KR100859603B1 - Ice air cooler - Google Patents

Abstract

In the present invention, the evaporator is made of a simple structure around the rotation radius of the blower, the cooling cycle is extremely small, and the apparatus is miniaturized close to the fan, the manufacturing cost is significantly reduced, space utilization and handling management is easy, and produce a cool ice cold wind at cost It relates to an ice cold air cooler to create a clean environment with antibacterial and antiseptic function.

The present invention for realizing this has a cooling cycle including a compressor, a condenser, a capillary tube and an evaporator and a blowing fan rotated by a motor, and configured to allow the cold air generated in the evaporator to exchange heat and discharge when the blowing fan rotates. In the ice-cooler to be, the evaporator is characterized in that installed around the rotation radius of the blowing fan.

Cooler, Refrigeration Cycle, Compressor, Condenser, Evaporator, Ice Switch

Description

Ice Cooler {ICE AIR COOLER}

Figure 1 is a schematic side cross-sectional view showing the internal structure of the ice cold air according to the invention

2 is a partially omitted view of the blowing fan of FIG.

3 is a side cross-sectional view of an embodiment according to the present invention.

4 is an external perspective view of an embodiment according to the present invention

5 is a partial detailed view of one embodiment according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

1: Ice-Cooled Cooler of the Invention

10: housing 15: defrosting water receiving 16: defrosting water guide member

31: blower fan 33: motor 50: cooling cycle

51: compressor 52: condenser 55: evaporator

55A: Plate type evaporator 55B: Coil type evaporator 57: Cooling fan

71: power switch 73: ice switch 75: display unit

The present invention relates to an ice cold air blower, in particular, because the evaporator is made of a simple structure around the rotation radius of the blower, the cooling cycle is extremely small and the device is miniaturized close to the fan, significantly reducing the manufacturing cost and easy space utilization and handling management The present invention relates to an ice cold wind machine for producing a cool ice cold wind at a low cost and creating a clean environment with antibacterial and sterilizing functions.

In general, a cold air blower is a type of cooling device that blows cold air lower than room temperature by using latent heat of evaporation, which takes heat from air when water evaporates.

Such a cooler is cooler than a fan that simply circulates air and blows only the wind, and the cooling efficiency is less than that of an air conditioner, but has the advantage of low power consumption and easy installation and maintenance.

Such a cold air fan is configured to install an evaporator of a cooling cycle in front of or behind a blower fan so that the cold air of the evaporator is discharged together when blowing.

However, in the prior art, the evaporator is installed at the front and rear of the blower fan, so that not only the cooling cycle including the evaporator, but also the overall size of the device is large enough to be close to the air conditioner level, thus increasing the manufacturing cost and occupying a large amount of indoor space. there was.

In addition, since the size of the cooling cycle increases, heat is generated a lot, so there is a problem of treatment, as well as a lot of power consumption, and the configuration of the evaporator is complicated.

The present invention has been made to solve the above problems,

The object of the present invention is that the evaporator is made of a simple structure around the rotation radius of the blower, the cooling cycle is extremely small and the apparatus is miniaturized close to the fan, the manufacturing cost is significantly reduced, space utilization and handling management is easy, and the cold ice cold air is low cost It is to provide the ice cold fan to produce a clean environment with antibacterial and antiseptic function.

Ice cold air according to the present invention for achieving the above object is

An ice sheet cooler having a cooling cycle including a compressor, a condenser, a capillary tube, and an evaporator, and a blower fan rotated by a motor, and configured to heat-discharge the cool air generated in the evaporator when the blower fan rotates;

The evaporator is characterized in that installed around the rotation radius of the blowing fan.

Hereinafter, with reference to the accompanying drawings, an embodiment of an ice cold air blower of the present invention will be described in more detail.

Figure 1 is a schematic side cross-sectional view showing the internal structure of the ice cold air according to the present invention, Figure 2 is a partially omitted front view of the blowing fan of Figure 1, Figure 3 is a side cross-sectional view of an embodiment according to the present invention, Figure 4 is the present invention Exterior perspective view of an embodiment according to.

 As shown in FIGS. 1 to 4, the ice-cooler 1 of one embodiment according to the present invention comprises a compressor 51, a condenser 52, a capillary tube 53 and an evaporator 55 in the housing 10. Ice cycle comprising a cooling cycle 50 and a blowing fan 31 is rotated by the motor 33, the cold air generated in the evaporator 55 when the blowing fan 31 rotates heat exchange discharge In a cold fan; The evaporator 55 is installed around the rotation radius of the blowing fan 31.

Here, the evaporator 55 is a plate evaporator in which two plates 551 having a valley are joined to each other to form a refrigerant passage 553 and a curved forming, and a refrigerant tube of a cooling cycle communicates with both sides of the refrigerant passage. It is preferred to be bonded.

That is, the evaporator 55 is formed in the form of a freezing plate, and as the refrigerant pipe, the capillary tube 53 on the inlet side and the suction tube 54 on the outlet side are preferably welded together.

The plate evaporator 55A may be formed by folding one sheet of material and pressing the sheet.

A refrigerant pipe may be inserted into the refrigerant passage of the plate evaporator 55A.

In addition, the evaporator 55B may be installed in a coil form as shown in FIG. 3. In this case, the coil may be in the form of being wound about 2 to 3 times.

The evaporator 55 is made of any one of an aluminum plate, an aluminum pipe, a copper plate, and a copper pipe having excellent thermal conductivity.

In addition, a defrosting receiver 15 is further installed below the evaporator 55.

In addition, although not shown, it is preferable that the evaporator 55 is configured to control the driving of the compressor 51 according to the thickness of ice (frost) attached to the sensor to keep the thickness constant.

On the other hand, the condenser 52 is preferably installed to be seated on the defrost receiving (15).

This is not only to forcibly evaporate the water stored in the defrosting receiver 15 by using the high heat generated from the condenser 52, thereby increasing the heat dissipation efficiency of the condenser 52 to increase the cooling efficiency. To do this.

In addition, the present invention seeks not to continuously generate and supply cold air through the evaporator like air, but to form a frost (frozen ice) on the surface of the evaporator 55 and use the cooled air passing through the frost as cold air. The compressor is small enough to do so.

In addition, the cooling fan 57 rotated by the motor 56 is installed directly above the condenser 52, so as to further improve the cooling efficiency of the condenser 52.

On the other hand, as shown in Figure 4, the front upper end of the housing 10, including the power switch 71, ice switch 73 may be installed.

Here, the power switch 71 is a switch for supplying the power required for driving the cooling cycle, the ice sheet switch 73 is a switch for driving the blowing fan.

When the power switch 71 is applied, ice and frost are frozen on the surface of the evaporator 55 in about 15 minutes, and a switch for temperature control, wind direction control, or timer setting is separately provided.

In addition, the front panel of the housing 10 may be provided with a display unit 75, which may display information regarding the control of the cold air, such as the current room temperature, the set temperature, the cold air temperature, the air flow rate, etc. Since it is a known configuration, a detailed electrical circuit connection relationship will be omitted.

In addition, if the rotary grill is installed, the wind is changed while the wind direction is changed according to the set wind direction, and if the fixed grill is to blow the wind only in a certain direction.

In this process, if ice is not generated on the surface of the evaporator 55, the wind discharged by the blower fan 31 will be about the same as when the fan is used.

In addition, the refrigerant of the gaseous phase compressed by the operation of the compressor 51 at a high temperature and high pressure is dissipated by heat dissipation as it exchanges heat with the defrost water stored in the defrosting receiver 15 while passing through the condenser 52.

In addition, one side of the evaporator 55 is configured to stop the driving of the compressor 51 by the control of a sensor (not shown) when the ice frozen on the surface of the evaporator becomes a predetermined thickness or more.

Such a sensor may be a timer, a thickness measuring sensor, or a sensor such as a thermostat, and may be configured to be automatically controlled using them.

In addition, as illustrated in FIG. 5, an auxiliary evaporator 59 may be further installed at the front or the rear of the blowing fan 31.

In addition, since the ice cold air can be inhabited by microorganisms such as bacteria by the temperature difference with the ambient temperature, antibacterial and sterilization function is required.

In view of the above, the present invention is preferred that the components including the evaporator 55 are coated with silver or silver alloy.

In the figure, reference numeral '18' is a cooling fan supporter.

Look at the working state of the ice cold air according to the present invention having such a configuration.

The external air introduced into the inlet 12 is cooled by heat exchange with frost or ice attached to the evaporator 55 or the evaporator, and the cooled air, that is, the cold air, discharges the outlet 11 through the blower fan 31. Is blown through.

At this time, since the blower fan 31 maintains the state disposed in the evaporator 55, there is no obstruction obstructing the air blower so that the air blower can be smoothly blown, and the blown air is an evaporator made of a material having excellent thermal conductivity. Sufficient cooling through sufficient heat exchange with 55 will maintain a cooler state.

On the other hand, the water generated in the evaporator 55 during the use of the cold air is collected by the defrost water receiving unit 15 through the defrost water guide member (16).

In addition, the defrost water collected in the defrosting receiver 15 is forcedly evaporated while being used for cooling the condenser 52, and also naturally evaporated even when the condenser 52 is not used.

Of course, by installing the defrost drawer 15 to be withdrawable, it may be configured to completely remove the water remaining in the defrost drawer when the cooler is stored in a non-use state for a long time.

In addition, since the size of the cooling cycle is small and not always driven, there is no need to install an outdoor unit for heat dissipation like an air conditioner, and power consumption is very low.

The present invention has a simple structure in which the evaporator 55 is installed around the rotational radius of the blower fan 31 to produce cold air smoothly, and the cooling cycle is extremely small and the space occupancy is insignificant. Due to the small size, it is easy to handle and manage, and the manufacturing cost is low, so that cool ice cold wind can be enjoyed at an extremely low cost.

In addition, the components including the evaporator 55 is coated with silver or silver alloy material to release silver ions having antibacterial and bactericidal functions, thereby fundamentally blocking the production of bacteria and also acting as an air cleaning.

The present invention is not limited to the above-described embodiments and drawings since various substitutions, modifications, and changes are possible to those skilled in the art without departing from the technical spirit of the present invention. .

As described in detail above, the cold air according to the present invention

The simple structure of the evaporator makes the cooling cycle extremely small and occupies little space, making the overall size of the device close to the fan, making it cheaper to manufacture and enjoying the cool ice cold air with minimal cost. .

In addition, the miniaturization has the advantage of low space occupancy and easy handling and management.

In addition, the components are coated with silver or silver alloy material to release silver ions having antibacterial and bactericidal functions, thereby effectively blocking bacteria production.

Claims (8)

In the housing 10, a cooling cycle 50 including a compressor 51, a condenser 52, a capillary tube 53, and an evaporator 55 and a blower fan 31 rotated by a motor 33 may be provided. The cold air generated in the evaporator 55 during the rotation of the blower fan 31 is configured to exchange heat and discharge, and the evaporator 55 includes an ice cold air blower installed around the rotation radius of the blower fan 31. The evaporator 55 is a plate-shaped evaporator in which two plates 551 having a valley are joined to each other to form a refrigerant passage 553 and a curved forming, or one sheet of material to be folded and joined to form a refrigerant passage 553 to be curved. It becomes the plate evaporator 55A formed and formed, An ice cold air cooler, characterized in that the refrigerant pipe of the cooling cycle is connected in communication with both sides of the refrigerant passage. delete delete delete The method of claim 1; The evaporator 55 is an ice cold air cooler, characterized in that made of any one of an aluminum plate or a copper plate. delete The method according to claim 1; Ice evaporator, characterized in that the auxiliary evaporator (59) is further installed in the front or rear of the blowing fan (31). The method according to claim 1; Components, including the evaporator (55) is characterized in that the surface is coated with silver or silver alloy material.

Images