KR20050091910A - A cooling device of drugs double boiler - Google Patents

Abstract

The present invention relates to a cooling device for a water bath, and an object thereof is to improve the structure of the cooling device to more effectively condense and recover the extracted steam released from the heating vessel.

To this end, according to the cooling device 30 of the water bath according to the present invention, the steam exiting from the heating vessel 20 and introduced into the casing 31 is first cooled through a cooling pipe 40 through which cooling water is circulated, and continues. By the second cooling through the evaporator 50 of the refrigeration cycle. As a result, the condensation of the steam is more effective, so that there is almost no effect of loss of nutrients, that is, herbal ingredients.

In addition, since the steam generated in the heating vessel 20 is more completely collected and recovered, the overall reliability of the water bath is also advantageous. In addition, since the vapor cooled primarily through the coolant comes up around the evaporator 50 of the refrigerating cycle, the compressor 53 may be configured in a small capacity, thereby reducing power consumption and noise and facilitating production. There is an advantage.

Description

A cooling device of drugs double boiler

The present invention relates to a cooling device for a water bath, and more particularly, to a cooling device for a water bath provided for cooling and condensing and extracting the extracted steam escaped from the heating vessel.

In general, a water bath is a device for heating foods such as herbal medicine or tea by placing a filter in which a plurality of through holes are perforated in a heating container made of a material such as glass, and containing water and food. Since steam generated when cooking food using such a hot water bath contains a large amount of nutrients in the food, when the steam is discharged to the outside of the water bath, a great nutrient loss is feared.

Therefore, the water bath is provided with a cooling device to the upper side of the heating vessel, the steam generated during cooking is collected and then condensed to be recovered to the heating vessel.

This conventional cooling device is disposed in the upper side of the heating vessel (not shown), as shown in Figure 1, the hollow cylindrical casing (1), and the inside of the casing (1), the cooling water is continuously circulated The cooling coil 2 and the waste gas discharge port 4 provided in the upper part of the casing 1 in communication with the atmosphere are provided. And the bottom of the casing (1) is connected to the upper space of the heating vessel through the connecting pipe (3).

Therefore, the steam generated in the heating vessel exits the casing 1 through the connecting pipe 3, and is subsequently heat exchanged with the cooling coil 2. And part of the steam is condensed and recovered again through the connecting pipe (3), the other part is discharged to the outside through the waste gas outlet (4). At this time, the vapor discharged to the waste gas discharge port 4 is mostly an oxidizing material or the like which is not liquefied.

However, in such a conventional cooling device, some of the steam entering the casing 1 through the connecting pipe 3 may rise immediately to the waste gas outlet 4 and exit. That is, the steam flowing into the bottom of the casing (1) is raised directly to the upper space of the casing (1) through the inner and outer space of the cooling coil (2), a portion of this steam also exits through the waste gas outlet (4) I have an issue where a lot of nutrient loss occurs.

The present invention is to solve this problem, it is an object of the present invention to provide a cooling device of the water bath can improve the cooling device to more effectively condensate and recover the steam generated in the heating vessel.

The present invention for achieving this object is;

A cooling apparatus of a water bath for collecting and cooling steam generated from a heating vessel during cooking, comprising:

The cooling device is disposed on the upper side of the heating vessel, and the casing is connected to the bottom through the connecting pipe, and the steam is introduced therein, and the cooling water pumped through the pump is continuously circulated through the pump. A cooling pipe that is cooled by a car, an evaporator of a refrigeration cycle, which is disposed above the cooling pipe and secondly cools the steam introduced into the casing as the refrigerant is vaporized, and an outlet through which the unliquefied vapor exits the casing. It features.

In addition, the cooling pipe is disposed on the inner bottom of the casing, characterized in that bent in the U shape several times.

In addition, the evaporator of the refrigeration cycle is disposed in the axial direction on the inner upper portion of the casing, characterized in that the cooling unit winding the refrigerant pipe in the form of a spring spring made of multiple stages.

In the middle of the connecting pipe, a recovery pipe for recovering the condensed water generated in the casing from the outside and a valve for opening and closing the recovery pipe are provided.

According to this configuration, the steam exiting the heating vessel is firstly cooled by the cooling water and subsequently cooled secondly by the evaporator of the refrigerating cycle, so that the heat exchange action, that is, the condensation action, is more effectively performed.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Briefly, the accompanying drawings, Figure 2 shows the overall structure of the water bath according to the present invention, Figure 3 schematically shows a cooling apparatus according to the present invention.

Referring to FIG. 2, the water bath according to the present invention forms an external shape and is disposed on an upper side of the main body 10, in which various electric appliances such as a heating heater (not shown) are installed, and on the upper side of the main body 10. The heating container 20 is provided with a filter (not shown) for holding food such as tea, and the cooling device 30 for collecting and cooling the steam generated in the heating container 20.

The main body 10 is formed in a rectangular box, the inside of the heating heater for heating the heating vessel 20, the pumping components for continuously supplying the cooling water to the cooling device 30 side, and the refrigerant is continuously Refrigeration cycle components are installed to circulate.

Reference numeral "11" is a control panel that is installed standing on the rear portion of the main body 10 and provided with a plurality of operation buttons to control the operation of the electrical equipment. That is, the control panel 11 controls the extraction time and heating temperature of the hot water of the food.

And the heating vessel 20 is to be placed in the upper portion of the main body 10 to actually hold the food, the upper portion of the container lid 21 through the suppression means 22 is detachably coupled.

On the other hand, the cooling device 30 is for cooling and condensing the steam generated in the process of heating the food to recover and at the same time to discharge the non-liquefied waste gas to the outside, as shown in Figure 2 and 3, the heating vessel The casing 31 is disposed on the upper side of the casing 31 and connected to the upper space of the heating vessel 20 through the connecting pipe 32, and the steam flows into the casing 31 and flows into the casing 31. The cooling pipe 40 is first cooled by the cooling water, and the evaporator 50 of the refrigeration cycle is disposed above the cooling pipe 40 and secondly cools the steam introduced into the casing 31.

The casing 31 is made of a glass cylinder whose upper and lower parts are closed so that the inside can be observed, and is disposed above the upper horizontal line of the heating vessel 20. The bottom of the casing 31 is connected to the heating vessel 20 through the connecting pipe (32). That is, the lower end of the connecting pipe 32 is coupled to communicate with the upper space of the heating vessel 20, the upper end thereof is coupled to communicate with the bottom of the casing (31).

Accordingly, the steam generated in the heating vessel 20 is discharged to the casing 31 side through the connecting pipe (32). In the middle of the connecting pipe 32, a recovery pipe 34 for recovering distilled water condensed in the casing 31 from the outside is provided.

The recovery pipe 34 is provided in communication with the lower side in the connection pipe 32, so that the condensation water coming down the connection pipe 32 can easily flow into the recovery pipe 34. And the recovery pipe 34 is provided with a manual valve 35 for opening and closing it.

Therefore, when the manual valve 35 is opened, the condensed water generated in the casing 31 is discharged to the outside through the recovery pipe 34. When the manual valve 35 is closed, the condensed water is connected to the connecting pipe 32. Through) enters into the heating vessel (20).

In addition, the upper portion of the casing 31 is provided with a discharge port 33 for discharging the waste gas that is not liquefied to the outside.

The cooling pipe 40 is bent in a U shape several times in order to increase the heat exchange area, and is disposed at the inner bottom of the casing 31. In such a cooling pipe 40, the inlet pipe 41 associated with the discharge side of the pump 45 built in the main body 10 so that the cooling water can continuously enter and exit, and the water that has completed the heat exchange action is returned to the storage tank 44 side. The outlet pipes 42 which guide each other are connected.

In addition, in order to continuously supply the cooling water to the cooling pipe 40 side, the inside of the main body 10, a radiator 43 for cooling the cooling water flowing through the outlet pipe 42, and the heat radiation from the radiator 43 The storage tank 44 in which the stored water is temporarily stored, and the pump 45 for pumping the water in the storage tank 44 to the cooling pipe 40 side are compactly installed.

And the evaporator 50 of the refrigerating cycle is disposed in the axial direction on the inner upper portion of the casing 31 so as to be located directly on the cooling pipe 40 to perform the function of cooling the introduced steam secondary. To this end, the evaporator 50 of the refrigeration cycle is disposed in the axial direction in the inner upper space of the casing 31, the cooling unit (50a) (50b) (50c) winding the refrigerant pipe in the form of a spring spring to increase the heat exchange efficiency ) Was composed of multiple stages.

The inlet pipe 51 connected to the outlet side of the condenser 54 of the refrigerating cycle built in the main body 10 is connected to the inlet of the evaporator 50, and the refrigerant having completed the evaporation operation is returned to the outlet of the evaporator 50. The outlet pipes 52 which guide back to the compressor 53 side are respectively connected. {In the embodiment of the present invention, the evaporator 50 is described as a structure consisting of a multi-stage cooling unit 50a, 50b, 50c in the form of a spring, but the present invention is not limited thereto. Of course, it can be applied to a variety of structures.} Reference numeral "55" is an expansion means disposed between the condenser 54 and the evaporator 50 constituting the refrigeration cycle, the compressed refrigerant is the expansion means (55) Over time, the pressure is reduced to a pressure that is easy to evaporate.

Except for the evaporator 50, the compressor 53, the condenser 54, and the like, which are linked to form a closed circuit, are compactly mounted on the bottom of the main body 10.

Next, the operation of the cooling apparatus according to the present invention configured as described above and the effects thereof will be described.

First, a suitable amount of water is put into the heating vessel 20, and a filter (not shown) is placed in the heating vessel 20 to contain a medicine or tea to be decocted. Subsequently, when the container lid 21 is closed and the pump 45 and the compressor 53 are driven through the control panel 11, the cooling pipe 40 is cooled by the cooling water pumped and the evaporator of the refrigerating cycle ( In 50, the inside of the casing 31 is cooled while the refrigerant is vaporized.

When the heating vessel 20 is heated by driving a heating heater (not shown), water is boiled and the food contained in the filter is sweetened. At this time, as the water in the heating vessel 20 starts to boil, steam moves to the cooling device 30 through the connecting pipe 32.

That is, the steam generated in the heating vessel 20 flows into the bottom of the casing 31 through the connecting pipe 32, and is first cooled while passing around the cooling pipe 40.

Subsequently, the first cooled steam is secondarily cooled and condensed through the evaporator 50 of the refrigerating cycle. That is, the steam that has risen to the upper space of the casing 31 is condensed by heat exchange while traveling around the evaporator 50 of the refrigeration cycle. And the unliquefied vapor is usually an oxidizing substance (waste gas), which is discharged to the atmosphere through the outlet 33.

On the other hand, when the manual valve 35 is opened, the condensed water in the casing 31 is extracted to the outside through the connecting pipe 32 and the recovery pipe 34. In other words, the condensed water flows down the inside of the connecting pipe 32 and most of the condensed water exits to the recovery pipe 34, and thus only the condensed water can be easily obtained. On the other hand, when the manual valve 35 is closed, the condensed water generated in the casing 31 enters the heating vessel 20 again through the connecting pipe 32 and is mixed with the suspension.

In addition, in one embodiment of the present invention, the recovery pipe 34 is configured in the middle of the connecting pipe 32 as an example, but is not limited to this configuration can be configured to connect the recovery pipe directly to the bottom of the casing 31 to extract condensed water. have.

As described in detail above; According to the cooling apparatus of the water bath according to the present invention, the steam flowing out of the heating vessel and introduced into the casing is firstly cooled through a cooling pipe through which cooling water is circulated, and is subsequently cooled secondly through an evaporator of a refrigeration cycle. As a result, the condensation of the steam is more effective, so that there is almost no effect of loss of nutrients, that is, herbal ingredients.

In addition, since the steam generated in the heating vessel is more completely collected and recovered, the overall reliability of the water bath is also advantageous. In addition, since the steam cooled primarily through the coolant comes up around the evaporator of the refrigerating cycle, the compressor can be configured in a small capacity, thereby reducing the power consumption and noise and facilitating manufacturing.

1 is a schematic view showing an extract of the conventional cooling device of the water heater.

Figure 2 is a front view showing the overall structure of the water heater to which the present invention is applied.

3 is a schematic view showing an extract of the cooling apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10. Body 20. Heating container

30. Cooling system 31. Casing

32. Connector 33. Outlet

34..Recovery pipe 40..Cooling pipe

50 .. Evaporator of refrigeration cycle

Claims (4)

In the cooling device 30 of the hot water bath for collecting and cooling the steam generated from the heating vessel 20 during cooking; The cooling device 30 is; A casing 31 disposed at an upper side of the heating vessel 20 and having a bottom portion connected through a connection pipe 32 and into which steam is introduced; A cooling pipe 40 disposed inside the casing 31 and continuously circulating the cooling water pumped through the pump 45 to primarily cool steam introduced into the casing 31; An evaporator 50 of a refrigerating cycle disposed on the cooling pipe 40 and cooling the vapor introduced into the casing 31 as the refrigerant is vaporized; Cooling apparatus of the water heater, characterized in that it comprises an outlet (53) provided on the casing (31) to escape the vaporized liquid. The method of claim 1, The cooling pipe (40) is disposed in the inner bottom of the casing (31), the cooling apparatus of the water heater, characterized in that bent in a number of U times. The method according to claim 1 or 2, The evaporator 50 of the refrigeration cycle is disposed in the axial direction on the inner upper portion of the casing 31, the cooling unit 50a (50b) 50c winding the refrigerant pipe in the form of a spring spring consisting of multiple stages Cooling device of the water heater. The method of claim 1, In the middle of the connecting pipe 32 is provided with a recovery pipe 34 for recovering the condensed water generated in the casing 31 from the outside, and a valve 35 for opening and closing the recovery pipe 34. Cooling device of the water heater.