CN209013534U - Diverter assembly, heat exchanger assembly and heat-pump hot-water unit - Google Patents

Abstract

The utility model discloses a kind of diverter assembly, heat exchanger assembly and heat-pump hot-water units, diverter assembly includes: current divider, inlet tube, flow mixing device and outlet, refrigerant is sent into flow mixing device by inlet tube, and outlet connects the split entry of the mixed flow outlet and current divider of flow mixing device.The utility model have many advantages, such as refrigerant be evenly distributed, increase heat exchanger heat exchange amount, improve unit reliability.

Description

Diverter assembly, heat exchanger assembly and heat-pump hot-water unit

Technical field

The utility model relates to technical field of heat exchangers more particularly to a kind of diverter assemblies, heat exchanger assembly and heat pump Hot water units.

Background technique

In the design of heat exchanger, in order to improve the performance and efficiency of heat exchanger, and reduce the pressure loss of refrigerant, usually Current divider can be increased before heat exchanger, the heat exchanger branch in heat exchanger is connected on the tap hole of current divider by separating tube, Multitube line structure parallel with one another is formed between heat exchanger and current divider, makes coolant distribution.But due to the flow velocity for entering current divider Quickly, the distribution condition of refrigerant will receive the influence that the inlet refrigerant dynamics of inlet tube is distributed after shunting, cause refrigerant point Cloth is uneven, and temperature, the pressure for eventually leading to each heat exchanger branch outflow refrigerant are different, and the heat transfer effect of heat exchanger is poor.

Therefore, how to design a kind of diverter assembly for making refrigerant be more evenly distributed is that industry technology urgently to be resolved is asked Topic.

Utility model content

In order to solve to exist in the prior art the defect that refrigerant is unevenly distributed, the utility model proposes a kind of current divider groups Part, heat exchanger assembly and heat-pump hot-water unit.

The technical solution adopted in the utility model is to design a kind of diverter assembly, comprising: current divider, inlet tube, mixed flow Refrigerant is sent into flow mixing device by device and outlet, inlet tube, and outlet connects the shunting of the mixed flow outlet and current divider of flow mixing device Entrance.

Preferably, outlet is straight tube.

Preferably, current divider, flow mixing device and outlet are vertically-mounted, and refrigerant flows into current divider from flow mixing device from the bottom to top In.

Preferably, the inner cavity of flow mixing device is mixed flow chamber, and the mixed flow import of flow mixing device is equipped with inlet tube, one end of inlet tube with Inlet tube connection, the other end protrude into mixed flow chamber.

Preferably, mixed flow chamber, inlet tube and mixed flow outlet coaxial arrangement.

Preferably, it is active section that the pipeline section in mixed flow chamber is located on inlet tube, and the endcapped of active section is arranged, active section Side be equipped with several drainage through-hole.

Preferably, drainage through-hole is uniformly arranged around the axis of active section.

Preferably, the axis and liquid for draining through-hole, which enter, is equipped with angle between the flow direction in active section, angle Range is 120 ° ~ 150 °.

Preferably, the length of active section is the 1/4 ~ 1/2 of the length of mixed flow chamber.

Preferably, the ratio range of the sectional area in the middle part of mixed flow chamber and the sectional area of active section inner circle is 9 ~ 20.

Preferably, the inner wall smooth of flow mixing device or uneven.

Preferably, the position on flow mixing device close to mixed flow outlet is equipped with tapered mouth, what the size of tapered mouth was exported along mixed flow Liquid outflow direction is gradually reduced.

Preferably, one end of current divider is equipped with split entry, the other end is equipped with several shuntings being connected to split entry Hole, split entry inside are equipped with spreader, the liquid inflow direction of the tip face split entry of spreader.

Preferably, spreader and split entry are coaxially disposed.

Preferably, angle, separate split entry on tap hole are equipped between the axis of tap hole and the axis of split entry One end be inclined outwardly.

Preferably, tap hole is uniformly arranged around the axis of split entry.

The utility model also proposed a kind of heat exchanger assembly, comprising: above-mentioned diverter assembly, heat exchanger, connection shunt Several of device and heat exchanger separating tube.

Preferably, heat exchanger includes: gas collecting tube, several heat exchanger branches in parallel, and current divider is equipped with several shuntings Hole, one end of each heat exchanger branch is connected on tap hole by separating tube, the other end is connected on gas collecting tube.

Preferably, separating tube is copper pipe or capillary.

The utility model also proposed a kind of heat-pump hot-water unit, including above-mentioned heat exchanger assembly.

Compared with prior art, the utility model increases flow mixing device between current divider and inlet tube, and refrigerant passes through entrance Pipe enters flow mixing device, is uniformly mixed gas-liquid two-phase by flow mixing device, then enters back into current divider, makes the refrigerant distribution before shunting More evenly, the stability for increasing shunting, the entrance refrigerant state and dynamics distribution that inlet tube can be greatly reduced imitate shunting The influence of fruit.

Detailed description of the invention

The utility model is described in detail below with reference to embodiment and attached drawing, in which:

Fig. 1 is the outside schematic diagram of diverter assembly in the utility model；

Fig. 2 is the schematic diagram of internal structure of diverter assembly in the utility model；

Fig. 3 is the schematic diagram of internal structure of current divider in the utility model；

Fig. 4 is the connection schematic diagram of heat exchanger assembly in the utility model.

Specific embodiment

As shown in Figure 1, 2, the utility model proposes diverter assembly, comprising: current divider 1, inlet tube 2,3 and of flow mixing device Outlet 4, refrigerant flows in inlet tube 2 after electric expansion valve or supercooling tube throttling, then enters flow mixing device 3 from inlet tube 2 In mixed, outlet 4 connects the mixed flow outlet 32 and the split entry 11 of current divider 1 of flow mixing device 3, mixed refrigerant warp It crosses outlet 4 and is sent into current divider 1.In a preferred embodiment, outlet 4 is straight tube, to guarantee that power distribution will not influence shunting Effect, current divider 1, flow mixing device 3 and the axis of outlet 4 are vertically-mounted, and refrigerant flows into current divider from flow mixing device 3 from the bottom to top In 1, uneven, guarantee shunting effect stable and uniform is shunted caused by avoiding due to gravity.

As shown in Fig. 2, the structure of flow mixing device 3 is as follows, the inner cavity of flow mixing device 3 is mixed flow chamber 33, mixed flow chamber 33, mixed flow import 31 and 32 coaxial arrangement of mixed flow outlet, mixed flow import 31 be equipped with inlet tube 35, the outer wall of inlet tube 35 is interior with mixed flow import 31 Wall is tightly connected, and one end of inlet tube 35 is connect with inlet tube 2, and the other end of inlet tube 35 protrudes into mixed flow chamber 33.Inlet tube The pipeline section for being located in mixed flow chamber 33 on 35 is active section 36, and the length of active section 36 is the 1/4 ~ 1/2 of the length of mixed flow chamber 33, work Make the endcapped setting of section 36, the side of active section 36 is equipped with several drainage through-holes 37, and refrigerant enters from drainage through-hole 37 It is mixed in mixed flow chamber 33, drainage through-hole 37 is uniformly arranged around the axis of active section 36, so that radial direction of the refrigerant from active section 36 On even into mixed flow chamber 33, the axis and liquid for draining through-hole 37, which enter, is equipped with folder between the flow direction in active section 36 Angle, the range of angle are 120 ° ~ 150 °, and drainage through-hole 37 oliquely downward draws refrigerant, to reinforce the mixed flow effect of mixed flow chamber 33 Fruit.The internal diameter at 33 middle part of mixed flow chamber is greater than the internal diameter of active section 36, the sectional area and 36 inner circle of active section at 33 middle part of mixed flow chamber The ratio range of sectional area is 9 ~ 20, and to guarantee that refrigerant sufficiently slows down in mixed flow chamber 33, gas-liquid two-phase is uniformly mixed.

Further, the top of flow mixing device 3 is equipped with tapered mouth 34, and tapered mouth 34 connects the middle part of flow mixing device 3 and mixed flow goes out The size of mouth 32, tapered mouth 34 is gradually reduced along the liquid outflow direction of mixed flow outlet 32, to improve aerodynamic quality, mixed flow The inner wall smooth of device 3 is uneven, and light pipe, bellows, screwed pipe or other casts can be used.

As shown in figure 3, the structure of current divider 1 is as follows, one end of current divider 1 is equipped with split entry 11, current divider 1 it is another End is equipped with several tap holes 12 being connected to split entry 11, is equipped with spreader 13 inside split entry 11, spreader 13 The liquid inflow direction of tip face split entry 11, spreader 13 and split entry 11 are coaxially disposed, and tap hole 12, which is surround, to be divided The axis arrangement for flowing device 1 is equipped with angle, separate shunting on tap hole 12 between the axis of tap hole 12 and the axis of current divider 1 One end of entrance 11 is inclined outwardly, and refrigerant is by being assigned in each tap hole 12 more evenly of spreader 13.

As shown in figure 4, the utility model also proposed a kind of heat exchanger assembly, comprising: above-mentioned diverter assembly, heat exchange Device, several separating tubes 5 for connecting current divider 1 and heat exchanger.Wherein, heat exchanger includes: gas collecting tube 6 and several in parallel are changed Hot device branch 7, one end of each heat exchanger branch 7 are connected on tap hole 12 by separating tube 5, heat exchanger branch 7 it is another End is connected on gas collecting tube 6, and separating tube 5 can be general copper pipe, is also possible to the capillary of variable diameter, can respectively be changed entering The coolant quantity of hot device branch 7 is finely adjusted.Refrigerant is sufficiently exchanged heat in heat exchanger branch 7 with heat source, is completed with heat exchanger The refrigerant of heat exchange converges in gas collecting tube 6, by the effect of diverter assembly uniform divided flows, makes each 7 exit of heat exchanger branch Temperature, the pressure of refrigerant reach unanimity, and increase the heat exchange amount of heat exchanger, improve heat exchange efficiency, and can be suitably used for heat exchanger A variety of different operating conditions, unit reliability improve.

The utility model also proposed a kind of heat-pump hot-water unit, including above-mentioned heat exchanger assembly.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (21)

1. a kind of diverter assembly, comprising: current divider (1) and inlet tube (2), which is characterized in that further include: flow mixing device (3) and Refrigerant is sent into the flow mixing device (3) by outlet (4), the inlet tube (2), and the outlet (4) connects the flow mixing device (3) split entry (11) of mixed flow outlet (32) and the current divider (1).

2. diverter assembly as described in claim 1, which is characterized in that the outlet (4) is straight tube.

3. diverter assembly as claimed in claim 2, which is characterized in that the current divider (1), the flow mixing device (3) and institute It is vertically-mounted to state outlet (4), refrigerant flows into the current divider (1) from the flow mixing device (3) from the bottom to top.

4. diverter assembly as described in any one of claims 1 to 3, which is characterized in that the inner cavity of the flow mixing device (3) is mixed Flow chamber (33), the mixed flow import (31) of the flow mixing device is equipped with inlet tube (35), one end of the inlet tube (35) with it is described enter Mouth pipe (2) connection, the other end protrude into the mixed flow chamber (33).

5. diverter assembly as claimed in claim 4, which is characterized in that the mixed flow chamber (33), the inlet tube (35) and Mixed flow outlet (32) coaxial arrangement.

6. diverter assembly as claimed in claim 4, which is characterized in that be located at the mixed flow chamber on the inlet tube (35) (33) pipeline section in is active section (36), and the endcapped of the active section (36) is arranged, and the side of the active section (36) is set There are several to drain through-hole (37).

7. diverter assembly as claimed in claim 6, which is characterized in that the drainage through-hole (37) is around the active section (36) axis is uniformly arranged.

8. diverter assembly as claimed in claim 6, which is characterized in that the axis and liquid of drainage through-hole (37) enter Angle is equipped between flow direction in the active section (36), the range of the angle is 120 ° ~ 150 °.

9. diverter assembly as claimed in claim 6, which is characterized in that the length of the active section (36) is the mixed flow chamber (33) the 1/4 ~ 1/2 of length.

10. diverter assembly as claimed in claim 6, which is characterized in that sectional area and institute in the middle part of the mixed flow chamber (33) The ratio range for stating the sectional area of active section (36) inner circle is 9 ~ 20.

11. diverter assembly as described in claim 1, which is characterized in that the inner wall smooth or bumps of the flow mixing device (3) are not It is flat.

12. diverter assembly as described in claim 1, which is characterized in that exported on the flow mixing device (3) close to the mixed flow (32) position is equipped with tapered mouth (34), and the size of the tapered mouth (34) flows out direction along the liquid that the mixed flow exports (32) It is gradually reduced.

13. diverter assembly as described in claim 1, which is characterized in that one end of the current divider (1) is equipped with the shunting Entrance (11), the other end are equipped with several tap holes (12) being connected to the split entry (11), the split entry (11) Inside is equipped with spreader (13), the liquid inflow direction of split entry (11) described in the tip face of the spreader (13).

14. diverter assembly as claimed in claim 13, which is characterized in that the spreader (13) and the split entry (11) it is coaxially disposed.

15. diverter assembly as claimed in claim 13, which is characterized in that the axis of the tap hole (12) and the shunting Angle is equipped between the axis of entrance (11), one end far from the split entry (11) leans outward on the tap hole (12) Tiltedly.

16. the diverter assembly as described in any one of claim 13 to 15, which is characterized in that the tap hole (12) is around described The axis of split entry (11) is uniformly arranged.

17. a kind of heat exchanger assembly characterized by comprising such as the described in any item diverter assemblies of claim 1 to 16.

18. heat exchanger assembly as claimed in claim 17, which is characterized in that further include: heat exchanger, the connection current divider (1) and several separating tubes (5) of the heat exchanger.

19. heat exchanger assembly as claimed in claim 18, which is characterized in that the heat exchanger includes: gas collecting tube (6), several The heat exchanger branch (7) of a parallel connection, the current divider (1) are equipped with several tap holes (12), each heat exchanger branch (7) One end connect the gas collecting tube (6), the other end and connect the tap hole (12) by the separating tube (5).

20. heat exchanger assembly as claimed in claim 18, which is characterized in that the separating tube (5) is copper pipe or capillary.

21. a kind of heat-pump hot-water unit characterized by comprising such as the described in any item heat exchanger groups of claim 17 to 20 Part.