KR20140055177A - Apparatus for preventing re-booting measuring instruments in dynamometer car - Google Patents

Abstract

The present invention comprises a main battery, a sub battery electrically connected to the main battery, and a measuring device electrically connected to the main and sub batteries by a switching unit. The switching unit electrically connects the main battery to the sub battery when the switching unit is turned on and disconnects the main battery from the measuring device when a key is in a start mode. According to the present invention, a performance measuring device for test vehicles disconnects the main battery from the sub battery to prevent the voltage of the sub battery from dropping when the key is in the start mode so that the measuring device is continuously supplied with stable power from the sub battery. The invention is capable of preventing the measuring device from re-booting due to a voltage drop of the main battery.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a re-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reboot preventing apparatus for a test vehicle performance measuring instrument, and more particularly, to a reboot preventing apparatus for a test vehicle performance measuring apparatus capable of supplying a stable power to a measuring apparatus for measuring the performance of a test vehicle ≪ / RTI >

The automobile is composed of main electronic devices mounted inside the automobile such as instrument panel, audio, electric lamp, temperature control device, initial start motor, etc., and extended electronic devices such as navigation device, hands- And is electrically connected to the main battery of the vehicle.

Meanwhile, in the process of developing the automobile, various measuring instruments for measuring the performance of the automobile while driving are used, and the power source necessary for the measuring instrument can be supplied through the auxiliary battery. Here, the auxiliary battery is electrically connected to the main battery, which is charged by a generator that generates electricity during running of the vehicle.

Generally, the car will use the main battery voltage at start-up. That is, when the start button or the starter key is inserted into the key box and is rotated to the start mode, the starter motor is rotated using the power supplied from the main battery to drive the engine. A large amount of current is temporarily consumed to operate the starter motor at the start of the vehicle, so that the voltage of the main battery is lowered at startup and the auxiliary battery electrically connected to the main battery also falls down.

In this case, various measuring devices for measuring the performance of the differential car are supplied with power through the auxiliary battery when the ignition key is in the ON mode, and the voltage drop of the auxiliary battery due to the voltage drop of the main battery at the start- There is a problem that the power is turned off momentarily and the power is turned on again when the voltage is normally outputted, and then the power is rebooted.

The measuring device is a precise device for detecting very fine current flow, etc., and it is suddenly cut off the power supply at start-up under the condition that the power is supplied from the auxiliary battery, so that it can be seriously damaged by hardware. Also, when the ignition key is located in the OFF mode, if the power of the measuring instruments is not turned off, there is a problem that overcharge of the auxiliary battery and the main battery occurs.

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 measuring device for measuring the performance of a test vehicle used for vehicle development, And to provide a device for preventing rebooting of a test vehicle performance measuring device for preventing a reboot of the measuring device due to battery voltage drop.

According to an aspect of the present invention, there is provided a device for preventing rebooting of a test vehicle performance measuring instrument, comprising: a main battery; an auxiliary battery electrically connected to the main battery; And switching means for supplying power to the measuring device by electrically connecting or disconnecting the measuring device.

According to an embodiment of the present invention, in the switching means, when the ignition key is located in the ACC mode or the ON mode, the switching means switches the first and second batteries electrically connected to each other, And a second relay for releasing an electrical connection between the main battery and the auxiliary battery by an applied starting power source when the starter key is located in the start mode, As shown in FIG.

According to an embodiment of the present invention, the first relay is connected to the output terminal of the main battery, the third relay is connected to the input terminal of the auxiliary battery, and the second relay is connected to the first So that current does not flow through the first coil part of the relay.

According to the present invention, when the ignition key is in the start mode, the measuring device for measuring the performance during running of the test vehicle can prevent the drop of the auxiliary battery by releasing the electrical connection between the main battery and the auxiliary battery . Therefore, since the measuring device can continuously receive stable power from the auxiliary battery, there is an advantage that the measuring device is prevented from being rebooted due to the voltage drop of the main battery at the start of the vehicle.

Also, when the ignition key is in the OFF mode, the electrical connection between the main battery and the auxiliary battery, which are electrically connected to the measuring device, is released, thereby avoiding the risk of damaging the battery due to over discharge.

FIG. 1 and FIG. 3 are schematic views showing an apparatus for preventing rebooting of a test vehicle performance measuring instrument according to an embodiment of the present invention.
4 is a circuit diagram showing an apparatus for preventing rebooting of a test vehicle performance measuring apparatus according to another embodiment of the present invention.

The following detailed description is merely illustrative, and is merely an example of the present invention. Further, the principles and concepts of the present invention are provided for the purpose of being most useful and readily explaining.

Accordingly, it is not intended to provide a more detailed structure than is necessary for a basic understanding of the present invention, but it should be understood by those skilled in the art that various forms that can be practiced in the present invention are illustrated in the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 and FIG. 3 are schematic views showing an apparatus for preventing rebooting of a test vehicle performance measuring instrument according to an embodiment of the present invention.

1 and 3, a device for preventing rebooting of a test vehicle performance measuring instrument includes a main battery 10, an auxiliary battery 20 electrically connected to the main battery 10, and a switching means 1000 And a measuring device 30 electrically connected to the main battery 10 and the auxiliary battery 20. The switching means 1000 may be connected to the main battery 10 according to the position of the key inserted into the key box, The auxiliary battery 20, and the measuring instrument 30, respectively.

1 to 3 show the position of the ignition key 45 inserted in the key box 40, that is, the OFF mode 41, the ACC mode 42, , The ON mode 43 and the STATR mode, the present invention is not limited thereto. Hereinafter, referring to the switching control state according to the above-described key position, a person skilled in the art can utilize various electronic devices So that the circuit can be designed. The power of the main battery 10 is applied to various accessories such as an auto door lock, an alarm, a dashboard, an audio, an electric lamp, an air conditioner, a cigar jack, and a starter motor according to the state of the ignition key 45 inserted into the key box 40 The circuit configuration (not shown) is obvious to those skilled in the art, so a detailed description thereof will be omitted.

The power source to which the power of the main battery 10 is applied to the electric components of the test vehicle according to the state of the ignition key 45 inserted into the key box 40 is switched to the ACC mode 42 or the ON mode 43 The main battery 10 supplies electricity to various accessories such as the audio and cigar jacks, and a power source applied to various accessories is referred to as an accessory power source.

When the key 45 is located in the START mode 44, power is supplied to the starter motor from the main battery 10, and the power supplied to the starter motor is referred to as a starting power source. When the key 45 is in the OFF mode 41, no electric power is supplied to the various accessories and the starting motor from the main battery 10.

When the key 45 is positioned in the ACC mode 42 or the ON mode 43, the switching means 1000 detects the accessory power applied to the test vehicle and outputs the main battery 10 and the auxiliary battery 20 When the first relay 100 and the third relay 300 and the key 45 for switching to electrically connect the main battery 10 and the auxiliary battery 20 are located in the START mode 44, And a second relay 200 for switching the electrical connection to be disconnected. The relays 100, 200, and 300 turn on or off the respective switches 110, 210, and 310 according to the states of currents applied to the respective coil sections 120, 220, and 220 and the coil section. When the current flows through the coil sections 120 and 320, the first and second relays 100 and 300 operate the switches 110 and 310 to electrically connect the switching terminals to each other Type contacts). On the other hand, when a current flows through the second coil part 220, the second relay 200 operates the second switch 210 to open the switching both terminals to release the electrical connection (B type contact).

Hereinafter, the control state of the switching means will be described in accordance with the state of the ignition key 45 inserted into the key box 40. [

1, when the key 45 is in the OFF mode 41, the power is not applied to the various accessories of the test vehicle and the starter motor. Therefore, the first relay 100 and the second relay 100 of the switching means 1000, The third terminal of relay 300 is open, and the switching terminal of second relay 200 is short-circuited. When the key 45 is located in the ACC mode 42 or the ON mode 43, the accessory power supplied from the main battery 10 to various accessories is supplied to the first relay 100 of the switching means 1000 1 coil portion 120 and the third coil portion 220 of the third relay 200 to short-circuit the switching both terminals by the operation of the first switch 110 and the third switch 310, 10 and the auxiliary battery 20 are electrically connected to each other. Accordingly, power is applied to the measuring device 300 electrically connected to the front end of the third relay 300, and the measuring device is turned on.

2, when the key 45 is located in the START mode 44, the starting power supplied from the main battery 10 to the starter motor is supplied to the second relay of the switching means 1000 200 to the second coil portion 220 of the main battery 10 to release the electrical connection between the main battery 10 and the auxiliary battery 20 by opening the switching both terminals by the operation of the second switch 210, The auxiliary battery 20 is not affected by the voltage drop of the main battery 10. Therefore, the measuring instrument 300 electrically connected to the front end of the third relay 300 can stably receive the power from the auxiliary battery 20 only when the test vehicle is started, The first relay 200 is short-circuited to both the main battery 10 and the auxiliary battery 200. When the power is not supplied to the second relay 200, (20), and the measuring instrument (30) can be continuously supplied with stable power.

3, when the key 45 is in the OFF mode 41, since the accessory power is not applied to the switching means 1000, the first relay 100 and the third relay 300 are turned on, The switching both terminals are opened so that the measuring instrument can be electrically disconnected from the main battery 10 and the auxiliary battery 20 to prevent the risk of damaging the battery due to over discharge.

4 is a circuit diagram showing an apparatus for preventing rebooting of a test vehicle performance measuring apparatus according to another embodiment of the present invention.

4, the switching means 1000 includes a first relay 100 connected to the output terminal of the main battery 10 when the key 45 is located in the ACC mode 42 or the ON mode 43, The third relay 300 connected to the input terminal of the auxiliary battery 20 is driven to connect the main battery 10 and the auxiliary battery 20 to supply power to the measuring instrument 30, And a second relay 200 for switching the current to flow in the first coil part 120 of the first relay 100 when the first relay 100 is located in the START mode 44. [

When the accessory power source is applied to the switching means 1000, the accessory current Iacc passes through the diode D2 and is supplied to the third relay 300 The third switch 310 is short-circuited and the first relay 100 passes through the second switch 210 and the diode D3 in which both terminals of the switch are short-circuited, The first switch 110 is short-circuited. Therefore, when the key 45 is located in the ACC mode 42 or the ON mode 43, the main battery 10 and the auxiliary battery 20 are electrically connected and electrically connected to the front end of the third relay 300 And supplies the power to the measuring device 300 that is provided.

Next, when the key 45 is located in the START mode 44, the starting power Istart is applied to the second coil part 200 of the second relay 200 The first switch 110 is operated by closing the accessory current Iacc flowing through the first coil part 120 as the second switch 210 is operated to open both ends of the switch, Lt; / RTI > As a result, when the key 45 is located in the START mode 44, the first relay 100 is opened at the same time that the second relay 200 is opened (here, the third relay is the accessory current Iacc) The main battery 10 and the auxiliary battery 20 are disconnected from each other and the auxiliary battery 20 is disconnected from the main battery 10 due to the voltage drop of the main battery 10. [ .

The reason why the positive terminal of the switch of the third relay is connected even when the key 45 is located in the START mode 44 is that the voltage drop of the main battery 10 at the time of starting is a voltage drop from 6V to 9V (Relay operation voltage 6V, operation release voltage 4V) because it does not fall below 4V which is the minimum voltage for short-circuiting the third relay. That is, if the accessory power supplied from the main battery 10 drops to a voltage of 4 V or less at the start, the third relay 310 is opened by the accessory current Iacc corresponding to the accessory power supply, The third relay 300 is maintained in a short-circuited state.

Therefore, the measuring device 300 electrically connected to the front end of the third relay 300 can receive power from the auxiliary battery 20 only when the test vehicle starts. When the key 45 is again placed in the ACC mode 42 or the ON mode 43, since the starting current Istart does not flow in the second coil part 220 to the second relay 200, The first relay 100 is short-circuited so that the main battery 10 and the auxiliary battery 20 are electrically connected to each other through the short- And the measuring instrument 30 can be continuously supplied with stable power.

Accordingly, when the measuring device for measuring performance of the test vehicle is in the start-up mode, the measuring device prevents the drop of the auxiliary battery by releasing the electrical connection between the main battery and the auxiliary battery so that the measuring device continuously supplies a stable power It is possible to prevent the reboot of the measuring instrument due to the voltage drop of the main battery when the vehicle is started.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

10: main battery 20: auxiliary battery
30: Measuring device 40: Key box
41: off mode 42: ACC mode
43: ON mode 44: Start mode
45: starter key 100: first relay
110: first switch part 120: first coil part
200: second relay 210: second switch
220: second coil part 300: third relay
310: third switch 320: third coil part
1000: Switching means

Claims (3)

Main battery,
An auxiliary battery electrically connected to the main battery,
And switching means for supplying power to the measuring device by electrically connecting or disconnecting the main battery and the auxiliary battery according to the position of the ignition key.
The method according to claim 1,
The switching means
A first relay and a third relay for electrically connecting the main battery and the auxiliary battery by an accessory power source when the ignition key is located in the ACC mode or the ON mode,
And a second relay for releasing an electrical connection between the main battery and the auxiliary battery by an applied starting power source when the ignition key is located in the startup mode,
Wherein the measuring device is electrically connected to a front end of the third relay.
3. The method of claim 2,
The first relay is connected to an output terminal of the main battery,
The third relay is connected to the input terminal of the auxiliary battery,
Wherein the second relay switches the current to prevent the current from flowing to the first coil part of the first relay by the applied starting power source.

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