 negative pole stationary pipes (3), between these 2 negative pole cross bars (8), be fixed with a negative pole montant (9);

It is upper and vertically with positive pole montant (7) to arrange that positive pole montant (7) is fixed in one positive pole horizon bar (10) one end, it is upper and vertically with negative pole montant (9) to arrange that negative pole montant (9) is fixed in one negative pole horizon bar (11) one end, described positive pole busbar (4) is installed on positive pole horizon bar (10), negative pole horizon bar (11) respectively by 2 high-tension insulators (12), and described cathode bus bar (5) is installed on positive pole horizon bar (10), negative pole horizon bar (11) respectively by 2 high-tension insulators (12);

One electrode cable (13) is installed in positive pole stationary pipes (2), one negative pole cable (14) is installed in negative pole stationary pipes (3), the mouth being positioned at negative pole cable (14) one end is electrically connected with cathode bus bar (5), negative pole cable (14) other end is connected to charge power cabinet (17), the mouth being positioned at electrode cable (13) one end is electrically connected with positive pole busbar (4), electrode cable (13) other end is connected to charge power cabinet (17), in described 2 positive pole stationary pipes (2), at least one positive pole stationary pipes (2) is provided with the first discharging rod (17), in described 2 negative pole stationary pipes (3), at least one negative pole stationary pipes (3) is provided with the second discharging rod (18),

One electrode cable (13) is installed in positive pole stationary pipes (2), the mouth being positioned at electrode cable (13) one end is electrically connected with positive pole busbar (4), one negative pole cable (14) is installed in negative pole stationary pipes (3), and the mouth being positioned at negative pole cable (14) one end is electrically connected with cathode bus bar (5);

The upper end of one arc anode-supported bar (16) is connected with positive pole horizon bar (10), and its lower end is connected with positive pole montant (7), and the upper end of an arc cathode-supported bar (17) is connected with negative pole horizon bar (11), and its lower end is connected with negative pole montant (9);

Described high-tension insulator (12) comprises cylindrical body (121), 2 tops umbrella insolator disc (122), 2 tops umbrella insolator disc (123) and middle parts umbrella insolator disc (124), the diameter of described middle part umbrella insolator disc (124) is greater than the diameter at top umbrella insolator disc (122), and secondary top umbrella insolator disc (123) diameter is less than top umbrella insolator disc (122) diameter;

Described 2 tops umbrella insolator disc (122) lay respectively at cylindrical body (121) top, described middle part umbrella insolator disc (124) is positioned at cylindrical body (121) middle part, in 2 tops umbrella insolator disc (123), one is positioned between top umbrella insolator disc (122) and middle part umbrella insolator disc (124), and another time top umbrella insolator disc (123) is positioned between another top umbrella insolator disc (122) and middle part umbrella insolator disc (124).

2. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: 2 described positive pole cross bars (6) be arranged in parallel, and 2 described negative pole cross bars (8) be arranged in parallel.

3. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: described positive pole busbar (4), cathode bus bar (5) be arranged in parallel.

4. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: described electrode cable (13) is embedded in positive pole stationary pipes (2), and described negative pole cable (14) is embedded in negative pole stationary pipes (3).

5. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: a mounting seat (29) is positioned at immediately below the electric district of input/output terminal (7).

6. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: the flange portion (125) being positioned at described cylindrical body (121) two ends is connected with positive pole horizon bar (10), negative pole horizon bar (11) and positive pole busbar (4), cathode bus bar (5) by bolt.

7. the big current quick charger being applied to electric bus according to claim 1, is characterized in that: described input/output terminal electrically separates and is made up of the electric subarea of input side by side (251) and the electric subarea of output (252) from (25).