CN116559683A - Method and device for monitoring schedulable charging capacity of mobile energy storage station - Google Patents

Abstract

The invention discloses a method and a device for monitoring the dispatch-able charge capacity of a mobile energy storage station, which belong to the technical field of new energy battery capacity monitoring. The invention uses the dispatchable charging capacity detection device to detect the residual electric quantity condition of each battery module in real time and feed back the residual electric quantity condition to the cloud end in time, thereby preventing the charging client from running for one time and reasonably arranging the charging time of each mobile energy storage station.

Description

Method and device for monitoring schedulable charging capacity of mobile energy storage station

Technical Field

The invention belongs to the technical field of new energy battery capacity monitoring, and particularly relates to a method and a device for monitoring the dispatchable charging capacity of a mobile energy storage station.

Background

At present, new energy automobiles are increasingly popular in China, but the sales speed of an electric car is not kept up by a charging pile, the single demand of the electric car is larger in holidays, at this time, a mobile energy storage station is needed to solve the charging demand of part of car owners, the traditional mobile energy storage station only pulls up a car battery by a truck, the safety of the battery is not guaranteed when more batteries are needed, the fire disaster and the danger of the fire disaster occur, the traditional mobile energy storage station is not provided with a charging capacity detection device, the residual electric quantity in the energy storage station cannot be timely detected, the charged car can be made to run for one time, and the residual electric quantity is not known and is not timely charged.

The foregoing is not necessarily a prior art, and falls within the technical scope of the inventors.

Disclosure of Invention

In order to solve the above problems, the present invention provides a method and an apparatus for monitoring the dispatchable charging capacity of a mobile energy storage station, so as to solve the problems in the prior art.

In order to achieve the above purpose, the invention provides a mobile energy storage station schedulable charging capacity monitoring method and device, which comprises a mobile energy storage station schedulable charging capacity monitoring device and a mobile energy storage station schedulable charging capacity monitoring device, wherein the mobile energy storage station schedulable charging capacity monitoring device comprises a mobile energy storage station, an energy storage battery storage box and an energy storage battery pack, the monitoring device is provided with a single-drive vehicle connected with a bearing wheel connected below the mobile energy storage station, a fixedly connected battery storage box is arranged above the mobile energy storage station, an internal storage cavity is arranged in the battery storage box, a fixedly connected bottom plate is arranged inside the battery storage box, and first electric slipways distributed in an array are arranged on the bottom plate;

the bottom plate top is equipped with the energy storage battery group that the array distributes, and one side of energy storage battery group is equipped with fixed connection's battery state display screen and fixed connection's monitoring mouth, and the top of energy storage battery group is equipped with fire extinguishing component, and fire extinguishing component's below is equipped with array distribution's watering hole, is equipped with the second mounting panel between the energy storage battery group, and second mounting panel and battery deposit case fixed connection, and the top of second mounting panel is equipped with fixed connection's electronic slip table of second, and the below of the electronic slip table of second is equipped with the curtain that shields.

Preferably, the first electric slipway is fixedly connected with the bottom plate, one end of the battery storage box is provided with an access door which is symmetrically distributed, the access door is rotationally connected with the battery storage box, the access door is provided with a fixedly connected door handle, a fixedly connected water tank is further arranged above the battery storage box, one side of the battery storage box is provided with a first component which is distributed in an array and a second component which is distributed in an array, one side of the battery storage box is also provided with a fixedly connected power output port, the first component and the second component are fixedly connected with the battery storage box, and a first slot is formed in the first component.

Preferably, a second slot is formed in the second assembly, a sliding connection opening and closing block is arranged between the first slot and the second slot, third slots are formed in two sides of the opening and closing block, a first installation block fixedly connected is arranged in the third slots, a spring fixedly connected is arranged on one side of the first installation block, a clamping device fixedly connected with one side of the spring is arranged on one side of the spring, and the clamping device is in sliding fit with the third slots.

Preferably, the watering hole is communicated with the water tank, one side of the fire extinguishing assembly is provided with a first mounting plate fixedly connected with the water tank, a fire monitor fixedly connected with the fire extinguishing assembly is arranged below the first mounting plate, and a warning lamp fixedly connected with the fire monitor is arranged below the fire monitor.

Preferably, the bottom of shielding curtain and first electronic slip table sliding fit, the top of shielding curtain is equipped with fixed connection's circular connecting piece, and the top of circular connecting piece is equipped with the first electronic slider of rotation connection, first electronic slider and second electronic slip table sliding connection.

Preferably, lithium batteries distributed in an array are arranged in the energy storage battery pack, the lithium batteries are fixedly connected with the energy storage battery pack, and a first water cooling device and a second water cooling device which are fixedly connected are arranged between the lithium batteries.

Preferably, the battery storage box is further internally provided with a monitoring device, the monitoring device comprises a third mounting plate, one side of the third mounting plate is provided with a first bearing seat fixedly connected with the second bearing seat fixedly connected with the third mounting plate, a first baffle plate symmetrically distributed is arranged between the first bearing seat and the second bearing seat, the first baffle plate is fixedly connected with the third mounting plate, one side of the first bearing seat is provided with a first screw rod motor fixedly connected with the first bearing seat, a rotating shaft of the first screw rod motor is provided with a first screw rod fixedly connected with the first screw rod, and the outer side of the first screw rod is provided with a first screw rod sliding block matched with threads.

Preferably, one side of the first screw rod sliding block is provided with a fourth mounting plate fixedly connected with the first screw rod sliding block, a monitoring main plate fixedly connected with the first screw rod sliding block is arranged above the fourth mounting plate, a third electric sliding table which is symmetrically distributed is further arranged above the fourth mounting plate, the third electric sliding table is fixedly connected with the fourth mounting plate, a second electric sliding block which is in sliding connection with the third electric sliding table is arranged in the third electric sliding table, a fifth mounting plate fixedly connected with the second electric sliding table is arranged above the second electric sliding block, and a third bearing seat fixedly connected with the fourth bearing seat is arranged above the fifth mounting plate.

Preferably, a second baffle plate which is symmetrically distributed is arranged between the third bearing seat and the fourth bearing seat, the second baffle plate is fixedly connected with the fifth mounting plate, a second screw rod motor which is fixedly connected is arranged on one side of the fourth bearing seat, a second screw rod which is fixedly connected is arranged on a rotating shaft of the second screw rod motor, a second screw rod sliding block is arranged on the outer side of the second screw rod, a fixedly connected electric cylinder is arranged above the second screw rod sliding block, a monitoring head is arranged above the electric cylinder, a fixedly connected transmission line is arranged below the monitoring head, and the other end of the transmission line is electrically connected with the monitoring main board.

Preferably, the monitoring method comprises the following steps:

step 1001, receiving a charging instruction by the cloud;

step 1002, starting an electric quantity detection device to monitor electric quantity;

step 1003, judging the required charge amount and the electric quantity information of each charging device according to the cloud instruction;

step 1004, calculating charging loss according to the required charging amount, and selecting a proper single battery pack for charging;

step 1005, charging;

step 1006, analyzing whether two groups of battery packs meet charging conditions;

step 1007, analyzing whether the three groups of battery packs meet the charging condition;

step 1008, calling other mobile energy storage stations to charge;

step 1009, end charging.

The method and the device for monitoring the schedulable charging capacity of the mobile energy storage station can bring the following beneficial effects:

1. the invention uses the mode of multiple battery modules, if a single battery module is damaged, other battery modules can be used in an emergency, each battery module is independently powered, and an isolating device is also used for rapidly isolating two batteries to extinguish the fire in a closed space when the battery fires.

2. The invention uses the dispatchable charging capacity detection device to detect the residual electric quantity condition of each battery module in real time and feed back the residual electric quantity condition to the cloud end in time, thereby preventing the charging client from running for one time and reasonably arranging the charging time of each mobile energy storage station.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a flow chart of a method for monitoring the dispatchable charging capacity of a mobile energy storage station according to the present invention;

FIG. 2 is a schematic diagram of the overall structure of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 3 is a schematic diagram of a portion of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 4 is a schematic diagram of a portion of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 5 is a schematic diagram of a portion of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 6 is a schematic diagram of a portion of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 7 is a schematic diagram of a portion of a mobile energy storage station dispatchable charging capacity monitoring device according to the present invention;

FIG. 8 is a schematic diagram of a portion of a mobile energy storage station dispatchable charge capacity monitoring device according to the present invention;

fig. 9 is an enlarged schematic view of the structure of fig. 8 a according to the present invention.

Detailed Description

In order to more clearly illustrate the general inventive concept, a detailed description is given below by way of example with reference to the accompanying drawings.

In the description of the present invention, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, the description with reference to the terms "one aspect," "some aspects," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the aspect or example is included in at least one aspect or example of the present invention. In this specification, the schematic representations of the above terms are not necessarily for the same scheme or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more aspects or examples.

As shown in fig. 1 to 9, an embodiment of the present invention provides a method and an apparatus for monitoring a mobile energy storage station schedulable charging capacity, which includes a method for monitoring a mobile energy storage station schedulable charging capacity and a device for monitoring a mobile energy storage station schedulable charging capacity, where the method for monitoring a mobile energy storage station schedulable charging capacity includes the following steps:

step 1001, receiving a charging instruction by the cloud;

specifically, after the cloud receives the charging requirement of the new energy vehicle owner, the cloud sends information to the mobile energy storage station to which the new energy vehicle owner belongs to inquire the electricity storage condition of the energy storage station under the current condition.

Step 1002, starting an electric quantity detection device to monitor electric quantity;

specifically, after the energy storage station receives the message from the cloud, the electric quantity detection device is started to detect the electric quantity of each battery pack in the energy storage station, the detection message is sent to the cloud after detection is completed, and the cloud performs message integration processing.

Step 1003, judging the required charge amount and the electric quantity information of each charging device according to the cloud instruction;

specifically, after the electricity quantity detection device is used for detecting the electricity quantity of the battery pack, the required charging quantity of the charging vehicle is compared, and the secondary message is sent to the cloud.

Step 1004, calculating charging loss according to the required charging amount, and selecting a proper single battery pack for charging;

specifically, after the battery pack message is detected, the charging loss of the battery pack to the trolley battery is calculated, and if the single battery pack can be directly filled with the trolley, the single battery pack is used for charging and supplying power.

Step 1005, charging;

step 1006, analyzing whether two groups of battery packs meet charging conditions;

specifically, after the single battery pack is detected, if the single battery pack is found to be unable to meet the charging condition, the two battery packs are called for power supply.

Step 1007, analyzing whether the three groups of battery packs meet the charging condition;

specifically, when two battery packs are found to be unable to meet the charging condition, three battery packs are called for power supply.

Step 1008, calling other mobile energy storage stations to charge;

specifically, after the electric quantity of the whole battery pack is detected, when the electric quantity is found to be insufficient for charging, a message of the insufficient electric quantity is sent to the cloud end, and other mobile energy storage stations are called by a waybill for charging.

Step 1009, end charging.

The mobile energy storage station can dispatch the charge capacity monitoring device, and the monitoring device includes mobile energy storage station 1, energy storage battery deposit case 2, energy storage battery group 3, monitoring device 4, is equipped with the single drive vehicle 11 of connection and the bearing wheel 12 of connection below mobile energy storage station 1.

The top of mobile energy storage station 1 is equipped with fixed connection's battery case 2, be equipped with inside storage cavity 21 in the battery case 2, the inside fixed connection's bottom plate 25 that is equipped with of battery case 2, be equipped with array distribution's first electronic slip table 251 on the bottom plate 25, first electronic slip table 251 and bottom plate 25 fixed connection, the one end of battery case 2 is equipped with symmetrical distribution's access door 22, access door 22 and battery case 2 swivelling joint, be equipped with fixed connection's door handle 221 on the access door, battery case 2 top still is equipped with fixed connection's water tank 23, one side of battery case 2 is equipped with array distribution's first subassembly 201 and array distribution's second subassembly 202, one side of battery case 2 still is equipped with fixed connection's power outlet, first subassembly 201 and second subassembly 202 all are equipped with battery case 2 fixed connection, be equipped with first fluting in the first subassembly 201, be equipped with the second fluting between first fluting and the second fluting, when opening and closing piece 24 receives down, can block the power outlet and prevent that the export from exposing outside both sides damage, the piece 24 is equipped with third fluting 241, be equipped with the first side of a card 242 of opening and closing piece 241, the first side of a side of spring 243 is equipped with fixed connection's spring 243, the inside the first side of spring 243 is equipped with.

The bottom plate 25 top is equipped with the energy storage battery group 3 of array distribution, one side of energy storage battery group 3 is equipped with fixed connection's battery state display screen 31 and fixed connection's monitoring mouth 32, make things convenient for the staff to look over monitoring battery condition at any time, the top of energy storage battery group 3 is equipped with fire extinguishing component 26, the below of fire extinguishing component 26 is equipped with array distribution's watering hole 2601, watering hole 2601 communicates with water tank 23, one side of fire extinguishing component 26 is equipped with fixed connection's first mounting panel 261, the below of first mounting panel 261 is equipped with fixed connection's condition of a fire monitor 262, the below of condition of a fire monitor 262 is equipped with fixed connection's alarm lamp 2621 that falls into water, when the battery group takes place unexpected condition and fires, the condition of a fire monitor 262 monitors the conflagration, alarm lamp 2621 opens afterwards, remind the driver of staff and the place ahead driving, the watering hole 2601 department begins to put out a fire and operates afterwards.

Be equipped with the second mounting panel 271 between the energy storage battery group 3, second mounting panel 271 and battery deposit case 2 fixed connection, the top of second mounting panel 271 is equipped with fixed connection's second electronic slip table 27, the below of second electronic slip table 27 is equipped with and shields curtain 272, the bottom and the first electronic slip table 251 sliding fit of shielding curtain 272, the top of shielding curtain 272 is equipped with fixed connection's circular connecting piece 273, the top of circular connecting piece 273 is equipped with the first electronic slider 274 of swivelling joint, first electronic slider 274 and the electronic slip table 27 sliding connection of second.

The lithium batteries 33 distributed in an array are arranged in the energy storage battery pack 3, the lithium batteries 33 are fixedly connected with the energy storage battery pack 3, and a first water cooling device 34 and a second water cooling device 35 which are fixedly connected are arranged between the lithium batteries 33.

The battery storage box 2 is internally provided with a monitoring device 4, the monitoring device 4 comprises a third mounting plate 41, one side of the third mounting plate 41 is provided with a first bearing seat 42 fixedly connected with a second bearing seat 43 fixedly connected with the first bearing seat, a first baffle 47 symmetrically distributed is arranged between the first bearing seat 42 and the second bearing seat 43, the first baffle 47 is fixedly connected with the third mounting plate 41, one side of the first bearing seat 42 is provided with a first screw motor 44 fixedly connected with the first screw motor, a rotating shaft of the first screw motor 44 is provided with a first screw 45 fixedly connected with the first screw motor, and the outer side of the first screw 45 is provided with a first screw slider 46 in threaded fit.

A fourth mounting plate 461 which is fixedly connected is arranged on one side of the first screw rod slide block 46, a monitoring main plate 468 which is fixedly connected is arranged above the fourth mounting plate 461, a third electric sliding table 462 which is symmetrically distributed is also arranged above the fourth mounting plate 461, the third electric sliding table 462 is fixedly connected with the fourth mounting plate 461, a second electric sliding block 464 which is in sliding connection is arranged in the third electric sliding table 462, a fifth mounting plate 463 which is fixedly connected is arranged above the second electric sliding block 464, a third bearing seat 465 which is fixedly connected is arranged above the fifth mounting plate 463 and a fourth bearing seat 466 which is fixedly connected are arranged above the fifth mounting plate 463,

the second baffle 4661 with symmetrical distribution is arranged between the third bearing seat 465 and the fourth bearing seat 466, the second baffle 4661 is fixedly connected with the fifth mounting plate 463, one side of the fourth bearing seat 466 is provided with a second screw motor 467 with fixed connection, a rotating shaft of the second screw motor 467 is provided with a second screw 4671 with fixed connection, the outer side of the second screw 4671 is provided with a second screw slide 469, the upper side of the second screw slide 469 is provided with a cylinder 4691 with fixed connection, the upper side of the cylinder 4691 is provided with a monitoring head 4692, the lower side of the monitoring head 4692 is provided with a transmission line 4693 with fixed connection, and the other end of the transmission line 4693 is electrically connected with a monitoring main board 468.

Working principle:

when the intelligent fire extinguishing device is used, the first screw motor 44 is firstly turned on to drive the first screw sliding block 46 to reach the front of the monitoring port 32, then the third electric sliding table 462 is started to move the fifth mounting plate 463 to a proper position, then the second screw motor 467 is started to move the second screw sliding block 469 to the front of the monitoring port 32, then the electric cylinder 4691 is started to insert the monitoring head 4692 into the monitoring port 32 for electric quantity monitoring, monitored data are transmitted to the monitoring main board 468 for analysis, then the analyzed data are uploaded to the cloud, if the mobile energy storage station suddenly fires on a battery running through the inside of the Cheng Zhongzhan, the fire monitor 262 starts the fire extinguishing assembly 26 after finding a fire, the fire extinguishing assembly 26 starts to perform precipitation fire extinguishing, and meanwhile the second electric sliding table 27 is started to pull the shielding curtain 272 open to prevent the fire from spreading to a battery pack beside to cause larger harm.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are to be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a mobile energy storage station can dispatch charge capacity monitoring devices, monitoring devices includes mobile energy storage station (1), energy storage battery deposits case (2), energy storage battery group (3), monitoring devices (4), a serial communication port, mobile energy storage station (1) below is equipped with single drive vehicle (11) and the bearing wheel (12) of connection, mobile energy storage station (1) top is equipped with fixed connection's battery deposits case (2), be equipped with inside storage cavity (21) in battery deposits case (2), battery deposits case (2) inside is equipped with fixed connection's bottom plate (25), be equipped with first electronic slip table (251) of array distribution on bottom plate (25);

energy storage battery group (3) that bottom plate (25) top was equipped with array distribution, one side of energy storage battery group (3) is equipped with fixed connection's battery status display screen (31) and fixed connection's monitoring mouth (32), the top of energy storage battery group (3) is equipped with fire extinguishing component (26), the below of fire extinguishing component (26) is equipped with array distribution's watering hole (2601), be equipped with second mounting panel (271) between energy storage battery group (3), second mounting panel (271) and battery deposit case (2) fixed connection, the top of second mounting panel (271) is equipped with fixed connection's second electronic slip table (27), the below of second electronic slip table (27) is equipped with and shields curtain (272).

2. The mobile energy storage station dispatch charging capacity monitoring device according to claim 1, wherein the first electric slipway (251) is fixedly connected with the bottom plate (25), one end of the battery storage box (2) is provided with symmetrically distributed access doors (22), the access doors (22) are rotatably connected with the battery storage box (2), the access doors are provided with fixedly connected door handles (221), the upper part of the battery storage box (2) is further provided with a fixedly connected water tank (23), one side of the battery storage box (2) is provided with a first component (201) distributed in an array and a second component (202) distributed in an array, one side of the battery storage box (2) is further provided with a fixedly connected power output port, the first component (201) and the second component (202) are fixedly connected with the battery storage box (2), and a first slot is formed in the first component (201).

3. The device for monitoring the dispatchable charging capacity of the mobile energy storage station according to claim 2, wherein a second slot is arranged in the second component (202), a sliding connection opening and closing block (24) is arranged between the first slot and the second slot, third slots (241) are arranged on two sides of the opening and closing block (24), a first installation block (242) which is fixedly connected is arranged in the third slots (241), a spring (243) which is fixedly connected is arranged on one side of the first installation block (242), a blocking piece (244) which is fixedly connected is arranged on one side of the spring (243), and the blocking piece (244) is in sliding fit with the third slots (241).

4. A mobile energy storage station dispatchable charging capacity monitoring device according to claim 3, characterized in that the water spraying hole (2601) is communicated with the water tank (23), one side of the fire extinguishing assembly (26) is provided with a fixedly connected first mounting plate (261), the lower part of the first mounting plate (261) is provided with a fixedly connected fire monitor (262), and the lower part of the fire monitor (262) is provided with a fixedly connected alarm lamp (2621).

5. The device for monitoring the dispatchable charging capacity of the mobile energy storage station according to claim 4, wherein the bottom of the shielding curtain (272) is in sliding fit with the first electric sliding table (251), a circular connecting piece (273) which is fixedly connected is arranged above the shielding curtain (272), a first electric sliding block (274) which is rotationally connected is arranged above the circular connecting piece (273), and the first electric sliding block (274) is in sliding connection with the second electric sliding table (27).

6. The device for monitoring the dispatchable charging capacity of the mobile energy storage station according to claim 5, wherein the energy storage battery pack (3) is internally provided with lithium batteries (33) distributed in an array, the lithium batteries (33) are fixedly connected with the energy storage battery pack (3), and a first water cooling device (34) and a second water cooling device (35) which are fixedly connected are arranged between the lithium batteries (33).

7. The device for monitoring the dispatch-able charge capacity of the mobile energy storage station according to claim 6, wherein the battery storage box (2) is further provided with a monitoring device (4), the monitoring device (4) comprises a third mounting plate (41), a first bearing seat (42) fixedly connected with the third mounting plate (41) and a second bearing seat (43) fixedly connected with the third mounting plate are arranged on one side of the third mounting plate (41), first baffles (47) symmetrically distributed between the first bearing seat (42) and the second bearing seat (43), the first baffles (47) are fixedly connected with the third mounting plate (41), a first screw motor (44) fixedly connected with the first bearing seat (42) is arranged on one side of the first bearing seat, a first screw (45) fixedly connected with a rotating shaft of the first screw motor (44) is arranged, and a first screw slider (46) in threaded fit is arranged on the outer side of the first screw (45).

8. The device for monitoring the dispatch-able charge capacity of a mobile energy storage station according to claim 7, wherein a fourth installation plate (461) is fixedly connected to one side of the first screw slider (46), a monitoring main plate (468) is fixedly connected to the upper side of the fourth installation plate (461), a third electric sliding table (462) is symmetrically distributed over the fourth installation plate (461), the third electric sliding table (462) is fixedly connected to the fourth installation plate (461), a second electric sliding block (464) is slidably connected to the third electric sliding table (462), a fifth installation plate (463) is fixedly connected to the upper side of the second electric sliding block (464), and a third bearing seat (465) and a fourth bearing seat (466) are fixedly connected to the upper side of the fifth installation plate (463).

9. The device for monitoring the schedulable charge capacity of the mobile energy storage station of claim 8, wherein a second baffle (4661) is symmetrically distributed between the third bearing seat (465) and the fourth bearing seat (466), the second baffle (4661) is fixedly connected with the fifth mounting plate (463), a second screw motor (467) is fixedly connected to one side of the fourth bearing seat (466), a second screw (4671) is fixedly connected to a rotating shaft of the second screw motor (467), a second screw slider (469) is arranged on the outer side of the second screw (4671), a fixedly connected electric cylinder (4691) is arranged above the second screw slider (469), a monitoring head (4692) is arranged above the electric cylinder (4691), a transmission line (4693) is fixedly connected to the lower side of the monitoring head (4692), and the other end of the transmission line (4693) is electrically connected to the monitoring main board (468).

10. The method for monitoring the mobile energy storage station schedulable charge capacity monitoring device of claim 9, the method comprising the steps of:

step 1001, receiving a charging instruction by the cloud;

step 1002, starting an electric quantity detection device to monitor electric quantity;

step 1003, judging the required charge amount and the electric quantity information of each charging device according to the cloud instruction;

step 1004, calculating charging loss according to the required charging amount, and selecting a proper single battery pack for charging;

step 1005, charging;

step 1006, analyzing whether two groups of battery packs meet charging conditions;

step 1007, analyzing whether the three groups of battery packs meet the charging condition;

step 1008, calling other mobile energy storage stations to charge;

step 1009, end charging.