CN208419048U - A kind of highly-efficient air energy multiple-supplying energy-saving equipment - Google Patents

Abstract

The utility model discloses a kind of highly-efficient air energy multiple-supplying energy-saving equipments, including boiler, boiler is internally provided with heating mechanism, heating mechanism includes shell, the both ends of shell are fixedly linked with the inner wall of boiler respectively, the top of shell and first gap is provided between the inner top of boiler, Second gap is provided between the bottom of shell and the interior bottom of boiler, shell is internally provided with the heat exchanger tube that cross section is the figure of eight, the bottom end of heat exchanger tube is communicated with input pipe, the top of heat exchanger tube is communicated with efferent duct, input pipe and efferent duct sequentially pass through the side wall of shell and boiler, and extend the outside of boiler, the outside of boiler is provided with heat pump ontology, one end that input pipe and efferent duct are located at outside boiler is connected with heat pump ontology.The utility model is exchanged with circulating using the water in boiler with the refrigerant progress heat in heat exchanger tube to be achieved the purpose that energy-efficient to realize raising Energy Efficiency Ratio.

Description

A kind of highly-efficient air energy multiple-supplying energy-saving equipment

Technical field

The utility model relates to air energy equipment technical fields more particularly to a kind of highly-efficient air energy multiple-supplying energy conservation to set It is standby.

Background technique

There are three types of operating modes for air energy multiple-supplying equipment tool, that is, freeze, heat, heating, a unit can solve Air conditioning hot requirement, the water tank of existing highly-efficient air energy multiple-supplying equipment is interior to be only simply to set one for transport flow The heat exchange contact area of the heating coil of heat exchange working medium, heating coil and the intracorporal water of case is smaller, and the intracorporal water of case is not Heat can be carried out with the heat exchange working medium in heating coil with circulating to exchange, and then lead to the sky using such structure water tank The efficiency of gas energy multiple-supplying equipment is relatively low.

Utility model content

It asks purpose of the utility model is to solve the Energy Efficiency Ratio of air energy multiple-supplying equipment in the prior art is lower Topic, and a kind of highly-efficient air energy multiple-supplying energy-saving equipment proposed.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of highly-efficient air energy multiple-supplying energy-saving equipment, including boiler, the boiler are internally provided with heater Structure, the heating mechanism include shell, and the both ends of the shell are fixedly linked with the inner wall of boiler respectively, the top of the shell It is provided with first gap between portion and the inner top of boiler, is provided between the bottom of the shell and the interior bottom of boiler Second gap, the shell are internally provided with the heat exchanger tube that cross section is the figure of eight, and the bottom end of the heat exchanger tube is communicated with defeated Enter pipe, the top of the heat exchanger tube is communicated with efferent duct, and the input pipe and efferent duct sequentially pass through shell and boiler Side wall, and extend the outside of boiler, the outside of the boiler is provided with heat pump ontology, and the input pipe and efferent duct are located at One end outside boiler is connected with heat pump ontology, and the top and bottom of the shell offer circulation port, the shell Inside be fixed by the bracket and be connected with submersible motor, the output shaft fixing sleeve of the submersible motor is connected to corresponding with circulation port Propeller, the side of the boiler is provided with water inlet pipe, and the water inlet pipe sequentially passes through the side wall and shell of boiler, and Be connected with the inside of shell, the boiler be internally provided with vertical direction setting appendix, the appendix it is upper End and lower end all extend to the outside of boiler, and the side wall lower ends fixation of the boiler is communicated with outlet pipe.

Preferably, the upper end of the appendix is provided with the first valve, and the side wall of the outlet pipe is provided with the second valve.

Preferably, the bottom fixation of the boiler is communicated with sewage pipe, and the side wall of the sewage pipe is provided with third valve Door.

Preferably, the boiler is internally provided with magnesium bar.

Preferably, the heat exchanger tube is internally provided with refrigerant, the refrigerant model R417a.

Preferably, the inside of the boiler is equipped with metal liner, and the metal liner surface is equipped with enamel coating.

Compared with prior art, the utility model provides a kind of highly-efficient air energy multiple-supplying energy-saving equipment, has following The utility model has the advantages that

1, the highly-efficient air energy multiple-supplying energy-saving equipment, by the setting of heat pump ontology, heat pump ontology is by refrigerant from defeated Entering pipe to be transported in heat exchanger tube, the water in the refrigerant and shell in heat exchanger tube carries out heat exchange, so that water temperature rises, heat Exchanged refrigerant reenters heat pump ontology from efferent duct, to form a circulation, in the process, propeller turns Dynamic, drive the water in shell to flow from top to bottom makes the water in the water and shell in boiler carry out recycle stream by circulation port It is dynamic, since the water in boiler is to carry out heat with the refrigerant in heat exchanger tube with circulating to exchange, and the shape of heat exchanger tube Shape increases heat exchange contact area, so that the Energy Efficiency Ratio of the setting improves, to achieve the purpose that energy-efficient.

2, the highly-efficient air energy multiple-supplying energy-saving equipment, by the setting of shell, when upper water, cool water is introduced into shell It is interior, and the hot water elder generation Hybrid Heating in shell, then be discharged to outside shell by circulation, thus when will not make water on boiler, in The temperature of the water in portion reduces suddenly.

3, the highly-efficient air energy multiple-supplying energy-saving equipment, by the setting of appendix, the air in appendix is through superheated water When inside case, by the hot water heating in boiler, and it is applied to indoor heating, to eliminate the energy of a part of heating Source.

It is not directed to part in the device to be the same as those in the prior art or can be realized by using the prior art, the utility model It is exchanged with the refrigerant progress heat in heat exchanger tube with circulating using the water in boiler and is reached to realize raising Energy Efficiency Ratio To energy-efficient purpose.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of highly-efficient air energy multiple-supplying energy-saving equipment structural schematic diagram；

Fig. 2 is the A-A of Fig. 1 to sectional view.

In figure: 1 boiler, 2 first valves, 3 appendixs, 4 water inlet pipes, 5 shells, 6 heat exchanger tubes, 7 propellers, 8 outlet pipes, 9 second valves, 10 circulation ports, 11 third valves, 12 sewage pipes, 13 heat pump ontologies, 14 input pipes, 15 efferent ducts, 16 magnesium bars.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "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.

Referring to Fig.1-2, a kind of highly-efficient air energy multiple-supplying energy-saving equipment, including boiler 1, the inside setting of boiler 1 There is heating mechanism, heating mechanism includes shell 5, and inner wall of the both ends of shell 5 respectively with boiler 1 is fixedly linked, the top of shell 5 It is provided with first gap between portion and the inner top of boiler 1, is provided between the bottom of shell 5 and the interior bottom of boiler 1 Second gap, shell 5 are internally provided with the heat exchanger tube 6 that cross section is the figure of eight, and the bottom end of heat exchanger tube 6 is communicated with input pipe 14, the top of heat exchanger tube 6 is communicated with efferent duct 15, and input pipe 14 and efferent duct 15 sequentially pass through the side of shell 5 and boiler 1 Wall, and extend the outside of boiler 1, the outside of boiler 1 is provided with heat pump ontology 13, and input pipe 14 and efferent duct 15 are located at heat One end outside water tank 1 is connected with heat pump ontology 13, and the top and bottom of shell 5 offer circulation port 10, shell 5 it is interior Portion, which is fixed by the bracket, is connected with submersible motor, and the output shaft fixing sleeve of submersible motor is connected to spiral corresponding with circulation port 10 Paddle 7, the side of boiler 1 are provided with water inlet pipe 4, and water inlet pipe 4 sequentially passes through the side wall and shell 5 of boiler 1, and with shell 5 Inside be connected, boiler 1 be internally provided with vertical direction setting appendix 3, the top and bottom of appendix 3 are prolonged The outside of boiler 1 is extended to, the side wall lower ends fixation of boiler 1 is communicated with outlet pipe 8.

The upper end of appendix 3 is provided with the first valve 2, and the side wall of outlet pipe 8 is provided with the second valve 9, convenient for control gas The flowing of stream and water flow.

The bottom fixation of boiler 1 is communicated with sewage pipe 12, and the side wall of sewage pipe 12 is provided with third valve 11, makes hot water Scale in case 1 can be discharged from sewage pipe 12.

Boiler 1 is internally provided with magnesium bar 16, and magnesium bar 16 is being commonly called as magnesium anode, also known as anode MAG block, for preventing Metal liner corrosion and demineralized water.

Heat exchanger tube 6 is internally provided with refrigerant, and refrigerant model R417a has energy-saving and environmental protection, efficient and replacement The features such as simple.

The inside of boiler 1 is equipped with metal liner, and metal liner surface is equipped with enamel coating, the load performance of metal material Height, performance of expanding with heat and contract with cold is good, heat leakage is few, anticorrosion, sturdy and durable, and metal liner inner surface adheres to one layer of enamel coating can be more The antiseptic property of good reinforcement metal liner, the service life is longer.

In the utility model, refrigerant is transported in heat exchanger tube 6 by heat pump ontology 13 from input pipe 14, in heat exchanger tube 6 Water in refrigerant and shell 5 carries out heat exchange so that water temperature rises, the refrigerant of heat exchange from efferent duct 15 again Into heat pump ontology 13, to form a circulation, in the process, propeller 7 is rotated, and drives water in shell 5 from upper past Circulation port 10 is passed through in lower flowing, circulates water and the water in shell 5 in boiler 1, due to the water in boiler 1 It is to carry out heat with the refrigerant in heat exchanger tube 6 with circulating to exchange, and the shape of heat exchanger tube 6 increases heat exchange contact surface Product, so that the Energy Efficiency Ratio of the setting improves, to achieve the purpose that energy-efficient.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of highly-efficient air energy multiple-supplying energy-saving equipment, including boiler (1), which is characterized in that the boiler (1) it is interior Portion is provided with heating mechanism, and the heating mechanism includes shell (5), and the both ends of the shell (5) are interior with boiler (1) respectively Wall is fixedly linked, and first gap, the shell (5) are provided between the top of the shell (5) and the inner top of boiler (1) Bottom and boiler (1) interior bottom between be provided with Second gap, the cross section that is internally provided with of the shell (5) is The bottom end of the heat exchanger tube (6) of the figure of eight, the heat exchanger tube (6) is communicated with input pipe (14), and the top of the heat exchanger tube (6) connects It being connected with efferent duct (15), the input pipe (14) and efferent duct (15) sequentially pass through the side wall of shell (5) and boiler (1), And extend the outside of boiler (1), the outside of the boiler (1) is provided with heat pump ontology (13), the input pipe (14) and Efferent duct (15) is located at the one end of boiler (1) outside and is connected with heat pump ontology (13), the top and bottom of the shell (5) It offers circulation port (10), the inside of the shell (5), which is fixed by the bracket, is connected with submersible motor, the submersible motor Output shaft fixing sleeve is connected to propeller (7) corresponding with circulation port (10), and the side of the boiler (1) is provided with water inlet pipe (4), the water inlet pipe (4) sequentially passes through the side wall and shell (5) of boiler (1), and is connected with the inside of shell (5), institute The appendix (3) for being internally provided with vertical direction setting of boiler (1) is stated, the top and bottom of the appendix (3) are prolonged The outside of boiler (1) is extended to, the side wall lower ends fixation of the boiler (1) is communicated with outlet pipe (8).

2. a kind of highly-efficient air energy multiple-supplying energy-saving equipment according to claim 1, which is characterized in that the appendix (3) upper end is provided with the first valve (2), and the side wall of the outlet pipe (8) is provided with the second valve (9).

3. a kind of highly-efficient air energy multiple-supplying energy-saving equipment according to claim 1, which is characterized in that the boiler (1) bottom fixation is communicated with sewage pipe (12), and the side wall of the sewage pipe (12) is provided with third valve (11).

4. a kind of highly-efficient air energy multiple-supplying energy-saving equipment according to claim 1, which is characterized in that the boiler (1) be internally provided with magnesium bar (16).

5. a kind of highly-efficient air energy multiple-supplying energy-saving equipment according to claim 1, which is characterized in that the heat exchanger tube (6) be internally provided with refrigerant, the refrigerant model R417a.

6. a kind of highly-efficient air energy multiple-supplying energy-saving equipment according to claim 1, which is characterized in that the boiler (1) inside is equipped with metal liner, and the metal liner surface is equipped with enamel coating.