CN208458078U - Heating system - Google Patents

Heating system Download PDF

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Publication number
CN208458078U
CN208458078U CN201820584259.9U CN201820584259U CN208458078U CN 208458078 U CN208458078 U CN 208458078U CN 201820584259 U CN201820584259 U CN 201820584259U CN 208458078 U CN208458078 U CN 208458078U
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CN
China
Prior art keywords
heat
heat storage
installation passage
installation
exchanger rig
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Expired - Fee Related
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CN201820584259.9U
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Chinese (zh)
Inventor
史鹏宇
吴聪凯
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Beijing Ruijie Yiwei Science And Technology Development Co Ltd
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Beijing Ruijie Yiwei Science And Technology Development Co Ltd
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Priority to CN201820584259.9U priority Critical patent/CN208458078U/en
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Abstract

The utility model provides a kind of heating system, belongs to heat supply process field, which includes electric heating regenerative apparatus, the first heat-exchanger rig, the second heat-exchanger rig, blower unit, supply equipment and water storage apparatus;Electric heating regenerative apparatus includes shell, regenerative apparatus, electric heater unit, the first thermal conductive pipe and the second thermal conductive pipe;Electric heater unit plays the role of to regenerative apparatus heat supply, first thermal conductive pipe and the second thermal conductive pipe pass through the first heat-exchanger rig respectively, the second heat-exchanger rig transfers heat to extraneous external world's water and with gas, to realize that peak times of power consumption for heat effect, meet the use demand of family daily life diversification.

Description

Heating system
Technical field
The utility model relates to heat supply process fields, and in particular to a kind of heating system.
Background technique
Today's society energy shortage, so that resources-type product appreciates at a gallop, the thermal energy provided by enterprise that heats is to use Coal is realized, but coal price rises steadily, and to heating, enterprise brings huge pressure, finally make the pressure steering of rise User.And the problem of power supply be also it is very prominent, type of production and resident living electricity consumption make electric forming peak on daytime, And usually in power cuts to limit consumption on daytime, but midnight electricity consumption sharply declines, and daytime and evening electricity consumption form a sharp contrast, because This country encourages evening electricity consumption.Therefore occur carrying out accumulation of energy with trough-electricity at night with electrically heated heating system.But now Energy storage boiler be to use water as the carrier of accumulation of energy, but the limitation of water is big, water can only be heated to 90 DEG C hereinafter, and in water Resistive heater require high, must prevent from leaking electricity, it is also necessary to insulate, such energy storage capacity is small, and volume is big, limits and is widely applied It uses.
Utility model content
The purpose of this utility model is to provide a kind of heating system, which can be in electric system network load It carries out filling hot accumulation of energy when low, be reduced in power grid peak of power consumption or does not have to electric energy, and then realize that the thermal energy of its savings and the external world are used Gas uses hydrothermal exchange.
Based on above-mentioned purpose, heating system provided by the utility model, comprising: electric heating regenerative apparatus, the first heat exchange dress It sets, the second heat-exchanger rig, blower unit, supply equipment and water storage apparatus;
The electric heating regenerative apparatus includes that shell, regenerative apparatus, electric heater unit, the first thermal conductive pipe and second are thermally conductive Pipeline;
The regenerative apparatus is arranged in the shell, and the regenerative apparatus is cuboid, and the regenerative apparatus includes storing Hot shell, heat storage and the first insulating layer;The heat storage is arranged in the accumulation of heat shell, and the first insulating layer setting exists Between the accumulation of heat shell and the heat storage, the both ends of the heat storage length direction are respectively set to first end and second It holds, is provided in the heat storage multiple for placing the first installation passages of electric heater unit, first installation passage edge The heat storage length direction extends, and multiple first installation passages are arranged two rows of from the heat storage short transverse, wherein The first installation passage positioned at upper row is highly successively decreased from the first end of the heat storage to the second extreme direction, positioned at the first of lower row Installation passage is from the first end of the heat storage to the second extreme direction increasing height, so that the first installation passage of upper row and lower row The first installation passage in the heat storage be in arranged crosswise;The electric heater unit is arranged in first installation passage The heat storage can be heated;
It is additionally provided with multiple second installation passages in the heat storage, second installation passage is located at two rows of described the Between one installation passage, first thermal conductive pipe is mounted in the second installation passage, and first thermal conductive pipe one end is protruded into Into first heat-exchanger rig,
The supply equipment and water storage apparatus are connected to by water circulating pipe with first heat-exchanger rig;
Multiple third installation passages, height of the third installation passage along the heat storage are additionally provided in the heat storage It spends direction to be in tilted layout, to place the second thermal conductive pipe in the third installation passage, second thermal conductive pipe one end is stretched Enter into second heat-exchanger rig, the blower unit is connected to by hot air circulating pipe with second heat-exchanger rig.
In above-mentioned technical proposal, electric heater unit plays the role of to regenerative apparatus heat supply, the first thermal conductive pipe and second Thermal conductive pipe passes through the first heat-exchanger rig respectively, the second heat-exchanger rig transfers heat to extraneous external world's water and with gas, with Realize that peak times of power consumption for heat effect, meet family daily life use demand;Also, it is located at the first installation passage of upper row certainly The first end of heat storage to the second extreme direction height is successively decreased, and the first installation passage positioned at lower row is from the first end of heat storage to the Two extreme direction increasing heights, so that the first installation passage of upper row and the first installation passage of lower row are in heat storage in intersection cloth It sets;Above-mentioned arrangement can effectively extend the first installation passage and the second installation passage in the intracorporal length of accumulation of heat, thus plus The contact area of big electric heater unit and heat storage is ensured to heat storage quickly high-efficiency heating effect.
It further, further include control device, the control device includes passing for detecting the temperature of enclosure interior temperature Sensor and for receiving temperature sensor output signal and controlling the controller of relay on-off, the temperature sensor and control The input terminal of device connects, and the output end of the controller connects with relay, and the relay and power supply and electric heating fill It sets and connects.
In above-mentioned technical proposal, controller can detect enclosure interior temperature by temperature sensor, then pass through relay Device controls the on-off road of power supply and electric heater unit, is monitored, reaches certainly to detection enclosure interior temperature to realize The function of control.
Further, the water circulating pipe includes the inlet and outlet pipes being connected, the water inlet line Water inlet end is connected to supply equipment by hydraulic control valve, and the water outlet of the outlet conduit is connected to the water storage by controlled valve Equipment.
In above-mentioned technical proposal, the cold water being passed through in water inlet line passes through outlet conduit after heating in the first heat-exchanger rig It is discharged to water storage apparatus, hot water can be provided for user, so that life uses.
Further, the hot air circulating pipe includes the intake stack and exhaust duct being connected, the intake stack Entrance be connected with air inducing equipment, the outlet of the exhaust duct is to introduce indoor environment heat supply.
It is passed through in above-mentioned technical proposal, in intake stack after outside air heats in the second heat-exchanger rig and passes through air-exhausting duct Road is discharged to interior, room temperature can be effectively promoted, especially suitable for autumn and winter.
Further, in two rows of first installation passages, each first installation passage of upper row is along the heat storage Width direction arranged for interval, the width direction arranged for interval of each first installation passage of lower row along the heat storage.
In above-mentioned technical proposal, the width direction along heat storage is respectively adopted in each first installation passage of upper row and lower row Arranged for interval can ensure and sufficiently be heated when application to heat storage width direction each region, keep regenerator temperature uniform.
Further, wide along heat storage between each first installation passage of upper row and each first installation passage of lower row Degree direction is staggeredly set.
In above-mentioned technical proposal, each first installation passage of upper row and lower row distinguish above-mentioned staggered arrangement, It is further increased when can ensure application and heat storage width direction each region is heated, keep regenerator temperature uniform, into And promote the heat effect to the liquid in two thermal conductive pipes.
Further, the electric heater unit includes electrical heated pipings and the electric heating that is arranged in the electrical heated pipings Silk.
In above-mentioned technical proposal, heating wire plays the role of heating, the tube wall of electrical heated pipings increase with heat storage it Between contact area, to ensure abundant, the effect that is rapidly heated to heat storage.
Further, the inner wall of the shell is provided with the second insulating layer.
Second insulating layer plays the abundant function of heat insulation to enclosure interior space, and heat is prevented to distribute speed, thus Promote heat storage capacity.
Further, the water storage apparatus has to household water equipment.
Further, the first heat preservation soil block to coat electric heating regenerative apparatus is provided in the shell.
In above-mentioned technical proposal, the first heat preservation soil block plays the insulation effect to electric heating regenerative apparatus, to reduce whole The heat of a regenerative apparatus distributes speed, ensures within peak times of power consumption to the efficient of corresponding cold air or cold water to be heated Thermogenic action.
By adopting the above technical scheme, the technical effect of heating system provided by the utility model has:
Electric heater unit plays the role of to regenerative apparatus heat supply, and the first thermal conductive pipe and the second thermal conductive pipe pass through respectively First heat-exchanger rig, the second heat-exchanger rig transfer heat to extraneous external world's water and with gas, to realize peak times of power consumption confession Heat effect meets the use demand of family daily life diversification;Also, it is located at the first installation passage of upper row from heat storage First end to the second extreme direction height is successively decreased, and the first installation passage positioned at lower row is from the first end of heat storage to the second extreme direction Increasing height, so that the first installation passage of upper row and the first installation passage of lower row are in arranged crosswise in heat storage;It is above-mentioned Arrangement can effectively extend the first installation passage and the second installation passage in the intracorporal length of accumulation of heat, add to increase electricity The contact area of thermal and heat storage is ensured to heat storage quickly high-efficiency heating effect.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of heating system provided by the embodiment of the utility model;
Fig. 2 is the structural schematic diagram of the electric heating regenerative apparatus in heating system provided by the embodiment of the utility model;
Fig. 3 is the structural schematic diagram of the regenerative apparatus in heating system provided by the embodiment of the utility model;
Fig. 4 is the top view of Fig. 3;
Fig. 5 is the side view of Fig. 3;
Fig. 6 is the structural schematic diagram of electrical heated pipings;
Fig. 7 is the control principle drawing of the control device in heating system provided by the embodiment of the utility model.
Appended drawing reference: 10- electric heating regenerative apparatus;The first heat-exchanger rig of 20-;The second heat-exchanger rig of 30-;40- air inducing dress It sets;50- supply equipment;60- water storage apparatus;71- water inlet line;72- outlet conduit;80- temperature sensor;91- intake stack; 92- exhaust duct;
100- shell;The second insulating layer of 110-;The second thermal conductive pipe of 200-;300- regenerative apparatus;310- accumulation of heat shell; 320- heat storage;321- first end;322- second end;The first installation passage of 323-;The second installation passage of 324-;325- third peace Fill channel;The first insulating layer of 330-;500- electric heater unit;510- electrical heated pipings;The first thermal conductive pipe of 600-;700- first Keep the temperature soil block.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.
It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection;It can be mechanical connection, be also possible to be electrically connected;Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.
The purpose of heating system provided by the embodiment of the utility model is to carry out filling hot storage when electric system network load is low Can, electric energy is reduced or not had in power grid peak of power consumption, and using the thermal energy of its savings and extraneous gas equipment or uses water Equipment carries out heat exchange, to meet people's lives use demand.
Specifically, Fig. 1 to Fig. 3 is please referred to, heating system provided by the utility model, comprising: electric heating regenerative apparatus 10, First heat-exchanger rig 20, the second heat-exchanger rig 30, blower unit 40, supply equipment 50 and water storage apparatus 60.
The electric heating regenerative apparatus 10 includes: shell 100, regenerative apparatus 300, electric heater unit 500, the first thermal conductive pipe 600 and second thermal conductive pipe 200;
100 whole installation of shell is cuboid or square, and regenerative apparatus 300 is preferably cuboid, regenerative apparatus 300 Including accumulation of heat shell 310, heat storage 320 and the first insulating layer 330.
Heat storage 320 is arranged in accumulation of heat shell 310, plays the role of storing thermal energy;The setting of first insulating layer 330 is storing Between hot shell 310 and heat storage 320, the first insulating layer 330 plays function of heat insulation, reduces the energy damage of heat storage 320 It loses.
As shown in Figure 3 and Figure 5, the both ends of 320 length direction of heat storage are respectively set to first end 321 and second end 322, It is provided in heat storage 320 multiple for placing the first installation passage 323 of electric heater unit 500,323 edge of the first installation passage 320 length direction of heat storage extends, and multiple first installation passages 323 are arranged two rows of from 320 short transverse of heat storage, wherein position Highly successively decrease in the first installation passage 323 of upper row from the first end 321 of heat storage 320 to 322 direction of second end, is located at lower row The first installation passage 323 from the first end 321 of heat storage 320 to 322 direction increasing height of second end, that is, first above arranged Installation passage 323 and the first installation passage 323 of lower row are respectively that the mode that one end is high, one end is low is arranged, so that the of upper row One installation passage 323 and the first installation passage 323 of lower row are in arranged crosswise in heat storage 320;To increase by the first installation Length and area of the channel 323 in heat storage 320, electric heater unit 500 are arranged in the first installation passage 323, electric heating Device 500 can heat heat storage 320.
It is additionally provided with multiple second installation passages 324 in heat storage 320, the second installation passage 324 is located at two rows of the Between one installation passage 323, the first thermal conductive pipe 600 is mounted in the second installation passage 324,600 one end of the first thermal conductive pipe It extend into the first heat-exchanger rig 20, supply equipment 50 and water storage apparatus 60 are connected by water circulating pipe and the first heat-exchanger rig 20 It is logical;The effect of first thermal conductive pipe 600 is that the thermal energy that heat storage 320 accumulates is transferred to water circulation by the first heat-exchanger rig 20 Cold water in pipeline, to meet user for the use demand of hot water.
Medium in above-mentioned first thermal conductive pipe 600 can be oil liquid or water.
In one preferred embodiment, heat storage 320 is connect using refractory block block or using integral type refractory block.It is resistance to Fiery building block not only has thermal storage performance, also has fireproofing function.
As shown in Figure 3 and Figure 4, multiple third installation passages 325, third installation passage 325 are additionally provided in heat storage 320 Short transverse along heat storage 320 is in tilted layout, to place the second thermal conductive pipe 200 in third installation passage.Second is thermally conductive 200 one end of pipeline is extend into the second heat-exchanger rig 30, and blower unit 40 passes through hot air circulating pipe and the second heat-exchanger rig 30 Connection.The effect of second thermal conductive pipe 200 is that the thermal energy of heat storage accumulation is transferred to hot wind by the second heat-exchanger rig 30 to follow Air in endless tube road, to be passed through the indoor use demand to meet warming using the air of the heating.
Also, third installation passage, the second installation passage are not connected to mutually in heat storage 320 with the first installation passage.
In above-mentioned technical proposal, electric heater unit 500 plays the role of to 300 heat supply of regenerative apparatus, the first thermal conductive pipe 600 and second thermal conductive pipe 200 transferred heat to respectively by the first heat-exchanger rig 20, the second heat-exchanger rig 30 it is extraneous outer Boundary's water and with gas, to realize that peak times of power consumption for heat effect, meet family daily life use demand;First heat-exchanger rig 20, the second heat-exchanger rig 30 is provided separately, and the first thermal conductive pipe connects the first heat-exchanger rig 20 and exchanges heat to cold water, the second heat conducting pipe Road 200 connects the second heat-exchanger rig 30 and exchanges heat to cold air, and for by the way of a heat-exchanger rig, the present embodiment is adopted Two heat-exchanger rigs can greatly improve heat exchange efficiency.
Also, the first installation passage 323 for being located at upper row is high from the first end 321 of heat storage 320 to 322 direction of second end Degree successively decreases, and the first installation passage 323 positioned at lower row is highly passed from the first end 321 of heat storage 320 to 322 direction of second end Increase, so that the first installation passage 323 of upper row and the first installation passage 323 of lower row are in arranged crosswise in heat storage 320;On Arrangement is stated, the length of the first installation passage 323 and the second installation passage 324 in heat storage 320 can be effectively extended, from And the contact area of electric heater unit 500 Yu heat storage 320 is increased, it ensures to the quickly high-efficiency heating effect of heat storage 320.
Referring to figure 2. and Fig. 7, in a preferred embodiment, heating system provided in this embodiment further includes control dress It sets, control device includes temperature sensor 80 for detecting enclosure interior temperature and for receiving the output letter of temperature sensor 80 Number and control the controller of relay on-off, temperature sensor 80 connects with the input terminal of controller, the output end of controller with Relay connects, and relay connects with power supply and electric heater unit.When it is implemented, controller can pass through temperature sensing Device 80 detects enclosure interior temperature, the on-off road of power supply and electric heater unit is then controlled by relay, to realize Detection enclosure interior temperature is monitored, the function from control is reached.
Please refer to Fig. 1, in a preferred embodiment, above-mentioned water circulating pipe includes 71 He of water inlet line being connected The water inlet end of outlet conduit 72, water inlet line 71 is connected to supply equipment 50, the water outlet of outlet conduit 72 by hydraulic control valve Water storage apparatus 60 is connected to by controlled valve.The cold water being passed through in water inlet line 71 passes through after heating in the first heat-exchanger rig 20 Outlet conduit 72 is discharged to water storage apparatus 60, can provide hot water for user, so that life uses.
In one preferred embodiment, hot air circulating pipe includes the intake stack 91 and exhaust duct 92 being connected, into The entrance of air piping 91 is connected with blower unit 40, and the outlet of exhaust duct 92 is to introduce indoor environment heat supply.Blast pipe It is passed through in road 91 after outside air heats in the second heat-exchanger rig 30 and interior is discharged to by exhaust duct 92, can effectively mentioned Room temperature is risen, especially suitable for autumn and winter.
- Fig. 5 referring to figure 3., in a preferred embodiment, above-mentioned two be ranked first in installation passage 323, and upper row's is each Width direction arranged for interval of a first installation passage 323 along heat storage 320, i.e., each first installation passage in a upper row 323 along heat storage 320 width direction arranged for interval;Each first installation passage 323 of lower row is along the width side of heat storage 320 To arranged for interval, i.e., width direction arranged for interval of each first installation passage 323 along heat storage 320 in next row.
In above-mentioned technical proposal, the width along heat storage 320 is respectively adopted in each first installation passage 323 of upper row and lower row Direction arranged for interval is spent, can ensure and 320 width direction each region of heat storage is sufficiently heated when application, make heat storage 320 width temperature are uniform, and then are promoted and sufficiently heated to the liquid in the first thermal conductive pipe 600 and the second thermal conductive pipe 200.
In one preferred embodiment, each first installation passage 323 of upper row and each first installation passage of lower row It is staggeredly set between 323 along 320 width direction of heat storage.That is, along one end of 320 width direction of heat storage to the other end See, be successively the first installation passage 323 of upper row, the first installation passage 323 of lower row, the first installation passage 323 of upper row, under The arrangement of the first installation passage 323 ... of row.
In above-mentioned technical proposal, each first installation passage 323 of upper row and lower row distinguish above-mentioned staggered arrangement side Formula is further increased when can ensure application and is heated to 320 width direction each region of heat storage, keeps heat storage 320 warm Degree uniformly, and then promotes the heat effect to the liquid in the first thermal conductive pipe 600 and the second thermal conductive pipe 200.
In one preferred embodiment, the first insulating layer 330 uses rock wool board.
Rock wool board (Stone wool board) is also known as rock-wool heat insulation plate, is using basalt as main raw material(s), through high temperature Inorganic fiberboard made of melt-processed, have the characteristics that thermal coefficient it is small, heat preservation, every combustion, have light weight.
As shown in fig. 6, electric heater unit 500 includes electrical heated pipings 510 and is arranged in electricity in a preferred embodiment Electric heating wire (not illustrating in figure) in heating pipe 510.
When it is implemented, above-mentioned electrical heated pipings 510 are with heat storage due to coming into full contact with, in order to increase heat transfer efficiency, Electrical heated pipings 510 preferably use heating conduction and metal material resistant to high temperature.
In above-mentioned technical proposal, heating wire plays the role of heating, and the tube wall of electrical heated pipings 510 increases and heat storage Contact area between 320, to ensure abundant, the effect that is rapidly heated to heat storage 320.
As shown in Fig. 2, the inner wall of shell 100 is provided with the second insulating layer 110 in a preferred embodiment, it is specific real Shi Shi, the second insulating layer 110 can use rock wool board, play good heat preservation and insulation.Heat is prevented to distribute speed, thus Promote heat storage capacity.
In one preferred embodiment, the first heat preservation soil block to coat electric heating regenerative apparatus 10 is provided in shell 700, when it is implemented, first heat preservation 700 side of soil block be respectively set through-hole to pass through corresponding electric heater unit and Each pipeline.
In above-mentioned technical proposal, the first heat preservation soil block 700 plays the insulation effect to electric heating regenerative apparatus 10, to subtract The heat of small entire electric heating regenerative apparatus 10 distributes speed, ensure within peak times of power consumption to corresponding cold air to be heated or The high-efficiency heating of person's cold water acts on.
In addition, it is necessary to illustrate, each electrical equipment uses mains-supplied in heating system in the present embodiment, in shell Body, the second insulating layer are respectively provided with to power on or the hole of pipeline on the first heat preservation soil block, be arranged in hole ceramic tube with Insulating effect is played, since above structure form is the selection that those skilled in the art can make, phase is omitted in figure The structure answered.
Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System;Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced;And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of heating system characterized by comprising electric heating regenerative apparatus, the first heat-exchanger rig, the second heat-exchanger rig, Blower unit, supply equipment and water storage apparatus;
The electric heating regenerative apparatus includes shell, regenerative apparatus, electric heater unit, the first thermal conductive pipe and the second heat conducting pipe Road;
The regenerative apparatus is arranged in the shell, and the regenerative apparatus is cuboid, and the regenerative apparatus includes accumulation of heat shell Body, heat storage and the first insulating layer;The heat storage is arranged in the accumulation of heat shell, and first insulating layer is arranged described Between accumulation of heat shell and the heat storage, the both ends of the heat storage length direction are respectively set to first end and second end, institute It states and is provided with multiple the first installation passages for being used to place electric heater unit in heat storage, first installation passage is along the storage Hot body length direction extends, and multiple first installation passages are arranged two rows of from the heat storage short transverse, wherein are located at upper The first installation passage of row from the first end of the heat storage to the second extreme direction, successively decrease by height, and the first installation positioned at lower row is logical Road is from the first end of the heat storage to the second extreme direction increasing height, so that the first of the first installation passage of upper row and lower row Installation passage is in arranged crosswise in the heat storage;The electric heater unit setting can be right in first installation passage The heat storage heating;
Multiple second installation passages are additionally provided in the heat storage, second installation passage is located in two rows of first peaces It fills between channel, first thermal conductive pipe is mounted in the second installation passage, and first thermal conductive pipe one end extend into institute It states in the first heat-exchanger rig,
The supply equipment and water storage apparatus are connected to by water circulating pipe with first heat-exchanger rig;
Multiple third installation passages are additionally provided in the heat storage, the third installation passage is along the height side of the heat storage To inclination arrangement, to place the second thermal conductive pipe in the third installation passage, second thermal conductive pipe one end is extend into In second heat-exchanger rig, the blower unit is connected to by hot air circulating pipe with second heat-exchanger rig.
2. heating system according to claim 1, which is characterized in that further include control device, the control device includes For detecting the temperature sensor of enclosure interior temperature and for receiving temperature sensor output signal and controlling relay on-off Controller, the temperature sensor connects with the input terminal of controller, and the output end of the controller connects with relay, institute Relay is stated to connect with power supply and electric heater unit.
3. heating system according to claim 1, which is characterized in that the water circulating pipe includes the water inlet pipe being connected The water inlet end of road and outlet conduit, the water inlet line is connected to supply equipment by hydraulic control valve, and the outlet conduit goes out The mouth of a river is connected to the water storage apparatus by controlled valve.
4. heating system according to claim 1, which is characterized in that the hot air circulating pipe includes the air inlet being connected The entrance of pipeline and exhaust duct, the intake stack is connected with air inducing equipment, and the outlet of the exhaust duct is to introduce Indoor environment heat supply.
5. heating system according to claim 1, which is characterized in that in two rows of first installation passages, upper row's is each A first installation passage is along the width direction arranged for interval of the heat storage, and each first installation passage of lower row is along the accumulation of heat The width direction arranged for interval of body.
6. heating system according to claim 5, which is characterized in that each first installation passage above arranged is each with lower row's It is staggeredly set between a first installation passage along heat storage width direction.
7. heating system according to claim 1, which is characterized in that the electric heater unit includes electrical heated pipings and sets Set the electric heating wire in the electrical heated pipings.
8. heating system according to claim 1, which is characterized in that the inner wall of the shell is provided with the second insulating layer.
9. heating system according to claim 1, which is characterized in that the water storage apparatus, which has, to be set to household with water It is standby.
10. heating system according to claim 1, which is characterized in that be provided in the shell to coat accumulation of heat dress The the first heat preservation soil block set.
CN201820584259.9U 2018-04-23 2018-04-23 Heating system Expired - Fee Related CN208458078U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110762581A (en) * 2019-10-10 2020-02-07 中国科学院上海应用物理研究所 System for heat pipe provides stable hot water in coordination with medium-high temperature phase change heat storage medium

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110762581A (en) * 2019-10-10 2020-02-07 中国科学院上海应用物理研究所 System for heat pipe provides stable hot water in coordination with medium-high temperature phase change heat storage medium

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