KR101664489B1 - Hybrid transform display apparatus and method of recognizing hybrid vehicle - Google Patents

Abstract

A hybrid transform display device and method for recognizing a hybrid vehicle is disclosed. The hybrid transform display device includes a display module; A screen information database for storing a plurality of screen information according to the type of the hybrid vehicle, the information representing energy flow between the components of the hybrid vehicle including at least one of an engine, a generator, and a battery; And acquires the vehicle information of the hybrid vehicle from the hybrid control unit automatically when the connection with the hybrid control unit is confirmed through the vehicle network, reads the screen information corresponding to the acquired vehicle information from the screen information database, The information on the type of engine of the hybrid vehicle includes information on the type of engine of the hybrid vehicle and information on the type of driving of the hybrid vehicle. The information on the engine type of the hybrid vehicle includes an LPG engine, a diesel engine, and a gasoline engine And the information on the drive system of the hybrid vehicle is any one of information on the drive method of the series hybrid and information on the drive method of the parallel hybrid. Therefore, a single display device can be applied to all kinds of hybrid vehicles, thereby reducing cost.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hybrid transform display apparatus and method for recognizing a hybrid vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates generally to a display device, and more particularly, to a display device that acquires vehicle information of a hybrid vehicle from a hybrid control unit automatically when connection with a hybrid control unit is confirmed, And more particularly to a hybrid transform display device and method for recognizing a hybrid vehicle and recognizing a hybrid vehicle capable of automatically displaying a screen suitable for the hybrid vehicle.

Recently, the price of petroleum has risen to the ceiling, and the level of environmental regulation around the world is increasing day by day to prevent environmental pollution. Therefore, in order to reflect this tendency, it is possible to mix the internal combustion engine using the existing petroleum and the battery-operated motor so that the car can be long-lasted with a small amount of oil, Interest in hybrid vehicles is growing.

Generally, a hybrid vehicle is a system that improves fuel efficiency and exhaust gas by combining two or more motors, such as a gasoline engine and an electric motor, a diesel engine and an electric motor, and increases the output. It is divided into a series type and a parallel type. The tandem type uses an engine as an auxiliary power unit to rotate the generator through the engine operation, and the electric energy thus obtained is used to rotate the motor or to store electricity with the battery. In contrast, the parallel type uses an electric motor Is used as a power source at the same time. Particularly, by operating the internal combustion engine at all times in the optimum efficiency range, the hybrid vehicle is excellent in engine efficiency and has a large effect of reducing exhaust gas. It is also suitable for urban driving characteristics, which require frequent stops between short distances.

In addition, such advanced hybrid vehicles are provided with a display module that displays energy flow between respective components such as an engine, a generator, and a battery, thereby displaying a flow of energy to a driver in real time. Various types of driving sources of the hybrid vehicle are used. For example, a diesel engine, a gasoline engine, an LPG engine, or the like is used only as an engine type, and various driving modes such as a series type and a parallel type are used in a driving mode. However, And it has been developed and used. Accordingly, the display module is incompatible with other hybrid vehicles, and the cost of the hybrid vehicle is increased.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a hybrid vehicle which is compatible with other types of vehicles by displaying various types of hybrid vehicle information regardless of the type of the hybrid vehicle, Which is capable of recognizing a hybrid vehicle that can be displayed and automatically displaying a screen suitable for the hybrid vehicle, and recognizing the hybrid vehicle.

According to an aspect of the present invention, there is provided a display device of a hybrid vehicle including a hybrid control unit for controlling an operation of a hybrid vehicle, the display device comprising: a display module; A screen information database for storing a plurality of screen information corresponding to the type of the hybrid vehicle, the information representing an energy flow between the components of the hybrid vehicle including at least one of an engine, a generator, and a battery; And automatically acquires the vehicle information of the hybrid vehicle from the hybrid control unit when the connection with the hybrid control unit is confirmed through the vehicle network and reads the screen information corresponding to the acquired vehicle information from the screen information database Wherein the vehicle information includes information on an engine type of a hybrid vehicle and information on a driving method of the hybrid vehicle, and the information on the engine type of the hybrid vehicle includes an LPG The information on the drive system of the hybrid vehicle is any one of information on the driving method of the series hybrid and information on the driving method of the parallel hybrid.
The vehicle network may be any one of a CAN (Control Area Network), a MOST (Media Oriented Systems Transport) network, and a LIN (Local Interconnect Network).
Another embodiment of the present invention is a display method of a hybrid vehicle including a hybrid control unit and a display module for controlling the operation of the hybrid vehicle, the display method comprising the steps of: (a) determining whether connection with the hybrid control unit ; (b) acquiring vehicle information of the hybrid vehicle from the hybrid control unit when a connection with the hybrid control unit is confirmed; And (c) reading screen information corresponding to the acquired vehicle information from the screen information database and displaying the screen information through the display module, wherein the screen information database includes at least one of an engine, a generator, and a battery The information on the type of the hybrid vehicle includes information on the type of the hybrid vehicle and the driving method of the hybrid vehicle. Information on an engine type of the hybrid vehicle is one of an LPG engine, a diesel engine, and a gasoline engine information, and the information on the drive system of the hybrid vehicle includes information on a driving method of the series hybrid, Type hybrid drive system Which is one of the beams.
The vehicle network may be any one of a CAN (Control Area Network), a MOST (Media Oriented Systems Transport) network, and a LIN (Local Interconnect Network).

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According to the present invention, when connected to a hybrid control unit for controlling a hybrid vehicle, the vehicle information of the hybrid vehicle is automatically recognized by connecting through a vehicle network, and a screen corresponding to the information is displayed. It is possible to display the vehicle information of the hybrid vehicle of the type.

Further, since the present invention can be applied to various hybrid vehicles through an information display device of one hybrid vehicle, the cost can be reduced and the vehicle can be compatible with other vehicles.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a hybrid transform display apparatus for recognizing a hybrid vehicle according to an embodiment of the present invention; FIG.
2 is a view showing various screens displayed through the silver display module.
3 is a diagram illustrating a hybrid transform display method for recognizing a hybrid vehicle according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the technical idea of the present invention. .

1 is a block diagram illustrating a hybrid transform display apparatus 100 for recognizing a hybrid vehicle according to an embodiment of the present invention. The hybrid transform display apparatus 100 includes a display module 101, a cluster CPU (Central Processing Unit) 103, (102). 2 is a view showing various screens displayed through the display module. In the meantime, in the present invention, the term 'transform' means that the hybrid vehicle is automatically deformed, and when it is connected to a hybrid vehicle (HCU: Hybrid Control Unit in particular), the hybrid vehicle is recognized and the display screen suitable for the hybrid vehicle can be immediately changed.

The display module 101 is an apparatus such as a liquid crystal display, and in the present invention, it helps the driver to understand by outputting unique screens and energy flows for various hybrid vehicles. Such a display screen is illustrated in Fig.

2, the HCU 10 is an abbreviation of Hybrid Control Unit. The HCU 10 collectively controls the elements of the hybrid propulsion unit 20, such as the engine 21, the motor 22, and the main battery 23 Thereby controlling energy flow between the respective components so as to operate in an appropriate traveling mode. Particularly, in connection with the present invention, the HCU 10 is connected to the cluster CPU 103 via a vehicle network. When connected to the cluster CPU 103, the HCU 10 transmits the vehicle information of the hybrid vehicle to the cluster CPU 103 send. Based on such vehicle information, the cluster CPU 103 can select a screen corresponding to the vehicle information from the screen information database 102 and display it through the display module 101. [ In particular, the vehicle network may be any one of a CAN (Control Area Network), a MOST (Media Oriented Systems Transport) network, and a LIN (Local Interconnect Network).

The hybrid propulsion device 20 is a driving source for driving a hybrid vehicle including an engine 21, a motor 23, a main battery 23, and the like.

A gasoline engine, a diesel engine, and an LPG engine are used as the engine 21. Although not shown in the drawings, the engine 21 rotates at a constant RPM under the control of the engine control unit to generate a mechanical rotational force.

The motor 23 is controlled by an inverter (not shown) to generate a driving force.

The main battery 23 is managed by a battery management system (BMS) (not shown) and includes various sensors for monitoring a large number of battery cells and states of the respective battery cells such as temperature and voltage . The detailed configuration and operation of the hybrid propulsion systems 10 and 20 are out of the scope of the present invention and will not be described in detail since they are not the core of the present invention.

On the other hand, the display module 101 can display a screen according to the type of engine of the hybrid vehicle as the vehicle information of the hybrid vehicle. As shown in Fig. 2, (a) shows a case where the engine is an LPG engine, (b) shows a case where the engine is a diesel engine, and (c) shows a case where the engine is a gasoline engine. However, the vehicle information according to the kind of the engine is merely an example. In the present invention, a screen applicable to various hybrid vehicles can be displayed through one hybrid transform display device 100. In another embodiment of the vehicle information, the vehicle information may be information on the hybrid drive mode. That is, the hybrid drive mode can be largely divided into a series hybrid drive mode and a parallel hybrid drive mode as described in the background art. In the present invention, a screen of a vehicle driven in a series hybrid drive mode and a parallel hybrid drive mode Screen information on the screen of the vehicle driven in the mode can be displayed. The series hybrid drive mode and the parallel hybrid drive mode are well known in the art and will be omitted for the sake of simplicity of the invention.

The cluster CPU 103 automatically acquires the vehicle information of the hybrid vehicle from the hybrid control unit 10 when the connection with the hybrid control unit 10 is confirmed and transmits the screen information corresponding to the acquired vehicle information to the screen information Reads out from the database 102, and displays it through the display module 101.

The screen information database 102 stores various kinds of screen information and is read by the cluster CPU 103. The screen type may be one according to the type of the engine as shown in FIG. But may be various types of screens such as a driving mode of the hybrid vehicle, for example, a screen for a serial hybrid driving mode or a parallel hybrid driving mode.

3 is a diagram illustrating a hybrid transform display method for recognizing a hybrid vehicle according to an embodiment of the present invention. For the sake of simplicity of the invention, a description overlapping with those described above with reference to FIG. 1 will be omitted.

Referring to FIG. 3, in step 200 (S200), the cluster CPU 103 of the hybrid transform display device 100 confirms whether it is connected to the HCU 10 via the vehicle network.

In step 201 (S201), the cluster CPU 103 acquires vehicle information through communication with the HCU 10 when it is connected to the HCU 10 as a confirmation result.

In step 202 (S202), the cluster CPU 103 confirms whether the obtained vehicle information is information on the gasoline engine. If it is determined that the engine is for a gasoline engine, the process proceeds to step 203 (S203). Otherwise, the process proceeds to step 205 (S205).

In step 203 (S203), the cluster CPU 103 reads the screen (Fig. 2 (c)) for the gasoline engine from the screen information database 102 and displays the read screen through the display module 101. [

On the other hand, in step 205 (S205), the cluster CPU 103 confirms whether the acquired vehicle information is information on the diesel engine. If it is determined that the engine is a diesel engine, the process proceeds to step 206 (S206). Otherwise, the process proceeds to step 207 (S207).

In step 206 (S206), the cluster CPU 103 reads the screen (Fig. 2 (b)) for the diesel engine from the screen information database 102 and displays the read screen through the display module 101. [

2 (a)) from the screen information database 102 and displays the read screen on the display module 101 via the display module 101 do.

Thereafter, in step 204 (S204), the cluster CPU 103 receives information on the energy flow from the HCU 10 in real time, and displays information on the received energy flow through the display module 101 in real time . Although it has been described in step 202 (S202) to step 207 (S207) that vehicle information according to the engine type is displayed, this is merely an embodiment, and as described in connection with FIG. 1, In this case, the screen displayed through the display module 101 may be of a serial type or a parallel type.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like. The computer readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

In the drawings and specification, there have been disclosed preferred embodiments. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: HCU
20: Hybrid propulsion unit
100: Hybrid transform display device
101: Display module
102: Screen information database

Claims (8)

1. A display device of a hybrid vehicle including a hybrid control unit for controlling operation of a hybrid vehicle,
A display module;
A screen information database for storing a plurality of screen information corresponding to the type of the hybrid vehicle, the information representing an energy flow between the components of the hybrid vehicle including at least one of an engine, a generator, and a battery; And
When the connection with the hybrid control unit is confirmed through the vehicle network, the vehicle information of the hybrid vehicle is automatically obtained from the hybrid control unit, the screen information corresponding to the obtained vehicle information is read out from the screen information database And a cluster CPU for displaying through the display module,
The vehicle information includes information on an engine type of the hybrid vehicle and information on a driving method of the hybrid vehicle,
Wherein the information on the engine type of the hybrid vehicle is one of an LPG engine, a diesel engine, and a gasoline engine information,
Wherein the information on the drive system of the hybrid vehicle is any one of information on a driving method of the series hybrid and information on a driving method of the parallel hybrid. The method according to claim 1,
The vehicle network comprising:
Wherein the control unit is one of a CAN (Control Area Network), a MOST (Media Oriented Systems Transport) network, and a LIN (Local Interconnect Network). delete delete A display method of a hybrid vehicle including a hybrid control unit and a display module for controlling the operation of the hybrid vehicle,
(a) confirming whether or not the cluster CPU is connected to the hybrid control unit through a vehicle network;
(b) acquiring vehicle information of the hybrid vehicle from the hybrid control unit when a connection with the hybrid control unit is confirmed; And
(c) reading out screen information corresponding to the obtained vehicle information from the screen information database and displaying through the display module,
Wherein the screen information database is information representing an energy flow between components of a hybrid vehicle including at least one of an engine, a generator, and a battery, stores a plurality of screen information according to a type of the hybrid vehicle,
The vehicle information includes information on an engine type of the hybrid vehicle and information on a driving method of the hybrid vehicle,
Wherein the information on the engine type of the hybrid vehicle is one of an LPG engine, a diesel engine, and a gasoline engine information,
Wherein the information on the drive system of the hybrid vehicle is any one of information on a driving method of the series hybrid and information on a driving method of the parallel hybrid. 6. The method of claim 5,
The vehicle network comprising:
Wherein the controller is one of a CAN (Control Area Network), a MOST (Media Oriented Systems Transport) network, and a LIN (Local Interconnect Network). delete delete

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