CN211767704U - Wireless charging instrument box for rechargeable battery power supply data acquisition module - Google Patents

Abstract

The utility model discloses a wireless charging instrument case for rechargeable battery power supply data acquisition module belongs to data acquisition module transport case technical field. The device comprises a transport case, a latticed lining and a data acquisition module, wherein a plurality of module grooves which are arranged in a matrix manner are arranged in the latticed lining, and the data acquisition module is arranged in each module groove; the data acquisition module is internally provided with a rechargeable battery for supplying power, the rechargeable battery is connected with a wireless charging receiving module, and the wireless charging receiving module charges the rechargeable battery; and the bottom of the module groove is provided with a wireless charging transmitting module matched with the wireless charging receiving module. It both is the instrument shelter that is used for transporting data acquisition module, prevents the collision, can charge for polylith data acquisition module simultaneously again, has avoided the condition that needs carry a plurality of charging seats, when charging for polylith data acquisition module, and it is more convenient to operate, has also saved the cost of a plurality of charging seats.

Description

Wireless charging instrument box for rechargeable battery power supply data acquisition module

Technical Field

The utility model relates to a wireless charging instrument case for rechargeable battery power supply data acquisition module belongs to data acquisition module transport case technical field.

Background

The data acquisition module is an electronic product applied to data acquisition of comprehensive experiments of power plants, is a bridge with a computer connected with an external physical environment, and mainly comprises a sensor, a controller and a communication interface, wherein the sensor is used for measuring and sensing the external physical environment, and the controller is used for transmitting a measurement result to the computer through the communication interface. At present, the charging mode of the existing data acquisition module has two types: the first is a wired charging mode, which is similar to a mobile phone USB charging mode, namely a wired charging mode, wherein a power supply line is inserted into a charging interface of a data acquisition module to form electrical contact to form a charging loop to charge a battery; the second type, wireless charging mode, the wireless receiving module that charges of installation in the data acquisition module, wireless charging seat inside has the wireless transmitting module that charges, and when the data acquisition module was placed on the wireless charging seat, inside receiving electronic circuit received the electric energy that the charging seat sent, charges for the battery with this electric energy.

However, when the wireless charging mode is used for charging, the volume and the weight of the charging seat are almost the same as those of the data acquisition module, and the charging seat is inconvenient to carry and transport. One charging seat can only charge one data acquisition module at the same time, most wireless test systems need a plurality of data acquisition modules, a plurality of modules cannot be charged at the same time, and only one module can be charged, so that the whole test efficiency is influenced; in addition, when the test site is not fixed and a plurality of data acquisition modules need to be frequently transported, the data acquisition modules and the charging seats need to be transported, which is messy and inconvenient.

Disclosure of Invention

The utility model discloses the technical problem that will solve lies in: the utility model provides a wireless charging instrument case for rechargeable battery power supply data acquisition module, it has solved the inconvenient problem of carrying and charging of a plurality of data acquisition modules at present.

The utility model discloses the technical problem that will solve takes following technical scheme to realize:

a wireless charging instrument box for a rechargeable battery power supply data acquisition module comprises a transport box, a latticed lining and a data acquisition module, wherein the transport box is formed by hinging an upper cover and a box body;

the data acquisition module is internally provided with a rechargeable battery for supplying power, the rechargeable battery is connected with a wireless charging receiving module, and the wireless charging receiving module charges the rechargeable battery;

the module slot bottom is equipped with the wireless transmitting module that charges with wireless receiving module complex, and transport case one side is equipped with the interface that charges, and the wireless transmitting module that charges of all module slot bottoms portion parallelly connected access interface that charges, the interface that charges is connected with external power source.

As a preferable example, the latticed lining is made of antistatic foam.

As a preferred example, the transport case is made of hard plastic or aluminum alloy.

As a preferred example, the upper cover is provided with a plurality of raised foam blocks, one for each module slot.

The utility model has the advantages that:

(1) the transportation box is internally provided with the latticed lining, the latticed lining is internally provided with a plurality of module grooves which are arranged in a matrix manner, and the data acquisition modules are placed in the module grooves, so that the transportation box is an instrument box for transporting the data acquisition modules, prevents collision and can simultaneously charge a plurality of data acquisition modules, the condition that a plurality of charging seats are required to be carried is avoided, when the plurality of data acquisition modules are charged, the operation is more convenient, and the cost of the plurality of charging seats is saved;

(2) the upper cover is provided with a plurality of convex foam blocks, so that the data acquisition module in the module groove is pressed, and charging is more stable.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure inside the module tank;

FIG. 3 is a schematic diagram of the structure of the side of the module slot.

In the figure: transport case 1, the interface 11 that charges, latticed inside lining 2, data acquisition module 3, module groove 4, wireless receiving module 5 that charges, wireless transmitting module 6 that charges.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand and understand, the present invention is further explained by combining the following specific drawings.

As shown in fig. 1-3, a wireless charging instrument box for a rechargeable battery-powered data acquisition module comprises a transportation box 1, a grid-shaped lining 2 and a data acquisition module 3, wherein the transportation box 1 is formed by hinging an upper cover and a box body, the grid-shaped lining 2 is fixed in the box body, a plurality of module slots 4 arranged in a matrix are arranged in the grid-shaped lining 2, and the data acquisition module 3 is placed in the module slots 4;

a rechargeable battery (not shown in the figure) is arranged in the data acquisition module 3 to supply power, the rechargeable battery is connected with a wireless charging receiving module 5, and the wireless charging receiving module 5 charges the rechargeable battery;

module groove 4 bottom is equipped with and wireless receiving module 5 complex wireless transmitting module 6 that charges, and 1 one side of transport case is equipped with the interface 11 that charges, and the wireless transmitting module 6 parallel connection that charges of 4 bottoms of all module grooves charges interface 11, and interface 11 and the external power source that charges are connected.

The latticed lining 2 is made of antistatic foam.

The transport case 1 is made of hard plastic or aluminum alloy.

The upper cover is provided with a plurality of convex foam blocks (not shown in the figure), and each module groove 4 corresponds to one foam block.

Examples

In fig. 1, two rows of 10 module slots 4 are provided in the instrument box, and a wireless charging and transmitting module 6 is installed in each module slot. The wireless charging receiving module 5 and the wireless charging transmitting module 6 are both commercially available products. The wireless charging receiving module 5 comprises a receiving coil and a receiving driving board, and the wireless charging transmitting module 6 comprises a transmitting coil and a transmitting driving board.

Previous wired charging process:

the 220V alternating current of the mains supply is connected to each charging seat, each data acquisition module 3 is placed on the charging seat and charged through a wire, and after charging is completed, each module needs to be placed in a common instrument box because the data acquisition module 3 needs to be transported to a test site; the instrument box is transported to the site, and the data acquisition module 3 is taken out for installation and test. Because a plurality of charging seats are inconvenient to carry, after the test was accomplished, for quick charge, need place data acquisition module 3 back to the instrument shelter, transport back the instrument locker room, adopt a plurality of charging seats to charge one by one again. Thus, a charging, using and recharging process is completed.

The charging process of the scheme is applied:

putting the data acquisition module 3 into an instrument box, connecting the instrument box with 220V alternating current of mains supply, after charging is completed, transporting the instrument box to the site, and taking out the data acquisition module 3 for installation and test; after the test is finished, the data acquisition module 3 is placed back to the instrument box, and 220V alternating current is connected, so that the charging can be continued. Thus, a charging, using and recharging process is completed.

As can be seen from the comparison, the scheme greatly simplifies the charging operation process in terms of the charging process alone.

The working principle is as follows:

and a charging interface 11 on the outer side of the instrument box is connected with 220V alternating current. Each wireless charging transmitting module 6 is connected to the external charging interface 11 to obtain electric energy. The coil inside the wireless charging and transmitting module 6 generates an alternating magnetic field, and when the data acquisition module 3 is placed in the instrument box, the data acquisition module 3 is placed in the module groove 4 due to the limitation of the inner interlayer; the receiving coil inside the data acquisition module 3 just corresponds to the transmitting coil, the receiving coil induces induced current in the alternating magnetic field, and the induced current charges the rechargeable battery of the data acquisition module 3.

The transportation box 1 is internally provided with the latticed lining 2, the latticed lining 2 is internally provided with a plurality of module grooves 4 which are arranged in a matrix manner, and the data acquisition modules 3 are placed in the module grooves 4, so that the transportation box is an instrument box for transporting the data acquisition modules 3, the collision is prevented, and a plurality of data acquisition modules 3 can be charged at the same time, the condition that a plurality of charging seats are required to be carried is avoided, the operation is more convenient when the plurality of data acquisition modules 3 are charged, and the cost of the plurality of charging seats is saved; the upper cover is provided with a plurality of convex foam blocks to press the data acquisition module 3 in the module groove 4, so that the charging is more stable.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A wireless charging instrument box for a rechargeable battery power supply data acquisition module is characterized by comprising a transport box, a latticed lining and a data acquisition module, wherein the transport box is formed by hinging an upper cover and a box body;

the data acquisition module is internally provided with a rechargeable battery for supplying power, the rechargeable battery is connected with a wireless charging receiving module, and the wireless charging receiving module charges the rechargeable battery;

the module slot bottom is equipped with the wireless transmitting module that charges with wireless receiving module complex, and transport case one side is equipped with the interface that charges, and the wireless transmitting module that charges of all module slot bottoms portion parallelly connected access interface that charges, the interface that charges is connected with external power source.

2. The wireless charging instrument case for the rechargeable battery powered data collection module of claim 1, wherein the latticed liner is made of antistatic foam.

3. The wireless charging apparatus box for a rechargeable battery-powered data collection module according to claim 1, wherein the transportation box is made of hard plastic or aluminum alloy.

4. The wireless charging instrument case for a rechargeable battery-powered data collection module of claim 1, wherein the top cover is provided with a plurality of raised foam blocks, one for each module slot.

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