KR20090047938A - The serial linkage system about universal battery charger with two rs-232 ports that connected a pos in a cvs. - Google Patents

Abstract

     The present invention is to connect a plurality of universal battery charger interlocked with the electronic payment system (POS) in various stores, including a convenience store, by installing two RS-232C ports in a separate charger to charge the POS and the plurality of universal batteries A control apparatus and method for connecting a series of devices in series with each other without limitation.

Mobile Phone, Mobile Phone, Convenience Store, POS, RS-232C, Charging, Battery, Universal

Description

   A control device and method for interworking with an in-store electronic payment system (POS) under serial connection of a plurality of universal battery chargers using two RS-232C ports. {The serial linkage system about universal battery charger with two RS-232 ports that connected a POS in a CVS. }

     According to the present invention, two RS-232C ports are applied to a plurality of battery chargers connected in series with an electronic payment system (POS) installed at a counter in a store to report charging preparation or completion information in each charger to a POS, and from the POS. The present invention relates to a universal battery charging device and a method for transmitting / receiving data with a POS, where charging start information and the like according to payment of payment fees can be efficiently sent and received.

  In general, the POS in the store has one RS-232C port for extended connection with external devices, and it operates in conjunction with a plurality of mobile phone battery chargers through this path, and one or several chargers in one charger. It is designed to charge different batteries at the same time.

     As shown in FIG. 1, a conventional RS-232C expansion device or a switching device is used. As described above, since only one RS-232C port is open to the outside in the POS, when a plurality of universal battery chargers are connected, a separate A specific hardware (H / W) device was needed.

  However, there are several inherent problems in such a system. For example, if the space of a store with high demand that requires the expansion of the charger is small, a burden arises that an additional installation place for additional equipment other than the space due to the additional charger is required.

       In addition, if you want to install a certain number of chargers or units at a store with one POS, you need to attach an RS-232C extension with that number of ports. It is often necessary to attach the extension with a port with a. At this time, if the number of chargers to be installed is smaller than the number of ports of the expansion unit, the remaining ports are excessive. On the contrary, if the number of charging devices to be installed is larger than this, the extension unit must be attached to the lower part of the expansion unit first connected to the POS. There are disadvantages.

       In addition, there is a problem in that additional costs are greatly generated due to structural disadvantages even when the battery charging device is expanded or reduced in the store in connection with the above-described problem.

       In addition, if a failure occurs in the existing RS-232C expansion device, there is a risk that the operation of the entire charging device or unit located at the lower level may not be possible, which may interfere with the entire battery charging service.

      Also, from the standpoint of the head office that manages multiple stores, inefficiency is achieved by fixed operation of the same charger that meets the same demand in the situation that the sales conditions of the charging service vary greatly depending on the location conditions for each merchant. This exists.

Accordingly, the technical problem to be achieved by the present invention is to solve the above problems, and even in a POS having one serial port (RS-232C), the number of charging units or devices can be freely added or subtracted according to various situations. To provide a charging service system.

In addition, the technical problem to be achieved by the present invention is that the POS recognizes the state of the individual device through a pre-defined code and the packet formed by the code in the process of interworking a plurality of charging units or devices with the POS, the individual device is POS It is to provide an organic charging system by recognizing the instructions sent by each other and the instructions sent by adjacent individual devices.

Technical means for achieving the above object, the present invention comprises a plurality of chargers each having two serial ports; RS-232C interface unit for transmitting a specific signal between the plurality of charging devices or between the charging device and the in-store electronic payment system (POS); Determining the signal received from the outside of the charging device and the situation inside the charger To provide a battery charging system comprising a microprocessor for generating a signal to be sent to the next adjacent device.

The control and method of the battery charging system according to the present invention can be easily installed a plurality of charging devices in a single POS, there is an efficiency and flexibility that can be operated by adding or subtracting the number of devices according to the demand situation.

In addition, the control and method of the system according to the present invention, unlike the prior art, does not require a separate expansion device on top of the charging device, thereby preventing the entire operation of the charging device or unit, and the In the event of failure of some charging devices, there is a stability that the rest of the system can be operated normally.

Detailed description of the invention will be described with reference to the accompanying drawings. However, the scope of the present invention should not be construed as being limited to the details described below. The system composed of the plurality of chargers or charging units described in the present invention may be in the form of a singular product having a plurality of charging units to enable the application according to the present invention according to the mechanical form of the device, that is, the design form. .

Embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art.

2 is a view showing the components of the system according to an embodiment of the present invention. Referring to FIG. 2, a multi-type battery charging system includes a POS 20, an RS-232C cable 30, and an interface 40 including two serial terminals COM 1 and COM 2. 52, 53, and 54, and may include a transmit / receive packet 60.

POS 20 is connected to 'COM 1' of the interface 40 as an RS-232C cable 30 to the first charger 51 and to the second charge with the remaining 'COM 2' of the first charging device 51. 'COM 1' of the device 52 is connected. The second charger 52, the third charger 53, and the third charger 53 and the fourth charger 54 may be connected in the same manner.

If a battery to be charged is inserted into the second charger 52 among the plurality of chargers 51, 52, 53, and 54, the second charger 52 transmits and receives a packet 60 indicating that it is ready to charge. To form. The transmit / receive packet 60 enters the 'COM 2' of the first charger 51 through 'COM 1' of the interface 40 and the POS through the 'COM 1' of the first charging device 51 again. 20 may be passed.

When the operator of the store instructs the charging start through the POS 20, the POS 20 constructs a charge approval instruction code in units of packets and transmits the RS 40C toward the charger side via the RS-232C cable 40. The transmission and reception packet 60 may enter 'COM 1' of the first charger 51 in the system configuration.

 Thereafter, the microprocessor of the first charging device 51 identifies that there is no battery to charge through the logic circuit, and sends a charging instruction from the POS 20 through the 'COM 2' to the second charging device 52. Can be passed as 'COM 1'.

Similarly, in the second charging device 52, the microprocessor identifies that there is a battery to be charged through the logic circuit, initiates charging, and at the same time bypasses the charging instruction toward the remaining third charger 53 (By-). It does not pass, and forms a transmission / reception packet 60 indicating that charging is properly started toward the POS 20 in the opposite direction, and transmits the packet to the POS 20.

In this case, when another battery to be charged is inserted into the fourth charging device 54 and the POS 20 requests to start charging, the transmission / reception packet 60 started from the POS 20 passes through the same method as described above. The battery charging operation may be performed in the first charging device 54. Then, the fourth charging device 54 sends the information indicating that the charging is being performed properly through the 'COM 1' terminal of the fourth charging device 54 to the 'COM 2' of the third charging device 53. By the second charger 52 and the first charging device 51 to reach the POS (20).

If a failure occurs in the third charging device 53 during operation, only the third charging device 53 is disconnected from the system and 'COM 2' and the fourth charging device 54 of the second charging device 52 are removed. ), And connect 'COM 1' in the same way. Substantially the fourth charging device 54 may soon become the third charging device 53 on the whole system.

In addition, if the simultaneous demand for charging increases during operation and additional charging devices are required, the system expansion is completed by connecting charging devices of the same model in the same way as the last connected charging device. In this way, the number of charging devices can be arbitrarily changed according to the situation in the whole system.

3 is a diagram illustrating an example of a transmission / reception packet 60 in FIG. 2. Referring to FIG. 3, the transmission / reception packet 60 allows several bytes to form one packet. The middle part excluding the first part and the last part of the packet may specify various operation states or commands, or position identification information of a specific individual device in the POS 20.

A packet defined for command or status reporting can be roughly divided into two types, a total packet 100 and an internal packet 200. The entire packet 100 is delivered from the individual charging device to the POS, and the internal packet 200 may be classified as a packet coming and going only inside an adjacent charger or charging unit, and used appropriately as needed. Having multiple internal charging units in the device helps to build an effective system.

Specifically, a structure for determining the source of generation of the packet through the packet received by the POS 20 will be described in detail. Some of the intermediate portions of the transmission / reception packet 60 may be generated by the device generating the packet. Start with 00 'and increment it by' 01 'each time it passes an adjacent individual device. This is referred to as 'generic code' (77) in the present invention. As an example, when the third charging device 53 transmits the charging to the POS 20, the generic code 77 of the packet generated by the third charging device 53 is '00' and the POS 20 The second charging device 52 passes through the second charging device 52, where the generic code 77 is added with 01 to become '01'. After roughing in this manner, the generic code 77 when entering the POS 20 becomes '03', which causes the POS 20 to perform the third charging device 53. ) Can be determined. That is, if the generic code 77 in the transmission / reception packet 60 reaching the POS 20 when a charging device is generated and sent is 'n', the charging device is the nth charging device.

In addition to the generic code 77, the remaining portions of the packet are allocated to contain various information such as charge waiting, performance, completion, approval, and request as described above, and two RS-232C ports (' By operating the microprocessor and the RS-232C interface with COM 1 'and' COM 2 '), any device can send and receive information in both directions with two adjacent devices.

1 is a view showing the structure of a plurality of universal battery charging device or unit in a conventional store.

2 is a view showing the components of the system according to an embodiment of the present invention.

3 is a diagram illustrating an example of a transmission and reception packet according to an embodiment of the present invention.

Claims (4)

Multiple chargers or charging units; One of the plurality of chargers or units is provided with two serial ports ('COM 1', 'COM 2') for each of the respective charging devices or units and uses the in-store electronic payment system (POS) and a plurality of adjacent charging devices. Or universal battery charging system that operates in series with any number of units in series.        The method of claim 1, The plurality of chargers or charging units may include a charging system control device for forming a data packet through a microprocessor existing for each charging device and performing bidirectional communication of an independent channel with an adjacent device; And a data packet for the bidirectional data communication of the system.        The method according to claim 1 or 2, And said data packet is roughly divided into a whole packet for data communication between an in-store electronic payment system (POS) and an individual charger and an internal packet for data communication between an individual charger or a charging unit.       The method according to any one of claims 1 to 3, In the form of a data packet by an individual charging device or unit, a 'generic code' can be used to determine which charging device or unit is the source of the packet based on an in-store electronic payment system (POS). Universal battery charging system that can be configured.

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