CN210088971U - Improved heater capable of rapidly heating inner container and applying inner container - Google Patents

Abstract

The utility model discloses an improvement type rapid heating inner bag, include: the inner container body is provided with a first containing cavity and a second containing cavity; the liner is provided with a first injection port communicated with the first cavity, a second injection port communicated with the second cavity and a water outlet communicated with the second cavity, the water outlet is communicated with the second cavity, and heat conduction oil is injected into the first cavity through the first injection port; the first containing cavity is internally provided with at least one heating rod along the axis direction, and a water pipeline is further arranged along the axis direction. The utility model discloses a stick that generates heat adopts the straight tube structure, is provided with the water pipeling of many straight tubes around the stick that generates heat, increases and water contact area than the coil pipe, and rivers increase makes the heat of conduction oil reach the water sooner, and the straight line sets up and increases rivers cross sectional area, and under the equal discharge, the rivers velocity of flow is slower to absorb the heat of conduction oil sooner, thereby reach the rapid heating, and ensure that the whole aquatic of releasing to the use of the heat energy of the conduction oil that has heated, the efficiency is optimal.

Description

Improved heater capable of rapidly heating inner container and applying inner container

Technical Field

The utility model relates to a heating technology field, more specifically the heater that relates to an improvement type rapid heating inner bag and applied this inner bag that says so.

Background

The heating equipment is a household appliance used for heating in winter, and in the north, because the room in cold weather generally needs to adopt a heater, the heating effect is poor by heating modes such as burning coal and the like, and the environment is polluted, and the heating equipment is gradually eliminated and replaces a novel electric heater.

The electric heater heats water through the electricity generation and dispels the heat and then reach the effect of indoor heating through rivers indoor pipeline, and generally speaking, the electric heater among the prior art all heats water through the electric bar generates heat, and the electric bar direct design is in the water tank of electric heater, directly heats water, and its heating effect is slow to power consumptive height.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an improvement type rapid heating inner bag and applied this inner bag's improvement type rapid heating ware.

In order to achieve the above purpose, the utility model adopts the following technical scheme: improvement type rapid heating inner bag includes: the inner container comprises an inner container body, wherein the inner container body is arranged in a double-layer manner and is provided with a first containing cavity and a second containing cavity, the second containing cavity is coated outside the first containing cavity, and the first containing cavity is not communicated with the second containing cavity; the liner is provided with a first injection port communicated with the first cavity, a second injection port communicated with the second cavity and a water outlet communicated with the second cavity, the water outlet is communicated with the second cavity, and heat conduction oil is injected into the first cavity through the first injection port; at least one heating rod is arranged in the first containing cavity along the axis direction, and similarly, a water pipeline is also arranged along the axis direction, is parallel to the heating rod and is linearly arranged and distributed around the heating rod; the heating rod directly heats the heat-conducting oil, and water is conducted and heated through the heat-conducting oil, so that water and electricity separation is realized.

In the preferred technical scheme, a plurality of water pipelines are arranged in the first accommodating cavity, the water pipelines are arranged around the heating range of the heating rod, and the water pipelines are linearly arranged in parallel to the heating rod; the two ends of the water pipeline are communicated with the second containing cavity.

In a preferred technical scheme, the diameters of the plurality of water pipelines are the same or different.

In the preferred technical scheme, the heating rod is any one or more of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nanometer heating tube and a light wave heating rod.

In the preferred technical scheme, the two heating rods are arranged, wherein one heating rod is a high-power heating rod, and the other heating rod is a low-power heating rod.

In the preferred technical scheme, the heating rod is arranged at the bottom of the first cavity in the radial direction, and the water pipelines are distributed above the heating rod in a balanced manner; the second injection port is arranged below the heating rod, and the water outlet is arranged above the heating rod.

In the preferred technical scheme, the water pipelines are distributed around the heating rod, and in the radial direction in the first containing cavity, the number of the water pipelines above the heating rod is more than that below the heating rod; the second injection port is arranged below the heating rod, and the water outlet is arranged above the heating rod.

An improved rapid heater using the inner container comprises: the water inlet pipe and the water outlet pipe are connected with the inner container; the inner container body is arranged in a double-layer mode and is provided with a first containing cavity and a second containing cavity, the second containing cavity is coated outside the first containing cavity, and the first containing cavity is not communicated with the second containing cavity; the liner is provided with a first injection port communicated with the first cavity, a second injection port communicated with the second cavity and a water outlet communicated with the second cavity, the water outlet is communicated with the second cavity, and heat conduction oil is injected into the first cavity through the first injection port; at least one heating rod is arranged in the first containing cavity along the axis direction, and similarly, a water pipeline is also arranged along the axis direction, is parallel to the heating rod and is linearly arranged and distributed around the heating rod; the heating rod directly heats the heat conducting oil, and the water is heated by the heat conducting oil.

In the preferred technical scheme, a pressure control valve is arranged on the water inlet pipe; the heating rod is controlled by an electric appliance controller.

In the preferred technical scheme, 1 or more inner containers are arranged in the heater, and the inner containers are connected in series or in parallel through the water inlet pipe and the water outlet pipe.

Known through foretell technical scheme, compare with prior art, the utility model discloses following beneficial effect has:

1. the utility model can only set one heating tube in the inner container according to the actual demand, the heating inner container is arranged in double layers, heat conducting oil is injected into the first containing cavity, water is injected into the second containing cavity, the heat conducting oil is heated and heated rapidly through the electric heating rod, the temperature is transmitted into the water in the second containing cavity through the heat conducting oil, the water in the heating inner container is wrapped with the heat conducting oil, and the purpose of rapid heating of the water can be achieved; the heating effect is good and the power consumption is low.

2. The utility model can also be provided with two heating tubes in the inner container, the power of the two heating tubes is different, the heat conducting oil is heated and heated rapidly by a high-power electric heating rod, the temperature is transmitted to the water in the second containing cavity by the heat conducting oil, the water in the heating inner container wraps the heat conducting oil, and the water can reach the purpose of rapid heating; the electric bar with lower power continuously heats when being lower than the set temperature, the water in the outer liner can be continuously heated by using the water as the heat preservation layer, and the hot water is quickly transmitted to the radiating fins when the water pump runs, so that the heating effect is good, and the power consumption is low.

3. The electric heater made of the rapid heating inner container has the advantages of rapid heating speed and good energy-saving effect; in addition, the stick that generates heat adopts the straight tube structure, is provided with the water pipeling of many straight tubes along the stick that generates heat, increases and water contact area than the coil pipe, makes the heat of conduction oil pass to the water sooner, and the straight line sets up and increases rivers cross sectional area, and under the equal discharge, the rivers velocity of flow is slower to absorb the heat of conduction oil sooner, thereby reach rapid heating.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a third embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of a third embodiment of the present invention;

fig. 7 is a schematic structural diagram of a fourth embodiment of the present invention;

fig. 8 is a schematic cross-sectional view of a fourth embodiment of the present invention;

fig. 9 to 11 are schematic structural views of a fifth embodiment of the present invention;

fig. 12 to 13 are schematic structural views of a sixth embodiment of the present invention;

FIG. 14 is a schematic view of a seventh inner container applied to a heater according to an embodiment of the present invention;

fig. 15 is a schematic structural view of two liners connected in series.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-2, an improved rapid heating liner includes: the inner container comprises an inner container body 1, wherein the inner container body 1 is arranged in a double-layer mode and is provided with a first containing cavity 101 and a second containing cavity 102, the second containing cavity 102 is coated outside the first containing cavity 101, the first containing cavity 101 is not communicated with the second containing cavity 102, the first containing cavity 101 is used for storing heat conduction oil, and the second containing cavity 102 is used for storing water.

Two heating rods 3A are arranged in the first accommodating cavity 101, the heating part of each heating rod 3A is in a U-shaped direct arrangement and extends from one end of the first accommodating cavity 101 to the other end of the first accommodating cavity, the first heating rod 3A is perpendicular to the heating part of the other heating rod 3A, and the heating rods penetrate through the middle position of the U-shaped part.

A plurality of water pipelines 10 are arranged in the first cavity 101, and two ends of each water pipeline 10 are respectively communicated with the second cavity 102, so that water circulation is facilitated; the water pipes 10 are also linearly arranged and extend from one end of the first cavity 101 to the other end, and the water pipes 10 are uniformly distributed around the heating rod 3A.

The inner container body 1 is provided with a first filling opening 11 communicated with the first containing cavity 101; be provided with second filling opening 12 and the delivery port 13 that the intercommunication second holds chamber 102 on the inner bag body 1, during the use, pour into the conduction oil through first filling opening 11, the stick that generates heat 3A heats the conduction oil, and through the 12 injected water of second filling opening, water flows in second holds chamber 102 and water pipeling 10, absorbs the conduction oil heat among the flow process to the water after the heating flows from delivery port 13. The straight pipe of the water pipeline 10 is arranged to increase the contact area with water compared with the coil pipe, so that the heat of the heat conducting oil is transferred to the water more quickly; the water pipelines 10 increase the area of the cross section of water flow, and the flow speed of the water flow is slower under the same water flow, so that the heat of the heat-conducting oil is absorbed more quickly, and the purpose of quick heating is achieved.

The utility model relates to an energy storage type water heater and a heating fireplace (floor machine), the heating rods rapidly heat conduction oil (about 4 times of heat conduction coefficient water) to set temperature, and then heat water for a long time by using the heat energy of the conduction oil (the conduction oil can reach 300 degrees or more, and the used hot water is generally 55 degrees or less), and the two heating rods are 3A, one of the two heating rods has 2-10 KW power, and the other heating rod has 250-1000W power; the heating rod 3A with 2-10 KW power can rapidly heat conduction oil, after the heating is stopped when the set temperature is reached, the heating rod with the smaller power of 250-1000W is started to heat when the water temperature falls back to the set temperature, and the heating rod with the smaller power is stopped when the water temperature falls back to the state that the heating rod with the larger power needs to be started to heat. The heating device can ensure that a large amount of hot water is supplied for many times, and a 2-10 KW heating rod with larger power is not needed to be started for heating, so that the obvious energy storage and energy saving effects are achieved, and the small-power electric wall-mounted boiler can supply large-area room heating.

The heating rod 3A in this embodiment may be any one or two of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nano heating tube, and a light wave heating rod.

Example two:

referring to fig. 3-4, a difference between the first embodiment and the second embodiment is that the heating rods 3B are arranged in different ways, the two heating rods 3A of the first embodiment are arranged in a cross shape to penetrate through each other, and the two heating rods 3B of the first embodiment are arranged in parallel in the first cavity 101, and the heating rods 3B of the first embodiment may be any one or two of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nano heating tube, and a light wave heating rod.

Example three:

referring to fig. 5-6, the difference between the present embodiment and the first embodiment is: the heating rod 3C is any one or two of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nanometer heating tube and a light wave heating rod, the two heating rods 3C are also arranged in parallel in the first accommodating cavity 101, the use principle of the two heating rods is the same as that of the first accommodating cavity, and the description is omitted.

Example four:

referring to fig. 7-8, the difference between the present embodiment and the first embodiment is: the heating rod 3D is only provided with one, is arranged at the center of the first accommodating cavity 101, is any one of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nanometer heating tube and a light wave heating rod, and is used for heating heat-conducting oil, water flows in the second accommodating cavity 102 and the water pipeline 10, absorbs heat of the heat-conducting oil, and the water flows out through the water outlet 13 after being heated.

Example five:

referring to fig. 9-10, the inner container includes: the inner container comprises an inner container body 1, wherein the inner container body 1 is arranged in a double-layer mode and is provided with a first containing cavity 101 and a second containing cavity 102, the second containing cavity 102 is coated outside the first containing cavity 101, the first containing cavity 101 is not communicated with the second containing cavity 102, the first containing cavity 101 is used for storing heat conduction oil, and the second containing cavity 102 is used for storing water.

A heating rod 3E is disposed in the first accommodating chamber 101, the heating rod 3E may be any one of an aluminum magnesium heating rod, a copper heating rod and a stainless steel heating rod, and the heating rod 3E extends from one end of the first accommodating chamber 101 to the other end.

A plurality of water pipelines 10 are arranged in the first cavity 101, and two ends of each water pipeline 10 are respectively communicated with the second cavity 102, so that water circulation is facilitated; the water conduit 10 is also linearly arranged and extends from one end of the first cavity 101 to the other end.

In this embodiment, the heating rod 3E is disposed at the bottom of the radial direction in the first accommodating cavity 101, but not in contact with the inner wall of the first accommodating cavity 101, and the water pipes 10 are uniformly distributed above the heating rod 3E, but not disposed below the water pipes 10, this design mode is that the heating rod 3E heats the heat transfer oil, the heat floats upwards, the installation is performed as shown in fig. 9, the heat is gathered above the heating rod 3E, because the water pipes 10 are disposed above the heating rod 3E and two sides, and the heating rod 3E is close to the bottom of the first accommodating cavity 101 without the water pipes 10, so that the heating rod can be rapidly heated through the heat transfer oil.

The inner container body 1 is provided with a first filling opening 11 communicated with the first containing cavity 101; the inner container body 1 is provided with a second injection port 12 and a water outlet 13 which are communicated with the second cavity 102, the second injection port 12 is positioned below the heating rod 3E, and the water outlet 13 is positioned above. When the water heater is used, heat conducting oil is injected through the first injection port 11, the heating rod 3A heats the heat conducting oil, water is injected through the second injection port 12, the water flows in the second containing cavity 102 and the water pipeline 10, the heat of the heat conducting oil is absorbed in the flowing process, and the heated water flows out from the water outlet 13. The straight pipe of the water pipeline 10 is arranged to increase the contact area with water compared with the coil pipe, so that the heat of the heat conducting oil is transferred to the water more quickly; the water pipelines 10 increase the area of the cross section of water flow, and the flow speed of the water flow is slower under the same water flow, so that the heat of the heat-conducting oil is absorbed more quickly, and the purpose of quick heating is achieved.

As shown in fig. 10, in the present embodiment, the diameters of the water pipes 10 are divided into two sizes, a large size and a small size, which are distributed in an arc-shaped radiation, the small size water pipe is closer to the heating rod 3E, and the large size water pipe 10 is distributed outside the small size water pipe.

In addition, as shown in fig. 11, the water pipes 10 may be set to have the same size and be distributed on the top and both sides of the heating rod 3E.

Example six:

referring to fig. 12 to 13, the difference between the present embodiment and the fifth embodiment is: water pipelines are also distributed between the lower part of the heating rod 3F and the inner wall of the first containing cavity 101, but the number of the water pipelines is one or two, and the second water injection port is defined below the heating rod 3F provided on the inner container in the direction shown in figure 12, and the water flow direction must be that the water flows through the water pipeline below the heating rod 3F first and then flows into the water pipeline above the heating rod 3F gradually, since the heat is concentrated on the upper part due to the physical properties of the heat transfer oil, the heating speed of the water in the water pipeline above the heating rod 3F is higher than that of the water pipeline below the heating rod, the water outlet 13 is arranged above, hot water flows out from the water outlet, cold water or warm water enters the upper water pipeline after being preheated in the lower water pipeline, and the water in the upper water pipeline is heated, so that the heating speed is higher, the efficiency is higher, and the water flow speed is controlled to a certain degree.

Furthermore, the diameter of the water pipeline below the heating rod 3F is only smaller than or equal to that of the water pipeline above.

The number of the heating rods 3F in this embodiment may be one or two, but they must be arranged in parallel and in the same horizontal plane.

Example seven:

the improved rapid heating liner is applied to equipment such as an energy storage water heater or a heating fireplace, and the liner structure of the first embodiment is taken as an example in the embodiment, and the improved rapid heating liner is applied to a heater.

Referring to fig. 9, the improved fast heater includes: the water heater comprises a shell, an inner container arranged in the shell, a water inlet pipe 31 connected with the inner container and a water outlet pipe 32.

The inner bag includes: the inner container comprises an inner container body 1, wherein the inner container body 1 is arranged in a double-layer mode and is provided with a first containing cavity 101 and a second containing cavity 102, the second containing cavity 102 is coated outside the first containing cavity 101, the first containing cavity 101 is not communicated with the second containing cavity 102, the first containing cavity 101 is used for storing heat conduction oil, and the second containing cavity 102 is used for storing water.

Two heating rods 3A are arranged in the first accommodating cavity 101, the heating part of each heating rod 3A is in a U-shaped direct arrangement and extends from one end of the first accommodating cavity 101 to the other end of the first accommodating cavity, the first heating rod 3A is perpendicular to the heating part of the other heating rod 3A, and the heating rods penetrate through the middle position of the U-shaped part.

A plurality of water pipelines 10 are arranged in the first cavity 101, and two ends of each water pipeline 10 are respectively communicated with the second cavity 102, so that water circulation is facilitated; the water pipes 10 are also linearly arranged and extend from one end of the first cavity 101 to the other end, and the water pipes 10 are uniformly distributed around the heating rod 3A.

The inner container body 1 is provided with a first filling opening 11 communicated with the first containing cavity 101; be provided with second filling opening 12 and the delivery port 13 that the intercommunication second holds chamber 102 on the inner bag body 1, during the use, pour into the conduction oil through first filling opening 11, the stick that generates heat 3A heats the conduction oil, and through the 12 injected water of second filling opening, water flows in second holds chamber 102 and water pipeling 10, absorbs the conduction oil heat among the flow process to the water after the heating flows from delivery port 13. The straight pipe of the water pipeline 10 is arranged to increase the contact area with water compared with the coil pipe, so that the heat of the heat conducting oil is transferred to the water more quickly; the water pipes 10 increase the area of the water flow cross section, so that water flows faster, heat of the heat transfer oil is absorbed faster, and rapid heating is achieved.

The second injection port 12 is connected with a water outlet pipe 32, and the water outlet pipe 32 is provided with a pressure control valve 4, a water outlet 13 and the water outlet pipe 32. The heating rod 3A is connected with an electric controller 5.

When the heating device is actually used, the heating of the heating rod can be controlled by the electric controller, water flows into the second cavity 102 from the water inlet pipe 31 through the control valve 4 and the second injection port 12, is heated by heat conduction oil, and flows out through the water outlet 13 and the water outlet pipe 32 to supply hot water.

In this embodiment, be provided with 1 inner bag in the heater, and according to actual need, can set up 2 or more inner bags in the shell, the connected mode between two inner bags is for establishing ties or parallelly connected, connect the delivery port of first inner bag in the second filling opening of second inner bag under the connected mode, water flows into first inner bag from the inlet tube, then flows into in the second inner bag, flows out through the delivery port of second inner bag at last, accomplish flowing in proper order of water, increase heating time, make the water intensification faster.

FIG. 15 is a schematic view of two liners connected in series. Under the condition that the two heating inner containers 1 are connected in series, the heating time is unchanged, but the heating effect can be improved by one time or more than one time.

The electric controller 5 is used for controlling heating of the heating rod, the electric controller 5 may be mechanical or intelligent, and is not limited specifically, and since two heating rods with different powers are provided in the embodiment, the electric controller 5 needs to be intelligent, the intelligent electric controller 5 belongs to the prior art, and the control principle is not repeated one by one again.

The inner container adopted in this embodiment is the structural inner container in the first embodiment, and the inner containers in the second to fourth embodiments are specifically used in the same manner as in this embodiment, and the connection and installation manners thereof are the same, and are not described in detail here.

In the above embodiments, the heating rod may be any one of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nano heating tube and a light wave heating rod, and is modified according to the requirement.

The utility model discloses an in the inner bag except being applied to the heater, can also be applied to hanging stove and other heating water electric structure to the connected mode of this embodiment can all be installed to foretell embodiment one to six, installs in heating equipment such as the heater that corresponds, fireplace.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Improvement type rapid heating inner bag, its characterized in that: the method comprises the following steps:

the inner container comprises an inner container body, wherein the inner container body is arranged in a double-layer manner and is provided with a first containing cavity and a second containing cavity, the second containing cavity is coated outside the first containing cavity, and the first containing cavity is not communicated with the second containing cavity;

the liner is provided with a first injection port communicated with the first cavity, a second injection port communicated with the second cavity and a water outlet communicated with the second cavity, the water outlet is communicated with the second cavity, and heat conduction oil is injected into the first cavity through the first injection port;

at least one heating rod is arranged in the first containing cavity along the axis direction, and similarly, a water pipeline is also arranged along the axis direction, is parallel to the heating rod and is linearly arranged and distributed around the heating rod; the heating rod directly heats the heat-conducting oil, and water is conducted and heated through the heat-conducting oil, so that water and electricity separation is realized.

2. The improved rapid heating liner of claim 1, wherein: a plurality of water pipelines are arranged in the first accommodating cavity, the water pipelines are arranged around the heating range of the heating rod, and the water pipelines are linearly arranged in parallel to the heating rod; the two ends of the water pipeline are communicated with the second containing cavity.

3. The improved rapid heating liner of claim 2, wherein: the diameters of the water pipelines are the same or different.

4. The improved rapid heating liner of claim 1, wherein: the heating rod is any one or more of an aluminum magnesium heating rod, a copper heating rod, a stainless steel heating rod, a quartz tube heating rod, a nanometer heating tube and a light wave heating rod.

5. The improved rapid heating liner of claim 4, wherein: the heating rods are arranged into two, wherein one heating rod is a high-power heating rod, and the other heating rod is a low-power heating rod.

6. The improved rapid heating liner of claim 1, wherein: the heating rod is arranged at the bottom of the first containing cavity in the radial direction, and the water pipeline is distributed above the heating rod in a balanced manner; the second injection port is arranged below the heating rod, and the water outlet is arranged above the heating rod.

7. The improved rapid heating liner of claim 1, wherein: the water pipelines are distributed around the heating rod, and in the radial direction in the first containing cavity, the number of the water pipelines above the heating rod is more than that below the heating rod; the second injection port is arranged below the heating rod, and the water outlet is arranged above the heating rod.

8. Improvement type rapid heater, its characterized in that: the method comprises the following steps: the water inlet pipe and the water outlet pipe are connected with the inner container; the inner container body is arranged in a double-layer mode and is provided with a first containing cavity and a second containing cavity, the second containing cavity is coated outside the first containing cavity, and the first containing cavity is not communicated with the second containing cavity;

the liner is provided with a first injection port communicated with the first cavity, a second injection port communicated with the second cavity and a water outlet communicated with the second cavity, the water outlet is communicated with the second cavity, and heat conduction oil is injected into the first cavity through the first injection port; at least one heating rod is arranged in the first containing cavity along the axis direction, and similarly, a water pipeline is also arranged along the axis direction, is parallel to the heating rod and is linearly arranged and distributed around the heating rod; the heating rod directly heats the heat conducting oil, and the water is heated by the heat conducting oil.

9. The improved flash heater of claim 8, wherein: a pressure control valve is arranged on the water inlet pipe; the heating rod is controlled by an electric appliance controller.

10. The improved flash heater of claim 9 wherein: the heater is internally provided with 1 or more inner containers, and the inner containers are connected in series or in parallel through the water inlet pipe and the water outlet pipe.

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