KR101388073B1 - Energy-saving type thermo-hygrostat having a vaporizing humidifier - Google Patents

Abstract

The present invention relates to an energy-saving thermo-hygrostat with a vaporizing humidifier, and more particularly, to an energy-saving thermo-hygrostat with a known vaporizing humidifier, wherein two electrodes are constituted by one set, depending on the moisture level between the electrode and the electrode. A plurality of moisture detection sensors are installed at the lower end of the humidifying element of the evaporative humidifier to have a predetermined interval and depth in the transverse direction, and the output terminals of the plurality of moisture detection sensors are provided by the microcomputer. When connected to an input terminal, the microcomputer opens the water supply electron valve when the microcomputer detects a value less than a predetermined moisture in any one of the plurality of water detection sensors during the humidification operation. While spraying water through the nozzle of an evaporative humidifier If the detection of moisture more than the value determined from both moisture sensor is characterized in that for closing the water supply solenoid valve.
Therefore, it is possible to maintain a certain amount of wet state, to prevent excessive water supply in advance, and to optimize humidification efficiency regardless of fluctuations in humidification load in the room, fluctuation of air volume, and change of air temperature and humidity at the inlet side of the thermo-hygrostat. In addition, it is possible to carry out stable humidification continuously, minimize waste of unnecessary water (resources), and eliminate the installation of various equipment to automatically supply water with humidifying elements. Not only can the production cost be reduced, but the maintenance cost can be greatly reduced by lowering the failure rate.

Description

Energy-saving thermo-hygrostat with evaporative humidifier {Energy-saving type thermo-hygrostat having a vaporizing humidifier}

The present invention relates to an energy-saving thermo-hygrostat equipped with a vaporizing humidifier, and more specifically, a plurality of moisture detection sensors are defined in a horizontal direction on a humidifying element surface of a vaporizing humidifier installed in a housing of a thermo-hygrostat having a cabinet shape. It can be installed at a price so as to identify the wet state during humidification conditions and to provide proper water supply through control in conjunction with the microprocessor, thereby preventing the deterioration of efficiency due to humidification and of unnecessary water (resources). It is invented to prevent waste and reduce equipment costs.

In general, air conditioners and thermo-hygrostats are required to purify and cool down the sucked air in the apparatus and discharge the air through a blower by performing a single or multiple functions of air heating and humidification. It has a function of maintaining temperature and humidity, and is provided with an air filter (air filter), an air cooling humidifier, an air humidifier, an air heater, a blower, etc., in the casing to perform the above function.

The method of combining these devices varies according to the conditions of air conditioning, the size of the machine room, the nature of the heat load, the budget, etc., and the power costs required to maintain the temperature and humidity are largely four (for example, blower motors and cooling). Compressed motors, reheat heaters, humidification heaters).

Among them, there are three types of devices for humidification (ie, humidifiers). First, there is an electric heater method in which water is generated by directly heating water in an aquarium with an electric heater to generate steam. Secondly, there is an electron electrode type that fills water in the non-conductive container and supplies steam generated by the resistance heat between the electrode and the electrode. A vaporized humidifier that vaporizes water with sensible heat of air is a representative example.

Among the humidifiers, the heating method using the electron electrode rod is too much power to reach the humidification state of the set level, and even after reaching the set humidity, the humidifier is humidified more than the set humidity by the residual heat of the heater in the humidifier and the humidifier is used for a long time. In this case, the water inside the humidifier is easily contaminated with water, which makes it difficult to maintain the clean air condition.In addition, when calcium, manganese, chlorine, and iron oxides are deposited and accumulated on the floor, the heater is heated and broken. In the case of -type, there is a problem that the blockage of the electronic protective plate (electrode electrode type) occurs.

In addition, the water injection method has a problem that the mist (mist) is generated in the air, the water vapor easily condenses on the other components of the thermo-hygrostat and other devices in the room, as well as the mist may adversely affect the human respiratory system There is such a problem.

On the other hand, the vaporized humidifier of the above humidifier is a humidifier to vaporize the water by the heat of the air by passing the air in the room temperature state to the surface of the water, the humidification state is comfortable, energy saving type that does not require a special heat source for humidification Since it is not oversaturated, condensation does not occur indoors, and because it is completely vaporized, there is no fear of a mist phenomenon, and the demand is increasing in recent years.

In the case of such a vaporized humidifier, for example, when the amount of water supplied to the humidifying element is small, only a part of the humidifying element is wetted relative to the total area of the humidifying element, and it is difficult to reach the target humidification amount. The excessive supply of water to the element is not well evaporated, so the humidification efficiency is lowered, as well as the remaining water that is not vaporized is thrown through the drain hole causes energy loss.

However, in the case of the water supply electronic valve connected to the nozzle of the vaporization humidifier provided in the conventional thermo-hygrostat, it has an open shape unconditionally when it becomes a humidifying condition, and the amount of water supplied to the humidifying element through the nozzle is excessive or excessively in the humidifying element. As the water is soaked, the remaining water is discharged to the water tank through the drain, and under the humidification condition, the water is continuously supplied with the humidification element, which greatly reduces the efficiency of the humidification and wastes unnecessary water (resources). There is a problem.

In other words, the conventional thermo-hygrostat simply controls whether the humidity detected by the humidity sensor installed on the air intake side of the thermo-hygrostat is a humidification condition compared to the set value to open or close the water supply electronic valve (that is, supply it to the humidification element). Water is distributed evenly over the entire area, regardless of whether it is wet or not.

On the other hand, in the case of a conventional thermo-hygrostat equipped with a vaporizing humidifier, the wet water is controlled to a proper water supply by adjusting a separate manual valve opening amount at the time of initial commissioning, but the state of the humidification element is wetted in the entire area. Due to changes in humidification loads in the room, fluctuations in air flow, and changes in air temperature and humidity at the inlet side of the equipment, it is necessary to adjust it from time to time.

In some thermo-hygrostats, the drain and condensate collected through the condensate receiver installed at the bottom of the humidifying element is collected through a separate tank having a predetermined volume as a means for recycling the water that is supplied to the vaporized humidifier. In some cases, a water supply system for recycling the pump to the evaporative humidifier can be used.

However, in the case of the evaporative humidifier in the constant temperature and humidity humidifier employing such a recirculation method, the water supply is not controlled due to fluctuations in the humidification load of the room, fluctuation of air volume, and change of air temperature and humidity at the inlet side of the equipment. In addition to the water tank, equipment such as pumps, water filters, sterilizers, control valves, and piping are required to be installed. Therefore, the internal structure of the thermo-hygrostat for humidification becomes complicated and unnecessarily expensive. .

1.Korean Utility Model Registration Publication No. 20-0392911 (August 08, 2005) 2. Republic of Korea Patent Publication No. 10-1069944 (September 27, 2011) 3. Korean Utility Model Registration Publication No. 20-0258993 (December 17, 2001) 4. Republic of Korea Patent Publication No. 10-1102006 (December 27, 2011)

The present invention has been made to solve such a conventional problem, a plurality of electrodes consisting of a set of two electrodes to determine the wet state of the moisture by the resistance value that changes depending on the degree of moisture between the electrode and the electrode Depth defined in the horizontal direction at the lower end of the humidifying element while the sensor is installed at the bottom of the humidifying element of the evaporative humidifier to have a horizontal interval and depth or integrally installed on the substrate having a predetermined width and length through epoxy molding. It is installed so that the wet state of the moisture for the entire area of the humidifying element can be detected in real time, but any one of the above-described moisture detection sensor is less than the specified moisture (that is, the resistance value is determined moisture) Open the water supply solenoid valve only when the resistance value is higher than the set resistance value. By allowing water to be supplied, it is possible to maintain a certain amount of wet state regardless of fluctuation of humidification load in the room, fluctuation of air volume, change of air temperature and humidity at the inlet side of the thermo-hygrostat, and to prevent excessive water supply. It is possible to optimize the humidification efficiency, and to perform stable humidification continuously, in particular, to minimize the waste of unnecessary water (resources), and to circulate and supply water automatically with a humidifying element. The purpose of the present invention is to provide an energy-saving thermo-hygrostat equipped with a vaporized humidifier that can reduce the production cost of the product by eliminating the installation of the equipment and greatly reduce the maintenance cost by lowering the failure rate.

The present invention for achieving the above object is provided with a plurality of nozzles and a humidification element of a predetermined area, the temperature and humidity around the vaporized humidifier installed between the cooler and the heater in the enclosure by detecting the electrical signal to the microcomputer A vaporization having a form in which a temperature and humidity sensor for transmitting is installed, and an electronic water supply electronic valve is connected in series between a nozzle and a water pipe of the vaporized humidifier and a manual valve manually operated by a user and an output signal of a microcomputer. In the energy-saving thermo-hygrostat with an air type humidifier, two electrodes are composed of one set, and a plurality of moisture detection sensors which grasp the wet state of the moisture by the resistance value which varies according to the moisture level between the electrode and the electrode are vaporized. Installed at the lower end of the humidifying element of the humidifier with a predetermined interval and depth in the horizontal direction, and The output terminal of the number of water detection sensor is connected to the input terminal of the microcomputer to open the water supply electronic valve when the microcomputer detects a value less than a predetermined water level in any one of the plurality of water detection sensors during humidification operation. It is characterized by.

In addition, the microcomputer is characterized in that the water supply electron valve is closed when the water supply electron valve is opened to detect the water value determined by all of the plurality of moisture detection sensors while spraying water through the nozzle of the evaporative humidifier.

At this time, the microcomputer determines the degree of moisture through the change in the resistance value of the moisture detection sensor, and if the resistance value of the moisture detection sensor is greater than or equal to the set resistance value corresponding to the predetermined moisture value, the water supply electronics valve is opened, and less than the set resistance value The case is characterized in that the closing of the water supply electron valve.

In addition, the plurality of moisture detection sensor is characterized in that it is disposed on the substrate having a predetermined width and length at a predetermined interval and then integrally installed on the substrate through the epoxy molding.

At this time, the installation interval and the number of installation of the moisture sensor is determined according to the width of the humidification element and the humidification capacity of the evaporative humidifier, 5 to 20 at intervals of 10 to 30 cm each in one evaporative humidifier. Characterized in that it includes the installation.

As described above, according to the energy-saving thermo-hygrostat provided with the vaporization type humidifier of the present invention, two electrodes are constituted by one set and the wet state of the moisture is determined by the resistance value which varies according to the moisture level between the electrode and the electrodes. A plurality of moisture detection sensors are installed horizontally at the lower end of the humidifying element of the evaporative humidifier, or horizontally at the lower part of the humidifying element while being integrally installed through an epoxy molding on a substrate having a predetermined width and length. It is installed to have a predetermined depth in the direction so as to detect the wet state of the moisture for the entire area of the humidifying element in real time, but any one of the above-described multiple moisture detection sensor is less than the predetermined moisture (that is, resistance When the value is more than the set resistance value corresponding to the specified moisture value By supplying water by opening the water supply electron valve only), we can maintain a certain amount of wet state regardless of the change of humidification load in the room, the change of air flow rate, the change of air temperature and humidity at the inlet side of the thermo-hygrostat. Excessive water supply can be prevented in advance, third humidification efficiency can be optimized, stable humidification can be carried out continuously, fourth waste water can be minimized, and the fifth humidification element It is a very useful invention that can not only reduce the production cost of the product because it can exclude the installation of various equipment to automatically supply the circulation, but also significantly reduce the maintenance cost by lowering the failure rate.

1 is a schematic configuration diagram of a thermo-hygrostat to which the present invention is applied.
Figure 2 is an enlarged view of some of the thermo-hygrostat to which the present invention is applied.
Figure 3 is an illustration of a state in which the moisture detection sensor used in the present invention integrally installed on the substrate.
Figure 4 is a flow chart for explaining a control program performed according to the amount of moisture detected through the moisture sensor in the microcomputer in the thermo-hygrostat to which the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows a schematic configuration diagram of the thermo-hygrostat to which the present invention is applied, Figure 2 shows an enlarged view of some of the thermo-hygrostat to which the present invention is applied, Figure 3 is integrally connected to the substrate the moisture sensor used in the present invention Figure 4 shows an exemplary view of the installed state, Figure 4 shows a flow chart for explaining a control program to perform according to the amount of moisture detected through the moisture sensor in the microcomputer in the thermo-hygrostat applied to the present invention.

According to the present invention,

A plurality of nozzles 41 and a humidifying element 42 of a predetermined area are provided in the enclosure 1 to provide temperature and humidity to the periphery of the vaporized humidifier 4 installed between the cooler 2 and the heater 3. A temperature and humidity sensor 5 is detected and transmitted to the microcomputer 6 by a specific signal, and a user manually operates between the nozzle 41 and the water pipe 9 of the vaporized humidifier 4. In the energy-saving thermo-hygrostat with the vaporization type humidifier having a form in which the electronic water supply electromagnetic side 8 which is opened and closed in correspondence with the output signal of the valve 7 and the microcomputer 6,

Humidification of the evaporative humidifier (4) is composed of a pair of two electrodes 101 to determine the wet state of the moisture by the resistance value that changes depending on the degree of moisture between the electrode and the electrode Installed at the lower end of the element 42 in a horizontal direction with a predetermined interval and depth,

The output terminals of the plurality of moisture detection sensors 10 are connected to the input terminals of the microcomputer 6 to cause the microcomputer 6 to be less than a predetermined moisture in any one of the plurality of moisture sensors 10 during the humidification operation. When the value is detected, the water supply electron valve 8 is opened.

In addition, the microcomputer (6) while opening the water supply electron valve (8) while spraying water through the nozzle 41 of the vaporized humidifier (4) while the water value of more than the predetermined moisture in all of the plurality of moisture detection sensor (10) In case of detection, the water supply electron valve 8 is closed.

At this time, the microcomputer 6 determines the degree of moisture by changing the resistance value of the moisture detection sensor 10, the water supply when the resistance value of the moisture detection sensor 10 is greater than or equal to the set resistance value corresponding to the predetermined moisture value. The electron valve 8 is opened, and the water supply electron valve 8 is closed when it is less than the set resistance value.

In addition, the plurality of moisture detection sensor 10 is to be disposed at a predetermined interval on the substrate 11 having a predetermined width and length, and then including that integrally installed on the substrate 11 through the epoxy molding 12. It features.

At this time, the installation interval and the number of installation of the moisture sensor 10 is determined according to the width of the humidification element 42 and the humidification capacity of the vaporized humidifier (4),

One evaporative humidifier (4) is characterized in that it comprises a 5 to 20 installed at intervals of 10 to 30 cm each.

Here, reference numeral 13 is a control panel, 14 is a compressor, 15 is a blowing fan, and 16 is a condensate receiver.

Referring to the effect of the energy-saving thermo-hygrostat with the vaporized humidifier of the present invention configured as described above are as follows.

First, the energy-saving thermo-hygrostat equipped with the vaporization humidifier to which the present invention is applied is vaporized between the cooler 2 and the heater 3 of the enclosure 1 having a predetermined volume, as shown in FIGS. 1 to 3. Humidifier (4) is installed, the temperature and humidity sensor (5) connected to the microcomputer 6 is installed around the vaporized humidifier (4), the nozzle 41 and the water pipe of the vaporized humidifier (4). In the well-known constant temperature / humidity device in which the manual valve 7 and the electronic water supply electromagnetic side 8 are connected in series between (9), the space | interval and depth determined in the horizontal direction at the lower end of the humidification element 42 of the said vaporized humidifier 4 It is important to install a plurality of moisture detection sensors 10 to have the microcomputer 6 to open the water supply electron valve 8 when detecting a value less than a predetermined moisture in any one of the moisture detection sensor 10. It is a technical component.

At this time, the temperature, humidity sensor (5) performs a function to detect the temperature and humidity in the vicinity of the vaporized humidifier (4) as an electrical signal in real time to deliver to the microcomputer (6), to the microcomputer (6) It is possible to determine whether the temperature and humidity in the air supplied to the room through the cooler (2), the vaporized humidifier (4) and the heater (3) is a humidification operation condition or a dehumidification operation condition.

In addition, the manual valve (7) of the manual valve 7 and the water supply electromagnetic valve (8) having a form connected in series between the nozzle 41 and the water pipe (9) of the evaporative humidifier (4) is a user The electronic water supply electronic valve 8 is opened and closed in response to the electronic valve opening and closing signal output from the microcomputer 6, and automatically supplies and blocks water.

On the other hand, the moisture sensor 10 is composed of a pair of two electrode rods 101 to determine the wet state of the moisture by the resistance value that changes depending on the degree of moisture between the electrode and the electrode, in the present invention, The same plurality of moisture detection sensors 10, respectively, separately installed on the lower end of the humidifying element 42 of the vaporizing humidifier 4 has a predetermined interval and depth in the horizontal direction is installed.

In addition, in the present invention, as shown in FIG. 3, the plurality of individual moisture detection sensors 10 are disposed at predetermined intervals on the substrate 11 having a predetermined width and length, and then the substrate 11 through the epoxy molding 12. It is shown as another example to install integrally in the one module to have a predetermined depth in the transverse direction at the lower end of the humidifying element 42 of the vaporized humidifier (4).

At this time, the installation interval and the number of installation of the moisture sensor 10 is determined according to the width of the humidifying element 42 and the humidification capacity of the vaporized humidifier 4, in the present invention, one vaporized humidifier (4) ) Shows an example in which 5 to 20 units are installed at intervals of 10 to 30 cm each, but are not limited thereto.

When the plurality of moisture detection sensors 10 are installed to have a predetermined interval and depth in the horizontal direction at the lower end of the humidifying element 42 of the vaporizing humidifier 4, each of the moisture detection sensors 10 as shown in the first When installed individually, the fixation may be unstable, and their spacing and depth of installation may be different from each other, making it difficult to measure moisture accurately under the same conditions at each site.

On the contrary, as shown in FIG. 3, the plurality of moisture detection sensors 10 are disposed at predetermined intervals on the substrate 11 having a predetermined width and length so as to be integrally formed on one substrate 11 through the epoxy molding 12. In the case of having the installed module shape, it is possible to maintain a stable fixed state, and also the interval of the plurality of moisture detection sensors 10 fixedly installed on one substrate 11 to maintain a predetermined interval as well as the vaporization Since the same depth is maintained at the lower end of the humidifying element 42 of the formula humidifier 4, the plurality of moisture detection sensors 10 may measure moisture under the same conditions, thereby further securing accuracy.

On the other hand, since the output terminals of the moisture detection sensors 10 each have a state connected to the input terminal of the microcomputer 6, the wet state of the water for the entire area of the humidifying element 42 in the microcomputer 6 in real time. You will be able to detect exactly and take the necessary action.

At this time, the microcomputer 6 continuously detects the temperature and humidity in the air being supplied to the room through the above-described temperature and humidity sensor 5 when the constant temperature and humidity controller is operated, and the current humidity is a humidifying operation condition. It is determined whether or not the dehumidification operation condition, if the current humidity is a humidification operation condition lower than the supply set humidity to determine in real time how much moisture in each position detected by the plurality of moisture sensor 10 described above. As a result, it is determined whether to open or close the water supply electron valve 8 used to automatically supply water to the humidifying element 42.

That is, the microcomputer 6 receives the moisture detection signals output from the plurality of moisture detection sensors 10 in real time and compares them with a predetermined moisture value to determine one of the plurality of moisture detection sensors 10. When detecting a value less than a few minutes, the water supply electron valve 8 is opened, and the water (for example, tap water) in the water pipe 9 is humidified by a plurality of nozzles 41 installed above the vaporized humidifier 4. (42) is automatically sprayed with the water required for humidification.

In addition, the microcomputer 6 automatically opens the water supply electronics valve 8 as described above, and sprays water through the nozzle 41 of the vaporized humidifier 4, and the humidification through the plurality of moisture detection sensors 10. The wet state of the water over the entire area of the element 42 is continuously detected in real time, and if a predetermined water value is detected in all the water detection sensors 10, the water supply electron valve 8 is automatically closed. .

At this time, the microcomputer 6 determines the degree of moisture by changing the resistance value of the moisture sensor 10, for example, the resistance value of the moisture sensor 10 is set in response to a predetermined moisture value If the value is more than the value is to open the water supply electron valve (8), if less than the set resistance value is to close the water supply electron valve (8).

As such, the wet state of the moisture of the entire area of the humidifying element 42 is detected in real time through the plurality of moisture detection sensors 10, and any one of the plurality of moisture detection sensors 10 detects a value less than a predetermined moisture. When the water supply electron valve 8 is opened and supplied to the humidifying element 42 in the vaporized humidifier 4, and if all the water detection sensors 10 detect a value over a predetermined moisture, the water supply electron valve 8 is opened. If the automatic closing operation is repeated, it is possible to automatically maintain a certain amount of wet state regardless of the change of humidification load in the room, the change of air volume, the change of air temperature and humidity at the inlet side of the thermo-hygrostat.

In addition, it is possible to prevent excessive water supply in advance, thereby minimizing waste of unnecessary water (resources), significantly reducing the cost of humidification through a thermo-hygrostat, and optimizing the efficiency of humidification. Stable humidification can be performed.

In particular, since it is possible to completely exclude the installation of various equipment for automatically circulating and supplying water to the humidifying element 42, such as a thermo-hygrostat adopting a conventional recirculation method, the production cost of the product can be significantly reduced, as well as the failure rate itself. This can reduce the amount of low vision and maintenance costs.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: enclosure 2: cooler
3: heater 4: vaporized humidifier
41 nozzle 42 humidification element
5: temperature, humidity sensor 6: microcomputer
7: manual valve 8: water supply solenoid valve
9: water pipe
10: moisture detection sensor 101: electrode
11 substrate 12 epoxy molding
13: control panel 14: compressor
15: blower fan 16: condensate receiving

Claims (6)

A temperature and humidity sensor having a plurality of nozzles and a humidifying element having a predetermined area and detecting and transferring temperature and humidity to a microcomputer around the vaporized humidifier installed between the cooler and the heater in the enclosure is installed. In the energy-saving thermo-hygrostat with a vaporized humidifier having a form in which a water supply electron valve is opened and closed in response to an output signal of a microcomputer, between the nozzle and the water pipe.
The two electrodes consist of one set, and a plurality of moisture detection sensors that detect the wet state by the resistance value that changes according to the moisture level between the electrode and the electrode have a predetermined interval and depth at the lower part of the humidifying element of the evaporative humidifier. The output terminal of the plurality of moisture detection sensors is connected to the input terminal of the microcomputer, and when the microcomputer detects a value of less than a predetermined water level at any one of the plurality of moisture sensors, the humidifier detects the water supply electronic valve during humidification operation. Open it up,
Evaporative humidifier equipped with an evaporative humidifier, characterized in that for closing the water supply electron valve when the water supply electron valve is opened and the water is sprayed through the nozzle of the evaporative humidifier detects more than a predetermined moisture value in all of the plurality of moisture detection sensors. Economy constant temperature and humidity.
delete The method according to claim 1,
The microcomputer determines the degree of moisture by changing the resistance values of the moisture detection sensors. When the resistance value of the moisture detection sensors is equal to or higher than the set resistance value, the microcomputer opens the water supply electronic valve. Energy-saving thermo-hygrostat with a vaporizing humidifier, characterized in that for closing the electron valve.
The method according to claim 1,
The plurality of moisture detection sensor is energy-saving thermo-hygrostat with a vaporization-type humidifier, characterized in that disposed on the substrate having a predetermined width and length at a predetermined interval and then integrally installed on the substrate through the epoxy molding.
The method according to any one of claims 1 to 4,
Energy-saving thermo-hygrostat with a vaporization humidifier, characterized in that the installation interval and the number of installation of the moisture detection sensor is determined according to the width of the humidification element and the humidification capacity of the vaporization humidifier.
The method of claim 5,
Energy-saving thermo-hygrostat equipped with a vaporization type humidifier, characterized in that the moisture detection sensor and the like installed 5 to 20 at intervals of 10 ~ 30cm each one vaporizer humidifier.

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