CN108870747B - Electric heating equipment for heating quantum energy conduction liquid by using nano electric heating tube - Google Patents

Abstract

The utility model relates to electric heating equipment for heating quantum energy conduction liquid by using a nanometer electric heating tube, which comprises an outer frame, a base, a circulating oil pump, a nanometer heating tube, a heater and a pressure regulating tank device, wherein the pressure regulating tank device is communicated with the heater through a communicating pipe, the heater comprises an inner container, an outer container and a coil pipe, a middle partition ring is welded inside the inner container, an annular coil pipe cavity is formed by the middle partition ring and a shell of the inner container, an inner cavity is formed by the middle partition ring and the top surface and the bottom surface of the inner container, a connecting pipe for communicating the annular coil pipe cavity with the inner cavity is further arranged at the upper part of the middle partition ring, the circulating oil pump and the nanometer heating tube are both fixed at the top of the heater, two ends of a pipeline of the circulating oil pump respectively extend into the bottom of the annular coil pipe cavity and the bottom of the inner cavity, the nanometer heating tube is inserted into the inner cavity of the heater, and the outer frame is fixed on the base and covers the pressure regulating tank device and the heater. The electric water heater system has the advantages of higher heat exchange speed, safety, reliability, simple structure and environmental protection.

Description

Electric heating equipment for heating quantum energy conduction liquid by using nano electric heating tube

Technical Field

The utility model belongs to the field of electric water heaters or heat carrier boilers, and particularly relates to heat energy conversion equipment of an electric heating quantum energy heat conduction liquid of a nanometer electric heating tube for heating.

Background

The existing oil medium electric water heater in the market has more problems, some complete equipment systems are complicated, professional operators are required to operate and maintain, safety protection is not in place, the leakage risk is increased due to excessive welding points, forced convection is not generated for an integrated closed system, the running state of the equipment cannot be mastered from time to time due to the lack of an intelligent monitoring system, and in addition, the most important is that the energy-saving effect of the used metal heating pipe is poor, the safety degree is low, and no product is a water heater which uses a nano heating pipe as electric heating oil. For example, the utility model patent: 200610122514.X & lt- & gt high carbon molecule heating oil energy-saving electric water heater, although being provided with a pressure relief box, the structure is complex, and an electromagnetic valve is too many and is easy to generate electric appliance faults, so that potential safety hazards appear when the equipment is in a high-pressure state, an expansion cavity is not independently arranged to enlarge the potential safety hazards, the equipment is possibly in a non-control state when the temperature is singly controlled and a sensor is invalid, and a temperature detection point is far away from a heating rod and cannot effectively reflect the highest oil temperature; or alternatively: 201420225266.1 (honeycomb water heater) is used with the tube array welding point too much and easily leaks, and whether inside shrouding is too much hardly detects inside cavity and leaks so the water in the water wall leaks and easily gasifies pressure in the oil pocket in the twinkling of an eye, and oil and water pressure in the whole water heater is exerted and is caused local too big welding seam of partial pressure to split the risk at shrouding's circumference welding department easily, does not have pressure regulating device yet. Or the utility model patent: 201721147305A high-frequency quantum organic heat carrier boiler has complex structure and low safety performance, the instant gasification pressure of heating oil and water is easy to rise when the heating oil contacts with water, the heat preservation effect by gas is not ideal, and the structure of the expansion-contraction device is unstable. Also disclosed are the following patents: 201510541103.3 electric heating conduction oil furnace system has complex structure and low integration level.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide the electric heating equipment for heating the quantum energy conduction liquid by the nano electric heating tube with simple structure, environment protection, higher efficiency and service life, safety and reliability,

in order to achieve the above object, the present utility model adopts the following technical scheme:

the utility model provides an electric heating equipment of nanometer electrothermal tube heating quantum energy conduction liquid, includes outer frame, base, circulation oil pump, nanometer heating pipe, heater and pressure regulating tank device, pressure regulating tank device and heater are all fixed on the base, and pressure regulating tank device and heater pass through communicating pipe intercommunication, the heater includes inner bag, outer courage and coil pipe, the inside welding of inner bag has the middle septum circle, the casing of middle septum circle and inner bag forms annular coil pipe chamber, and the upper portion of annular coil pipe chamber is the expansion chamber, and the top surface, the bottom surface of middle septum circle and inner bag form the inner chamber, middle septum circle upper portion still is equipped with the connecting pipe of intercommunication annular coil pipe chamber and inner chamber, the coil pipe is fixed at annular coil pipe intracavity, and coil pipe and inlet tube mouth, outlet tube mouth intercommunication, circulation oil pump and nanometer heating pipe are all fixed at the heater top, and the both ends of the pipeline of circulation oil pump extend into annular coil pipe chamber bottom and inner chamber bottom respectively, nanometer heating pipe inserts in the inner chamber of heater, outer frame is fixed on the base and with pressure regulating tank device and heater cladding.

As a preferable scheme: the inner wall tube of the nano heating tube is plated with a heating film and is divided into a heating area and a cooling area, and the electrode of the nano heating tube is made of high-temperature-resistant metal.

As a preferable scheme: the coil is provided with a plurality of fixed supporting devices uniformly distributed along the circumferential direction, each fixed supporting device comprises a supporting upright, a fixed pull rod, a bottom plate and supporting sleeves, the two supporting uprights are respectively arranged on the inner side and the outer side of the coil, the bottoms of the supporting uprights are fixed with the bottom plate, the tops of the supporting uprights are welded and fixed through connecting plates, the plurality of fixed pull rods are respectively arranged between the upper coil and the lower coil, the two ends of each fixed pull rod are respectively fixed with the two supporting uprights, and the supporting sleeves are sleeved on the corresponding fixed pull rods.

As a preferable scheme: the support column adopts C type bending plate or channel-section steel, and support column and bottom plate vertical fixation, fixed pull rod is rivet or bolt, the support sleeve pipe is cylindrical.

As a preferable scheme: the pressure regulating tank device still includes the pressure regulating tank body, business turn over trachea and ball valve, the internal heating oil that is equipped with of pressure regulating tank, business turn over trachea one end is fixed with the ball valve, and the other end of business turn over trachea is installed in the pressure regulating tank body and upwards extends to the pressure regulating tank body top, communicating pipe one end is installed in the pressure regulating tank body and is extended to the pressure regulating tank body bottom, and the heater top is installed to the communicating pipe other end.

As a preferable scheme: the side wall of the pressure regulating tank body is also provided with an oil window which is convenient to observe, and the top of the pressure regulating tank body is also provided with a second temperature sensor.

As a preferable scheme: the diameter of the communicating pipe is larger than that of the air inlet and outlet pipe, and the diameter of the communicating pipe is 2% -7% of that of the heater liner.

As a preferable scheme: the ball valve comprises a valve operating rod, a limit switch is further arranged on one side of the heater, and the heater can be normally started only when the valve operating rod touches the limit switch.

As a preferable scheme: be equipped with a plurality of partition reinforcing plates in the base, the base bottom still is equipped with a plurality of footings, the base intussuseption is filled with insulation material, is equipped with insulation material between inner bag and the outer courage, still install electrical apparatus original paper, control and display system on the outer frame.

As a preferable scheme: the top of the heater is also provided with a pressure control component which can give an alarm when the internal pressure of the heater is overlarge, and the water inlet pipe orifice and the water outlet pipe orifice are both provided with a third temperature sensor.

The utility model adopts the nanometer heating tube as the heat energy generating source, and has high heat efficiency and long-term stability. The coil pipe of the utility model has the advantages of least welding points, simple, stable and firm structure, the inner container is divided into the annular coil pipe cavity and the inner cavity, the top of the annular coil pipe cavity is reserved with gas, the contact between heat carrier oil and external air is avoided, the service life is prolonged, the top of the device is provided with the circulating oil pump, the forced disturbance is carried out on the oil, and the service lives of the oil and the heating pipe can be prolonged. The utility model also adopts the pressure regulating tank device, and can avoid the contact between the outside air and the oil in the device.

In addition, the nano electric heating tube adopts a quartz glass tube, so that the length and the size are not too long, and the tube cannot be dried and burned.

Drawings

Fig. 1 is a schematic cross-sectional structure of the present utility model.

Fig. 2 is a schematic structural diagram of a nano-heating tube according to the present utility model.

Fig. 3 is a schematic top structure of the present utility model.

Fig. 4 is a schematic structural view of the ball valve and limit switch of the present utility model.

Fig. 5 is a schematic structural view of the pressure regulating tank device of the present utility model.

Fig. 6 is a schematic diagram of a connection structure between the pressure regulating tank device and the heater according to the present utility model.

Fig. 7 is a schematic structural view of the coil and the fixed supporting device of the present utility model.

Fig. 8 is a schematic longitudinal sectional view of the coil and the fixed support device of the present utility model.

Fig. 9 is a schematic cross-sectional view of a coil and a fixed support device according to the present utility model.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

The electric heating equipment for heating quantum energy conduction liquid by using the nano electric heating tube as shown in fig. 1 to 9 comprises an outer frame 1, a base 2, a circulating oil pump 3, a nano heating tube 42, a heater 5 and a pressure regulating tank device 6, wherein the pressure regulating tank device 6 and the heater 5 are both fixed on the base 2, the pressure regulating tank device 6 comprises a communicating pipe 61, the pressure regulating tank device 6 and the heater 5 are communicated through the communicating pipe 61, the heater 5 comprises an inner container, an outer container and a coil 53, a middle spacer 54 is welded in the inner container, the middle spacer 54 and a shell of the inner container form an annular coil cavity 52, the upper part of the annular coil cavity 52 is an expansion cavity 55, the middle spacer 54 and the top surface and the bottom surface of the inner container form an inner cavity 51, a connecting pipe 56 for communicating the annular coil cavity 52 and the inner cavity 51 is further arranged on the upper part of the middle spacer 54, the coil 53 is fixed in the annular coil cavity 52, the coil 53 is communicated with a water inlet pipe 93 and a water outlet pipe 92, the circulating oil pump 3 and the nano heating tube 42 are both fixed on the top of the heater 5, two ends of a pipeline of the circulating oil pump 3 are respectively inserted into the annular coil cavity 52 and the bottom of the inner cavity 5 and the inner cavity 5 are respectively fixed in the base 5, the inner cavity 52 and the inner cavity 5 is wrapped by the inner cavity 5 and the upper part of the inner cavity 2 is respectively wrapped by the inner cavity and the inner cavity 2.

The circulating oil pump is placed at the top of the heater, is a special high-temperature-resistant oil pump, pumps oil in the annular coil cavity of the heater to the bottom of the inner cavity after pumping the oil, and flows back to the annular coil cavity through a connecting pipe at the top of the middle partition ring after the oil level of the inner cavity is raised, so that the heat energy transfer efficiency is improved, the service lives of the oil and a heating rod are prolonged, and the high-temperature risk of equipment is reduced.

The external threads 43 are arranged on the nano heating pipes, the nano heating pipes are inserted from the threaded holes at the top of the heater and are fixed by threads and uniformly distributed, and the nano heating pipes are heat sources of equipment. The first temperature sensor 41 is arranged in the center of the nano heating pipe 42, a heating film is plated on the inner wall pipe of the nano heating pipe 42 and is divided into a heating area 45 and a cooling area 44, and the electrode of the nano heating pipe 42 is made of high-temperature-resistant metal. The molecular mutual vibration is converted into the far infrared with the wavelength of micron order, the directional surface radiation exchanges energy with the outside, the heat conduction speed is 6 times of that of the traditional heating element within 1 second, the theoretical heat conduction efficiency is increased by more than 30 percent compared with that of the traditional heating element, and the state is kept stable for a long time.

The coil 53 is provided with a plurality of fixed supporting devices uniformly distributed along the circumferential direction, each fixed supporting device comprises a supporting upright post 531, a fixed pull rod 533, a bottom plate 534 and a supporting sleeve 535, the two supporting upright posts 531 are respectively arranged on the inner side and the outer side of the coil 53, the bottom of each supporting upright post 531 is fixed with the bottom plate 534, the tops of the supporting upright posts 531 are fixedly welded through connecting plates 532, the plurality of fixed pull rods 533 are respectively arranged between the upper coil 53 and the lower coil 53, the two ends of each fixed pull rod 533 are respectively fixed with the two supporting upright posts 531, and the supporting sleeve 535 is sleeved on the corresponding fixed pull rod 533.

The supporting upright 531 adopts C type bending plate or channel steel, and the supporting upright 531 is fixed with the bottom plate 534 vertically, the fixed pull rod 533 is rivet or bolt, the support sleeve 535 is cylindrical.

The pressure regulating tank device 6 further comprises a pressure regulating tank body 64, an air inlet and outlet pipe 65 and a ball valve 66, heating oil is arranged in the pressure regulating tank body 64, one end of the air inlet and outlet pipe 65 is fixed with the ball valve 66, the other end of the air inlet and outlet pipe 65 is arranged inside the pressure regulating tank body 64 and extends upwards to the top of the pressure regulating tank body 64, one end of the communicating pipe 61 is arranged in the pressure regulating tank body 64 and extends to the bottom of the pressure regulating tank body 64, and the other end of the communicating pipe 61 is arranged at the top of the heater 5.

The side wall of the pressure regulating tank body 64 is also provided with an oil window 63 which is convenient to observe, the top of the pressure regulating tank body 64 is also provided with a second temperature sensor 62, the diameter of the communicating pipe 61 is larger than that of the air inlet and outlet pipe 65, and the diameter of the communicating pipe 61 is 2% -7% of that of the inner container of the heater 5.

The ball valve 66 comprises a valve operating rod 81, a limit switch 82 is further arranged on one side of the heater 5, and when the valve operating rod 81 touches the limit switch 82, the heater 5 can be normally started.

The limit switch cooperates with the valve operating rod 81 of the pressure regulating tank device, the valve operating rod 81 is far away from the limit switch in the transportation process, the limit switch is in a normally open state at this moment, so that the whole equipment cannot start a heating function, after the equipment is installed on site, the valve operating rod 81 rotates to a valve opening state, at this moment, the valve operating rod 81 touches the limit switch to enable the limit switch to be in a normally closed state, so that the equipment can normally start a heating pipe, and safety accidents caused by the fact that the equipment is in a high-pressure state due to the fact that the equipment forgets to operate the valve opening by people can be well avoided.

The base 2 is internally provided with a plurality of partition reinforcing plates 21, the bottom of the base 2 is also provided with a plurality of feet 23, the base 2 is internally filled with a heat insulation material 22, the heat insulation material 22 is arranged between the inner container and the outer container, and a heat insulation material with low heat conductivity coefficient, preferably a silicate material, is arranged between the inner container and the outer container. The outer frame 1 is also provided with an electrical appliance element, a control and display system.

The top of the heater 5 is also provided with a pressure control component 7 which can give an alarm when the pressure in the heater 5 is overlarge, the pressure control component can be a safety valve (which is automatically opened to a certain pressure) or can be a pressure sensor for giving a control system signal (the detection value exceeds a set value to close heating), and the pressure control component is double-protection under the failure condition of a ball valve and a limit switch. The water inlet pipe orifice 93 and the water outlet pipe orifice 92 are both provided with a third temperature sensor 91.

The utility model adopts the internal and external spiral heat exchange structure to greatly improve the heat exchange speed, the coil pipe for internal circulation is designed with minimum welding points, the structure is simple, stable and firm, and the external circulation pipeline can fully utilize the heat dissipation area of the internal shell. The top of the inner container is provided with the partition cavity for storing the heat carrier oil expanded in the heating process, and the temperature of the inner container is greatly reduced due to the transition of the oil temperature of the inner container through the outer circulation pipeline, so that the heat insulation material between the inner container and the outer container can be made of materials with low temperature requirements, the cost can be saved, and the injury to people can be reduced.

The electric stirrer is arranged at the top of the device to forcedly disturb the oil, so that the service lives of the oil and the heating rod can be prolonged, and the pressure relief device is adopted, so that the contact between the external air and the oil in the device can be avoided.

The device has reasonable overall structural design, and is convenient for pressure maintaining and detecting whether the coil pipe and the oil storage space leak or not. The heating device provided by the utility model adopts a plurality of temperature sensors, each sensor is arranged at the central position of the heating rod, the highest oil temperature of oil can be accurately detected, 1 is a temperature control point, the other sensors are used as references, real-time comparison is carried out, the abnormal conditions such as damage and the like of one sensor are automatically detected, meanwhile, the severity degree can be automatically judged, the machine is stopped if serious, and the temperature control is carried out by other sensors if not serious.

The heat conducting medium prepared by the high-carbon molecule heating oil additive and the base oil has high heat conducting coefficient. The utility model can detect the temperature in the water inlet and outlet pipe, and is also provided with a limit switch and a pressure control component as multiple safety protection.

The utility model thickens the bottom plate, and simultaneously makes the weight of oil and water in the coil pipe of the whole device uniformly contact with the surface of the base of the equipment, and does not apply force to welding seams. The coil pipe of the utility model uses a structure with brand new design for supporting and fixing.

The base consists of the footing, the steel frame and the heat insulation material, plays a role in supporting the whole equipment, and also performs heat insulation on the bottom of the heater, so that the heat insulation effect of the whole system is optimal.

The pressure regulating tank device is communicated with the heater through a communicating pipe, and accessories such as an oil window, a temperature sensor and the like are arranged on the tank body, so that the operation state of the equipment can be monitored.

The electric stirrer is placed at the top of the heater, is composed of a special high-temperature-resistant motor and a stirring paddle, and can forcedly disturb high-carbon molecule heating oil in the heater through threaded fixation, so that the heat energy transfer efficiency is improved, the service lives of the oil and a heating rod are prolonged, and the high-temperature risk of equipment is reduced.

The heating rods are inserted from the threaded holes at the top of the heater, are fixed by threads and uniformly distributed, and are heat sources of equipment.

The electric water heater is used as a component part in a heating system, is matched with other equipment, such as a heat preservation water tank, a circulating pump, a radiating fin, a pipeline and the like, takes electricity as an energy source, and can locally or remotely start the equipment to operate.

After the equipment is installed on the site and is connected with other equipment pipelines, a ball valve of the pressure relief device is opened to keep the equipment pressure at normal pressure (at the moment, the limit switch is changed from a normally open state to a normally closed state). Firstly, starting water pump circulation to enable the coil pipe of the equipment to be filled with water, starting oil in the oil pump circulation equipment to enable the liquid level of the inner cavity oil to rise so as to avoid dry heating of the nano heating pipe, and starting heating of all the heating pipes after equipment starting confirmation. The heat transfer oil is expanded to a certain extent due to the fact that the oil temperature continuously rises, namely gas in the annular coil cavity is extruded to the communicating pipe, oil reserved in the communicating pipe is discharged into the pressure regulating tank body at the moment, even the gas is discharged into the pressure regulating tank body, and redundant gas in the pressure regulating tank body is discharged to the outside through the gas inlet and outlet pipe. When the temperature of the water outlet reaches the set temperature or the oil temperature reaches the set temperature, or the temperature of the pressure regulating tank device reaches the set value, or the current of a certain circuit exceeds the set value, the heating is automatically stopped as long as one condition is met, and the water pump continuously circulates the water in the coil pipe, and the oil pump continuously starts to ensure the rapid heat transfer. When the system detects a re-activatable condition, the nano-heating tube (1 or more heating tubes are logically selected) is re-activated and the process is repeated. And finally, when the heating season is over, the equipment stops running completely, the volume of the acting oil due to thermal expansion and contraction is reduced due to the reduction of the oil temperature, so that external air enters the pressure regulating tank device through the air inlet and outlet pipe, the oil in the same pressure regulating tank device is pressed into the communicating pipe, and the gas in the communicating pipe enters the annular coil cavity, so that the whole system is still in a normal pressure state.

In the utility model, once the ball valve fails, the limit switch is in a normally closed state, so that the pressure control component can play a role, and the pressure in the heater is controlled to be at a safe level and alarm processing is performed. The utility model can remotely perform all local functional operations on the equipment, and can naturally perform partial functional limitation according to the account authority.

It should be noted that the above embodiments are merely representative examples of the present utility model. Many variations of the utility model are possible. Any simple modification, equivalent variation and modification of the above embodiments according to the principles of the present utility model should be considered to fall within the scope of the present utility model.

Claims (8)

1. An electric heating device for heating quantum energy conduction liquid by using a nano electric heating tube is characterized in that: the water circulation device comprises an outer frame (1), a base (2), a circulating oil pump (3), a nano heating pipe (42), a heater (5) and a pressure regulating tank device (6), wherein the pressure regulating tank device (6) and the heater (5) are both fixed on the base (2), the pressure regulating tank device (6) comprises a communicating pipe (61), the pressure regulating tank device (6) and the heater (5) are communicated through the communicating pipe (61), the heater (5) comprises an inner container, an outer container and a coil pipe (53), a middle partition ring (54) is welded in the inner container, the middle partition ring (54) and a shell of the inner container form an annular coil pipe cavity (52), the upper part of the annular coil pipe cavity (52) is an expansion cavity (55), the middle partition ring (54) and the top surface and the bottom surface of the inner container form an inner cavity (51), a connecting pipe (56) communicated with the annular coil pipe cavity (52) and the inner cavity (51) is further arranged on the upper part of the middle partition ring pipe cavity (54), the coil pipe (53) is fixedly arranged in the annular coil pipe cavity (52), the coil pipe (53) is communicated with a water inlet pipe orifice (93) and a water outlet (92), the annular coil pipe (92) is fixedly communicated with the bottom of the circulating oil pump (3) and the bottom of the inner cavity (52) and the inner cavity (3) respectively extends to the top of the annular coil pipe (52) and the top of the circulating oil pump (3), the utility model provides a pressure regulating device, including inner chamber (51) of heater (5), outer frame (1) is fixed on base (2) and is wrapped pressure regulating tank device (6) and heater (5), the inside first temperature sensor (41) that is provided with in nanometer heating pipe (42) center, the inside wall pipe of nanometer heating pipe (42) has plated the heating membrane, divide into heating zone (45) and cold zone (44), the electrode of nanometer heating pipe (42) is high temperature resistant metal material and makes, pressure regulating tank device (6) still include pressure regulating tank body (64), business turn over trachea (65) and ball valve (66), be equipped with the heating oil in pressure regulating tank body (64), business turn over trachea (65) one end is fixed with ball valve (66), and the other end of business turn over trachea (65) is installed in pressure regulating tank body (64) inside and upwards extends to pressure regulating tank body (64) top, communicating pipe (61) one end is installed in pressure regulating tank body (64) and is extended to pressure regulating tank body (64) bottom, and the other end (61) installs heater (5) top.

2. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: the utility model discloses a coil pipe, including coil pipe (53), a plurality of fixed strutting arrangement of circumference direction evenly distributed, fixed strutting arrangement includes support post (531), fixed pull rod (533), bottom plate (534) and support sleeve (535), and two support posts (531) set up respectively in the inside and outside of coil pipe (53), and support post (531) bottom is fixed with bottom plate (534), and support post (531) top is through connecting plate (532) welded fastening, and a plurality of fixed pull rods (533) set up respectively between upper and lower adjacent two coil pipes (53), and the both ends of fixed pull rod (533) are fixed with two support posts (531) respectively, support sleeve (535) cover is established on fixed pull rod (533).

3. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 2, wherein the electrical heating device comprises: the support upright post (531) adopts C type bending plate or channel steel, and support upright post (531) and bottom plate (534) vertical fixation, fixed pull rod (533) are rivet or bolt, support sleeve (535) are cylindrical.

4. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: the side wall of the pressure regulating tank body (64) is also provided with an oil window (63) which is convenient to observe, and the top of the pressure regulating tank body (64) is also provided with a second temperature sensor (62).

5. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: the diameter of the communicating pipe (61) is larger than that of the air inlet and outlet pipe (65), and the diameter of the communicating pipe (61) is 2% -7% of that of the inner container of the heater (5).

6. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: the ball valve (66) comprises a valve operating rod (81), a limit switch (82) is further arranged on one side of the heater (5), and when the valve operating rod (81) touches the limit switch (82), the heater (5) can be normally started.

7. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: be equipped with a plurality of wall reinforcing plates (21) in base (2), base (2) bottom still is equipped with a plurality of footings (23), base (2) intussuseption is filled with insulating material (22), is equipped with insulating material (22) between inner bag and the outer courage, still install electrical apparatus original paper, control and display system on outer frame (1).

8. The electrical heating device for heating quantum energy conducting liquid by using a nano electrothermal tube according to claim 1, wherein the electrical heating device comprises: the top of the heater (5) is also provided with a pressure control component (7) which can give an alarm when the internal pressure of the heater (5) is overlarge, and the water inlet pipe orifice (93) and the water outlet pipe orifice (92) are both provided with a third temperature sensor (91).