KR102510225B1 - Oxygen supply device for vehicle foil with after-blow function for vehicle - Google Patents

Abstract

The present invention relates to an oxygen supply device for car camping that also has an after blow function for a vehicle. According to the present invention, the oxygen supply device for car camping having an after blow function for a vehicle can be connected in the form of a module between a blower motor of a vehicle and a power connector, can separately charge a battery through a cable connected to the module. By rotating the blower motor for a certain period of time after parking the vehicle using the charged battery, moisture and odors in the vehicle and air conditioner are removed. In addition, by using the charged battery, the blower motor is operated at regular time intervals when the vehicle is parked to supply oxygen outside the vehicle at regular intervals with the number of air volume settings set by the user inside the vehicle, thereby preventing vehicle accidents.

Description

Oxygen supply device for vehicle foil with after-blow function for vehicle

The present invention relates to an oxygen supply device for vehicles with an after-blow function for a vehicle, and more particularly, a module that can be connected between a blower motor of a vehicle and a power connector, and a separate battery is charged through a cable connected to the module. After the vehicle is parked using the charged battery, the blower motor is rotated and operated for a certain period of time to remove moisture and odor in the vehicle and the air conditioner, and the blower motor is constantly operated when the vehicle is parked using the charged battery. The present invention relates to an oxygen supply device for vehicles with an after-blow function for vehicles that prevents safety accidents by supplying oxygen to the outside of the vehicle at regular time intervals and the number of air volumes set by the user inside the vehicle by operating at time intervals.

In general, vehicles are equipped with various convenience devices, and a representative example of such convenience devices is an air conditioner that properly cools the interior of the vehicle to maintain a comfortable interior temperature.

A vehicle air conditioner uses latent heat of refrigerant that is compressed and circulated by the rotational force of an engine, and is composed of an evaporator, a compressor, a condenser, an expansion valve, and the like.

In the air conditioner, the gaseous refrigerant evaporated by the evaporator is sucked into the compressor, compressed, and then sent to the condenser as a high-temperature, high-pressure gaseous refrigerant. After being expanded to a wet steam state, it is sent back to the evaporator, where it is vaporized into a low-temperature, low-pressure gaseous state.

As a result, in the evaporator, the refrigerant is evaporated and the heat of the air passing through the evaporator is taken away. At this time, the cooled air is introduced into the vehicle interior to perform cooling.

On the other hand, as described above, in order to supply cool air to the interior of the vehicle, the blower motor must be operated to receive air from outside the vehicle through the duct. It is discharged to each location in the vehicle interior through a ventilation system.

However, when the air conditioner is operated, a large amount of moisture is inevitably generated on the surface of the evaporator and its surroundings where the temperature has decreased as the cold refrigerant and the hot air exchange heat with each other, and this moisture causes mold or bacteria to propagate.

In addition, in general, current vehicles are configured to discharge most of the moisture generated in the evaporator to the outside of the vehicle through a drain hose. At this time, in a typical vehicle air conditioner, moisture may not be completely discharged through the drain hose and may remain around the radiating fin of the evaporator. This residual moisture creates an environment in which mold or bacteria in the vehicle proliferates and generates an unpleasant odor when the air conditioner is restarted, which is a big problem at the present time when a pleasant vehicle riding environment is greatly required.

Accordingly, in some vehicles, an after blow function is supported to dry moisture remaining in the air conditioner by forcibly supplying air for a certain period of time after an electronic control unit (ECU) stops driving the air conditioner.

However, the above-described after-blow function is mainly operated only after the vehicle is parked, and when the after-blow function is continuously performed to remove moisture in the air conditioner while the vehicle is turned off, battery discharge due to low voltage may occur. problems can arise.

In addition, although the above-described after-blow function is essential for a comfortable indoor environment in all vehicles equipped with air conditioners, the after-blow function is not supported depending on old vehicles or vehicle models.

Accordingly, there is a need for a device capable of providing an after-blow function even to a vehicle that does not support the existing after-blow function while allowing a user to more easily set the after-blow function of the vehicle.

On the other hand, as travel and leisure culture spreads, in the case of car camping (car camping), when the window of the vehicle is opened to supply oxygen (outside air) to the inside of the vehicle smoothly, insects and external dust are introduced into the vehicle. There is a risk of inflow or an unexpected safety accident, so there is a demand for the development of a device for smoothly supplying oxygen (outside air) to the inside of the vehicle without opening the vehicle window.

Patent Publication No. 10-2017-0084729

Therefore, the present invention was invented to eliminate the above problems, and can be connected in the form of a module between a blower motor and a power connector of a vehicle, and a separate battery can be charged through a cable connected to the module, and the charged After the vehicle is parked using the battery, the blower motor is rotated and operated for a certain period of time to remove moisture and odor in the vehicle and the air conditioner, and when the vehicle is parked using the charged battery, the blower motor is operated at regular intervals to operate the inside of the vehicle. It was completed as a technical task with a focus on a vehicle oxygen supply device that also has an after-blow function for vehicles to prevent vehicle accidents by supplying oxygen outside the vehicle at regular intervals with the number of air volumes set by the user.

In the present invention for achieving the above technical problem, in constructing an oxygen supply device for a vehicle with an after-blow function for a vehicle, an impeller for moving air outside the vehicle to the inside, a motor connected to the impeller and rotating the impeller, , a blower motor 10 composed of a guide casing for guiding the movement of air generated through the impeller; a case-type bypass module 20 connected to the blower motor 10; An operating connector 21 and a power connector 22 are provided on one side of the bypass module 20, and the operating connector 21 is connected to the blower motor 10, and on the other side of the bypass module 20 A connection connector 23 is provided, and a relay is provided inside the bypass module 20 to operate the blower motor 10 at regular time intervals and the number of air volume levels set by the user. A module connector 33 connected to the connection connector 23 is exposed, and a control connector 37 is provided spaced apart from the module connector 33, and a buzzer (on the PCB substrate 31 fixed to the inner floor) 35) and an operation module 30 provided with a plurality of rechargeable batteries 32; In addition to selecting one of the power supply unit 41 that is connected to the control connector 37 to turn on/off the power, oxygen supply in the vehicle for car camping and after-blow functions, and the number of air volume levels A function controller 40 equipped with a function selector 42 for adjusting (1st, 2nd, 3rd) and a time control unit 43 for selecting the operation time of the function selected in the function selector 42 ); A vehicle connector 50 connected to the power connector 22 of the bypass module 20 and supplying electricity to the blower motor 10; function selection unit 42 of the function controller 40 It is configured to operate selectively through the operation module 30 and the bypass module 20, along with any one of the function of oxygen supply and after-blow in the vehicle, and the operation module 30 and the bypass module 20. When the oxygen supply function in the vehicle is selected by the function selector 42, the oxygen (outside air) supply function is operated for 1 minute with a start notification sound, and 5 minutes, 10 By repeating the two operations of waiting for a selected period of 15 minutes or 15 minutes until the battery is cut off, oxygen (outside air) from the outside of the vehicle is supplied to the inside of the vehicle so that the vehicle occupants can sleep in a safe state. and when the afterblow function is selected by the function selection unit 42 of the function controller 40, the afterblow function remains off when the vehicle is driven for 5 minutes or less, so that it does not operate , When the vehicle is driven for 5 to 30 minutes, the afterblow function is turned on and operates first for 10 seconds after 10 seconds, second operation for 1 minute after waiting for 10 minutes, and third operation for 1 minute after waiting for 1 minute 12 When the vehicle is driven for more than 30 minutes, the afterblow function turns on and operates first for 10 seconds after 10 seconds, waits for 10 minutes and operates secondly for 1 minute, waits for 1 minute and then turns on The third operation for 27 to 30 minutes is configured to end after operation, and the operation display lamp 36a indicating that the vehicle is in operation on the PCB board 31 and the power supply unit 41 of the function controller 40 A power lamp 36b for notifying power on, a function operation lamp 36c for notifying the operation of any one of after-blow and oxygen supply in the vehicle by the function selector 42, and the time control unit 43 ), a time operation lamp 36d indicating operation of any one of 5 minutes, 10 minutes and 15 minutes by Warning lamps 36e notifying the failure of the function controller 40 or the operation module 30 are provided, respectively, including the operation display lamp 36a, power lamp 36b, function operation lamp 36c, and time operation lamp. (36d) and the lamp protection tube 65 is provided for each lamp (36a to 36e) to the lower side of the cover surface of the upper case 63 corresponding to the position corresponding to the warning lamp (36e), and the inner portion of the lamp protection tube (65) Three to five space grooves 66 in the form of isosceles triangles are continuously formed along the longitudinal direction, and reflectors 67 are provided on each of the two inclined surfaces in the space grooves 66, so that each lamp 36a ~36e) is configured so that the light emitted from the continuous reflector 67 is diffused and expressed to the outside, and the two reflectors 67 installed in the single space groove 66 face each other 110~ By arranging it at an angle of 130°, the light is transmitted in multiple stages from the lower reflector 67 to the upper reflector 67 provided upward in plurality and is exposed to the outside, but the lower side where the lamps 36a to 36e are located. As the length of the open side of the space groove part 66 formed on the inner surface of the lamp protection tube 65 increases toward the upper side from the above, the angle between the reflectors 67 fixed on the space groove part 66 increases. By doing so, the irradiation range of light generated from each of the lamps 36a to 36e gradually widens to visually stand out from the outside.

delete

In addition, in the on state of the power supply unit 41, pressing the function selection unit 42 for 2 to 3 seconds selects the oxygen supply function in the vehicle, and in the state in which the oxygen supply function in the vehicle is selected, the oxygen supply function in the vehicle is selected. The number of air flow stages (1st, 2nd, 3rd) is sequentially adjusted every 0.5 second press, and after-blow is performed by pressing the function selector 42 for 2 to 3 seconds in the state in which the oxygen supply function in the vehicle is selected. It is characterized in that the function is configured to be selected.

delete

delete

According to the present invention described above, it is possible to connect in the form of a module between the blower motor of the vehicle and the power connector, charge a separate battery through a cable connected to the module, and use the charged battery to park the blower motor is operated for a certain period of time to remove moisture and odors in the vehicle and the air conditioner, and by using the charged battery, the blower motor is operated at regular time intervals when the vehicle is parked at regular time intervals set by the user inside the vehicle. By supplying oxygen outside the vehicle, there are effects such as preventing vehicle safety accidents.

1 and 2 are exemplary configuration diagrams showing the connection state of an oxygen supply device for a vehicle having an after-blow function for a vehicle according to the present invention.
3 is an exemplary view of the internal configuration of an operation module according to the present invention
4 and 5 are cross-sectional exemplary views of the lamp protection pipe according to the present invention
6 is an exemplary configuration example of a function controller according to the present invention

Hereinafter, specific details for the implementation of the present invention will be described in more detail with reference to the accompanying drawings.

The present invention can be connected in the form of a module between a blower motor and a power connector of a vehicle, and a separate battery can be charged through a cable connected to the module, and the blower motor can be operated for a certain period of time after the vehicle is parked using the charged battery. In addition, the blower motor is operated at regular time intervals when the vehicle is parked using the charged battery to remove moisture and odors in the vehicle and the air conditioner by rotating it during As it relates to a vehicle oxygen supply device that also has an after-blow function for vehicles to prevent vehicle accidents by supplying oxygen outside the vehicle, referring to FIGS. 1 to 6, a blower motor 10 and a bypass module 20 , It consists of an operation module 30, a function controller 40 and a vehicle connector 50.

For the implementation of the present invention, a blower motor 10 is first provided as shown in FIG. 1 .

The blower motor 10 is to use one mounted for the use of an air conditioner in a vehicle, and specifically, an impeller for moving outside air of the vehicle to the inside, a motor connected to the impeller and rotating the impeller, and the impeller Air is supplied to the inside of the vehicle by being composed of a guide casing that guides the movement of air generated through the air, and the operation of the blower motor 10 selectively implements the after-blow function of the present invention or oxygen supply for vehicles do. At this time, car camping (車泊) literally means staying in a car, and if the meaning of car camping (車泊) is applied as it is, sleeping properly using a camper or trailer can be said to be a type of car camping. , In this case, the term auto-camping is generally used. Therefore, in the present invention, car camping (car camping) is defined as accommodation in a car, including auto camping.

A case-shaped bypass module 20 is connected to the blower motor 10 . The bypass module 20 performs a shunt function provided to separate different currents, and as shown in FIG. 1, an operating connector 21 and a power connector 22 are provided on one side of the bypass module 20 The operating connector 21 is connected to the blower motor 10, and the power connector 22 is connected to a vehicle connector 50 to be described later.

In addition, a connection connector 23 is provided on the other side of the bypass module 20, and a relay operates the blower motor 10 at regular time intervals with the number of air volume levels set by the user inside the bypass module 20. is provided At this time, the connection connector 23 is operated in connection with the operation module 30 to be described later.

As shown in FIG. 3, the operation module 30 connected to the connection connector 23 of the bypass module 20 has a module connector 33 connected to the connection connector 23 exposed, and the module connector 33 ), a control connector 37 is provided, and a buzzer 35 and a plurality of rechargeable batteries 32 are provided on the PCB substrate 31 fixed to the inner bottom.

At this time, the control connector 37 is connected to a function controller 40 to be described later, and the rechargeable battery 32 is provided in a form in which a plurality of chargers consisting of two pairs are connected in parallel, and a plurality are connected in series. .

In addition, a buzzer 35 is provided on the PCB board 31 to inform the operation sound in the operation module 30.

And, on the PCB substrate 31, as shown in FIGS. 3 and 4, a driving indicator lamp 36a indicating that the vehicle is in operation and a power lamp 36b indicating that power is turned on by the power supply unit 41 of the function controller 40 ), a function operation lamp 36c for notifying the operation of any one of after-blow and oxygen supply in the vehicle by the function selector 42, and 5 minutes and 10 minutes by the time control unit 43 and a time operation lamp 36d for notifying operation of one of 15 minutes and a warning lamp 36e for notifying failure of the function controller 40 or operation module 30, respectively.

At this time, as shown in FIG. 4, the upper case 63 at a position corresponding to the operation indicator lamp 36a, the power lamp 36b, the function operation lamp 36c, the time operation lamp 36d and the warning lamp 36e A lamp protection tube 65 is provided for each lamp 36a to 36e to the lower side of the cover surface of the lamp.

As a detailed configuration of the lamp protection tube 65, as shown in FIG. 5 (a), three to five space grooves 66 in the form of isosceles triangles are continuously formed along the longitudinal direction of the inner surface of the lamp protection tube 65. And, a reflector 67 is provided on each of the two inclined surfaces in the space groove part 66 so that the light emitted from each of the lamps 36a to 36e is diffused by the continuous reflector 67 and expressed to the outside. make up

At this time, the two reflectors 67 installed in the single space groove portion 66 face each other at 110 to 130 °, so that the upper reflector 67 provided upward in plurality from the lower reflector 67 It is configured so that light is transmitted to the side in multiple stages and expressed to the outside.

As another modified embodiment, as shown in (b) of FIG. 5, the opening of the space groove portion 66 formed on the inner surface of the lamp protection tube 65 from the lower side where the lamps 36a to 36e are located to the upper side. By increasing the side length, that is, by increasing the mutual angle between the reflectors 67 fixed on the space groove 66, the irradiation range of the light generated from each lamp 36a to 36e gradually widens to the outside. It can be configured to visually stand out in

On the other hand, the function controller 40 connected to operate the operation module 30 is connected to the control connector 37 as shown in FIGS. 1 and 6 and turns on/off the power supply unit 41 and A function selection unit 42 that controls the number of stages (1st stage, 2nd stage, 3rd stage) of air volume as well as selecting any one of the oxygen supply and afterblow functions in the motor vehicle, and the function selection unit 42 A time control unit 43 for selecting an operating time of a selected function is provided.

The operation of the function controller 40 will be described in detail.

First, when the oxygen supply function in the vehicle is selected by the function selection unit 42 of the function controller 40, the oxygen (outside air) supply function is operated for 1 minute with a start notification sound, and the time control unit By supplying oxygen (outside air) from the outside of the vehicle to the inside of the vehicle by repeating the two operations of waiting for any one of 5 minutes, 10 minutes and 15 minutes set in (43) until the battery cuts off. Vehicle occupants can sleep in a state of peace.

At this time, through the selection of 5 minutes, 10 minutes, and 15 minutes by the time control unit 43 and the control of the first, second, and third stages (air volume level) by the function selection unit 42, It should be selected in consideration of the health condition and the vehicle's oxygen (outside air) supply capacity.

In addition, when the afterblow function is selected by the function selection unit 42 of the function controller 40, the afterblow function is kept off and not operated when the vehicle is driven for 5 minutes or less, When driving for 5 to 30 minutes, the afterblow function turns on and operates first for 10 seconds after 10 seconds, waits for 10 minutes, operates second for 1 minute, waits for 1 minute and operates third for 1 minute 12 to 15 times When the vehicle is driven for more than 30 minutes, the afterblow function turns on and operates first for 10 seconds after 10 seconds, waits for 10 minutes and operates secondly for 1 minute, waits for 1 minute and then operates for 1 minute The car is operated 27 to 30 times and then terminated.

At this time, if the control of the function selector 42 is described in detail, when the function selector 42 is pressed for 2 to 3 seconds in the on state of the power supply unit 41, the oxygen supply function in the vehicle is selected. , The number of stages (1st, 2nd, and 3rd stages) of the air volume is sequentially adjusted every time the button is pressed for 0.2 to 0.5 seconds in the state in which the oxygen supply function in the vehicle is selected.

Further, when the function selector 42 is pressed for 2 to 3 seconds in a state in which the in-vehicle oxygen supply function is selected, the after blow function is selected.

Meanwhile, as shown in FIGS. 1 and 2 , a vehicle connector 50 connected to the power connector 22 of the bypass module 20 to supply electricity to the blower motor 10 is provided.

The present invention is a function selection unit of the function controller 40 through the connection configuration of the blower motor 10, the bypass module 20, the operation module 30, the function controller 40, and the vehicle connector 50. By (42), it is configured to operate selectively through the operation module 30 and the bypass module 20, along with any one function of oxygen supply and after-blow in the vehicle.

According to the present invention described above, a module can be connected between a blower motor and a power connector of a vehicle, a separate battery can be charged through a cable connected to the module, and the blower after the vehicle is parked using the charged battery The motor is rotated for a certain period of time to remove moisture and odor in the vehicle and the air conditioner, and the blower motor is operated at regular time intervals when the vehicle is parked using the charged battery to match the air volume level set by the user inside the vehicle. Vehicle safety accidents can be prevented by supplying oxygen outside the vehicle at regular intervals.

The present invention described above has been described with reference to one embodiment shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments therefrom. will have to be clarified. Therefore, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: blower motor 20: bypass module
21: operating connector 22: power connector
23: connection connector 30: operation module
31: PCB substrate 32: rechargeable battery
33: module connector 35: buzzer
37: control connector 40: function controller
41: power supply unit 42: function selection unit
43: time control unit 50: vehicle connector

Claims (5)

In constructing an in-vehicle oxygen supply device for car camping (car camping, car park) that also has an after-blow function for a vehicle,
A blower motor 10 composed of an impeller for moving air outside the vehicle to the inside, a motor connected to the impeller for rotating the impeller, and a guide casing for guiding the movement of air generated through the impeller;
a case-type bypass module 20 connected to the blower motor 10; An operating connector 21 and a power connector 22 are provided on one side of the bypass module 20, and the operating connector 21 is connected to the blower motor 10, and on the other side of the bypass module 20 A connection connector 23 is provided, and a relay is provided inside the bypass module 20 to operate the blower motor 10 at regular time intervals and the number of air volume levels set by the user.
A module connector 33 connected to the connection connector 23 of the bypass module 20 is exposed, and a control connector 37 is provided spaced apart from the module connector 33, and a PCB fixed to the inner floor. an operation module 30 provided with a buzzer 35 and a plurality of rechargeable batteries 32 on a substrate 31;
In addition to selecting one of the power supply unit 41 that is connected to the control connector 37 to turn on/off the power, oxygen supply in the vehicle for car camping and after-blow functions, and the number of air volume levels A function controller 40 equipped with a function selector 42 for adjusting (1st, 2nd, 3rd) and a time control unit 43 for selecting the operation time of the function selected in the function selector 42 );
A vehicle connector 50 connected to the power connector 22 of the bypass module 20 and supplying electricity to the blower motor 10; function selection unit 42 of the function controller 40 It is configured to operate selectively through the operation module 30 and the bypass module 20, along with any one function of oxygen supply and afterblow in the vehicle for car camping and vehicle use.
When the oxygen supply function in the vehicle is selected by the function selection unit 42 of the function controller 40, the oxygen (outside air) supply function is operated for 1 minute with a start notification sound, and the time control unit 43 ) by repeating the two operations of waiting for any selected one of 5 minutes, 10 minutes and 15 minutes set in allows you to sleep in a safe state,
When the afterblow function is selected by the function selection unit 42 of the function controller 40, the afterblow function is kept off and not operated when the vehicle is driven for 5 minutes or less, and the afterblow function is not operated. When driving for 30 minutes, the afterblow function turns on and operates 1st for 10 seconds after 10 seconds, waits for 10 minutes, operates 2nd for 1 minute, waits for 1 minute and operates 3rd for 1 minute after 12 to 15 operations When the vehicle is driven for more than 30 minutes, the afterblow function is turned on and operates 1st for 10 seconds after 10 seconds, 2nd operation for 1 minute after waiting for 10 minutes, and 3rd operation for 1 minute after waiting for 1 minute. is configured to end after 27 to 30 operations,
A driving indicator lamp 36a indicating that the vehicle is running on the PCB board 31, a power lamp 36b indicating power on by the power supply unit 41 of the function controller 40, and the function selection unit 42 ) function operation lamp 36c indicating the operation of either in-vehicle oxygen supply and after-blow, and operation of any one of 5 minutes, 10 minutes and 15 minutes by the time control unit 43 A time operation lamp 36d to inform and a warning lamp 36e to inform the failure of the function controller 40 or the operation module 30 are provided, respectively, the operation indicator lamp 36a, the power lamp 36b, A lamp protection tube 65 is provided for each lamp 36a to 36e to the lower side of the cover surface of the upper case 63 at a position corresponding to the function operation lamp 36c, the time operation lamp 36d and the warning lamp 36e 3 to 5 space grooves 66 in the form of isosceles triangles are continuously formed along the longitudinal direction of the inner surface of the lamp protection tube 65, and reflectors 67 are formed on the two inclined surfaces of the space grooves 66, respectively. ) is provided so that the light emitted from each of the lamps 36a to 36e is diffused by the continuous reflector 67 and expressed to the outside,
The two reflectors 67 installed in the single space groove part 66 face each other at an angle of 110 to 130°, so that light is emitted from the lower reflector 67 toward the upper reflector 67 provided upward in plurality. However, the length of the open side of the space groove portion 66 formed on the inner surface of the lamp protection tube 65 is longer from the lower side where the lamps 36a to 36e are located to the upper side. By increasing the angle between the reflecting plates 67 fixed on the space groove 66, the irradiation range of the light generated from each lamp 36a to 36e gradually widens and visually stands out from the outside. Oxygen supply device for vehicle with after blow function for vehicle, characterized in that it is configured to be visible.
delete According to claim 1,
In the on state of the power supply unit 41,
When the function selector 42 is pressed for 2 to 3 seconds, the oxygen supply function in the vehicle is selected, and each time the function selector 42 is pressed for 0.2 to 0.5 seconds in the state in which the oxygen supply function in the vehicle is selected, the number of stages of the air volume (1 stage, 2nd and 3rd) are sequentially controlled,
Oxygen supply device for vehicles combined with an after-blow function for a vehicle, characterized in that the after-blow function is selected by pressing the function selector (42) for 2 to 3 seconds in a state in which the in-vehicle oxygen supply function for the vehicle is selected.
delete delete

Images