CN209116433U - A kind of electric power heating molten salt energy-storage convector - Google Patents

Abstract

The utility model discloses a kind of electric power to heat molten salt energy-storage convector, is equipped with container, electric heater unit and radiator；Fused salt is loaded in container, electric heater unit is made of dry combustion method type electric heating tube, metal powder and thermally conductive sheath, and thermally conductive sheath is embedded in fused salt, and metal powder is filled in thermally conductive sheath, dry combustion method type electric heating tube is embedded in metal powder, and radiator is mounted on the outer wall of container；Its is compact-sized, small in size, at low cost, it is used suitable for small space environments such as single household, single rooms, and, electric heating tube and fused salt are kept apart using thermally conductive sheath, enhance the conductivity of heat between dry combustion method type electric heating tube and fused salt using metal powder, while ensuring good thermal conduction between dry combustion method type electric heating tube and fused salt, when also assuring that leakage damage occurs in thermally conductive sheath, fused salt is obstructed by metal powder and avoids being in contact electric leakage with dry combustion method type electric heating tube, therefore, the utility model has the advantages that small in size, at low cost, good thermal conduction, highly-safe.

Description

A kind of electric power heating molten salt energy-storage convector

Technical field

The utility model relates to a kind of electric power to heat molten salt energy-storage convector.

Background technique

With the high speed development of industry, China is faced with huge environmental protection pressure, especially haze and pollutes.And in order to effective Ground administers haze and pollutes and promoted air quality, and multiple provinces and cities push " coal changes electricity " project energetically, i.e., by the way of electric heating Substitute the heating system of traditional coal-burning boiler.Meanwhile for China's power supply daytime and night peak-valley difference away from big situation, political affairs Night dip electricity consumption preferential policy has been promulgated at mansion, is encouraged using cheap trough-electricity come heat storage material to store thermal energy, from And achieve the purpose that " peak load shifting ".

Fuse salt abbreviation fused salt, is the molten state liquid of salt, and the fuse salt being often referred to refers to the molten mass of inorganic salts.Fused salt Thermal storage density it is high, good heat conductivity is present widely applied novel heat-storing material.Fuse salt energy storage technology is to utilize nitric acid As a heat transfer medium, the thermal energy and the interior of fused salt issued by the energy can be converted to store or issue energy the raw materials such as salt.

Existing fused salt heat storage type central heating system is to heat fused salt using electric power, and high-temperature molten salt passes through heat exchanger handle again Heat transfer can effectively substitute coal-burning boiler to heating water or air.But existing equipment generallys use pump for liquid salts and heat exchange Device increases its transmission range, but increases system complexity, for single household and single room use, the existing equipment Cost is excessively high, volume is excessive.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of electric power to heat molten salt energy-storage convector, with Solve the problems, such as that existing fused salt heat storage type central heating system cost is excessively high, volume is excessive.

Above-mentioned technical problem is solved, technical solution used by the utility model is as follows:

A kind of electric power heating molten salt energy-storage convector, it is characterised in that: the electric power heating molten salt energy-storage heating Radiator is equipped with container, electric heater unit and radiator；Fused salt is loaded in the container, the electric heater unit is by dry combustion method Type electric heating tube, metal powder and thermally conductive sheath composition, the thermally conductive sheath are embedded in the fused salt, the metal powder filling In the thermally conductive sheath, the dry combustion method type electric heating tube is embedded in the metal powder, and the radiator is mounted on described On the outer wall of container.

Wherein, preferred: the container is rustless steel container；It is outer that the dry combustion method type electric heating tube, which is used with stainless steel tube, The dry combustion method type electric heating tube of shell；The thermally conductive sheath uses stainless steel sheath.

Wherein, preferred: the dry combustion method type electric heating tube has creepage protection function.

As preferred embodiments of the present invention: the electric heater unit is mounted on the appearance by upper outstanding slotting mode On device, it may be assumed that the corresponding electric heater unit in the top surface of the container offers a mounting hole, the electric heater unit Thermally conductive sheath is the tube body of open top, and the thermally conductive sheath is protruded into the container from corresponding mounting hole and is embedded in described molten In salt, and the top of the thermally conductive sheath is fixedly connected with the container；The dry combustion method type electric heating tube is from the thermally conductive sheath Opening insert into the inner portion and be embedded in the metal powder.

Wherein, preferred: the thermally conductive sheath is that top is equipped with the flanging around its opening setting, the thermally conductive sheath Flanging be located on the top surface of the container, and the flanging of the thermally conductive sheath passes through bolt and nut and the container Top surface is connected and fixed.

As preferred embodiments of the present invention: the electric power heating molten salt energy-storage convector is equipped with multiple The electric heater unit.

As preferred embodiments of the present invention: the outer wall of the container is divided into oriented heat dissipating face and non-directional dissipates Hot face is covered with heat-barrier material on the non-directional radiating surface；The radiator is equipped with cooling fin and adjusts skeleton, described Adjust skeleton be equipped with heat inlet and thermovent, and it is described adjust skeleton can adjust between the heat inlet and thermovent away from From the position for adjusting skeleton in addition to the heat inlet and thermovent is all covered with heat-barrier material；The adjusting skeleton Heat inlet is fixed on the oriented heat dissipating face of the container, and the cooling fin is mounted on the thermovent for adjusting skeleton.

Wherein, preferred: the adjusting skeleton is straight four prism type skeleton, which is turned by four Axis, first rectangular frame and second rectangular frame composition；Four shaft, that is, first rotating shafts, the second shaft, third shaft and Four article inclines of 4th shaft as the straight four prism type skeleton, the first rotating shaft and the second shaft are fixed on the container Oriented heat dissipating face on, space between the first rotating shaft and the second shaft is described as the heat inlet for adjusting skeleton The front side edge of first rectangular frame and the first rotating shaft are rotatablely connected, the back side edge of the first rectangular frame and the described 4th Shaft rotation connection, the front side edge of the second rectangular frame and second shaft are rotatablely connected, the second rectangular frame Back side edge and the third shaft be rotatablely connected, the space between the third shaft and the 4th shaft is as the adjusting bone The thermovent of frame, the first rectangular frame and second rectangular frame have been covered each by rigid heat-barrier material, first rectangle Flexible insulant material, the first rectangular frame are covered between the upper side edge of frame and the upper side edge of the second rectangular frame Lower side and the second rectangular frame lower side between be covered with flexible insulant material.

Wherein, preferred: the outer wall of the container is equipped with oriented heat dissipating face described in muti-piece, each piece of oriented heat dissipating face On be mounted on a set of radiator.

As preferred embodiments of the present invention: the electric power heating molten salt energy-storage convector is additionally provided with temperature Spend sensor and temperature controller；The temperature sensor is arranged in the fused salt, the output end of the temperature sensor and The control terminal of the dry combustion method type electric heating tube is electrically connected with the temperature controller respectively.

Compared with prior art, the utility model has the following beneficial effects:

First, for the utility model using fused salt container, electric heater unit and the radiator to become one, structure is tight It gathers, is small in size, is at low cost, being suitable for the small space environments such as single household, single room and use, also, by using by dry combustion method type electric heating The electric heater unit of pipe, metal powder and thermally conductive sheath composition, dry combustion method type electric heating tube is isolated with fused salt using thermally conductive sheath Open, and using metal powder enhancing dry combustion method type electric heating tube and fused salt between conductivity of heat, ensure dry combustion method type electric heating tube with Between fused salt while good thermal conduction, moreover it is possible to which when ensuring that leakage damage occurs in thermally conductive sheath, fused salt is obstructed and kept away by metal powder Exempt from dry combustion method type electric heating tube occur directly contact electric leakage, therefore, the utility model with small in size, at low cost, good thermal conduction, Highly-safe advantage.

Second, the utility model can pass through installation in such a way that the top surface in container opens up mounting hole to avoid fused salt The possibility of hole leakage, improves safety；Also, electric heater unit is inserted into from the top down in the fused salt in container, can lean on weight Power increases the density of fused salt filling.

Third, the utility model use the radiator being made of cooling fin and adjusting skeleton, pass through and adjust skeleton adjusting The distance between heat inlet and thermovent are adjusted, i.e., adjustable cooling fin and the distance between the container as heat source, the distance Smaller, heat dissipation effect is better, and distance is bigger, and heat dissipation effect is poorer, realizes the radiating rate adjusting to radiator；The heat dissipation The structure of device is simple and convenient to operate, and is used especially suitable for small space environments such as single household, single rooms.

Detailed description of the invention

The utility model is described in further detail in the following with reference to the drawings and specific embodiments:

Fig. 1 is that the electric power of the utility model heats the structural schematic diagram of molten salt energy-storage convector；

Fig. 2 is mounted on the schematic diagram on container by upper outstanding slotting mode for electric heater unit in the utility model；

Fig. 3 is that radiator is mounted on the schematic diagram on the outer wall of container 1 in the utility model.

Specific embodiment

Below with reference to embodiment, the utility model is described in further detail:

Embodiment one

As shown in Figure 1 to Figure 3, disclosed by the utility model is a kind of electric power heating molten salt energy-storage convector, is equipped with Container 1, electric heater unit 2 and radiator 3；Fused salt 4 is loaded in the container 1, the electric heater unit 2 is by dry combustion method type electricity Heating tube 21, metal powder 22 and thermally conductive sheath 23 form, and the thermally conductive sheath 23 is embedded in the fused salt 4, the metal powder End 22 is filled in the thermally conductive sheath 23, and the dry combustion method type electric heating tube 21 is embedded in the metal powder 22, the heat dissipation Device 3 is mounted on the outer wall of the container 1.

To be the power supply of dry combustion method type electric heating tube 21 using trough-electricity, dry combustion method type electric heating tube 21 passes through metal powder 22 Heat fused salt 4 with thermally conductive sheath 23 so that fused salt 4 puts aside heat, then the heat put aside fused salt 4 by radiator 3 as Heating-amount passes in the water or air of user's needs, realizes the heating system of low cost.

The utility model is using container 1, electric heater unit 2 and the radiator 3 to become one, compact-sized, body Product is small, at low cost, is suitable for single household and single room uses, also, by using by dry combustion method type electric heating tube 21,22 and of metal powder The electric heater unit 2 that thermally conductive sheath 23 forms, is kept apart dry combustion method type electric heating tube 21 with fused salt 4 using thermally conductive sheath 23, and Enhance the conductivity of heat between dry combustion method type electric heating tube 21 and fused salt 4 using metal powder 22, ensures dry combustion method type electric heating tube 21 Between fused salt 4 while good thermal conduction, moreover it is possible to which when ensuring that leakage damage occurs in thermally conductive sheath 23, fused salt 4 is by metal powder 22 It obstructs and avoids occurring directly to contact electric leakage with dry combustion method type electric heating tube 21, therefore, the utility model has small in size, cost Low, good thermal conduction, highly-safe advantage.

Wherein, preferred: the container 1 is preferably rustless steel container；The dry combustion method type electric heating tube 21 preferably use with Stainless steel tube is the dry combustion method type electric heating tube of shell；The metal powder 22 can be the thermal conductivity such as iron powder, copper powder, alloy powder The good metal material powder of energy, and the metal material powder should cannot be chemically reacted with fused salt；The thermally conductive sheath 23 It is preferred that using stainless steel sheath.

Wherein, preferred: the dry combustion method type electric heating tube 21 preferably has creepage protection function.

Embodiment two

On the basis of the above embodiment 1, the present embodiment two additionally uses following preferred structure:

As shown in Fig. 2, the electric heater unit 2 is mounted on the container 1 by upper outstanding slotting mode, it may be assumed that the container 1 The corresponding electric heater unit 2 in top surface offer a mounting hole 1a, the thermally conductive sheath 23 of the electric heater unit 2 is The tube body of open top, the thermally conductive sheath 23 protrude into the container 1 from corresponding mounting hole 1a and are embedded in the fused salt 4 In, and the top of the thermally conductive sheath 23 is fixedly connected with the container 1；The dry combustion method type electric heating tube 21 is from the thermally conductive shield The open 23a of set 23 inserts into the inner portion and is embedded in the metal powder 22.

To, container 1 opens up the mode of mounting hole 1a in top surface, can to avoid fused salt 4 by mounting hole 1a reveal can Can, improve safety；Also, electric heater unit 2 is inserted into the fused salt 4 in container 1 from the top down, gravity can be leaned on to increase molten The density that salt 4 fills.

Wherein, preferred: the thermally conductive sheath 23 is that top is equipped with the flanging 231 around its opening 23a setting, described The flanging 231 of thermally conductive sheath 23 is located on the top surface of the container 1, and the flanging 231 of the thermally conductive sheath 23 passes through Bolt and nut 5 and the top surface of the container 1 are connected and fixed.To which thermally conductive sheath 23 can be dismounted easily and fast.

In addition, thermally conductive sheath 23 can also use connection type commonly used in the prior art, such as welding, screw thread with container 1 Connection etc., is attached fixation.

Embodiment three

On the basis of above-described embodiment one or embodiment two, the present embodiment three additionally uses following preferred structure:

The electric power heating molten salt energy-storage convector is equipped with multiple electric heater units 2.

To be worked at the same time by multiple electric heater units 2, the heating speed to fused salt 4 can be improved.

Example IV

On the basis of any one embodiment into embodiment three of above-described embodiment one, the present embodiment four additionally use with Preferred structure down:

As shown in figure 3, the outer wall of the container 1 is divided into oriented heat dissipating face 11 and non-directional radiating surface 12, it is described non-fixed Heat-barrier material is covered on radiating surface 12；The radiator 3 is equipped with cooling fin 31 and adjusts skeleton 32, the adjusting bone Frame 32 is equipped with heat inlet 32a and thermovent 32b, and the adjusting skeleton 32 can adjust the heat inlet 32a and thermovent 32b The distance between, the position for adjusting skeleton 32 in addition to the heat inlet 32a and thermovent 32b is all covered with heat-insulated material Material；The heat inlet 32a for adjusting skeleton 32 is fixed on the oriented heat dissipating face 11 of the container 1, the cooling fin 31 It is mounted on the thermovent 32b for adjusting skeleton 32.

To, adjust the distance between heat inlet 32a and thermovent 32b by adjusting skeleton 32, i.e., it is adjustable to dissipate Backing 31 and the distance between container 1 as heat source, this is apart from smaller, and heat dissipation effect is better, and distance is bigger, and heat dissipation effect is got over Difference realizes the radiating rate adjusting to radiator 3.

Wherein, preferred: the adjusting skeleton 32 is straight four prism type skeleton, which is turned by four Axis, first rectangular frame 325 and second rectangular frame 326 form；Four shaft, that is, first rotating shafts 321, the second shaft 322, the four articles of inclines of third shaft 323 and the 4th shaft 324 as the straight four prism type skeleton, the first rotating shaft 321 It is fixed on the second shaft 322 on the oriented heat dissipating face 11 of the container 1, between the first rotating shaft 321 and the second shaft 322 Space as the heat inlet 32a for adjusting skeleton 32, the front side edge of the first rectangular frame 325 and the first rotating shaft 321 rotation connections, the back side edge of the first rectangular frame 325 and the 4th shaft 324 are rotatablely connected, second rectangle The front side edge of frame 326 and second shaft 322 are rotatablely connected, the back side edge of the second rectangular frame 326 and described the The rotation connection of three shafts 323, the space between the third shaft 323 and the 4th shaft 324 is as the adjusting skeleton 32 Thermovent 32b, the first rectangular frame 325 and second rectangular frame 326 have been covered each by rigid heat-barrier material, and described first It is covered with flexible insulant material between the upper side edge of rectangular frame 325 and the upper side edge of the second rectangular frame 326, described Flexible insulant material is covered between the lower side of one rectangular frame 325 and the lower side of the second rectangular frame 326.

Wherein, preferred: the outer wall of the container 1 is equipped with oriented heat dissipating face 11 described in muti-piece, and each piece of orientation dissipates It is mounted on a set of radiator 3 on hot face 11, is efficiently dissipated so that radiator 3 can be oriented to multiple directions Heat.

Embodiment five

On the basis of any one embodiment into example IV of above-described embodiment one, the present embodiment five additionally use with Preferred structure down:

The electric power heating molten salt energy-storage convector is additionally provided with temperature sensor and temperature controller；The temperature Sensor is arranged in the fused salt 4, the control terminal of the output end of the temperature sensor and the dry combustion method type electric heating tube 21 It is electrically connected respectively with the temperature controller.

So that ceiling temperature can be set by temperature controller, when temperature sensor detects the actual temperature of fused salt 4 When more than ceiling temperature, the i.e. controllable dry combustion method type electric heating tube 21 of temperature controller is powered off, and stops heating.

The utility model is not limited to above-mentioned specific embodiment, according to above content, according to the ordinary skill of this field Knowledge and customary means, under the premise of not departing from the utility model above-mentioned basic fundamental thought, the utility model can also be made Equivalent modifications, replacement or the change of other diversified forms, all fall among the protection scope of the utility model.

Claims (10)

1. a kind of electric power heats molten salt energy-storage convector, it is characterised in that: the electric power heating molten salt energy-storage heating dissipates Hot device is equipped with container (1), electric heater unit (2) and radiator (3)；Fused salt (4), the electricity are loaded in the container (1) Heating device (2) is made of dry combustion method type electric heating tube (21), metal powder (22) and thermally conductive sheath (23), the thermally conductive sheath (23) it is embedded in the fused salt (4), the metal powder (22) is filled in the thermally conductive sheath (23), and the dry combustion method type electricity adds Heat pipe (21) is embedded in the metal powder (22), and the radiator (3) is mounted on the outer wall of the container (1).

2. electric power according to claim 1 heats molten salt energy-storage convector, it is characterised in that: the container (1) is Rustless steel container；The dry combustion method type electric heating tube (21) uses the dry combustion method type electric heating tube using stainless steel tube as shell；It is described to lead Hot sheath (23) uses stainless steel sheath.

3. electric power according to claim 1 heats molten salt energy-storage convector, it is characterised in that: the dry combustion method type electricity adds Heat pipe (21) has creepage protection function.

4. heating molten salt energy-storage convector to electric power described in 3 any one according to claim 1, it is characterised in that: institute It states electric heater unit (2) to be mounted on the container (1) by upper outstanding slotting mode, it may be assumed that the top surface of the container (1) is one corresponding The electric heater unit (2) offers a mounting hole (1a), and the thermally conductive sheath (23) of the electric heater unit (2) is spacious for top The tube body of mouth, the thermally conductive sheath (23) are protruded into the container (1) from corresponding mounting hole (1a) and are embedded in the fused salt (4) In, and the top of the thermally conductive sheath (23) is fixedly connected with the container (1)；The dry combustion method type electric heating tube (21) is from described The opening (23a) of thermally conductive sheath (23) inserts into the inner portion and is embedded in the metal powder (22).

5. electric power according to claim 4 heats molten salt energy-storage convector, it is characterised in that: the thermally conductive sheath (23) flanging (231) around its open (23a) setting, the flanging (231) of the thermally conductive sheath (23) are equipped with for top It is located on the top surface of the container (1), and the flanging (231) of the thermally conductive sheath (23) passes through bolt and nut (5) and institute The top surface for stating container (1) is connected and fixed.

6. heating molten salt energy-storage convector to electric power described in 3 any one according to claim 1, it is characterised in that: institute The electric power heating molten salt energy-storage convector stated is equipped with multiple electric heater units (2).

7. heating molten salt energy-storage convector to electric power described in 3 any one according to claim 1, it is characterised in that: institute The outer wall for stating container (1) is divided into oriented heat dissipating face (11) and non-directional radiating surface (12), on the non-directional radiating surface (12) It is covered with heat-barrier material；The radiator (3) is equipped with cooling fin (31) and adjusts skeleton (32), the adjusting skeleton (32) Equipped with heat inlet (32a) and thermovent (32b), and the adjusting skeleton (32) can adjust the heat inlet (32a) and heat dissipation The distance between mouth (32b), the position for adjusting skeleton (32) in addition to the heat inlet (32a) and thermovent (32b) are equal It is covered with heat-barrier material；The heat inlet (32a) for adjusting skeleton (32) is fixed on the oriented heat dissipating face of the container (1) (11) on, the cooling fin (31) is mounted on the thermovent (32b) for adjusting skeleton (32).

8. electric power according to claim 7 heats molten salt energy-storage convector, it is characterised in that: the adjusting skeleton It (32) is straight four prism type skeleton, the straight four prism type skeleton is by four shafts, first rectangular frame (325) and the second rectangle frame Frame (326) composition；Four shaft, that is, first rotating shafts (321), the second shaft (322), third shaft (323) and the 4th shaft (324) four inclines as the straight four prism type skeleton, the first rotating shaft (321) and the second shaft (322) are fixed on Space conduct on the oriented heat dissipating face (11) of the container (1), between the first rotating shaft (321) and the second shaft (322) The heat inlet (32a) for adjusting skeleton (32), the front side edge and the first rotating shaft of the first rectangular frame (325) (321) it being rotatablely connected, the back side edge of the first rectangular frame (325) and the 4th shaft (324) are rotatablely connected, and described the The front side edge of two rectangular frames (326) and second shaft (322) are rotatablely connected, after the second rectangular frame (326) Side and the third shaft (323) are rotatablely connected, and the space between the third shaft (323) and the 4th shaft (324) is made For the thermovent (32b) for adjusting skeleton (32), the first rectangular frame (325) and second rectangular frame (326) are respectively It is covered with rigid heat-barrier material, the upper side edge of the first rectangular frame (325) and the upside of the second rectangular frame (326) Flexible insulant material, lower side and the second rectangular frame (326) of the first rectangular frame (325) are covered between side Lower side between be covered with flexible insulant material.

9. electric power according to claim 7 heats molten salt energy-storage convector, it is characterised in that: the container (1) Outer wall is equipped with oriented heat dissipating face (11) described in muti-piece, is mounted on a set of heat dissipation on each piece of oriented heat dissipating face (11) Device (3).

10. heating molten salt energy-storage convector to electric power described in 3 any one according to claim 1, it is characterised in that: institute The electric power heating molten salt energy-storage convector stated is additionally provided with temperature sensor and temperature controller；The temperature sensor setting In the fused salt (4), the control terminal of the output end of the temperature sensor and the dry combustion method type electric heating tube (21) respectively with The temperature controller is electrically connected.