CN203052963U - Multiple energy heating device - Google Patents

Abstract

The utility model discloses a multiple energy heating device which comprises a thermal insulation water box and a heat exchanging module. The thermal insulation water box comprises an outer shell, a liner and thermal insulative materials filled in between. A water inlet and a water outlet are communicated with the liner and formed in the outer shell. The heat exchanging module is arranged in the thermal insulation water box and used for exchanging heat with water in the liner. The heat exchanging module at least comprises two of an electrical heating rod, a first heat exchanging coil connected with a solar device or a gas wall-hanging stove, a second heat exchanging coil connected with a heat supplying device and a third heat exchanging coil used for flow of cooling agents in a air-source heat pump. The first heat exchanging coil is arranged on the upper portion of the liner, the second heat exchanging coil is arranged in the middle of the liner and the third heat exchanging coil is arranged on the lower portion of the liner. The multiple energy heating device heats by means of multiple energy, can be reasonably installed according to characteristics of heat sources, capable of not being limited by use geographical conditions and high in utilization rate of energy.

Description

Multipotency source heat supply heating installation

Technical field

The utility model relates to storage-type hot water apparatus field, relates in particular to a kind of multipotency source heat supply heating installation.

Background technology

Traditional storage-type hot water apparatus is generally all by single energy heat supply, as: electric energy, combustion gas, solar energy, air energy, water source, geothermal source etc.Owing to be subjected to the restriction of the single energy, following defective can occur: 1, when device breaks down, often the heat supply heating will be interrupted, and can't guarantee normal instructions for use; 2, be subjected to the restriction of service condition easily, as: electric heater is subjected to the restriction of electric wire capacity, the use safety problem of combustion gas, and solar energy is in overcast and rainy heat energy deficiency, and air can be inferior at low temperature environment; The capital produces certain restriction to the use of hot water apparatus; 3, do not satisfy many-sided heating heat supply requirement, as needs heating simultaneously, the place of heating and heat supply water; 4, single energy heating heat supply does not meet the environmental protection and energy saving requirement that country advocates.

The utility model content

At defective and the deficiency of above-mentioned existence, a kind of multipotency source heat supply heating installation that can be heated, break through the restriction of single source service condition by the multipotency source as the thermal source central heating is proposed.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of multipotency source heat supply heating installation is provided, comprises attemperater, heat exchange module; Described attemperater comprise shell, inner bag and be filled in shell and inner bag between insulation material; Described outer casing underpart is provided with water inlet, and top is provided with delivery port, described water inlet and delivery port and described inner bag internal communication; Described heat exchange module places in the described attemperater, be used for inner bag in the water heat exchange, described heat exchange module comprises at least with two kinds in the lower device: electrically heated rod, be used for connecting solar energy equipment or burnt gas wall hanging furnace first heat exchange coil, be used for connecting heating installation second heat exchange coil, be used for air energy heat pump for the 3rd heat exchange coil of flow of refrigerant; Wherein, described first heat exchange coil is positioned over inner bag top, and second heat exchange coil is positioned over the inner bag middle part, and the 3rd heat exchange coil is positioned over the inner bag bottom.

Wherein, described inner bag bottom also offers two current interfaces with described attemperater external communications, and described current interface is used for connecting heat pump, and the water in the described inner bag is by these two current interfaces heat pump of flowing through, with the heat pump heat exchange.

Wherein, described first heat exchange coil and described second heat exchange coil are stainless steel light pipe or stainless steel fin steel pipe; Described the 3rd heat exchange coil is copper pipe or gapless stainless steel tube.

Wherein, also be provided with the magnesium rod in the described attemperater, described magnesium rod is fixed on the described inner bag and stretches to inner bag inside.

Wherein, described shell water inlet is equipped with safety valve.

The beneficial effects of the utility model are: 1, when one group of heat supply unit breaks down, the normally heat supply of other energy can not influence normal heating heat demand; 2, this heating heat supply multipurpose water tank can be supplied a plurality of hot water water spots simultaneously, comprises bathing and heating; 3, avoid single energy unit when being subjected to the service condition restriction, can not satisfy the situation of user's instructions for use; 4, the combination of multipotency source unit can reduce the operating load of unit, improves the service life of unit, and according to the position of the characteristics reasonable Arrangement energy of each energy, takes the mode of segmentation heating, can improve the efficiency of rate of energy and unit; 5, meet the energy-conserving and environment-protective requirement that country advocates, use the high unit combination of energy utilization rate as far as possible; 6, owing to adopt the mode of heating in multipotency source, make this multipurpose water tank can not be subjected to installation and the use of region restriction.

Description of drawings

Fig. 1 is the structural representation of the utility model multipotency source heat supply heating installation first embodiment;

Fig. 2 is the structural representation of the utility model multipotency source heat supply heating installation second embodiment.

Label declaration:

1, water inlet; 2, the 3rd heat exchange coil import; 3, the 3rd heat exchange coil; 4, the 3rd heat exchange coil outlet; 5, first sensor; 6, second heat exchange coil outlet; 7, second heat exchange coil; 8, the second heat exchange coil import; 9, first heat exchange coil outlet; 10, second sensor; 11, the first heat exchange coil import; 12, delivery port; 13, loam cake; 14, inner bag; 15, first heat exchange coil; 16, insulation material; 17, electrically heated rod; 18, magnesium rod; 19, the first current interface; 20, the second current interface; 21, shell; 22, lower cover; 23, footing.

The specific embodiment

By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, illustrated below in conjunction with embodiment and conjunction with figs..

See also Fig. 1, in the present embodiment, loam cake 13, lower cover 22, shell 21 and footing 23 constitute the monolithic case of attemperater, be fixed with inner bag 14 in this enclosure, more preferably, can between shell 21 and lower cover 22, ring flange be set, by ring flange with inner bag 14 secure fixation.Be filled with insulation material 16 between inner bag 14 and the shell 21, be used for to inner bag 14 insulations.Inner bag and monolithic case and middle insulation material of filling namely constitute attemperater.Shell 21 bottoms are provided with water inlet 1, and top is provided with delivery port 12, water inlet 1 and delivery port 12 all with inner bag 14 internal communication, cold water enters heating in the inner bag 14 from water inlet 1, during use, hot water is discharged from delivery port 12.Because this water tank is press-bearing water tank, therefore at water inlet 1 place the safety valve (not shown) is installed also, prevent hypertonia in the water tank heating process, play the effect of pressure release.

Inner bag 14 inside are respectively arranged with first heat exchange coil 15, second heat exchange coil 7 and the 3rd heat exchange coil 3 from top to down.Wherein, first heat exchange coil 15 is as the heat(ing) coil of solar energy equipment or burnt gas wall hanging furnace, the first heat exchange coil import 11 is connected solar energy equipment with first heat exchange coil outlet 9 or burnt gas wall hanging furnace forms the peripheral passage, in this peripheral passage, circulating pump is installed, by the water in the heat circulation heating inner bag 14 of the heat of solar energy or burnt gas wall hanging furnace.Because the circulating temperature of combustion gas or solar energy is higher, therefore this first heat exchange coil 15 is placed on inner bag 14 the superiors, be conducive to ensure the total leaving water temperature of water tank; And the setting of the first heat exchange coil import and exit position and the water of inner bag form countercurrent flow, heat transfer temperature difference and heat exchange efficiency basically identical.The material of first heat exchange coil 15 can be stainless steel light pipe or stainless steel fin steel pipe.Second heat exchange coil 7 is heating heating coil pipe, can connect radiator or floor heating pipe laying, the outlet 6 of the second heat exchange coil import 8 and second heat exchange coil is connected to form the peripheral passage that heating installation flows with radiator or floor heating pipe laying, makes can continue to flow through the water heat exchange in second heat exchange coil and the inner bag of heating recirculated water by circulating pump.Because heating temperature generally between 40-50 ℃, therefore is placed on second heat exchange coil water tank middle part, ensure the requirement of heating heating water easily.The material of second heat exchange coil 7 can be stainless steel light pipe or stainless steel fin steel pipe.The 3rd heat exchange coil 3 is heat exchange coils of fluorine circulating air energy heat pump, and its material can be copper pipe or gapless stainless steel tube.This air can host machine part can be split, also can be as one with water tank.The 3rd heat exchange coil import 2 is connected the miscellaneous part of air energy heat pump respectively and forms a complete heat pump cycle with the 3rd heat exchange coil outlet 4, the 3rd heat exchange coil 3 is as the condenser of cold-producing medium, the cold-producing medium water heat release of the 3rd heat exchange coil 3 in the inner bag 14 of flowing through, by continuous circulation, the water in the heating water tank.Considering efficiency and the service life of unit, the 3rd heat exchange coil is placed on the water tank bottommost, all is useful for improving unit efficiency and life-span.

Except above-mentioned heat exchange coil, in attemperater, also be provided with electrically heated rod 17, by electrical heating water in the inner bag is heated, the power of electrically heated rod requires to set according to engineering design.

Also be provided with the first current interface 19 and the second current interface 20 on the inner bag 14, interface as water resource heat pump or earth source heat pump or air energy heat pump water circulator, be connected by water circulating pump between water tank and the above heat pump, the water in the inner bag 14 are flowed through heat pump by heat pump by water circulating pump.Having abundant water resources or geothermal energy resources zone abundant and that utilize easily, can consider to use water source or earth source heat pump the operational energy efficiency that is conducive to improve the utilization rate of thermal source and guarantees unit.

Be respectively equipped with first sensor 5 and second sensor 10 at differing heights on the attemperater, two sensors is as the execution foundation of each thermal source unit action, and the control feedback element of heating system.

In the attemperater, inner bag 14 can be enamel or stainless steel inner container, can be high pressure resistant and corrosion-resistant.In order to prevent incrustation scale corrosion inner bag, in the present embodiment, also be provided with magnesium rod 18 in the attemperater, magnesium rod 18 is fixed on the inner bag 14 and stretches to inner bag 14 inside, prevents the inner bag corrosion by principle of cathodic protection, reaches to prolong the water tank effect in service life.The size of magnesium rod is rationally chosen according to the inner bag capacity.

Consult Fig. 2, among second embodiment, compare with first embodiment, the 3rd heat exchange coil is not set, other are all identical, in a second embodiment namely, have saved one group of thermal source.

In fact, for multipotency of the present utility model source heat supply heating installation, its thermal source is unfixing, according to requirement of engineering, and the requirement of territorial environment, can carry out the configuration of thermal source unit combination neatly.For example: in many sunlight area, the torrid zone, can select the compound mode of air energy heat pump and solar energy for use; Can use in rainy region of cloudy day the air energy, source and electrically heated compound mode; In cold area, can use combustion gas, source and electrically heated compound mode, therefore make the use zone of this multipurpose water tank not be subjected to the restriction of external environment condition, thereby the popularization that makes the multipotency source use is rapider.Its principle is similar to embodiment 1 substantially, repeats no more herein.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (5)

1. a multipotency source heat supply heating installation is characterized in that, comprises attemperater, heat exchange module;

Described attemperater comprise shell, inner bag and be filled in shell and inner bag between insulation material; Described outer casing underpart is provided with water inlet, and top is provided with delivery port, described water inlet and delivery port and described inner bag internal communication;

Described heat exchange module places in the described attemperater, be used for inner bag in the water heat exchange, described heat exchange module comprises at least with two kinds in the lower device: electrically heated rod, be used for connecting solar energy equipment or burnt gas wall hanging furnace first heat exchange coil, be used for connecting heating installation second heat exchange coil, be used for air energy heat pump for the 3rd heat exchange coil of flow of refrigerant; Wherein, described first heat exchange coil is positioned over inner bag top, and second heat exchange coil is positioned over the inner bag middle part, and the 3rd heat exchange coil is positioned over the inner bag bottom.

2. multipotency source heat supply heating installation according to claim 1, it is characterized in that: described inner bag bottom also offers two current interfaces with described attemperater external communications, described current interface is used for connecting heat pump, water in the described inner bag is by these two current interfaces heat pump of flowing through, with the heat pump heat exchange.

3. multipotency source heat supply heating installation according to claim 1, it is characterized in that: described first heat exchange coil and described second heat exchange coil are stainless steel light pipe or stainless steel fin steel pipe; Described the 3rd heat exchange coil is copper pipe or gapless stainless steel tube.

4. according to any described multipotency source heat supply heating installation of claim 1-3, it is characterized in that: also be provided with the magnesium rod in the described attemperater, described magnesium rod is fixed on the described inner bag and stretches to inner bag inside.

5. according to any described multipotency source heat supply heating installation of claim 1-3, it is characterized in that: described shell water inlet is equipped with safety valve.

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