KR20130092093A - Humidifier with automatic drying function and humidity control method - Google Patents

Abstract

PURPOSE: A humidifier having an automatic drying function is provided to prevent microorganism growth due to high humidity inside an atomization tub. CONSTITUTION: A humidifier having an automatic drying function (1) includes a valve-actuator (7) controlling water supply of an on-off valve installed in an atomization tub (8); an air humidity sensor (15) installed in a housing (2) to sense indoor humidity; a temperature sensor (17) to sense air temperature; a ventilator (12) to discharge water in the atomization tub after atomizing the water particles in the atomization tub; a heating member (6a) installed to remove humidity with high temperature after stopping the operation of a humidifying function; a timer to dry the tub for a predetermined time after stopping the operation of the humidifying function; and a controller (18) to operate and control the opening and closing of the valve-actuator depending on a sensing value of the temperature sensor and to operate and control a heater and the ventilator and also control the timer depending on the sensing value of the temperature sensor.

Description

Humidifier with automatic drying function and Humidity control method

The present invention relates to a humidifier having an automatic drying function, and more particularly, a complex humidifier, a heated humidifier, a wet humidifier, and an ultrasonic humidifier (hereinafter, referred to as a humidifier) are installed inside a water to heat, evaporate or ultrasonic vibrators. The present invention aims to provide a humidifier having an automatic drying function and a control method thereof so as to minimize microbial growth inside the atomization tank that is granulated by vibration to minimize human harmfulness by microorganisms when controlling humidity in a room.

Humidifiers used to properly control indoor humidity can be heated and evaporated by using a heater to heat water inside the atomizer, and a heated humidifier that collects the vaporized vapor into a spray tube and sprays it through the discharge tube. Ultrasonic humidifier to make fine particles by using a vibrator that vibrates with ultrasonic waves, to collect them through a spray tube, and spray them into a room through a discharge port, and to disperse water in a wick to evaporate and to use a fan to make evaporation occur well. Separated by.

However, in the existing humidifier, the moisture generated when the water is finely granulated using heating or ultrasonic vibrators or wicks in the atomization tank remains, thus providing a good condition for the growth of microorganisms. The microorganisms are mixed with the sprayed water, penetrate into the human respiratory tract and cause various diseases, and the use of humidifiers is being avoided.

In order to block the microorganisms propagating inside the atomizer, it is necessary to clean the humidifier and dry it frequently, but this is a very cumbersome task for the user, and in practice, the humidifier is not properly managed because it is not frequently cleaned. It is true.

Various prior arts known to solve the above problems are as follows.

Korean Patent No. 164173 discloses a heat sterilizing humidifier that heats a water tank in a separate heating chamber before it reaches the ultrasonic vibrator. However, since the water used in the humidifier generally uses tap water, it is not necessary to disinfect and it is inefficient to boil or purify the water used in the humidifier separately from the atomization tank.

It is well known that the bacteria propagation in the humidifier is not caused by the water supplied to the humidifier, but mainly by the growth of bacteria caused by indoor air by contacting the air supplied from the blower with the water or atomized particles of the atomizer.

According to the experimental data, the water supplied from the ultrasonic humidifier was suppressed to 10 bacteria per 1mm liter during the first day by the amount of residual chlorine, and then to 100,000 animals on the third day and 600 animals on the second day.

The humidifier is generally located on the floor and bacteria contained in the dust accumulated on the floor is mixed in the atomization tank by the blowing and propagated by the humidity and temperature conditions in the atomization tank to be scattered in the indoor air with the atomized particles to spread throughout the room.

In other words, if the humidifier is used incorrectly, it can pose serious dangers, rather than spreading indoor bacterial contamination to help health. In this way, the germ propagation in the humidifier's atomization tank is caused by the contaminated indoor air supplied from the blower and is exponentially made by appropriate humidity conditions. Therefore, it is not solved by purifying the water supplied to the humidifier. Partial heating of the supplied water also prevents bacterial propagation unless the entire water tank is kept above the sterilization temperature and sterilization time. The method of supplying the purified blower air by providing the air purifying function to the blower is not only complicated in structure, uncertainty of sterilization effect, but also inconvenient to constantly replace the filter.

In the prior art, there has also been proposed a method of heating blown air in order to increase the temperature of the cold atomized particles emitted by the ultrasonic humidifier, to assist the atomizing function of the ultrasonic vibrator, to atomize the atomized particles, or to improve the sterilization function.

Korean Patent Laid-Open Publication No. 2001-88754 discloses a humidifier having an evaporator of a heat sink having a heater in a atomized particle ejection pipe.

Korean Patent Laid-Open Publication No. 1998-56268 discloses a structure in which a heater coil is disposed at an outlet and a fan is adopted at the rear to increase hot air temperature on the surface of an ultrasonic vibrator to increase the temperature of atomized particles and to assist the ultrasonic atomizing function. It is starting.

Korean Utility Model Registration No. 20-0314450 proposes a hot air blowing method using a heat sink.

Korean Utility Model Registration No. 20-0157781 discloses a structure for preheating blower air by extending the heater heat sink of the heating tank of the pre-atomization tank to the blower air outlet pipe in the heater and the ultrasonic combined humidifier.

The blowing heating method is considered to be sufficient for the heating of atomized particles, which is insufficient for complete sterilization of inlet air. For example, Korean Patent Laid-Open Publication No. 1998-56268 heats air by placing a heater coil in a hot stove, so that the average temperature of the air can be increased, but the entire inlet air is made for a short time to contact the heater above the sterilization temperature. Is questionable.

Korean Patent Laid-Open No. 2001-88754 heats (evaporates) the sprayed particles at the outlet of the sprayed particles, so the blower air is not in contact with the atomized particles or water in the atomized tank, so it is not possible to prevent bacterial contamination induced from indoor air. .

On the other hand, Japanese Patent Application Laid-Open Nos. 6-58581 and 6-147569 in Matsushita, Japan, have designed a small atomization tank, and a small amount of water flowed into the atomization tank by blocking the reservoir tank and the atomization tank as a jaw or other electric valve. A technique is disclosed in which the quantity of water is heated to a pasteurization temperature with a heater mounted on the side wall of the atomization tank and atomized with a vibrator. Matsushita's technique is one of the most practical methods because it directly heats a small amount of water introduced into the atomization tank by pasteurization, but the water in the water tank and the reservoir is always in communication, and the atomization tank and the reservoir are shut off by an electric valve. Although sometimes in communication with each other, the unheated water tank and even when heated, due to the inadequate temperature and time, the atomization particles of the atomization tank, which are lower temperature, due to the inflow of water and blowing air of the atomization tank, are exposed to bacteria and microorganisms propagate. There is a lot of potential.

In addition, the Republic of Korea Patent No. 10-0704148 to solve the problems of the prior art, there is no separate reservoir tank except the bucket and atomization tank to eliminate the possibility of bacterial contamination, and the water and atomization of the atomization tank over the sterilization conditions There is disclosed a complex humidifier which can maintain and suppress the growth of microorganisms with low electrical capacity.

That is, it is a bucket having a valve capable of opening and closing control; Temperature sensor and water level sensor

Atomizer having an ultrasonic vibrator disposed on a heater and a bottom surface thereof; A flow path for flowing water from the bucket to the atomization tank; The water tank valve actuator installed at an upper end of the flow path; A blower for blowing air into the atomization tank; Atomization particle outlet installed in the atomization tank; A power supply unit; A current circuit for supplying current from the power supply to a portion that operates electrically; Electrical control means for controlling the flow of current in the site of operation of electricity; And a housing in which part or all of the elements are connected, formed, or housed, and a sterilization type humidifier which blocks water flow in the flow path by intermittently flowing water in the water tank according to a signal of the water level sensor of the atomization tank. However, such a technique would be difficult to overcome the limitations of power consumption by suppressing the growth of microorganisms by means of heating means such as hot air or heater irrespective of indoor humidity.

Republic of Korea Patent No. 164173 Republic of Korea Patent Publication No. 2001-88754 Republic of Korea Patent Publication No. 1998-56268 Republic of Korea Utility Model Registration No. 20-0314450 Republic of Korea Utility Model Registration No. 20-0157781 Republic of Korea Patent Publication No. 2001-88754 Japanese Laid-Open Patent Publication No. 6-58581 Japanese Utility Model Application Laid Open No. 6-147569 Republic of Korea Patent No. 10-0704148

The humidifier provided by the present invention is to provide a humidifier having an automatic drying function to prevent the growth of microorganisms generated by the humidity inside the atomization tank.

In particular, the present invention is to automatically control the water supplied to the inside of the atomization tank according to the indoor humidity, and to allow the inside of the atomization tank to dry with hot air to suppress the growth of microorganisms to achieve the original purpose of the humidifier with indoor humidity control The purpose of the present invention is to provide a humidifier with an automatic drying function to eliminate the health hazards caused by microorganisms.

The humidifier provided in the present invention is detachably placed in a bucket on one side of the housing, the water is supplied to the inside of the atomization tank by the opening operation of the opening and closing valve installed in the lower part of the tank to atomize the water through the discharge pipe to the room In a humidifier capable of being sprayed;

A valve-actuator installed in the atomization tank to control the water supply of the on-off valve;

An atmospheric humidity sensor installed in the housing to sense indoor humidity;

A temperature sensor for sensing the temperature;

A blower for atomizing and discharging the water of the atomization tank;

A heating member installed to heat the humidification operation in the atomization tank or to remove moisture at a high temperature after stopping the humidification;

A timer for drying for a predetermined time after the humidification stops;

And a control unit for controlling the opening and closing operation of the valve-actuator according to the sensing value of the atmospheric humidity sensor and controlling the operation of the heater and the blower and the drying time timer according to the sensing value of the temperature sensor.

Humidifier with an automatic drying function provided by the present invention, by automatically sensing the humidity in the indoor atmosphere in order to be able to suppress the growth of microorganisms in the flow path, the atomization tank and the discharge port inside the humidifier, in particular the water discharged through the bucket When the humidity reaches the setting value, the valve-actuator is controlled to cut off the water supply to the water tank, and the heater and blower are blown for a certain period of time when the humidity sensor of the outlet formed inside the atomizer falls below a certain humidity or is set by a timer. By operating it to dry it can effectively suppress the growth of microorganisms with low power consumption, thereby preventing the occurrence of diseases caused by harmful microorganisms in advance, and its configuration is simple, so that it can be directly applied to the existing humidifier. The expected effect is great invention.

1 is a cross-sectional view showing a preferred embodiment of the humidifier provided in the present invention
Figure 2 is a cross-sectional configuration view showing another preferred embodiment of the humidifier provided in the present invention
3 is a cross-sectional configuration view showing another preferred embodiment of the humidifier provided in the present invention

Specific embodiments of the humidifier having an automatic drying function provided by the present invention will be described below in detail with the accompanying drawings.

The present invention is capable of various modifications in addition to those illustrated in the description and drawings, and may have various embodiments, which are not intended to limit the specific embodiments of the present invention, and the spirit and techniques of the present invention. It is to be understood that all changes, equivalents, and substitutes falling within the scope are included.

On the other hand, in the drawings and detailed description showing and referring to the configuration and operation that can be easily recognized by those skilled in the art from the general humidifier in a simplified or omitted.

The humidifier having an automatic drying function provided by the present invention includes an atmospheric humidity sensor so as to sense humidity in the indoor atmosphere, and when the sensing value of the atmospheric humidity sensor reaches a predetermined predetermined value, the valve- It controls the actuator to shut off the supply of water stored in the water tank, and at the same time, the controller operates the heater installed inside the atomizer and the blower that blows air, and the humidity inside the atomizer is lower than the predetermined humidity. Characterized in that it can be controlled according to the sensing value sensed by the humidity sensor (humidity sensor) to reach.

1 is a cross-sectional view showing a preferred embodiment of the humidifier (1) provided by the present invention, a case where the present invention is applied to a complex humidifier to perform the humidification using a heater and ultrasonic waves at the same time.

Humidifier (1) of the present invention is provided with a water supply to the flow path (6) installed in the housing (2), the water tank (3) is detachably placed on the housing 2, the connection to the on-off valve (4) installed in the water tank (3). A valve-actuator 7 for interrupting is installed.

The other end of the flow path 6 is in communication with the atomization tank 8 so that water can be supplied to the atomization tank 8 through the flow path 6. The flow path 6 is provided with a heating member 6a such as a heating coil or a heating plate of a cylindrical type for heating the water.

The atomization tank (8) is formed on one side of the housing (2), the ultrasonic vibrator (9) is installed on the lower part of the atomization tank (8) to atomize the fine particles of water to atomize the atomization tank (8) It is discharged to the inside, the discharged atomized particles (= atomized moisture) to be sprayed into the indoor atmosphere through the discharge pipe 11 formed in the vertical direction on the one side of the bucket (3).

Then, the blower tube 13 is installed to connect the blower tube 13 in which the blower 12 for blowing air into the atomization tank 8 to discharge the atomized particles is installed. Of course, the blower tube 13 can be installed in various positions.

A heater 14 for heating the air supplied through the blower 12 is installed inside the atomization tank 8.

And the outside of the housing 2 is provided with an atmospheric humidity sensor 15 that can sense the humidity in the indoor atmosphere, the humidity sensor 16 and the atomization tank (8) that can measure the humidity on the outlet 10 side A temperature sensor 17 capable of sensing the internal temperature is installed in the atomization tank 8.

The humidity and temperature sensing values sensed by the atmospheric humidity sensor 15, the humidity sensor 16 and the temperature sensor 17 are applied to the controller 18, respectively, and the humidity and When the temperature is reached, it is possible to control the operation of the valve-actuator 7, the blower 12, and the heater 14, respectively. The operation control method by the control unit 18 will be described later.

2 is a cross-sectional view showing some preferred embodiments of the humidifier provided in the present invention, which is the case where the present invention is applied to the wet or combined humidifier (1).

That is, the valve-actuator 7 installed in the atomization tank 8 to the on-off valve 4 installed in the lower part of the water tank 3 to control the water supply is used to control the water by using the seesaw control lever 19. Allow supply to be interrupted. The valve-actuator 7 not only controls the opening / closing valve 4 according to the water level but also controls the opening / closing valve 4 by a signal applied from the controller 18 according to the sensing value of the atmospheric humidity sensor 15. Of course, it is possible to control the opening and closing operation.

In addition, a heating member 6a, such as a heating plate, is installed on the bottom surface of the atomization tank 8 so as to remove moisture in the atomization tank 8 when the humidifier stops operating. To produce a so-called wick (20) in the shape of a cylindrical tube that can form atomized particles by absorbing the fine particles by blowing air pressure of the blowing fan (20) installed on the discharge pipe (11), atomizing tank (8 ) So that atomized particles can be sprayed into the indoor atmosphere.

At this time, the blower tube 13 is preferably formed between the housing 2 and the water bottle 3 so that air is introduced into the atomization tank 8 by the blower 12.

In addition, Figure 3 is a cross-sectional view showing some preferred embodiments of the humidifier provided in the present invention, which is applied to the present invention to the ultrasonic or combined humidifier (1).

That is, as shown in the embodiment of Fig. 2, that is, the valve-actuator 7 installed inside the atomization tank 8 is provided with an on-off valve 4 installed in the lower part of the water tank 3 to control the supply of water. The control lever 19 is used to control the supply of water, and to control the opening / closing operation of the on / off valve 4 by a signal applied from the controller 18 according to the sensing value of the atmospheric humidity sensor 15. To help.

In the atomization tank 8, an ultrasonic vibrator 9 is installed to make fine particles to generate atomized particles, and atomized particles are sprayed into the indoor atmosphere by the blowing air pressure of the blower 12 installed above the discharge pipe 11. To be possible.

On the bottom surface of the atomization tank 8, a heating member 6a, such as a heating plate, is provided to heat the humidifier to remove moisture in the atomization tank 8 when the humidifier is stopped.

Operation and control method of the humidifier 1 having an automatic drying function of the present invention that can be variously performed as described above will be described in more detail below.

The water is stored in the bucket 3 and placed in the upper part of the housing 2, and the humidifier 1 is operated.

Ultrasonic waves in which the humidifier 1 is operated in accordance with a preset room humidity set by the user, and water heated by the heating member 6a installed inside the flow path 6 or the atomization tank 8 is installed in the atomization tank 8. By the operation of the vibrator (9) to fine particles of water to spray atomized particles into the room to properly control the humidity,

According to the present invention, an atmospheric humidity sensor 15 capable of sensing humidity in the indoor atmosphere is installed at one side of the housing 2, and the atmospheric humidity sensor 15 senses humidity in the indoor atmosphere, and the set indoor humidity. When this is reached, the sensing value is applied to the control unit 18 so that the control unit 18 switches the valve actuator 7 to the closed state. Therefore, supplying the water of the bucket 3 or the water of the reservoir 5 to the flow path 6 is interrupted | blocked.

In addition, the heater 14 and the blower 12 are operated to remove the moisture and humidity inside the atomization tank 8 to suppress microbial growth, and the temperature sensor for maintaining a predetermined temperature preset inside the atomization tank 8. When the temperature of 17 senses the temperature and applies it to the controller 18 and the humidity inside the atomization tank 8 is equal to or less than a predetermined predetermined humidity, the humidity sensor 16 senses this to control the sensing value. ) To stop the operation of the heater 14 and the blower 12.

Of course, when the atmospheric humidity sensor 15 is dried and less than the appropriate humidity in the process of removing the moisture and humidity inside the atomization tank 8, the controller 18 controls the valve-actuator 7 to control the indoor humidity. The water is supplied to the flow path 6 to perform the humidification operation again, and at the same time, the heater 14 and the blower 12 interlock with each other to switch to an operation stop state.

Meanwhile, in the wet or combined humidifier 1 as shown in FIG. 2, the water in the bucket 3 is intermittently supplied with water by the valve-actuator 7 installed in the atomization tank 8. (8) When the value of the outlet humidity sensor 17 reaches or falls below the set numerical range, the valve-actuator 7 descends to lower the control plate 19 of the seesaw type, so that the on-off valve 4 on the opposite side is opened. When water is supplied to the atomization tank 8 and the valve-actuator 7 rises, the control valve 19 of the seesaw type is raised, so that the on-off valve 4 on the opposite side is closed and the water supply is automatically stopped. .

The water supplied to the atomization tank 8 is absorbed by the wick 20 and is discharged from the wick 20 by the blowing air pressure of the blower 12 to finely atomize the atomized particles into the indoor atmosphere.

When the indoor humidity reaches the preset humidity, the water supply is stopped by the valve-actuator 7 and the humidification operation is stopped, and the heating member 6a is operated to warm and evaporate the moisture inside the atomization tank 8. Then, the blower 12 is to operate to discharge the moisture.

In addition, in the ultrasonic or hybrid humidifier 1 as shown in FIG. 3, the water in the bucket 3 is opened and closed as shown in FIG. 3 in which the on-off valve 4 is electrically operated by the valve-actuator 7 and the seesaw control lever 19. The water supply to the atomization tank (8) is automatically intermittent to operate, and the water supplied to the atomization tank (8) is finely granulated by the ultrasonic vibrator (9) and the atomized particles are blown into the indoor atmosphere by the blower (12). To spray.

Even in this embodiment, when the indoor humidity reaches a preset humidity, the water supply is stopped by the valve-actuator 7 to stop the humidification operation, and the heating member 6a is operated to remove moisture in the atomization tank 8. It is heated and evaporated, and the blower 12 is operated to discharge moisture.

In addition, the humidifier has a function of drying the inside of the humidifier even when water is lost in the bucket or artificially stops the operation of the humidifier, so that the humidifier is dried even in a period when the humidifier is not used for a certain period of time. It is controlled to maintain.

Temperature is very important when operating the drying function. This can take quite a long time for drying if the normal wet humidifier is not heated and only the valve of the water bottle is shut off and dried only by the blower. Therefore, the function of heating during drying should be included, and even in the case of a complex humidifier, it is desirable to maintain a higher temperature during the drying period than the temperature controlled during the humidification.

 In addition, it is also necessary to design the structure to adjust the amount of water present in the flow path so that there is only a minimum amount that can be removed quickly during drying without inhibiting humidification.

The operating time of the humidifier's drying function may be controlled by using an internal humidity sensor or by installing a timer to operate the drying function for a predetermined time or in conjunction with the sensing values of the timer and the internal humidity sensor.

As described above, the present invention can automatically create a desired indoor humidity by sensing the indoor atmospheric humidity with the atmospheric humidity sensor 15 when the humidifier 1 is operated, and when the humidification operation is completed because the indoor humidity becomes an appropriate humidity, In order to suppress the growth of microorganisms in the tank 8, the heater 14, the heater member 6a and the blower 12 are operated to supply hot air within a predetermined temperature range so that the inside of the atomizer 8 can be dried. will be.

Therefore, minimizing power consumption, as well as inhibiting harmful microorganisms can greatly contribute to maintaining health.

Although shown and described in connection with a preferred embodiment for illustrating the principle of the humidifier with automatic drying function of the present invention, the present invention is not limited to the configuration and operation as it is shown and described.

That is, those skilled in the art will appreciate that many modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. Accordingly, all such appropriate changes and modifications and equivalents may be resorted to, falling within the scope of the invention.

Humidifier with an automatic drying function provided by the present invention can control the humidification operation of the humidifier by sensing the humidity in the indoor atmosphere, and when the humidification operation is stopped, it can suppress the microbial growth by allowing the inside of the atomization tank to dry the hot air, Therefore, it contributes to maintaining the health of the humidifier user, and can also help to reduce energy consumption by minimizing the power consumption, and can be easily combined with the existing humidifier.

1: humidifier 2: housing
3: bucket 4: on-off valve
6: euro
6a: heating element 7: valve-actuator
8: atomization 9: ultrasonic vibrator
10: outlet 11: discharge tube
12: blower 13: blower
14: heater 15: atmospheric humidity sensor
16: Humidity sensor 17: Temperature sensor
18: control unit 19: control lever
20: wick

Claims (8)

A humidifier that is detachably seated on one side of the housing and that is supplied to the inside of the atomization tank by opening and closing of an opening / closing valve installed in the lower part of the bucket to atomize particles to spray moisture into the room through the discharge pipe. In;
A valve-actuator installed in the atomization tank to control the water supply of the on-off valve;
An atmospheric humidity sensor installed in the housing to sense indoor humidity;
A temperature sensor for sensing the temperature;
A blower for atomizing and discharging the water of the atomization tank;
A heating member installed to heat the humidification operation in the atomization tank or to remove moisture at a high temperature after stopping the humidification;
A timer for drying for a predetermined time after the humidification stops;
And a control unit for controlling the opening and closing operation of the valve-actuator according to the sensing value of the atmospheric humidity sensor and controlling the operation of the heater and the blower according to the sensing value of the temperature sensor and controlling the drying time timer. Having a humidifier.
The method of claim 1, further comprising:
The humidity sensor is installed in the housing to sense the humidity inside the atomization tank for sensing the indoor humidity is further installed, the drying inside the humidifier is controlled in conjunction with the sensing value of the timer and the internal humidity sensor Humidifier with automatic drying characterized in that.
The method of claim 1, further comprising:
The humidifier having an automatic drying function, characterized in that the wick is installed to absorb and discharge the water.
3. The method of claim 2,
The valve actuator is installed inside the atomization tank, and the other side of the control valve of the seesaw type connected to the lower part of the opening / closing valve is connected to the lower part of the valve-actuator to move according to the level of the atomization tank or control according to the sensing value of the atmospheric humidity sensor. Humidifier with automatic drying function, characterized in that the valve-actuator to interrupt the on-off valve in accordance with the signal of the.
3. The method of claim 2,
The atomizer has a humidifier having an automatic drying function, characterized in that the ultrasonic vibrator is installed.
A humidifier in which a bucket is detachably placed on one side of the housing, and water is supplied into the atomization tank during the opening operation of the opening / closing valve installed at the bottom of the bucket to atomize particles and to be sprayed into the room through the discharge pipe;
When the valve actuator is installed inside the housing to reach a preset indoor atmospheric humidity of the atmospheric humidity sensor installed outside the housing, a sensing value is applied to the controller so that the valve actuator is closed by a signal from the controller.
When the valve-actuator is closed, the sensing value of the temperature sensor installed in the atomization tank is applied to the controller.
The heater and the blower, or the heating member and the blower installed inside the atomization tank for the predetermined time is operated by the signal of the control unit to dry the inside of the atomization tank,
Humidifier with automatic drying function characterized in that when the time stored in the timer, the heater and the blower or the heating member and the blower can be stopped
The method of claim 6;
The drying function is a humidifier having an automatic drying function, characterized in that is operated before the operation of the humidification, when the indoor humidity reaches the setting value in the middle of the humidification, and / or after the humidification is completed.
8. The method according to any one of claims 1 to 7,
Humidifier with automatic drying function, characterized in that the temperature is higher than the temperature when the drying function operating

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