KR200426477Y1 - Vaporizer - Google Patents

Abstract

The carburetor is kept airtight, and the injection hole is provided in the main body so that a water inlet is provided, and a receiving part is formed in the injection hole, and the air portion is formed when the water is heated to expand the volume. It includes a control tube extending to.

Carburetor, water replenishment, water injection

Description

Carburetor {VAPORIZER}

1 is a configuration diagram showing a gas supply system and an installation state of the vaporizer according to an embodiment of the present invention.

2 is a cross-sectional view showing a vaporizer according to an embodiment of the present invention.

Figure 3 is an enlarged view of the main portion of Figure 2 according to an embodiment of the present invention.

Figure 4a to 4e is an operating state showing the action according to the thermal expansion of water according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

100: carburetor 10: body

11: countertop 12: cover

13: inlet 14: lid

15: control tube 16: exhaust hole

20: inlet 30: outlet

40: heat exchanger tube 50: electric heater

1: gas tank 2: liquefied gas supply pipe

2: vaporization gas supply pipe

The present invention relates to a vaporizer, and more particularly, when the water charged in order to vaporize the liquefied gas supplied from the gas tank by heat exchange is installed in the gas supply system, the expanded water and the low temperature evaporated vapor are transferred to the air layer. The present invention relates to a vaporizer in which water loss due to thermal expansion is prevented by being accommodated in a predetermined accommodating part.

Generally, the vaporizer is installed in the gas supply system to forcibly vaporize the liquefied gas supplied from the gas tank.It is used to vaporize carbon dioxide used in carbonated drinks as well as propane gas. Is being proposed.

The vaporizer is basically installed to evaporate the liquefied gas supplied from the gas tank, and vaporizes by raising the temperature of the liquefied gas.

Therefore, the vaporizer has a fluid, a heat transfer heater, and a heat exchanger tube installed in the body of a water tank type, and the fluid is heated to a predetermined temperature with the heat transfer heater so that the liquefied gas flows through the heat exchanger tube installed in the heated hot water.

At this time, the fluid filled in the main body and used as a heat exchange medium mainly uses water. When the water is heated to vaporize the liquefied gas, the volume expands due to the temperature rise of the water, and as much water as the expanded volume flows through the overflow tube. It will be discharged to the outside. In addition, water is consumed by low temperature evaporation rather than boiling point of water.

Therefore, the vaporizer has a problem that the intermittent replenishment of the discharged or consumed water in order to increase the vaporization efficiency of the liquefied gas.

In other words, if the water is not replenished in a timely manner, the water level will be lowered and the actual heat transfer area of the carburetor will decrease. There is a problem that happens.

The present invention was created in view of the above necessity, and when heating the charged water to vaporize the liquefied gas by heat exchange, it accommodates a certain portion of the water by the expanded volume and does not discharge the portion which is increased more than a certain amount to the outside. It is an object of the present invention to provide a vaporizer having a structure in which the internal pressure is increased as the water level is increased to suppress the low temperature evaporation so that water loss due to evaporation is prevented.

The vaporizer according to the present invention for achieving the above object is kept airtight, is provided in the main body and the inlet is provided with a water inlet, when the water is heated to expand the volume is an air layer to receive the expanded volume of water It is characterized in that the water injection port is extended to the inside of the main body so that the receiving portion is formed to prevent the water from filling at a predetermined level or more.

Here, the control tube is preferably provided with an exhaust hole for discharging the air to the appropriate level so that the water is expanded to be accommodated in the receiving portion.

And the water inlet is provided with a lid, the lid is provided with a weight body to withstand a predetermined inflation pressure generated in the inlet of the main body, it is preferable to install a rubber packing so that air does not leak under a certain pressure.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, terms defined are defined in consideration of functions in the present invention, it should not be understood as a meaning limiting the technical components of the present invention.

1 is a block diagram showing a gas supply system showing the installation state of the vaporizer according to an embodiment of the present invention. 2 is a cross-sectional view showing a vaporizer according to an embodiment of the present invention, Figure 3 is an enlarged view of the main portion of Figure 2 according to an embodiment of the present invention.

As shown in FIG. 1, the supply system includes a gas tank 1 containing liquefied or vaporized gas, and the gas tank 1 includes a vaporizer 100 which vaporizes the supplied liquefied gas and supplies the gas to the user. .

In addition, a liquefied gas supply pipe 2 is provided between the gas tank 1 and the vaporizer 100 to supply liquefied gas to the vaporizer 100, and vaporized gas vaporized by evaporation in the gas tank 1 is used. A vaporization gas supply pipe 3 is provided so that the gas can be directly supplied to the gas.

That is, the liquefied gas supply pipe (2) is in communication with the lower portion of the gas tank (1) to supply the liquefied gas to the vaporizer 100, the vaporized gas supply pipe (3) is the vaporized gas naturally evaporated in the gas tank (1) It communicates with the upper part of the gas tank 1 so that it can be directly supplied to the place of use.

Herein, the liquefied gas and the vaporized gas coexist in the interior of the gas tank 1, and the liquefied gas is naturally evaporated at a corresponding temperature to maintain a saturated parallel state in which the vaporized gas is saturated. Therefore, when the vaporized gas is exhausted, it is evaporated to a saturation state which can be evaporated from the liquefied gas at the corresponding temperature, thereby maintaining the saturation equilibrium again.

The vaporizer 100 is to vaporize the liquefied gas supplied from the gas tank 1 through heat exchange and to supply the vaporized gas to each place of use.

2 to 3, the vaporizer 100 is provided in the main body 10 and the main body 10 formed so as to receive predetermined water, and the fresh water contained in the main body 10. An electrothermal heater 50 for heating water and a heat exchanger tube 40 for exchanging heat with the water heated by the electrothermal heater 50 and allowing the liquefied gas to flow therein to heat exchange the liquefied gas.

In addition, the inlet 20 and the liquefied gas introduced into the outside of the main body 10 are connected to the liquefied gas supply pipe 2 so that the liquefied gas of the gas tank 1 can be supplied to the heat exchange tube 40. After evaporated through e) is composed of an outlet 30 which is vaporized and discharged into the vaporized gas.

Therefore, the liquefied gas supplied from the gas tank 1 is supplied to the inlet 20 and flows through the heat exchange tube 40 to be heat exchanged with the water of which the temperature of the heat transfer heater 50 is raised in the body 10. After the temperature of the liquefied gas is raised and evaporated, the vaporized gas is discharged through the discharge port 30. And the vaporized gas discharged through the discharge port 30 is supplied to the place of use.

The main body 10 is composed of a water tank 11 to allow a predetermined amount of water for heat exchange therein, and a cover 12 formed with an injection hole 13 to supply water to the water tank 11. . And the water tank 11 and the cover 12 are sealed using sealing members, such as rubber packing.

At this time, the injection hole 13 formed in the cover 12 is formed to extend the injection hole 13 so that the receiving portion having an air layer on the top of the water tank 11 in a state coupled with the water tank 11 to have a predetermined length The tube 15 is formed. Here, the control pipe 15 is provided by connecting a separate pipe by a method such as welding to maintain the airtight.

And the control tube 15 is fixed to extend inwardly from the injection port 13, the outer periphery is formed through the exhaust hole 16 so that the fluid of the gas phase or liquid can enter and exit.

Here, the control pipe 15 restricts the supply of water by overflowing when the water supplied to the water tank 11 is sufficiently filled, and the volume is increased due to the temperature rise due to the heating of the water, thereby increasing the water level to the exhaust hole 16. As much air as the volume of the accommodating part is discharged to fill the volume of the accommodating part.

When the water level rises due to an increase in the volume of the exhaust hole 16 or more due to the heating of water, it exists as an internal pressure in the receiving portion located at the upper portion to suppress the low temperature evaporation.

Therefore, the length of the control tube 15 is formed longer than the length of the water tank 11 by the volume increase that can be increased by the maximum and minimum temperature changes of the water in the water tank 11, at least 1.1 to 2.5 times the length It is formed to be.

And the exhaust hole 16 is formed to have a diameter of 2mm or less of the air flow rate, it is formed in the center of the entire length of the control tube (15).

On the other hand, the injection hole 13 is provided with a lid 14 to cover the injection hole (13). Here, the lid 14 is provided as a weight body, and a sealing member such as rubber packing is provided between the injection hole 13 and the lid 14 to be sealed at a predetermined pressure by the weight of the weight body.

As described above with reference to Figures 4a to 4e as the thermal expansion of the water according to the heating of the vaporizer 100 according to an embodiment of the present invention. 4a to 4e is an operating state diagram showing the action according to the thermal expansion of water according to an embodiment of the present invention.

First, as shown in FIG. 4A, the lid 14 provided at the injection hole 13 of the cover 12 is opened, and water is supplied. At this time, when the water supplied through the inlet 13 to the inlet of the inlet 13, that is, the upper end of the control tube 15, the water supply is stopped.

Thereafter, the water filled up to the upper part of the control tube 15 is discharged through the exhaust hole 16 formed through the outer periphery of the control tube 15, and the air layer air is discharged from the water level of the control tube 15 as shown in FIG. 4B. As the water level decreases, the water level in the receiver increases, so that the water level is the same.

After that, the lid 14 is closed, and power is supplied to the electric heater 50 to heat the water. At this time, the water is heated to expand the volume of the water due to thermal expansion, and the water level is increased as much as the expanded volume. Therefore, as shown in FIG. 4C, the water level in the water tank 11 increases, and the air of the accommodation portion is discharged to the water supply port through the exhaust hole 16. When the air expanded by the weight of the lid 14 rises above a certain pressure, the lid 14 overcomes its own weight by the expansion pressure and discharges the air to the outside.

Subsequently, if the heating is continued to the temperature to be heated (about 60 ° C. to 70 ° C.), as shown in FIG. 4D, when the water level is higher than the exhaust hole 16 in the water tank 11, the air is discharged further. Is limited and the inflated pressure is at the internal pressure at the receiver. Therefore, low temperature evaporation is suppressed.

After the temperature rises or stops using the carburetor 100, the power supply is cut off.

Since the water temperature is lowered (about 5 ℃), the volume of water is reduced, the water level is lowered. At this time, as shown in Figure 4e the internal pressure formed in the receiving portion is also slightly lower.

Then, when the water is re-heated by supplying power to the electric heater 50, the internal pressure is generated by the weight of the lid 14 while the vaporizer 100 is in operation at the internal pressure at the receiving portion of the expanded water level. The water is kept in the vaporizer 100 is prevented because it is maintained to suppress the low temperature evaporation as well as to prevent the outflow of steam to the outside.

After the carburetor 100 is not operated for a long time, if the power is cut off, the temperature of the water inside the carburetor 100 is lowered to room temperature. If the outside air is introduced through the lid and restarted, the above process is repeated.

The technical idea of the vaporizer according to the present invention has been described together with the accompanying drawings, but this is only illustrative of the best embodiments of the present invention and is not intended to limit the present invention.

Therefore, it is obvious that anyone with ordinary skill in the art can make various modifications and imitations such as dimensions, shapes, structures, etc. without departing from the scope of the technical idea of the present invention.

As described above, the vaporizer according to the present invention, in which a control tube is installed in the inlet, and has an accommodating portion formed therein as an air layer inside the main body, expands the volume of the water when it is heated to vaporize the liquefied gas by heat exchange. This can be accommodated so that water loss due to expansion or evaporation is prevented.

Claims (3)

Main body is kept airtight, the water inlet is provided; It is provided in the inlet, when the water is heated to expand the volume so that the receiving portion is formed in the air layer to receive the expanded volume of water when the volume is expanded so that the water is not filled more than a certain level when filling the water. Vaporizer comprising a control tube to. The method of claim 1, The control pipe is provided with an exhaust hole for discharging the air to the appropriate level so that the water is expanded to be accommodated in the receiving portion. The method of claim 2, The water inlet is provided with a lid, The cap is provided with a weight body to withstand a predetermined inflation pressure generated in the inlet of the main body and the vaporizer characterized in that the rubber packing is installed so as not to leak under a certain pressure.

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