KR20240015825A - Hot water tank for water purifier - Google Patents

Abstract

In the present invention, unlike the magnesium oxide filled in the metal pipe, which is a weak point of the sheath heater, which rather dissolves in hot water and deposits on the hot water tank itself, causing corrosion, the heat-resistant glass pipe, which is a component of the carbon fiber heating bundle, is placed in the tank to protect against water and hot water. By thoroughly isolating the carbon fiber yarn, it does not cause substances harmful to the human body to penetrate into the hot water, so not only does it not cause any fatal problems to the human body as in prior art literature (the heat-resistant glass pipe allows hot water to penetrate), but it does not cause any harmful problems to the human body. When supplying electric energy, the thermal energy reaction speed of carbon fiber yarn is much faster than that of a sheath heater, so power waste can be relatively reduced (the boiling point of feed water is 100%). Considering that the power is turned on and off frequently during use when the temperature is ℃, the gap in power waste becomes much larger as the period of use increases.) This is an invention regarding a hot water tank for a water purifier.

Description

Hot water tank for water purifier {HOT WATER TANK FOR WATER PURIFIER}

The present invention relates to a hot water tank for a water purifier, and more specifically, to a water purifier that is not harmful to the human body and is a carbon fiber heating bundle that converts electrical energy into heat energy and discharges the water while converting it into hot water, thereby causing no fatal injuries caused by the sheath heater. It's about the hot water tank.

In general, a water purifier is a device that filters water supplied from a water pipe and discharges it as cold or hot water, allowing people to consume cleaner and more hygienic cold and hot water.

Figure 1 is a configuration diagram showing a cold and hot water supply device with an ice-making function according to Prior Art Document 1 (Korea Public Utility Model Publication No. 2008-0006427).

As shown in FIG. 1, the cold and hot water supply device with an ice-making function according to prior art document 1 includes a water purification filter 102, a water purification tank 104 that stores the drinking water purified in the water purification filter 102 at room temperature, and A cold water tank 110 and a hot water tank connected to the purified water tank 104 through a pipe 108 equipped with a solenoid valve 106, and a cold water tank connected to the circulation pipe 114 equipped with a circulation/water intake pump 206. It includes an immersion type ice making unit 116 connected to 110 and an ice storage 122 that stores ice generated by the immersion type ice making unit 116.

With this structure, purified drinking water is supplied at room temperature through the purified water tank 104, supplied as cold water through the cold water tank 110, supplied as hot water through the hot water tank, or supplied as hot water through the ice storage tank 122. Ice can be supplied.

Figure 2 is an exploded perspective view showing a hot water tank for a water purifier according to Prior Art Document 2 (Korea Public Utility Model Publication No. 2011-0010297).

The hot water tank for a water purifier according to prior art document 2 is composed of a tank body 120, an insulation member 140, and a heater 160, as shown in FIG. 2.

Figure 3 is a schematic diagram showing a hot water tank according to Prior Art Document 3 (Korean Patent Publication No. 2012-0033989).

The sewage tank 100 according to prior art document 3 includes a tank body having a space for accommodating water therein, as shown in FIG. 3, and a heating unit 120 provided in the tank body to heat the water contained in the tank body. It is provided to prevent overheating of the heating part 120 through overheating prevention devices 141 and 142 installed at the upper and lower parts of the tank body 111, respectively. At this time, the heating part 120 is used to prevent water contained in the tank body. It is used for heating and consists of a sheath heater that generates heat while directly contacting the water contained inside the tank body.

Figure 4 is a cross-sectional view showing a hot water tank according to Prior Art Document 4 (Korean Patent Publication No. 2012-0063882).

The hot water tank according to prior art document 3 includes a tank body 200 equipped with an inlet pipe 410 and an outlet pipe 420, and is provided inside or outside the tank body 200 and flows into the tank through the inlet pipe 410. It includes a heater 300 that heats water (W) flowing into and stored in the main body 200.

As can be seen in prior art documents 1 to 4, the water purifier has a cold water tank and a hot water tank, and among the water purifiers commercialized and released on the market, the heating element used in the hot water tank is a sheath heater as specifically mentioned in Figure 3. It is being applied.

Figure 5a is a Naver search image, and Figures 5b and 5c are photos taken by disassembling a hot water tank, which is a component of a commercially available water purifier.

As shown in the Naver search image in Figure 5a, the sheath heater is an electric heater manufactured by winding and inserting a nichrome wire into a metal pipe, simultaneously filling and compressing it with magnesium oxide, and then welding lead bolts at both ends. When supplying electrical energy, the nichrome It has a structure in which the wire generates heat and obtains thermal energy.

Such sheath heaters are easy to install, resistant to external shock, and easy to use mechanically, so they are used in dryers, heaters, heaters, and boilers. When used in the hot water tank of a water purifier, they are immersed in hot water that must be consumed hygienically by people, and are 5b And as shown in Figure 5c, as the period of use increases, the magnesium oxide filled in the metal pipe rather dissolves in the hot water and is deposited in the hot water tank itself, causing corrosion and making it invisible and imperceptible to the human body consuming hot water. As it continues to accumulate, it has not become an issue and is piling up unknown, fatal problems of the future.

Republic of Korea Public Utility Model Publication No. 2008-0006427 Republic of Korea Public Utility Model Publication No. 2011-0010297 Republic of Korea Patent Publication No. 2012-0033989 Republic of Korea Patent Publication No. 2012-0063882

The purpose of the present invention is to provide a hot water tank for a water purifier that does not cause any fatal injuries caused by a sheath heater by converting electrical energy into heat energy and discharging the water while converting it into hot water using a carbon fiber heating bundle that is not harmful to the human body.

The purpose of the present invention is that, unlike the magnesium oxide filled in the metal pipe, which is a weak point of the sheath heater, rather dissolves in hot water and deposits on the hot water tank itself, causing corrosion, the heat-resistant glass pipe, which is a component of the carbon fiber heating bundle, is placed in the tank to provide water supply and By thoroughly isolating the carbon fiber yarn from hot water, substances harmful to the human body do not infiltrate into the hot water, so not only does it not cause any fatal problems to the human body as in prior art literature (the heat-resistant glass pipe prevents the infiltration of hot water). If possible, a power cut will occur due to a short circuit, allowing the penetration to be accurately determined.) When supplying electric energy, the thermal energy reaction speed of carbon fiber yarn is much faster than that of a sheath heater, and power waste can be relatively reduced (boiling of feed water). Considering that the power is turned on and off frequently during use when the temperature is 100℃, the gap in power waste becomes much larger as the period of use increases.) The aim is to provide a hot water tank for a water purifier.

The present invention to achieve the above object,

In the hot water tank for a water purifier including a tank having an inlet for receiving water and an outlet for discharging hot water,

It includes a carbon fiber heating bundle disposed in the tank to heat the water and convert it into hot water,

The carbon fiber heating bundle is fixed to the tank through a fastening hole and is embedded in a heat-resistant glass tube disposed in the tank, and the heat-resistant glass tube converts electrical energy supplied through the first power cable and the second power cable into heat energy. The basic feature of its technical composition is that it contains carbon fiber yarn that heats the water and converts it into hot water.

In the present invention, unlike the magnesium oxide filled in the metal pipe, which is a weak point of the sheath heater, which rather dissolves in hot water and deposits on the hot water tank itself, causing corrosion, the heat-resistant glass pipe, which is a component of the carbon fiber heating bundle, is placed in the tank and protects against water and hot water. By thoroughly isolating the carbon fiber yarn, it does not cause substances harmful to the human body to penetrate into the hot water, so not only does it not cause any fatal problems to the human body as in prior art literature (the heat-resistant glass pipe allows hot water to penetrate), but it does not cause any harmful problems to the human body. When supplying electric energy, the thermal energy reaction speed of carbon fiber yarn is much faster than that of a sheath heater, so power waste can be relatively reduced (the boiling point of feed water is 100%). Considering that the power is turned on and off frequently during use when the temperature is ℃, the gap in power waste becomes much larger as the period of use increases.

1 is a configuration diagram showing a cold and hot water supply device with an ice-making function according to prior art document 1.
Figure 2 is an exploded perspective view showing a hot water tank for a water purifier according to prior art document 2.
Figure 3 is a schematic diagram showing a hot water tank according to prior art document 3.
Figure 4 is a cross-sectional view showing a hot water tank according to prior art document 4.
Figure 5a is a Naver search image.
Figures 5b and 5c are photos taken by disassembling the hot water tank, which is a component of a water purifier sold on the market.
Figures 6a to 6j are photographs of a hot water tank for a water purifier according to the present invention.
Figure 7 is a graph showing the exothermic reaction caused by the sheath heater and the carbon fiber yarn built into the heat-resistant glass tube to explain the hot water tank for the water purifier according to the present invention.
Figure 8a and Figure 8b are photographs and images showing the diversity of structures of heat-resistant glass tubes and carbon fiber yarns applied to the hot water tank for a water purifier according to the present invention.

Preferred embodiments of the hot water tank for a water purifier according to the present invention will be described with reference to the drawings. There may be a plurality of embodiments, and through these embodiments, the purpose, features and advantages of the present invention can be better understood. It becomes possible.

Figures 6a to 6j are photographs taken of the hot water tank for a water purifier according to the present invention, and Figure 7 is a sheath heater for explaining the hot water tank for a water purifier according to the present invention and the exothermic reaction caused by the carbon fiber yarn built into the heat-resistant glass tube. This is a graph representing .

The hot water tank for a water purifier according to the present invention includes a tank having an inlet for receiving water and an outlet for discharging hot water, as shown in FIGS. 6A to 6J, and carbon disposed in the tank to heat the water and convert it into hot water. It includes a fiber heating bundle, which includes a heat-resistant glass tube that is fixed to the tank through a fastening hole and placed into the tank, and electrical energy that is built into the heat-resistant glass tube and supplied through the first power cable and the second power cable. The core component includes carbon fiber yarn that converts heat energy into heat energy, heating feed water and converting it into hot water.

Unlike the magnesium oxide filled in the metal pipe, which is a weak point of the sheath heater, which dissolves in hot water and deposits on the hot water tank itself, causing corrosion, the carbon fiber heating bundle thoroughly removes carbon fiber yarn from water and hot water by placing a heat-resistant glass pipe in the tank. It is isolated so that it does not cause any harmful substances to the human body to penetrate into the hot water, so it does not cause any fatal problems to the human body as in prior art literature (if the heat-resistant glass pipe allows hot water to infiltrate, it does not cause the power supply due to a short circuit). Blockage occurs and penetration can be accurately determined) As shown in Figure 7, when electric energy is supplied, the thermal energy reaction speed of carbon fiber yarn is much faster than that of a sheath heater, which is desirable because power waste can be relatively reduced ( Considering that the boiling point of water is 100℃ and the power is turned on and off frequently during use, the gap in power waste becomes much larger as the period of use increases.)

At this time, the binding port has a through hole that communicates with the tank and receives a heat-resistant glass tube embedded with carbon fiber yarn, and has an inner lower donut tuck and an inner upper slip hole on the inside of the through hole, a communication bolt with an external thread, and a heat-resistant glass tube. An O-ring that wraps around and is seated on the inner lower donut jaw, a cylindrical slider that is slidably inserted into the inner upper slip hole so that the O-ring is tightly adhered to the inner lower donut jaw and sealed while receiving the heat-resistant glass tube, and the first power cable and the second power supply. It may have an upper donut jaw that presses the top of the tubular slider while passing the cable, and may include a tightening nut having an inner thread groove that engages the outer thread.

Figures 8a and 8b are photographs and images showing the diversity of structures of heat-resistant glass tubes and carbon fiber yarns applied to the hot water tank for a water purifier according to the present invention.

As shown in Figure 8a, the carbon fiber yarn has a U-turn structure and can be connected to the first power cable and the second power cable in one direction of the heat-resistant glass tube, respectively, to receive electric energy.

Furthermore, the carbon fiber yarn has a linear structure as shown in Figure 8b and is connected to the first power cable at one end of the heat-resistant glass tube and at the same time is connected to the second power cable at the other end of the heat-resistant glass tube to receive electrical energy, and at this time, the communication bolt It has a first through hole that communicates with the tank and receives one end of a heat-resistant glass tube embedded with carbon fiber yarn, and has a first inner lower donut tuck and a first inner upper slip hole on the inside of the first through hole and a first outer side. It has a first communication bolt with threads and a second through hole that communicates with the tank and receives the other end of the heat-resistant glass tube with carbon fiber thread embedded therein, and at the same time, a second inner lower donut tuck and a second inner inner side of the second through hole. It consists of a second communication bolt having an upper slip hole and a second outer thread, and the O-ring is a second communication bolt that surrounds one end and the other end of the heat-resistant glass tube, respectively, and is seated on the first inner lower donut jaw and the second inner lower donut jaw. It is made up of a first O-ring and a second O-ring, and the cylindrical slider receives one end and the other end of the heat-resistant glass tube, respectively, and seals the first O-ring and the second O-ring by tightly contacting them with the first inner lower donut tuck and the second inner lower donut tuck, respectively. It consists of a first cylindrical slider and a second cylindrical slider that are slidably inserted into the first inner upper slip hole and the second inner upper slip hole, and the tightening nut is connected to the first cylindrical slider while passing the first power cable and the second power cable, respectively. It has a first upper donut jaw and a second upper donut jaw that press the top of the slider and the second cylindrical slider, respectively, and a first inner screw groove and a second inner screw respectively engaged with the first outer screw thread and the second outer screw thread. It may be composed of a first set nut and a second set nut each having a groove.

On the other hand, the tank has a heating space that receives water and converts it into hot water, and has a body with a support rim, a cover with a carbon fiber heating bundle and a mounting rim that matches the rim, and the support rim and the mounting rim are combined. It may include a fixing means to hold the tank, and the tank can be wrapped with insulating material to enable warmth and insulation.

The fixing means may be a clamp that holds the support frame and the mounting frame in one piece as shown in FIGS. 6A to 6J, as well as bolts and nuts not shown.

On the other hand, the bearing frame has a bearing ring groove, the mounting frame has a bearing ring groove opposing the bearing ring groove, and packing can be inserted between the bearing ring groove and the bearing ring groove.

Specifically, the packing may include a cushion ring inserted between the support ring groove and the mounting ring groove, and cushion wings that extend from the cushion ring in both directions and are interposed between the support edge and the mounting edge.

The present invention can be used in water purifier-related industrial fields.

Tank
Entrance
exit
1st power cable
2nd power cable
Carbon fiber heating bundle
tie-up
flue bolt
1st communication bolt
2nd communication bolt
Through hole
1st through hole
2nd through hole
Medial lower donut chin
1st medial lower donut chin
2nd medial lower donut jaw
Inner upper slip hole
1st inner upper slip hole
2nd inner upper slip hole
External thread
1st external thread
2nd external thread
o-ring
1st o-ring
2nd o-ring
Barrel slider
1st barrel slider
1st barrel slider
Tightening nut
Article 1 Imnuts
Article 2 Imnuts
Upper donut jaw
1st upper donut jaw
2nd upper donut jaw
Inner screw groove
1st inner screw groove
2nd inner screw groove
heat resistant glass tube
carbon fiber yarn
Tank
Tongche
support border
Support ring groove
Heating space
cover
Top border
Mounting ring groove
means of fixation
clamp
packing
cushion ring
cushion wings
insulator

Claims (8)

In the hot water tank for a water purifier including a tank having an inlet for receiving water and an outlet for discharging hot water,
It includes a carbon fiber heating bundle disposed in the tank to heat the water and convert it into hot water,
The carbon fiber heating bundle is fixed to the tank through a fastening hole and is embedded in a heat-resistant glass tube disposed in the tank, and the heat-resistant glass tube converts electrical energy supplied through the first power cable and the second power cable into heat energy. A hot water tank for a water purifier, characterized in that it contains carbon fiber yarn that heats the water and converts it into hot water. According to paragraph 1,
The binding device is
A communication bolt that communicates with the tank and has a through hole for receiving the heat-resistant glass tube in which the carbon fiber yarn is embedded, and has an inner lower donut tuck and an inner upper slip hole inside the through hole and has an outer thread,
an O-ring surrounding the heat-resistant glass tube and seated on the inner lower donut jaw;
A cylindrical slider that is slidably inserted into the inner upper slip hole to receive the heat-resistant glass tube and seal the O-ring with the inner lower donut jaw;
A water purifier comprising a tightening nut having an upper donut jaw that presses the top of the cylindrical slider while passing the first and second power cables, and having an inner thread groove engaged with the outer thread. Hot water tank. According to paragraph 2,
A hot water tank for a water purifier, wherein the carbon fiber yarn has a U-turn structure and is connected to the first power cable and the second power cable in one direction of the heat-resistant glass tube, respectively, to receive electric energy. According to paragraph 2,
The carbon fiber yarn has a linear structure and is connected to the first power cable at one end of the heat-resistant glass tube, and is simultaneously connected to the second power cable at the other end of the heat-resistant glass tube to receive electrical energy,
The communication bolt has a first through hole that communicates with the tank and receives one end of the heat-resistant glass tube in which the carbon fiber yarn is embedded, and at the same time, a first inner lower donut tuck and a first inner upper slip are installed inside the first through hole. It has a first communication bolt having a hole and a first external thread, and a second through hole that communicates with the tank and receives the other end of the heat-resistant glass tube in which the carbon fiber yarn is embedded, and is located inside the second through hole. It consists of a second communication bolt having a second inner lower donut jaw and a second inner upper slip hole and a second outer thread,
The O-ring consists of a first O-ring and a second O-ring that surround one end and the other end of the heat-resistant glass tube, respectively, and are seated on the first inner lower donut jaw and the second inner lower donut jaw,
The cylindrical slider receives one end and the other end of the heat-resistant glass tube, respectively, and the first inner upper slip slips so as to seal the first O-ring and the second O-ring with the first inner lower donut jaw and the second inner lower donut jaw, respectively. It consists of a first cylindrical slider and a second cylindrical slider that are slidably inserted into the hole and the second inner upper slip hole,
The tightening nut has a first upper donut jaw and a second upper donut jaw that presses the upper ends of the first and second cylindrical sliders while passing the first and second power cables, respectively. A hot water tank for a water purifier, characterized in that it consists of a first tightening nut and a second tightening nut each having a first inner screw groove and a second inner screw groove respectively engaged with the first outer screw thread and the second outer screw thread. According to any one of claims 1 to 4,
The tank is
A body with a support rim and a heating space that accepts water and converts it into hot water,
A cover having the carbon fiber heating bundle and having a mounting border that matches the support border;
A hot water tank for a water purifier, characterized in that it includes a fixing means for holding the supporting frame and the mounting frame together. According to clause 5,
A hot water tank for a water purifier, wherein the fixing means is a clamp that holds the supporting frame and the mounting frame in one piece. According to clause 6,
The support frame has a support ring groove,
The mounting frame has a mounting ring groove opposing the support ring groove,
A hot water tank for a water purifier, characterized in that packing is inserted between the supporting ring groove and the mounting ring groove. In clause 7,
The packing is a hot water tank for a water purifier, characterized in that it includes a cushion ring inserted between the support ring groove and the resting ring groove, and cushion wings spread in both directions from the cushion ring and interposed between the support rim and the resting rim.