KR20120122956A - Heat reflux drying machine utilizing inlet/outlet air temperature difference to condense water - Google Patents

Abstract

PURPOSE: A heat reflux drying machine for condensing moisture by using temperature difference of intake and exhaust air is provided to supply a dehumidification function and to save electric energy. CONSTITUTION: A heat reflux drying machine for condensing moisture by using temperature difference of intake and exhaust air comprises a fluid pipeline(1035), a thermal current distributing hole(1026), and a thermal current inlet(1022). The fluid pipeline comprises a housing exterior(1030) and a vertically curved guide structure(1032). Low temperature air current passing by the housing of the pipeline is sucked by pumping. Thermal current is cooled through the temperature difference and humidity in the thermal current is condensed. Some of the condensed moisture is discharged through an outward exhaust port(109) and some of the condensed moisture flows to the thermal current for reducing heat energy loss.

Description

Heat reflux dryer condensing moisture using intake / exhaust air temperature difference {HEAT REFLUX DRYING MACHINE UTILIZING INLET / OUTLET AIR TEMPERATURE DIFFERENCE TO CONDENSE WATER}

The present invention relates to a dryer, and more particularly, the hot air containing the water discharged from the heating space is pumped through the electric fluid pump 106 again via the hot air pumping inlet 111, the hot air discharged by the pumping Condenses water at the same time as it passes through the up and down bent fluid conduit 1035 consisting of a flow guide structure 1032 bent up and down and the housing exterior 1030 of the conduit end 1029 having a function of condensing water. A relatively low temperature air stream passing through the housing 1031 of the pipe line 1029 having a function is sucked from the outside by pumping, and by using the temperature difference between the two, the hot air containing the moisture is Cooling and condensing the moisture contained therein, through which the condensed water is collected, or a part of which is externally discharged by the induction of the hot air flow passage 1026 together with the hot air. It is discharged through the outlet 109 and through the up and down bent fluid pipe 1035 composed of a flow guide structure 1032 bent up and down and the housing outer 1030 of the pipe end 1029 having a function of condensing moisture. Some hot air flows in the direction of the hot air flow inlet 1022 conveyed by the induction of the hot air flow splitter 1026, flows into the cold / hot air flow mixing space structure 1023, and is preheated and mixed with the air flow sucked from the outside. It is directed to a heat reflux dryer which condenses moisture by using an intake / exhaust temperature difference that can be reduced to a loss of thermal energy by flowing into a subsequent heating and subsequent heating, thereby saving electrical energy.

Conventional drum dryers, such as a dryer or a dream washing machine, a heating type dehumidifier or a hand dryer, use a fluid pump to transfer air sucked from the outside to the heat transfer device, and the air flow heated by the heat transfer device is a heating space. It flows into the target and dries the target and then discharges to the outside. However, these conventional dryers do not return to the fluid heater without dehumidifying the hot air during the operation, and also do not perform heat recovery through heat exchange with the air flow sucked from the outside, and thus, There is a problem that causes waste.

The present invention has been invented to solve the above problems, an object of the present invention is to pump the air flow sucked from the outside having a relatively low temperature to the electric fluid pump to the fluid heating device, and through the heating device The heated fluid is again introduced into the heating space and various dryers are installed to dry the target, and the water condensation and heat reflux device 102 using the intake / exhaust temperature difference is further installed, and the electric fluid pump 106 is provided. By using the pumping of the air flow sucked in from the outside having a relatively low temperature flows into the housing 1031 of the pipe line 1029 having the function of condensing water, and again through the air inlet 1021 The hot air flows into the hot air flow mixing space structure 1023 and discharges from the heating space at the same time, through the hot air pumping inlet 111 again. Via the up and down bent fluid conduit 1035 consisting of a flow guide structure 1032 bent up and down and a housing exterior 1030 of the conduit end 1029 having a function of condensing moisture through the pumping of the fluid pump 106. Then, some hot air flows into the cold / hot air flow mixing space structure 1023 via the hot air flow splitter 1026 and the fluid guide surface 1020 and is externally having a relatively low temperature introduced jointly by pumping. After preheating and mixing with the sucked fluid, it is introduced into the fluid heating device 103 and subsequently heated to reduce the loss of thermal energy, thereby saving electric energy and using the hot air flow splitter 1026. The flow guide structure bent upward and downward with the housing exterior 1030 of the pipeline stage 1029 having a function of allowing some hot air to be discharged through the external discharge port 109 and condensing moisture at the same time. Externally having a relatively low temperature passing through housing interior 1031 of pipeline stage 1029 having the function of condensing moisture by using heat energy of hot air flowing through the up and down bent fluid pipeline 1035 composed of 32). Pre-heating of the air flow sucked in the air in addition to the moisture in the hot air by using the temperature difference between the two condensation and moisture condensation using the intake / exhaust temperature difference and condensation of the moisture in the heat reflux device 102 It is to provide a heat reflux dryer for condensing moisture by using the intake / exhaust temperature difference to be collected or discharged to the outside by condensing on the housing 1030 of the 1029.

The present invention relates to a dryer, and more particularly, the hot air containing the water discharged from the heating space is pumped through the electric fluid pump 106 again via the hot air pumping inlet 111, the hot air discharged by the pumping Condenses water at the same time as it passes through the up and down bent fluid conduit 1035 consisting of a flow guide structure 1032 bent up and down and the housing exterior 1030 of the conduit end 1029 having a function of condensing water. A relatively low temperature air stream passing through the housing 1031 of the pipe line 1029 having a function is sucked from the outside by pumping, and by using the temperature difference between the two, the hot air containing the moisture is Cooling and condensing the moisture contained therein, through which the condensed water is collected, or a part of which is externally discharged by the induction of the hot air flow passage 1026 together with the hot air. It is discharged through the outlet 109 and through the up and down bent fluid pipe 1035 composed of a flow guide structure 1032 bent up and down and the housing outer 1030 of the pipe end 1029 having a function of condensing moisture. Some hot air flows in the direction of the hot air flow inlet 1022 conveyed by the induction of the hot air flow splitter 1026, flows into the cold / hot air flow mixing space structure 1023, and is preheated and mixed with the air flow sucked from the outside. It is directed to a heat reflux dryer which condenses moisture by using an intake / exhaust temperature difference that can be reduced to a loss of thermal energy by flowing into a subsequent heating and subsequent heating, thereby saving electrical energy.

The present invention pumps the air flow sucked from the outside having a relatively low temperature in order to solve the problems as described above is delivered to the fluid heating device, the fluid heated through the heating device is introduced into the heating space Various dryers for drying the target are installed, and additionally, a water condensation and heat reflux device 102 using the intake / exhaust temperature difference is further installed, and a relatively low temperature is used by pumping the electric fluid pump 106. The air flow sucked from the outside to the inside of the housing 1031 of the conduit stage 1029 having a function of condensing moisture, and then flows back to the cold / hot air mixed space structure (1023) via the air inlet (1021) At the same time, the hot air containing the moisture discharged from the heating space is again pumped by the electric fluid pump 106 via the hot air pumping inlet 111. After passing through the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and the housing outer 1030 of the conduit end 1029 having a function of condensing, some hot air flows through the hot air flow flow outlet 1026. ) And the fluid heating device after pre-mixing with the externally sucked fluid having a relatively low temperature introduced into the cold / hot air flow mixing space structure 1023 via the fluid guide surface 1020 and jointly introduced by pumping. Subsequent heating to the 103 to reduce the loss of thermal energy, thereby saving electrical energy and to allow some hot air to be discharged through the external outlet 109 using the hot air flow splitter 1026. Up and down bent fluid pipe consisting of a flow guide structure 1032 bent up and down and the housing outer 1030 of the pipe end 1029 having a function of condensing water at the same time Preheating is performed on the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing moisture by using heat energy of the heat flow passing through the 1035. In addition, the outside of the housing 1030 of the conduit stage 1029 having a function of condensing moisture in the hot air using the intake / exhaust temperature difference and condensing the moisture of the heat reflux device 102 by using the temperature difference between the two. A heat reflux dryer which condenses moisture by using an intake / exhaust temperature difference that is collected or discharged to the outside by condensation is presented.

1 is a perspective view showing the main structure of the present invention.
FIG. 2 is an AA exploded view of FIG. 1. FIG.
Figure 3 is a perspective view showing the main structure of the present invention applied to a drum type washing machine.
Figure 4 is a perspective view showing the main structure of the present invention applied to the dehumidifier.
FIG. 5 is a perspective view illustrating a main structure in which a uniform flow structure 1027 in a stationary state is installed at an outlet of the cold / hot air mixed space structure 1023 according to the present invention.
FIG. 6 is a perspective view showing a main structure in which a stirred blade structure 1028 that freely rotates is installed at an outlet of the cold / hot air mixed space structure 1023 according to the present invention.
7 is a main structure in which a cooling chip 200 is electrically installed in a conduit stage 1029 having a function of condensing water in the condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference according to the present invention. Is a perspective view.
FIG. 8 illustrates a cooling chip 200 electrically charged to a conduit stage 1029 having a function of condensing water in a water condensation and heat reflux device 102 using the intake / exhaust temperature difference according to the present invention, thereby providing a fluid. It is a perspective view which shows the main structure which replaced the heating apparatus 103.
Figure 9 is a cross-sectional perspective view showing an embodiment of the inside and the outside of the pipe end 1029 having a function of condensing moisture according to the present invention having a fin shape.
10 is a cross-sectional perspective view showing an embodiment in which the inside and the outside of the conduit stage 1029 having a function of condensing moisture of the electrically charged cooling chip 200 according to the present invention have a fin shape.

Conventional drum dryers, such as a dryer or a dream washing machine, a heating type dehumidifier or a hand dryer, use a fluid pump to transfer air sucked from the outside to the heat transfer device, and the air flow heated by the heat transfer device is a heating space. It flows into the target and dries the target and then discharges to the outside. However, these conventional dryers do not return to the fluid heater without dehumidifying the hot air during the operation, and also do not perform heat recovery through heat exchange with the air flow sucked from the outside, and thus, There is a problem that causes waste.

The present invention relates to a dryer, and more particularly, the hot air containing the water discharged from the heating space is pumped through the electric fluid pump 106 again via the hot air pumping inlet 111, the hot air discharged by the pumping Condenses water at the same time as it passes through the up and down bent fluid conduit 1035 consisting of a flow guide structure 1032 bent up and down and the housing exterior 1030 of the conduit end 1029 having a function of condensing water. A relatively low temperature air stream passing through the housing 1031 of the pipe line 1029 having a function is sucked from the outside by pumping, and by using the temperature difference between the two, the hot air containing the moisture is Cooling and condensing the moisture contained therein, through which the condensed water is collected, or a part of which is externally discharged by the induction of the hot air flow passage 1026 together with the hot air. It is discharged through the outlet 109 and through the up and down bent fluid pipe 1035 composed of a flow guide structure 1032 bent up and down and the housing outer 1030 of the pipe end 1029 having a function of condensing moisture. Some hot air flows in the direction of the hot air flow inlet 1022 conveyed by the induction of the hot air flow splitter 1026, flows into the cold / hot air flow mixing space structure 1023, and is preheated and mixed with the air flow sucked from the outside. It is directed to a heat reflux dryer which condenses moisture by using an intake / exhaust temperature difference that can be reduced to a loss of thermal energy by flowing into a subsequent heating and subsequent heating, thereby saving electrical energy.

The present invention pumps the air flow sucked from the outside having a relatively low temperature in order to solve the problems as described above is delivered to the fluid heating device, the fluid heated through the heating device is introduced into the heating space Various dryers for drying the target are installed, and additionally, a water condensation and heat reflux device 102 using the intake / exhaust temperature difference is further installed, and a relatively low temperature is used by pumping the electric fluid pump 106. The air flow sucked from the outside to the inside of the housing 1031 of the conduit stage 1029 having a function of condensing moisture, and then flows back to the cold / hot air mixed space structure (1023) via the air inlet (1021) At the same time, the hot air containing the moisture discharged from the heating space is again pumped by the electric fluid pump 106 via the hot air pumping inlet 111. After passing through the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and the housing outer 1030 of the conduit end 1029 having a function of condensing, some hot air flows through the hot air flow flow outlet 1026. ) And the fluid heating device after pre-mixing with the externally sucked fluid having a relatively low temperature introduced into the cold / hot air flow mixing space structure 1023 via the fluid guide surface 1020 and jointly introduced by pumping. Subsequent heating to the 103 to reduce the loss of thermal energy, thereby saving electrical energy and to allow some hot air to be discharged through the external outlet 109 using the hot air flow splitter 1026. Up and down bent fluid pipe consisting of a flow guide structure 1032 bent up and down and the housing outer 1030 of the pipe end 1029 having a function of condensing water at the same time Preheating is performed on the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing moisture by using heat energy of the heat flow passing through the 1035. In addition, the outside of the housing 1030 of the conduit stage 1029 having a function of condensing moisture in the hot air using the intake / exhaust temperature difference and condensing the moisture of the heat reflux device 102 by using the temperature difference between the two. A heat reflux dryer which condenses moisture by using an intake / exhaust temperature difference that is collected or discharged to the outside by condensation is presented.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an embodiment of a heat reflux dryer for condensing moisture using an intake / exhaust temperature difference according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the main structure of the present invention, Figure 2 is an A-A exploded view of FIG.

As shown in Figure 1 and 2, the heat reflux dryer for condensing moisture by using the intake / exhaust temperature difference according to the present invention, in addition to the housing and the electrical energy conductor, and comprises the following main configuration .

In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. After passing through the interior 1031 of the conduit stage 1029 having a function of condensing water and the cold / hot air flow mixing space structure 1023, the fluid heating device 103 is heated to flow into the heating space 104. will be.

The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. It is to be introduced into the / heat stream mixed space structure (1023).

In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and the housing exterior 1030 of the conduit end 1029 having a function of condensing water is discharged from the heating space 104. The hot air flows through, and has a structure composed of a hot air flow splitter 1026 and a fluid guide surface 1020, and using the structure composed of the hot air flow splitter 1026 and the fluid guide surface 1020 A portion of the hot air flowing through the bent fluid pipe 1035 is introduced into the cold / hot air mixed space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively The airflow sucked from the outside with a low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 to allow subsequent heating. Inhaled from the outside having a relatively low temperature passing through the inside 1031 of the housing 1010 of the conduit end 1029 having a function of condensing the water by using the heat energy of the heat flow passing through the fluid pipe (1035) bent upward and downward It is to preheat the airflow.

The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( The air flow containing water discharged from the heating space 104 through the housing interior 1031 of the 1029 is bent up and down by pumping the electric fluid pump 106 past the hot air pumping inlet 111. When flowing into and passing through the fluid line 1035, the water pipes 1029 having a function of condensing the water contained in the hot air passing through the fluid pipe 1035 bent upward and downward using the temperature difference between the two pipes 1029. By condensation outside the housing 1030 is to be collected or discharged to the outside.

In addition, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow splitter 1026.

The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to be heated again to the heating space 104 after the heating again for the pre-mixed air stream delivered from the.

The heating space 104 is provided with a hot air inlet and an outlet, and has a space in which a target to be dried is placed. The heating space may include an enclosed space, a semi-open space, or an open space. The hot air flow inlet of the heating space 104 may flow in the hot air delivered from the fluid heating device 103, and the hot air discharge port of the heating space 104 discharges hot air toward the hot air pumping inlet 111. To flow through.

The electric fluid pump 106 is installed between the heating space 104 and the fluid pipe path 1035 that is bent upward and downward. The fluid pump motor 1061 operates by energizing to drive the fluid pump 1062. To pump the airflow sucked from the outside having a relatively low temperature, and the airflow again passes through the air inlet 110 and the housing interior 1031 of the conduit stage 1029 having a function of condensing moisture. The hot air pumping inlet 111 is introduced into the cold / hot air mixed space structure 1023 via an inlet 1021 and simultaneously pumped the hot air discharged from the heating space 104 using the electric fluid pump 106. ) Through the fluid pipe (1035) bent upward and downward through the hot air flow flow outlet 1026, so that some hot air flows through the induction of the fluid guide surface (1020) Inside the housing of the conduit stage 1029 having a function of condensing the air inlet 101, the air inlet 110, and the water by flowing into the cold / hot air mixed space structure 1023 through the inlet 1022. After preheating and mixing with the airflow sucked from the outside having a relatively low temperature passing through 1031, the fluid is introduced into the fluid heater 103 again, and the heating space 104 after reheating through the fluid heater 103. ) To flow into.

In the hot air flow of the fluid pipe 1035 that is bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026.

The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. The operation of the 103 and the electric fluid pump 106 is controlled.

The external operating interface 108 is comprised of an electromechanical unit or solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person.

The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. It is to be discharged to the outside through the external outlet 109 through.

When the machine is operated using the above device, the electric fluid pump 106 and the fluid heating device 103 are operated by the electric control device 107, and the suction from the outside having a relatively low temperature is performed. The air flow is introduced into the housing 1031 of the pipe end 1029 having the function of condensing the moisture through the air inlet 101 and through the air inlet 1021. After the flow into the 1023, the hot air flows into the heating space 104 through heating by the fluid heating device 103, and the hot air containing the water discharged from the heating space 104 is pumped by the hot air flow. Via the inlet 111, the electric fluid pump 106 passes through the fluid pipe 1035 that is bent upward and downward by pumping the electric fluid pump 106.

The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward The moisture contained in the hot air condenses in the housing 1030 of the conduit stage 1029 having the function of condensing the moisture to be collected or discharged through the outside.

In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. It is to be discharged from the external outlet 109.

In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. The air flow sucked from the outside having a relatively low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 and discharged from the heating space 104. Low temperature passing through the inside of the housing 1031 of the conduit stage 1029 having a function of condensing the moisture by using heat energy of the hot air when the heated air flow passes through the fluid pipe 1035 bent upward and downward. It is to preheat the airflow sucked from outside.

Figure 3 is a perspective view showing the main structure of the present invention applied to a drum type washing machine, B-B exploded view of Figure 3 is the same as FIG.

As shown in Figure 3 and 2, the heat reflux dryer for condensing moisture by using the intake / exhaust temperature difference according to the present invention, in addition to having a drum device driven by the housing, the electrical energy conductor and the electric motor, This includes the following main components:

In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. After passing through the inside of the housing 1031 and the cold / hot air mixed space structure 1023 of the conduit stage 1029 having a function of condensing moisture, the fluid is heated by the fluid heating device 103 to enter the drum 1040. .

The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. It is to be introduced into the / heat stream mixed space structure (1023).

In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and a housing outer 1030 of the conduit end 1029 having a function of condensing water is discharged from the drum 1040. Hot air flows through and has a structure composed of a hot air flow flow outlet 1026 and a fluid guide surface 1020, and is bent up and down using the structure consisting of the hot air flow flow outlet 1026 and the fluid guide surface 1020. A portion of the hot air flowing through the fluid line 1035 is introduced into the cold / hot air flow mixing space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively low The airflow sucked from the outside with the temperature is introduced into the fluid heater 103 through preheating mixing in the cold / hot airflow mixing space structure 1023 to allow subsequent heating, and at the same time Air flow sucked from the outside with a relatively low temperature passing inside the housing 1031 of the pipe end 1029 having the function of condensing the moisture by using heat energy of the hot air passing through the fluid pipe 1035 bent up and down It is to be preheated.

The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( A fluid that passes through the housing interior 1031 of the 1029 and the water-containing air discharged from the drum 1040 passes through the hot air pumping inlet 111 and is pumped up and down by pumping the electric fluid pump 106. The housing of the conduit stage 1029 having a function of condensing the moisture contained in the hot air passing through the fluid conduit 1035 bent up and down by using the temperature difference between the two when it flows into the conduit 1035. By condensation from the outside (1030) is to be collected or discharged to the outside.

In addition, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow splitter 1026.

The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to be heated again for the pre-mixed air stream delivered from the flow to the drum (1040).

The drum 1040 is driven by a drum drive motor set 105 composed of a drive motor and a transmission, and used to set a rotation speed and a rotation direction. The drum 1040 has a hot air inlet and an outlet. In the hot air inlet of the drum 1040, the hot air flow of the fluid heating device 103 is introduced, the outlet of the drum 1040 discharges the hot air flow to the hot air pumping inlet of the electric fluid pump 106 Flowing in the (111) direction, the inside of the drum 1040 is provided with a space for the laundry or goods waiting to be dried, by the operation of the drum drive motor set 105 to return the uniform hot air flow Received is to dry the drying target.

The drum drive motor set 105 is such that the electric motor is operated by the operation of the electric control device 107 so that the drum 1040 rotates according to the set rotation speed and direction of rotation through an electric transmission device.

The electric fluid pump 106 is installed between the drum 1040 and the fluid pipe path 1035 that is bent upward and downward. The fluid pump motor 1061 operates by energizing to drive the fluid pump 1062. Pumping the airflow sucked from the outside having a relatively low temperature, the airflow again through the air inlet 110 and the housing interior 1031 of the conduit end 1029 having a function of condensing the water The hot air pumping inlet 111 is introduced into the cold / hot air flow mixing space structure 1023 and simultaneously pumps the hot air discharged from the drum 1040 using the electric fluid pump 106. After passing through the fluid pipe (1035) bent upward and downward again through the hot air flow flow outlet 1026, and thus the hot air flows through the induction of the fluid guide surface (1020) inlet flows Inside the housing 10 of the conduit end 1029 having a function of condensing the air inlet 101, the air inlet 110, and the water by flowing into the cold / hot air mixed space structure 1023 through 1022. After being preheated and mixed with the airflow sucked from the outside having a relatively low temperature passing through 1031, the fluid is introduced into the heater 103 again, and the drum 1040 after reheating through the fluid heater 103. To get into.

In the hot air flow of the fluid pipe 1035 that is bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026.

The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. (103), the operation of the drum drive motor set 105, the electric fluid pump 106 is to control.

The external operating interface 108 is comprised of an electromechanical unit or solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person.

The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. It is to be discharged to the outside through the external outlet 109 through.

When the machine is operated using the above device, the electric fluid pump 106, the fluid heating device 103, and the drum drive motor set 105 are operated by the electric control device 107. The air flow sucked from the outside having a relatively low temperature is introduced into the housing 1031 of the conduit stage 1029 having a function of condensing the moisture via the air inlet 101 and the air inlet 1021. After flowing into the cold / hot air mixed space structure (1023), and then flows again into the drum (1040) through the heating by the fluid heating device 103, containing the water discharged from the drum (1040) The hot air flow passes through the fluid pipe line 1035 that is bent upward and downward by pumping the electric fluid pump 106 again via the hot air pumping inlet 111.

The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward The moisture contained in the hot air condenses in the housing 1030 of the conduit stage 1029 having the function of condensing the moisture to be collected or discharged through the outside.

In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. It is to be discharged from the external outlet 109.

In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. The air flow sucked from the outside having a relatively low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 and discharged from the drum 1040. When hot air flows through the fluid pipe 1035 that is bent upward and downward, a relatively low temperature is passed through the inside of the housing 1031 of the pipe end 1029 having a function of condensing the moisture using heat energy of the hot air. Preheating is carried out on the airflow sucked from the outside.

Figure 4 is a perspective view showing the main structure of the present invention applied to the dehumidifier, the C-C exploded view of Figure 4 is the same as FIG.

As shown in FIG. 4 and FIG. 2, the heat reflux dryer for condensing moisture using the intake / exhaust temperature difference according to the present invention includes not only a housing and an electrical energy conductor, but also includes the following main components. .

In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. After passing through the inside of the housing 1031 and the cold / hot air flow mixing space structure 1023 of the conduit stage 1029 having the function of condensing water, the fluid is heated by the fluid heating device 103 and flows into the hot air pumping inlet 111. It is pumped by the electric fluid pump 106, and passes the fluid pipe path 1035 bent up and down.

The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. It is to be introduced into the / heat stream mixed space structure (1023).

In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and a housing outer 1030 of the conduit end 1029 having a function of condensing water is discharged from the fluid heating device 103. The hot air flows through, and has a structure composed of a hot air flow splitter 1026 and a fluid guide surface 1020, and using the structure composed of the hot air flow splitter 1026 and the fluid guide surface 1020 A portion of the hot air flowing through the bent fluid pipe 1035 is introduced into the cold / hot air mixed space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively The airflow sucked from the outside with a low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 to allow subsequent heating. Inhaled from the outside having a relatively low temperature passing through the inside 1031 of the housing 1010 of the conduit end 1029 having a function of condensing the water by using the heat energy of the heat flow passing through the fluid pipe (1035) bent upward and downward It is to preheat the airflow.

The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( 1029 passes through the housing 1031, and the air flow containing the water discharged from the fluid heater 103 passes up and down the hot air pumping inlet 111 by the pumping of the electric fluid pump 106. Pipe line 1029 having a function of condensing the water contained in the hot air passing through the fluid pipe line 1035 bent up and down by using the temperature difference between the two when entering the bent fluid pipe line 1035 It has a dehumidifying function as it is collected or discharged to the outside by condensation at the housing 1030.

In addition, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow splitter 1026.

The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to be heated again for the pre-mixed air stream delivered from the flow direction toward the hot air pumping inlet (111).

The electric fluid pump 106 is installed between the fluid heating device 103 and the fluid pipe line 1035 that is bent up and down, and the fluid pumping motor 1061 operates by energizing to operate the fluid pump 1062. And pumps the airflow sucked from the outside having a relatively low temperature, and the airflow again passes through the air inlet 110 and the housing 1031 of the conduit stage 1029 having a function of condensing the moisture. The hot / air flow pump inlet flows into the cold / hot air flow mixing space structure 1023 via an air inlet 1021 and simultaneously discharges the hot air discharged from the fluid heater 103 using the electric fluid pump 106. Passing through the fluid pipe (1035) bent upwards and downwards through the (111) and again through the hot air flow flow outlet 1026, so that some hot air flows through the induction of the fluid guide surface (1020) Of the pipeline stage 1029 having a function of condensing the air inlet 101 and the air inlet 110 and the water by flowing into the cold / hot air flow mixed space structure 1023 through the hot air flow inlet 1022. After the preheating mixing with the air flow sucked from the outside having a relatively low temperature passing through the housing 1031, it is introduced into the fluid heater 103 again, and the hot air flow after reheating through the fluid heater 103. It is to be introduced to the pumping inlet 111.

In the hot air flow of the fluid pipe 1035 that is bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026.

The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. The operation of the 103 and the electric fluid pump 106 is controlled.

The external operating interface 108 is comprised of an electromechanical unit or solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person.

The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. It is to be discharged to the outside through the external outlet 109 through.

When the machine is operated using the above device, the electric fluid pump 106 and the fluid heating device 103 are operated by the electric control device 107, and the suction from the outside having a relatively low temperature is performed. The air flow is introduced into the housing 1031 of the pipe end 1029 having the function of condensing the moisture through the air inlet 101 and through the air inlet 1021. After the flow into the 1023, the hot air containing the water discharged through the heating by the fluid heating device 103 is again pumped by the electric fluid pump 106 via the hot air pumping inlet 111. It passes through the fluid pipe (1035) bent up and down by the.

The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward The moisture contained in the hot air condenses in the housing 1030 of the conduit stage 1029 having the function of condensing the moisture to be collected through or discharged to have a dehumidifying function.

In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. It is to be discharged from the external outlet 109.

In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. Externally sucked air stream having a relatively low temperature is preheated mixed in the cold / hot air flow mixing space structure 1023 and discharged from the fluid heating device 103 again, and the hot air flow is bent upward and downward. Preheating to the externally sucked airflow with a relatively low temperature passing inside the housing 1031 of the conduit stage 1029 having the function of condensing the moisture using thermal energy of hot air. It is done.

1, 2, 3 and 4 in the above-described embodiment, between the cold / hot air mixed space structure 1023 and the fluid heater 103, a labyrinth flow mixing function structure, Alternatively, by providing a plurality of lattice flow mixing structures or a plurality of partition flow mixing functions, the preheated and mixed airflow can be made uniform.

FIG. 5 is a perspective view illustrating a main structure in which a uniform flow structure 1027 in a stationary state is installed at an outlet of the cold / hot air mixed space structure 1023 according to the present invention.

As shown in FIG. 5, a heat reflux dryer for condensing moisture by using an intake / exhaust temperature difference according to the present invention is stopped between the cold / hot air mixed space structure 1023 and the fluid heating device 103. A uniform flow structure 1027 in a state is provided, and a labyrinth flow mixing function structure or a plurality of lattice flow mixing structures or a plurality of partition flow mixing function structures of the stationary uniform flow structure 1027 are used. By reheating the air stream passing through the fluid heating device 103 by making the preheated and mixed air stream uniform.

1, 2, 3 and 4 described above, between the cold / hot air flow mixing space structure 1023 and the fluid heating device 103, an agitated vane structure that rotates freely. 1028 may be further installed, utilizing the free rotation of the freely rotating stirred vane structure 1028 so that the preheated mixed airflow is homogenized with stirring.

FIG. 6 is a perspective view showing a main structure in which a stirred blade structure 1028 that freely rotates is installed at an outlet of the cold / hot air mixed space structure 1023 according to the present invention.

As shown in FIG. 6, a heat reflux dryer for condensing moisture using an intake / exhaust temperature difference according to the present invention is freely provided between the cold / hot air mixed space structure 1023 and the fluid heater 103. A rotating stirred vane structure 1028 is installed, and the preheated and mixed airflow is homogenized according to agitation using free rotation of the freely rotating stirred vane structure 1028 to pass through the fluid heating device 103. Reheat the air stream.

The heat reflux dryer for condensing moisture using the intake / exhaust temperature difference according to the present invention has a uniform flow structure 1027 in a stopped state between the cold / hot air flow mixing space structure 1023 and the fluid heating device 103. ) And a freely rotating stirred vane structure 1028 can be installed simultaneously.

The heat reflux dryer for condensing moisture using the intake / exhaust temperature difference according to the present invention improves the water condensation function using the intake / exhaust temperature difference through which moisture in the returned hot air passes and improves the water condensation function of the heat reflux device 102. In order to condense the moisture by installing a cooling chip 200 which is electrically charged in the conduit stage 1029 having a function of condensing water using the intake / exhaust temperature difference and condensing water of the heat reflux device 102. Air flow sucked from the outside inside the conduit end 1029 housing having a function of condensing moisture with the hot air flow containing moisture passing through the outer end of the conduit end 1029 housing Can be heated against.

1, 2, 3 and 4 described above by further installing the electrically charged cooling chip 200 in the conduit stage 1029 having the function of condensing the moisture Conduit end 1029 having a function of condensing moisture It is possible to enhance the water condensation effect on the hot air containing moisture passing through the housing and inside the conduit end 1029 having the function of condensing moisture. Heating can be performed on the air flow sucked in from the outside.

7 is a main structure in which a cooling chip 200 is electrically installed in a conduit stage 1029 having a function of condensing water in the condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference according to the present invention. Is a perspective view.

As illustrated in FIG. 7, an electrically charged cooling chip 200 controlled by an electric controller 107 is installed in a housing or a conduit of the conduit stage 1029 having a function of condensing moisture. The heating surface of the electrically charged cooling chip 200 is heated from the outside to heat the air flow passing through the inner housing of the conduit stage 1029 having a function of condensing the moisture, and the electrically charged cooling The cooling surface of the chip 200 contains the water pumped from the electric fluid pump 106 by cooling the hot air containing the water passing through the inner housing of the conduit stage 1029 having the function of condensing the water. Improves the effect of condensing water when the air flow passes through the conduit stage 1029 having a function of condensing the moisture of the cooling surface of the electrically charged cooling chip 200. At the same time, the heating is performed on the air flow sucked from the outside passing through the conduit stage 1029 having a function of condensing the moisture of the heating surface of the electrically charged cooling chip 200.

In addition, the fluid heating device 103 including the embodiment shown in Figs. 1, 2, 3 and 4 of the heat reflux dryer condensing water by using the intake / exhaust temperature difference according to the present invention described above. Without passing through the conduit stage 1029 having a function of condensing the water by replacing it with the electrically charged cooling chip 200 of the conduit end 1029 having the function of condensing the moisture, It is possible to enhance the water condensation effect on the water-containing hot air flow and to perform heating on the air flow sucked from the outside contained in the conduit 1029 housing having the function of condensing the water.

FIG. 8 illustrates a cooling chip 200 electrically charged to a conduit stage 1029 having a function of condensing water in a water condensation and heat reflux device 102 using the intake / exhaust temperature difference according to the present invention, thereby providing a fluid. It is a perspective view which shows the main structure which replaced the heating apparatus 103.

As shown in FIG. 8, an electrically charged cooling chip 200 controlled by an electric controller 107 is installed in a housing or a pipeline of the pipeline stage 1029 having a function of condensing moisture. The heating surface of the electrically charged cooling chip 200 is heated from the outside to heat the air flow passing through the inner housing of the conduit stage 1029 having a function of condensing the moisture, and the electrically charged cooling The cooling surface of the chip 200 contains the water pumped from the electric fluid pump 106 by cooling the hot air containing the water passing through the inner housing of the conduit stage 1029 having the function of condensing the water. Improves the effect of condensing water when the air flow passes through the conduit stage 1029 having a function of condensing the moisture of the cooling surface of the electrically charged cooling chip 200. And at the same time, the fluid is heated by the air flow sucked from the outside passing through the conduit stage 1029 having the function of condensing the moisture of the heating surface of the electrically charged cooling chip 200. The fluid heater 103 is not installed as it replaces the function of the device 103.

In the heat reflux dryer for condensing water using an intake / exhaust temperature difference in which the electrically charged cooling chip 200 shown in FIG. 8 is installed but the fluid heater 103 is not installed, the cooling / hot air mixing space The structure 1023 may be provided with a labyrinth flow mixing function structure, or a plurality of lattice flow mixing function structures, or a plurality of partition flow mixing function structures, thereby allowing the preheated and mixed airflow to be uniform, or the cold / hot air flow. The mixing space structure 1023 may be provided with a stirring blade structure 1028 that rotates freely so that the preheated and mixed airflow is homogenized by stirring using the free rotation of the stirring blade structure 1028 that rotates freely. You can also install both at the same time.

The heat reflux dryer for condensing moisture using the intake / exhaust temperature difference according to the present invention includes a conduit stage 1029 having a function of condensing the moisture of the condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference. In the housing inner contact surface of the conduit stage 1029 having a function of condensing the water passing through the air flow sucked from the outside and the hot air containing the water discharged from the upper limb electric fluid pump 106 passes through By condensing the outer surface of the housing of the conduit end 1029 having a function of condensing into a fin shape, the function of condensing moisture is improved.

Figure 9 is a cross-sectional perspective view showing an embodiment of the inside and the outside of the pipe end 1029 having a function of condensing moisture according to the present invention having a fin shape.

As shown in FIG. 9, in the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference, the moisture passed by the air stream sucked from the outside passes. Of the conduit stage 1029 having the function of condensing the water passing through the hot air containing the moisture discharged from the upper surface of the housing contact surface of the conduit stage 1029 having the function of condensing and pumping the upper electric fluid pump 106. Finning the outer contact surface of the housing improves the ability to condense moisture.

10 is a cross-sectional perspective view showing an embodiment in which the inside and the outside of the conduit stage 1029 having a function of condensing moisture of the electrically charged cooling chip 200 according to the present invention have a fin shape.

As shown in FIG. 10, the cooling chip 200 electrically charged to the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux device 102 using the intake / exhaust temperature difference is provided. Further, the hot air containing the water discharged by the pumped discharged from the upper inner fluid fluid pump 106 and the inner surface of the housing of the conduit stage 1029 having the function of condensing the water passing through the air flow sucked from the outside is passed. By condensing the outer surface of the housing of the conduit end 1029 having the function of condensing water into a fin shape, the function of condensing water is improved.

101: air inlet
102: moisture condensation and heat reflux apparatus using the intake / exhaust temperature difference
103: fluid heating device
104: heating space
105: Drum Drive Motor Set
106: electric fluid pump
107: electric control device
108: external operation interface
109: external outlet
110: by air injection
111: hot air pumping inlet
200: electrically charged cooling chip
1020: fluid guide surface
1021: air inlet
1022: returned hot air inlet
1023: structure of mixed space of cold and hot air
1026: Hot Air Jet
1027: uniform flow structure at rest
1028: Agitated wing blade structure that rotates freely
1029: pipeline with the function of condensing moisture
1030: outside the housing of the pipe end 1029 having a function of condensing moisture
1031: inside the housing of the pipe end 1029 having a function of condensing moisture
1032: flow guide structure bent up and down
1035: fluid pipe bent up and down
1040: Drum
1061: Fluid Pumping Motor
1062: Fluid Pump

Claims (15)

The electric fluid pump pumps the airflow sucked from the outside having a relatively low temperature to the fluid heating device, and the fluid heated through the heating device flows into the heating space to dry the targets. Water condensation and heat reflux device 102 using the intake / exhaust temperature difference is additionally installed in the air, and the function of condensing water from the air flow sucked from the outside having a relatively low temperature using the pumping of the electric fluid pump 106. Inflow into the housing 1031 of the conduit stage 1029 having the same, and then introduced into the cold / hot air mixed space structure 1023 via the air inlet 1021 and at the same time containing the water discharged from the heating space Outer housing 103 of conduit stage 1029 having the function of condensing hot air via hot air pumping inlet 111 via pumping of electric fluid pump 106 again. 0) and the up and down bent fluid conduit 1035, which consists of a flow inducing structure 1032 bent up and down, and then some hot air flows through the hot air flow splitter 1026 and the fluid induction surface 1020. The heat energy is introduced into the mixed space structure 1023 and preheated mixed with the fluid sucked from the outside having a relatively low temperature introduced into the cavity by pumping, and then flowed back into the fluid heater 103 to perform subsequent heating. Pipe line 1029 which has a function of reducing the loss of heat, thereby saving electric energy and allowing some hot air to be discharged through the external discharge port 109 by using the hot air flow splitter 1026, and condensing moisture at the same time. Moisture by using heat energy of hot air passing through a vertically curved fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and a housing exterior 1030 of Preheating is performed on the air flow sucked from the outside having a relatively low temperature passing through the housing 1031 of the conduit stage 1029 having the function of condensing, and the water contained in the hot air using the temperature difference between the two. The water condensation using the intake / exhaust temperature difference and condensation on the outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the heat reflux apparatus 102 to be collected or discharged to the outside. The configuration is configured as follows,
In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. After passing through the interior 1031 of the conduit stage 1029 having a function of condensing water and the cold / hot air flow mixing space structure 1023, the fluid heating device 103 is heated to flow into the heating space 104. Will,
The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. To enter the hot air mixed space structure (1023),
In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and the housing exterior 1030 of the conduit end 1029 having a function of condensing water is discharged from the heating space 104. The hot air flows through, and has a structure composed of a hot air flow splitter 1026 and a fluid guide surface 1020, and using the structure composed of the hot air flow splitter 1026 and the fluid guide surface 1020 A portion of the hot air flowing through the bent fluid pipe 1035 is introduced into the cold / hot air mixed space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively The airflow sucked from the outside with a low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 to allow subsequent heating. Inhaled from the outside having a relatively low temperature passing through the inside 1031 of the housing 1010 of the conduit end 1029 having a function of condensing the water by using the heat energy of the heat flow passing through the fluid pipe (1035) bent upward and downward To preheat the airflow,
The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( The air flow containing water discharged from the heating space 104 through the housing interior 1031 of the 1029 is bent up and down by pumping the electric fluid pump 106 past the hot air pumping inlet 111. When flowing into and passing through the fluid line 1035, the water pipes 1029 having a function of condensing the water contained in the hot air passing through the fluid pipe 1035 bent upward and downward using the temperature difference between the two pipes 1029. Condensation on the exterior 1030 to be collected or discharged to the outside,
Then, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow split port 1026,
The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to be heated again to the heating space 104 after the heating again for the pre-mixed airflow delivered from,
The heating space 104 is provided with a hot air inlet and an outlet, and has a space in which a target to be dried is placed. The heating space may include an enclosed space, a semi-open space, or an open space. The hot air flow inlet of the heating space 104 may flow in the hot air delivered from the fluid heating device 103, and the hot air discharge port of the heating space 104 discharges hot air toward the hot air pumping inlet 111. To flow through,
The electric fluid pump 106 is installed between the heating space 104 and the fluid pipe path 1035 that is bent upward and downward. The fluid pump motor 1061 operates by energizing to drive the fluid pump 1062. To pump the airflow sucked from the outside having a relatively low temperature, and the airflow again passes through the air inlet 110 and the housing interior 1031 of the conduit stage 1029 having a function of condensing moisture. The hot air pumping inlet 111 is introduced into the cold / hot air mixed space structure 1023 via an inlet 1021 and simultaneously pumped the hot air discharged from the heating space 104 using the electric fluid pump 106. ) Through the fluid pipe (1035) bent upward and downward through the hot air flow flow outlet 1026, so that some hot air flows through the induction of the fluid guide surface (1020) Inside the housing of the conduit stage 1029 having a function of condensing the air inlet 101, the air inlet 110, and the water by flowing into the cold / hot air mixed space structure 1023 through the inlet 1022. After preheating and mixing with the airflow sucked from the outside having a relatively low temperature passing through 1031, the fluid is introduced into the fluid heater 103 again, and after the reheating through the fluid heater 103, the heating space ( 104),
In the hot air flow of the fluid pipe 1035 bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026,
The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. Control the operation of the 103 and the electric fluid pump 106,
The external operating interface 108 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person,
The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. Through it to be discharged to the outside through the external outlet 109,
When the machine is operated using the above device, the electric fluid pump 106 and the fluid heating device 103 are operated by the electric control device 107, and the suction from the outside having a relatively low temperature is performed. The air flow is introduced into the housing 1031 of the pipe end 1029 having the function of condensing the moisture through the air inlet 101 and through the air inlet 1021. After the flow into the 1023, the hot air flows into the heating space 104 through heating by the fluid heating device 103, and the hot air containing the water discharged from the heating space 104 is pumped by the hot air flow. Through the inlet 111, again through the fluid pipe path 1035 bent up and down by the pumping of the electric fluid pump 106,
The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward Condensation of the water contained in the hot air flow in the housing 1030 of the conduit end 1029 having a function of condensing the moisture to be collected or discharged through it,
In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. Is to be discharged from the external outlet 109,
In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. The air flow sucked from the outside having a relatively low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 and discharged from the heating space 104. Low temperature passing through the inside of the housing 1031 of the conduit stage 1029 having a function of condensing the moisture by using heat energy of the hot air when the heated air flow passes through the fluid pipe 1035 bent upward and downward. To preheat the air flow sucked from the outside,
A heat reflux dryer for condensing moisture using the intake / exhaust temperature difference, characterized in that it comprises a configuration as described above. The method of claim 1,
It includes an application to a drum type washing machine, and includes a drum device driven by a housing, an electric energy conductor and an electric motor, and in addition, the main structure includes the following main components,
In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. It passes through the interior 1031 of the pipeline stage 1029 having the function of condensing water and the cold / hot air mixed space structure 1023 to be introduced into the drum 1040 through the heating of the fluid heater 103 again. ,
The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. To enter the hot air mixed space structure (1023),
In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and a housing outer 1030 of the conduit end 1029 having a function of condensing water is discharged from the drum 1040. Hot air flows through and has a structure composed of a hot air flow flow outlet 1026 and a fluid guide surface 1020, and is bent up and down using the structure consisting of the hot air flow flow outlet 1026 and the fluid guide surface 1020. A portion of the hot air flowing through the fluid line 1035 is introduced into the cold / hot air flow mixing space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively low The airflow sucked from the outside with the temperature is introduced into the fluid heater 103 through preheating mixing in the cold / hot airflow mixing space structure 1023 to allow subsequent heating, and at the same time Air flow sucked from the outside with a relatively low temperature passing inside the housing 1031 of the pipe end 1029 having the function of condensing the moisture by using heat energy of the hot air passing through the fluid pipe 1035 bent up and down To warm up for,
The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( A fluid that passes through the housing interior 1031 of the 1029 and the water-containing air discharged from the drum 1040 passes through the hot air pumping inlet 111 and is pumped up and down by pumping the electric fluid pump 106. The housing of the conduit stage 1029 having a function of condensing the moisture contained in the hot air passing through the fluid conduit 1035 bent up and down by using the temperature difference between the two when it flows into the conduit 1035. Condensation from the outside 1030 to be collected or discharged to the outside,
Then, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow split port 1026,
The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to be heated again to the drum (1040) after heating again for the preheated mixed airflow delivered from,
The drum 1040 is driven by a drum drive motor set 105 composed of a drive motor and a transmission, and used to set a rotation speed and a rotation direction. The drum 1040 has a hot air inlet and an outlet. In the hot air inlet of the drum 1040, the hot air flow of the fluid heating device 103 is introduced, the outlet of the drum 1040 discharges the hot air flow to the hot air pumping inlet of the electric fluid pump 106 Flowing in the (111) direction, the inside of the drum 1040 is provided with a space for the laundry or goods waiting to be dried, by the operation of the drum drive motor set 105 to return the uniform hot air flow To receive the drying target to dry,
The drum drive motor set 105 is such that the electric motor is operated by the operation of the electric control device 107 so that the drum 1040 rotates according to the set rotation speed and direction of rotation through an electric transmission device,
The electric fluid pump 106 is installed between the drum 1040 and the fluid pipe path 1035 that is bent upward and downward. The fluid pump motor 1061 operates by energizing to drive the fluid pump 1062. Pumping the airflow sucked from the outside having a relatively low temperature, the airflow again through the air inlet 110 and the housing interior 1031 of the conduit end 1029 having a function of condensing the water The hot air pumping inlet 111 is introduced into the cold / hot air flow mixing space structure 1023 and simultaneously pumps the hot air discharged from the drum 1040 using the electric fluid pump 106. After passing through the fluid pipe (1035) bent upward and downward again through the hot air flow flow outlet 1026, and thus the hot air flows through the induction of the fluid guide surface (1020) inlet flows Inside the housing 10 of the conduit end 1029 having a function of condensing the air inlet 101, the air inlet 110, and the water by flowing into the cold / hot air mixed space structure 1023 through 1022. After being preheated and mixed with the airflow sucked from the outside having a relatively low temperature passing through 1031, the fluid is introduced into the heater 103 again, and the drum 1040 after reheating through the fluid heater 103. To flow into,
In the hot air flow of the fluid pipe 1035 bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026,
The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. 103, to control the operation of the drum drive motor set 105, the electric fluid pump 106,
The external operating interface 108 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person,
The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. Through it to be discharged to the outside through the external outlet 109,
When the machine is operated using the above device, the electric fluid pump 106, the fluid heating device 103, and the drum drive motor set 105 are operated by the electric control device 107. The air flow sucked from the outside having a relatively low temperature is introduced into the housing 1031 of the conduit stage 1029 having a function of condensing the moisture via the air inlet 101 and the air inlet 1021. After flowing into the cold / hot air mixed space structure (1023), and then flows again into the drum (1040) through the heating by the fluid heating device 103, containing the water discharged from the drum (1040) The hot air flow is passed through the fluid pipe (1035) bent up and down by the pumping of the electric fluid pump 106 again via the hot air pumping inlet 111,
The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward Condensation of the water contained in the hot air flow in the housing 1030 of the conduit end 1029 having a function of condensing the moisture to be collected or discharged through it,
In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. Is to be discharged from the external outlet 109,
In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. The air flow sucked from the outside having a relatively low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 and discharged from the drum 1040. When hot air flows through the fluid pipe 1035 that is bent upward and downward, a relatively low temperature is passed through the inside of the housing 1031 of the pipe end 1029 having a function of condensing the moisture using heat energy of the hot air. Preheat the airflow sucked from the outside,
A heat reflux dryer for condensing moisture using the intake / exhaust temperature difference, characterized in that it comprises a configuration as described above. The method of claim 1,
Including the application to the dehumidifier, comprising a housing and electrical energy conductors, and in addition to the following main configuration,
In the air inlet 101, the air flow sucked from the outside having a relatively low temperature injected by the pumping of the electric fluid pump 106 is injected into the air inlet 110 through the air inlet 101. After passing through the inside of the housing 1031 and the cold / hot air flow mixing space structure 1023 of the conduit stage 1029 having the function of condensing water, the fluid is heated by the fluid heating device 103 and flows into the hot air pumping inlet 111. Pumped by the electric fluid pump 106 to pass through the fluid pipe (1035) bent up and down,
The water condensation and heat reflux apparatus 102 using the intake / exhaust temperature difference has a structure for connecting to the air injection path 110 and the air injection hole 101 connected to the air injection path 110. The air flow sucked from the outside having a relatively low temperature injected by pumping to the air via the air inlet 1021 again via the housing 1031 of the pipe end 1029 having a function of condensing the water. To enter the hot air mixed space structure (1023),
In addition, the up and down bent fluid conduit 1035 composed of a flow guide structure 1032 bent up and down and a housing outer 1030 of the conduit end 1029 having a function of condensing water is discharged from the fluid heating device 103. The hot air flows through, and has a structure composed of a hot air flow splitter 1026 and a fluid guide surface 1020, and using the structure composed of the hot air flow splitter 1026 and the fluid guide surface 1020 A portion of the hot air flowing through the bent fluid pipe 1035 is introduced into the cold / hot air mixed space structure 1023 via the hot air inlet 1022 conveyed through the induction of the fluid guide surface 1020, and relatively The airflow sucked from the outside with a low temperature is introduced into the fluid heater 103 again through preheating mixing in the cold / hot air flow mixing space structure 1023 to allow subsequent heating. Inhaled from the outside having a relatively low temperature passing through the inside 1031 of the housing 1010 of the conduit end 1029 having a function of condensing the water by using the heat energy of the heat flow passing through the fluid pipe (1035) bent upward and downward To preheat the airflow,
The outer housing 1030 of the conduit stage 1029 having a function of condensing moisture constitutes a function for condensing moisture, and a conduit end having a function of condensing the moisture by airflow having a relatively low temperature ( 1029 passes through the housing 1031, and the air flow containing the water discharged from the fluid heater 103 passes up and down the hot air pumping inlet 111 by the pumping of the electric fluid pump 106. Pipe line 1029 having a function of condensing the water contained in the hot air passing through the fluid pipe line 1035 bent up and down by using the temperature difference between the two when entering the bent fluid pipe line 1035 It has a dehumidifying function as it is collected or discharged to the outside by condensation at the housing 1030 outside of the
Then, some of the hot air flow is discharged through the external discharge port 109 by using the classification of the hot air flow split port 1026,
The fluid heating device 103 is a heat transfer device heated by electric energy, and is controlled by the electric control device 107 to operate according to heat generation and to open or close the cooling / heat-air mixed space structure 1023. It is to heat again to the hot air pumping inlet 111 after the heating again for the pre-mixed air stream delivered from,
The electric fluid pump 106 is installed between the fluid heating device 103 and the fluid pipe line 1035 that is bent up and down, and the fluid pumping motor 1061 operates by energizing to operate the fluid pump 1062. And pumps the airflow sucked from the outside having a relatively low temperature, and the airflow again passes through the air inlet 110 and the housing 1031 of the conduit stage 1029 having a function of condensing the moisture. The hot / air flow pump inlet flows into the cold / hot air flow mixing space structure 1023 via an air inlet 1021 and simultaneously discharges the hot air discharged from the fluid heater 103 using the electric fluid pump 106. Passing through the fluid pipe (1035) bent upwards and downwards through the (111) and again through the hot air flow flow outlet 1026, so that some hot air flows through the induction of the fluid guide surface (1020) Of the pipeline stage 1029 having a function of condensing the air inlet 101 and the air inlet 110 and the water by flowing into the cold / hot air flow mixed space structure 1023 through the hot air flow inlet 1022. After the preheating mixing with the air flow sucked from the outside having a relatively low temperature passing through the housing 1031, it is introduced into the fluid heater 103 again, and the hot air flow after reheating through the fluid heater 103. To flow into the pumping inlet 111,
In the hot air flow of the fluid pipe 1035 bent up and down, some hot air is discharged to the outside through the external discharge port 109 through the classification of the hot air flow flow outlet 1026,
The electric control device 107 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software, and the fluid heating device by setting and manipulating electrical energy supplied from a power source and an external operating interface 108. Control the operation of the 103 and the electric fluid pump 106,
The external operating interface 108 is composed of an electromechanical unit or a solid state electronic circuit unit and / or a microprocessor and operation software to control the operation of the electrical control device 107 through input by a person,
The external discharge port 109 is a part of the hot air flow through the fluid conduit 1035 of the condensation and heat reflux device 102 using the intake / exhaust temperature difference is guided by the hot air flow flow outlet 1026. Through it to be discharged to the outside through the external outlet 109,
When the machine is operated using the above device, the electric fluid pump 106 and the fluid heating device 103 are operated by the electric control device 107, and the suction from the outside having a relatively low temperature is performed. The air flow is introduced into the housing 1031 of the pipe end 1029 having the function of condensing the moisture through the air inlet 101 and through the air inlet 1021. After the flow into the 1023, the hot air containing the water discharged through the heating by the fluid heating device 103 is again pumped by the electric fluid pump 106 via the hot air pumping inlet 111. By passing through the fluid pipe (1035) bent upward and downward,
The outer housing 1030 of the conduit stage 1029 having a function of condensing the moisture of the moisture intake / exhaust temperature and the heat reflux device 102 using the intake / exhaust temperature difference constitutes a function for condensing the moisture. By using the temperature difference between the air flow sucked from the outside having a relatively low temperature passing through the interior 1031 of the pipe end 1029 having a function of condensing the hot air flowing through the fluid pipe 1035 bent upward and downward Moisture contained in the hot air is condensed in the housing (1030) of the conduit end (1029) having a function of condensing the moisture to have a dehumidification function as it is collected through or discharged to the outside,
In addition, some hot air passing through the housing exterior 1030 of the pipeline stage 1029 having the function of condensing the water using the classification of the hot air flow passage 1026 is classified through the hot air flow passage 1026. Is to be discharged from the external outlet 109,
In addition, the air flow introduced into the cold / hot air flow mixing space structure 1023 through the induction of the returned hot air inlet 1022 using the structures of the hot air flow flow outlet 1026 and the fluid guide surface 1020. Externally sucked air stream having a relatively low temperature is preheated mixed in the cold / hot air flow mixing space structure 1023 and discharged from the fluid heating device 103 again, and the hot air flow is bent upward and downward. Preheating to the externally sucked airflow with a relatively low temperature passing inside the housing 1031 of the conduit stage 1029 having the function of condensing the moisture using thermal energy of hot air. To be carried out,
A heat reflux dryer for condensing moisture using the intake / exhaust temperature difference, characterized in that it comprises a configuration as described above. 4. The method according to any one of claims 1 to 3,
A maze flow mixing function structure, or a plurality of lattice flow mixing function structures, or a plurality of partition flow mixing function structures may be further installed so that the preheated and mixed air streams are uniformized. And a uniform flow structure 1027 in a stationary state is provided between the fluid heating device 103 and the maze flow mixing function structure of the uniform flow structure 1027 in the stationary state, or a plurality of lattice pattern flows. The intake / exhaust temperature difference is characterized by reheating the air flow passing through the fluid heating device 103 by making the preheat-mixed air stream uniform by using a mixing structure or a plurality of partition flow mixing function structures. Heat reflux dryer to condense moisture. 4. The method according to any one of claims 1 to 3,
The free-rotating stirred blade structure 1028 may be further installed to allow the pre-mixed air stream to be uniformized by stirring using the free rotation of the free-rotating stirred blade structure 1028. Between the mixing space structure 1023 and the fluid heating device 103 is installed a stirring blade structure 1028 that rotates freely, preheat mixing by using a free rotation of the freely rotating stirring blade structure 1028 A heat reflux dryer for condensing moisture using an intake / exhaust temperature difference, characterized by reheating the air stream passing through the fluid heating device (103) by allowing the air stream to be uniform with stirring. 4. The method according to any one of claims 1 to 3,
Between the cold / hot air flow mixing space structure 1023 and the fluid heating device 103, it is possible to simultaneously install a uniform flow structure 1027 and a stir blade structure 1028 that rotates freely. A heat reflux dryer for condensing moisture using an intake / exhaust temperature difference. 4. The method according to any one of claims 1 to 3,
In the conduit stage 1029 having a function of condensing moisture, an electrically charged cooling chip 200 is further installed, and the hot air containing moisture passing through an outer portion of the conduit stage 1029 having a function of condensing the moisture. It is possible to enhance the water condensation effect with respect to the air condensation step 1029 having a function of condensing the water can be heated to the air flow sucked from the outside inside the housing, condensing the moisture An electrically charged cooling chip 200 controlled by the electric controller 107 is installed in a housing or a pipeline of the pipeline stage 1029 having a function, and a heat generating surface of the electrically charged cooling chip 200 is provided. Heats the airflow passing through the inner housing of the conduit stage 1029 having a function of condensing the moisture from the outside, and electrically The cooling surface of the cooling chip 200 to be charged is pumped by the electric fluid pump 106 by cooling the hot air containing moisture passing through the inner housing of the conduit stage 1029 having a function of condensing the moisture. When the air stream containing water passes through the conduit stage 1029 having a function of condensing the moisture of the cooling surface of the electrically charged cooling chip 200, the condensation of the moisture is improved and the electrical Using the intake / exhaust temperature difference, characterized in that for heating the air flow sucked from the outside passing through the conduit end 1029 having a function of condensing the moisture of the heating surface of the cooling chip 200 to be filled with Heat reflux dryer to condense moisture. 4. The method according to any one of claims 1 to 3,
Conduit stage having a function of condensing the water by replacing the fluid heating device 103 with an electrically charged cooling chip 200 installed in the conduit end 1029 having the function of condensing the moisture ( 1029) It is possible to enhance the water condensation effect on the hot air containing the water passing through the outside of the housing, and to heat the air flow sucked from the outside inside the conduit end 1029 housing having the function of condensing the water. As it can be implemented, the electrically charged cooling chip 200 controlled by the electric control device 107 in the housing or the pipeline of the pipeline stage 1029 having the function of condensing the water, The heat generating surface of the electrically charged cooling chip 200 is sucked from the outside and passes through the inner housing of the conduit stage 1029 having a function of condensing the moisture. The cooling surface of the electrically charged cooling chip 200 is cooled against air flow containing moisture passing through the inner housing of the conduit stage 1029 having a function of condensing the moisture. Moisture when the air stream containing moisture pumped by the electric fluid pump 106 passes through the conduit stage 1029 having a function of condensing the moisture on the cooling surface of the electrically charged cooling chip 200. Heating the air flow sucked from the outside passing through the conduit stage 1029 having a function of condensing the moisture of the heating surface of the electrically charged cooling chip 200 while improving the effect of condensation. Intake / exhaust temperature, characterized in that the fluid heating device 103 is not installed as it replaces the function of the fluid heating device 103 Heat reflux dryer that condenses moisture using tea. 4. The method according to any one of claims 1 to 3,
In the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux device 102 using the intake / exhaust temperature difference, the conduit end having the function of condensing the moisture passing through the air flow sucked from the outside. The housing inner contact surface of the housing 1029 and the housing outer contact surface of the conduit stage 1029 having a function of condensing the water passing through the hot air containing the water discharged from the upper limb electric fluid pump 106 are manufactured into a fin shape. A heat reflux dryer for condensing moisture by using an intake / exhaust temperature difference, wherein the condensation of moisture is improved. The method of claim 8,
In the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux device 102 using the intake / exhaust temperature difference, the conduit end having the function of condensing the moisture passing through the air flow sucked from the outside. The housing inner contact surface of the housing 1029 and the housing outer contact surface of the conduit stage 1029 having a function of condensing the water passing through the hot air containing the water discharged from the upper limb electric fluid pump 106 are manufactured into a fin shape. A heat reflux dryer for condensing moisture by using an intake / exhaust temperature difference, wherein the condensation of moisture is improved. 4. The method according to any one of claims 1 to 3,
In the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux device 102 using the intake / exhaust temperature difference, an air flow sucked from the outside is further provided by a cooling chip 200 that is electrically charged. A conduit end having a function of condensing the water passing through the hot air containing the water discharged and discharged by the upper inner fluid fluid pump 106 and the housing inner contact surface of the conduit end 1029 having the function of condensing the water passing therethrough. A heat reflux dryer for condensing water using an intake / exhaust temperature difference, characterized in that the condensation function of the water is improved by making the outer contact surface of the housing (1029) in a fin shape. The method of claim 8,
In the conduit stage 1029 having a function of condensing the moisture of the moisture condensation and heat reflux device 102 using the intake / exhaust temperature difference, an air flow sucked from the outside is further provided by a cooling chip 200 that is electrically charged. A conduit end having a function of condensing the water passing through the hot air containing the water discharged and discharged by the upper inner fluid fluid pump 106 and the housing inner contact surface of the conduit end 1029 having the function of condensing the water passing therethrough. A heat reflux dryer for condensing water using an intake / exhaust temperature difference, characterized in that the condensation function of the water is improved by making the outer contact surface of the housing (1029) in a fin shape. The method of claim 8,
A labyrinth flow mixing function structure, or a plurality of lattice flow mixing function structures, or a plurality of partition flow mixing function structures may be further installed, thereby allowing the preheated and mixed airflow to be uniform, thereby forming the cold / hot air flow mixing space structure ( 1023 is provided between the fluid heater 103 and a uniform flow structure 1027 in a stationary state, and a maze flow mixing function structure or a plurality of lattice of the uniform flow structure 1027 in the stationary state. The intake / exhaust temperature difference is characterized by reheating the air flow passing through the fluid heater 103 by making the preheat-mixed air stream uniform by using a pattern flow mixing structure or a plurality of partition flow mixing function structures. Heat reflux dryer to condense moisture using. The method of claim 8,
A freely rotating stirred blade structure 1028 may be further installed, and the preheated and mixed air streams are uniformized according to agitation by using free rotation of the freely rotating stirred blade structure 1028. Between the mixing space structure 1023 and the fluid heating device 103, the freely rotating stirred blade structure 1028 is installed, and preheated using free rotation of the freely rotating stirred blade structure 1028. A heat reflux dryer for condensing water by using an intake / exhaust temperature difference, characterized in that the mixed air stream is made uniform by stirring, thereby reheating the air stream passing through the fluid heating device (103). The method of claim 8,
Between the cold / hot air flow mixing space structure 1023 and the fluid heating device 103, it is possible to simultaneously install a uniform flow structure 1027 and a stir blade structure 1028 that rotates freely. A heat reflux dryer for condensing moisture using an intake / exhaust temperature difference.

Images