CN108317634A - Heat exchange assembly and wall penetrating machine - Google Patents

Abstract

The invention provides a heat exchange assembly and a wall penetrating machine, wherein the heat exchange assembly comprises a thermoelectric pair, a heat absorption radiator and a heat release radiator; the thermoelectric pair is located between the heat absorption radiator and the heat release radiator, the heat absorption radiator is connected with the heat release radiator so that the heat absorption radiator and the heat release radiator can clamp the thermoelectric pair, the heat absorption radiator is pressed and attached to the cold end of the thermoelectric pair, the heat release radiator is pressed and attached to the hot end of the thermoelectric pair, the heat absorption radiator and the heat release radiator are sequentially arranged along the air flow direction and are used for adjusting the humidity and the temperature of the air flow sequentially through the heat absorption radiator and the heat release radiator. The invention has the advantages of reasonable design, simple structure, low cost and capability of reducing noise.

Description

Heat-exchanging component and machine through walls

Technical field

The present invention relates to family's electro-technical field, more particularly to a kind of heat-exchanging component and machine through walls.

Background technology

Requirement with people to indoor comfort degree is higher and higher.New wind devices are widely used to daily life In, it is adjusted with the humidity to room air.Existing new wind devices are removed to air by compressor assembly It is wet, it needs the flowing by refrigerant using such and reaches dehumidifying purpose, complicated, moving component is more, and noise Big disadvantage.

Invention content

It is reasonable design, simple in structure the main purpose of the present invention is to provide a kind of heat-exchanging component and machine through walls, and And noise can be reduced.

The present invention provides a kind of heat-exchanging component, including thermoelectricity is to, heat radiator device and heat release radiator；

The thermoelectricity to being located between the heat radiator device and the heat release radiator, the heat radiator device with it is described Heat release radiator connects, so that the thermoelectricity pair can be clamped in the two, and the heat radiator device is overlayed in the thermoelectricity pair Cold end, the heat release radiator overlays on the hot junction of the thermoelectricity pair, the heat radiator device and heat release radiator edge Airflow direction is laid successively, to pass sequentially through the heat radiator device and the heat release radiator humidity and temperature to air-flow It is adjusted.

More preferably, further include the first heat insulating member；

It is described perpendicular to the direction of the heat radiator device, the thermoelectricity pair and the heat release radiator arragement direction The both ends of thermoelectricity pair are respectively first end and second end；

It is described perpendicular to the direction of the heat radiator device, the thermoelectricity pair and the heat release radiator arragement direction Heat radiator utensil has the first external part stretched out except the first end, and the heat release radiator, which has, stretches out the first end Except the second external part, first heat insulating member is arranged between first external part and second external part.

More preferably, further include the first connecting portion part；

The first connecting portion part is detachably connected with first external part and second external part respectively, by institute It states the first external part and second external part links together.

More preferably, the both ends of the first connecting portion part are respectively the first stud and the second stud；

It is provided with the first screw hole to match with first stud on first external part, makes first stud It can be threaded in first screw hole；

It is provided with the second screw hole to match with second stud on second external part, makes second stud It can be threaded in second screw hole.

More preferably, the thread rotary orientation of the thread rotary orientation of first stud and second stud is opposite.

More preferably, further include the second heat insulating member；

It is described perpendicular to the direction of the heat radiator device, the thermoelectricity pair and the heat release radiator arragement direction Heat radiator utensil has the third external part stretched out except the second end, and the heat release radiator, which has, stretches out the second end Except the 4th external part, second heat insulating member is arranged between the third external part and the 4th external part.

More preferably, further include second connecting portion part；

The second connecting portion part is detachably connected with the third external part and the 4th external part respectively, by institute It states third external part and the 4th external part links together.

More preferably, the both ends of the second connecting portion part are respectively third stud and the 4th stud；

It is provided with the third screw hole to match with the third stud on the third external part, makes the third stud It can be threaded in the third screw hole；

It is provided with the 4th screw hole to match with the 4th stud on the 4th external part, makes the 4th stud It can be threaded in the 4th screw hole.

More preferably, the thread rotary orientation of the thread rotary orientation of the third stud and the 4th stud is opposite.

More preferably, there are multiple first fins on the heat radiator device, and/or, have on the heat release radiator more A second fin.

Another aspect of the invention provides a kind of machine through walls, includes the heat-exchanging component of shell and any of the above technical characteristic；

The shell has air intake vent and air outlet, and the heat-exchanging component is arranged in the shell, and the heat absorption The first air duct is formed between radiator and the inner wall of the shell, is formed between the heat release radiator and the inner wall of the shell The second air duct being connected to first air duct, air-flow enter from the air intake vent in the shell, and followed by described the Behind one air duct and second air duct, flowed out from the air outlet.

More preferably, further include wind turbine；

The wind turbine is arranged on the air flow path of the shell, enters the shell by the air intake vent with certain driving air-flow Internal portion, and flowed out from the air outlet.

The heat-exchanging component of the offer of the present invention, is connect using the heat radiator device with the heat release radiator, so that two The technical solution of the thermoelectricity pair can be clamped in person, not only reasonable design, simple in structure, but also can reduce noise.

Description of the drawings

Attached drawing described herein is used to provide further understanding of the present invention, and constitutes the part of the present invention, this hair Bright illustrative embodiments and their description are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 is the heat-exchanging component structural schematic diagram in embodiment one；

Fig. 2 is the portions the A enlarged diagram in Fig. 1；

Fig. 3 is the portions the B enlarged diagram in Fig. 1；

Fig. 4 is the machine structural schematic diagram through walls in embodiment two.

In figure：1, thermoelectricity pair；2, heat radiator device；21, the first external part；22, the first screw hole；23, third external part； 24, third screw hole；25, the first fin；3, heat release radiator；31, the second external part；32, the second screw hole；33, the 4th external part； 34, the 4th screw hole；35, the second fin；4, the first heat insulating member；5, the first connecting portion part；51, the first stud；52, the second spiral shell Column；6, the second heat insulating member；7, second connecting portion part；71, third stud；72, the 4th stud；8, shell；81, air intake vent；82、 Air outlet；83, the first air duct；84, the second air duct；85, wind turbine；9, heat-exchanging component.

Specific implementation mode

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the specific embodiment of the invention and Technical solution of the present invention is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the present invention one Section Example, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing Go out the every other embodiment obtained under the premise of creative work, shall fall within the protection scope of the present invention.

It should be noted that term " first " in description and claims of this specification and above-mentioned attached drawing, " Two " etc. be for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that using in this way Data can be interchanged in the appropriate case, so as to the embodiment of the present invention described herein can in addition to illustrating herein or Sequence other than those of description is implemented.

Embodiment one

As shown in Figure 1, a kind of heat-exchanging component, including thermoelectricity pair 1, heat radiator device 2 and heat release radiator 3, thermoelectricity pair 1 Between heat radiator device 2 and heat release radiator 3, heat radiator device 2 is connect with heat release radiator 3, so that the two can be clamped Thermoelectricity pair 1, and heat radiator device 2 overlays the cold end in thermoelectricity pair 1, and heat release radiator 3 is overlayed in the hot junction of thermoelectricity pair 1, is inhaled Heat radiator 2 and heat release radiator 3 are laid successively along airflow direction, to pass sequentially through heat radiator device 2 and heat release radiator 3 The humidity and temperature of air-flow are adjusted.Using such technical solution, heat absorption can be reduced by the cold end of thermoelectricity pair 1 and dissipated The temperature of hot device 2, while by the temperature of the hot junction of thermoelectricity pair 1 raising heat release radiator 3, due to heat radiator device 2 and heat release Radiator 3 is laid successively along airflow direction, air-flow first with 2 contact heat-exchanging of heat radiator device with realize dehumidifying, then again with heat release 3 contact heat-exchanging of radiator is to improve temperature.The scheme to be dehumidified by compressor assembly in compared with the existing technology, in the present embodiment Heat-exchanging component need not can be realized by the flowing of refrigerant the humidity and temperature of air-flow are adjusted, not only structure letter It is single, of low cost, while noise can also be reduced.Wherein, more preferably, there are multiple first fins 25 on heat radiator device 2, And/or there are multiple second fins 35 on heat release radiator 3, to improve heat radiator device 2 and/or heat release radiator 3 and air-flow Contact area, and then improve heat exchange efficiency.

Specifically, as shown in Figure 1, further including the first heat insulating member 4.Perpendicular to heat radiator device 2, thermoelectricity pair 1 and putting The direction of 3 arragement direction of heat radiator, the both ends of thermoelectricity pair 1 be respectively first end (upper end of thermoelectricity pair 1 shown in Fig. 1) and Second end (lower end of thermoelectricity pair 1 shown in Fig. 1).It arranges perpendicular to heat radiator device 2, thermoelectricity pair 1 and heat release radiator 3 The direction in direction, heat radiator device 2 have the first external part 21 stretched out except first end, and heat release radiator 3, which has, stretches out the The second external part 31 except one end, the first heat insulating member 4 are arranged between the first external part 21 and the second external part 31.In this way It can prevent heat occur between the first external part 21 (i.e. heat radiator device 2) and the second external part 31 (i.e. heat release radiator 3) It transmits, and then ensures the heat transfer effect with air-flow of heat radiator device 2 and heat release radiator 3, wherein the first heat insulating member 4 can be with Full of the gap between the first external part 21 and the second external part 31, to improve heat insulation.

Further, as shown in Figure 1, 2, further include the first connecting portion part 5, the first connecting portion part 5 is stretched out with first respectively End 21 and the second external part 31 are detachably connected, and the first external part 21 and the second external part 31 are linked together.Specifically, As shown in Fig. 2, the both ends of the first connecting portion part 5 are respectively the first stud 51 and the second stud 52.It is set on the first external part 21 It is equipped with the first screw hole 22 to match with the first stud 51, the first stud 51 is enable to be threaded in the first screw hole 22. It is provided with the second screw hole 32 to match with the second stud 52 on second external part 31, the second stud 52 is enable to be threaded in In second screw hole 32.In actual fabrication, the thread rotary orientation of the thread rotary orientation of the first stud 51 and the second stud 52 is opposite.Using Such technical solution can be convenient for that heat radiator device 2 and heat release radiator 3 are dismantled or installed.It should be noted that When having the first heat insulating member 4 between the first external part 21 and the second external part 31, permission can be set on the first heat insulating member 4 The first through hole (not shown) that the first connecting portion part 5 passes through, to avoid between the first heat insulating member 4 and the first connecting portion part 5 Interfere.

As a kind of embodiment, as shown in Figure 1, further including the second heat insulating member 6.Perpendicular to heat radiator device 2, The direction of 3 arragement direction of thermoelectricity pair 1 and heat release radiator, heat radiator device 2 have the third external part stretched out except second end 23, there is heat release radiator 3 the 4th external part 33 stretched out except second end, the second heat insulating member 6 to be arranged in third external part 23 and the 4th between external part 33.Third external part 23 (i.e. heat radiator device 2) can be prevented in this way and the 4th external part 33 is (i.e. Heat release radiator 3) between there is heat transfer, and then ensure the heat exchange effect with air-flow of heat radiator device 2 and heat release radiator 3 Fruit, wherein the second heat insulating member 6 can be full of the gap between third external part 23 and the 4th external part 33, to improve heat-insulated effect Fruit.

Further, as shown in Figure 1, 2, further include second connecting portion part 7.Second connecting portion part 7 is stretched out with third respectively End 23 and the 4th external part 33 are detachably connected, and third external part 23 and the 4th external part 33 are linked together.Specifically, As shown in figure 3, the both ends of second connecting portion part 7 are respectively third stud 71 and the 4th stud 72.It is set on third external part 23 It is equipped with the third screw hole 24 to match with third stud 71, third stud 71 is enable to be threaded in third screw hole 24. It is provided with the 4th screw hole 34 to match with the 4th stud 72 on 4th external part 33, the 4th stud 72 is enable to be threaded in In 4th screw hole 34.In actual fabrication, the thread rotary orientation of the thread rotary orientation of third stud 71 and the 4th stud 72 is opposite.Using Such technical solution can be convenient for that heat radiator device 2 and heat release radiator 3 are dismantled or installed.It should be noted that When having the second heat insulating member 6 between third external part 23 and the 4th external part 33, permission can be set on the second heat insulating member 6 The second through-hole (not shown) that second connecting portion part 7 passes through, to avoid between the second heat insulating member 6 and second connecting portion part 7 Interfere.

Embodiment two

As shown in figure 4, a kind of machine through walls, including shell 8 and heat-exchanging component 9, wherein heat-exchanging component 9 is a kind of institute of embodiment The heat exchanger assembly of description.Shell 8 has air intake vent 81 and air outlet 82, and heat-exchanging component 9 is arranged in shell 8, and absorbs heat The first air duct 83 is formed between radiator 2 and the inner wall of shell 8, is formed and first between heat release radiator 3 and the inner wall of shell 8 The second air duct 84 that air duct 83 is connected to, air-flow enter from air intake vent 81 in shell 8, and followed by the first air duct 83 and the second wind Behind road 84, flowed out from air outlet 82.In actual installation, shell 8 can be threaded through on wall, and 81 faced chamber of air intake vent Outside, in 82 faced chamber of air outlet, extraneous air, which enters after shell 8, to be introduced into the first air duct 83 and contacts progress with heat radiator device 2 Then dehumidifying enters back into the second air duct 84 and is contacted with heat release radiator 3 and heated, the humidity and temperature of air-flow have reached at this time It is got in more suitable state, then by air outlet 82.

Further, as shown in figure 4, further including wind turbine 85, wind turbine 85 is arranged on the air flow path of shell 8, with driving Air-flow is entered by air intake vent 81 inside shell 8, and is flowed out from air outlet 82.Wherein wind turbine 85 can be arranged as shown in the figure On air outlet 82, it is not limited to this, can also be arranged on air intake vent 81 or the first air duct 83 in or the second air duct 84 in Deng the arbitrary position that goal of the invention can be achieved.

Above example makes the present invention have reasonable design, simple in structure, of low cost, and can reduce the excellent of noise Point.

Example the above is only the implementation of the present invention is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.Any modification made by all within the spirits and principles of the present invention, Equivalent replacement, improvement etc., should be included within scope of the presently claimed invention.

Claims (12)

1. a kind of heat-exchanging component, it is characterised in that：

Including thermoelectricity to (1), heat radiator device (2) and heat release radiator (3)；

The thermoelectricity to (1) between the heat radiator device (2) and the heat release radiator (3), the heat radiator device (2) it is connect with the heat release radiator (3), so that the thermoelectricity can be clamped to (1) in the two, and the heat radiator device (2) cold end to (1) in the thermoelectricity is overlayed, the heat release radiator (3) overlays the hot junction in the thermoelectricity to (1), described Heat radiator device (2) and the heat release radiator (3) are laid successively along airflow direction, to pass sequentially through the heat radiator device (2) humidity and temperature of air-flow are adjusted with the heat release radiator (3).

2. heat-exchanging component according to claim 1, it is characterised in that：

Further include the first heat insulating member (4)；

Perpendicular to the heat radiator device (2), the thermoelectricity to the direction of (1) and the heat release radiator (3) arragement direction, The thermoelectricity is respectively first end and second end to the both ends of (1)；

Perpendicular to the heat radiator device (2), the thermoelectricity to the direction of (1) and the heat release radiator (3) arragement direction, There is the heat radiator device (2) the first external part (21) stretched out except the first end, the heat release radiator (3) to have The second external part (31) except the first end is stretched out, first heat insulating member (4) is arranged in first external part (21) between second external part (31).

3. heat-exchanging component according to claim 2, it is characterised in that：

Further include the first connecting portion part (5)；

The first connecting portion part (5) detachably connects with first external part (21) and second external part (31) respectively It connects, first external part (21) and second external part (31) is linked together.

4. heat-exchanging component according to claim 3, it is characterised in that：

The both ends of the first connecting portion part (5) are respectively the first stud (51) and the second stud (52)；

It is provided with the first screw hole (22) to match with first stud (51) on first external part (21), makes described First stud (51) can be threaded in first screw hole (22)；

It is provided with the second screw hole (32) to match with second stud (52) on second external part (31), makes described Second stud (52) can be threaded in second screw hole (32).

5. heat-exchanging component according to claim 4, it is characterised in that：

The thread rotary orientation of first stud (51) and the thread rotary orientation of second stud (52) are opposite.

6. heat-exchanging component according to claim 2, it is characterised in that：

Further include the second heat insulating member (6)；

Perpendicular to the heat radiator device (2), the thermoelectricity to the direction of (1) and the heat release radiator (3) arragement direction, There is the heat radiator device (2) the third external part (23) stretched out except the second end, the heat release radiator (3) to have The 4th external part (33) except the second end is stretched out, second heat insulating member (6) is arranged in the third external part (23) between the 4th external part (33).

7. heat-exchanging component according to claim 6, it is characterised in that：

Further include second connecting portion part (7)；

The second connecting portion part (7) detachably connects with the third external part (23) and the 4th external part (33) respectively It connects, the third external part (23) and the 4th external part (33) is linked together.

8. heat-exchanging component according to claim 7, it is characterised in that：

The both ends of the second connecting portion part (7) are respectively third stud (71) and the 4th stud (72)；

It is provided with the third screw hole (24) to match with the third stud (71) on the third external part (23), makes described Third stud (71) can be threaded in the third screw hole (24)；

It is provided with the 4th screw hole (34) to match with the 4th stud (72) on the 4th external part (33), is made described 4th stud (72) can be threaded in the 4th screw hole (34).

9. heat-exchanging component according to claim 8, it is characterised in that：

The thread rotary orientation of the third stud (71) and the thread rotary orientation of the 4th stud (72) are opposite.

10. according to the heat-exchanging component described in claim 1 to 9 any one, it is characterised in that：

There are multiple first fins (25) on the heat radiator device (2), and/or, have on the heat release radiator (3) multiple Second fin (35).

11. a kind of machine through walls, it is characterised in that：

Heat-exchanging component (9) including shell (8) and as described in claims 1 to 10 any one；

The shell (8) has air intake vent (81) and air outlet (82), and heat-exchanging component (9) setting is interior in the shell (8), And the first air duct (83) is formed between the heat radiator device (2) and the inner wall of the shell (8), the heat release radiator (3) the second air duct (84) for being connected to first air duct (83) is formed between the inner wall of the shell (8), air-flow is from described Air intake vent (81) enters in the shell (8), and followed by first air duct (83) and second air duct (84) after, from Air outlet (82) outflow.

12. machine through walls according to claim 11, it is characterised in that：

Further include wind turbine (85)；

The wind turbine (85) is arranged on the air flow path of the shell (8), with certain driving air-flow by the air intake vent (81) into It is internal to enter the shell (8), and flow out from the air outlet (82).