CN207035300U - A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system - Google Patents

A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system Download PDF

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Publication number
CN207035300U
CN207035300U CN201720072544.8U CN201720072544U CN207035300U CN 207035300 U CN207035300 U CN 207035300U CN 201720072544 U CN201720072544 U CN 201720072544U CN 207035300 U CN207035300 U CN 207035300U
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China
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heat
pipe
accumulation
regenerative apparatus
cell body
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CN201720072544.8U
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Chinese (zh)
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茅新波
渠志鹏
邬志军
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Zhejiang Bright Energy Saving Technology Co Ltd
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Zhejiang Bright Energy Saving Technology Co Ltd
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Abstract

The utility model discloses a kind of heat pipe-type regenerative apparatus and its accumulation of heat application system.The heat pipe-type regenerative apparatus includes accumulation of heat cell body, and heat storage tank body is internally provided with electric heating heat pipe, upper water distributor, lower water-dispensing device.Upper water distributor is arranged on the top of accumulation of heat cell body, and lower water-dispensing device is arranged on the bottom of accumulation of heat cell body.Electric heating heat pipe is arranged between upper and lower water-locator, can also be arranged on the bottom of lower water-dispensing device.And it is possible to heat release coil pipe is set between upper and lower water-locator.Heat-accumulating process is realized by electric heating heat pipe, and the exothermic process of different modes can be realized by heat release coil pipe or upper and lower water-locator.By accumulation of heat application system, this heat pipe-type regenerative apparatus can be controlled to realize any switching laws between different operating conditions such as " accumulation of heats ", " heat release " or " confession when storing ".This heat pipe-type regenerative apparatus has the characteristics that simple in construction, floor space is small, operational efficiency is high, easy to maintenance.

Description

A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system
Technical field
A kind of regenerative apparatus, more particularly to a kind of heat pipe-type regenerative apparatus are the utility model is related to, also relates to include The accumulation of heat application system of the heat pipe-type regenerative apparatus, belongs to technical field of energy storage.
Background technology
Due to the unstability of generation of electricity by new energy and the propulsion of energy internet, the basic energy of country has been included in energy storage Planning.Accumulation of heat has obtained wideling popularize and supporting for government as a kind of effective means for realizing energy storage technology.Regenerative apparatus one As be divided into the modes such as solid heat storage, phase-transition heat-storage and water accumulation of heat, the regenerative apparatus of main flow is water accumulation of heat in engineering at present.Water accumulation of heat Apparatus and system presently, there are following common problem:
1. traditional water hold over system is typically made up of the equipment such as electric boiler, regenerative apparatus and circulating pump, plate type heat exchanger, Equipment is more, floor space is big, operational efficiency is low.
2. having some producers once to test electrothermal tube is placed on direct-fired scheme inside heat storage tank, but result and pays no attention to Think, its reason is that the volume of heat storage tank is larger, and internal flow velocity is often than relatively low, and electrothermal tube is by resistance wire, magnesium powder and electric heating Pipe shell forms, and electric heating pipe shell can not possibly be made big, cause heat caused by electrothermal tube to be taken away by current, electric heating Pipe is often easy to fouling, and incrustation scale is the non-conductor of heat, when a part of fouling of electrothermal tube, remaining electrothermal tube appearance Area is smaller, and the heat flow density on surface is bigger, it is easier to fouling, so the speed of the electrothermal tube damage of this device is fast, electric heating Pipe can cause recirculated water powered once damaging, and great potential safety hazard be present, and be needed the water releasing of heat storage tank after damaging After can by electrothermal tube take out change, system need it is out of service, these reasons cause this electrothermal tube directly in heat storage tank The mode of middle heating is difficult to be approved by client.
3. electric heater is damaged when needing repairing, generally require could take out electric add after the medium in container is removed Hot device is repaired, it is also necessary to container stops heating work, waits after electric heater is repaired or changes, container it is heated Cheng Caineng restarts.So not only made troubles to maintenance personal, also affect the operating efficiency of container.
4. water hold over system is generally divided into primary side and secondary side system, first and second side is separated with plate type heat exchanger, so Cause primary side, secondary side to be required for a set of circulating pump, level pressure and control device, add the initial cost of system and answering for maintenance Polygamy, and primary side pump operating cycle also increases system energy consumption and loss.
It is a kind of good method for reducing volume using high-temperature heat accumulation 5. the volume of water accumulation of heat is typically bigger, but it is traditional Way high-temperature heat storage device need a set of high-temperature heat accumulation system to coordinate, this set system need high temperature resistant, high pressure heat exchanger, The accessories such as pump, valve, they are not only expensive, and it is easy to aging, be not durable, repair it is more complicated, this be restrict high-temperature heat accumulation push away A wide major reason.
In summary, existing regenerative apparatus exist function is single and equipment is more, system complex, fragile, difficult maintenance, energy Consume the shortcomings of high.Corresponding hold over system also has that floor space under simple target is big, high energy consumption, and system equipment is more, designs With control is complicated, cost is expensive, fail to realize the high-efficiency comprehensive utilization of the energy the problems such as.It is therefore desirable to existing regenerative apparatus And its system is further improved.
The content of the invention
Primary technical problem to be solved in the utility model is to provide a kind of heat pipe-type regenerative apparatus.
Another technical problem to be solved in the utility model is to provide a kind of storage for including the heat pipe-type regenerative apparatus Heat application system.
To achieve these goals, the utility model uses following technical proposals:
A kind of heat pipe-type regenerative apparatus, including accumulation of heat cell body, the heat storage tank body are internally provided with electric heating heat pipe heat exchanging dress Put, upper water distributor, lower water-dispensing device, the upper water distributor is arranged on the top of the accumulation of heat cell body, and the lower water-dispensing device is arranged on The bottom of the accumulation of heat cell body, the electric heating heat pipe be arranged between the upper water distributor and the lower water-dispensing device or The lower section of lower water-dispensing device described in person.
Wherein more preferably, the electric heating heat pipe is made up of at least one set of electric heating heat exchange of heat pipe;
The electric heating heat exchange of heat pipe is made up of upper header, lower collector pipe, branch pipe, electric heater, the electric heater installation In the lower collector pipe, the branch pipe is vertical or is inclined in the lower collector pipe, and one end of the branch pipe with it is described under Header in communication, the other end of the branch pipe connect with the upper header, the upper header level or the placement that is inclined upwardly, described The highest point of upper header is provided with sprue, and the sprue passes through end cap seal.
Wherein more preferably, the electric heater uses metal tube electric heater;The metal tube electric heater is by boundling Multiple metal electric heating pipes composition of arrangement;The metal tube electric heater is under the insertion of the one or both ends of the lower collector pipe is described In collector, the lower collector pipe mouth of pipe is provided with terminal box with the metal tube electric heater junction.
Wherein more preferably, at least one set of heat release coil pipe is set in the accumulation of heat tank body;The heat release coil pipe is arranged on described Between upper water distributor and the lower water-dispensing device;Heat release coil pipe described in each group is connected with each other and is aggregated into a total Inlet and outlet water of heat release Pipe;Or multigroup heat release coil pipe links together and is aggregated into a total water inlet pipe and water outlet pipe of heat release;Or will be adjacent described in put Hot coil forms snakelike heat release coil pipe using elbow head and the tail connected mode.
Wherein more preferably, one section of the heat release coil pipe or multistage are put into electric heating heat exchange of heat pipe, the heat release disk Pipe inserts the upper header, the both ends of the heat release coil pipe and the upper collection from the one or both ends of the electric heating heat exchange of heat pipe The mouth of pipe welded seal at pipe both ends.
Wherein more preferably, multiple mouths of a river are provided with the accumulation of heat cell body, multiple mouths of a river correspond to and the upper water distribution Device, lower water-dispensing device connection;Bottom, middle part, the top of the accumulation of heat cell body are provided with temperature sensor and pressure sensor, The temperature sensor is connected with the pressure sensor with controller;The heat storage tank external surface is disposed with heat-insulation layer And protective layer.
Wherein more preferably, when the heat pipe-type regenerative apparatus is used for high-temperature heat accumulation, the accumulation of heat cell body is enclosed, cylinder Shape cell body, and it is provided with safety valve;When the heat pipe-type regenerative apparatus is used for normal temperature accumulation of heat, the accumulation of heat cell body is circular cell body Or any one in square cell body.
Wherein more preferably, for the heat pipe-type regenerative apparatus when using high-temperature heat accumulation, regenerator temperature is set higher than 100 degree When, using constant pressure arrangement level pressure.
A kind of accumulation of heat application system, including heating terminal, circulating pump, constant pressure arrangement, water softening device and multiple motor-driven valves And pipeline, the heating terminal, the circulating pump, the constant pressure arrangement, the water softening device pass through the pipeline and institute The connection of heat pipe-type regenerative apparatus is stated, multiple motor-driven valves are set in the duct.
Wherein more preferably, multiple motor-driven valves be the first motor-driven valve, it is the second motor-driven valve, the 3rd motor-driven valve, the 4th electronic Valve, first motor-driven valve are connected with the upper water distributor, and second motor-driven valve is connected with the heat release coil pipe water inlet pipe, institute The 3rd motor-driven valve is stated to be connected with lower water-dispensing device, the pipeline where the 4th motor-driven valve respectively with first motor-driven valve, described Pipeline communication where second motor-driven valve, the 3rd motor-driven valve.
Compared with prior art, heat pipe-type regenerative apparatus provided by the utility model in heat storage tank body by setting Electric heating heat pipe, upper water distributor and lower water-dispensing device, and heat release coil pipe is set according to actual conditions, heat release can be passed through Coil pipe or upper and lower water-locator realize the exothermic process of different modes.By accumulation of heat application system this heat pipe-type can be controlled to store Thermal realizes the switching between different operating conditions such as " accumulation of heats ", " heat release " or " confession when storing ".The accumulation of heat of this heat pipe-type fills Putting has the characteristics that simple in construction, floor space is small, operational efficiency is high, easy to maintenance, and can cancel high temperature side pipe-line system, Realize high-temperature heat accumulation, cold operation.
Brief description of the drawings
Fig. 1 is the front view of heat pipe-type regenerative apparatus provided by the utility model;
Fig. 2 is the side view of heat pipe-type regenerative apparatus provided by the utility model;
Fig. 3 is the top view of heat pipe-type regenerative apparatus provided by the utility model;
Fig. 4 is the structural representation of electric heating heat exchange of heat pipe in heat pipe-type regenerative apparatus provided by the utility model;
Fig. 5 is in heat pipe-type regenerative apparatus provided by the utility model, and electric heating heat pipe fills with heat release coil pipe With schematic diagram;
Fig. 6 is the flow chart of the accumulation of heat application system of heat pipe-type regenerative apparatus provided by the utility model.
Embodiment
Technology contents of the present utility model are described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Heat pipe-type regenerative apparatus provided by the utility model includes accumulation of heat cell body and is arranged on inside heat storage tank body Electric heating heat pipe, heat release coil pipe, upper water distributor, lower water-dispensing device.Wherein, electric heating heat pipe, heat release coil pipe are set Put between upper water distributor and lower water-dispensing device, upper water distributor is arranged on the top of accumulation of heat cell body, and lower water-dispensing device is arranged on heat storage tank The bottom of body.In addition, electric heating heat pipe can also be arranged on the bottom of lower water-dispensing device.This heat pipe-type regenerative apparatus can be with It is independent to realize heating and accumulation of heat, and under the cooperation of circulating pump, it is possible to achieve external heat release.Using this heat pipe-type regenerative apparatus Accumulation of heat application system in, it is possible to achieve accumulation of heat operating mode, heat-accumulator tank supplying thermal condition, in accumulation of heat supplying thermal condition, electric heater with A variety of operating conditions such as accumulation of heat cell body combined heat.
With reference to Fig. 1 to Fig. 5, heat pipe-type regenerative apparatus provided by the utility model is specifically described.
In heat pipe-type regenerative apparatus provided by the utility model, accumulation of heat cell body 1 preferably enclosed, cylindrical cell body, And it is provided with safety valve.The accumulation of heat cell body has good bearing capacity, particularly suitable for realizing high-temperature heat accumulation.When heat pipe-type stores When thermal is used for normal temperature accumulation of heat, accumulation of heat cell body 1 can be any one in circular trough body or square cell body.So, the heat Tubular type regenerative apparatus both can be used for heating, can be used for providing domestic hot-water.The regenerator temperature of the heat pipe-type regenerative apparatus It is set higher than 100 degree but operating pressure is less than 0.1Mpa, and use constant pressure arrangement level pressure, so as to obtains larger accumulation of heat Amount, while avoid accumulation of heat cell body to be defined as pressure vessel again, to reduce manufacture and testing cost.When the heat pipe-type regenerative apparatus During for heating, heat supply object is heating terminal.Heating terminal can use any side such as floor heating, fan coil or radiator Formula.In addition, after heat pipe-type regenerative apparatus configuration refrigeration host computer or ice slurry machine, water cold storage or ice cold-storage can be also realized.
As shown in figure 1, first mouth of a river 4 and second mouth of a river 5 being connected with upper lower water-dispensing device are provided with accumulation of heat cell body 1, And the 3rd mouth of a river 6 and the 4th mouth of a river 7 being connected with heat release coil pipe 3, go back in addition on cell body and be additionally provided with access hole, maintenance ladder, row Dirty mouth 9, relief valve port 8, wherein, first mouth of a river 4 is connected with upper water distributor house steward, and second mouth of a river 5 is connected with lower water-dispensing device house steward, And first mouth of a river 4 is arranged on the top of accumulation of heat cell body 1, second mouth of a river 5 is arranged on the bottom of accumulation of heat cell body 1.3rd mouth of a river 6 with The water inlet manifold of heat release coil pipe 3 is connected, and the 4th mouth of a river 7 is connected with the outfall sewer of heat release coil pipe 3, and the 3rd mouth of a river 6 and the 4th mouth of a river 7 can To be arranged on the top of accumulation of heat cell body 1, the position that supply mains can also be passed in and out according to heat release coil pipe 3 is adjusted correspondingly.Root According to design requirement and on-site actual situations, access hole can be arranged on side wall or the top of accumulation of heat cell body 1.Sewage draining exit 9 is set In the bottom of accumulation of heat cell body 1, and it is connected with blow-off pipe;Relief valve port 8 can be arranged on the top of accumulation of heat cell body 1, and with accumulation of heat cell body 1 Flange connection on outer wall.
Accumulation of heat cell body 1 can use the manufacture of the nonmetallic materials such as metal material or glass steel such as steel, stainless steel Form, what the volume of accumulation of heat cell body 1 was determined by amount of stored heat and regenerator temperature after calculating.Set in the outer surface of accumulation of heat cell body 1 There are heat-insulation layer and protective layer, wherein, heat-insulation layer can use the insulation material being identical with the material of accumulation of heat cell body 1, such as can To use highdensity polyurethane foam, heat-insulation layer is set to play heat insulating effect well in the outer surface of accumulation of heat cell body 1.When When this heat pipe-type regenerative apparatus is used to realize cold-storage and thermal storage function, heat-insulation layer is preferably protected using polyurethane foam or rubber and plastic Temperature.When this heat pipe-type regenerative apparatus is used only for realizing heat accumulation function, heat-insulation layer can preferably use mineral wool or rock Cotton is incubated.Protective layer is arranged on the outside of heat-insulation layer, protective layer can use galvanized steel plain sheet, aluminium alloy plate or stainless steel plate, The materials such as color steel are made.According to the pressure-bearing situation of accumulation of heat cell body 1, the top plate of accumulation of heat cell body 1 can be used different structures, Wherein preferably, when the pressure that accumulation of heat cell body 1 is born is higher, the top plate of accumulation of heat cell body 1 can use circular head plate.In order to The heat insulation effect of this heat pipe-type regenerative apparatus is better achieved, the accumulation of heat cell body 1 of this heat pipe-type regenerative apparatus can be arranged on On heat-insulating base.Medium in accumulation of heat cell body 1 can be joined directly together with end (such as heating equipment etc.) medium, and end is put Heat, and bear the pressure of end system, so as to avoid conventional hold over system by plate type heat exchanger by primary side and secondary side Separate.
Electric heating heat pipe provided by the utility model is by one group or multigroup electric heating heat exchange of heat pipe 2 forms. This heat pipe-type regenerative apparatus can realize high-temperature heat accumulation by electric heating heat exchange of heat pipe 2, can also realize normal temperature accumulation of heat.Electric heating heat Heat exchange of heat pipe 2 can be made variously-shaped in regenerative apparatus, can also carry out various combinations.As shown in FIG. 1 to 3, at this Two groups of electric heating heat exchange of heat pipes 2 are provided with heat pipe-type regenerative apparatus, and two groups of electric heating heat exchange of heat pipes 2 are interlocked with an angle of 90 degrees It is arranged in heat pipe-type regenerative apparatus, is uniformly distributed in heat-accumulator tank, to reach the purpose for uniformly heating heat-accumulator tank.Such as figure Shown in 4, special-shaped heat pipe and heat release coil pipe that electric heating heat exchange of heat pipe 2 is made up of upper header 202, lower collector pipe 203 and branch pipe 204 Pipeline section 201, the electric heater 205 of insertion electric heating heat exchange of heat pipe form, wherein, heat release coil pipe insertion electric heating heat exchange of heat pipe Pipeline section 201 is arranged in upper header 202, and electric heater 205 is arranged in lower collector pipe 203.Branch pipe 204 is vertical or is inclined at In lower collector pipe 203;And one end of branch pipe 204 connects with lower collector pipe 203, the other end of branch pipe 204 connects with upper header 202, The level of upper header 202 or the placement that is inclined upwardly, the highest point of upper header 202 is provided with sprue 209, sprue 209 is logical Cross end cap 207 to seal, when electric heating heat exchange of heat pipe 2 damages or electric heater 205 needs to change, the sprue can be passed through 209 vacuumize simultaneously material feeding.Upper header 202, lower collector pipe 203, the thickness of branch pipe 204 according to heat pipe heat-transfer capability and design power Determined after thermodynamic metering.Upper header 202, lower collector pipe 203, branch pipe 204 can be according to Jie in this heat pipe-type regenerative apparatus Matter characteristic and design requirement are made up of the various metals such as carbon steel, stainless steel, copper, aluminium.In order to strengthen heat exchange area and exchange capability of heat, Upper header 202, lower collector pipe 203, branch pipe 204 can use a variety of implementations such as light pipe, bellows and finned tube.Every group of electric heating The lower collector pipe 203 and branch pipe 204 of heat exchange of heat pipe 2 be it is separate, can be by the upper header of multigroup electric heating heat exchange of heat pipe 2 202 are connected with each other.And that upper header 202, lower collector pipe 203, the composition of branch pipe 204 of this electric heating heat exchange of heat pipe 2 are interconnected, The cavity of closing, cavity inside is vacuumized and irrigates heat-transfer working medium after the PROCESS FOR TREATMENTs such as transpassivation.Wherein, heat-transfer working medium is excellent Elect inorganic heat transfer working medium as, the inorganic heat transfer working medium is with heat transfer is rapid, axial heat flux density is big, toggle speed is fast, in cavity Portion's pressure is low, reliable operation, service life are long and does not produce many advantages, such as chemically reacting with cavity metal.
The connection of the pipeline section 201 and upper header 202 of heat release coil pipe insertion electric heating heat exchange of heat pipe can have various ways, its A kind of middle preferable mode is that the pipeline section 201 that heat release coil pipe is inserted to electric heating heat exchange of heat pipe inserts from one end of upper header 202 Upper header 202, passed from the other end of upper header 202, and the mouth of pipe at the both ends of pipeline section 201 and the both ends of upper header 202 is welded Sealing, in order to strengthen exchange capability of heat, the pipeline section 201 of heat release coil pipe insertion electric heating heat exchange of heat pipe can use helix tube, ripple Pipe or internal plus turbolator;As shown in figure 3, another preferable mode is, in the upper header 202 of electric heating heat exchange of heat pipe 2 The pipeline section 201 of the heat release coil pipe insertion electric heating heat exchange of heat pipe of setting is U-tube structure, can be by the pipeline section 201 from upper header 202 one end insertion upper header 202, is passed, and heat release coil pipe is inserted into electric heating heat exchange of heat pipe from the other end of upper header 202 Pipeline section 201 both ends and the both ends of upper header 202 mouth of pipe welded seal.Obviously, heat release coil pipe insertion electric heating heat exchange of heat pipe Pipeline section 201 can also be inserted from the both ends of upper header 202, and with the mouth of pipe welded seal at the both ends of upper header 202.Heat release coil pipe Medium be preferably water.This electric heating heat exchange of heat pipe 2 is mainly utilized the electric heater 205 inside electric heating heat exchange of heat pipe 2 Heated, heat moment is passed to the characteristic on the whole surface of electric heating heat exchange of heat pipe 2 so that electric heating heat exchange of heat pipe 2 opens Move and heat very fast;And not only heat exchange area is bigger for this electric heating heat exchange of heat pipe 2, and fill the accumulation of heat of this heat pipe-type Medium in putting is heated evenly.The power of the electric heater 205 set in the lower collector pipe 203 of electric heating heat exchange of heat pipe 2 is by complete The working time of heat release load and heater required for it determines after calculating.Also, electric heater 205 can be metal Pipe electric heater 205, it can be realized using the metal tube electric heater 205 and directly heat lower collector pipe 203.Metal tube electric heater 205 multiple metal electric heating pipes by being arranged in boundling form.The material of metal tube electric heater 205 can be stainless steel or carbon steel Etc. material.Metal tube electric heater 205 can be inserted into electric heating heat pipe from one end of the lower collector pipe 203 of electric heating heat exchange of heat pipe 2 and change In the lower collector pipe 203 of hot device 2, metal tube electric heater 205 and one end of lower collector pipe 203 are fixed on by the sealing of ring flange 206 Together, the other end end cap 207 of lower collector pipe 203 seals;Metal tube electric heater 205 can also be respectively from electric heating heat pipe heat exchanging The both ends of the lower collector pipe 203 of device 2 are inserted into the inside (not shown) of lower collector pipe 203 of electric heating heat exchange of heat pipe 2, pass through lower collector pipe The both ends of two metal tube electric heaters 205 and lower collector pipe 203 are sealed and are fixed together by the ring flange 206 at 203 both ends respectively. And terminal box 208 can be set in the mouth of pipe of lower collector pipe 203 and the junction of metal tube electric heater 205, pass through the terminal box 208 The power line of metal tube electric heater 205 can be encapsulated, the power line can pass simultaneously from the hole that terminal box 208 is reserved It is connected with external power supply, realizes the power supply to electric heater 205.When metal tube electric heater 205 starts, metal tube electrical heating Device 205 directly heats the heat-transfer working medium in lower collector pipe 203, and by the high rate heat transport of the transfer working medium in heat of electric heating heat exchange of heat pipe 2 Characteristic, by upper header 202 and branch pipe 204 of the heat transfer in lower collector pipe 203 to electric heating heat exchange of heat pipe 2, make electric heating hot The Quick uniform of heat exchange of heat pipe 2 heats to the medium in this heat pipe-type regenerative apparatus.It can also be set around electric heater 205 Temperature measuring equipment is put, temperature measuring equipment includes temperature tube and temperature sensor, and temperature sensor is arranged in temperature tube, the temperature measuring equipment It is connected with Overtemperature protection circuit, for monitoring the temperature of electric heater 205 in real time.By setting electric heating heat in accumulation of heat cell body 1 Heat exchange of heat pipe 2, electric heater 205 is placed in lower collector pipe 203 so that electric heater 205 is protected and avoided well The danger of fouling.And when electric heating heat exchange of heat pipe 2 damages, can be in the case where not discharging water, by electric heater 205 from storage After taking out maintenance in thermal, heat-transfer working medium is irrigated by the sprue 209 of upper header 202, is easy to electric heating heat exchange of heat pipe 2 Maintenance.
In one embodiment of the present utility model, heat release coil pipe 3 is by the warm such as seamless steel pipeline or stainless steel pipes, copper pipe The good metallic conduit of switching performance or inner sleeve are formed by connecting, and can be by the more steel pipes or stainless steel of heat release coil pipe 3 Pipe joins end to end be fabricated to the diversified forms such as snakelike, circular, spiral shape after, respectively with the 3rd mouth of a river 6 on accumulation of heat cell body 1, Four mouths of a river 7 connect.The caliber of heat release coil pipe 3 is determined by many factors such as flow velocity and resistances.The heat release coil pipe stores in this heat pipe-type In thermal, it is possible to achieve to end heat release and the temperature of heat-accumulator tank is reduced at heat-accumulator tank high temperature (such as more than 100 degree), with And realize while store while supply when heat release function.
Heat release coil pipe 3 is segmented into multigroup, multigroup can will can be independently inserted with one of which or respectively different electricity In hot heat exchange of heat pipe, as shown in figure 5, the entery and delivery port of multigroup heat release coil pipe 3 is aggregated into heat release coil pipe 3 in accumulation of heat cell body 1 It is connected after total inlet tube and outlet tube with the 3rd mouth of a river 6, the 4th mouth of a river 7.Wherein, the preferred water of medium flowed in heat release coil pipe 3, heat release Coil pipe 3 can use light pipe, can also use bellows, helix tube and finned tube, and can add flow-disturbing in heat release coil pipe 3 Son, can also be in outer wall ribbing piece of heat release coil pipe 3 etc..Heat release coil pipe 3 is to give end heat supply in the utility model effect, simultaneously The temperature of regenerative apparatus is reduced, for example, after the completion of the regenerative apparatus accumulation of heat of this heat pipe-type, when heat release operating mode starts, heat release coil pipe The water at low temperature that end (user equipment) returns is flowed into 3, is added by the high-temperature water in heat pipe-type regenerative apparatus by heat release coil pipe wall End heat supply is transported to after heat heating, while heat pipe-type regenerative apparatus is cooled, and realizes the process of external heat release;When accumulation of heat cell body 1 in accumulation of heat and end when needing heat release, can also be by the terminad direct heating of heat release coil pipe 3, at this moment because in heat release coil pipe 3 The pipeline section 201 for having heat release coil pipe insertion electric heating heat exchange of heat pipe participates in heat release, so when being supplied when storing, in heat release coil pipe 3 On the one hand water at low temperature is heated by the medium in heat pipe-type regenerative apparatus, on the other hand by the lower collector pipe 203 of electric heating heat exchange of heat pipe 2 Electric heater 205 heat.Compared with prior art, by setting heat release coil pipe 3, the utility model institute in accumulation of heat cell body 1 The heat pipe-type regenerative apparatus of offer is able to cancel the high temperature side system such as primary side accumulation of heat circulating pump and plate type heat exchanger, realizes high temperature Accumulation of heat, cold operation;Also contribute to realize the function of supplying when storing simultaneously.
During heat release coil pipe 3 is to end heat supply, heat release coil pipe 3 can use horizontal (as shown in Figure 4) or non- Horizontal mode is placed in accumulation of heat cell body 1, can be connected with each other each group of heat release coil pipe 3, that is, can be by all heat releases Coil pipe 3 links together, and is connected after being aggregated into a total water inlet pipe and water outlet pipe of heat release with end;It will can also be set in accumulation of heat cell body 1 Multigroup heat release coil pipe 3 merotomize, per partly there is multigroup heat release coil pipe 3, by the water inlet pipe and water outlet pipe of the heat release coil pipe 3 of every part Link together, be connected after being aggregated into a heat release coil pipe disengaging supply mains with end;Can also will be adjacent in accumulation of heat cell body 1 Heat release coil pipe 3 is connected after forming snakelike heat release coil pipe 3 using elbow head and the tail connection with end;Can also be by each group of heat release coil pipe 3 inner sleeve respectively with the upper header of electric heating heat exchange of heat pipe is connected, and is aggregated into after heat release coil pipe disengaging supply mains and end End connection.As shown in figure 5, heat release coil pipe 3 can be set in this heat pipe-type regenerative apparatus.The heat release coil pipe 3 is evenly arranged in In regenerative apparatus, and the heat release coil pipe 3 inserts two groups of electric heating heat exchange of heat pipes and forms pipeline section 201 respectively.The heat of heat release coil pipe 3 Exchange area needs to determine according to installation and heating load.
In heat pipe-type regenerative apparatus provided by the utility model, upper water distributor can be according to accumulation of heat cell body with lower water-dispensing device 1 shape, volume are configured, such as upper and lower water-locator can use octagon water-locator, radial direction collar plate shape water-locator, straight Line style water-locator, H type water-locators etc., upper and lower water-locator is generally multistage water distributor, there is circular or scrak type cloth on water distributor The mouth of a river, further to reduce the water flow velocity in accumulation of heat cell body 1, upper and lower water-locator is it can also be provided that homogenizing plate or buffer board. Also, upper and lower water-locator can be formed by connecting by the various metals and nonmetal pipeline that can bear high temperature and high pressure.Wherein, Upper water distributor is arranged on to be arranged on apart from the bottom of accumulation of heat cell body 1 apart from the position of 10~40 centimetres of 1 top plate of accumulation of heat cell body, lower water-dispensing device The position that 10~40 centimetres of plate, upper and lower water-locator can be by fixing it in the inwall mounting bracket of accumulation of heat cell body 1, can be with Support is set on the bottom plate of accumulation of heat cell body 1 and sets suspension bracket that upper and lower water-locator is fixed respectively on top plate.Pass through Upper and lower water-locator makes water smoothly be imported in accumulation of heat cell body 1 with gravity stream, or by being drawn in accumulation of heat cell body 1, upper and lower water-locator EXIT POINT is uniformly distributed in accumulation of heat cell body 1, makes the flow rate of water flow of the paddle hole of upper and lower water-locator sufficiently small, and ensure water Stream evenly distributes in accumulation of heat cell body 1, reduces disturbance and to thermoclinic destruction.And in order to reduce water inlet as far as possible to heat storage tank The disturbance of the reclaimed water of body 1, the opening direction of usual upper water distributor upward, have avoided impacting thermoclinic momentum directly down, lower cloth The opening direction of hydrophone down, avoids momentum directly up, and the opening of upper and lower water-locator is generally 90 DEG C~120 DEG C.By It is connected in upper water distributor with the first delivery port, lower water-dispensing device is connected with the first water inlet, can be to accumulation of heat by upper and lower water-locator Temperature in cell body 1 carries out thermal stratification, realizes and utilizes the external heat release of heat in accumulation of heat cell body 1.Specifically, accumulation of heat cell body 1 In heat release using the principle of upper and lower water-locator thermal stratification, the principle is that the density using water at 4 DEG C or so is maximum, and And with the characteristic that the high-density of water temperature is gradually reduced, by keeping separating between density official post warm water and cold water, make temperature Low water is stored in the bottom of accumulation of heat cell body 1, and the high water of temperature is stored in the top of accumulation of heat cell body 1, in order in accumulation of heat cell body 1 On the cross section of vertical direction, make current with the smoothly equably flowing and smoothly on whole section of gravity stream or piston flow Import in accumulation of heat cell body 1, or by being drawn in accumulation of heat cell body 1, the shape between the top warm water zone of accumulation of heat cell body 1 and its underpart cold water area Into and keep the heat and mass exchange layer that one effective, thickness is as small as possible.In this heat pipe-type regenerative apparatus, by heat storage tank Upper and lower part in body 1 sets mutually isostructural water-locator, to ensure that current meet Fo Lei get when entering accumulation of heat cell body 1 (Frande) coefficient so that uniform fluid flow distributes and disturbance minimally enters accumulation of heat cell body 1.
In order to accurately control the temperature of this heat pipe-type regenerative apparatus and pressure, on the bottom of accumulation of heat cell body 1, middle part, top Portion can set temperature sensor and pressure sensor, and due to passing through various pipes between this heat pipe-type regenerative apparatus and end Road connects, and various pipelines can use the manufacture of the nonmetallic materials such as metal or fiberglass such as steel, stainless steel.So can also be Temperature sensor and pressure sensor (not shown) are set in pipeline.Temperature sensor and pressure sensor can respectively with Controller connects, and the controller can use PLC/DDC controllers or singlechip controller, and controller can be arranged on accumulation of heat The outside of cell body 1 or on cell body outer wall, is set by the diverse location in heat pipe-type regenerative apparatus and hold over system , can be by the temperature in accumulation of heat cell body 1 and in pipe-line system if dry temperature sensor and pressure sensor, the flow sensor put The parameters such as degree, pressure, flow feed back to controller in time, further control this heat pipe-type regenerative apparatus to realize by controller The different operating mode such as " accumulation of heat ", " heat release " or " confession when storing ".
The utility model additionally provides a kind of accumulation of heat application system for including above-mentioned heat pipe-type regenerative apparatus.As shown in fig. 6, The accumulation of heat application system includes this heat pipe-type regenerative apparatus, heating terminal, circulating pump 14, constant pressure arrangement 13, water softening device 15 With multiple motor-driven valves and supporting associated conduit, valve, sensing components and electrical control cubicles etc..Wherein, heating terminal can be wind Machine coil pipe, floor heating or radiator etc.;Switch board can use single-chip microcomputer, PLC or the control of DDC controllers, can be with System control is carried out comprising host computer and slave computer, and according to the design principle of the utility model description;Temperature sensor and pressure Force snesor (not shown) can be multiple, and can install flow sensor additional to measure flow and heat, other equipment It is conventional equipment, no longer Ao Shu with part.Heating terminal, circulating pump 14, constant pressure arrangement 13, water softening device 15 by pipeline with Heat pipe-type regenerative apparatus is connected, and multiple motor-driven valves are set in the duct.By controlling multiple motor-driven valves to make heat pipe-type regenerative apparatus Realize accumulation of heat, supplied when storing, heat release operating mode.It should be noted that because this accumulation of heat application system is when heat release coil pipe 3 works, Heat release coil pipe 3 and accumulation of heat cell body 1 are completely self-contained two systems, so constant pressure arrangement 13 is needed to heating terminal pipeline and heat Tubular type regenerative apparatus while level pressure are simultaneously set as identical pressure, but both temperature can be different.
The typical operation of above-mentioned accumulation of heat application system is described as follows:Heating terminal low-temperature return water fills to heat pipe-type accumulation of heat It is divided into two-way return branch before putting, wherein be connected all the way after return branch installation motor-driven valve V3 with lower water-dispensing device 11, and in heat release During operating mode, the high-temperature water in accumulation of heat cell body 1 is ejected to be transported to by motor-driven valve V1 after accumulation of heat cell body 1 by upper water distributor 12 and adopted Warm end heat release;Return branch is connected with motor-driven valve V2 and V4 respectively all the way in addition, and wherein motor-driven valve V2 is intake with heat release coil pipe 3 House steward is connected.When supplying operating mode when storing, heating terminal low-temperature return water enters the low-temperature return water quilt of heat release coil pipe 3 from motor-driven valve V2 After accumulation of heat cell body 1 and the heating of electric heating heat exchange of heat pipe, heating terminal heat release is transported to.Pipeline where motor-driven valve V4 respectively with Motor-driven valve V1 connects with pipeline where motor-driven valve V2 and return branch with water supply branch pipe.
There is two-way heat supply branch pipe before the high-temperature heat supply water pump of heating terminal, wherein heat supply branch pipe goes out with heat release coil pipe all the way Water pipe is connected, and the heat supply branch pipe is responsible for when heat release coil pipe puts into heat release to end heat supply;In addition all the way branch pipe respectively with it is electronic Pipeline where valve V1 is connected with the pipeline where motor-driven valve V4, and the heat supply branch pipe is responsible for when water-locator puts into heat release to end Heat supply.
By this accumulation of heat application system can control this heat pipe-type regenerative apparatus realize accumulation of heat, supply when storing, heat release etc. no With operating condition, each operating condition and and corresponding control logic be described as follows:
1. trough-electricity accumulation of heat operating mode:
Under the operating mode, electric heater is in running order, and circulating pump is in halted state, motor-driven valve V1, motor-driven valve V2, electricity Dynamic valve V3, motor-driven valve V4 are closed.During trough-electricity, electric heater 205 starts and by electric heating heat exchange of heat pipe 2 Accumulation of heat cell body 1 is heated, when being heated to accumulation of heat design temperature, the temperature sensor feedback in cell body 1 cuts off electricity to controller Source, the electric heater 205 of electric heating heat exchange of heat pipe 2 stop heating;Wherein it is possible to regenerator temperature is set as 115 degree, so as to energy Larger amount of stored heat is enough obtained, while avoids cell body 1 to be defined as pressure vessel again, inspection cost is manufactured and supervise to reduce.Work as accumulation of heat When pressure in cell body 1 exceedes the maximal pressure force value of setting, pressure sensor feeds back to controller and cut off the electricity supply, and electric heating heat pipe changes The electric heater 205 of hot device 2 stops heating, while controller carries out fault alarm, to play safeguard protection effect;Work as pressure value More than safety valve setting limiting pressure when, controller control safety valve opens and carries out pressure release, while controller progress failure Alarm, and cut off the electricity supply, the electric heater 205 of electric heating heat exchange of heat pipe 2 stops heating.
When system is in this operating mode, motor-driven valve V1, motor-driven valve V2 and motor-driven valve V3, motor-driven valve V4 are in closing shape State, circulating pump are also at halted state, and electric heater 205 carries out continuous heating to heat-accumulator tank.
2. supply operating mode when storing:
Under the operating mode, electric heater and circulating pump are in running order, and motor-driven valve V2, motor-driven valve V4, which are in, to be opened or adjust State, motor-driven valve V1, motor-driven valve V3 are closed.The interior media of heat release coil pipe 3 under this operating mode with accumulation of heat cell body 1 Medium by motor-driven valve V1, motor-driven valve V3 cut off, turn into heat pipe-type regenerative apparatus and heat release coil pipe+circulating pump+heating terminal The two each independent systems, and identical pressure is set as by constant pressure arrangement.When accumulation of heat needs heat supply simultaneously, such as Heated for house at night, it is necessary to using this operating mode.At this moment electric heater 205 starts and right by electric heating heat exchange of heat pipe 2 Accumulation of heat cell body 1 heats, meanwhile, as a part for heat release coil pipe 3, upper header 202 and the heat release disk of heat pipe type electric heater 205 The water at low temperature that pipe 3 together returns heating terminal is heated as high-temperature water, realizes external heat supply function, and at this moment, accumulation of heat cell body 1 adds Control logic of the control logic of heat with trough-electricity accumulation of heat operating mode.During heat release, the backwater of heating terminal enters by motor-driven valve V2 Heat release coil pipe, entered circulating pump suction inlet after high-temperature medium heating in the upper header of electric heating heat exchange of heat pipe and heat storage tank body, Heating terminal heat release is pumped into by circulation.When the load of heating terminal is less than normal, when thermal discharge is excessive, motor-driven valve V2 can be passed through Turn down, the method for reducing heat release coil pipe pipeline flow reduces the thermal discharge of heat pipe-type regenerative apparatus, while adjusts motor-driven valve V4 Size control heating terminal low-temperature return water flow, so as to while heating terminal heating load needs are met control arrive heating The heat supply temperature of end.When the load of heating terminal is bigger than normal, when thermal discharge is too small, can be opened by motor-driven valve V2 greatly, increase is put The method of hot coil pipeline flow increases the thermal discharge of heat pipe-type regenerative apparatus, while the size control for adjusting motor-driven valve V4 is adopted The low-temperature return water flow of warm end short circuit, so that the confession of heating terminal is arrived in control while heating terminal heating load needs are met Hot temperature.When this accumulation of heat application system in heat-accumulating process, it is necessary to during orderly heating, it is also desirable to use above-mentioned operating mode.
3. heat release operating mode
After heat release operating mode starts, following two stages can be divided into:
First stage is the heat release of heat release coil pipe 3, when heat storage tank in-vivo medium temperature is higher than the operating temperature of upper and lower water-locator (temperature can be set as to 90 degree) uses the heat release of heat release coil pipe 3.In this stage, circulating pump is in running order, and electricity adds Hot device is in halted state, and motor-driven valve V2, motor-driven valve V4 are in unlatching or adjustment state, and motor-driven valve V1, motor-driven valve V3, which are in, to close Closed state.At this moment, heat pipe-type regenerative apparatus is by the 3 external heat release of heat release coil pipe, the interior media of heat release coil pipe 3 this stage with Medium in accumulation of heat cell body 1 is cut off by motor-driven valve V1, motor-driven valve V2, turns into heat pipe-type regenerative apparatus and heat release coil pipe+water follows The two each independent systems, and identical pressure is set as by constant pressure arrangement of ring pump+heating terminal.In heat release coil pipe 3 Heating terminal backwater heated by accumulation of heat cell body 1 mixed with heating terminal backwater by threeway after be transported to heating terminal heat supply. It when the load of heating terminal is less than normal, when thermal discharge is excessive, can be turned down by motor-driven valve V2, reduce heat release coil pipe pipeline flow Method reduces the thermal discharge of heat pipe-type regenerative apparatus, while adjusts the low temperature of motor-driven valve V4 size control heating terminal short circuit Circling water flow rate, so that the heat supply temperature of heating terminal is arrived in control while heating terminal heating load needs are met.When heating end The load at end is bigger than normal, when thermal discharge is too small, can be opened by motor-driven valve V2 greatly, the method for increasing heat release coil pipe pipeline flow increases The thermal discharge of big heat pipe-type regenerative apparatus, while adjust the low-temperature return water stream of motor-driven valve V4 size control heating terminal short circuit Amount, so that the heat supply temperature of heating terminal is arrived in control while heating terminal heating load needs are met.
Second stage is upper and lower water-locator heat release, and in this stage, the temperature in heat pipe-type regenerative apparatus has been reduced to Design temperature (wherein preferably, is set as 90 degree), and at this moment water-circulating pump is in running order, and electric heater, which is in, stops shape State, motor-driven valve V1, motor-driven valve V3, motor-driven valve V4 are in unlatching or adjustment state, motor-driven valve V2 are closed.At this moment heat supply Script is switched to and upper water distributor 12, the phase of lower water-dispensing device 11 by heating terminal by motor-driven valve with the pipeline that heat release coil pipe 3 is connected Even, the high-temperature medium in heat pipe-type regenerative apparatus is transported to heating terminal after being mixed by upper water distributor 12 with heating terminal backwater Heat supply.It when the load of heating terminal is less than normal, when thermal discharge is excessive, can be turned down by motor-driven valve V1, reduce water-locator pipeline stream The method of amount reduces the thermal discharge of heat pipe-type regenerative apparatus, while adjust motor-driven valve V4 size control heating terminal short circuit Low-temperature return water flow, so that the heat supply temperature of heating terminal is arrived in control while heating terminal heating load needs are met.When adopting The load of warm end is bigger than normal, and when thermal discharge is too small, the method for increasing heat release coil pipe pipeline flow greatly can be opened by motor-driven valve V1 To increase the thermal discharge of heat pipe-type regenerative apparatus, while adjust the low-temperature return water of motor-driven valve V4 size control heating terminal short circuit Flow, so that the heat supply temperature of heating terminal is arrived in control while heating terminal heating load needs are met.
It is emphasized that above-mentioned accumulation of heat application system has various control thinking, such as circulation can be added by motor-driven valve Pump frequency conversion reaches similar control effect.In actual use, when not needing accumulation of heat, heat pipe-type provided by the utility model Regenerative apparatus can also realize normal temperature heat accumulation function, and now accumulation of heat cell body can also use square accumulation of heat cell body.
This heat pipe-type regenerative apparatus can also realize water cold storage by configuring refrigeration host computer in accumulation of heat application system;Or Person configures ice slurry machine, realizes ice cold-storage, and what is at this moment mainly utilized is that the upper and lower water-locator of this heat pipe-type regenerative apparatus realizes cold-storage Function.Accumulation of heat application system and currently used accumulation of heat application system during due to cold-storage do not have essential distinction, so cold-storage mistake Journey repeats no more.But using accumulation of heat application system during above cold-storage mode, cold and hot same groove can be realized after increasing refrigeration machine, and And electric boiler need not be separately provided.
Heat pipe is a kind of very fast conductor of heat transfer rate, and heat pipe-type regenerative apparatus provided by the utility model adds electricity Hot device is arranged among electric heating heat exchange of heat pipe, and on the one hand electric heater is played a very good protection, and greatly Electric heater surface loading is reduced, and rational heat pipe design can cause heat pipe to produce certain shake in start-up course Dynamic descaling function, so as to reduce the risk of electric heating heat exchange of heat pipe surface scale, on the other hand passes through electric heating heat exchange of heat pipe Being evenly arranged in heat pipe-type regenerative apparatus, opposite heat tube formula regenerative apparatus realize rapid and uniform heating, instead of well Traditional electric boiler simultaneously avoids electric boiler caused thermal loss in accumulation of heat and exothermic process.Meanwhile when electric heater damages When, due to electric heater and water and it is not directly contacted with and exhaust material filling mouth is left on the top of electric heating heat exchange of heat pipe, can be with Electric heater is extracted out from electric heating heat exchange of heat pipe and regenerative apparatus can work in heater maintenance process, greatly Improve the reliability of whole system.
This heat pipe-type regenerative apparatus by set in heat storage tank body electric heating heat pipe, heat release coil pipe, on water distribution Device and lower water-dispensing device, according to actual conditions, the heat release of different modes can be realized by heat release coil pipe or upper and lower water-locator Process.By accumulation of heat application system this heat pipe-type regenerative apparatus can be controlled to realize " accumulation of heat ", " heat release " or " confession when storing " Etc. the switching between different operating conditions, and high-temperature heat accumulation, cold operation can be realized by heat release coil pipe.This heat pipe-type stores Thermal and its accumulation of heat application system have simple in construction, floor space is small, operational efficiency is high, easy to maintenance, operating cost is low, The features such as cost-effective.
Heat pipe-type regenerative apparatus provided by the utility model and its accumulation of heat application system have been carried out specifically above It is bright.For those of ordinary skill in the art, appoint on the premise of without departing substantially from the utility model in essence spirit to what it was done What obvious change, it will all belong to the protection domain of the utility model patent power.

Claims (9)

1. a kind of heat pipe-type regenerative apparatus, including accumulation of heat cell body, it is characterised in that:
The heat storage tank body is internally provided with electric heating heat pipe, upper water distributor, lower water-dispensing device, and the upper water distributor is set At the top of the accumulation of heat cell body, the lower water-dispensing device is arranged on the bottom of the accumulation of heat cell body, the electric heating heat pipe heat exchanging dress Put and be arranged between the upper water distributor and the lower water-dispensing device or the lower section of the lower water-dispensing device;
The electric heating heat pipe is made up of at least one set of electric heating heat exchange of heat pipe;
The electric heating heat exchange of heat pipe is made up of upper header, lower collector pipe, branch pipe, electric heater, and the electric heater is arranged on institute State in lower collector pipe, the branch pipe is vertical or is inclined in the lower collector pipe, and one end of the branch pipe and the lower collector pipe Connection, the other end of the branch pipe connect with the upper header, the upper header level or the placement that is inclined upwardly, the upper collection The highest point of pipe is provided with sprue, and the sprue passes through end cap seal.
2. heat pipe-type regenerative apparatus as claimed in claim 1, it is characterised in that:
The electric heater uses metal tube electric heater;The metal tube electric heater is electric by the multiple metals arranged in boundling Heat pipe forms;The metal tube electric heater is inserted in the lower collector pipe from the one or both ends of the lower collector pipe, the next part The pipe mouth of pipe is provided with terminal box with the metal tube electric heater junction.
3. heat pipe-type regenerative apparatus as claimed in claim 1, it is characterised in that:
At least one set of heat release coil pipe is set in the accumulation of heat tank body;The heat release coil pipe be arranged on the upper water distributor with it is described under Between water-locator;Heat release coil pipe described in each group is connected with each other and is aggregated into a total water inlet pipe and water outlet pipe of heat release;Or multigroup described put Hot coil, which links together, is aggregated into a total water inlet pipe and water outlet pipe of heat release;Or by the adjacent heat release coil pipe using elbow head and the tail Connected mode forms snakelike heat release coil pipe.
4. heat pipe-type regenerative apparatus as claimed in claim 3, it is characterised in that:
One section of the heat release coil pipe or multistage are put into electric heating heat exchange of heat pipe, and the heat release coil pipe is from the electric heating heat pipe The upper header is inserted in the one or both ends of heat exchanger, and the mouth of pipe at the both ends of the heat release coil pipe and the upper header both ends welds Sealing.
5. heat pipe-type regenerative apparatus as claimed in claim 1, it is characterised in that:
Multiple mouths of a river are provided with the accumulation of heat cell body, multiple mouths of a river correspond to and the upper water distributor, the lower water-dispensing device Connection;When setting heat release coil pipe, the mouth of a river is connected with the water inlet pipe and water outlet pipe of the heat release coil pipe;The bottom of the accumulation of heat cell body Portion, middle part, top are provided with temperature sensor and pressure sensor, the temperature sensor and the pressure sensor and control Device connects;The heat storage tank external surface is disposed with heat-insulation layer and protective layer.
6. heat pipe-type regenerative apparatus as claimed in claim 1, it is characterised in that:
When the heat pipe-type regenerative apparatus is used for high-temperature heat accumulation, the accumulation of heat cell body is enclosed, cylindrical cell body, and provided with peace Full valve;When the heat pipe-type regenerative apparatus is used for normal temperature accumulation of heat, the accumulation of heat cell body is in circular cell body or square cell body Any one.
7. heat pipe-type regenerative apparatus as claimed in claim 1, it is characterised in that:
For the heat pipe-type regenerative apparatus when using high-temperature heat accumulation, regenerator temperature is set higher than 100 degree, is determined using constant pressure arrangement Pressure.
A kind of 8. accumulation of heat application system, it is characterised in that including heating terminal, circulating pump, constant pressure arrangement, water softening device with it is more Individual motor-driven valve and pipeline, the heating terminal, the circulating pump, the constant pressure arrangement, the water softening device pass through described Pipeline is connected with the heat pipe-type regenerative apparatus described in any one in claim 1~7, and multiple motor-driven valves are arranged on pipeline In.
9. accumulation of heat application system as claimed in claim 8, it is characterised in that:
Multiple motor-driven valves are the first motor-driven valve, the second motor-driven valve, the 3rd motor-driven valve, the 4th motor-driven valve, and described first is electronic Valve is connected with the upper water distributor, and second motor-driven valve is connected with heat release coil pipe water inlet pipe, the 3rd motor-driven valve and lower cloth Hydrophone connects, pipeline where the 4th motor-driven valve respectively with first motor-driven valve, second motor-driven valve, the described 3rd Pipeline communication where motor-driven valve.
CN201720072544.8U 2017-01-20 2017-01-20 A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system Expired - Fee Related CN207035300U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108332271A (en) * 2017-01-20 2018-07-27 浙江汇明节能科技有限公司 A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system
CN108709446A (en) * 2018-07-25 2018-10-26 内蒙古工业大学 A kind of removable quick thermal storage and energy accumulation device of latent heat-sensible heat-latent heat step phase transformation
CN110702851A (en) * 2019-09-09 2020-01-17 中国建筑西北设计研究院有限公司 Performance test system and method for phase change energy storage device
CN111928698A (en) * 2019-05-13 2020-11-13 山东大学 Pressure descaling method for heat exchanger

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108332271A (en) * 2017-01-20 2018-07-27 浙江汇明节能科技有限公司 A kind of heat pipe-type regenerative apparatus and its accumulation of heat application system
CN108709446A (en) * 2018-07-25 2018-10-26 内蒙古工业大学 A kind of removable quick thermal storage and energy accumulation device of latent heat-sensible heat-latent heat step phase transformation
CN111928698A (en) * 2019-05-13 2020-11-13 山东大学 Pressure descaling method for heat exchanger
CN111928698B (en) * 2019-05-13 2022-04-05 山东大学 Pressure descaling method for heat exchanger
CN110702851A (en) * 2019-09-09 2020-01-17 中国建筑西北设计研究院有限公司 Performance test system and method for phase change energy storage device

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