CN112429599A

CN112429599A - Alternating-current charging stake with receive line structure

Info

Publication number: CN112429599A
Application number: CN202011313039.0A
Authority: CN
Inventors: 毛文池; 刘新昌; 周鸿成; 李朋朋; 吕振辉
Original assignee: Hesheng Shandong Intelligent Industrial Technology Research Institute Co ltd
Current assignee: Hesheng Shandong Intelligent Industrial Technology Research Institute Co ltd
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2021-03-02
Anticipated expiration: 2040-11-20
Also published as: CN112429599B; WO2022104981A1

Abstract

The invention relates to the technical field of charging piles and discloses an alternating-current charging pile with a wire winding structure. The earth surface anchoring and positioning device has the advantages that the earth surface anchoring and positioning are realized through the mounting mechanism, the firm positioning and supporting effect on the charging pile can be realized, meanwhile, the circulating wind blowing of the dust removing mechanism on the charging pile can be avoided, the situation that the charging pile is messy and seriously corroded due to the fact that external dust is scraped and dropped on the charging pile can be avoided, in the using process, the charging cable is wound in a folding mode through the winding mechanism, the traditional winding mode in a surrounding mode is replaced, and the situation that the charging cable is aged and internally connected loosely in the long-term winding process can be avoided.

Description

Alternating-current charging stake with receive line structure

Technical Field

The invention relates to the technical field of charging piles, in particular to an alternating current charging pile with a wire winding structure.

Background

The charging pile can be divided into a direct current charging pile, an alternating current charging pile and an alternating current-direct current integrated charging pile, can be fixed on the ground or on the wall, is installed in public buildings (public buildings, markets, 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.

Through retrieval, the Chinese patent network discloses a charging pile (public announcement No. CN 108544964A) with a take-up structure, which comprises a main shell, a cable and a charging gun movably inserted on the main shell, wherein a take-up cavity is arranged in the main shell, a wire outlet communicated with the take-up cavity is arranged on the main shell, a take-up column assembly which can rotate around the axis of the take-up cavity and is used for taking up and paying off the cable is arranged in the take-up cavity, one end of the cable is connected with the charging gun, the other end of the cable passes through the wire outlet and is wound on the take-up column assembly, one end of the cable wound on the take-up column assembly passes through the take-up column assembly and is fixed at the bottom of the main shell, the device realizes the adjustment of the length of the cable and the collection and the recovery of the cable by arranging the take-up column assembly, and the take-up mode is rough, and the winding mode easily damages the internal structure of the cable, so that the cable is creased and broken, and the internal connection is loose. Therefore, those skilled in the art provide an ac charging pile with a wire winding structure to solve the problems in the background art mentioned above.

Disclosure of Invention

The invention aims to provide an alternating current charging pile with a wire winding structure, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an alternating-current charging stake with take-up structure, includes the pile body that charges, the below block of the pile body that charges has installation mechanism, and the top fixedly connected with dust removal mechanism of the pile body that charges, the inboard of the pile body that charges is located bottom position department and sets up admission machine, and one side of the pile body that charges is located bottom position department and is connected with the charging cable, the top of charging cable is provided with the rifle that charges, the front surface of the pile body that charges is located top position department embedding and is provided with controls the panel.

As a still further scheme of the invention: dust removal mechanism includes the exhaust hood, both ends position department symmetry is fixed with the support post around the below of exhaust hood is located, and the inboard of exhaust hood is located bottom position department symmetry and is provided with the exhaust fan, the inboard of exhaust hood has from last to lower block in proper order just imitates dustproof filter screen, high-efficient dustproof filter screen, electrostatic isolation net, drying screen.

As a still further scheme of the invention: just imitate dustproof filter screen and high-efficient dustproof filter screen and all adopt HEPA material component, the mesh aperture of high-efficient dustproof filter screen is just imitating the half in dustproof filter screen mesh aperture.

As a still further scheme of the invention: the static isolation net is made of red copper, and the drying net is made of an activated carbon net.

As a still further scheme of the invention: the installation mechanism comprises an installation underframe, a positioning clamping seat is arranged above the installation underframe, positioning screw holes are symmetrically formed in the front side and the rear side of the positioning clamping seat, anchoring conical rods are symmetrically fixed below the installation underframe, and stop convex rings are arranged at the bottom ends of the anchoring conical rods.

As a still further scheme of the invention: the number of the anchoring conical rods is not less than two, each group of the anchoring conical rods is not less than three, and the length of each anchoring conical rod is not less than 30 cm.

As a still further scheme of the invention: the take-up mechanism comprises a take-up shell fixed at the bottom position of the inner side of a charging pile body, wherein a take-up frame is symmetrically fixed at the position of the inner side of the take-up shell positioned at the front end, a limiting clamping frame is symmetrically fixed at the position of the inner side of the take-up shell positioned at the rear end, a positioning slide bar is fixed at the position of the inner side of the take-up frame positioned at the middle part, a pressure spring is symmetrically sleeved at the outer side of the positioning slide bar, a positioning shaft sleeve is symmetrically sleeved at the top end of the pressure spring at the outer side of the positioning slide bar, a traction wheel is connected to one side of the positioning shaft sleeve, a lifting rack is arranged on one side of the traction wheel, limiting chutes are symmetrically arranged at the positions of the upper end and the lower end of the inner side of the limiting clamping frame positioned at the upper end and the lower end of the limiting chute and are clamped with a transmission rack, and a swing pressure lever is fixed at the bottom end of the wire take-up hand wheel.

As a still further scheme of the invention: the number of the traction wheels is two, and the traction wheels are symmetrically staggered relative to the horizontal center line of the wire collecting shell.

As a still further scheme of the invention: the inner diameters of the positioning shaft sleeve and the pressure spring are matched with the outer diameter of the positioning slide rod, and the positioning shaft sleeve is elastically clamped with the winding frame through the pressure spring.

As a still further scheme of the invention: the teeth of the lifting rack are meshed with the teeth of the transmission rack, and the transmission rack is elastically meshed with the lifting rack through a return spring.

Compared with the prior art, the invention has the beneficial effects that:

the earth surface anchoring and positioning device has the advantages that the earth surface anchoring and positioning are realized through the mounting mechanism, the charging pile can be firmly positioned and supported, the situation that the charging pile is not connected and loosened due to long-term manual holding, impact and the like is further avoided, meanwhile, the circulating wind blowing to the charging pile through the dust removing mechanism can avoid the situation that the charging pile is dirty and seriously corroded due to the fact that external dust is scraped and scattered on the charging pile, in the using process, the charging cable is wound in the folding mode through the winding mechanism, the traditional winding mode is replaced, the isolation protection capability of the charging cable is improved, meanwhile, the situation that the charging cable is wrinkled and aged and the internal connection is loosened in the long-term winding process can be avoided, and the charging cable is always kept in a natural placing state.

Drawings

Fig. 1 is a schematic structural diagram of an ac charging pile with a wire winding structure;

fig. 2 is a schematic structural diagram of a take-up mechanism in an ac charging pile with a take-up structure;

fig. 3 is a right side view of a take-up mechanism in an ac charging pile having a take-up structure;

fig. 4 is a top view of a take-up mechanism in an ac charging pile with a take-up structure;

fig. 5 is a schematic structural view of a dust removing mechanism in an ac charging pile with a wire rewinding structure;

fig. 6 is a schematic structural diagram of an installation mechanism in an ac charging pile with a wire rewinding structure.

In the figure: 1. a charging pile body; 2. a wire take-up housing; 3. a wire take-up hand wheel; 4. a control panel; 5. a dust removal mechanism; 51. an exhaust hood; 52. supporting the upright post; 53. an exhaust fan; 54. drying the net; 55. an electrostatic isolation mesh; 56. a high-efficiency dustproof filter screen; 57. a primary dust-proof filter screen; 6. a charging gun; 7. a charging cable; 8. an installation mechanism; 81. installing a bottom frame; 82. positioning the card holder; 83. positioning the screw hole; 84. anchoring the conical rod; 85. a stop convex ring; 9. a winding frame; 10. a pressure spring; 11. positioning the shaft sleeve; 12. a traction wheel; 13. positioning the slide bar; 14. a lifting rack; 15. a limiting clamp frame; 16. a return spring; 17. a drive rack; 18. an elastic pressure plate; 19. a limiting chute; 20. the pressure lever is swung.

Detailed Description

Referring to fig. 1 to 6, in the embodiment of the present invention, an ac charging pile with a wire winding structure includes a charging pile body 1, a mounting mechanism 8 is engaged with a lower portion of the charging pile body 1, the mounting mechanism 8 includes a mounting bottom frame 81, a positioning clamping seat 82 is disposed above the mounting bottom frame 81, positioning screw holes 83 are symmetrically disposed on front and rear sides of the positioning clamping seat 82, anchoring conical rods 84 are symmetrically fixed below the mounting bottom frame 81, stop protruding rings 85 are disposed at bottom ends of the anchoring conical rods 84, the number of the anchoring conical rods 84 is not less than two, each group is not less than three, the length of the anchoring conical rods 84 is not less than 30cm, during installation and use of the charging pile, a worker places the mounting bottom frame 81 in a foundation pit dug in advance, and pours concrete into the foundation pit, so that the concrete, the anchoring conical rods 84 and the stop protruding rings 85 are condensed into an integral form, and synchronously fixes the mounting mechanism 8 on the ground, and then the staff will charge in pile body 1 card goes into location cassette 82, carries out installation location to filling electric pile and handles.

The dust removing mechanism 5 is fixedly connected above the charging pile body 1, the dust removing mechanism 5 comprises an exhaust hood 51, supporting columns 52 are symmetrically fixed at the front end position and the rear end position of the lower part of the exhaust hood 51, exhaust fans 53 are symmetrically arranged at the bottom end position of the inner side of the exhaust hood 51, an initial effective dustproof filter screen 57, a high-efficiency dustproof filter screen 56, an electrostatic isolation screen 55 and a drying screen 54 are sequentially clamped at the inner side of the exhaust hood 51 from top to bottom, the initial effective dustproof filter screen 57 and the high-efficiency dustproof filter screen 56 are made of HEPA (high efficiency particulate air) components, the mesh aperture of the high-efficiency dustproof filter screen 56 is half of that of the initial effective dustproof filter screen 57, the electrostatic isolation screen 55 is made of red copper, the drying screen 54 is made of activated carbon mesh components, the exhaust fans 53 work in the charging pile using process to circularly suck and attach the outside air, and circularly convey the outside air into the, through the dual dust filtration of just effect dustproof filter screen 57 and high-efficient dustproof filter screen 56, the electrostatic molecule of electrostatic isolation net 55 adsorbs, the purification and drying of drying net 54, with clean, dry air through exhaust hood 51 circulation row to the pile body 1 that charges, to filling electric pile circulation and blow and wipe the processing, avoid external dust to scrape and fall to lead to filling electric pile to appear dirty and disorderly, receive the serious condition of corruption on filling electric pile.

The inner side of a charging pile body 1 is provided with a take-up mechanism at the bottom position, one side of the charging pile body 1 at the bottom position is connected with a charging cable 7, the top end of the charging cable 7 is provided with a charging gun 6, the front surface of the charging pile body 1 at the top position is embedded with a control panel 4, the take-up mechanism comprises a take-up shell 2 fixed at the bottom position of the inner side of the charging pile body 1, a take-up frame 9 is symmetrically fixed at the front position of the inner side of the take-up shell 2, a limit clamping frame 15 is symmetrically fixed at the rear position of the inner side of the take-up shell 2, a positioning slide bar 13 is fixed at the middle position of the inner side of the take-up frame 9, a pressure spring 10 is symmetrically sleeved at the outer side of the positioning slide bar 13, a positioning shaft sleeve 11 is symmetrically sleeved at the top end of the pressure spring 10 at the outer side of the positioning slide bar 13, the quantity of the traction wheels 12 is two groups, the traction wheels 12 are symmetrically staggered relative to the horizontal central line of the take-up shell 2, the inner diameters of the positioning shaft sleeves 11 and the pressure springs 10 are matched with the outer diameter of the positioning slide rod 13, the positioning shaft sleeves 11 are elastically clamped with the take-up frame 9 through the pressure springs 10, when the charging pile is used for charging, a user pulls out the charging gun 6, synchronously pulls the charging cable 7 outwards, the charging cable 7 presses the pressure springs 10 to elastically contract in the outward pulling process to drive the positioning shaft sleeves 11 to slide on the positioning slide rods 13, so that the traction wheels 12 symmetrically contract and slide, the charging cable 7 which is naturally folded is circularly pulled out, and the lifting rack 14 is elastically meshed with the transmission rack 17 in the synchronous pulling-out process to enable the lifting rack 14 to elastically slide on the transmission rack 17, after the lifting rack is pulled out, through the meshing of lifting rack 14 and driving rack 17, under the elasticity of reset spring 16 supports that resets, carry out location processing to charging cable 7, and then the user uses charging gun 6 to carry out the work of charging.

Limiting sliding grooves 19 are symmetrically arranged at the upper end and the lower end of the inner side of the limiting clamping frame 15, the limiting clamping frame 15 is clamped with a transmission rack 17 through the limiting sliding grooves 19, a return spring 16 is connected to the rear side of the transmission rack 17, an elastic pressing plate 18 is fixed to one side of the transmission rack 17, a take-up hand wheel 3 is embedded and connected to the middle position of the rear side of the upper portion of the take-up shell 2, a swing pressing rod 20 is fixed to the bottom end of the take-up hand wheel 3, teeth of a lifting rack 14 are meshed with teeth of the transmission rack 17, the transmission rack 17 is elastically meshed with the lifting rack 14 through the return spring 16, after charging is finished, a user pulls out a charging gun 6, the user rotates the take-up hand wheel 3 to drive the swing pressing rod 20 to rotate, the swing pressing rod 20 presses the elastic pressing plate 18 to slide backwards in the rotating process, the elastic pressing plate 18 drives the, the transmission rack 17 and the lifting rack 14 are disengaged and positioned, the traction wheel 12 is further disengaged and positioned, and the traction wheel 12 is further driven to symmetrically reset and slide through elastic resetting of the pressure spring 10, so that the charging cable 7 is sucked into the wire collecting shell 2 again.

The working principle of the invention is as follows: when the charging pile is used, the exhaust fan 53 works to circularly suck and attach the outside air, the outside air is circularly conveyed into the exhaust hood 51, the double dust filtration through the primary dust-proof filter screen 57 and the high-efficiency dust-proof filter screen 56, the electrostatic molecular adsorption through the electrostatic isolation screen 55 and the purification and drying through the drying screen 54 are carried out, the clean and dry air is circularly discharged to the charging pile body 1 through the exhaust hood 51, the charging pile is circularly blown and wiped, the situation that the charging pile is messy and seriously corroded due to the fact that the outside dust is scraped and scattered on the charging pile is avoided, further, when the charging pile is used for charging, a user pulls the charging gun 6 out, synchronously pulls the charging cable 7 outwards, the charging cable 7 compresses the pressure spring 10 to elastically contract in the outward pulling process, and drives the positioning shaft sleeve 11 to slide on the positioning slide rod 13, so that the traction wheel 12 symmetrically contracts and slides, the charging cable 7 which is folded and naturally placed is circularly pulled out, the lifting rack 14 is enabled to elastically slide on the transmission rack 17 through elastic meshing of the lifting rack 14 and the transmission rack 17 in the pulling-out process synchronously, after the pulling-out is finished, the charging cable 7 is positioned under the elastic resetting support of the resetting spring 16 through meshing of the lifting rack 14 and the transmission rack 17, then a user uses the charging gun 6 to perform charging work, after the charging is finished, the user pulls out the charging gun 6, then the user rotates the wire take-up hand wheel 3 to drive the swing pressure lever 20 to rotate, the swing pressure lever 20 presses the elastic pressure plate 18 to slide backwards in the rotating process, the elastic pressure plate 18 drives the transmission rack 17 to slide in the limiting sliding chute 19 in the sliding process to enable the transmission rack 17 and the lifting rack 14 to be disengaged from the positioning state, and then the traction wheel 12 is enabled to be released from the positioning state, further, the traction wheel 12 is driven to symmetrically reset and slide through elastic resetting of the pressure spring 10, and the charging cable 7 is sucked into the wire collecting shell 2 again.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides an alternating-current charging stake with line receiving structure, includes the pile body (1) that charges, its characterized in that, the below block of the pile body (1) that charges has installation mechanism (8), and the top fixedly connected with dust removal mechanism (5) of the pile body (1) that charges, the inboard of the pile body (1) that charges is located bottom position department and sets up admission machine, and one side of the pile body (1) that charges is located bottom position department and is connected with charging cable (7), the top of charging cable (7) is provided with rifle (6) that charges, the front surface of the pile body (1) that charges is located top position department embedding and is provided with and controls panel (4).

2. The alternating-current charging stake with take-up structure of claim 1, characterized in that, dust removal mechanism (5) include exhaust hood (51), both ends position department symmetry is fixed with support post (52) around the below position of exhaust hood (51), and the inboard of exhaust hood (51) is located bottom position department symmetry and is provided with exhaust fan (53), the inboard of exhaust hood (51) is from last to lower block in proper order has primary effect dust screen (57), high-efficient dust screen (56), electrostatic isolation net (55), drying screen (54).

3. The alternating-current charging stake with take-up structure of claim 2, characterized in that, just, effect dustproof filter screen (57) and high-efficient dustproof filter screen (56) all adopt HEPA material component, the mesh aperture of high-efficient dustproof filter screen (56) is just one-half of effect dustproof filter screen (57) mesh aperture.

4. The alternating-current charging pile with the wire take-up structure as claimed in claim 2, wherein the electrostatic isolation mesh (55) is made of red copper, and the drying mesh (54) is made of activated carbon mesh.

5. The alternating-current charging pile with the wire rewinding structure as claimed in claim 1, wherein the mounting mechanism (8) comprises a mounting chassis (81), a positioning clamping seat (82) is arranged above the mounting chassis (81), positioning screw holes (83) are symmetrically formed in the front side and the rear side of the positioning clamping seat (82), anchoring conical rods (84) are symmetrically fixed below the mounting chassis (81), and stop convex rings (85) are arranged at the bottom ends of the anchoring conical rods (84).

6. An alternating current charging pile with a wire rewinding structure as claimed in claim 5, wherein the number of the anchoring conical rods (84) is not less than two, each group is not less than three, and the length of the anchoring conical rods (84) is not less than 30 cm.

7. The AC charging pile with the wire rewinding structure as claimed in claim 1, wherein the wire rewinding mechanism comprises a wire rewinding shell (2) fixed at the bottom end position of the inner side of the charging pile body (1), a winding frame (9) is symmetrically fixed at the position of the front end position of the inner side of the wire rewinding shell (2), a limiting clamping frame (15) is symmetrically fixed at the position of the rear end position of the inner side of the wire rewinding shell (2), a positioning slide rod (13) is fixed at the position of the middle position of the inner side of the winding frame (9), compression springs (10) are symmetrically sleeved at the outer sides of the positioning slide rod (13), a positioning shaft sleeve (11) is symmetrically sleeved at the top end of the compression spring (10) at the outer sides of the positioning slide rod (13), one side of the positioning shaft sleeve (11) is connected with a traction wheel (12), and a lifting rack (14) is arranged at one side of, the inboard of spacing card frame (15) is located upper and lower both ends position department symmetry and is provided with spacing spout (19), and spacing card frame (15) through spacing spout (19) and drive rack (17) block, the rear side of drive rack (17) is connected with reset spring (16), and one side of drive rack (17) is fixed with flexible clamp plate (18), the top of receiving line casing (2) is located rear side middle part position department embedding and is connected with receipts line hand wheel (3), the bottom mounting of receiving line hand wheel (3) has swing depression bar (20).

8. An alternating-current charging pile with a wire rewinding structure as claimed in claim 7, characterized in that said traction wheels (12) are two groups and said traction wheels (12) are symmetrically staggered with respect to the horizontal centerline of the wire rewinding housing (2).

9. The alternating-current charging pile with the wire rewinding structure as claimed in claim 7, wherein the inner diameters of the positioning shaft sleeve (11) and the pressure spring (10) are matched with the outer diameter of the positioning sliding rod (13), and the positioning shaft sleeve (11) is elastically clamped with the winding frame (9) through the pressure spring (10).

10. An alternating current charging pile with a wire rewinding structure as claimed in claim 7, wherein teeth of the lifting rack (14) are engaged with teeth of the transmission rack (17), and the transmission rack (17) is elastically engaged with the lifting rack (14) through a return spring (16).