KR20140044058A - Dryer - Google Patents

Abstract

The present invention relates to a hot air dryer with high energy efficiency. The hot air dryer according to the present invention comprises: a heating unit generating heat; a blowing fan forming the heat generated by the heating unit into hot air, and allowing the hot air to pass through a target to be dried; and a housing including a drying space into which the target is inserted, an exhaust pipe having an exhaust port through which the hot air generated by the blowing fan is discharged after passing through the drying space, and a hot air circulation pipe of which one side is connected to the exhaust pipe and the other side is connected to the drying space so that the part of the hot air passing through the exhaust pipe is resupplied to the drying space by the suction force of the blowing fan. According to the present invention, the hot air dryer allowing the part of the hot air, which flows to be discharged to the outside, to circulate to be resupplied to the drying space by the suction force of the blowing fan, allowing the other part of the hot air to be discharged to the outside, and allowing external air, which flows into the dryer as much as the amount of the hot air discharged to the outside, to be formed into the hot air prevents the humidity of the hot air from being excessively increased, so that drying efficiency can be improved, and, as a result, the energy efficiency can be improved.

Description

Energy-efficient hot air dryer {DRYER}

The present invention relates to a hot air dryer for drying by applying hot air to various agricultural and marine products.

There are various types of dryers for drying agricultural products and manufactured foods, and most of them have a structure in which heated hot air is supplied into the dryer and forcedly circulated.

Korean Utility Model Application No. 20-2006-0000503 (Agriculture and Fisheries Dryer Application (January 06, 2006)) discloses a hot air circulation dryer.

Existing dryers were simply configured to circulate hot air or exhaust them after passing through a drying object.

The structure that simply circulates the hot air is a structure that circulates the hot air having a high humidity due to the moisture evaporated by the drying of the drying object, so that the drying is not smooth and the drying time is long and the energy efficiency is low.

Since the hot air is simply discharged via the drying object, the structure is a structure that continuously discharges heat, and thus, too much energy is consumed to generate hot air.

As a technique to solve this problem, a dryer having a dehumidification means for removing moisture from the hot air through the drying space has been devised, but this structure is expected to have an effect of increasing energy efficiency because the structure is large and a lot of energy is consumed by the dehumidifier. There was a problem that was difficult to do.

Korean Utility Model Application No. 20-2006-0000503

The present invention aims to solve the above problems, and more particularly, to provide a hot air dryer having excellent energy efficiency without significantly increasing its size.

Hot air dryer of the present invention is a hot air dryer having a structure in which hot air is circulated, the heating means for generating heat; A blowing fan for allowing the heat heated by the heating means to be hot air and passing through the object to be dried; It has a drying space into which the object to be dried is put, has an exhaust pipe which forms an exhaust port so that hot air generated by the blowing fan passes through the drying space, and a part of the hot air passing through the exhaust pipe is dried by the suction force of the blowing fan. One side is connected to the exhaust pipe to be supplied back to the space and the other side of the housing having a hot air circulation pipe connected to the drying space; is configured to include.

In addition, the hot air circulation pipe is connected to the end of the exhaust pipe is hot air is discharged through the exhaust port is also introduced into the outside air through the exhaust port.

In addition, the exhaust opening and closing means for adjusting the degree of opening of the exhaust port of the exhaust pipe may be further provided.

In addition, the housing flows hot air into the drying space through a blowing hole formed at one side wall of the drying space, and hot air is discharged from the drying space through a discharge hole on the side opposite to the blowing hole, and hot air passing through the discharge hole. It is adapted to move vertically to the exhaust port located just above this.

The hot air dryer of the present invention undergoes a circulating process in which a part of the hot air flowing to be exhausted to the outside is supplied back to the drying space by the suction force of the blower fan, and some hot air is discharged to the outside, and the outside air is discharged to the inside of the dryer as much as the exhausted air. Since the hot air is introduced into the hot air, the humidity of the hot air is prevented from being excessively increased, so the drying efficiency is excellent, and as a result, the energy efficiency is also excellent.

In addition, when a part of the hot air is discharged through the exhaust port and the external air is also introduced through the exhaust port, it is possible to obtain an effect of first removing bacteria contained in the external air through heat.

In addition, when the exhaust opening and closing means for adjusting the degree of opening of the exhaust port of the exhaust pipe is further provided it can further improve the energy efficiency.

In addition, the housing flows hot air into the drying space through a blowing hole formed at one side wall of the drying space, and hot air is discharged from the drying space through a discharge hole on the side opposite to the blowing hole, and hot air passing through the discharge hole. If it is to move vertically to the exhaust port located directly above this, the drying is more smooth, and the energy efficiency is more excellent.

1 is a cross-sectional view of the hot air dryer excellent in energy efficiency of the present invention
Figure 2 is a partially enlarged view showing the connection portion of the hot air circulation pipe and exhaust pipe
FIG. 3 is a cross-sectional view taken along line AA for explaining that a portion of the hot air circulation pipe connected to the exhaust pipe forms a funnel shape that increases in width from the blowing fan direction toward the exhaust pipe direction;

The present invention will be described in more detail with reference to the accompanying drawings.

However, the accompanying drawings only show one example in order to explain the present invention in detail.

Therefore, the technical idea of the present invention is not limited to the form of the accompanying drawings, and the claims are not limited to the form of the accompanying drawings.

The hot air dryer of the present invention dries the object to be dried while the hot air is circulated.

Therefore, it has the heating means 10 which generate | occur | produces heat like a normal circulating hot air dryer.

Moreover, it has the blowing fan 20 which heats the heat | fever heated by the heating means 10 to become hot air, and passes through a drying object.

In addition, it has a drying space 31 into which the object to be dried, and has an exhaust pipe 32 which forms an exhaust port 32a so that hot air generated by the blowing fan 20 passes through the drying space 31 and is exhausted. It has a structure that allows hot air to circulate.

However, the present invention has an object to be a hot air dryer excellent in energy efficiency without increasing the size significantly.

To this end, in the present invention, in implementing the housing 30, any one of the hot air passing through the exhaust pipe 32 is supplied back to the drying space 31 by the suction force of the blower fan 20. Is connected to the other side is to have a form having a hot air circulation pipe 40 connected to the drying space (31).

That is, part of the hot air headed to the exhaust port to be exhausted to the outside through the circulation process is supplied back to the drying space 31 by the suction force of the blowing fan 20, so that some hot air is discharged to the outside through the exhaust port (32a). It is.

This structure is a structure in which the hot air is circulated but some air is discharged through the exhaust port 32a, and external air is introduced into the hot air by the amount of the exhaust air.

In addition, even if there is no separate humidity sensor is prevented from excessively increasing the humidity of the hot air is excellent in the drying efficiency and consequently the energy efficiency structure.

The external air may be introduced through a gap between the panel and the panel forming the drying space 31.

However, such a structure causes various problems such as deterioration of the drying efficiency and contamination of the drying object.

In order to solve this problem, the hot air can be discharged through the exhaust port 32a, and external air can also be introduced.

When external air is introduced through the exhaust port 32a, bacteria or the like contained in the external air introduced therein may be primarily processed (sterilized) by heat, and it is also easy to control the inflow of external air.

In particular, when the hot air dryer as described in the present invention also has a fermentation function, it is very important to maintain the humidity of the drying space 31, and for this, it is necessary to control the inflow of external air and the discharge of the internal hot air to exhaust the exhaust port 32a. Through the discharge of hot air and the inflow of external air is good to be made.

When the hot air circulation pipe 40 is connected to the end of the exhaust pipe 32, the hot air is discharged through the exhaust port 32a, and the outside air can also be introduced through the exhaust port 32a.

That is, the outside air is introduced into the exhaust port 32a by the suction force of the blower fan 20.

In most cases, hot air is discharged to the center of the exhaust port 32a, and external air flows into the edge portion of the exhaust port 32a.

Although there is a difference depending on the suction force of the blowing fan 20, in general, when the connection portion between the hot air circulation pipe 40 and the exhaust pipe 32 is at a distance L within 30 cm from the exhaust port 32a, which is the end of the exhaust pipe 32, As hot air is discharged through the exhaust port 32a, external air may also flow through the exhaust port 32a.

In the present invention, it may be further provided with an exhaust opening and closing means 60 that can adjust the degree of opening of the exhaust port (32a) of the exhaust pipe (32).

In this case, there are features such as energy efficiency can be further improved.

That is, when the air is heated to become the hot air of the initial set temperature using the hot air dryer, the exhaust port 32a is blocked so that only the hot air is circulated completely, and when the temperature reaches a set value, the exhaust port 32a is opened for energy efficiency. Can be further improved.

Of course, the exhaust opening and closing means 60 may be implemented in a form that completely blocks or completely opens the exhaust port 32a, or may be implemented in a form that can adjust the degree of opening.

The exhaust opening and closing means 60 may be implemented in a manual manner, or may be implemented in an automated manner.

In the case of the passive method, the exhaust port 32a may be blocked or may have a stopper that may be removed from the exhaust port 32a.

That is, the exhaust port 32a may be blocked by inserting the plug into the exhaust port 32a, or the plug may be removed from the exhaust port 32a to open the exhaust port 32a.

Of course, in the manual method, the opening degree of the exhaust port 32a may be adjusted to be adjustable.

In the automated method, it can be implemented by installing a solenoid valve or the like, and can be implemented by automatically operating a solenoid valve by a pre-programmed procedure. )

When the exhaust port 32a is blocked, more hot air is circulated, and as a result, the exhaust opening / closing means 60 adjusts the degree of exhaust and circulation of the hot air.

In consideration of the drying efficiency, as shown in the accompanying drawings, the hot air is introduced into the drying space 31 through the blowing hole 33 formed at one side wall of the drying space 31, and is opposite to the blowing hole 33. Hot air is discharged from the drying space 31 through the discharge hole 33 of the side wall located in the.

That is, a structure in which hot air is completely flowed and circulated in one direction of the tray in the other direction of the tray can prevent variations in drying in the drying space 31.

In such a structure, the hot air passing through the discharge hole 33 is vertically moved up to the exhaust port 32a positioned immediately above, as shown in the accompanying drawings.

In the present invention, the part connected to the exhaust pipe 32 of the hot air circulation pipe 40 has to form a funnel shape that becomes wider in the direction of the exhaust pipe 32 in the direction of the blowing fan 20, so that the hot air is without partial congestion of the hot air. Circulate evenly

That is, although the suction port of the blower fan 20 is small in width, the width of the drying space 31 is large, and the difference is relatively large.

Therefore, if it does not have a funnel-shaped portion (32b) as shown in the accompanying drawings, the suction port of the portion in line with the inlet of the blower fan 20 is a strong suction force, the other portion is relatively weak suction force to the degree of circulation of hot air Large deviation occurs.

This phenomenon causes problems such as deterioration of drying efficiency and condensation in unwanted places.

In the present invention, the exhaust port 32a is preferably formed at a portion where the suction force is strongly applied, such as being located in line with the suction port of the blower fan 20 as shown in the accompanying drawings.

The same applies to the structure having the funnel shape portion 32b as described above.

By weakening the suction force through the exhaust port 32a, the deviation of the suction force is reduced.

In the present invention, the hot air circulation pipe 40 is connected to form a predetermined angle (A) rather than being connected to orthogonal to the exhaust pipe 32, the circulation of hot air is smooth.

Preferably they are connected, forming the angle of 30 degrees-60 degrees.

The hot air dryer of the present invention may be implemented to have a fermentation function.

That is, the drying object may be added to the drying space 31 to be dried, or the fermentation object may be added to heat the fermentation object so that the hot air dryer may ferment the food.

Blocking the exhaust port (32a) in the hot air dryer structure of the present invention described above has the effect of maintaining a certain amount of humidity in the drying space 31, it is possible to ferment a certain portion.

However, it is difficult to carry out fermentation for a long time due to partial humidity variation due to condensation and water loss through minute gaps.

In particular, strong hot air causes a hard fermentation.

For this reason, it is preferable to provide a wind volume controller 50 that can control the power applied to the blower fan 20 to increase or decrease the amount of air blown.

That is, a strong hot air is generated when the drying function is performed, and a weak hot air is generated when the fermentation function is performed.

When the blower fan 20 does not operate, the blower fan 20 must be driven because breakage due to overheating of the heating means 10 occurs and heat is not evenly applied to the drying space 31.

The hot air dryer having a fermentation function is a structure in which hot air is circulated and some air is discharged through the exhaust port 32a, and the outside air is introduced into the dryer by the amount of exhausted air so as to be hot air. Drying is smooth, it is not necessary to provide a separate heating means 10 for fermentation.

In addition, when the exhaust port 32a is blocked and the airflow rate of the blower fan 20 is reduced through the airflow controller 50, the heating means 10 is cooled instead of strong wind to prevent breakage due to overheating. Since a breeze is generated to supply the generated heat to the drying space 31 in which the fermentation target is located, it is possible to set a temperature suitable for fermentation, and the exhaust port 32a is blocked so that the humidity in the drying space 31 is kept high. Proper moisture can also be maintained.

In the hot air dryer of the present invention, the doors for blocking the drying space 31, etc., by lowering the thermal insulation performance compared to other parts, the dew condensation occurs in the inner part of the door, the moisture flows due to the dew condensation flows into a small gap It can also be implemented to be discharged.

In addition, by installing a separate air inlet 70 may be implemented to adjust the amount of air sucked through the air inlet 70 when the air is not inhaled through the exhaust port (32a).

Reference numeral 11 is a temperature controller.

10. Heating means
11. Temperature controller
20. Blower fan
30. Housing
31. Drying space
32. Exhaust Pipe
32a. Exhaust
32b. Funnel shape
33. Blowing fan
34. Outlet hole
40. Hot air circulation pipe
50. Airflow Controller
60. Exhaust vent opening and closing means
70. Air Intake

Claims (5)

In a hot air dryer having a structure in which hot air is circulated,
Heating means (10) for generating heat;
A blowing fan 20 for causing the heat heated by the heating means 10 to be hot air and passing through a drying object;
It has a drying space 31 into which a drying object is put, and has an exhaust pipe 32 which forms an exhaust port 32a so that hot air generated by the blowing fan 20 passes through the drying space 31 and is exhausted. Some of the hot air passing through the exhaust pipe 32 is connected to the exhaust pipe 32 so that a part of the hot air is supplied back to the drying space 31 by the suction force of the blowing fan 20, and the other side of the hot air is connected to the drying space 31. Energy-efficient hot air dryer comprising a; housing (30) having a circulation pipe (40).
The method according to claim 1,
The hot air circulation pipe 40 is connected to the end of the exhaust pipe 32, hot air is discharged through the exhaust port (32a) while the hot air dryer excellent in energy efficiency to make the inflow of external air through the exhaust port (32a).
The method according to claim 1,
Hot air dryer with excellent energy efficiency is further provided with an exhaust opening and closing means 60 that can adjust the degree of opening the exhaust port (32a) of the exhaust pipe (32).
The method according to any one of claims 1 to 4,
Hot air is introduced into the drying space 31 through the blowing hole 33 formed in one side wall of the drying space 31, and the discharge hole of the side wall located opposite the blowing hole 33. Hot air is discharged from the drying space 31 through the 33), the hot air dryer with excellent energy efficiency is to move vertically to the exhaust port 32a located directly above the discharge hole (33).
The method according to any one of claims 1 to 4,
Part of the hot air circulation pipe 40 is connected to the exhaust pipe 32 is a hot air dryer with excellent energy efficiency forming a funnel shape that is wider in the direction from the blowing fan 20 toward the exhaust pipe (32).

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