RU2564739C2 - Secondary storage of hot water for water-heater - Google Patents

Abstract

FIELD: energy engineering.

SUBSTANCE: invention relates to heat power industry and can be used in water heaters, which can provide hot water supply in sufficient volume with simultaneous balancing fluctuations of temperature of hot water. The secondary storage of hot water for water-heater is proposed, comprising: a hollow outer tank, a buffer storage mounted around the central axis of the inner volume of the outer tank for temporary storage and supply of hot water, a coil for heating water, placed between the outer tank and the buffer storage, having an inlet pipe at one end, brought from outside through the housing of the outer tank, and having at the opposite end an outlet pipe communicating with the buffer storage, a first water supply channel connected to the coil for heating water through the inlet pipe, a first discharge channel of the buffer storage, the second water supply channel, in which the coolant is supplied through the inlet pipe on one side of the outer tank for heating water in the coil, coming through the first water supply channel and coming out through the first discharge channel and the second discharge channel having an output through the pipe at the opposite side of the outer tank for draining the coolant entering through the second water supply channel.

EFFECT: improvement of the design.

4 cl, 2 dwg

Description

Technical field

The claimed invention relates to an auxiliary storage of hot water for a water heater. In particular, the invention relates to an auxiliary hot water storage tank for a water heater, providing an uninterrupted supply of the required amount of hot water with compensation for fluctuations in the temperature of hot water due to the use of the design of a buffer storage tank and a hot water coil in an external tank.

Prior art

The auxiliary hot water tank for the water heater creates a temporary supply and supplies hot water. Auxiliary hot water storage for a water heater has a wide utility purpose in the household and in production.

A variety of types of hot water tanks are known in the art, including those disclosed in Republic of Korea Patent No. 10-1023505 “Hot Water Tank” and pending Application No. 2011-0130890, “Hot Water Storage Tank for Water Heater”.

However, the aforementioned publications from the given field of technology in most cases disclose devices where the design of a hot water tank includes only a coil for heating water or only a storage tank for hot water without a water heating coil.

In these cases, the use of only a water heating coil accelerates the heating of water, but does not ensure the uninterrupted supply of a significant amount of hot water and does not equalize significant fluctuations in the temperature of hot water.

At the same time, using only a reservoir, although it provides a large volume of hot water and smoothes out temperature fluctuations, it increases the time of heating the water and preserves tangible temperature fluctuations of hot water in comparison with the technology of additional inclusion of a water heating coil into the circuit.

Disclosure of invention

Technical challenge

Based on the aforementioned drawbacks of the prior art, this invention aims at developing an auxiliary hot water storage device for a water heater that could provide a sufficient volume of hot water supply while equalizing the fluctuations in the temperature of the hot water.

Technical solution

To solve the problems, the invention proposes an auxiliary hot water storage device as an additional water heater circuit. The design of the hot water storage unit includes: a hollow external tank, a buffer storage tank for accumulating a temporary supply and consumption of hot water, mounted around a central axis in the cavity of the external storage tank, a hot-water coil surrounding a buffer storage tank made in the form of a spiral and placed in the cavity of the external storage tank, equipped with from one end of the inlet pipe, placed from an external source through the housing of the external tank, and connected at the opposite end through the outlet pipe with a buffer on by a support, the first water supply channel coming from the inlet pipe of the hot-water coil, the first exhaust channel communicating with the buffer store, the second water channel supplying coolant from the inlet pipe on one side of the external reservoir to heat the water coming through the first water supply channel and going out through the first outlet channel, and the second outlet channel for the removal of coolant received through the second water supply channel through a pipe on the opposite side of the external tank.

A preferred embodiment provides that tap water or heated water enters through the first water supply channel, which, after being heated by the heat carrier, goes to the distribution through the first exhaust channel.

In a preferred embodiment, the heat transfer medium is water heated by a water heater, which in hot condition enters the second water supply channel, and recycled water through the second outlet channel returns to the water heater.

A preferred design solution provides that the upper and lower bases of the buffer tank, or the left and right ends of the buffer tank, protrude outside the body of the external tank, and that the pipe of the first outlet channel is installed in the protruding part of the buffer tank.

Design advantages

As described above, according to the constructive solution of the invention, the water is heated by passing it through a hot water coil and a buffer tank placed inside an external tank. In this case, heat transfer by the heat carrier occurs during its circulation between the external reservoir and the buffer storage. This makes it possible to consume a significant amount of hot water and compensate for its temperature fluctuations.

Description of figures

In FIG. 1 (FIG. 1) is a perspective view of an auxiliary hot water storage tank for a water heater in accordance with the present invention;

in FIG. 2 (FIG. 2) is a cross-sectional view of an auxiliary hot water storage tank for a water heater in accordance with the present invention.

Best way to exercise

Embodiments of the invention

Next, with reference to the accompanying figures will be discussed in detail options for the design of the auxiliary hot water storage for a water heater in accordance with the present invention.

As shown in figures 1 and 2, the design of an auxiliary hot water storage tank for a water heater in accordance with the invention includes: an external reservoir 110, a buffer storage 120, a coil for heating water 130, a first water supply channel 141, a first exhaust channel 142, a second water supply channel 151 and a second exhaust channel 152.

The external tank 110 is a sealed tank. In figures 1 and 2 as an example shows a vertically oriented tank of oval type, for which a horizontal arrangement is also provided.

In the cavity of the outer tank 110 around its central longitudinal axis, a buffer tank 120 is installed for temporary storage and consumption of hot water. The vertical or horizontal orientation of the buffer storage 120 corresponds to the location of the external reservoir 110.

In particular, as shown in the figures, when the buffer accumulator 120 is vertically oriented, the upper and lower bases of the reservoir may protrude outside the outer reservoir 110, and the nozzle of the first outlet channel 142 will have a very convenient location.

If the buffer tank 120 will be completely placed in the external tank 110, the pipe of the first outlet channel 142 will need to be removed through the external tank 110. This will complicate the manufacturing technology of the hot water tank.

In the case of horizontal structural design of the external reservoir 110 (not shown in the figures), the buffer storage 120 will also have a horizontal layout in which its left and right end planes are acceptable beyond the outer reservoir 110.

The spiral-shaped hot-water coil 130 increases the heat exchange surface area, which ensures quick distribution of the required amount of hot water. The water coil 130 is located in the hollow space between the external reservoir 110 and the buffer storage 120.

A coil for heating water 130 surrounds the buffer storage 120 from the outside. The hot-water coil 130 is a pipe made of corrosion-resistant material surrounding the buffer storage 120 along the body by turns of a spiral.

At one end, a coil for heating water 130 through a water supply channel [141] is connected through an external reservoir 110 to an external source, and at the opposite end, a coil 130 communicates with a buffer accumulator 120 through an outlet pipe. For example, in FIG. 2, the opposite outlet pipe of the hot water coil 130 is connected to the buffer storage 120 at the bottom.

Thus, the water supplied through the water supply channel [141] passes through the water-heating coil 130, enters the buffer storage 120 to create a temporary supply, and then is discharged through the first outlet channel 142. In this case, as will be described later, if the water is heated produced by a heat exchange scheme, the flow of hot water through the first exhaust channel 142.

The first water supply channel 141 is connected to the inlet pipe of the hot-water coil 130. For example, the first water supply channel 141 is connected to the inlet pipe of the hot-water coil 130 located in the upper part of the external reservoir 110.

As a rule, the first water supply channel 141 receives water from the water supply network.

Recently, however, they have begun to use tap water heating by utilizing the heat spent during operation of the water heater (or heat pump) in order to save energy, as a result of which the feed water is now mixed with heated water.

The first exhaust channel 142 communicates with the buffer storage 120. For example, the upper part of the buffer storage 120 partially extends beyond the outer reservoir 110, while the outlet pipe of the first exhaust channel 142 is mounted in the upper part of the buffer storage 120. As a result, the process is simplified as described above manufacturing a hot water tank.

The external reservoir 110 is on one side connected by a nozzle to the second water supply channel 151, on the opposite side, the external reservoir 110 is connected through the outlet pipe to the second outlet channel 152. Thus, the coolant flows through the second water supply channel 151, washes the space between the external reservoir 110 and the buffer drive 120 and is discharged through the second exhaust channel 152.

As follows from the described invention, tap or heated water passes sequentially through the first water supply channel 141, the hot water coil 130, the buffer storage 120 and the first exhaust channel 142. The coolant enters the second water supply channel 151 and is discharged through the second outlet channel 152.

Therefore, since heat exchange occurs between the heat transfer medium and tap (or heated) water, hot water may be supplied for heating. Therefore, the hot water storage according to the version of the invention can serve as a kind of indirect heat exchanger.

Nevertheless, the coolant in this case is water heated by a water heater. High temperature water heated in the water heater enters through the second water supply channel 151. Hot water is obtained by heating tap water or heated water.

The discharge of low-temperature circulation (circulating) water after heat is released is carried out through the second outlet channel 152 for returning to the water heater (recirculation of heat-carrying return water). For use for these purposes, a hot water storage tank according to the present invention has been developed as an auxiliary circuit of a water heater.

According to the present invention, heated water is not supplied to the hot water tank when heated. On the contrary, hot water is supplied to the hot water tank only to the extent necessary for consumption, or which satisfies the level of energy consumption. However, if a control measurement of the temperature of the hot water tank indicates excessive cooling of the hot water, hot water may be temporarily supplied to the hot water tank even during heating.

As discussed above, since in accordance with the present invention, tap or heated water is directly heated by a heat transfer medium, the temperature of the water filling the hot water storage tank is maintained at the required level. By virtue of this, a sufficient amount of hot water can be provided with minimal fluctuations in its temperature.

Industrial applicability

Despite the fact that the described technical solutions are only examples of the implementation of the present invention, it should be understood that the claimed invention is not limited to these illustrative embodiments, but allows the possibility of making various changes and developing modifications by specialists in the affected area without changing the technical nature of this invention.

Accordingly, the described design options are presented here with the aim of clearly disclosing the invention in full for qualified professionals. The claimed invention is determined by the scope of the technical nature and scope of patent claims formulated further in the patent claims.

Claims (4)

1. Auxiliary hot water storage for a water heater, including:
hollow outer tank (110);
a buffer tank (120) mounted around the central axis of the internal volume of the external tank (110) for temporary storage and supply of hot water;
a coil for heating water (130), placed between the external reservoir (110) and the buffer storage (120), having an inlet pipe at one end, connected externally through the body of the outer tank (110), and having an outlet pipe communicating with the buffer at the opposite end drive (120);
a first water supply channel (141) connected to a coil for heating water (130) through an inlet pipe;
the first outlet channel (142) of the buffer storage (120);
a second water supply channel (151), into which a coolant is supplied through the inlet pipe on one side of the external reservoir (110) to heat the water in the coil, which enters the first water supply channel (141) and exits the first outlet channel (142); and
the second outlet channel (152), having an outlet through a pipe on the opposite side of the external reservoir (110), for the removal of coolant received through the second water supply channel (151). 2. A hot water storage device according to claim 1, characterized in that the supply tap or heated water enters through the first water supply channel (141), and the hot water heated by the heat of the coolant is discharged through the first outlet channel (142). 3. The hot water storage device according to claim 2, characterized in that water heated by the water heater and supplied through the second water supply channel (151) is used as a heat carrier, and the return water that provided heat is diverted through the second outlet channel (152) to return to the water heater. 4. Hot water store according to any one of paragraphs. 1-3, characterized in that the upper and lower bases of the buffer tank (120), or the left and right ends of the buffer tank (120), protrude outside the housing of the external tank (110), and the pipe of the first outlet channel (142) is mounted on the protruding parts of the buffer storage (120).

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