CN115534722A

CN115534722A - Special charging bag for charging device and charging device

Info

Publication number: CN115534722A
Application number: CN202211361184.5A
Authority: CN
Inventors: 顾超; 于继源; 葛国成
Original assignee: Ningbo Fujiayi Intelligent Technology Co ltd
Current assignee: Ningbo Fujiayi Intelligent Technology Co ltd
Priority date: 2022-10-31
Filing date: 2022-10-31
Publication date: 2022-12-30

Abstract

The invention discloses a charging pack special for a charging device and the charging device, belongs to the charging technology in the technical field of new energy automobiles, and aims to solve the technical problems that a charging wire is complex in winding structure and poor in winding uniformity and stability in the prior art. The utility model provides a package that charges includes casing, charging wire, is provided with the take-up stand in the inside cavity of casing, installs on the inner wall of the incoming line side of casing and send the line roller set, has seted up the guide way in the casing, and under the effect of guide way, the charging wire is rolled up in the take-up stand gradually along the outside outer fringe of take-up stand to inboard inner edge. This application sets up the guide way on the lateral wall of the incoming line side of package that charges to under the effect of guide way, the charging wire is led to in the outside of take-up stand, outer fringe, and along with the gradual inward input of charging wire, and drive the take-up stand rotation, and with the charging wire from the outside outer fringe of take-up stand to the inboard inner edge rolling gradually.

Description

Special charging bag for charging device and charging device

Technical Field

The invention belongs to the technical field of new energy automobiles, relates to a charging technology of a new energy automobile, and particularly relates to a special charging pack for a charging device and the charging device.

Background

With the continuous development of science and technology and the improvement of the living standard of people, the quantity of automobile ownership is increased rapidly, and along with the rapid increase of fuel automobiles, the problem of environmental pollution caused by the combustion of fossil fuel in the fuel automobiles is also gradually highlighted. Along with the non-renewable and day-by-day reduction of fossil fuels and the problem of environmental pollution caused by fuel-powered vehicles, new energy vehicles, especially electric vehicles, i.e., electric drive vehicles, are widely favored because they replace fuel with electricity, which is green and energy-saving and has low electricity consumption cost.

The electric automobile is mainly driven by electric power, the storage battery is charged in a charging mode, then the storage battery supplies electric power when the automobile runs, and the charging of the electric automobile is usually completed by the charging pile. The charging pile has the function similar to that of an oiling machine in a gas station, can be fixed on the ground or on the wall, is installed in public buildings (public buildings, shopping malls, public parking lots and the like) and residential area parking lots or charging stations, and can charge various types of electric vehicles according to different voltage levels. The input end of the charging pile is directly connected with an alternating current power grid, and the output end of the charging pile is provided with a charging plug for charging the electric automobile.

In order to accomplish better and charge, and avoid the mixed and disorderly influence of arranging of charging wire to use, the charging wire that fills electric pile that has now mostly all is retractable. When charging is needed, the charging wire is output through the winding structure; after charging, in charging the stake with unnecessary charging wire rolling. For example, utility model patent that application number is 201921024084.7 just discloses a can fill electric pile to the removal of charging wire rolling, including filling the electric pile body, the front and the back of filling the electric pile body all are provided with moving mechanism, fill the left side fixedly connected with controller of electric pile body, fill the top fixedly connected with containing box of electric pile body, the left side fixedly connected with motor of containing box, motor shaft's right-hand member runs through to containing box's inner chamber and fixedly connected with violently manages, the right-hand member cover of violently managing is equipped with the baffle, the slot hole has been seted up at containing box's top, the surface winding of violently managing is provided with the charging wire. During the use, the operation of controller control motor, the pivot of motor drives violently the rotation of pipe, violently the pipe rotation twines and accomodates the charging wire, the one end that the rifle that charges was kept away from to the charging wire runs through to the inner chamber of violently managing, the inner chamber that extends to the containing box from the right-hand member of violently managing and runs through to the inner chamber of filling the electric pile body, violently the pipe right-hand member can not twine to lieing in charging pile body inner chamber one end charging wire at rotatory in-process, only can twine the charging wire that lies in the containing box inner chamber, can not make the charging wire expose in an disorderly chapter externally, the orderly of the charging wire of being convenient for accomodates and protects. This type charging pile that charging wire can be rolled up though can realize the rolling of charging wire, but at the in-process of authorizing, because the incoming line is fixed, and does not have under supplementary winding mechanism's the help, more rolling of line, pile up in incoming line department, influence follow-up charging wire rolling. Therefore, like utility model patent with application number 201820322274.6 discloses a can receive electric pile that fills of rolling up charging wire, is provided with the guide frame on branch, and the epaxial charging wire of rolling up passes the back from the guide frame, passes the charging wire mouth again. When the winding shaft rotates automatically, the sliding block is driven by the lead screw to move, and the guide frame also moves together. When the charging wire rolling, the guide frame that removes together with the slider forces the charging wire can not twine on the rolling axle layer upon layer, and laminates with the surface of rolling axle all the time, and the rolling is even promptly, and the rolling is respond well.

However, this type of fill electric pile is provided with charging wire winding mechanism usually and is used for the rolling charging wire, and in order to make the rolling more even, charging wire evenly winds on winding mechanism, often can increase supplementary guiding mechanism, and this just makes whole winding mechanism structure comparatively complicated, and manufacturing cost increases, and the even stability of charging wire rolling is worse.

Disclosure of Invention

The invention aims to: in order to solve the technical problems that a charging wire winding structure is complex and winding uniformity and stability are poor in the prior art, the invention provides a charging pack special for a charging device and the charging device.

The invention specifically adopts the following technical scheme for realizing the purpose:

the utility model provides a special package that charges of charging device, which comprises a housin, the charging wire, be provided with in the inside cavity of casing can be in the casing free rotation's take-up stand, install on the inner wall of the inlet wire side of casing and send the line roller set, the guide way has been seted up with on the lateral wall of sending line roller set homonymy in the casing, charging wire one end is connected with the rifle that charges, the other end of charging wire passes and sends the line roller set and drive the charging wire removal by sending the line roller set, under the effect of guide way, the charging wire rolls up gradually in the take-up stand along the outside outer fringe to inboard inner edge of take-up stand, and the tip of charging wire passes behind the casing and communicates with external power supply feeding device.

Preferably, the take-up stand comprises a central plate arranged far away from the inlet side of the shell, an outer edge framework and a tail end framework are arranged on the inlet side of the central plate close to the shell, a plurality of connecting frameworks are uniformly distributed on the central plate along the circumferential direction of the central plate, each connecting framework is connected with the outer edge framework and then connected with the tail end framework in a surrounding mode around the outer edge framework, an electric wire winding accommodating area is formed in an area surrounded by the central plate, the outer edge framework, the tail end framework and the connecting frameworks, and the area surrounded by the tail end frameworks is a winding inlet area for charging wires to enter the take-up stand.

The charging device comprises an installation carrier, wherein a charging pack is installed on the installation carrier, and the charging pack adopts the charging pack.

Preferably, the mounting carrier is a ground, a wall surface, a column or a ceiling, and the charging pack is fixedly mounted on the mounting carrier.

Preferably, the installation carrier is an electricity getting guide rail, and the charging bag is installed on the electricity getting guide rail and can move along the length direction of the electricity getting guide rail.

The invention has the following beneficial effects:

1. according to the invention, a wire feeding roller set and a wire collecting frame are arranged in a charging bag, the wire feeding roller set is a driving part, the wire collecting frame is a driven part, on the basis, a guide groove is formed in the side wall of the wire feeding side of the charging bag, when charging wires are stored inwards through the wire feeding roller set, the wire feeding roller set drives the charging wires with certain hardness and deflection to move into the charging bag, and under the action of the guide groove, the charging wires are guided to the outer side (namely, the side far away from the wire feeding side of the charging bag) and the outer edge (namely, the direction far away from the central shaft) of the wire collecting frame, and are gradually input inwards along with the charging wires, the wire collecting frame is driven to rotate, and the charging wires are gradually wound from the outer edge of the outer side of the wire collecting frame to the inner edge of the inner side of the wire collecting frame. On one hand, the charging wires can be uniformly wound on the winding frame without configuring other accessory devices, so that the situation that the charging wires are wound on a certain position of the winding frame in a centralized manner is not easy to occur, and the production and manufacturing costs are lower; on the other hand, the charging wire is wound from outside to inside on the winding frame, and the size of the outer ring is larger, so that the winding efficiency of the charging wire is higher.

2. According to the invention, the take-up stand consists of the central plate, the outer edge framework, the tail end framework and the connecting framework, so that the whole take-up stand is light in weight, the weight of the whole charging bag is effectively reduced, and the stability of movement and operation of the charging bag on the power taking guide rail is ensured; each connecting framework is connected with the tail end framework between the outer edge of the central plate and the outer edge framework after bypassing the outer edge framework on the outermost side from the central plate on the outer side, and the outer side and the outer edge of the whole take-up frame can be used for winding charging wires, so that more charging wires can be wound; the coiling of enclosing into the region at terminal skeleton for supplying the charging wire to get into the admission area of take-up stand, the entering of charging wire when the rolling of being convenient for improves rolling efficiency.

Drawings

FIG. 1 is a schematic view of the connection of a charging pack to a channel guide rail according to the present invention;

FIG. 2 is a schematic view of the charging gun of the present invention rolled in a charging bag;

FIG. 3 is a schematic view of the charging gun of the present invention located outside the charging pack;

FIG. 4 is a schematic structural view of a take-up stand according to the present invention;

FIG. 5 is a schematic structural view of a take-up stand according to the present invention;

wherein the reference numerals are: 1-charging bag, 2-power-taking guide rail, 5-charging mark, 11-shell, 12-guide groove, 13-take-up reel, 14-charging wire, 15-wire feeding roller set, 16-limiting plate, 17-charging gun, 18-wire-blocking-preventing projection, 131-winding inlet area, 132-central plate, 133-outer edge framework, 134-tail end framework, 135-connecting framework and 136-wire winding accommodating area.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A charging device comprises an installation carrier and a charging bag. The mounting carrier is mainly used for mounting a charging pack and is used as a carrier for mounting the charging pack.

The mounting carrier can be the ground, the wall surface, the upright post or the ceiling of a parking lot, and is mainly used for mounting and fixing a charging bag. Of course, the installation carrier may also be a power-taking guide rail, one end/side of the power-taking guide rail is fixedly installed on the ground, the wall surface, the upright post or the ceiling of the parking lot, a charging bag is installed at the other end/side of the power-taking guide rail, the charging bag can move on the power-taking guide rail along the length direction of the power-taking guide rail, and the charging bag stops at the position corresponding to the parking space according to the charging requirement.

It should be noted that, since the charging pack in the present application needs to move on the power-taking guide rail on one hand and needs to be electrically connected with the power-taking guide rail circuit on the other hand, external electric energy is transmitted to the charging pack via the power-taking guide rail, and the structure and connection relationship between the charging pack and the power-taking guide rail are particularly important, but the core innovation point of the present application is not the structure and connection relationship between the power-taking guide rail and the charging pack, which can be achieved by using the prior art, for example, the structure and connection relationship disclosed in fig. 1 of the invention patent application with the application number of 202210314850.3; of course, the mechanism of the power-taking guide rail in the patent application entitled "charging guide rail, power-taking guide rail and charging device" filed in the same batch as the present application may also be adopted.

This charging pack 1 includes:

the shell 11 is mainly an outer shell of the charging bag 1, and the outer shell is formed by buckling a left shell 11 and a right shell 11, and a cavity is formed in a cavity inside the shell 11. The cavity in the shell 11 comprises a cavity for placing the take-up stand 13 and a cavity for placing the charging gun 17.

The charging wire 14 is used for transmitting electric energy, one end of the charging wire passes through the shell 11 and is connected and conducted (conducting is to say, the circuit is connected, and power can be transmitted) with the power taking guide rail 2 after passing through the mobile vehicle body 4, and the electric energy received by the conductive column 41 is transmitted to the charging wire 14; the other end of the charging gun 17 is connected to transmit the electric energy transmitted from the conductive post 41 to the battery of the electric vehicle.

The wire winding frame 13 is mainly used for winding and accommodating wires, is installed in a cavity of the shell 11, and is used for placing the wire winding frame 13, and the wire winding frame 13 can rotate in the shell 11.

And the wire feeding roller set 15 is installed on the inner wall of the wire inlet side of the shell 11, and the charging wire 14 penetrates through the wire feeding roller set 15 and then is wound in the take-up frame 13. The wire feeding roller set 15 comprises two wire feeding rollers which are driven by a driving motor of the charging pack 1 through a gear set to rotate synchronously.

In addition, a guide groove 12 is further formed in the feeding side of the shell 11, and the depth of the guide groove 12 is gradually reduced along the direction close to the take-up stand 13. Under the action of the guide groove 12, the charging wire 14 is guided to the outer side and the outer edge of the take-up frame 13, that is, the charging wire 14 is firstly wound on the outer side and the outer edge of the take-up frame 13 and then is gradually wound on the inner side and the inner edge.

What need remind, in this scheme, send line roller set 15 to be the driving part, take-up frame 13 is the follower, send line roller set 15 to drive charging wire 14 and remove in casing 11 or outside casing 11, charging wire 14 that has certain intensity becomes crooked in take-up frame 13, outwards prop up the state at the electric wire inner wall of 13 inner walls of take-up frame or the electric wire inner wall of having received the book, at the in-process of 14 inside rolling or outside output of charging wire, all will drive the take-up frame 13 rotatory, thereby be convenient for more charging wire 14 of rolling or export the charging wire 14 of rolling.

Preferably, a specific structure of the take-up stand 13 is also provided.

This take-up stand 13 includes:

and a central plate 132 for connecting with the rotating shaft of the take-up reel 13 and rotating together with the rotating shaft of the take-up reel 13 in the charging pack 1.

The outer edge frame 133 is a ring structure, the inner diameter of the outer edge frame 133 is larger than the outer diameter of the central plate 132, the outer edge frame 133 is coaxial but not coplanar with the central plate 132, and the outer edge frame 133 is located between the central plate 132 and the thread feeding roller set 15.

The end frame 134 is a ring structure, the inner diameter of the end frame 134 is larger than the outer diameter of the central plate 132, the outer diameter of the end frame 134 is smaller than the inner diameter of the outer edge frame 133, the outer edge frame 133 is coaxial with the outer edge frame 133 and the central plate 132 but not coplanar with each other, and the outer edge frame 133 is located between the central plate 132 and the end frame 134.

The connecting frameworks 135 are provided with a plurality of connecting frameworks 135, and the connecting frameworks 135 are uniformly distributed along the circumferential direction of the central plate 132 and radially distributed outwards. Each of the connecting frames 135 has one end fixedly connected to the center plate 132 and the other end connected to the end frame 134 by being connected to the outer frame 133 and then bypassing the outer frame 133.

After the outer edge bobbin 133, the end bobbin 134 and the connecting bobbin 135 are connected in the above manner, an electric wire winding accommodating area 136 for accommodating the charging wire 14 is formed in an area surrounded by the central plate 132, the outer edge bobbin 133, the end bobbin 134 and the connecting bobbin 135, and the area surrounded by the end bobbin 134 is a winding inlet area 131 for allowing the charging wire 14 to enter the winding frame 13.

When the charging bag 1 is put down the charging gun 17, the winding motor on the charging bag 1 drives the wire feeding roller set 15 to rotate, the rotating wire feeding roller set 15 drives the charging wire 14 to output outwards, and the winding frame 13 is driven to rotate in the output process. When the charging gun 17 is rolled up by the charging bag 1, the winding motor on the charging bag 1 drives the wire feeding roller set 15 to rotate reversely, the rotating wire feeding roller set 15 drives the charging wire 14 to input inwards, and the winding frame 13 is driven to rotate in the input process; in the process that the charging wire 14 drives the winding frame 13 to rotate, under the action of the guide groove 12, the charging wire 14 firstly clings to the outer side and the outer edge of the winding frame 13, and is gradually wound in the winding frame 13 from the outer edge of the winding frame 13 to the inner edge of the winding frame.

Example 2

On the basis of the above embodiment, in order to avoid the charging wire 14 from being jammed in the winding or outputting process, a limiting plate 16 is further disposed on the inner wall of the wire inlet side of the housing 11, the limiting plate 16 is located between the wire feeding roller set 15 and the guide groove 12, and a threading area through which the charging wire 14 can pass is formed between the limiting plate 16 and the inner wall of the wire inlet side of the housing 11.

A limiting plate 16 is arranged in the shell 11, under the action of the limiting plate 16, the charging wire 14 can only pass through a threading area between the limiting plate 16 and the inner wall of the shell 11, and then the charging wire 14 can be guided into the take-up stand 13 through the guide groove 12; under limiting plate 16's effect, make charging wire 14 can be better in the leading-in receipts line machine of charging wire 14 through guide way 12 on the one hand, on the other hand also can effectively avoid charging wire 14 too near the rolling entry zone 131 of take-up stand 13, avoids charging wire 14 card line when the rolling.

In addition, as a preferable mode, the inner wall of the incoming line side of the housing 11 is further provided with a line-blocking prevention protrusion 18, and the line-blocking prevention protrusion 18 is located below the line passing area.

The inner wall of inlet wire side at casing 11 still is provided with anti-sticking line arch 18, can effectively avoid going into between take-up stand 13 and the 11 inner walls of casing at 14 card income charging wires through setting up anti-sticking line arch 18, effectively avoids between 14 card income take-up stand 13 and the 11 inner walls of casing of charging wire when emitting charging wire 14, charging wire 14 winding influences the appearance on the rotation axis of take-up stand 13.

Example 3

Get and be provided with charging identification 5 corresponding every parking stall on the electric guide rail 2, charging identification 5 and the package 1 signal connection that charges.

The position of getting the electric guide rail 2 and corresponding the parking stall is provided with inductive switch, is provided with the inductor with inductive switch looks adaptation on the package that charges 1, and the sign of charging 5 all with the package that charges 1, inductive switch signal connection.

The charging identifier 5 and the inductive switch are mainly used for controlling the charging package 1 to move on the power taking guide rail 2, a charging request is initiated through the charging identifier 5, and the control system controls the charging package 1 to move on the power taking guide rail 2 according to the charging request and stops at a parking space corresponding to the charging identifier 5. On the basis, the azimuth information of the adjacent inductive switches can be further correlated, namely the adjacent inductive switches and the information of whether the adjacent inductive switches are positioned on the left or the right are correlated, a charging request is initiated through the charging identifier 5, and the control system controls the corresponding inductive switch and the previous or/and next inductive switch to start induction according to the charging request and the correlated information. When the inductor on the charging bag 1 induces the first inductive switch on the electricity getting guide rail 2, the charging bag 1 starts to decelerate; when the inductor on the charging bag 1 induces the second inductive switch on the power taking guide rail 2, the charging bag 1 stops moving.

Claims

1. The utility model provides a special charging package of charging device which characterized in that: including casing (11), charging wire (14), be provided with in the inside cavity of casing (11) and can be in casing (11) free rotation's take-up stand (13), install on the inner wall of the inlet wire side of casing (11) and send line roller set (15), guide way (12) have been seted up on the lateral wall with sending line roller set (15) homonymy in casing (11), charging wire (14) one end is connected with charging gun (17), the other end of charging wire (14) passes and send line roller set (15) and drive charging wire (14) by sending line roller set (15) and remove, under the effect of guide way (12), charging wire (14) are rolled up gradually in take-up stand (13) along the outside outer fringe of take-up stand (13) to inboard inner edge, and the tip of charging wire (14) passes behind casing (11) and external power supply device intercommunication.

2. The charging pack dedicated for the charging device according to claim 1, wherein: the wire winding frame (13) comprises a central plate (132) far away from the wire inlet side of the shell (11), an outer edge framework (133) and a tail end framework (134) are arranged on the wire inlet side, close to the shell (11), of the central plate (132), a plurality of connecting frameworks (135) are evenly distributed on the central plate (132) in the circumferential direction of the central plate (132), each connecting framework (135) is connected with the outer edge framework (133) and then connected with the tail end framework (134) in a surrounding mode around the outer edge framework (133), an electric wire winding accommodating area (136) is formed in an area surrounded by the central plate (132), the outer edge framework (133), the tail end framework (134) and the connecting frameworks (135), and the winding inlet area (131) of the wire winding frame (13) is formed in an area surrounded by the tail end framework (134) for charging wires (14) to enter.

3. A charging device, comprising a mounting carrier, a charging pack (1) is mounted on the mounting carrier, and the charging pack (1) adopts the charging pack as claimed in claim 1 or 2.

4. A charging device as claimed in claim 3, wherein: the mounting carrier is a ground, a wall surface, a stand column or a ceiling, and the charging bag (1) is fixedly mounted on the mounting carrier.

5. A charging device as claimed in claim 3, wherein: the installation carrier is an electricity getting guide rail (2), and the charging bag (1) is installed on the electricity getting guide rail (2) and can move along the length direction of the electricity getting guide rail (2).