CN208186541U - A kind of fan coil with double layer hollow ball-type heat exchanger - Google Patents

Abstract

The utility model relates to field of air conditioning more particularly to a kind of fan coils with double layer hollow ball-type heat exchanger.A kind of fan coil with double layer hollow ball-type heat exchanger, comprising: shell, blower, pod, heat exchanger, drip tray.The blower is arranged inside the housing close to the position of air inlet；The side of fan outlet is arranged in the pod；The side of pod is arranged in the heat exchanger, and be arranged in shell outlet ends the utility model solve the problems, such as existing fan coil there are heat exchange efficiencies it is low.

Description

A kind of fan coil with double layer hollow ball-type heat exchanger

Technical field

The utility model relates to field of central air-conditioning more particularly to a kind of fan units with double layer hollow ball-type heat exchanger Pipe.

Background technique

In recent years, higher and higher to the comfort requirement of room temperature as living standards of the people improve, but with electricity The resource prices such as power, coal, petroleum are increasingly high, in addition the supply of festival energy is increasingly in short supply when cold, traditional room heating Mode is difficult to meet efficient, comfortable room heating requirement, thus new room heating technology and equipment is born therewith, and causes People greatly pay close attention to, and will eventually become the new direction of building and heating.In the equipment of a variety of refrigeration heating one, with air-conditioning The fan coil of main equipment room connection is the indoor terminal of most air-conditioning systems.

The type selecting that the energy consumption problem and heat exchange efficiency of heat exchanger in fan coil become heat exchanger is critical issue.It is existing Some heat exchanger structures are varied, and the improvement for heat exchanger structure can significantly improve heat exchange efficiency, reduce energy Consumption.

After there is turbulent flow turbulent heat transfer can both occur for the flowing of fluid, because the particle of fluid makees irregular movement, flow field In the variation that gets muddled at any time with space coordinate of various amounts, cause temperature and the temperature difference at tube wall at tube hub smaller, Heat exchange efficiency is improved than laminar heat transfer.Therefore, turbulent heat transfer is used widely in practical applications.

Therefore, it can be improved in conjunction with the Production conditions heat exchanging device structure of turbulent flow.

Summary of the invention

Therefore, the utility model is exactly made in view of problem above, and in order to overcome the deficiencies of the prior art, this is practical new Type provides a kind of fan coil with double layer hollow ball-type heat exchanger and is used to solve existing fan coil that there are heat exchange efficiencies Low problem.The utility model is achieved through the following technical solutions above-mentioned purpose.

The utility model provides a kind of fan coil with double layer hollow ball-type heat exchanger, comprising: shell, is led at blower Stream cover, heat exchanger；

The blower is arranged inside the housing close to the position of air inlet；

The side of fan outlet is arranged in the pod；

The side of pod is arranged in the heat exchanger, and is arranged in shell outlet ends；

The heat exchanger includes: outer spherical shell, interior spherical shell, water inlet pipe, outlet pipe, air inlet one, air inlet two, air outlet；

The water inlet pipe is arranged on outer spherical shell and extends to inside interior spherical shell, and water inlet pipe is perpendicular to outer spherical shell outside wall surface Tangential direction is simultaneously extended to through ectosphere shell wall face to interior spherical shell, and water flow is flowed into interior spherical shell along a tangential direction by water inlet pipe Portion；

The outlet pipe is arranged on outer spherical shell and extends to inside interior spherical shell, and that water inlet pipe is arranged in is opposite for outlet pipe Outside side on spherical shell；

The inner wall of the interior spherical shell is provided with spiral channel, and water flow is along spiral channel helical flow from top to bottom；

The air inlet one and air inlet two are separately positioned on outer spherical shell, and air is respectively from air inlet one and air inlet two The interlayer between outer spherical shell and interior spherical shell is flowed into, the air flowed into from air inlet one is done respectively with the air flowed into from air inlet two Reversed adherent screw, and converged at air outlet；

The middle position of side on outer spherical shell is arranged in the air outlet.

In one embodiment, the upper end of outer spherical shell is arranged in the air inlet one.

In one embodiment, the lower end of outer spherical shell is arranged in the air inlet two.

In one embodiment, the spiral channel surface is equipped with several protrusions.

In one embodiment, the surface of the outer spherical shell is uniformly provided with Noise reduction tile.

The beneficial effects of the utility model are as follows:

1. the setting of the double layer hollow ball-type heat exchanger of the utility model, water flow extends water flow by spiral channel Flow path, and water flow constantly alters course, and generates turbulent flow, the heat exchanger effectiveness of water flow is improved, simultaneously as water flow is in double-layer ball Shell internal flow, water flow heat insulation effect are more preferable.

2. the setting of the double layer hollow ball-type heat exchanger of the utility model, the air that is flowed into from air inlet one with from air inlet Two air flowed into do reversed adherent screw respectively keeps air-flow equal in the horizontal middle plane airflow collision of spherical shell interlayer Even mixing further improves the heat exchanger effectiveness of air.Simultaneously as air flows in outer spherical shell, after air heat-exchange Heat insulation effect is more preferable.

3. the utility model is uniformly provided with Noise reduction tile on the surface of outer spherical shell, Noise reduction tile can be absorbed in heat exchanging process and produce Raw noise.

Detailed description of the invention

Fig. 1 is the whole the schematic diagram of the section structure of the utility model.

Fig. 2 is the structural schematic diagram of the heat exchanger of the utility model.

Fig. 3 is the detail view of the heat exchanger of the utility model.

Fig. 4 is the outer spherical shell schematic surface of the heat exchanger of the utility model.

Specific embodiment

The preferred embodiment of the utility model will be described in detail by reference to attached drawing, in this way for belonging to utility model These embodiments easy to accomplish for people in the existing technical staff in field with ordinary skill.However the utility model can also It is realized in the form of a variety of different, therefore the utility model is not limited to embodiments described hereinafter.In addition, in order to more clearly The utility model is described, will be omitted from attached drawing with the component that the utility model is not connect.

As shown in Figure 1, a kind of fan coil with double layer hollow ball-type heat exchanger, comprising: shell 1, blower 2, water conservancy diversion Cover 3, heat exchanger 4；

1 inside of shell is arranged in close to the position of air inlet in the blower 2；

The side of 2 air outlet of blower is arranged in the pod 3；

The side of pod 3 is arranged in the heat exchanger 4, and is arranged in 1 outlet ends of shell；

The heat exchanger 4 includes: outer spherical shell 41, interior spherical shell 42, water inlet pipe 43, outlet pipe 44, air inlet 1, air inlet Mouth 2 46, air outlet 47；

The water inlet pipe 43 is arranged on outer spherical shell 41 and extends to inside interior spherical shell 42, and water inlet pipe 43 is perpendicular to ectosphere 41 outside wall surface tangential direction of shell is simultaneously extended to interior spherical shell 42 through outer 41 wall surface of spherical shell, water flow by water inlet pipe 43 tangentially Direction flows into inside interior spherical shell 42；

The outlet pipe 44 is arranged on outer spherical shell 41 and extends to inside interior spherical shell 42, and the setting of outlet pipe 44 is being intake Outside the opposite side of pipe 43 on spherical shell 41；

The inner wall of the interior spherical shell 42 is provided with spiral channel 421, and water flow is along the spiral flow from top to bottom of spiral channel 421 It is dynamic；

The air inlet 1 and air inlet 2 46 are separately positioned on outer spherical shell 41, and air distinguishes one 45 He of air inlet Air inlet 2 46 flows into the interlayer between outer spherical shell 41 and interior spherical shell 42, the air that flows into from air inlet 1 and from air inlet two 46 air flowed into do reversed adherent screw respectively, and converge at air outlet 47；

The middle position of side on outer spherical shell 42 is arranged in the air outlet 47.

As shown in Figure 2, it is preferred that as an embodiment, the upper of outer spherical shell 41 is arranged in the air inlet 1 End, this be arranged so that air tangentially flowed into from the air inlet 1 of outer 41 upper end of spherical shell after from top to bottom screw to outlet air Mouth 47 flows out, to keep air spiralization longer, whole process makes the heat exchange of air-flow more abundant.

As shown in Figure 2, it is preferred that as an embodiment, the air inlet 2 46 is arranged under outer spherical shell 41 End, this be arranged so that air tangentially flowed into from the air inlet 2 47 of outer 41 lower end of spherical shell after screw from bottom to up to outlet air Mouth 47 flows out, to keep air spiralization longer, whole process makes the heat exchange of air-flow more abundant.

Preferably, as an embodiment, 421 surface of spiral channel is equipped with several protrusions, and water flow is along spiral Turbulence effects are more preferable by convexing to form for the flowing of water channel 421, further such that the heat exchange of water flow is more abundant.

As shown in Figure 4, it is preferred that as an embodiment, the surface of the outer spherical shell 41 is uniformly provided with Noise reduction tile 411, the noise generated in heat exchanging process can be absorbed in Noise reduction tile 411.

Utility model works principle:

Blower 2 works first, and air comes out from pod 3 and flows to heat exchanger 4, flows to out after exchanging heat using heat exchanger 4 Mouthful.Wherein, the setting of double layer hollow ball-type heat exchanger, so that air adherent screw in interlayer, water flow is in interior spherical shell 421 helical flow of spiral channel, while improving the heat exchange of water flow and the heat exchanger effectiveness of air.

Claims (5)

1. a kind of fan coil with double layer hollow ball-type heat exchanger, comprising: shell (1), pod (3), changes blower (2) Hot device (4)；

Blower (2) setting is in the internal position close to air inlet of shell (1)；

The pod (3) is arranged in the side of blower (2) air outlet；

Heat exchanger (4) setting is arranged in the side of pod (3) in shell (1) outlet ends；

It is characterized by: the heat exchanger (4) includes: outer spherical shell (41), and interior spherical shell (42), water inlet pipe (43), outlet pipe (44), Air inlet one (45), air inlet two (46), air outlet (47)；

The water inlet pipe (43) is arranged on outer spherical shell (41) and extends to interior spherical shell (42) inside, and water flow is by water inlet pipe (43) edge It is internal that tangential direction flows into interior spherical shell (42)；

The outlet pipe (44) is arranged on outer spherical shell (41) and extends to interior spherical shell (42) inside；

The inner wall of the interior spherical shell (42) is provided with spiral channel (421), and water flow is along spiral channel (421) spiral flow from top to bottom It is dynamic；

The air inlet one (45) and air inlet two (46) are separately positioned on outer spherical shell (41), and air is along a tangential direction from air inlet One (45) of mouth and air inlet two (46) flow into the interlayer between outer spherical shell (41) and interior spherical shell (42), flow into from air inlet one (45) Air do reversed adherent screw respectively with the air flowed into from air inlet two (46), and converged at air outlet (47)；

The middle position of side is arranged on outer spherical shell (41) in the air outlet (47).

2. a kind of fan coil with double layer hollow ball-type heat exchanger according to claim 1, it is characterised in that: it is described into Air port one (45) is arranged in the upper end of outer spherical shell (41).

3. a kind of fan coil with double layer hollow ball-type heat exchanger according to claim 2, it is characterised in that: it is described into Air port two (46) is arranged in the lower end of outer spherical shell (41).

4. a kind of fan coil with double layer hollow ball-type heat exchanger according to claim 3, it is characterised in that: the spiral shell It revolves water channel (421) surface and is equipped with several protrusions.

5. a kind of fan coil with double layer hollow ball-type heat exchanger according to claim 4, it is characterised in that: described outer The surface of spherical shell (41) is uniformly provided with Noise reduction tile (411).