KR102599051B1 - Multi-function storage system performing preheating mode by measuring water supply tank temperature and method of perfoming preheating mode using thereof - Google Patents

Abstract

The present invention is a multi-functional storage system (1000) consisting of a machine room (100) and a compartment (200) where clothes are stored. It is located in the machine room (100) and includes an evaporator (112), a condenser (114), and a compressor (116). and a heat pump unit 110 including a pressure regulator; A moisture supply unit 120 including a humidification filter 122 and a moisture supply water tank 124 formed to store water flowing out of the humidification filter 122; and a temperature measuring unit that measures the temperature of the water supply water tank 124; Includes, moisture is supplied to the humidification filter 122 according to preset conditions, and when the temperature of the moisture supply water tank 124 measured by the temperature measuring unit is below the preset value, the heat pump unit 110 This provides a movable, multi-functional storage system.

Description

Multi-function storage system performing preheating mode by measuring water supply tank temperature and method of perfoming preheating mode using the same}

The present invention is a multi-functional storage system that performs a pre-heating mode by measuring the temperature of the water supply tank and a method of performing the pre-heating mode using the same. Specifically, a technology for increasing the humidification efficiency of the multi-functional storage system by pre-heating the machine room of the multi-functional storage system. am.

Recently, air pollution due to fine dust, etc. has become a problem. Accordingly, devices related to air purification, such as air purifiers, are gaining attention.

However, since air purifiers can only purify the air in enclosed indoor spaces, it is difficult to remove all dust that may be on clothes after going out.

To remove this, physical methods such as opening clothes outdoors have been used, but these methods are difficult to use these days as outdoor air is highly polluted.

Accordingly, recently, clothing care machines have been developed and used to remove fine dust that may be stuck on clothes worn outdoors.

Meanwhile, the clothing care machine consists of a cabinet for storing clothing and a machine room equipped with devices for sterilizing, humidifying, or drying the clothes in the cabinet, and the machine room is equipped with a heat pump module.

In relation to the heat pump module, as the air in the refrigerator is circulated during drying, the moisture in the air is condensed in an evaporator to remove the moisture, and the air is heated in the condenser and supplied back to the refrigerator.

As moisture decreases during this drying operation, the load on the evaporator decreases, and the air passing through the condenser passes at a lower temperature because the condensation load on the evaporator is reduced.

As a result, as the temperature of the existing heated air decreases, the temperature of the air supplied into the refrigerator also decreases, resulting in a problem in which the drying efficiency of clothes stored in the refrigerator is significantly reduced.

Meanwhile, among the methods of humidifying a specific space, the natural humidification method is to moisten a filter with water and allow moisture to naturally evaporate into the air.

This natural humidification method is greatly affected by the surrounding temperature, as the amount of saturated water vapor in the air varies depending on the surrounding temperature.

Specifically, as the ambient temperature increases, the amount of saturated water vapor increases, which may increase the moisture content in the air. As the ambient temperature decreases, the amount of saturated water vapor decreases, which may reduce the moisture content in the air.

At this time, when the ambient temperature decreases, the amount of saturated water vapor decreases, and a problem occurs in which the humidification efficiency in the refrigerator decreases.

Meanwhile, Korean Patent Publication No. 10-2008-0004028, which is a prior art, discloses a clothing treatment device.

Specifically, the prior art includes: a cabinet provided with an interior space isolated from the outside to accommodate clothing, and the interior space selectively communicating with the outside through a door; a steam generator provided in the cabinet and supplying steam to the interior space; Additionally, the disclosure discloses a clothing treatment device including a heated air supply device provided in the cabinet and selectively supplying medium temperature heated air and high temperature heated air that is above room temperature to the interior space.

However, the above prior art also only discloses supplying heated air to the internal space where clothes are stored, and does not disclose any means for increasing drying and humidifying efficiency within the cabinet.

Accordingly, there is a very high need for technology to preheat the machine room using a heat pump module to increase the drying and humidifying efficiency of clothes stored in the cabinet.

(Patent Document 1) Korean Patent Publication No. 10-2008-0004028

The present invention was created to solve the above problems.

Specifically, we would like to propose the structure of a multi-functional storage system with increased humidification efficiency by increasing the amount of moisture contained in the air circulating in the machine room.

In addition, using the structure of the multi-functional storage system, we would like to propose a method of performing a preheating mode, which is a method of preheating the machine room through a heat pump unit to increase the amount of moisture contained in the circulating air.

One embodiment of the present invention to solve the above problems is a multi-functional storage system 1000 consisting of a machine room 100 and a compartment 200 where clothes are stored, located in the machine room 100, and an evaporator ( 112), a heat pump unit 110 including a condenser 114, a compressor 116 and a pressure regulator; A moisture supply unit 120 including a humidification filter 122 and a moisture supply water tank 124 formed to store water flowing out of the humidification filter 122; and a temperature measuring unit that measures the temperature of the water supply water tank 124; Includes, moisture is supplied to the humidification filter 122 according to preset conditions, and when the temperature of the moisture supply water tank 124 measured by the temperature measuring unit is below the preset value, the heat pump unit 110 This provides a movable, multi-functional storage system.

In addition, the heat pump unit 110 is preferably operated to preheat the machine room 100 until the temperature of the moisture supply water tank 124 reaches a preset value.

In addition, the temperature measuring unit is formed to further measure the temperature inside the machine room 100, and when the temperature inside the machine room 100 is below a preset value, the heat pump unit 110 is preferably operated. .

In addition, the temperature measuring unit is preferably formed to measure the temperature on the front side of the evaporator 112 inside the machine room 100.

In addition, a fan unit 130 that circulates the air in the machine room 100 from the evaporator 112 to the condenser 114; It further includes, wherein the machine room 100 is located in the lower part of the storage room 200, and first and second flow path conversion units 160 and 170 are provided between the machine room 100 and the storage room 200. When the fan unit 130 is operated while both the first and second flow path switching units 160 and 170 are operated in the first position, the air in the machine room 100 and the interior 200 is They communicate and circulate together, and when both the first and second flow path switching units 160 and 170 are operated in the second position, air communication between the machine room 100 and the interior 200 is cut off from each other, When the fan unit 130 is operated, it is preferable that external air is sucked into the machine room 100 and then discharged again through the exhaust duct 190 of the machine room 100.

Additionally, when the heat pump unit 110 is operated to preheat the machine room 100, it is preferable that the fan unit 130 stops operating.

In addition, it is preferable to preheat the machine room 100 by operating the heat pump unit 110 while both the first and second flow path switching units 160 and 170 are operated in the first position.

In addition, it is preferable to preheat the machine room 100 by operating the heat pump unit 110 while both the first and second flow path switching units 160 and 170 are operated in the second position.

In addition, the water supply water tank 124 is provided at the lower part of the humidification filter 122, and the water supply unit 120 is connected to the water supply water tank 124, and the water supply tank 124 has A water supply pump 126 configured to pump up water; It is preferable that the humidification filter 122 is formed so that the water stored in the water supply tank 124 is supplied by the water supply pump 126.

In addition, the multi-functional storage system 1000 includes a water tank 104 configured to store water and connected to a water pump 102; It further includes, when the water level in the water supply water tank 124 of the water supply unit 120 is formed below a preset value, the water pump 102 is operated to supply water to the humidification filter 122. It is preferable that it is formed.

In addition, the moisture supply unit 120 is connected to the moisture supply pump 126 and is formed to receive water from the moisture supply water tank 124, and includes a humidification heater unit 128 that heats the water to a preset temperature; It is preferable that the moisture supply pump 126 is configured to supply water heated to a preset temperature by the humidification heater unit 128 to the humidification filter 122.

In addition, the present invention is a method of performing the preheating mode of the above-described multi-functional storage system, including (a) measuring the temperature of the moisture supply water tank 124 at the temperature measuring unit (S100); and (b) when the temperature of the water supply water tank 124 is below the preset value, the heat pump unit 110 is operated to preheat the machine room 100 (S110); including, multi-functional storage. Provides a method for performing preheating mode on the system.

In addition, the step (b) includes (b-1) a step (S112) of stopping the operation of the fan unit 130 that circulates air in the machine room 100 and the interior 200; It is desirable to further include.

The present invention measures the temperature of the water supply tank and, when the temperature of the water supply tank is below a preset value, operates the heat pump unit to preheat the inside of the machine room, thereby increasing the temperature inside the machine room. The amount of saturated water vapor in the internal air increases, which has the effect of increasing the moisture content of the air circulating in the machine room and interior.

In this way, by increasing the moisture content of the air circulating in the machine room and the interior of the cabinet, humidification efficiency can be increased when performing the humidification mode of the multi-functional storage system, and ultimately, the clothes stored in the cabinet are kept in a more comfortable condition and the multi-functional storage system is maintained. It has the effect of increasing consumer confidence in the storage system.

Figure 1 is a perspective view of the multi-functional storage system according to the present invention with the case removed.
Figure 2 is a schematic diagram of the machine room of the multi-functional storage system according to the present invention.
Figure 3 is a perspective view of the machine room of the multi-functional storage system according to the present invention.
Figure 4 is a perspective view from the opposite side of the perspective view shown in Figure 3.
Figure 5 is a perspective view of the machine room of the multi-functional storage system according to the present invention as seen from the left.
Figure 6 is a perspective view of the machine room of the multi-functional storage system according to the present invention viewed from the front.
Figure 7 is a schematic diagram schematically showing air circulation in the machine room and the storage room when both the first and second flow path switching units of the multi-functional storage system according to the present invention are located in the first position.
Figure 8 is a schematic diagram schematically showing air circulation in the machine room and the storage room when both the first and second flow path switching units of the multi-functional storage system according to the present invention are located in the second position.
Figure 9 is a flowchart of a method of performing a preheating mode of a multi-functional storage system according to the present invention.

Hereinafter, for a detailed explanation of the machine room and interior, the description will be made based on drawings of the multi-functional storage system with the case removed, and the direction toward which the exhaust duct and intake duct face is defined as "front."

In addition, the explanation is based on the assumption that the storage compartment is located at the top of the machine room, and based on this, the left and right sides of the multi-functional storage system are defined.

1. Description of the configuration of the multi-functional storage system for performing preheating mode

Hereinafter, a multi-functional storage system according to the present invention will be described with reference to FIGS. 1 to 6.

Figure 1 is a perspective view of the multi-functional storage system according to the present invention with the case separated.

Referring to FIG. 1, the inside 200 is located at the upper part of the machine room 100, and is formed to store clothes in the inside 200. The machine room 100 is equipped with the necessary means for drying, cleaning, and humidifying the clothes. are provided.

At this time, an exhaust duct 190 is formed in the upper part of the front side of the machine room 100 to discharge air from the machine room 100 or the inside of the cabinet 200 to the outside, and at the lower part, an exhaust duct 190 is formed to exhaust air from the machine room 100 or the inside of the cabinet 200 to the outside. ) An intake duct 192 is formed to allow suction into the air.

Additionally, for this air circulation, a fan unit 130 is provided at the rear of the machine room 100.

Figure 2 is a schematic diagram of the machine room of the multi-functional storage system according to the present invention.

Referring to FIG. 2, the multi-functional storage system according to the present invention includes a heat pump unit 110, a moisture supply unit 120, a temperature measurement unit, and a control unit 150.

The heat pump unit 110 includes an evaporator 112, a condenser 114, a compressor 116, and a pressure regulator (not shown), and the refrigerant circulates through the cycle of the heat pump unit 110, exchanging heat with the surrounding air. It is formed to do.

The temperature measuring unit includes a first temperature sensor 132 and a second temperature sensor 134, where the first temperature sensor 132 is configured to measure the temperature of the water supply water tank 124, and the second temperature sensor ( 134) is configured to measure the temperature of the air inside the machine room 100.

At this time, the first and second temperature sensors 132 and 134 constituting the temperature measuring unit are electrically connected to the control unit 150 to transmit the measured temperature value to the control unit 150.

Additionally, the control unit 150 controls the operation of the heat pump unit 110, which means that the refrigerant circulates through the heat pump unit 110 cycle.

Specifically, the user can perform the humidifying mode of the multi-functional storage system 1000 according to the present invention, and the humidifying mode is not performed immediately when the user commands the humidifying mode to be performed, but is performed by the control unit 150. It is determined whether to perform the humidifying mode or the preheating mode.

The first and second temperature sensors 132 and 134 constituting the temperature measuring unit are preferably configured to transmit temperature information to the control unit 150 in real time.

At this time, when the temperature of the transmitted moisture supply water tank 124 is below a preset value, the control unit 150 may be configured to perform the preheating mode for a predetermined period of time even if the user commands the humidification mode to be performed.

This is because the temperature of the moisture supply water tank 124 is similar to the temperature of the air inside the machine room 100, and when the temperature of the moisture supply water tank 124 is too low, the amount of saturated water vapor is low even if the user performs the humidification mode. Since the air cannot contain a large amount of moisture, the humidification efficiency desired by the user cannot be obtained.

In this way, in order to provide increased humidification efficiency to the user, the preheating mode is performed to increase the temperature inside the machine room 100 immediately before performing the humidifying mode.

Through performing this preheating mode, the amount of saturated water vapor in the air inside the machine room 100 increases, and by increasing the moisture content of the air circulating in the machine room 100 and the interior 200, humidification efficiency is improved when performing the humidification mode. It can be increased.

Meanwhile, the second temperature sensor 134 preferably measures the temperature on the front side of the evaporator 112 inside the machine room 100, which means that the temperature on the front side of the evaporator 112 is different from other parts of the heat pump unit 110. Since it is generally lower than the temperature, it is desirable to use this as a standard.

In addition, when the fan unit 130 is operated, the air between the machine room 100 and the interior 200 can be circulated, so the fan unit 130 is operated to maximize the preheating efficiency inside the machine room 100. After stopping, it is desirable for the heat pump unit 110 to operate.

At this time, the heat pump unit 110 is preferably operated to preheat the machine room 100 until the temperature of the water supply water tank 124 reaches a preset value, which is determined by the first temperature sensor 132. When the temperature of the moisture supply water tank 124 measured through reaches a preset value, this means stopping the preheating mode in order to perform the humidifying mode.

2. Description of other components of the multi-functional storage system

Referring back to FIG. 2, the multi-functional storage system 1000 according to the present invention includes a moisture supply unit ( 120).

At this time, the moisture supply water tank 124 is provided at the lower part of the humidification filter 122 to store water falling from the humidification filter 122.

In addition, the water supply unit 120 is connected to the water supply tank 124 and includes a water supply pump 126 configured to pump up the water in the water supply tank 124.

Accordingly, the humidification filter 122 is formed so that the water stored in the water supply tank 124 is supplied by the water supply pump 126 and is formed so that the water stored in the water supply tank 124 can circulate.

At this time, the water supplied to the humidification filter 122 continues to be consumed during the evaporation process, and the water in the moisture supply tank 124 cannot continue to circulate, so it is necessary to replenish water for circulation.

Accordingly, the multi-functional storage system 1000 according to the present invention is configured to store water and further includes a water tank 104 connected to the water pump 102.

When the water level in the water supply tank 124 of the water supply unit 120 is below a preset value, the water pump 102 operates to supply water to the humidification filter 122, thereby It is formed to replenish evaporated water.

3 to 6, the humidification heater unit 128 serves to instantaneously heat the water passing through the humidification heater unit 128, and the water heated through the humidification heater unit 128 is It is supplied to the humidification filter 122.

The moisture supply pump 142 is formed to raise the water stored in the moisture supply tank 124, and serves to circulate water in the order of the moisture supply tank 124, the humidification heater unit 128, and the humidification filter 122. do.

At this time, one water supply pump 142 may be provided, but preferably, the water supply pump 142 is formed as a pair of two pumps, and operate alternately according to a preset cycle, which It is possible to prevent failures due to load concentration on a specific pump.

The humidifying filter 122 provided inside the machine room 100 is formed to be coupled to the front of the evaporator 112, and accordingly, based on the air circulation direction, the air is transferred to the humidifying filter 122, the evaporator 112, and the condenser. (114) It is formed to flow in the order.

In this way, the air circulating in the machine room 100 or the interior 200 passes through the humidifying filter 122 before passing through the heat pump unit 110, and moisture is supplied into the air, thereby passing through the heat pump unit 110. It can replenish the moisture content in the air.

Meanwhile, the control unit 150 that controls the operation of the heat pump unit 110 is preferably formed of a printed circuit board (PCB). Referring to FIG. 3, the lower part of the humidification heater unit 128 It is provided in .

At this time, the control unit 150 is formed to control the operation of the water supply pump 102 connected to the water supply tank 104, and is formed to control the operation of the water supply pump 126 connected to the water supply tank 124. , the control unit 150 is formed to also control the operation of the humidification heater unit 128.

Figure 5 is a perspective view of the machine room of the multi-functional storage system according to the present invention as seen from the left.

Referring to FIG. 5, the humidification heater unit 128 is disposed on the upper part of the control unit 150.

At this time, the humidification heater unit 128 can preferably be formed to heat water up to 80°C, and the humidification filter 122 is supplied with moisture heated to 80°C or close to 80°C, thereby producing water by itself. This has the effect of increasing the temperature of the air in the machine room 100.

At this time, since moisture is not continuously supplied to the humidification filter 122 at all times, water is supplied to the humidification filter 122 when the moisture supply pump 126 operated by the control unit 150 is operated. It is preferably formed to wet the humidifying filter 122.

Meanwhile, if there is no water stored in the first moisture supply tank 124, the humidification filter 122 cannot receive water from the moisture supply tank 124.

Accordingly, until the water level in the water supply tank 124 reaches a preset value, the water stored in the water supply tank 104 is supplied to the humidification filter 122 by the water pump 102.

In addition, even if it is not in the initial state, when the level of water stored in the water supply tank 124 is below the preset value, the water pump 102 operates to supply water to the humidification heater unit 128 to instantaneously heat it, and then heats it. It is formed to supply the humidified water to the humidifying filter (122).

Accordingly, the water level in the water supply tank 124 may gradually rise to a preset value, and when it reaches the preset value, the water in the water supply tank 124 is circulated and supplied to the humidification filter 122. is formed

Figure 6 is a perspective view of the machine room of the multi-functional storage system according to the present invention viewed from the front.

Referring to FIG. 6, on the front side of the machine room 100, a water pump 102 connected to the water tank 104 and a drain pump 106 connected to the drain tank 105 are provided.

On the other hand, when the water level of the water tank 104 is below a predetermined value before operation of the multi-functional storage system 1000, an alarm may be issued to the user to replenish water, and the water level of the drain tank 105 may be set to a predetermined value. When it is determined that the water exceeds the value and there is a possibility of overflow, an alarm may be sent to the user to discard the water.

The operation of the above-described configurations is preferably operated in a preheating mode before the drying mode, humidifying mode, and cleaning mode of the multi-functional storage system 1000 are performed in order to increase the operating efficiency of these modes.

In addition, the designer can add a separate preheating mode so that the user can select it, and the preheating mode can be performed by the user before the drying mode, humidifying mode, and cleaning mode are performed, or automatically according to a predetermined cycle. It may be configured to perform a preheating mode.

3. Operation of the first and second flow path switching units in preheating mode of the multifunctional storage system

Referring to FIG. 4, first and second flow path switching units 160 and 170 are provided between the machine room 100 and the storage unit 200.

The first flow path switching unit 160 serves to control whether the air between the machine room 100 and the interior 200 communicates or is blocked from each other.

The second flow path switching unit 170 serves to control whether the air in the machine room 100 communicates to the outside or into the interior of the machine 200.

At this time, it is preferable that the first and second flow path switching units 160 and 170 operate identically to each other. Specifically, when the first flow path switching unit 160 is operated in the first position, the second flow path switching unit 160 is operated in the first position. The switching unit 170 is also operated to the first position, and when the first flow path switching unit 160 is operated to the second position, the second flow path switching unit 170 is also preferably operated to the second position.

Specifically, the first and second flow path switching units 160 and 170 are internally provided with a rotating member configured to rotate about an axis, and the rotating member is configured to operate in a vertical or horizontal direction.

Hereinafter, the case where the rotating members of the first and second flow path switching units 160 and 170 are operated in the vertical direction is defined as the first position, and the case where the rotating members are operated in the horizontal direction is defined as the second position. .

FIG. 4 shows a state in which both the first and second flow path switching units 160 and 170 are operated in the first position.

Figure 7 is a schematic diagram schematically showing the air circulation in the machine room and the storage room when both the first and second flow path conversion units of the multi-functional storage system according to the present invention are located in the first position, and Figure 8 is a schematic diagram showing the air circulation in the machine room and the storage room. This is a schematic diagram schematically showing the air circulation in the machine room and the interior when both the first and second flow path switching units of the multi-functional storage system according to the invention are located in the second position.

Referring to FIG. 7, as the first flow path switching unit 160 is operated in the vertical direction, which is the first position, the air in the refrigerator 200 and the machine room 100 is formed to communicate with each other.

In addition, as the second flow path switching unit 170 is also operated in the vertical direction, which is the first position, the air in the furnace 200 and the machine room 100 communicates with each other, and at the same time, the air in the machine room 100 and the outside is blocked. is formed

At this time, when the fan unit 130 is operated while both the first and second flow path switching units 160 and 170 are located in the first position, the air in the machine room 100 and the interior 200 is They are connected and circulate together.

Referring to FIG. 8, as the first flow path switching unit 160 is operated in the horizontal direction, which is the second position, the air in the refrigerator 200 and the machine room 100 is formed to be blocked from each other.

In addition, as the second flow path switching unit 170 is also operated in the horizontal direction, which is the second position, the air in the interior 200 and the machine room 100 is blocked from each other, and at the same time, the air in the machine room 100 and the outside is communicated. is formed

In this way, when both the first and second flow path switching units 160 and 170 are operated in the second position, air communication between the machine room 100 and the interior 200 is blocked, and the fan unit 130 ) is operated, external air is sucked into the machine room 100 and then discharged back to the exhaust duct 190 of the machine room 100, which is preferably used in a clean mode.

In this way, the multi-functional storage system 1000 according to the present invention processes the clothes stored in the cabinet 200 and also performs the role of purifying the air in the space where the multi-functional storage system 1000 is located. can do.

For this purpose, the machine room 100 is further equipped with an air cleaning unit 180, and when the fan unit 130 is operated while both the first and second flow path switching units 160 and 170 are operated in the second position, , the external air is configured to pass through the air cleaning unit 180 and then be discharged into the exhaust duct 190 of the machine room.

Meanwhile, in relation to the preheating mode of the multi-functional storage system 1000 according to the present invention, with both the first and second flow path switching units 160 and 170 operated in the first position, the heat pump unit 110 The machine room 100 can be preheated by operating, and at this time, only the heat pump unit 110 can be operated without operating the fan unit 130.

In addition, in the preheating mode, the machine room 100 can be preheated by operating the heat pump unit 110 while both the first and second flow path switching units 160 and 170 are operated in the second position, This too can be configured to operate only the heat pump unit 110 without operating the fan unit 130.

4. How to perform preheating mode of a multifunctional storage system

Figure 9 is a flowchart of a preheating method for a multi-functional storage system according to the present invention.

Referring to FIG. 9, the method of performing the preheating mode of the multi-functional storage system 1000 according to the present invention includes measuring the temperature of the water supply water tank 124 by a temperature measuring unit (S100) and the water supply water tank 124. ) When the temperature is below the preset value, the heat pump unit 110 is operated to preheat the machine room 100 (S110).

In this way, when the temperature of the moisture supply water tank 124 measured in step S100 is below the preset value, the humidification mode is not immediately performed, but the heat pump unit 110 is operated to preheat the machine room 100, Humidification efficiency can be increased.

In addition, the method of performing the preheating mode of the multi-functional storage system 1000 according to the present invention includes a step (S112) in which the fan unit 130 that circulates air in the machine room 100 and the interior 200 is stopped. More may be included.

This is to maximize the preheating efficiency inside the machine room 100 where the heat pump unit 110 is located by operating the heat pump unit 110 in a state where the air in the machine room 100 and the furnace 200 is not circulated. It is for this purpose.

In order to maximize the preheating efficiency inside the machine room 100, it is preferable that the heat pump unit 110 is operated after stopping the operation of the fan unit 130.

Meanwhile, a separate member that opens and closes the intake duct may be further included, and accordingly, the preheating mode is performed after closing the intake duct while the fan unit 130 is not operating, thereby maximizing preheating efficiency. there is.

Above, the present invention has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but these are merely illustrative examples, and various modifications and equivalent alternatives can be made by those skilled in the art from the embodiments of the present invention. It will be appreciated that embodiments are possible. Therefore, the scope of protection of the present invention should be determined by the scope of the patent claims.

1000: Multifunctional storage system
100: Machine room
200: Gonae
110: Heat pump unit
112: Evaporator
114: condenser
116: Compressor
118: pressure regulator
120: Moisture supply unit
122: Humidification filter
124: Hydration tank
128: Humidification heater unit
130: fan unit
142: Hydration pump
144: Hydration tank
150: control unit
160: 1st euro conversion unit
170: Second Euro conversion unit
180: Air purification unit

Claims (13)

A multi-functional storage system (1000) consisting of a machine room (100) and a compartment (200) where clothes are stored,
A heat pump unit 110 located in the machine room 100 and including an evaporator 112, a condenser 114, a compressor 116, and a pressure regulator;
A moisture supply unit 120 including a humidification filter 122 and a moisture supply water tank 124 formed to store water flowing out of the humidification filter 122; and
a temperature measuring unit that measures the temperature of the water supply water tank 124; Including,
Moisture is supplied to the humidifying filter 122 according to preset conditions, and a command to perform a humidifying mode in which humidified air generated by the moisture supplied to the humidifying filter 122 is provided to the interior 200 is input. In this case, when the temperature of the moisture supply water tank 124 measured by the temperature measuring unit is below a preset value, the preheating mode in which the heat pump unit 110 is operated to increase the temperature inside the machine room 100 is the humidifying mode. performed earlier than
Multifunctional storage system.
According to claim 1,
The heat pump unit 110,
The water supply water tank 124 is operated until the temperature reaches a preset value to preheat the machine room 100.
Multifunctional storage system.
According to claim 1,
The temperature measuring unit,
It is formed to further measure the temperature inside the machine room 100,
When the temperature inside the machine room 100 is below a preset value, the heat pump unit 110 is operated,
Multifunctional storage system.
According to claim 3,
The temperature measuring unit,
Formed to measure the temperature on the front side of the evaporator 112 inside the machine room 100,
Multifunctional storage system.
According to claim 1,
A fan unit 130 that circulates the air in the machine room 100 from the evaporator 112 to the condenser 114; It further includes,
The machine room 100 is located in the lower part of the cabinet 200,
First and second flow path conversion units 160 and 170 are provided between the machine room 100 and the interior 200,
When the fan unit 130 is operated while both the first and second flow path switching units 160 and 170 are operated in the first position, the air in the machine room 100 and the interior 200 communicates. circulated together,
When both the first and second flow path switching units 160 and 170 are operated in the second position, air communication between the machine room 100 and the interior 200 is blocked, and the fan unit 130 When activated, external air is sucked into the machine room 100 and then discharged back to the exhaust duct 190 of the machine room 100.
Multifunctional storage system.
According to claim 5,
When the heat pump unit 110 is operated to preheat the machine room 100, the fan unit 130 stops operating.
Multifunctional storage system.
According to claim 5,
With both the first and second flow path switching units 160 and 170 operating in the first position, the heat pump unit 110 is operated to preheat the machine room 100,
Multifunctional storage system.
According to claim 5,
With both the first and second flow path switching units 160 and 170 operating in the second position, the heat pump unit 110 is operated to preheat the machine room 100,
Multifunctional storage system.
According to claim 1,
The moisture supply water tank 124 is provided below the humidification filter 122,
The moisture supply unit 120,
A water supply pump 126 connected to the water supply tank 124 and configured to pump up water in the water supply tank 124; It further includes,
The humidifying filter 122 is formed so that the water stored in the water supply tank 124 is supplied by the water supply pump 126,
Multifunctional storage system.
A multi-functional storage system (1000) consisting of a machine room (100) and a compartment (200) where clothes are stored,
A heat pump unit 110 located in the machine room 100 and including an evaporator 112, a condenser 114, a compressor 116, and a pressure regulator;
A moisture supply unit 120 including a humidification filter 122 and a moisture supply water tank 124 formed to store water flowing out of the humidification filter 122; and
a temperature measuring unit that measures the temperature of the moisture supply water tank 124; Including,
Moisture is supplied to the humidification filter 122 according to preset conditions, and when the temperature of the moisture supply water tank 124 measured by the temperature measuring unit is below the preset value, the heat pump unit 110 is operated,
The moisture supply water tank 124 is provided below the humidification filter 122,
The moisture supply unit 120,
A water supply pump 126 connected to the water supply tank 124 and configured to pump up water in the water supply tank 124; It further includes,
The humidification filter 122 is formed so that the water stored in the water supply tank 124 is supplied by the water supply pump 126,
The multi-functional storage system 1000,
A water supply tank (104) configured to store water and connected to the water pump (102); It further includes,
When the water level in the water supply tank 124 of the water supply unit 120 is below a preset value, the water pump 102 is operated to supply water to the humidification filter 122,
Multifunctional storage system.
According to clause 9,
The moisture supply unit 120,
a humidifying heater unit 128 connected to the water supply pump 126 to receive water from the water supply tank 124 and heating the water to a preset temperature; It further includes,
The water supply pump 126 is configured to supply water heated to a preset temperature by the humidification heater unit 128 to the humidification filter 122,
Multifunctional storage system.
A method of carrying out the preheating mode of the multifunctional storage system according to any one of claims 1 to 11, comprising:
(a) measuring the temperature of the moisture supply water tank 124 by the temperature measuring unit (S100); and
(b) when the temperature of the water supply water tank 124 is below the preset value, the heat pump unit 110 is operated to preheat the machine room 100 (S110); including,
How to perform preheating mode for multifunctional storage systems.
According to claim 12,
In step (b),
(b-1) stopping the operation of the fan unit 130 that circulates air in the machine room 100 and the interior 200 (S112); Containing more,
How to perform preheating mode for multifunctional storage systems.

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