KR102662507B1 - Cold and hot air blower using thermoelectric element - Google Patents

Abstract

The present invention relates to a cold and hot air blower, and specifically, to a cold and hot air blower using a thermoelectric element that effectively outputs cold and warm air by using a thermoelectric element instead of a refrigerant and provides comfortable optimal air by controlling temperature/humidity and purifying the air. As,
The specific means of the present invention are,
"A suction unit (10) in which a bottom base (110) and a waste water tank (120) are sequentially stacked inside the suction housing (100) and a filter (130) is seated on the upper surface of the bottom base (110); body housing (200) A first rotary motor 204 is fixedly coupled to one side of the upper part of the inner circumferential surface, and a coupling portion 240 is provided in the center. The coupling portion 240 includes a water circulation pump 220 and a second rotary motor 230. ) a body portion 20 to which a storage case 210 is sequentially stacked, an output grill bracket 300 and a thermoelectric element bracket 310, and a water block 320 coupled to the discharge grill 330 on the other side; The inner side of the discharge housing 400 is made up of one set and has an overall polygonal shape, and one set of the polygonal shape is formed in multiple stages, and has a cylindrical shape and is provided with an outlet 401 on one side; A cold and hot air blower using a thermoelectric element including a discharge portion 40 having a fan 410 and a cap 420 having an discharge port 421 on the top of the fan 410;
The suction part 10,
A suction housing (100) that is detachable in two halves in the longitudinal direction and is provided with suction slits (101) in multiple stages; A bottom base 110 having a seating groove 111 formed around its outer circumference with the inner center relatively protruding, and a fastening bar 112 provided at a predetermined position of the seating groove 111; The inner center is relatively protruding, and a receiving groove 121 is formed around the outer circumference to accommodate water discharge generated during condensation, and is provided at a predetermined position in the receiving groove 121, and the fastening bar 112 A waste water tank (120) equipped with a waste water level sensor (123) fastened to; Filter 130, which is a cylindrical HEPA filter for air purification; A cold and hot air blower using a thermoelectric element including,
The filter 130 is,
After mixing one or more types selected from illite, sericite, germanium, cathode, peat, and activated carbon, mix the porous mixture and binder solution pulverized to a particle size of 5-30㎛ at a weight ratio of 1:0.5-3. The porous mixture containing the binder solution is heated at a temperature of 300 to 500°C for 3 to 7 hours, and 2 to 3 parts by weight of microorganisms are added to 100 parts by weight of the heat-treated porous carrier, and the microorganisms are grown in 100 parts by weight of the added porous carrier. A cold and hot air blower using a thermoelectric element comprising adding 2 to 5 parts by weight of natural vegetable oil to 100 parts by weight of a porous carrier on which 5 to 15 parts by weight of a growth promoter is adsorbed;
The body portion 20,
A body housing (200) in which a first rotation motor (204) is fixedly coupled to one upper side of the inner peripheral surface; The inner center of the body housing 200 is provided with an insertion groove 203 from the bottom to the top, and the upper surface is provided with a protruding cylindrical portion perforated so that the motor shaft of the second rotation motor 230 protrudes through. A coupling portion 240 is provided with ribs 201 coupled to the inner peripheral surface of the body housing 200 on all four sides of the bottom, and is penetrated between the ribs 201; a second rotation motor 230 inserted into the insertion groove 203 and coupled to the upper surface of the coupling portion 240 so that the motor shaft protrudes through; A water circulation pump 220 provided below the second rotary motor 230 and having a discharge pipe 221 detachably coupled in the horizontal direction at a predetermined position on the lower side and an inlet hole formed on the lower surface; The upper surface is open so that the second rotary motor 230 and the water circulation pump 220 can be inserted, and the lower part is sealed in a cone shape at a predetermined position, and the discharge pipe 221 penetrates at a predetermined position on the upper side of the cone shape. A storage case 210 having a fastening hole 211 capable of fastening; A cold and hot air blower using a thermoelectric element including,
The hot and cold abundance unit 30,
An output grill bracket 300 having a plurality of output grills 301 formed longitudinally on one side and a flat plate shape on the other side; A plate-shaped thermoelectric element bracket 310 having coupling holes 311 for coupling thermoelectric elements 312 in multiple stages in the vertical direction at a predetermined position. It is rectangular in shape and has an empty space inside to accommodate water. A plurality of branch pipes 323 are formed slanted inward on the other side while maintaining vertical spacing near both ends of the other side, facing each other in the branch pipe 323. The branch pipe 323 that you see is connected through a connection pipe 324, and a water inlet pipe 321 is formed under the upper edge of the other side, and a water discharge pipe 322 is formed on the bottom of the lower corner of the other side. water block (320); Near the other side of the water block 320, a plurality of discharge grills 330 are formed to be convexly expanded in a fan shape on both sides, and the opposite side is formed to be concave inward. A cold and hot air blower using a thermoelectric element,
The discharge grill 330 is a cold and hot air blower using a thermoelectric element, each of which is coupled to both sides of the connection pipe 324,
A pinion 205 is provided on the axis of the first rotation motor 204, and the discharge housing 400 engages with the pinion 205 so that the discharge housing 400 can rotate repeatedly at a predetermined angle on both sides. A cold and hot air blower using a thermoelectric element including a rack 402 formed on the lower inner peripheral surface,
The fan 410 is,
The upper plate 413 is bent vertically inward in a ring shape to integrally form a blocking plate 417, and the other end of the wing 415 is fixedly coupled near the inner top of the blocking plate 417, and one end is attached to the upper plate 413. A circulator 414 that is fixedly coupled to the outer peripheral surface of the central cylinder and has a fixing hole 416 formed inside the central cylinder to enable the motor shaft of the second rotation motor 230 to be fixedly coupled thereto; On the lower side of the outer circumference of the upper plate 413, a long impeller fan 412 is formed along the edge and includes an impeller 411; As its structural feature is "a cold and hot air blower using a thermoelectric element including the circulator 414 and the impeller 411 formed integrally,
The present invention, consisting of the above configuration, forms an output grill bracket with an output grill on one side of the thermoelectric element bracket equipped with a thermoelectric element, and a water block and a discharge grill on the other side, and the output grill bracket and the thermoelectric element bracket are formed on the other side. The water block combined with the discharge grill is made up of one set, forming an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages, so that when outside air flows in, for example, the heat dissipation efficiency of the discharge grill, which is the heating surface of the thermoelectric element, is reduced. It is greatly increased by the water cooling method of the water block, and as a result, it is possible to lower the temperature of the cold air surface, which is the output grill located on the opposite side, resulting in optimization of the cooling air effect.
By increasing the adhesion efficiency of a plurality of thermoelectric elements installed adjacent to each other up and down, and an output grill bracket and discharge grill in contact with both sides, a plurality of thermoelectric elements are used, and at the same time, the output grill bracket, the thermoelectric element bracket, and the discharge grill on the other side are used. The combined water blocks are made up of one set to form an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages to ensure optimal cooling performance at all times.
In addition to the filter, preferably a negative ion generator is provided at a predetermined location inside the outlet to perform a sterilization and purification function. Furthermore, a controller and display with a piezoelectric touch button are provided on the upper surface of the outlet to enable convenient use. It is to demonstrate.

Description

Cold and hot air blower using thermoelectric element}

The present invention relates to a cold and hot air blower, and specifically, to a cold and hot air blower using a thermoelectric element that effectively outputs cold and warm air by using a thermoelectric element instead of a refrigerant and provides comfortable optimal air by controlling temperature/humidity and purifying the air. will be.

In general, a thermoelectric element is constructed by joining two different semiconductors. When current is applied, different metals or semiconductors are connected to create a closed circuit. When current is passed through this closed circuit, heat other than Joule heat is transmitted to the contact point. Endothermic and exothermic effects occur on both sides due to the Peltier effect, which is generated or absorbed.

Thermoelectric elements are widely used in cooling devices due to these properties. They directly or indirectly cool the object to be cooled using the heat absorption effect generated on one side. An aluminum heat sink is installed on the heating surface located on the opposite side of the heat absorbing surface. This causes the absorbed heat to be released to the outside.

At this time, the heat sink is exposed to the air and releases heat through air cooling.

However, in the conventional cooling device using such a thermoelectric element, the heat dissipation efficiency of the heating surface is determined by the air contact area of the aluminum heat sink, but with the cooling method using air cooling as described above, the temperature of the heat sink is kept below the ambient temperature of 20°C. It was difficult to reduce it to .

Accordingly, considering the characteristic of thermoelectric elements that the cooling efficiency is highest when the temperature difference between the heating surface and the heat absorbing surface is 20 degrees or less, a problem has arisen in that it is difficult to cool the object to be cooled below the ambient temperature.

In addition, due to the manufacturing process of thermoelectric elements, there were difficulties in forming the thickness as the thickness was not constant even for elements of the same capacity. For this reason, in the case of a cooling device with a large capacity using multiple thermoelectric elements, the The connection surface became irregular, causing a problem in which the cooling efficiency was greatly reduced.

In other words, when the heat absorbing surface of each connection element is brought into close contact with the cooling tank, the heating surface located on the opposite side cannot remain horizontal due to the thickness difference between the thermoelectric elements and forms an uneven surface with repeated depressions and protrusions. will be.

Accordingly, the heat dissipation tank that is in contact with the heating surface of the thermoelectric element connected while forming irregularities as described above is maintained in close contact with the surface of the protruding thermoelectric element, that is, the thick thermoelectric element, but is relatively thin. A gap of a predetermined width was created between the surface of the recessed thermoelectric element.

For this reason, as the heat emitted from the heating surface of the thermoelectric element is not properly transferred to the heat sink, the heat dissipation efficiency decreases, resulting in an increase in the cooling temperature of the heat absorbing surface located on the opposite side, which reduces the cooling performance of the cooling device. It acted as a factor.

Conventional hot and cold blowers are introduced in various forms. For example, a felt with its lower part submerged in a water tank inside a main body formed with an outlet grill on the front and an inlet grill on the back rotates up and down in accordance with the driving of the drive wheel. While moving, a blowing fan is installed on the entrance grill side, and a structure is applied in which the indoor air is sucked in and passes through the felt by the driving of the blowing fan. In other words, by applying a strong blowing force to the water-soaked felt, the air passing through the felt was discharged into the room through the outlet grill in a reduced temperature as heat of vaporization, thereby functioning as a cooling fan. Here, when the power applied to the thermoelectric element is switched, it functions as a hot air blower.

In other words, conventionally, the temperature difference between the air at the intake grill side and the discharge air at the outlet grill side was only about 3-6℃, so it was difficult to function as a hot or cold air blower to provide sufficient satisfaction to the user. did.

On the other hand, it had the drawback of being almost ineffective when the ambient humidity was high.

Republic of Korea Patent Publication No. 10-2011-0075761 Republic of Korea Patent Publication No. 10-2018-0087714 Republic of Korea Patent Registration No. 10-1209335 Republic of Korea Utility Registration No. 20-0426418

Accordingly, the present invention is intended to solve the above problems,

On one side of the thermoelectric element bracket equipped with a thermoelectric element, an output grill bracket combined with an output grill is formed, and on the other side, a water block and a discharge grill are formed. The output grill bracket, the thermoelectric element bracket, and a water block combined with an discharge grill are formed on the other side. It is made up of a set, forming an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages, so that when outside air flows in, for example, the heat dissipation efficiency of the exhaust grill, which is the heating surface of the thermoelectric element, is greatly increased by the water cooling method of the water block. The purpose is to provide a hot and cold air blower using a thermoelectric element that optimizes the cold air effect by lowering the temperature of the cold air surface, which is the output grill located on the opposite side.

The present invention uses a plurality of thermoelectric elements by increasing the adhesion efficiency of a plurality of thermoelectric elements installed vertically adjacent to each other and an output grill bracket and discharge grill in contact with both sides thereof, and at the same time, the output grill bracket and the thermoelectric element bracket and the other side. The water block combined with the discharge grill is made up of one set to form an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages to provide a hot and cold air blower using a thermoelectric element that ensures optimal cooling air performance at all times. That has a purpose.

In addition, the present invention performs a sterilization and purification function by providing not only a filter but also a negative ion generator at a predetermined position inside the discharge port, and furthermore, a controller and a display with a piezoelectric touch button are provided on the upper surface of the discharge port for convenient use. The purpose is to provide a hot and cold air blower using a thermoelectric element that makes it possible.

Specific means to achieve the above objectives are:

"A suction unit (10) in which a bottom base (110) and a waste water tank (120) are sequentially stacked inside the suction housing (100) and a filter (130) is seated on the upper surface of the bottom base (110); body housing (200) A first rotary motor 204 is fixedly coupled to one side of the upper part of the inner circumferential surface, and a coupling portion 240 is provided in the center. The coupling portion 240 includes a water circulation pump 220 and a second rotary motor 230. ) a body portion 20 to which a storage case 210 is sequentially stacked, an output grill bracket 300 and a thermoelectric element bracket 310, and a water block 320 coupled to the discharge grill 330 on the other side; The inner side of the discharge housing 400 is made up of one set and has an overall polygonal shape, and one set of the polygonal shape is formed in multiple stages, and has a cylindrical shape and is provided with an outlet 401 on one side; A cold and hot air blower using a thermoelectric element including a discharge portion 40 having a fan 410 and a cap 420 having an discharge port 421 on the top of the fan 410;

The suction part 10,

A suction housing (100) that is detachable in two halves in the longitudinal direction and is provided with suction slits (101) in multiple stages; A bottom base 110 having a seating groove 111 formed around its outer circumference with the inner center relatively protruding, and a fastening bar 112 provided at a predetermined position of the seating groove 111; The inner center is relatively protruding, and a receiving groove 121 is formed around the outer circumference to accommodate water discharge generated during condensation, and is provided at a predetermined position in the receiving groove 121, and the fastening bar 112 A waste water tank (120) equipped with a waste water level sensor (123) fastened to; Filter 130, which is a cylindrical HEPA filter for air purification; A cold and hot air blower using a thermoelectric element including,

The filter 130 is,

After mixing one or more types selected from illite, sericite, germanium, cathode, peat, and activated carbon, mix the porous mixture and binder solution pulverized to a particle size of 5-30㎛ at a weight ratio of 1:0.5-3. The porous mixture containing the binder solution is heated at a temperature of 300 to 500°C for 3 to 7 hours, and 2 to 3 parts by weight of microorganisms are added to 100 parts by weight of the heat-treated porous carrier, and the microorganisms are grown in 100 parts by weight of the added porous carrier. A cold and hot air blower using a thermoelectric element comprising adding 2 to 5 parts by weight of natural vegetable oil to 100 parts by weight of a porous carrier on which 5 to 15 parts by weight of a growth promoter is adsorbed;

The body portion 20,

A body housing (200) in which a first rotation motor (204) is fixedly coupled to one upper side of the inner peripheral surface; The inner center of the body housing 200 is provided with an insertion groove 203 from the bottom to the top, and the upper surface is provided with a protruding cylindrical portion perforated so that the motor shaft of the second rotation motor 230 protrudes through. A coupling portion 240 is provided with ribs 201 coupled to the inner peripheral surface of the body housing 200 on all four sides of the bottom, and is penetrated between the ribs 201; a second rotation motor 230 inserted into the insertion groove 203 and coupled to the upper surface of the coupling portion 240 so that the motor shaft protrudes through; A water circulation pump 220 provided below the second rotary motor 230 and having a discharge pipe 221 detachably coupled in the horizontal direction at a predetermined position on the lower side and an inlet hole formed on the lower surface; The upper surface is open so that the second rotary motor 230 and the water circulation pump 220 can be inserted, and the lower part is sealed in a cone shape at a predetermined position, and the discharge pipe 221 penetrates at a predetermined position on the upper side of the cone shape. A storage case 210 having a fastening hole 211 capable of fastening; A cold and hot air blower using a thermoelectric element including,

The hot and cold abundance unit 30,

An output grill bracket 300 having a plurality of output grills 301 formed longitudinally on one side and a flat plate shape on the other side; A plate-shaped thermoelectric element bracket 310 having coupling holes 311 for coupling thermoelectric elements 312 in multiple stages in the vertical direction at a predetermined position. It is rectangular in shape and has an empty space inside to accommodate water. A plurality of branch pipes 323 are formed slanted inward on the other side while maintaining vertical spacing near both ends of the other side, facing each other in the branch pipe 323. The branch pipe 323 that you see is connected through a connection pipe 324, and a water inlet pipe 321 is formed under the upper edge of the other side, and a water discharge pipe 322 is formed on the bottom of the lower corner of the other side. water block (320); Near the other side of the water block 320, a plurality of discharge grills 330 are formed to be convexly expanded in a fan shape on both sides, and the opposite side is formed to be concave inward. A cold and hot air blower using a thermoelectric element,

The discharge grill 330 is a cold and hot air blower using a thermoelectric element, each of which is coupled to both sides of the connection pipe 324,

A pinion 205 is provided on the axis of the first rotation motor 204, and the discharge housing 400 engages with the pinion 205 so that the discharge housing 400 can rotate repeatedly at a predetermined angle on both sides. A cold and hot air blower using a thermoelectric element including a rack 402 formed on the lower inner peripheral surface,

The fan 410 is,

The upper plate 413 is bent vertically inward in a ring shape to integrally form a blocking plate 417, and the other end of the wing 415 is fixedly coupled near the upper inner side of the blocking plate 417, and one end is attached to the upper plate 413. A circulator 414, which is fixedly coupled to the outer peripheral surface of the central cylinder and has a fixing hole 416 formed inside the central cylinder so that the motor shaft of the second rotation motor 230 can be fixedly coupled thereto; On the lower side of the outer circumference of the upper plate 413, a long impeller fan 412 is formed along the edge and includes an impeller 411; The above purpose can be achieved by using a "cooling/heating air blower using a thermoelectric element including the circulator 414 and the impeller 411 formed integrally" as its structural feature.

The present invention configured as above,

On one side of the thermoelectric element bracket equipped with a thermoelectric element, an output grill bracket combined with an output grill is formed, and on the other side, a water block and a discharge grill are formed. The output grill bracket, the thermoelectric element bracket, and a water block combined with an discharge grill are formed on the other side. It is made up of a set, forming an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages, so that when outside air flows in, for example, the heat dissipation efficiency of the exhaust grill, which is the heating surface of the thermoelectric element, is greatly increased by the water cooling method of the water block. As a result, it is possible to lower the temperature of the cold air surface, which is the output grill located on the opposite side, resulting in optimization of the cooling air effect.

By increasing the adhesion efficiency of a plurality of thermoelectric elements installed adjacent to each other up and down, and an output grill bracket and discharge grill in contact with both sides, a plurality of thermoelectric elements are used, and at the same time, the output grill bracket, the thermoelectric element bracket, and the discharge grill on the other side are used. The combined water blocks are made up of one set to form an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages to ensure optimal cooling performance at all times.

In addition to the filter, preferably a negative ion generator is provided at a predetermined location inside the outlet to perform a sterilization and purification function. Furthermore, a controller and display with piezoelectric touch buttons are provided on the upper surface of the outlet to enable convenient use. It is to demonstrate.

In the above, the present invention has been illustrated and described by taking specific preferred embodiments as examples, but the present invention is not limited to the above-described embodiments and is within the scope of the spirit of the present invention and is within the scope of common knowledge in the technical field to which the invention pertains. Various changes and modifications will be possible by those who have it.

1 is a perspective view of a hot and cold air blower using a thermoelectric element according to the present invention;
Figure 2 is an exploded perspective view of the hot and cold air blower using the thermoelectric element of the present invention;
Figure 3 is a separated perspective view of the suction part of the hot and cold air blower using the thermoelectric element of the present invention;
Figure 4 is an exploded perspective view of the body part of the hot and cold air blower using the thermoelectric element of the present invention;
Figure 5 is a separated perspective view of the hot and cold air blower in the cold and hot air blower using the thermoelectric element of the present invention;
Figure 6 is an exploded perspective view of the output grill bracket, the thermoelectric element bracket, and the water block combined with the discharge grill on the other side in the hot and cold air blower using the thermoelectric element of the present invention;
Figure 7 is a perspective view and plan view of the water block combined with the discharge grill in the hot and cold air blower using the thermoelectric element of the present invention;
Figure 8 is a separated perspective view of the discharge part of the hot and cold air blower using the thermoelectric element of the present invention;
Figure 9 is a partially cut-away perspective view of the fan in the hot and cold air blower using the thermoelectric element of the present invention;
Figure 10 is a cross-sectional view of the hot and cold air blower using the thermoelectric element of the present invention;
Figure 11 is a plan view of the cold and hot air blower using the thermoelectric element of the present invention in a state in which the cold and hot air blower is coupled to the body part;
Figure 12 is a cross-sectional view of the operating state of the hot and cold air blower using the thermoelectric element of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are merely illustrative for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention are Since various changes can be made and various forms can be taken, all changes, equivalents, or substitutes included in the spirit and technical scope of the present invention are included, and the terms and words used in the specification and claims are conventional or dictionary definitions. It is not limited to meaning, and the meaning and concept that corresponds to the technical idea of the present invention are based on the fact that the inventor can appropriately define the concept of the term to explain the invention in the best way. It should be interpreted as Accordingly, the embodiments described in the specification of the present invention and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, and can be replaced at the time of filing of the present invention. It should be understood that various equivalents and modifications are possible or may exist.

In addition, unless otherwise defined in the specification of the present invention, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains. have Terms as defined in commonly used dictionaries should be interpreted as having meanings consistent with the meanings they have in the context of the related technology, and unless clearly defined in this specification, should not be interpreted in an idealized or overly formal sense. No.

Hereinafter, the present invention, a hot and cold air blower using a thermoelectric element, will be described in detail with drawings.

Figure 1 is a perspective view of a cold and hot air blower using a thermoelectric element of the present invention, Figure 2 is an exploded perspective view of a cold and hot air blower using a thermoelectric element of the present invention, Figure 3 is an exploded perspective view of the suction part of a cold and hot air blower using a thermoelectric element of the present invention, Figure 4 is a separated perspective view of the body part of the cold and hot air blower using the thermoelectric element of the present invention, Figure 5 is a separated perspective view of the cold and hot air blower of the cold and hot air blower using the thermoelectric element of the present invention, and Figure 6 is the output from the cold and hot air blower using the thermoelectric element of the present invention. It is a separated perspective view of the grill bracket, the thermoelectric element bracket, and the water block combined with the discharge grill on the other side, Figure 7 is a perspective view and plan view of the water block combined with the discharge grill in the cold and hot air blower using the thermoelectric element of the present invention, and Figure 8 is It is an exploded perspective view of the discharge part in the cold and hot air blower using the thermoelectric element of the present invention. Figure 9 is a partially cut-away perspective view of the fan in the cold and hot air blower using the thermoelectric element of the present invention. Figure 10 is a cross-sectional view of the cold and hot air blower using the thermoelectric element of the present invention. 11 is a plan view of the cold and hot air blower using the thermoelectric element of the present invention in a state in which the cold and hot air blower is coupled to the body, and Figure 12 is a cross-sectional view of the operating state of the cold and hot air blower using the thermoelectric element of the present invention.

The specific configuration of the present invention is as shown in Figure 2

The suction part 10, the body part 20, the hot and cold air part 30, and the discharge part 40 are combined as shown in FIG. 1,

As shown in FIGS. 2 and 3, the suction unit 10 is provided with a bottom base 110 and a waste water tank 120 sequentially stacked inside the suction housing 100, and is installed on the top of the bottom base 110. As the filter 130 is seated,

Specifically, the suction unit 10,

A suction housing (100) that is detachable in two halves in the longitudinal direction and is provided with suction slits (101) in multiple stages;

A bottom base 110 having a seating groove 111 formed around its outer circumference with the inner center relatively protruding, and a fastening bar 112 provided at a predetermined position of the seating groove 111;

The inner center is relatively protruding, and a receiving groove 121 is formed around the outer circumference to accommodate water discharge generated during condensation, and is provided at a predetermined position in the receiving groove 121, and the fastening bar 112 A wastewater tank (120) equipped with a wastewater level sensor (123) fastened to;

Filter 130, which is a cylindrical HEPA filter for air purification;

It is made up of.

Meanwhile, the filter 130 is,

After mixing one or more types selected from illite, sericite, germanium, cathode, peat, and activated carbon, mix the porous mixture and binder solution pulverized to a particle size of 5-30㎛ at a weight ratio of 1:0.5-3. The porous mixture containing the binder solution is heated at a temperature of 300 to 500°C for 3 to 7 hours, and 2 to 3 parts by weight of microorganisms are added to 100 parts by weight of the heat-treated porous carrier, and the microorganisms are grown in 100 parts by weight of the added porous carrier. It is made by adding 2 to 5 parts by weight of natural vegetable oil to 100 parts by weight of a porous carrier on which 5 to 15 parts by weight of a growth promoter is adsorbed.

As shown in FIGS. 2 and 4, the body portion 20 has a first rotation motor 204 fixedly coupled to one upper side of the inner peripheral surface of the body housing 200 and a coupling portion 240 in the center. The coupling portion 240 is a structure in which a storage case 210 in which the water circulation pump 220 and the second rotary motor 230 are sequentially stacked is coupled,

Specifically, the body portion 20,

A body housing (200) in which a first rotation motor (204) is fixedly coupled to one upper side of the inner peripheral surface;

The inner center of the body housing 200 is provided with an insertion groove 203 from the bottom to the top, and the upper surface is provided with a protruding cylindrical portion perforated so that the motor shaft of the second rotation motor 230 protrudes through. A coupling portion 240 is provided with ribs 201 coupled to the inner peripheral surface of the body housing 200 in all directions from the bottom, and is penetrated between the ribs 201;

a second rotation motor 230 inserted into the insertion groove 203 and coupled to the upper surface of the coupling portion 240 so that the motor shaft protrudes through;

A water circulation pump 220 provided below the second rotary motor 230 and having a discharge pipe 221 detachably coupled in the horizontal direction at a predetermined position on the lower side and an inlet hole formed on the lower surface;

The upper surface is open so that the second rotary motor 230 and the water circulation pump 220 can be inserted, and the lower part is sealed in a cone shape at a predetermined position, and the discharge pipe 221 penetrates at a predetermined position on the upper side of the cone shape. A storage case 210 having a fastening hole 211 capable of fastening;

It is made up of.

Next, the hot and cold air blower 30 is as shown in Figures 2 and 5 to 7.

The output grill bracket 300, the thermoelectric element bracket 310, and the water block 320 combined with the discharge grill 330 on the other side are made up of one set to form an overall polygonal shape, and one set forming the polygonal shape is It is formed in multiple stages, and is preferably formed in multiple stages by forming a set of hexagonal shapes as shown in FIG. 5.

Specifically, the cold and hot air blowing unit 30,

An output grill bracket 300 having a plurality of output grills 301 formed longitudinally on one side and a flat plate shape on the other side;

A plate-shaped thermoelectric element bracket 310 having coupling holes 311 for coupling thermoelectric elements 312 in multiple stages in the vertical direction at a predetermined position.

It is rectangular in shape and has an empty space inside to accommodate water. A plurality of branch pipes 323 are formed slanted inward on the other side while maintaining vertical spacing near both ends of the other side, facing each other in the branch pipe 323. The branch pipe 323 that you see is connected through a connection pipe 324, and a water inlet pipe 321 is formed under the upper edge of the other side, and a water discharge pipe 322 is formed on the bottom of the lower corner of the other side. water block (320);

Near the other side of the water block 320, a plurality of discharge grills 330 are formed to be convexly expanded in a fan shape on both sides, and the opposite side is formed to be concave inward.

Meanwhile, the discharge grill 330 is coupled to both sides of the connection pipe 324, respectively.

The discharge unit 40 has a cylindrical shape as shown in FIGS. 2, 8, and 9, and a fan 410 is provided inside a discharge housing 400 with an discharge port 401 on one side, and the fan 410 ) A cap 420 with a discharge port 421 is formed at the top,

A pinion 205 is provided on the axis of the first rotation motor 204, and the discharge housing 400 engages with the pinion 205 so that the discharge housing 400 can rotate repeatedly at a predetermined angle on both sides. A rack 402 is formed on the lower inner peripheral surface,

As shown in Figure 9, the fan 410,

The upper plate 413 is bent vertically inward in a ring shape to integrally form a blocking plate 417, and the other end of the wing 415 is fixedly coupled near the upper inner side of the blocking plate 417, and one end is attached to the upper plate 413. A circulator 414, which is fixedly coupled to the outer peripheral surface of the central cylinder and has a fixing hole 416 formed inside the central cylinder so that the motor shaft of the second rotation motor 230 can be fixedly coupled thereto;

On the lower side of the outer circumference of the upper plate 413, a long impeller fan 412 is formed along the edge and includes an impeller 411;

The circulator 414 and impeller 411 are formed as one piece.

Hereinafter, the operation of the present invention will be explained with drawings.

First, Figures 10 and 11 relate to the combined cross section of the present invention,

As for the combination of the present invention,

While storing the waste water tank 120 in the seating groove 111 of the bottom base 110, the waste water level sensor 123 is fastened to the fastening bar 112, and then the filter 130 is installed on the upper surface of the bottom base 110. The suction housing 100 is seated and the outer peripheral surface of the bottom base 110 is divided into two to form the suction unit 10,

Next, the body portion 20 stores the water circulation pump 220 and the second rotary motor 230 in the storage case 210, fastens the discharge pipe 221 from the outside of the fastening hole 211, and connects the discharge pipe 221 with the discharge pipe 221. ) is connected to the water inlet pipe 321 of the main water block 320 (can be arbitrarily determined) among the water blocks 320, and the discharge pipe 322 is connected to the main water block 320 and the water block 320 ) of the water inlet pipe 321 to enable connection and circulation between the water blocks 320, the discharge pipe 322 of the last water block 320 is shown on the bottom of the water circulation pump 220. Although not shown, it is a structure connected to allow water to circulate.

At this time, it is circulated through the branch pipe 323 to the connection pipe 324, and the hot water circulated in this way is introduced into the outside air, lowering the temperature of the water inside the water block 320 to close to room temperature, and simultaneously reducing the temperature of the water inside the water block 320 to close to room temperature. The temperature is also lowered to close to room temperature.

Meanwhile, when the storage case 210 containing the water circulation pump 220 and the second rotary motor 230 is inserted and coupled into the insertion groove 203, the motor shaft of the second rotary motor 230 is inserted into the insertion groove 203. ) It is provided to protrude through a hole drilled on the upper surface.

Next, in a state where the body part 20 is coupled to the suction part 10 as described above, a hot and cold air blower 30 is coupled to the outer periphery of the insertion groove 203, and a discharge part ( 40 is fastened and coupled to the body portion 20, and at this time, the pinion 205 provided in the first rotation motor 204 and the rack 402 of the discharge portion 40 are engaged, so that when power is supplied, the body portion ( 20) is that the discharge unit 40 repeatedly rotates left and right within a predetermined range in a fixed state.

At this time, the motor shaft of the second rotation motor 230 is fixedly coupled to the fixing hole 416, and ultimately the fan 410 is driven by the second rotation motor 230.

It is combined as above.

Next, when explaining the operation, as shown in FIG. 12, the operation of performing the role of a cooling fan after supplying power is explained.

When the present invention is moved indoors, the power is supplied, and the button is activated to perform the cooling fan function, the outdoor air inside the room along with fine dust flows in through the suction slit 101, and harmful substances such as fine dust contained in the outdoor air at room temperature are removed. Dust is removed by the filter 130, and outdoor air at room temperature flows into the hot and cold air part 30, and the cold and hot air part 30 is garted as shown in FIG. 6 and then attached to the output grill bracket as shown in FIG. 5. 300), the thermoelectric element bracket 310, and the water block 320 combined with the discharge grill 330 on the other side are made up of one set, forming an overall polygonal shape, and one set of the hexagonal shape is formed in multiple stages. When outside air at room temperature flows into the hot and cold air blower 30, a certain amount flows into the central part where the discharge grill 330 is provided, and a certain amount flows into the output grill 301. Here, the certain amount is random and the reason for this flow is is achieved by the operation of the fan 410.

At this time, the fan 410 is formed with a circulator 414 and an impeller 411 integrally, and the inflow and discharge speeds of the external air introduced into the blocking plate 417 are determined by the circulator 414 and the impeller 411. ), so it is a function to block this and maintain the inherent inflow and discharge speed, and the outside air flowing in through the circulator 414 is inflow and discharge relatively quickly.

On the other hand, as described above, the outdoor air flowing into the hot and cold air blower 30 has the properties of the thermoelectric element 312, that is, when a direct current flows, a temperature difference occurs on both sides of the thermoelectric element, and the side with a lower temperature absorbs heat, and the side with a higher temperature absorbs heat. By using the original function of performing the role of a heat pump to push heat from the low temperature side of the thermoelectric element to the high temperature side by releasing heat from the side,

When outside air at room temperature is introduced, when acting as a cooler, the surface of the thermoelectric element 312 on the discharge grill 330 side maintains a high temperature and the surface on the output grill 301 side maintains a low temperature, so the discharge grill 330 Since the water circulated by the water circulation pump 220 in the water block 320 coupled with the water becomes hot, the room temperature outdoor air flowing into the discharge grill 330 is maintained at room temperature as quickly as possible. In order to perform this function, the circulator 414 is provided to quickly discharge hot air through the discharge port 421, and the hot air quickly discharged in this way is provided with a separate flexible device at the discharge port 421. It is desirable to connect pipes so that discharge can be discharged outdoors.

As described above, the outside air flowing into the discharge grill 330 is quickly accommodated in the water block 320 and the temperature of the circulating water is lowered to room temperature, so that the outside air flowing into the output grill 301 plays the role of optimal cold air, and the discharge outlet ( 401), and is configured in multiple stages to optimize the cold and hot air blowing 30.

Conversely, in order to discharge warm air through the outlet 401, pressing the warm air button allows the thermoelectric element 312 to play the opposite role of cold air, so detailed operations for this will be omitted.

The present invention configured as described above,

On one side of the thermoelectric element bracket equipped with a thermoelectric element, an output grill bracket combined with an output grill is formed, and on the other side, a water block and a discharge grill are formed. The output grill bracket, the thermoelectric element bracket, and a water block combined with an discharge grill are formed on the other side. It is made up of a set, forming an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages, so that when outside air flows in, for example, the heat dissipation efficiency of the exhaust grill, which is the heating surface of the thermoelectric element, is greatly increased by the water cooling method of the water block. As a result, it is possible to lower the temperature of the cold air surface, which is the output grill located on the opposite side, resulting in optimization of the cooling air effect.

By increasing the adhesion efficiency of a plurality of thermoelectric elements installed adjacent to each other up and down, and an output grill bracket and discharge grill in contact with both sides, a plurality of thermoelectric elements are used, and at the same time, the output grill bracket, the thermoelectric element bracket, and the discharge grill on the other side are used. The combined water blocks are made up of one set to form an overall polygonal shape, and one set of the hexagonal shape is provided in multiple stages to ensure optimal cooling performance at all times.

In addition to the filter, preferably a negative ion generator is provided at a predetermined location inside the outlet to perform a sterilization and purification function. Furthermore, a controller and display with a piezoelectric touch button are provided on the upper surface of the outlet to enable convenient use. It is to demonstrate.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is of course not limited to the above embodiments, and those skilled in the art in the field to which the present invention pertains can easily understand the above-described contents. Of course, various modifications and variations may be possible.

Therefore, the technical idea of the present invention should be understood by the claims described below, but it is obvious that all equivalent or equivalent modifications thereof fall within the scope of the technical idea of the present invention.

10: suction part 20: body part
30: hot and cold part 40: discharge part
100: suction housing 101: suction slit
110: Bottom base 111: Seating groove
112: fastening bar 120: waste water tank
121: Receiving groove 123: Sewage water level sensor
200: body housing 201: rib
203: Insertion groove 204: First rotation motor
205: pinion 210: storage case
211: fastening hole 220: water circulation pump
221: discharge pipe 230: second rotation motor
240: Coupler 300: Output grill bracket
301: Output grill 310: Thermoelectric element bracket
311: coupling hole 312: thermoelectric element
320: Water block 321: Water inlet pipe
322: water discharge pipe 323: branch pipe
324: Connector 330: Discharge grill
400: discharge housing 402: rack
410: Fan 411: Impeller
412: Impeller fan 413: Top plate
414: circulator 415: wings
416: Fixing hole 417: Blocking plate
420: Cap 421: Discharge port

Claims (8)

A suction unit (10) in which a bottom base (110) and a waste water tank (120) are sequentially stacked inside the suction housing (100) and a filter (130) is mounted on the top of the bottom base (110);
A first rotary motor 204 is fixedly coupled to one side of the upper inner peripheral surface of the body housing 200, and a coupling part 240 is provided in the center. The coupling part 240 includes a water circulation pump 220 and a second rotary motor. A body portion 20 to which a storage case 210 in which (230) is sequentially stacked is coupled;
The output grill bracket 300, the thermoelectric element bracket 310, and the water block 320 combined with the discharge grill 330 on the other side are made up of one set to form an overall polygonal shape, and one set forming the polygonal shape is Cold and hot air vents (30) formed in multiple stages;
A fan 410 is provided inside a cylindrical discharge housing 400 with an outlet 401 on one side, and a cap 420 with an outlet 421 is formed on the top of the fan 410. (40);
A cold and hot air blower using a thermoelectric element including.
According to claim 1,
The suction part 10,
A suction housing (100) that is detachable in two halves in the longitudinal direction and is provided with suction slits (101) in multiple stages;
A bottom base 110 having a seating groove 111 formed around its outer circumference with the inner center relatively protruding, and a fastening bar 112 provided at a predetermined position of the seating groove 111;
The inner center is relatively protruding, and a receiving groove 121 is formed around the outer circumference to accommodate water discharge generated during condensation, and is provided at a predetermined position in the receiving groove 121, and the fastening bar 112 A waste water tank (120) equipped with a waste water level sensor (123) fastened to;
Filter 130, which is a cylindrical HEPA filter for air purification;
A cold and hot air blower using a thermoelectric element including.
According to claim 1,
The filter 130 is,
After mixing one or more types selected from illite, sericite, germanium, cathode, peat, and activated carbon, mix the porous mixture and binder solution pulverized to a particle size of 5-30㎛ at a weight ratio of 1:0.5-3. The porous mixture containing the binder solution is heated at a temperature of 300 to 500°C for 3 to 7 hours, and 2 to 3 parts by weight of microorganisms are added to 100 parts by weight of the heat-treated porous carrier, and the microorganisms are grown in 100 parts by weight of the added porous carrier. A hot and cold air blower using a thermoelectric element comprising adding 2 to 5 parts by weight of natural vegetable oil to 100 parts by weight of a porous carrier on which 5 to 15 parts by weight of a growth promoter is adsorbed.
According to claim 1,
The body portion 20,
A body housing (200) in which a first rotation motor (204) is fixedly coupled to one upper side of the inner peripheral surface;
The inner center of the body housing 200 is provided with an insertion groove 203 from the bottom to the top, and the upper surface is provided with a protruding cylindrical portion perforated so that the motor shaft of the second rotary motor 230 protrudes through. A coupling portion 240 is provided with ribs 201 coupled to the inner peripheral surface of the body housing 200 on all four sides of the bottom, and is penetrated between the ribs 201;
a second rotation motor 230 inserted into the insertion groove 203 and coupled to the upper surface of the coupling portion 240 so that the motor shaft protrudes through;
A water circulation pump 220 provided below the second rotary motor 230 and having a discharge pipe 221 detachably coupled in the horizontal direction at a predetermined position on the lower side and an inlet hole formed on the lower surface;
The upper surface is open so that the second rotary motor 230 and the water circulation pump 220 can be inserted, and the lower part is sealed in a cone shape at a predetermined position, and the discharge pipe 221 penetrates at a predetermined position on the upper side of the cone shape. A storage case 210 having a fastening hole 211 capable of fastening;
A cold and hot air blower using a thermoelectric element including.
According to claim 1,
The hot and cold abundance unit 30,
An output grill bracket 300 having a plurality of output grills 301 formed longitudinally on one side and a flat plate shape on the other side;
A plate-shaped thermoelectric element bracket 310 having coupling holes 311 for coupling thermoelectric elements 312 in multiple stages in the vertical direction at a predetermined position.
It is rectangular in shape and has an empty space inside to accommodate water. A plurality of branch pipes 323 are formed slanted inward on the other side while maintaining vertical spacing near both ends of the other side, facing each other in the branch pipe 323. The branch pipe 323 that you see is connected through a connection pipe 324, and a water inlet pipe 321 is formed under the upper edge of the other side, and a water discharge pipe 322 is formed on the bottom of the lower corner of the other side. water block (320);
A cold and hot air blower using a thermoelectric element, including a plurality of discharge grills 330 convexly expanded in a fan shape on both sides near the other side of the water block 320, and the opposite side is formed concave inward.
According to claim 5,
The discharge grill 330 is a cold and hot air blower using a thermoelectric element, wherein the discharge grill 330 is coupled to both sides of the connection pipe 324, respectively.
According to claim 1,
A pinion 205 is provided on the axis of the first rotation motor 204, and the discharge housing 400 engages with the pinion 205 so that the discharge housing 400 can rotate repeatedly at a predetermined angle on both sides. A cold and hot air blower using a thermoelectric element including a rack 402 formed on the lower inner peripheral surface.
According to claim 1,
The fan 410 is,
The upper plate 413 is bent vertically inward in a ring shape to integrally form a blocking plate 417, and the other end of the wing 415 is fixedly coupled near the upper inner side of the blocking plate 417, and one end is attached to the upper plate 413. A circulator 414, which is fixedly coupled to the outer peripheral surface of the central cylinder and has a fixing hole 416 formed inside the central cylinder so that the motor shaft of the second rotation motor 230 can be fixedly coupled thereto;
On the lower side of the outer circumference of the upper plate 413, a long impeller fan 412 is formed along the edge and includes an impeller 411;
A hot and cold air blower using a thermoelectric element including the circulator 414 and the impeller 411 formed as one body.

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