CN211196225U - Movable charging device with multiple groups of methanol water reforming hydrogen production power generation modules - Google Patents
Movable charging device with multiple groups of methanol water reforming hydrogen production power generation modules Download PDFInfo
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- CN211196225U CN211196225U CN201921698391.3U CN201921698391U CN211196225U CN 211196225 U CN211196225 U CN 211196225U CN 201921698391 U CN201921698391 U CN 201921698391U CN 211196225 U CN211196225 U CN 211196225U
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Abstract
The utility model discloses a portable charging device with multiunit methanol-water reforming hydrogen manufacturing electricity generation module, including bearing the car body, bearing and having seted up the cushion chamber on the car body, having seted up the movable hole along vertical direction on the inner wall of cushion chamber top side, movable hole movable mounting has the mounting panel, mounting panel bottom side fixed mounting has two dead levers, and the bottom of two dead levers all extends to the cushion chamber in, two dead lever below all are equipped with movable mounting at the wedge on the inner wall of cushion chamber bottom side, and the bottom of two dead levers contacts with two wedge top sides respectively, all sets up the rotation groove that is located between two wedges on the both sides inner wall of cushion chamber. The utility model discloses simple structure holds the weight of the car when removing the process production vibrations, holds the weight of the influence of car vibrations to charging device through horizontal and fore-and-aft effort is effectual offset, realizes effectively reducing the purpose that charging device rocked and avoided the equipment to damage, has satisfied the user demand.
Description
Technical Field
The utility model relates to a charging device technical field especially relates to a portable charging device with multiunit methanol-water reforming hydrogen manufacturing electricity generation module.
Background
Currently, electrically driven vehicles such as electric vehicles, plug-in hybrid vehicles are rapidly increasing in use, and mobile charging stations for charging auxiliary batteries installed in electric vehicles are being adopted because of the rapid increase in use of electric vehicles. In the prior art, the electricity-taking source of the mobile charging station usually adopts two modes of a mobile storage battery and an internal combustion engine generator, and the mobile storage battery has limited storage capacity and cannot continuously charge a plurality of electric vehicles, so that a mobile convenient charging device is needed.
The patent with publication number CN205248374U discloses a portable charging station with multiunit methanol-water reforming hydrogen manufacturing power generation module, including removing the carrier vehicle and bearing in the removal on the carrier vehicle controlling means, methanol-water storage conveyor, at least two sets of methanol-water reforming hydrogen manufacturing power generation module, alternating current-direct current power conversion equipment and a plurality of machine that charges, remove the carrier vehicle in the removal process, because the uncertainty of topography, produce vibrations easily, vibrations too big cause and the damage of inside charging device easily, and difficult maintenance, consequently need a carrier vehicle with shock-absorbing function.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the defects existing in the prior art and providing a mobile charging device with a plurality of groups of methanol water reforming hydrogen production and power generation modules.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a movable charging device with a plurality of groups of methanol water reforming hydrogen production power generation modules comprises a load-bearing vehicle body, wherein a buffer cavity is formed in the load-bearing vehicle body, a movable hole is formed in the inner wall of the top side of the buffer cavity in the vertical direction, a mounting plate is movably mounted in the movable hole, two fixing rods are fixedly mounted at the bottom side of the mounting plate, the bottoms of the two fixing rods extend into the buffer cavity, wedge blocks movably mounted on the inner wall of the bottom side of the buffer cavity are arranged below the two fixing rods, the bottoms of the two fixing rods are respectively contacted with the top sides of the two wedge blocks, rotating grooves between the two wedge blocks are formed in the inner walls of the two sides of the buffer cavity, the same rotating shaft is rotatably mounted in the two rotating grooves, a rotating plate positioned in the buffer cavity is fixedly sleeved on the rotating shaft, a first fixing block is, the top of first ejector pin rotates to be installed on the bottom side of mounting panel, and one side that first fixed block was kept away from to the axis of rotation is equipped with the second fixed block of fixed mounting on the rotor plate bottom side, and second fixed block bottom side rotates and installs the second ejector pin, and first ejector pin and second ejector pin are the slope setting, set up the mounting groove that is located the rotor plate below on the inner wall of cushion chamber bottom side, movable mounting has the movable block in the mounting groove, and movable block top side fixed mounting has the movable rod, and the top of movable rod extends to the cushion chamber to rotate and install on the bottom of second ejector pin.
Preferably, the top side of the mounting plate is fixedly provided with a controller, a methanol-water storage tower, a plurality of reformers, a fuel cell and a plurality of chargers in sequence, and the top side of the carrier vehicle body is fixedly provided with a pushing handle.
Preferably, first chutes respectively located below the two wedge blocks are formed in the inner wall of the bottom side of the buffer cavity, the bottom sides of the two wedge blocks are respectively slidably mounted in the two first chutes, one ends of the first springs are fixedly mounted on the inner walls of the two sides of the buffer cavity, and one ends, close to each other, of the two first springs are respectively and fixedly mounted on one side, away from each other, of the two wedge blocks.
Preferably, the second chutes are formed in the inner walls of the two sides of the mounting groove, the two sides of the movable block are respectively slidably mounted in the two second chutes, the bottom end of the second spring is fixedly mounted on the inner wall of the bottom side of the mounting groove, and the top end of the second spring is fixedly mounted on the bottom side of the movable block.
Preferably, the limiting grooves are formed in the inner walls of the two sides of the movable hole, the limiting blocks are fixedly mounted on the two sides of the mounting plate, and the two limiting blocks are slidably mounted in the two limiting grooves respectively.
Preferably, the four corners of the bottom side of the carrier vehicle body are fixedly provided with support rods, and the bottom ends of the support rods are movably provided with rollers.
Compared with the prior art, the beneficial effects of the utility model are that:
in the utility model, through the cooperation of the fixed rod, the wedge block, the first chute, the first spring, the limiting block and the limiting groove, when the carrier vehicle vibrates in the moving process, the first spring is compressed to offset partial inertia force, and through the cooperation of the rotating groove, the rotating shaft, the rotating plate, the first fixed block, the first ejector rod, the second fixed block, the second ejector rod, the mounting groove, the movable block, the movable rod and the second spring, the lever is used for keeping away, the larger inertia pressure can be offset by the smaller rebound force, the stretching amplitude of the second spring is small, so that the vibration amplitude of the mounting plate is reduced, and the shaking of the charging device is effectively reduced;
the utility model discloses simple structure holds the weight of the car when removing the process production vibrations, holds the weight of the influence of car vibrations to charging device through horizontal and fore-and-aft effort is effectual offset, realizes effectively reducing the purpose that charging device rocked and avoided the equipment to damage, has satisfied the user demand.
Drawings
Fig. 1 is a schematic structural diagram of a mobile charging device with multiple groups of methanol-water reforming hydrogen production power generation modules provided by the utility model;
fig. 2 is a schematic top view of a mobile charging device carrier vehicle body with multiple sets of methanol-water reforming hydrogen production and power generation modules provided by the present invention;
fig. 3 is the schematic structural diagram of a part a in fig. 1 of a mobile charging device with multiple groups of methanol-water reforming hydrogen production power generation modules provided by the utility model.
In the figure: the device comprises a bearing vehicle body 1, a buffer cavity 2, a movable hole 3, a mounting plate 4, a fixed rod 5, a wedge-shaped block 6, a first sliding groove 7, a rotating groove 8, a rotating shaft 9, a rotating plate 10, a first fixed block 11, a first ejector rod 12, a second fixed block 13, a second ejector rod 14, a mounting groove 15, a movable block 16, a movable rod 17, a second spring 18, a first spring 19, a limiting block 20, a limiting groove 21, a supporting rod 22, a controller 23, a methanol water storage tower 24, a reformer 25, a fuel cell 26 and a charger 27.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-3, a mobile charging device with a plurality of groups of methanol water reforming hydrogen production power generation modules comprises a load-bearing vehicle body 1, a buffer cavity 2 is arranged on the load-bearing vehicle body 1, a movable hole 3 is arranged on the inner wall of the top side of the buffer cavity 2 along the vertical direction, a mounting plate 4 is movably mounted in the movable hole 3, two fixing rods 5 are fixedly mounted at the bottom side of the mounting plate 4, the bottoms of the two fixing rods 5 extend into the buffer cavity 2, wedge blocks 6 movably mounted on the inner wall of the bottom side of the buffer cavity 2 are arranged below the two fixing rods 5, the bottoms of the two fixing rods 5 are respectively contacted with the top sides of the two wedge blocks 6, rotating grooves 8 between the two wedge blocks 6 are arranged on the inner walls of the two sides of the buffer cavity 2, the same rotating shaft 9 is rotatably mounted in the two rotating grooves 8, and a rotating plate, a first fixed block 11 is fixedly arranged on the top side of the rotating plate 10, a first ejector rod 12 is rotatably arranged on the top side of the first fixed block 11, the top end of the first ejector rod 12 is rotatably arranged on the bottom side of the mounting plate 4, a second fixed block 13 fixedly arranged on the bottom side of the rotating plate 10 is arranged on one side of the rotating shaft 9 away from the first fixed block 11, a second ejector rod 14 is rotatably arranged on the bottom side of the second fixed block 13, the first ejector rod 12 and the second ejector rod 14 are both obliquely arranged, a mounting groove 15 positioned below the rotating plate 10 is arranged on the inner wall of the bottom side of the buffer cavity 2, a movable block 16 is movably arranged in the mounting groove 15, a movable rod 17 is fixedly arranged on the top side of the movable block 16, the top end of the movable rod 17 extends into the buffer cavity 2 and is rotatably arranged on the bottom end of the second ejector rod 14, when the vehicle vibrates in the moving process, so that the mounting plate 4 moves downwards, the mounting plate 4 moves downwards to drive the fixing rod 5 to move downwards, and the fixing rod 5 pushes the wedge-shaped block 6, so that the wedge-shaped block 6 compresses the first spring 19 to offset part of the inertia force.
A controller 23, a methanol water storage tower 24, a plurality of reformers 25, a fuel cell 26 and a plurality of chargers 27 are fixedly mounted on the top side of the mounting plate 4 in sequence, a pushing handle is fixedly mounted on the top side of the vehicle body 1, first sliding grooves 7 respectively located below the two wedges 6 are formed in the inner wall of the bottom side of the buffer cavity 2, the bottom sides of the two wedges 6 are respectively slidably mounted in the two first sliding grooves 7, one ends of the first springs 19 are fixedly mounted on the inner walls of the two sides of the buffer cavity 2, the ends, close to each other, of the two first springs 19 are respectively fixedly mounted on the sides, far away from each other, of the two wedges 6, second sliding grooves are formed in the inner walls of the two sides of the mounting groove 15, the two sides of the movable block 16 are respectively slidably mounted in the two second sliding grooves, the bottom end of the second spring 18 is fixedly mounted on the inner wall of the bottom side of the mounting, the inner walls of two sides of the movable hole 3 are respectively provided with a limiting groove 21, two sides of the mounting plate 4 are respectively and fixedly provided with a limiting block 20, the two limiting blocks 20 are respectively and slidably mounted in the two limiting grooves 21, four corners of the bottom side of the carrier vehicle body 1 are respectively and fixedly provided with a support rod 22, the bottom end of the support rod 22 is movably provided with a roller, the mounting plate 4 moves downwards to drive the first ejector rod 12 to move, the first ejector rod 12 extrudes the rotating plate 10 to enable the rotating plate 10 to rotate, the rotating plate 10 rotates to drive the second ejector rod 14 to move upwards, the second ejector rod 14 pulls the movable rod 17, the movable rod 17 moves to drive the movable block 16 to move, the movable block 16 moves to stretch the second spring 18, as the first fixed block 11 and the second fixed block 12 are respectively positioned at two sides of the rotating shaft 9, and the distance between the first fixed block 11 and the rotating shaft 9 is larger than that between the second fixed block 12 and the rotating shaft 9, so that the, the second spring 18 is compressed by a small distance, so that the mounting plate 4 moves down by a small distance, and the vibration amplitude of the charging device is remarkably reduced.
The working principle is as follows: when the vehicle vibrates during movement, the charging device fixedly mounted on the mounting plate 4 extrudes the mounting plate 4 under the action of inertial force, so that the mounting plate 4 moves downwards, the mounting plate 4 moves downwards to drive the fixed rod 5 to move downwards, the fixed rod 5 pushes the wedge-shaped block 6, the wedge-shaped block 6 compresses the first spring 19 to offset part of the inertial force, in addition, the mounting plate 4 moves downwards to drive the first ejector rod 12 to move, the first ejector rod 12 extrudes the rotating plate 10 to drive the rotating plate 10 to rotate, the rotating plate 10 rotates to drive the second ejector rod 14 to move upwards, the second ejector rod 14 pulls the movable rod 17, the movable rod 17 moves to drive the movable block 16 to move, the movable block 16 moves to stretch the second spring 18, because the first fixed block 11 and the second fixed block 12 are respectively positioned at two sides of the rotating shaft 9, and the distance between the first fixed block 11 and the rotating shaft 9 is greater than the distance between the second fixed block 12 and the, the second fixing block 12 can offset the larger pressure of the first fixing block 11 on the rotating plate 10 by using smaller force, so that the compression distance of the second spring 18 is smaller, the downward moving distance of the mounting plate 4 is smaller, the vibration amplitude of the charging device is obviously weakened, and the purposes of effectively reducing the shaking of the charging device and avoiding the damage of equipment are achieved.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (6)
1. A movable charging device with a plurality of groups of methanol water reforming hydrogen production power generation modules comprises a bearing vehicle body (1) and is characterized in that a buffer cavity (2) is formed in the bearing vehicle body (1), a movable hole (3) is formed in the inner wall of the top side of the buffer cavity (2) along the vertical direction, a mounting plate (4) is movably mounted in the movable hole (3), two fixing rods (5) are fixedly mounted at the bottom side of the mounting plate (4), the bottoms of the two fixing rods (5) extend into the buffer cavity (2), wedge blocks (6) movably mounted on the inner wall of the bottom side of the buffer cavity (2) are arranged below the two fixing rods (5), the bottoms of the two fixing rods (5) are respectively contacted with the top sides of the two wedge blocks (6), rotating grooves (8) located between the two wedge blocks (6) are formed in the inner walls of the two sides of the buffer cavity (2), the two rotating grooves (8) are rotatably provided with the same rotating shaft (9), the rotating shaft (9) is fixedly sleeved with a rotating plate (10) positioned in the buffer cavity (2), the top side of the rotating plate (10) is fixedly provided with a first fixed block (11), the top side of the first fixed block (11) is rotatably provided with a first ejector rod (12), the top end of the first ejector rod (12) is rotatably arranged on the bottom side of the mounting plate (4), one side of the rotating shaft (9) far away from the first fixed block (11) is provided with a second fixed block (13) fixedly arranged on the bottom side of the rotating plate (10), the bottom side of the second fixed block (13) is rotatably provided with a second ejector rod (14), the first ejector rod (12) and the second ejector rod (14) are both obliquely arranged, a mounting groove (15) positioned below the rotating plate (10) is formed in the inner wall of the bottom side of the buffer cavity (2), and, the top side of the movable block (16) is fixedly provided with a movable rod (17), the top end of the movable rod (17) extends into the buffer cavity (2) and is rotatably arranged at the bottom end of the second ejector rod (14).
2. The mobile charging device with the multiple groups of methanol-water reforming hydrogen production power generation modules according to claim 1, wherein a controller (23), a methanol-water storage tower (24), a plurality of reformers (25), a fuel cell (26) and a plurality of chargers (27) are sequentially and fixedly mounted on the top side of the mounting plate (4), and a pushing handle is fixedly mounted on the top side of the carrier vehicle body (1).
3. The mobile charging device with the multiple groups of methanol-water reforming hydrogen production power generation modules according to claim 1, wherein first chutes (7) respectively located below the two wedge blocks (6) are formed in the inner wall of the bottom side of the buffer cavity (2), the bottom sides of the two wedge blocks (6) are respectively slidably mounted in the two first chutes (7), one ends of the first springs (19) are fixedly mounted on the inner walls of the two sides of the buffer cavity (2), and the ends, close to each other, of the two first springs (19) are respectively fixedly mounted on the side, away from each other, of the two wedge blocks (6).
4. The mobile charging device with the multiple groups of methanol-water reforming hydrogen production power generation modules according to claim 1, wherein the inner walls of two sides of the mounting groove (15) are respectively provided with a second sliding groove, two sides of the movable block (16) are respectively slidably mounted in the two second sliding grooves, the inner wall of the bottom side of the mounting groove (15) is fixedly provided with the bottom end of the second spring (18), and the top end of the second spring (18) is fixedly mounted on the bottom side of the movable block (16).
5. The mobile charging device with the multiple groups of methanol-water reforming hydrogen production power generation modules according to claim 1, wherein the inner walls of two sides of the movable hole (3) are respectively provided with a limiting groove (21), two sides of the mounting plate (4) are respectively and fixedly provided with a limiting block (20), and the two limiting blocks (20) are respectively and slidably mounted in the two limiting grooves (21).
6. The mobile charging device with multiple groups of methanol-water reforming hydrogen production power generation modules according to claim 1, wherein supporting rods (22) are fixedly mounted at four corners of the bottom side of the vehicle body (1), and rollers are movably mounted at the bottom ends of the supporting rods (22).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921698391.3U CN211196225U (en) | 2019-10-11 | 2019-10-11 | Movable charging device with multiple groups of methanol water reforming hydrogen production power generation modules |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921698391.3U CN211196225U (en) | 2019-10-11 | 2019-10-11 | Movable charging device with multiple groups of methanol water reforming hydrogen production power generation modules |
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| Publication Number | Publication Date |
|---|---|
| CN211196225U true CN211196225U (en) | 2020-08-07 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201921698391.3U Active CN211196225U (en) | 2019-10-11 | 2019-10-11 | Movable charging device with multiple groups of methanol water reforming hydrogen production power generation modules |
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| CN (1) | CN211196225U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112460449A (en) * | 2020-11-20 | 2021-03-09 | 翁继超 | Expandable LED display screen device |
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2019
- 2019-10-11 CN CN201921698391.3U patent/CN211196225U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112460449A (en) * | 2020-11-20 | 2021-03-09 | 翁继超 | Expandable LED display screen device |
| CN112460449B (en) * | 2020-11-20 | 2022-04-26 | 深圳市赛盟信息科技有限公司 | Expandable LED display screen device |
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Effective date of registration: 20230504 Address after: 253000 south of Zhenhua street and east of Zhaozhuang ditch, Wucheng County, De Zhou City, Shandong Province Patentee after: DEZHOU XINDONGNENG IRON TOWER POWER GENERATION Co.,Ltd. Address before: 266000 block B, building 1, huizhiyuan, 378 Hedong Road, Chengyang District, Qingdao City, Shandong Province Patentee before: Lixing Hydrogen Technology Co.,Ltd. |