KR100887422B1 - Water heater - Google Patents

Abstract

The present invention relates to a water heater for supplying hot water, comprising a main heater and an auxiliary heating wire in the heat exchange tank filled with the heat medium, and to the inside or outside of the heat exchange tank to enable the heat exchange tank to be sealed to prevent heat loss. It is equipped with a pressure compensator for the pressure compensation by the expansion of the heat medium, and the water supply pipe passing through the heat exchange tank and the reservoir connected to the inside of the heat exchange tank, the heat loss is prevented to excellent heat transfer efficiency, instantaneous and low temperature type Provide this possible water heater.

Heat exchange tank, main heater, sub heater, reservoir, press

Description

Water heater

The present invention relates to a water heater for supplying hot water. More specifically, the main heater and the auxiliary heating wire are provided in the heat exchange tank filled with the heat medium, and the pressure compensation for expansion of the heat medium inside or outside the heat exchange tank is possible to seal the heat exchange tank to prevent heat loss. The present invention relates to a water heater having a compactor, and having a water supply pipe passing through the heat exchange tank and a storage tank communicated with the inside of the heat exchange tank, to prevent heat loss and to provide excellent heat transfer efficiency, and to provide instantaneous and low boiling water functions.

In general, boilers and water heaters are largely included in a combustion apparatus having a heating or hot water supply system. A boiler used in a general home or a public building is used for heating or hot water, and a water heater heats cold water to a predetermined temperature within a short time. The user will be able to use hot water conveniently.

Most of these boilers and water heaters use oil or gas as fuel to burn through the main burner, heat water using combustion heat generated during the combustion process, and provide heated water (hot water) according to user's needs. It works in a way. Recently, in the case of a small water heater, a heating method using an electrically operated heater is used instead of heating by oil or gas combustion.

There are various kinds of water heaters according to the classification method. The direct heating method for directly heating the water supplied by the heat source and the indirect heating type for indirectly heating the water supplied through the heating medium heated by the heat source. There is this. In addition, it is divided into a central method and a local method according to the hot water supply method, and local methods include instant type, low temperature type. Instant type is a method of supplying hot water is instantaneously heated and passing hot water through the water heater, low-storage is a method of supplying hot water stably by storing the heated water.

1 is a view conceptually showing the structure of a water heater of a water heater commonly used by the prior art.

The water heater shown in FIG. 1 is directly heated and provided with a heater 20 at a lower portion of the storage tank 10, and a water supply pipe 11 and a hot water supply tube 12 are connected to the lower side and the upper side of the storage tank 10, respectively. do. The water 30 stored in the storage tank 10 by the water supply pipe 11 is directly heated by the heater 20 and supplied to the user through the hot water supply pipe 12. At this time, the water 30 of the storage tank 10 is heated as a whole by the convection to achieve a uniform temperature.

In the conventional water heater, when the water 30 is heated in an enclosed space, since the temperature rises and expands, the pressure inside the storage tank 10 increases. Therefore, in order to prevent the storage tank 10 from being damaged by pressure, an expansion pipe 13 or a safety valve is installed at the upper portion of the storage tank 10, and the pressure is maintained at an appropriate level by discharging steam. However, since heat is discharged to the outside at the same time as the steam discharged through the expansion tube 13 or the like, there is a problem that the heat exchange efficiency of the water heater is reduced.

In addition, the water heater shown in FIG. 1 is a method of supplying hot water to the user after heating the water stored in the storage tank 10 as a low temperature type, and thus, it takes time for the stored water to be heated, and the stored water is heated as a whole. In order to maintain a uniform temperature, it takes time for heat transfer by convection, so it is impossible to supply hot water promptly like instantaneous type.

Therefore, the present invention has been invented to solve such a problem, the main heater and the auxiliary heating wire is provided in the heat exchange tank filled with the heat medium, and the heat exchange tank or the inside of the heat exchange tank to enable the heat exchange tank to prevent heat loss or It is equipped with a pressure compensator for expansion due to the expansion of the heat medium, and a water supply pipe passing through the heat exchange tank and a storage tank connected thereto are provided inside the heat exchange tank, thereby preventing heat loss and providing excellent heat transfer efficiency. Its purpose is to provide a water heater capable of boiling water.

In order to achieve this object, the present invention is a heat exchange tank filled with a heat medium in the sealed inner space; A main heater provided at a predetermined position inside the heat exchange tank to heat the heat medium; A water supply pipe passing through the heat exchange tank and supplied with water; And a pressurizer positioned inside the heat exchange tank to communicate with the outside of the heat exchange tank, the volume of which is elastically changed according to the atmospheric pressure and the pressure of the heat medium. It includes a storage tank which is located in the heat exchange tank and the water passing through the water supply pipe can be stored, and the water inside the water supply pipe is heated through the heated heating medium.

In addition, the heat exchange tank filled with the heat medium in the sealed inner space; 1 to 5 main heaters provided at a predetermined position inside the heat exchange tank to heat the heat medium; A water supply pipe passing through the heat exchange tank and supplied with water; A compactor which protrudes to the outside of the heat exchange tank so as to communicate with an internal space of the heat exchange tank so that the volume thereof is elastically changed according to the atmospheric pressure and the pressure by the heat medium; A storage tank located in the heat exchange tank and configured to store water passing through the water supply pipe, wherein water in the water supply pipe is heated through the heated heating medium, and the compressing device is one to one according to the size of the heat exchange tank. It provides a water heater, characterized in that provided with five.

At this time, the fixing net is mounted to the inside of the heat exchange tank so as to be connected to the compactor and formed so that the heat medium can pass freely; And an elastic member positioned inside the fixing net and changing in volume according to the pressure of the heating medium, and volume changes of the elastic member and the compactor occur sequentially according to the pressure change of the heating medium. It is preferable that one to five elastic members are provided according to the size of the heat exchange tank.

The apparatus may further include an elastic member made of rubber or silicon, which is positioned inside the heat exchange tank and changes in volume depending on the pressure of the heat medium, and one to five elastic members are provided according to the size of the heat exchange tank. And an auxiliary heater formed in a zigzag shape so as to be evenly positioned inside the heat exchange tank and heating the heat medium evenly, wherein the auxiliary heaters are provided with one to five according to the size of the heat exchange tank. desirable.

In addition, the reservoir is formed in the lower side of the reservoir and the inlet pipe is communicated through the water supply pipe and the direction switching valve; And an outlet pipe formed at an upper side of the reservoir and communicating with the water supply pipe, wherein the water flowing through the water supply pipe is introduced into the inlet pipe according to the operation of the direction switching valve and stored in the reservoir.

As described above, according to the present invention, the main heater and the auxiliary heating wire are provided in the heat exchange tank filled with the heat medium, and the heat medium is formed inside or outside the heat exchange tank to enable the heat exchange tank to be sealed to prevent heat loss. It is equipped with a pressure compensator for expansion by expansion, and a water supply pipe passing through the heat exchange tank and a reservoir connected to the inside of the heat exchange tank are provided to prevent heat loss, thereby providing excellent heat transfer efficiency, and functioning as an instantaneous water heater and a low temperature water heater. This all has a possible effect.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a view schematically showing the structure of a water heater according to an embodiment of the present invention, Figure 3 is a view showing a simplified structure of the water heater according to another embodiment of the present invention.

The water heater according to the present invention is an indirect heating method for supplying hot water by heating the heat medium 400 by the heat source and indirectly heating the water supplied through the heated heat medium 400, and functions as both a low boiling type and an instant type. Having a water heater.

As shown in FIG. 2, the water heater according to the present invention is provided with a heat exchange tank 100 having a sealed inner space, and a heat medium 400 is filled in the heat exchange tank 100. A predetermined position inside the heat exchange tank 100 is provided with a main heater 200 for heating the heat medium 400. The position where the main heater 200 is provided is smooth in the heat exchange tank 100. It is preferable to be located under the inner space of the heat exchange tank 100 so that the convection action.

In addition, a water supply pipe 300 through which water is supplied and flows therethrough is provided through the heat exchange tank 100, wherein the water supply pipe 300 is formed in a zigzag to widen the heat exchange area with the heat medium 400 in the heat exchange tank. It is desirable to be. In addition, the inside of the heat exchange tank 100 is provided with a compactor 110, the volume is elastically changed by the pressure, wherein the compactor 110 is formed to be corrugated and folded or unfolded according to the corrugation, the volume is changed It is preferable to form.

The compactor 110 is formed so as to communicate with the outside of the heat exchange tank 100 and the wrinkled portion is located inside the heat exchange tank 100, and thus the atmospheric pressure from the outside and the inside of the heat exchange tank 100 The volume changes elastically according to the strength of the heat medium 400 pressure. That is, when the main heater 200 does not operate and the heat medium 400 is in a room temperature state, the compressing machine 110 maintains a volume in a normal state while the wrinkles are unfolded by the external atmospheric pressure, and the heat medium ( When 400 is heated, the heat medium 400 expands in the hermetically sealed heat exchange tank 100 and the pressure increases, so as to compensate for this, the presser 110 folds along the pleats and compensates the internal pressure of the heat exchange tank 100. .

In addition, it is preferable that the inside of the heat exchange tank 100 as the pressure compensation means is provided with an elastic member 120 made of rubber or silicone material whose volume changes according to the pressure of the heat medium 400 and has a strong resistance to thermal deformation. , The elastic member 120 is preferably provided with one to five according to the size of the heat exchange tank (100).

Meanwhile, as shown in FIG. 3, the water heater according to another embodiment of the present invention, unlike the water heater described with reference to FIG. 2, the heat exchange tank 100 such that the pressurizer 110 ′ communicates with an internal space of the heat exchange tank 100. It is formed to protrude to the outside. At this time, the compactor 110 ′ is elastically changed in accordance with the strength of the atmospheric pressure and the heat medium 400 pressure, and as shown in FIG. 3, the pleated and pleated portions are formed outside the heat exchange tank 100. It is preferably formed in such a way that the volume is changed while being folded or unfolded according to the wrinkles.

That is, when the main heater 200 does not operate and the heat medium 400 is in a room temperature state, the presser 110 ′ maintains a volume in a normal state in a state in which wrinkles are folded by an external atmospheric pressure, and is maintained by the main heater 200. When the heat medium 400 is heated, the heat medium 400 expands into the space at the side of the presser 110 'in the sealed heat exchange tank 100, and the pressure in the space inside the presser 110' is increased by this expansion. The compactor compensates for this and expands the wrinkles to compensate for the internal pressure of the heat exchange tank 100.

In addition, as shown in Figure 3, the inside of the heat exchange tank 100 is connected to the compactor (110 ') and the fixing net 121 for receiving the elastic member 120 therein is mounted. Fixing net 121 is a means for fixing the elastic member 120 is configured in the form of a net so that the heat medium 400 can pass freely. At this time, the elastic member 120 is preferably formed of a rubber or silicone material having a property of changing the volume and having a strong resistance to thermal deformation as the pressure compensation means as described in FIG. 2.

According to this structure, when the heat medium 400 is heated and expanded in the heat exchange tank 100, the elastic member 120 is first compressed to compensate for the pressure of the heat medium 400, and the heating of the heat medium 400 is continued and elastic. If the heat medium 400 expands more than the pressing limit of the member 120, the heat medium 400 expands to a space on the side of the press 110 ′, thereby expanding the heat press 400 ′ as described above. The internal pressure of the tank 100 is compensated for. That is, this structure is a structure in which the volume change of the elastic member 120 and the volume change of the compactor 110 ′ occur sequentially according to the pressure and the volume change of the heat medium 400.

Meanwhile, as shown in FIG. 3, the fixing net 121 and the elastic member 120 may be additionally installed to be located inside the storage tank 310, in which case the fixing net 121 inside the storage tank 310. ) And a separate presser 110 ′ which can be connected to each other is additionally formed to protrude outside the heat exchange tank 100, and the presser 110 ′ and the fixing net 121 may be interconnected by a pipe. According to the structure described above, when the hot water inside the reservoir 310 is heated and expanded by the same operating principle as described above, the volume of the elastic member 120 is changed, and then the volume of the compactor 110 ′ connected thereto is sequentially changed. And the pressure inside the reservoir 310 is compensated.

At this time, the main heater 200 is preferably provided with one to five, the elastic member 120 is preferably provided with one to five depending on the size of the heat exchange tank (100).

Such a water heater according to the present invention, the heat medium 400 is filled in the heat exchange tank 100, the heat medium 400 is heated by the main heater 200, the heat exchange tank by the heated heat medium (400) (100) The hot water is supplied by heating the water supplied to the water supply pipe 300 and the water supply pipe 300 passing through the inside. On the other hand, since the water supply pipe 300 is formed in a zigzag to increase the heat exchange area, instantaneous hot water supply is possible. In addition, since the expansion tube or safety valve is not mounted to the heat exchange tank 100, the heat transfer tank 100 may prevent a decrease in the amount of heat medium generated by the pressure discharge through the expansion tube.

On the other hand, since the main heater 200 is located below the inner space of the heat exchange tank 100, the heat transfer time of the heat transfer due to convection is further required for the heating medium 400 to be heated evenly to the upper portion of the inner space of the heat exchange tank 100. In addition, the water heater according to the present invention preferably further includes an auxiliary heater 210 formed in a zigzag form in the inside of the heat exchange tank 100 in order to evenly heat the heat medium 400 in the heat exchange tank 100 as a whole. At this time, it is preferable that one to five auxiliary heaters 210 are provided according to the size of the heat exchange tank.

The sub-heater 210 is at least one or more, preferably 1 to 5 heating wires 212 to generate electricity to heat the heating wire fixture to prevent the heating wires 212 is twisted or short-circuited in contact with each other It is configured to include a 215, the hot wire fixture 216 is coupled to be spaced apart from each other at fixed intervals to the holder 213 and the holder 213 formed in parallel with the arrangement direction of the heating wire 212 as shown in FIG. It is preferable that it is composed of a plurality of fixing plates (214). At this time, the fixing plate 214 is inserted into the groove 215 is formed on the outer peripheral surface in the shape of a circular plate, the heating wire 212 is inserted into each of the insertion groove 215 is fixed so as not to be in contact with each other, to prevent the short circuit occurs do. In this case, the shape of the fixing plate 214 may be formed as an annular plate as well as a circular plate, the shape of which may be variously modified.

In addition, the portion of the auxiliary heater 210 configured as described above is inserted into the heat exchange tank 100 to prevent the short circuit of the heating wire 212 and the connection port 211 capable of sealing the heat exchange tank 100 is mounted. Preferably, this connector 211 is known from Patent Publication No. 10-2006-19600 and the detailed description is omitted.

The auxiliary heater 210, in addition to the function of evenly heating the heat medium 400 in the heat exchange tank 100 in a fast time, stop the operation of the main heater 200 as needed and operate only the auxiliary heater (210) The heating medium 400 may perform a function of maintaining the heated state at a predetermined temperature.

Next, the water heater according to the present invention is a structure that performs the function of the instantaneous or low-temperature water heater at the same time, the water passing through the water supply pipe 300 in the heat exchange tank 100 as shown in Figure 2 for this function There is provided a reservoir 310 that can be stored.

The reservoir 310 has an outlet pipe 312 is formed on the upper side of the reservoir 310 and the inlet pipe 311 is formed on the lower side, the inlet pipe 311 and the outlet pipe 312 are each the water supply pipe 300 Communicating with At this time, the inlet pipe 311 is in communication with the water supply pipe 300 through the direction switching valve 320, the water flowing in the water supply pipe 300 in accordance with the operation of the direction switching valve 320 is the inlet pipe 311 Through or flowing into the reservoir 310 or flows to supply hot water to the user while being heated without being introduced.

That is, the heated water passes through the water supply pipe 300 passing through the inner space of the heat exchange tank 100 and is heated to the storage tank 310 through the inlet pipe 311 from the water supply pipe 300 by the direction switching valve 320. The stored water is again discharged to the water supply pipe 300 through the outflow pipe 312 and supplies hot water to the user along the water supply pipe 300. At this time, since the reservoir 310 is located inside the heat exchange tank 100, the water stored in the reservoir 310 is in a state of being reheated or kept warm by the heat medium 400.

Therefore, the water heater according to the present invention having such a structure passes through the water supply pipe 300 and the heated water flows into the reservoir 310 according to the operation of the direction switching valve 320 and then stably supplies hot water from the reservoir 310. The function of the low-temperature water heater is performed, or in accordance with the operation of the directional valve 320 does not flow into the reservoir 310 as it passes through the water supply pipe 300 and is heated in a short time of the instantaneous water heater to supply hot water The function can be performed.

On the other hand, the heat medium according to an embodiment of the present invention may be composed of water or silver ionized water or by mixing water and silver ionized water or water and carbon or water and ceramics.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a view conceptually showing the structure of a water heater according to the prior art,

2 is a view schematically showing the structure of a water heater according to an embodiment of the present invention.

3 is a view schematically showing the structure of a water heater according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: storage tank 11: water pipe

12: hot water pipe 13: expansion pipe

20: heater 30: water

100: heat exchange tank 110: press

120: elastic member 200: main heater

210: auxiliary heater 211: connection port

212: heating wire 213: holder

214: fixing plate 215: insertion groove

216: hot wire fixing device 300: water supply pipe

310: reservoir 311: inlet pipe

312: outlet pipe 320: direction switching valve

400: heating medium

Claims (14)

A heat exchange tank in which a heat medium is filled in the sealed inner space; A main heater provided at a predetermined position inside the heat exchange tank to heat the heat medium; A water supply pipe passing through the heat exchange tank and supplied with water; A compactor positioned inside the heat exchange tank to communicate with the outside of the heat exchange tank, the volume of which is elastically changed according to the atmospheric pressure and the pressure of the heat medium; And A storage tank located inside the heat exchange tank and capable of storing water passing through the water supply pipe. And a water heater, wherein the water inside the water supply pipe is heated through the heated heating medium. The method of claim 1, The water supply pipe is characterized in that the water heater is zigzag formed in the heat exchange tank. The method of claim 1, The pressurizer is formed in a corrugated water heater, characterized in that the volume is changed by folding or unfolding according to the wrinkles. The method of claim 3, wherein It further comprises an elastic member of the rubber or silicon material located in the heat exchange tank and the volume is changed in accordance with the pressure of the heat medium, wherein the elastic member is provided with one to five according to the size of the heat exchange tank water heater. A heat exchange tank in which a heat medium is filled in the sealed inner space; 1 to 5 main heaters provided at a predetermined position inside the heat exchange tank to heat the heat medium; A water supply pipe passing through the heat exchange tank and supplied with water; A compactor which protrudes to the outside of the heat exchange tank so as to communicate with an internal space of the heat exchange tank so that the volume thereof is elastically changed according to the atmospheric pressure and the pressure by the heat medium; A storage tank located inside the heat exchange tank and capable of storing water passing through the water supply pipe. It includes, the water inside the water supply pipe is heated through the heated medium, the water heater characterized in that provided with one to five according to the size of the heat exchange tank. The method of claim 5, wherein The pressurizer is formed in a corrugated water heater, characterized in that the volume is changed by folding or unfolding according to the wrinkles. The method of claim 6, A fixed net mounted inside the heat exchange tank so as to be connected to the compactor and configured to freely pass the heat medium; And An elastic member accommodated in the fixed net and whose volume changes in accordance with the pressure of the heat medium Further comprising, the change in the volume of the elastic member and the compactor in accordance with the pressure and volume change of the heat medium occurs sequentially, characterized in that the elastic member is provided with one to five according to the size of the heat exchange tank Water heater. The method of claim 7, wherein The fixed net and the elastic member is mounted in the reservoir, the fixed net is characterized in that connected to the compactor and the pipe. The method of claim 8, The elastic member is a water heater, characterized in that formed of rubber or silicone material. The method according to any one of claims 1 to 9, It is formed in a zig-zag so as to be evenly positioned inside the heat exchange tank and further comprises an auxiliary heater for heating the heat medium evenly, wherein the auxiliary heater is provided with one to five according to the size of the heat exchange tank Water heater. The method of claim 10, The auxiliary heater 1 to 5 heating wires for generating heat by receiving electricity; And Hot wire fixing device for fixing the hot wire so that the hot wire is not twisted or contact with each other Water heater comprising a. The method of claim 11, The hot wire fixture Fixing rod formed in parallel with the hot wire arrangement direction; And Insertion grooves are formed is inserted into the hot wire is fixed and a plurality of fixing plates coupled to the fixed space at a predetermined interval apart from each other Water heater comprising a The method according to any one of claims 1 to 9, The reservoir An inlet pipe formed at a lower side of the reservoir and communicating with the water supply pipe via a direction switching valve; And Outflow pipe formed on the upper side of the reservoir and in communication with the water supply pipe Including, Water flowing through the water supply pipe is introduced into the inlet pipe in accordance with the operation of the directional valve and stored in the reservoir. The method according to any one of claims 1 to 9, The heat medium is water or silver ionized water or water heater, characterized in that composed of water and silver ionized water or water and carbon or a mixture of water and ceramics.

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