CN110481357A

CN110481357A - Scissor-type pushes charging bow

Info

Publication number: CN110481357A
Application number: CN201910813210.5A
Authority: CN
Inventors: 李春丰; 刘靖
Original assignee: DALIAN RUOBINSEN POWER SUPPLY EQUIPMENT Co Ltd
Current assignee: DALIAN RUOBINSEN POWER SUPPLY EQUIPMENT Co Ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2019-11-22

Abstract

Scissor-type pushes charging bow, including mounting base, transmission mechanism, elevating mechanism and electrode plate combined mechanism, scissor-type of the invention pushes charging bow, the bow that charges uses crossing type lifting apparatus, and charging bow is contacted with the electrode plate of vehicle-mounted pantograph by the up and down motion drive electrode plate of crossing type lifting apparatus to be embodied as electric car and charge.Structure is simple, stable；Crossing type lifting apparatus has enough precompressions when running, and electrode plate can be made tightly to contact with vehicle-mounted pantograph electrode plate, avoids generating electrode plate poor contact phenomenon of arc discharge, to ensure that the performance and used life of electric car charging bow and battery.

Description

Scissor-type pushes charging bow

Technical field

The present invention relates to pure electric automobile technical fields, and in particular to electric motor car charging equipment.

Background technique

Electric car uses electric energy as power source, and the automobile travelled by motor drive belongs to new-energy automobile, wraps Pure electric automobile (BEV), mixed power electric car (HEV) and fuel cell electric vehicle (FCEV) are included, due to its feature of environmental protection, It has been more and more widely used.

Charging bow is electric locomotive charging equipment, is mounted in charging rack, matches with vehicle-mounted pantograph, traditional fills Pantograph the case where electrode plate is easy to produce poor contact in use, to generate phenomenon of arc discharge, affect charging equipment And the performance and used life of battery.

Summary of the invention

Bend the existing above problem to solve tradition charging, the present invention provides a kind of scissor-types to push charging bow.

Present invention technical solution used for the above purpose is: scissor-type pushes charging and bends, including mounting base 14, Transmission mechanism 18, elevating mechanism 19 and electrode plate combined mechanism 20 are fixed on the inside of the frame-type mounting base 14 on charging rack and put down Row installs two linear guides 5, is located between two parallel lines guide rails 5 in mounting base 14 and installs transmission mechanism 18, driver The servo motor 2 of structure 18 connects on double output shaft speed reducer 3, and 3 two sides output shaft of double output shaft speed reducer installs ball wire respectively Bar 4, be slidably installed bracket 6 respectively between two line slide rails 5 of 18 two sides of transmission mechanism, on the inside of two brackets 6 respectively Ball-screw nut 17 is installed, the ball screw 4 of 3 two sides of double output shaft speed reducer extends transversely through peace by ball-screw nut 17 Loaded in bracket 6；Two 6 lower parts of bracket connect elevating mechanism 19, and elevating mechanism 19 is that two parallel push rods of front and back connect knot Structure passes through rotary shaft interconnection, former and later two pusher structures in the middle part of two push rods 7 of the same layer of each push stick connecting structure Middle layer is flexibly connected with 7 end of push rod of layer junction by axis 8；19 lower end connection electrode plate combined mechanism 20 of elevating mechanism, Former and later two 11 lower parts of electrode board mount of electrode plate combined mechanism 20 are installed by electrode plate 12.

Link block 16 is fixedly mounted in 6 lower part of bracket, and ball-screw nut 17 is installed in two 16 insides of link block respectively, The ball screw 4 of 3 two sides of double output shaft speed reducer is extended transversely through by ball-screw nut 17 and is installed in link block 16.

The upper end of 19 four push rods 7 of top layer of elevating mechanism is individually fixed in 16 front side of link block and rear side.

Mounting bracket 1 for connecting charging rack is installed on 14 frame of mounting base.

Described two 11 tops of electrode board mount pass through supporting block 22 respectively and install drag chain bracket 10, former and later two motor plates Balance shaft 13 is installed between the supporting block 22 at middle part, the rotating shaft terminal of elevating mechanism 19 passes through connection respectively on bracket 11 Plate 23 is fixed in balance shaft 13.

Insulator 21 is installed between the electrode board mount 11 and electrode plate 12.

Straight-line guide rail slide block 15 is installed with 5 contact position of linear guide on the downside of 6 both ends of bracket.

Scissor-type of the invention pushes charging bow, and charging bow uses crossing type lifting apparatus, and charging bow passes through scissor-type liter The up and down motion of falling unit drives electrode plate to be contacted with the electrode plate of vehicle-mounted pantograph to be embodied as electric car and charge.Knot Structure is simple, stable；Crossing type lifting apparatus has enough precompressions when running, and can make electrode plate and vehicle-mounted pantograph electricity Pole plate tightly contacts, and avoids generating electrode plate poor contact phenomenon of arc discharge, to ensure that electric car charging bow and battery Performance and used life.

Detailed description of the invention

Fig. 1 is that scissor-type of the present invention pushes charging bow overall structure figure.

Fig. 2 is that scissor-type of the present invention pushes charging bow overall structure figure.

Fig. 3 is that scissor-type of the present invention pushes charging bow mounting base part-structure figure.

Fig. 4 is that scissor-type of the present invention pushes charging bow elevating mechanism part-structure figure.

Fig. 5 is that scissor-type of the present invention pushes charging bow electrode plate combination mechanism section structure chart.

Fig. 6 is that scissor-type of the present invention pushes charging bow rising bow structure graph.

Fig. 7 is that scissor-type of the present invention pushes charging bow drop bow structure graph.

In figure: 1, mounting bracket, 2, servo motor, 3, double output shaft speed reducer, 4, ball screw, 5, linear guide, 6, Bracket, 7, push rod, 8, axis, 9, bearing, 10, drag chain bracket, 11, electrode board mount, 12, electrode plate, 13, balance shaft, 14, installation Seat, 15, straight-line guide rail slide block, 16, link block, 17, ball-screw, 18, transmission mechanism, 19, elevating mechanism, 20, electrode plate groups Close mechanism, 21, insulator, 22, supporting block, 23, connecting plate.

Specific embodiment

Scissor-type pushing charging bow structure of the invention is as depicted in figs. 1 and 2, including mounting base 14, transmission mechanism 18, liter Descending mechanism 19 and electrode plate combined mechanism 20,14 structure of mounting base mainly charge bow fixed with charging rack and drive mechanism with fill The fixed function of pantograph.Transmission mechanism 18 is mainly by servo motor 2, double output shaft speed reducer 3, linear guide 5 and ball wire Bar 4 and its attachment composition, major function is power output, moves ball screw nut along certain direction.Lifting Mechanism 19 is mainly made of push rod 7, link block 16, axis 8 and its attachment, and major function is the work of rise and landing electrode plate 12 With, electrode combined mechanism 20 mainly by electrode plate 12, drag chain bracket 10, electrode board mount 11, drag chain and balance shaft 13 and its attached Part composition, main function is that conducting wire is fixed by drag chain and electrode plate, electrode plate by the movement of lifting device with it is vehicle-mounted by Pantograph electrode plate combines, and completes the process that charger is electric locomotive charging.

As shown in figure 3, installing the mounting bracket 1 for connecting charging rack on 14 frame of mounting base, it is fixed on charging rack 14 inside parallel of frame-type mounting base two linear guides 5 are installed, be located between two parallel lines guide rails 5 in mounting base 14 Transmission mechanism 18 is installed, the servo motor 2 of transmission mechanism 18 connects on double output shaft speed reducer 3,3 two sides of double output shaft speed reducer Output shaft installs ball screw 4 (ball screw is left-handed and dextrorotation) respectively, and two straight lines positioned at 18 two sides of transmission mechanism are sliding Be slidably installed bracket 6 respectively between rail 5, and bracket 6 is structure of the middle part to lower recess, installs straight line on the downside of two shoulders of bracket 6 Guide rail slide block 15, bracket 6 are slided on line slide rail 5 by straight-line guide rail slide block 15.Link block is fixedly mounted in 6 lower part of bracket 16, ball-screw nut 17 is installed in two 16 insides of link block respectively, and the ball screw 4 of 3 two sides of double output shaft speed reducer passes through Ball-screw nut 17, which extends transversely through, to be installed in link block 16；Two 6 lower parts of bracket connect elevating mechanism 19, as shown in figure 4, Elevating mechanism 19 is two parallel push stick connecting structure of front and back, in two push rods 7 of the same layer of each push stick connecting structure Portion is connected by rotary shaft interconnection, 7 end of push rod in former and later two pusher structure middle layers and layer junction by 8 activity of axis It connects, the upper end of 19 four push rods 7 of top layer of elevating mechanism is individually fixed in 16 front side of link block and rear side；19 lower end of elevating mechanism Connection electrode plate combined mechanism 20, as shown in figure 5, two 11 tops of electrode board mount pass through supporting block 22 respectively installs drag chain branch Frame 10 is located on former and later two motor board mounts 11 between the supporting block 22 at middle part and installs balance shaft 13, the rotation of elevating mechanism 19 Both ends of the shaft passes through connecting plate 23 respectively and is fixed in balance shaft 13, installs insulator between electrode board mount 11 and electrode plate 12 21。

Working principle: when 2 power output of servo motor is to double output shaft speed reducer 3, two of double output shaft speed reducer 3 Output shaft drives ball screw 4 to rotate, and ball screw nut 17 drives lifting device 7, link block 16 and bracket 6 to lead along straight line The direction of rail 5 is moved, to make to realize stretching motion between every layer of push rod of lifting device 7, cause scissor lifting device into Row work drives 12 device of electrode plate to be moved upwardly or downwardly.In the middle part of push rod 7 in crossing type lifting apparatus connect rotary shaft with The rotation portion of end connecting shaft 8 is connected with bearing 9, and conducting wire drag chain is fixed after passing through from mounting bracket into drag chain bracket 10 It on electrode plate 12, is connected between electrode plate 12 and electrode board mount 10 with insulator 21, electrode plate composite structure and scissor-type It is connected between lifting device with balance shaft 13, scissor-type pressure charging bends rising bow state and drops arciform state referring to figure 6 and figure 7.

The present invention is described by embodiment, and those skilled in the art know, is not departing from spirit of the invention In the case where range, various changes or equivalence replacement can be carried out to these features and embodiment.In addition, in religion of the invention It leads down, can modify to these features and embodiment to adapt to particular situation and material without departing from essence of the invention Mind and range.Therefore, the present invention is not limited to the particular embodiment disclosed, fallen with claims hereof Embodiment in range belongs to protection scope of the present invention.

Claims

1. scissor-type push charging bow, it is characterised in that: including mounting base (14), transmission mechanism (18), elevating mechanism (19) and Electrode plate combined mechanism (20), frame-type mounting base (14) inside parallel being fixed on charging rack install two linear guides (5), it is located in mounting base (14) between two parallel lines guide rails (5) and transmission mechanism (18) is installed, transmission mechanism (18) is watched It takes in motor (2) connection double output shaft speed reducer (3), double output shaft speed reducer (3) two sides output shaft installs ball screw respectively (4), it is slidably installed respectively bracket (6) between two line slide rails (5) of transmission mechanism (18) two sides, two brackets (6) Inside is installed ball-screw nut (17) respectively, and the ball screw (4) of double output shaft speed reducer (3) two sides passes through ball-screw spiral shell Female (17), which extend transversely through, to be installed in bracket (6)；Two bracket (6) lower parts connect elevating mechanism (19), and elevating mechanism (19) is Two push rods (7) middle part of two parallel push stick connecting structure of front and back, the same layer of each push stick connecting structure passes through rotation Axis interconnection, former and later two pusher structure middle layers are flexibly connected with push rod (7) end of layer junction by axis (8)；Lifting Mechanism (19) lower end connection electrode plate combined mechanism (20), former and later two electrode board mounts (11) of electrode plate combined mechanism (20) Lower part is installed by electrode plate (12).

2. scissor-type according to claim 1 pushes charging bow, it is characterised in that: bracket (6) lower part is fixedly mounted Ball-screw nut (17) are installed respectively in link block (16), two link blocks (16) insides, double output shaft speed reducer (3) two sides Ball screw (4) is extended transversely through by ball-screw nut (17) to be installed in link block (16).

3. scissor-type according to claim 2 pushes charging bow, it is characterised in that: elevating mechanism (19) top layer four The upper end of a push rod (7) is individually fixed on front side of link block (16) and rear side.

4. scissor-type according to claim 1 pushes charging bow, it is characterised in that: installed on mounting base (14) frame For connecting the mounting bracket (1) of charging rack.

5. scissor-type according to claim 1 pushes charging bow, it is characterised in that: on described two electrode board mounts (11) Portion passes through supporting block (22) installation drag chain bracket (10) respectively, and the supporting block at middle part is located on former and later two motor board mounts (11) (22) balance shaft (13) are installed between, the rotating shaft terminal of elevating mechanism (19) passes through connecting plate (23) respectively and is fixed on balance shaft (13) on.

6. scissor-type according to claim 5 pushes charging bow, it is characterised in that: the electrode board mount (11) and electrode Insulator (21) are installed between plate (12).

7. scissor-type according to claim 1 pushes charging bow, it is characterised in that: on the downside of bracket (6) both ends and straight Line guide rail (5) contact position is installed by straight-line guide rail slide block (15).