CN111811134A - Electric water heater based on temperature autonomous control vibration - Google Patents

Abstract

The invention provides an electric water heater based on temperature autonomous vibration, which comprises a controller, an electric heating device and a water tank, wherein the electric heating device is arranged in the water tank, the water tank comprises a water inlet pipe and a water outlet pipe, the electric heating device comprises a first pipe box, a second pipe box and a coil pipe, a temperature sensing element is arranged in the electric heating device and used for detecting the temperature in the electric heating device, the temperature sensing element is in data connection with the controller, and the controller controls whether the electric heater heats or not according to the detected temperature. The electric heating device can judge whether the electric heating device reaches a stable state according to the internal temperature, and then intelligently controls the heating of the electric heater according to the internal temperature, so that the internal fluid can realize frequent vibration, and good descaling and heating effects are realized.

Description

Electric water heater based on temperature autonomous control vibration

Technical Field

The invention relates to a water heater, in particular to an intermittent vibration descaling electric water heater.

Background

The water heater is an essential household appliance in the family life at present. At present, an electric water heater is generally adopted and is used for heating. In applicant's prior application, a new coil type electric heating coil, such as CN106123306A, was developed and studied to vibrate the elastic tube bundle due to the expansion of the fluid therein caused by heating, thereby achieving heating and descaling effects.

However, in the application, it is found that the continuous heating of the electric heater can cause the fluid of the internal electric heating device to form stability, that is, the fluid does not flow or has little fluidity, or the flow rate is stable, so that the vibration performance of the coil is greatly weakened, thereby affecting the descaling of the coil and the heating efficiency, for this reason, the inventor conducts research to develop a new water heater capable of generating periodic vibration, and has already conducted patent applications with application numbers of 2019101874848, 2019101875431, 2019101866555, 2019101914489.

However, in practice it has been found that adjusting the vibration of the tube bundle by a fixed periodic variation can result in hysteresis and excessively long or short periods. Therefore, the invention improves the previous application and intelligently controls the vibration, so that the fluid in the fluid can realize frequent vibration, and good descaling and heating effects can be realized.

The application is a project which is researched and developed perfectly by cooperating with Qingdao science and technology university, and is an improvement on the basis of the research and development of the Qingdao science and technology university.

Disclosure of Invention

Aiming at the defects in the technology researched in the prior art, the invention provides a novel electric heating water heater capable of intelligently controlling vibration. This water heater can improve heating efficiency to realize fine scale removal and heating effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

an electric water heater based on temperature autonomous vibration comprises a controller, an electric heating device and a water tank, wherein the electric heating device is arranged in the water tank, the water tank comprises a water inlet pipe and a water outlet pipe, the electric heating device comprises a first pipe box, a second pipe box and a coil pipe, the coil pipe is communicated with the first pipe box and the second pipe box to form heating fluid closed circulation, and an electric heater is arranged in the first pipe box; filling phase-change fluid in the first channel; the number of the coil pipes is one or more, each coil pipe comprises a plurality of arc-shaped pipe bundles, the central lines of the arc-shaped pipe bundles are arcs taking the first pipe box as a concentric circle, and the end parts of the adjacent pipe bundles are communicated, so that the end parts of the pipe bundles form free ends of the pipe bundles; the electric heating device is characterized in that a temperature sensing element is arranged in the electric heating device and used for detecting the temperature in the electric heating device, the temperature sensing element is in data connection with a controller, and the controller controls the electric heater to heat or not according to the detected temperature.

Preferably, the temperature sensing element is disposed at an upper end inside the first header and/or the second header.

Preferably, the temperature sensing element is disposed at an upper end inside the first and second header tanks.

Preferably, the controller controls the electric heater to stop heating if the temperature detected by the temperature sensing element is higher than a certain value, and controls the electric heater to heat if the temperature detected by the temperature sensing element is lower than a certain value.

The invention has the following advantages:

1. the electric heating device can judge whether the electric heating device reaches a stable state according to the internal temperature, and then intelligently controls the heating of the electric heater according to the internal temperature, so that the internal fluid can realize frequent vibration, and good descaling and heating effects are realized.

2. The invention designs a layout of an electric heating device with a novel structure in a box body, and can further improve the heating efficiency.

3. The invention optimizes the optimal relationship of the parameters of the coil pipe through a large amount of experiments and numerical simulation, thereby realizing the optimal heating efficiency.

Description of the drawings:

fig. 1 is a top view of an electric heating apparatus of the present invention.

Fig. 2 is a front view of the electric heating apparatus.

Fig. 3 is a layout diagram of an electric heating device arranged in a circular water tank.

Fig. 4 is a schematic diagram of the coil arrangement.

Fig. 5 is a schematic view of the structure of the water tank.

Fig. 6 is a control flow diagram.

In the figure: 1. coil pipe, 2, first pipe box, 3, free end, 4, free end, 5, water inlet pipe, 6, water outlet pipe, 7, free end, 8, second pipe box, 9, connecting point, 10, electric heating device, 11, water tank, 12 pipe bundle, 13 electric heater

Detailed Description

An electric water heater comprises an electric heating device 10 and a water tank 11, wherein the electric heating device 10 is arranged in the water tank 11, and the water tank 11 comprises a water inlet pipe 5 and a water outlet pipe 6.

Fig. 1 shows a top view of an electric heating apparatus 10, as shown in fig. 1, the electric heating apparatus 10 includes a first pipe box 2, a second pipe box 8 and a coil 1, the coil 1 is communicated with the first pipe box 2 and the second pipe box 8, a fluid circulates in the first pipe box 2, the second pipe box 8 and the coil 1 in a closed manner, an electric heater 13 is disposed in the electric heating apparatus 10, and the electric heater 13 is used for heating the fluid in the electric heating apparatus 10 and then heating water in a water tank by the heated fluid.

As shown in fig. 1-2, an electric heater 13 is disposed in the first header tank 2; the first channel box 2 is filled with phase-change fluid; the number of the coil pipes 1 is one or more, each coil pipe 1 comprises a plurality of circular arc-shaped pipe bundles 12, the central lines of the circular arc-shaped pipe bundles 12 are circular arcs taking the first pipe box 2 as a concentric circle, the end parts of the adjacent pipe bundles 12 are communicated, and fluid forms serial flow between the first pipe box 2 and the second pipe box 8, so that the end parts of the pipe bundles form free ends 3 and 4 of the pipe bundles; the fluid is phase-change fluid, vapor-liquid phase-change liquid, the electric heating device is in data connection with the controller, and the controller controls the heating power of the electric heating device to periodically change along with the change of time.

Preferably, the first and second headers 2 and 8 are provided along a height direction.

It has been found in research and practice that continuous power-stable heating of the electric heater results in a stable fluid formation of the internal electric heating means, i.e. the fluid is not flowing or has little fluidity, or the flow is stable, resulting in a greatly reduced vibrational performance of the coil 1, thereby affecting the efficiency of descaling and heating of the coil 1. There is therefore a need for an improvement to the electrical heating coil described above as follows.

It has been found in research and practice that continuous power-stable heating of the electric heater results in a stable fluid formation of the internal electric heating means, i.e. the fluid is not flowing or has little fluidity, or the flow is stable, resulting in a greatly reduced vibrational performance of the coil 1, thereby affecting the efficiency of descaling and heating of the coil 1. There is therefore a need for an improvement to the electrical heating coil described above as follows.

In the prior application of the applicant, a periodic heating mode is provided, and the vibration of the coil is continuously promoted by the periodic heating mode, so that the heating efficiency and the descaling effect are improved. However, adjusting the vibration of the tube bundle with a fixed periodic variation can lead to hysteresis and too long or too short a period. Therefore, the invention improves the previous application and intelligently controls the vibration, so that the fluid in the fluid can realize frequent vibration, and good descaling and heating effects can be realized.

Aiming at the defects in the technology researched in the prior art, the invention provides a novel electric heating water heater capable of intelligently controlling vibration. This water heater can improve heating efficiency to realize fine scale removal and heating effect.

Self-regulation vibration based on pressure

Preferably, a pressure sensing element is arranged in the electric heating device and used for detecting the pressure in the electric heating device, the pressure sensing element is in data connection with the controller, and the controller controls whether the electric heater heats or not according to the detected pressure.

Preferably, the controller controls the electric heater to stop heating if the pressure detected by the pressure sensing element is higher than a certain value, and controls the electric heater to heat if the pressure detected by the pressure sensing element is lower than a certain value.

Through the pressure that pressure sensing element detected, can satisfy under certain pressure condition, the evaporation of inside fluid has basically reached saturation, and the volume of inside fluid also basically changes little, and under this kind of condition, inside fluid is relatively stable, and the tube bank vibratility at this moment worsens, therefore needs to adjust, makes it vibrate to stop heating. So that the fluid undergoes volume reduction to thereby realize vibration. When the pressure is reduced to a certain degree, the internal fluid starts to enter a stable state again, and at the moment, the fluid needs to be heated so as to evaporate and expand again, so that the electric heater needs to be started for heating.

Preferably, the pressure sensing element is arranged within the first header tank 2 and/or the second header tank 8.

Preferably, the pressure sensing elements are disposed within the first and second header tanks 2 and 8. The average of the pressures of the two headers can be selected as regulating data.

Preferably, the pressure sensing element is disposed at the free end. Through setting up at the free end, can perceive the pressure variation of free end to realize better control and regulation.

Independently adjusting vibration based on temperature

Preferably, a temperature sensing element is arranged in the electric heating device and used for detecting the temperature in the electric heating device, the temperature sensing element is in data connection with the controller, and the controller controls whether the electric heater performs heating according to the detected temperature.

Preferably, the controller controls the electric heater to stop heating if the temperature detected by the temperature sensing element is higher than a certain value, and controls the electric heater to heat if the temperature detected by the temperature sensing element is lower than a certain value.

The pressure detected by the temperature sensing element can basically reach saturation when the certain temperature is met, and the volume of the internal fluid is not changed greatly basically. So that the fluid undergoes volume reduction to thereby realize vibration. When the temperature is reduced to a certain degree, the internal fluid starts to enter a stable state again, and the fluid needs to be heated to evaporate and expand again, so that the electric heater needs to be started for heating.

Preferably, the temperature sensing element is disposed at an upper end inside the first header and/or the second header.

Preferably, the temperature sensing element is disposed at an upper end inside the first and second header tanks.

Preferably, the temperature sensing element is disposed at the free end. Through setting up at the free end, can perceive the temperature variation of free end to realize better control and regulation.

Thirdly, automatically adjusting vibration based on liquid level

Preferably, a liquid level sensing element is arranged in the first channel box and used for detecting the liquid level of the fluid in the first channel box, the liquid level sensing element is in data connection with the controller, and the controller controls whether the electric heater heats or not according to the detected liquid level of the fluid.

Preferably, the controller controls the electric heater to stop heating if the liquid level detected by the liquid level sensing element is lower than a certain value. The liquid level detected by the liquid level sensing element is higher than a certain value, and the controller controls the electric heater to heat.

The liquid level detected by the liquid level sensing element can basically reach saturation of evaporation of the internal fluid and basically does not change much in volume of the internal fluid under the condition of meeting a certain liquid level (such as the lowest limit). So that the fluid undergoes volume reduction to thereby realize vibration. When the liquid level rises to a certain degree, the internal fluid starts to enter a stable state again, and at the moment, the fluid needs to be heated so as to evaporate and expand again, so that the electric heater needs to be started for heating.

Fourthly, automatically adjusting vibration based on speed

Preferably, a speed sensing element is arranged in the free end of the tube bundle and used for detecting the flow speed of the fluid in the free end of the tube bundle, the speed sensing element is in data connection with the controller, and the controller controls whether the electric heater heats or not according to the detected speed of the fluid.

Preferably, the controller controls the electric heater to stop heating if the speed sensed by the speed sensing element is higher than a certain value. The liquid level detected by the speed sensing element is lower than a certain value, and the controller controls the electric heater to heat.

The speed detected by the speed sensor element can substantially saturate the evaporation of the internal fluid to form a stable flow and the speed of the internal fluid does not substantially change when a certain speed (for example, the highest upper limit) is satisfied. So that the fluid undergoes volume reduction to thereby realize vibration. When the speed drops to a certain degree, the internal fluid starts to enter a stable state again, and at the moment, the fluid needs to be heated so as to evaporate and expand again, so that the electric heater needs to be started for heating.

Alternatively, the water tank 11 is provided with a medicine, the medicine is soaked in water, and when the water tank is used, the water is heated in the tank body through the heat pipe, and the medicine is heated through the water, so that the liquid medicine is generated in the tank body. The water heater is a liquid medicine fumigation-washing water heater.

As another option, the water heater still includes liquid medicine atomization case, the liquid medicine atomization case passes through pipeline and water tank intercommunication, set up the atomizer in the liquid medicine atomization case, the setting of export of atomizing is on liquid medicine atomization case upper portion.

The generated liquid medicine enters the liquid medicine atomization box through a pipeline, is atomized in the liquid medicine atomization box and is discharged through an atomization outlet. The nebulization outlet can be discharged directly against the patient's sick site for treatment.

Preferably, the electric heater is arranged in a plurality of sections along the height direction, each section is independently controlled, and the electric heater is sequentially started from the lower end along the height direction in the starting process along with the change of time until all the sections are started, and then is sequentially closed from the upper end in the following half period T/2 until the period is finished, and all the sections are closed.

That is, assuming that the electric heater has n segments, one segment is started from the lower end until all segments are started.

Preferably, the heating power is the same for each section.

The electric heater is started from the lower part upwards gradually, so that the fluid at the lower part is fully heated, a good natural convection is formed, the flow of the fluid is further promoted, and the elastic vibration effect is increased. Through the change of the heating power with time variability, the fluid can be frequently evaporated, expanded and contracted in the elastic tube bundle, so that the vibration of the elastic tube bundle is continuously driven, and the heating efficiency and the descaling operation can be further realized.

Preferably, the pipe diameter of the first pipe box 2 is smaller than that of the second pipe box 8, and the pipe diameter of the first pipe box 2 is 0.5-0.8 times of that of the second pipe box 8. Through the pipe diameter change of first pipe case and second pipe case, can guarantee that the fluid carries out the phase transition and in the internal time of first box short, get into the coil pipe fast, fully get into the heat transfer of second box.

Preferably, the connection position 9 of the coil pipe at the first header is lower than the connection position of the second header and the coil pipe. This ensures that steam can rapidly enter the second header upwards.

Preferably, the first and second headers are provided with return lines at their bottoms to ensure that condensed fluid in the second header can enter the first line.

Preferably, the first and second headers are arranged in a height direction, the coil pipe is provided in plural numbers in the height direction of the first header, and a pipe diameter of the coil pipe is gradually reduced from top to bottom.

Preferably, the pipe diameter of the coil pipe is gradually decreased and gradually increased along the direction from the top to the bottom of the first pipe box.

The pipe diameter range through the coil pipe increases, can guarantee that more steam passes through upper portion and gets into the second box, guarantees that the distribution of steam is even in all coil pipes, further reinforces the heat transfer effect for whole vibration effect is even, and the heat transfer effect increases, further improves heat transfer effect and scale removal effect. Experiments show that better heat exchange effect and descaling effect can be achieved by adopting the structural design.

Preferably, the plurality of coils are arranged along the height direction of the first tube box, and the distance between the adjacent coils is increased from the top to the bottom.

Preferably, the distance between the coils increases along the height direction of the first header.

The interval range through the coil pipe increases, can guarantee that more steam passes through upper portion and gets into the second box, guarantees that the distribution of steam is even in all coil pipes, further reinforces the heat transfer effect for whole vibration effect is even, and the heat transfer effect increases, further improves heat transfer effect and scale removal effect. Experiments show that better heat exchange effect and descaling effect can be achieved by adopting the structural design.

Preferably, as shown in fig. 5, the water tank is a water tank having a circular cross section, and a plurality of electric heating devices are disposed in the water tank.

Preferably, as shown in fig. 5, a plurality of electric heaters are disposed in the water tank, one of which is disposed at the center of the water tank to become a central electric heater, and the others are distributed around the center of the water tank to become peripheral electric heaters. Through such structural design, can be so that the interior fluid of water tank fully reaches the vibration purpose, improve the heat transfer effect.

Preferably, the heating power of the single peripheral electric heating means is smaller than the heating power of the central electric heating means. Through the design, the center reaches higher vibration frequency to form a central vibration source, so that the periphery is influenced, and better heat transfer enhancement and descaling effects are achieved.

Preferably, on the same horizontal heat exchange section, the fluid needs to achieve uniform vibration, and uneven heat exchange distribution is avoided. It is therefore necessary to distribute the amount of heating power among the different electric heating devices reasonably. Experiments show that the heating power ratio of the central electric heating device to the peripheral tube bundle electric heating device is related to two key factors, wherein one of the two key factors is the distance between the peripheral electric heating device and the center of the water tank (namely the distance between the circle center of the peripheral electric heating device and the circle center of the central electric heating device) and the diameter of the water tank. Therefore, the invention optimizes the optimal proportional distribution of the pulsating flow according to a large number of numerical simulations and experiments.

Preferably, the radius of the inner wall of the water tank is B, the center of the central electric heating device is arranged at the center of the circular cross section of the water tank, the distance from the center of the peripheral electric heating device to the center of the circular cross section of the water tank is S, the centers of adjacent peripheral electric heating devices are respectively connected with the center of the circular cross section, the included angle formed by the two connecting lines is a, the heating power of the peripheral electric heating device is W2, and the heating power of a single central electric heating device is W1, so that the following requirements are met:

W1/W2 ═ a-B ═ Ln (B/S); ln is a logarithmic function;

a, b are coefficients, where 1.855< a <1.865,0.600< b < 0.610;

1.25<B/S<2.1；

1.4<W1/W2<1.8。

wherein 35 ° < a <80 °.

Preferably, the number of the four-side distribution is 4-5.

Preferably, B is 1600-2400 mm, preferably 2000 mm; s is 1200-2000 mm, preferably 1700 mm; the diameter of the heat exchange tube is 12-20 mm, preferably 16 mm; the outermost diameter of the pulsating coil is 300-. The diameter of the riser is 100-116 mm, preferably 108 mm, the height of the riser is 1.8-2.2 m, preferably 2 m, and the spacing between adjacent pulse tubes is 65-100 mm. Preferably around 80 mm.

The total heating power is preferably 4000-10000W, more preferably 5500W.

More preferably, a is 0.18606 and b is 0.6041.

Preferably, the box body has a circular cross section, and is provided with a plurality of electric heating devices, wherein one electric heating device is arranged at the center of the circular cross section and the other electric heating devices are distributed around the center of the circular cross section.

The coils 1 are in one or more groups, each group of coils 1 comprises a plurality of circular arc-shaped tube bundles 12, the central lines of the circular arc-shaped tube bundles 12 are circular arcs of concentric circles, and the ends of the adjacent tube bundles 12 are communicated, so that the ends of the coils 1 form tube bundle free ends 3, 4, such as the free ends 3, 4 in fig. 2.

Preferably, the heating fluid is a vapor-liquid phase-change fluid.

Preferably, the first header 2, the second header 8, and the coil 1 are all of a circular tube structure.

Preferably, the tube bundle of the coil 1 is an elastic tube bundle.

The heat exchange coefficient can be further improved by arranging the tube bundle of the coil 1 with an elastic tube bundle.

Preferably, the concentric circles are circles centered on the center of the first header 2. I.e. the tube bundle 12 of the coil 1 is arranged around the centre line of the first tube box 2.

As shown in fig. 4, the tube bundle 12 is not a complete circle, but rather leaves a mouth, thereby forming the free end of the tube bundle. The angle of the arc of the mouth part is 65-85 degrees, namely the sum of included angles b and c in figure 5 is 65-85 degrees.

Preferably, the ends of the tube bundle on the same side are aligned in the same plane, with the extension of the ends (or the plane in which the ends lie) passing through the median line of the first tube box 2.

Further preferably, the electric heater 13 is an electric heating rod.

Preferably, the first end of the inner tube bundle of the coil 1 is connected to the first tube box 2, the second end is connected to one end of the adjacent outer tube bundle, one end of the outermost tube bundle of the coil 1 is connected to the second tube box 8, and the ends of the adjacent tube bundles are connected to form a serial structure.

The plane in which the first end is located forms an angle c of 40-50 degrees with the plane in which the centre lines of the first and second headers 2, 8 are located.

The plane of the second end forms an angle b of 25-35 degrees with the plane of the centre lines of the first and second headers 2, 8.

Through the design of the preferable included angle, the vibration of the free end is optimal, and therefore the heating efficiency is optimal.

As shown in fig. 4, there are 4 tube bundles of coil 1, with tube bundles A, B, C, D in communication. Of course, the number is not limited to four, and a plurality of the connecting structures are the same as that in fig. 4.

The number of the coil pipes 1 is multiple, and the plurality of coil pipes 1 are respectively and independently connected with the first pipe box 2 and the second pipe box 8, that is, the plurality of coil pipes 1 are in a parallel structure.

Although the present invention has been described with reference to the preferred embodiments, it is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. An electric water heater based on temperature autonomous vibration comprises a controller, an electric heating device and a water tank, wherein the electric heating device is arranged in the water tank, the water tank comprises a water inlet pipe and a water outlet pipe, the electric heating device comprises a first pipe box, a second pipe box and a coil pipe, the coil pipe is communicated with the first pipe box and the second pipe box to form heating fluid closed circulation, and an electric heater is arranged in the first pipe box; filling phase-change fluid in the first channel; the number of the coil pipes is one or more, each coil pipe comprises a plurality of arc-shaped pipe bundles, the central lines of the arc-shaped pipe bundles are arcs taking the first pipe box as a concentric circle, and the end parts of the adjacent pipe bundles are communicated, so that the end parts of the pipe bundles form free ends of the pipe bundles; the electric heating device is characterized in that a temperature sensing element is arranged in the electric heating device and used for detecting the temperature in the electric heating device, the temperature sensing element is in data connection with a controller, and the controller controls the electric heater to heat or not according to the detected temperature.

2. The electric water heater as recited in claim 1, wherein the temperature sensing member is disposed at an upper end within the first header and/or the second header.

3. The electric water heater as recited in claim 2, wherein the temperature sensing member is disposed at an upper end within the first header and the second header.

4. The electric water heater as claimed in claim 1, wherein the controller controls the electric heater to stop heating if the temperature sensed by the temperature sensing element is higher than a certain value, and controls the electric heater to heat if the temperature sensed by the temperature sensing element is lower than a certain value.

5. The electric water heater as claimed in claim 1, wherein the tank is filled with a medicine, the medicine is soaked in water, and when in use, the water is heated in the tank through the heat pipe, and the medicine is heated through the water, so that the liquid medicine is generated in the tank.

6. A steam generator comprises an electric heating device and a box body, wherein the electric heating device is arranged in the box body, the box body comprises a water inlet pipe and a water outlet pipe, the electric heating device comprises a first pipe box, a second pipe box and a coil pipe, the coil pipe is communicated with the first pipe box and the second pipe box to form heating fluid closed circulation, and an electric heater is arranged in the first pipe box; the first channel is filled with a phase-change fluid.

Images