CN109386942A - A kind of regeneration wind-heat recovery system and air conditioner - Google Patents

Abstract

The invention discloses a kind of regeneration wind-heat recovery system and air conditioners, regenerating wind-heat recovery system includes processing wind path and regeneration wind path, it further include heat recovery apparatus, heat recovery apparatus is connected to the air outlet of regeneration wind path, and heat recovery apparatus is also connected to the air intake of processing wind path, handles wind and regenerative exhaust air is exchanged heat by the heat recovery apparatus.In the present invention, processing wind exchanges heat by heat recovery apparatus Shi Huiyu regenerative exhaust air, is preheated by the heat of regenerative exhaust air to processing wind, to make full use of the heat of regeneration wind, realizes the recycling and reusing to regeneration wind-heat amount, save the energy.Regeneration air inlet is exchanged heat by heat recovery apparatus Shi Huiyu regenerative exhaust air, is heated using the heat of regenerative exhaust air to regeneration air inlet, to make full use of the heat of regeneration wind, is realized the recycling and reusing to regeneration wind-heat amount, save the energy.

Description

A kind of regeneration wind-heat recovery system and air conditioner

Technical field

The present invention relates to air-conditioning technical fields, more particularly to a kind of regeneration wind-heat recovery system and air conditioner.

Background technique

Wind system is regenerated used in assembled air-conditioner, regeneration air temperature generally reaches 120 DEG C, using heater to regeneration Wind is heated, and needs to consume a large amount of energy.But the regeneration wind generated at present is all to be directly discharged to outdoor, leads to the energy Greatly waste, it would therefore be highly desirable to which a kind of method that can carry out recycling and reusing to the heat of regeneration wind, saves the energy.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of regeneration wind-heat recovery system and air conditioners, can be to regeneration wind Heat carry out recycling and reusing, save the energy.

The technical solution of the present invention is as follows: providing a kind of regeneration wind-heat recovery system, including processing wind path and regeneration wind path, also Including heat recovery apparatus, the heat recovery apparatus with it is described regeneration wind path air outlet be connected to, and the heat recovery apparatus also with The air intake connection of the processing wind path, handles wind and regenerative exhaust air is exchanged heat by the heat recovery apparatus.

The regeneration wind-heat recovery system further includes first between the air intake and heat recovery apparatus of processing wind path Bypass wind path and the second bypass wind path between the air intake and heat recovery apparatus of regeneration wind path, the first bypass wind Road is equipped with the first air-valve, and the second bypass wind path is equipped with the second air-valve, and first air-valve is opened, and the second air-valve is closed When, the heat recovery apparatus is connected to by the first bypass wind path with the air intake for handling wind path.

First air-valve is closed, when the second air-valve is opened, the heat recovery apparatus also pass through the second bypass wind path with again The air intake connection of raw wind path, regeneration air inlet and regenerative exhaust air are exchanged heat by the heat recovery apparatus.

The heat recovery apparatus has the first heat transfer zone and the second heat transfer zone that separate, and the processing wind is from the recuperation of heat Pass through in second heat transfer zone of device, the regenerative exhaust air pass through from the first heat transfer zone of the heat recovery apparatus and with from second The processing wind passed through in heat transfer zone exchanges heat.

The heat recovery apparatus has the first heat transfer zone and the second heat transfer zone separated, and the regeneration air inlet is returned from the heat Pass through in second heat transfer zone of receiving apparatus, the regenerative exhaust air pass through from the first heat transfer zone of the heat recovery apparatus and with from The regeneration air inlet passed through in two heat transfer zones exchanges heat.

The heat recovery apparatus uses heat pipe thermal recovery unit.

The heat pipe thermal recovery unit includes that inner ring, outer ring and multiple heat exchanger tubes equipped with refrigerating medium, the inner ring are formed First heat transfer zone, forms second heat transfer zone between the inner ring and outer ring, the inner end of the heat exchanger tube is located at first In heat transfer zone, the outer end of the heat exchanger tube is located in the second heat transfer zone.

The center of first heat transfer zone is equipped with connecting column, and the inner end of the heat exchanger tube is connect with connecting column, the heat exchange The outer end of pipe is connect with outer ring.

The cross-sectional area of the heat exchanger tube is gradually increased from the inner end of the heat exchanger tube to outer end.

The cross-sectional shape of the heat exchanger tube is ellipse.

The heat exchanger tube is located at the part in the second heat transfer zone equipped with multiple fins, the multiple fin from inner ring to It is intervally arranged on the direction of outer ring.

The regeneration wind-heat recovery system further includes air inlet, the third bypass between air inlet and heat recovery apparatus Wind path and the 4th bypass wind path between air inlet and the air intake of processing wind path, the third bypass wind path are equipped with Third air-valve, the 4th bypass wind path are equipped with the 4th air-valve；First air-valve and third air-valve are opened, the second air-valve and When 4th air-valve is closed, air inlet bypasses wind path by third and is connected to heat recovery apparatus, and the heat recovery apparatus passes through first Bypass wind path is connected to the air intake for handling wind path.

Second air-valve, third air-valve and the 4th air-valve are opened, and when the first air-valve is closed, the air inlet passes through third Bypass wind path is connected to heat recovery apparatus, and the air inlet also passes through the 4th bypass wind path and is connected to the air intake for handling wind path, The heat recovery apparatus also passes through the second bypass wind path and is connected to the air intake for regenerating wind path.

The processing wind path includes the filter being sequentially communicated, surface air cooler, runner treatment region and processing blower, the filtering Device is located at the air intake of processing wind path.

The regeneration wind path includes the heater being sequentially communicated, rotary wheel regeneration area and regeneration blower, the regeneration blower position In the air outlet of regeneration wind path.

The present invention also provides a kind of air conditioners, which is characterized in that including regeneration wind-heat recovery system described above.

Regeneration wind-heat recovery system proposed by the present invention and air conditioner, processing wind can be with regeneration when passing through heat recovery apparatus Air draft exchanges heat, and is preheated by the heat of regenerative exhaust air to processing wind, to make full use of the heat of regeneration wind, is realized The energy is saved in recycling and reusing to regeneration wind-heat amount.Regeneration air inlet is changed by heat recovery apparatus Shi Huiyu regenerative exhaust air Heat heats regeneration air inlet using the heat of regenerative exhaust air, to make full use of the heat of regeneration wind, realizes to regeneration wind The energy is saved in the recycling and reusing of heat.

Detailed description of the invention

Fig. 1 is the schematic diagram that wind-heat recovery system is regenerated in the embodiment of the present invention.

Fig. 2 is the structure chart of heat pipe thermal recovery unit in the embodiment of the present invention.

Fig. 3 is the cross-sectional view in Fig. 2 at A-A.

Specific embodiment

As shown in Figure 1, the regeneration wind-heat recovery system proposed in the embodiment of the present invention, is applied to air conditioner.

The regeneration wind-heat recovery system includes processing wind path and regeneration wind path, and processing wind path includes the filter being sequentially communicated 1, surface air cooler 2, runner treatment region 31 and processing blower 4, filter 1 are located at the air intake of processing wind path.Regeneration wind path include according to Heater 5, rotary wheel regeneration area 32 and the regeneration blower 6 of secondary connection, regeneration blower 6 are located at the air outlet of regeneration wind path.It is pervious Air stream is through route: a wind path is processing wind successively after filter 1, surface air cooler 2 and runner treatment region 31, passes through place Reason blower 4 is sent to interior；Another wind path is regeneration wind successively after heater 5 and rotary wheel regeneration area 32, passes through regeneration wind Machine 6 is discharged to outdoor.

It should be noted that runner treatment region 31 and rotary wheel regeneration area 32 are set on a runner 3.

In order to realize that the heat to regeneration wind carries out recycling and reusing, the energy is saved.In the present invention, regeneration wind-heat recycling system System further includes heat recovery apparatus 7, and heat recovery apparatus 7 be connected to the air outlet of regeneration wind path, and heat recovery apparatus 7 also with handle wind The air intake on road is connected to, and is handled wind and regenerative exhaust air and is exchanged heat by heat recovery apparatus 7.Processing wind (also referred to as fresh air) exists in this way It is exchanged heat, processing wind is preheated by the heat of regenerative exhaust air, in the winter by heat recovery apparatus Shi Huiyu regenerative exhaust air Processing air temperature is transferred to 0 DEG C or more by the heat of regenerative exhaust air by it, can prevent desuperheating coil water-filling stationary state bursting by freezing, It also can be reduced surface air cooler processing wind is carried out preheating required energy, to make full use of the heat of regeneration wind, realize to again The recycling and reusing of raw wind-heat amount, saves the energy.

Handle wind path air intake and heat recovery apparatus 7 between be equipped with first bypass wind path 8, regenerate wind path air intake and The second bypass wind path 9 is equipped between heat recovery apparatus 7, the first bypass wind path 8 is equipped with the first air-valve 81, the second bypass wind path 9 It is equipped with the second air-valve 91.First air-valve 81 is opened, and when the second air-valve 91 is closed, heat recovery apparatus 7 passes through the first bypass at this time Wind path 8 is connected to (i.e. heat recovery apparatus 7, filter 1, surface air cooler 2, runner treatment region 31 and processing with the air intake of processing wind path Blower 4 is sequentially communicated.At this time wind path be processing wind pass sequentially through heat recovery apparatus 7, filter 1, surface air cooler 2, at runner Interior is sent to behind reason area 31 and processing blower 4, another wind path is that regeneration wind successively passes through heater 5 and rotary wheel regeneration area 32 Afterwards, regenerative exhaust air is generated by regeneration blower 6 and is sent to heat recovery apparatus 7, and be finally discharged to outdoor), handle wind and regenerative exhaust air It exchanges heat in heat recovery apparatus.

First air-valve 81 close, the second air-valve 91 open when, at this time heat recovery apparatus 7 also by second bypass wind path 9 with Regenerate air intake connection (i.e. heat recovery apparatus 7, heater 5, rotary wheel regeneration area 32, regeneration blower 6 and the heat recovery apparatus of wind path 7 are sequentially communicated.A wind path is that processing wind passes sequentially through filter 1, surface air cooler 2, runner treatment region 31 and processing blower 4 at this time After be sent to interior, another wind path is regeneration air inlet successively behind heat recovery apparatus 7, heater 5, rotary wheel regeneration area 32, is led to Cross the generation regenerative exhaust air of regeneration blower 6 and be then sent through heat recovery apparatus 7, and be finally discharged to outdoor), regeneration air inlet and regenerative exhaust air exist It exchanges heat in heat recovery apparatus.Regeneration air inlet is successively by heat recovery apparatus, heater, rotary wheel regeneration area and regeneration wind in this way Become regenerative exhaust air after machine, and again by heat recovery apparatus, be finally discharged to outdoor, using regenerative exhaust air heat to regenerate into Wind is heated, and required temperature can be heated to for regeneration wind by being supplied to the less energy of heater, to make full use of The heat of wind is regenerated, realizes the recycling and reusing to regeneration wind-heat amount, the energy is saved, also protects air-conditioner set reliability service.

It can be realized by the first air-valve of control and the second air-valve in the present invention to fresh air preheating, regeneration air inlet preheating, To make full use of the heat of regeneration wind, the recycling and reusing to regeneration wind-heat amount is realized, save the energy.

As shown in Figure 1, heat recovery apparatus 7 has the first heat transfer zone 71 and the second heat transfer zone 72 separated, the first air-valve 81 open, the second air-valve 91 close when, processing wind pass through from the second heat transfer zone 72 of the heat recovery apparatus 7, regenerative exhaust air from Pass through in first heat transfer zone 71 of the heat recovery apparatus 7 and exchanges heat with the processing wind passed through from the second heat transfer zone 72.The One air-valve 81 is closed, and when the second air-valve 91 is opened, regeneration air inlet passes through from the second heat transfer zone 72 of the heat recovery apparatus 7, institute State regenerative exhaust air pass through from the first heat transfer zone 71 of the heat recovery apparatus 7 and with the regeneration that passes through from the second heat transfer zone 72 into Wind exchanges heat.

As described in Figure 1, which further includes air inlet 10, third bypass wind path 11 and the 4th bypass wind Road 12, third bypass wind path 11 and are set between air inlet 10 and heat recovery apparatus 7, and third bypasses wind path 11 and is equipped with third air-valve 111, the 4th bypass wind path 12 is set between air inlet 10 and the air intake for handling wind path, and the 4th bypass wind path 12 is equipped with the 4th Air-valve 121.

First air-valve 81 and third air-valve 111 are opened, and when the second air-valve 91 and the 4th air-valve 121 are closed, air inlet 10 is logical Cross third bypass wind path 11 be connected to heat recovery apparatus 7, heat recovery apparatus 7 by first bypass wind path 8 with processing wind path into The connection of wind end.I.e. air inlet 10, heat recovery apparatus 7, filter 1, surface air cooler 2, runner treatment region 31 and processing blower 4 successively connect Logical, processing wind enters from air inlet 10.

Second air-valve 91, third air-valve 111 and the 4th air-valve 121 are opened, and when the first air-valve 81 is closed, air inlet 10 passes through Third bypass wind path 11 is connected to heat recovery apparatus 7, the air intake that air inlet 10 passes through the 4th bypass wind path 12 and processing wind path Connection, heat recovery apparatus 7 are also connected to by the second bypass wind path 9 with the air intake for regenerating wind path.That is air inlet 10, recuperation of heat dress It sets 7, heater 5, rotary wheel regeneration area 32, regeneration blower 6 and heat recovery apparatus 7 to be sequentially communicated, air inlet 10, filter 1, table are cold Device 2, runner treatment region 31 and processing blower 4 are sequentially communicated, and wind is divided into two-way after the entrance of air inlet 10, enter recuperation of heat all the way Device 7 becomes regeneration air inlet, and another way, which enters processing wind path, becomes processing wind.

As shown in Figures 2 and 3, heat recovery apparatus 7 uses heat pipe thermal recovery unit, and heat pipe thermal recovery unit includes inner ring 73, outer ring 74 and multiple heat exchanger tubes 75 equipped with refrigerating medium, inner ring 73 and outer ring 74 are coaxial, and inner ring 73 forms the first heat transfer zone 71, the second heat transfer zone 72 is formed between inner ring 73 and outer ring 74, the inner end of heat exchanger tube 75 is located in the first heat transfer zone 71, heat exchanger tube 75 outer end is located in the second heat transfer zone 74.

In the present embodiment, heat exchanger tube 75 passes through inner ring 73, and multiple heat exchanger tube 75 circumferentially arrange by uniform intervals.

In the present embodiment, the first heat transfer zone 71 is evaporating area, and the second heat transfer zone 72 is condensing zone, the heat exchanger tube in evaporating area After the heat of absorption and regeneration air draft, condensing zone is transmitted to by refrigerating medium, increases the temperature for handling wind or regeneration air inlet.Regeneration Temperature of outgoing air can generate condensed water during reducing, therefore the heat pipe thermal recovery unit is additionally provided with discharge structure.The present invention is logical It crosses the heat pipe thermal recovery unit and exchanges heat and achieved that without power.

In the present embodiment, the center of the first heat transfer zone 71 is equipped with connecting column 77, and the inner end of heat exchanger tube 75 and connecting column 77 connect It connects, the outer end of heat exchanger tube 75 is connect with outer ring 74.

The cross-sectional area of heat exchanger tube 75 is gradually increased from the inner end of the heat exchanger tube 75 to outer end, the cross section of heat exchanger tube 75 Shape is ellipse.

In order to increase heat transfer effect, heat exchanger tube 75 is located at the part in the second heat transfer zone 72 equipped with multiple fins 76, is somebody's turn to do Multiple fins 76 are from inner ring 73 to being intervally arranged on the direction of outer ring 74.

The present invention also provides a kind of air conditioners, including regeneration wind-heat recovery system described above.

Above specific embodiment is only to the design illustrated the present invention, and those skilled in the art are in this hair Various deformation and variation can be made under bright design, these deformations and variation are included within protection scope of the present invention.

Claims (16)

1. a kind of regeneration wind-heat recovery system, including processing wind path and regeneration wind path, which is characterized in that further include heat recovery apparatus (7), the heat recovery apparatus (7) with it is described regeneration wind path air outlet be connected to, and the heat recovery apparatus (7) also with the place The air intake connection for managing wind path, handles wind and regenerative exhaust air and is exchanged heat by the heat recovery apparatus (7).

2. regeneration wind-heat recovery system according to claim 1, which is characterized in that the regeneration wind-heat recovery system is also wrapped It includes first between the air intake and heat recovery apparatus (7) that are set to processing wind path and bypasses wind path (8) and set on regeneration wind path The second bypass wind path (9) between air intake and heat recovery apparatus (7), first bypass wind path (8) are equipped with the first air-valve (81), second bypass wind path (9) is equipped with the second air-valve (91), and first air-valve (81) is opened, the second air-valve (91) When closing, the heat recovery apparatus (7) is connected to by the first bypass wind path (8) with the air intake for handling wind path.

3. regeneration wind-heat recovery system according to claim 2, which is characterized in that first air-valve (8) is closed, and second When air-valve (9) is opened, the heat recovery apparatus (7) is also connected to by the second bypass wind path (9) with the air intake for regenerating wind path, then Raw air inlet and regenerative exhaust air are exchanged heat by the heat recovery apparatus (7).

4. regeneration wind-heat recovery system according to claim 2, which is characterized in that the heat recovery apparatus (7), which has, divides The first heat transfer zone (71) and the second heat transfer zone (72) separated, the processing wind is from the second heat transfer zone of the heat recovery apparatus (7) (72) pass through in, the regenerative exhaust air passes through from the first heat transfer zone (71) of the heat recovery apparatus (7) and exchanges heat with from second The processing wind passed through in area (72) exchanges heat.

5. regeneration wind-heat recovery system according to claim 3, which is characterized in that the heat recovery apparatus (7), which has, divides The first heat transfer zone (71) and the second heat transfer zone (72) separated, second heat exchange of the regeneration air inlet from the heat recovery apparatus (7) Area passes through in (72), and the regenerative exhaust air passes through from the first heat transfer zone (71) of the heat recovery apparatus (7) and changes with from second The regeneration air inlet passed through in hot-zone (72) exchanges heat.

6. regeneration wind-heat recovery system according to claim 4 or 5, which is characterized in that the heat recovery apparatus (7) uses Heat pipe thermal recovery unit.

7. regeneration wind-heat recovery system according to claim 6, which is characterized in that the heat pipe thermal recovery unit includes interior Ring (73), outer ring (74) and multiple heat exchanger tubes (75) equipped with refrigerating medium, the inner ring (73) form first heat transfer zone (71), second heat transfer zone (72), the inner end position of the heat exchanger tube (75) are formed between the inner ring (73) and outer ring (74) In the first heat transfer zone (71), the outer end of the heat exchanger tube (75) is located in the second heat transfer zone (72).

8. regeneration wind-heat recovery system according to claim 7, which is characterized in that the center of first heat transfer zone (71) Equipped with connecting column (77), the inner end of the heat exchanger tube (75) is connect with connecting column (77), the outer end of the heat exchanger tube (75) and outer Ring (74) connection.

9. regeneration wind-heat recovery system according to claim 7, which is characterized in that the cross section face of the heat exchanger tube (75) Product is gradually increased from the inner end of the heat exchanger tube (75) to outer end.

10. regeneration wind-heat recovery system according to claim 7, which is characterized in that the cross section of the heat exchanger tube (75) Shape is ellipse.

11. regeneration wind-heat recovery system according to claim 7, which is characterized in that the heat exchanger tube (75) is located at second Part in heat transfer zone (72) is equipped with multiple fins (76), and the multiple fin (76) is from inner ring (73) to outer ring (74) It is intervally arranged on direction.

12. regeneration wind-heat recovery system according to claim 2, which is characterized in that the regeneration wind-heat recovery system is also Including air inlet (10), be set between air inlet (10) and heat recovery apparatus (7) third bypass wind path (11) and set on into The 4th bypass wind path (12) between air port (10) and the air intake for handling wind path, third bypass wind path (11) are equipped with the Three air-valves (111), the 4th bypass wind path (12) are equipped with the 4th air-valve (121)；First air-valve (81) and third wind Valve (11) is opened, when the second air-valve (91) and the 4th air-valve (121) are closed, air inlet (10) by third bypass wind path (11) and Heat recovery apparatus (7) connection, the heat recovery apparatus (7) are connected to by the first bypass wind path (8) with the air intake for handling wind path.

13. regeneration wind-heat recovery system according to claim 12, which is characterized in that second air-valve (91), third Air-valve (111) and the 4th air-valve (121) are opened, and when the first air-valve (81) is closed, the air inlet (10) bypasses wind by third Road (11) is connected to heat recovery apparatus (7), the air inlet (10) also by the 4th bypass wind path (12) and handle wind path into The connection of wind end, the heat recovery apparatus (7) are also connected to by the second bypass wind path (9) with the air intake for regenerating wind path.

14. regeneration wind-heat recovery system according to claim 1, which is characterized in that the processing wind path includes successively connecting Logical filter (1), surface air cooler (2), runner treatment region (31) and processing blower (4), the filter (1) are located at processing wind path Air intake.

15. according to claim 1 or regeneration wind-heat recovery system described in 14, which is characterized in that the regeneration wind path include according to The heater (5) of secondary connection, rotary wheel regeneration area (32) and regeneration blower (6), regeneration blower (6) are located at the row of regeneration wind path Wind end.

16. a kind of air conditioner, which is characterized in that including regeneration wind-heat recovery system described in any one of claims 1 to 15.