CN1888622A - Air conditioner - Google Patents

Abstract

A kind of air conditioner includes aspirating grille, blow -out grille, evaporator, fan, indoor machine and outdoor machine. The indoor machine refrigerates indoor air and then exhausts the refrigerated air; the outdoor machine is composed of condenser, fan and compressor. It is used for condensing the refrigerants; in the air conditioner of refrigerant tube, which connects with the evaporator of indoor machine and condenser of outdoor machine and makes refrigerants circulate, there is also oxygen -generating apparatus. It is composed of oxygen generator, oxygen discharger and oxygen transferring tube. The oxygen generator can be arranged at any position in the outdoor machine and used for inflowing outer air and generating oxygen. The oxygen discharger is arranged in the indoor machine and discharges oxygen. The oxygen transferring tube transfers oxygen generated from oxygen generator to oxygen discharger. Moreover, the oxygen generator and oxygen discharger are arranged respectively indoor and outdoor.

Description

Air regulator

Technical field

The present invention relates to a kind of air regulator.

Background technology

Recently, except basic air conditioning function, need possess the air regulator of more additional functions.Such as, the air regulator of negative ion generating device has begun to popularize.When the air regulator of above-mentioned generation anion was worked, meeting and cold air together discharged the anion to the human body beneficial.

At present, possessing multi-purpose air regulator researches and develops.This type of exploitation tendency can increase with users' the demand and the development of technology.

Summary of the invention

In order to adapt to the trend of current air regulator development, the invention provides a kind of air regulator, it can give indoor effective supply oxygen.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of air regulator is characterized in that: comprise by sucking grid, the grid that spues, evaporimeter and fan being constituted, and room air is cooled off the indoor set of discharging afterwards; Constituted by condenser, fan and compressor, and the off-premises station of condensating refrigerant; Connect the evaporimeter of above-mentioned indoor set and the condenser of above-mentioned off-premises station, thereby make in the air regulator of the refrigerant pipe that cold-producing medium circulates, also comprise, suck extraneous air and the oxygen generator of oxygen takes place by the optional position that is installed in above-mentioned off-premises station; Be installed in the above-mentioned indoor set, discharge the oxygen escaper of oxygen; To be transplanted on the oxygen oxygen generator of the oxygen transferring tube composition of above-mentioned oxygen escaper at the oxygen that above-mentioned oxygen generator produces, and, above-mentioned oxygen generator and oxygen escaper are installed in indoor and outdoors separately respectively, thereby can produce oxygen under the situation that does not change structure.

Aforesaid air regulator wherein has the oxygenous drive division of a plurality of inscapes; Protect plug-in composition of above-mentioned drive division.

Aforesaid air regulator is comprising in order to pressurize and to form vacuum state, the air pump of forced circulation air; Be connected the gateway of above-mentioned air pump, selectivity forms first and second transfer valve of air flow circuit; Be connected above-mentioned first and second transfer valve and be connected, the adsorption tower of the certain adsorbent of filling; Be connected above-mentioned adsorption tower outlet, be installed in above-mentioned oxygen conveying pipe, only allow to discharging the control valve that direction flows; Interconnect first stream of above-mentioned air pump inlet, above-mentioned first transfer valve and above-mentioned adsorption tower inlet; Interconnect second stream of above-mentioned air pump outlet, above-mentioned second transfer valve and above-mentioned adsorption tower inlet; Come out from the first transfer valve difference of above-mentioned first stream, and lead to first air hose of outside atmosphere; Come out from the second transfer valve difference of above-mentioned second stream, lead to second air hose of outside atmosphere.

Aforesaid air regulator, wherein first air hose and second air hose together lead to outside atmosphere.

Aforesaid air regulator, wherein oxygen generator is positioned at the off-premises station top of above-mentioned air regulator.

Aforesaid air regulator, wherein oxygen generator is installed separately on above-mentioned off-premises station top.

Aforesaid air regulator, wherein the plug-in portion of oxygen generator is fixed on above-mentioned off-premises station top, comprises on the gripper shoe and fixing above-mentioned gripper shoe of fixing above-mentioned drive division, for the shell of protecting above-mentioned drive division to cover.

Aforesaid air regulator, wherein the gripper shoe of plug-in portion also possesses a certain size through hole, above-mentioned off-premises station top also possess with above-mentioned gripper shoe through hole relevant position on through hole, by above-mentioned through hole, the air hose of above-mentioned drive division is above-mentioned off-premises station inner compressor periphery for the air that sucks high temperature is installed in.

Aforesaid air regulator, wherein oxygen generator is integrally formed on above-mentioned off-premises station top.

Aforesaid air regulator; wherein the plug-in portion of oxygen generator is installed in above-mentioned off-premises station drive division top; possesses the separating plate of fixing and supporting above-mentioned oxygen generator drive division, fixing above-mentioned separating plate, the outer cover of protection oxygen generator drive division and bottom off-premises station drive division thereof.

Aforesaid air regulator, wherein the separating plate of plug-in portion also possesses a certain size through hole, in order to allow the air hose of above-mentioned drive division suck high temperature air by through hole, is installed in the above-mentioned compressor periphery.

Aforesaid air regulator, the wherein fixing fitting that off-premises station is positioned at the above-mentioned compressor surface or it is peripheral, as to possess in order more stably to fix above-mentioned air hose around above-mentioned compressor.

Aforesaid air regulator, wherein oxygen conveying pipe is got back to the close arrangement of refrigerant pipe that the cold-producing medium of compressor of outdoor unit flows through in the refrigerant pipe of indoor set that connects air regulator and off-premises station and from indoor machine evaporation.

Aforesaid air regulator, wherein the oxygen escaper links to each other with above-mentioned oxygen conveying pipe, comprises the oxygen discharge portion of discharging oxygen, and above-mentioned oxygen discharge portion is installed in the place ahead or the rear of evaporimeter according to being drawn into the direction of air of discharging behind the indoor set.

Aforesaid air regulator, wherein the oxygen escaper is attached to above-mentioned off-premises station exterior face, is connected with above-mentioned oxygen conveying pipe, comprises the oxygen generation display part that shows oxygen discharge portion state.

Aforesaid air regulator, wherein oxygen generation display part comprises an end and oxygen conveying pipe, the other end links to each other with the oxygen discharge portion, also comprises between the above-mentioned continuous two ends, forms the body of oxygen stream; Be attached to above-mentioned body the place ahead, can see the transparency window of above-mentioned stream; Insert in the above-mentioned body, according to swim ball float in stream of oxygen flow.

The present invention solves its technical problem also can adopt following technical scheme:

A kind of air regulator, it is characterized in that: comprising off-premises station, in the air regulator of indoor set and connection the two refrigerant pipe, also comprise by oxygen generator, the oxygen oxygen generator of oxygen escaper and oxygen transferring tube, wherein, above-mentioned oxygen generator is installed in the optional position of above-mentioned off-premises station, and comprises air compressor, adsorption tower, passage between the inlet of above-mentioned air compressor and outlet side and the adsorption tower, the air hose that branches away from above-mentioned passage, be arranged at the conversion valve of above-mentioned air hose bifurcation and suck extraneous air and the oxygen generator of oxygen takes place; Above-mentioned oxygen escaper is installed in the above-mentioned indoor set and discharges oxygen; Above-mentioned oxygen transferring tube will be transplanted on above-mentioned oxygen escaper at the oxygen that above-mentioned oxygen generator produces, and above-mentioned oxygen generator and oxygen escaper are installed in indoor and outdoors separately respectively, thereby can produce oxygen under the situation that does not change structure.

Aforesaid air regulator, wherein oxygen generator is installed in above-mentioned outdoor unit of air conditioner top.

Aforesaid air regulator, wherein form the through hole of the inside that connects above-mentioned oxygen generator inside and above-mentioned off-premises station, on the surface of above-mentioned off-premises station inner compressor or the position faced mutually, utilize fixture, by the air of above-mentioned through hole suction hyperthermia drying, the air hose of above-mentioned oxygen generator is drawn the back to above-mentioned off-premises station inside pipeline is fixed on fixed part.

Aforesaid air regulator, wherein oxygen conveying pipe is arranged in the refrigerant pipe of getting back to the flow of refrigerant of compressor of outdoor unit from indoor machine evaporation and faces the position mutually in the refrigerant pipe of the connection indoor set of air regulator and off-premises station.

Aforesaid air regulator, wherein the oxygen escaper comprises with above-mentioned oxygen conveying pipe and is connected, the oxygen discharge portion of discharging oxygen, above-mentioned oxygen discharge portion is installed in the place ahead or the rear of evaporimeter according to being drawn into the direction of air that indoor set is discharged.

Aforesaid air regulator, wherein the oxygen escaper is attached to above-mentioned off-premises station outside, and comprises with above-mentioned oxygen conveying pipe and is connected, thereby shows the oxygen generation display part of oxygen discharge state.

Aforesaid air regulator, wherein oxygen generation display part comprises that an end is an oxygen conveying pipe, the other end is connected separately with the oxygen discharge portion, forms the body of oxygen stream between the two ends of above-mentioned connection; Be attached to above-mentioned body the place ahead, can show the transparency window of the stream of above-mentioned body; Insert in the stream of above-mentioned body, according to swim ball float in stream of oxygen flow.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is the structure chart of air regulator of the present invention.

Fig. 2 is the structure chart of oxygen generator in the air regulator of the present invention.

Fig. 3 is the enforcement illustration that oxygen generator is installed in the air regulator of the present invention.

Fig. 4 is the decomposing schematic representation of oxygen generator mounting structure shown in Figure 3.

Fig. 5 is another decomposing schematic representation of oxygen generator mounting structure shown in Figure 3.

Fig. 6 is the oxygen generator schematic diagram of Fig. 4 and installation embodiment illustrated in fig. 5.

Fig. 7 is the air regulator schematic diagram that oxygen conveying pipe of the present invention is arranged.

Fig. 8 is the oxygen escaper structural representation of air regulator of the present invention.

The number in the figure explanation:

10: off-premises station 20: indoor set

100: oxygen generator 110: plug-in portion

120: drive division 121: air pump

122a, 122b: first and second transfer valve 123: adsorption tower

124: control valve 125a, 125b: first and second stream

126a, 126b: first and second air hose 200: oxygen generator

210: oxygen discharge portion 220: oxygen generation display part

300: oxygen conveying pipe

The specific embodiment

In the present embodiment, same formation is used unified title and unified label, this supplemental instruction is omitted.

As shown in Figure 1, air regulator of the present invention is a divergence type, by the compression and the off-premises station 10 of condensing cold-producing medium and evaporate above-mentioned refrigerant compressed and indoor set 20 that room air carries out heat exchange constitutes.Refrigerant pipe connects above-mentioned off-premises station 10 and indoor set 20 in order to carry above-mentioned cold-producing medium.In addition, air regulator of the present invention also possesses the oxygengenerating plant that indoor a certain amount of oxygen is provided.

Above-mentioned off-premises station 10 comprises: the condensing machine 11 of condensing above-mentioned cold-producing medium, give the fan 12 of above-mentioned condensing machine 11 air-supplies and compress above-mentioned cold-producing medium, be supplied to above-mentioned condensing machine 11 compressor 13, also comprise in addition: expand and evaporation be fed to the high-temperature high-pressure refrigerant of above-mentioned indoor set 20 evaporimeter 21, carry out the fan 22 of heat exchange air, face mutually at above-mentioned evaporimeter 21 and fan 22 separately to the indoor evaporimeter 21 that blows, and be installed in suction inlet 23/ discharge opening 24 of above-mentioned indoor set 20 containers.

Off-premises station is identical with general air regulator with indoor set etc. in the air regulator structure of the present invention, so this is not elaborated.Now describe above-mentioned oxygengenerating plant in detail.

Above-mentioned oxygengenerating plant is by the oxygen generator 100 that is installed in above-mentioned off-premises station 10 certain position, and the oxygen conveying pipe 300 that is installed in oxygen escaper 200, above-mentioned oxygen generator 100 and connection oxygen escaper 200 in the above-mentioned indoor set 10 constitutes.Air regulator of the present invention, as shown in Figure 1, above-mentioned oxygen generator 100 and above-mentioned oxygen escaper 200 are installed in off-premises station 10 and indoor set 20 respectively.For supply oxygen smoothly, be connected indoor and outdoor machine work separately.Therefore, above-mentioned oxygengenerating plant can relatively be easily mounted on the normal air adjuster.The oxygen generator 100 of finishing above-mentioned work is positioned at the outside, and it is indoor to prevent that therefore operating noise from flowing into.In addition, be different from general oxygengenerating plant and be arranged separately in indoorly, oxygengenerating plant of the present invention and above-mentioned air regulator are integrally formed, so can not reduce the interior space because of above-mentioned oxygengenerating plant.

In the formation of oxygengenerating plant of the present invention, oxygen generator 100 is for the independent operating in air regulator of the present invention that produces oxygen, and the structure of such oxygen generator as shown in Figure 2.

As shown in the figure, above-mentioned oxygen generator 100 comprises actual the carry out drive division 120 of oxygen generation function and plug-in 110 of the above-mentioned drive division of protection.

Above-mentioned drive division 120 roughly can decompose in the atmosphere 21% oxygen and offer the user.The oxygen occurring mode of above-mentioned drive division 120 can the suitable water electrolysis and chemical reaction etc.Utilize the direct absorption of adsorbent recently.In this multiple mode, the present invention selects processing ease, the adsorbent mode of good stability.Fig. 2 is the structure chart of above-mentioned adsorbent mode oxygen generator.

Above-mentioned drive division 120 as shown in the figure, air pump 121 by the forced circulation air is connected side by side with above-mentioned air pump 10, selectivity generates first and second transfer valve 122a of air flow circuit, 122b and above-mentioned the first/the second transfer valve 122a, 122b connects, and is filled in the adsorption tower 123 of its inside adsorbent of adsorption of oxygen from air, the control valve 124 that is installed on the above-mentioned oxygen conveying pipe 300 is formed.

Above-mentioned air pump 10 interconnects the first transfer valve 122a and above-mentioned adsorption tower 123, forms the first stream 125a, and above-mentioned air pump 10 makes the first transfer valve 122b and above-mentioned adsorption tower 123 be interconnected to form the second stream 125b.In addition, first and second air hose 126a, 126b is communicated with above-mentioned transfer valve 122a, 122b and outside atmosphere separately.Here, above-mentioned first and second air hose 126a, 126b plays same function, thus easier for the design and installation of above-mentioned drive division 120, can lump together.In addition, the exsertile silicate zeolite of oxygen adsorptivity is used in the adsorbent suggestion that is filled in above-mentioned adsorption tower 123.

The installation site of above-mentioned oxygen generator 100: the top that is installed in above-mentioned off-premises station 10 that this oxygen generator 100 is easier, more stable than other sides.Therefore, though oxygen generator 100 can be installed in the optional position of above-mentioned off-premises station 10 as previously mentioned, promptly except the optional position of the above-mentioned off-premises station 10 of suction portion.But be the best according to the top that is installed in above-mentioned off-premises station 10 shown in Figure 3.Therefore, above-mentioned oxygen generator 100 can separate installation with above-mentioned off-premises station 10, but also one is installed in above-mentioned off-premises station 10.

If be installed separately, plug-in 110 of above-mentioned oxygen generator 100 needs to increase member.Particularly, as shown in Figure 4, above-mentioned plug-in 110 by: be fixed on the gripper shoe 111 on above-mentioned off-premises station 10 tops and the outer cover 112 that is fixed on the above-mentioned gripper shoe 111 is formed.Above-mentioned gripper shoe 111 and outer cover 112 are fixed according to fixing means separately.Therefore fix above-mentioned drive division 120 on the above-mentioned gripper shoe 111, the top of above-mentioned gripper shoe 111 and the above-mentioned off-premises station 10 above-mentioned drive division 120 of stable support together.In addition, above-mentioned outer cover 112 can cover the drive division 120 of above-mentioned gripper shoe 111.

In addition and above-mentioned off-premises station 10 is whole when forming, above-mentioned plug-in 110 and above-mentioned off-premises station 10 shared portion inscapes.That is, share above-mentioned off-premises station 10 and outer cover 114 as above-mentioned above-mentioned plug-in 10 shown in Figure 5.Therefore, above-mentioned plug-in 110 by above-mentioned off-premises station 10 drive division tops, particularly, be installed in the separating plate 113 of above-mentioned off-premises station drive division supporting construction upper end and the outer cover 114 of above-mentioned drive division 120 of protection and bottom off-premises station 10 drive divisions and form.At this, above-mentioned separating plate 113 is cut apart inner field in order to ensure the installing area of above-mentioned drive division 120, and is supported and fixed on this drive division 120.

In addition, above-mentioned off-premises station 10 and above-mentioned oxygen generator 100 are interconnected, drive division 120 first and second air hose 126a in the above-mentioned oxygen generator 100, and the peripheral position that 126b is positioned at the compressor 13 of above-mentioned off-premises station 10 is good.When in fact above-mentioned compressor 13 brought into operation, its environment temperature can become the condition of high temperature, and by above-mentioned first and second air hose 126a, 126b sucks the high temperature air around the above-mentioned compressor, increases the operating efficiency of above-mentioned oxygen generator 100.

For this reason, when separate type is installed above-mentioned oxygen generator 100, above-mentioned as shown in Figure 4 plug-in 110 gripper shoe 111 also needs to possess above-mentioned first and second air hose 126a, the through hole 111a of a certain size that 126b can pass through also needs another through hole of corresponding above-mentioned through hole 111a on the above-mentioned off-premises station 10.

In addition, integral form and above-mentioned off-premises station 10 one the time.Form first and second air hose 126a, the through hole 113a of a certain size that 126b can pass through on the above-mentioned as shown in Figure 5 separating plate 113.

According to above-mentioned connectivity structure separately, above-mentioned first and second air hose 126a, 126b is positioned at the periphery of above-mentioned compressor 13 as shown in Figure 6.At this, as shown in the figure for above-mentioned air hose 126a, easier above-mentioned compressor 13 peripheries that are arranged in of 126b, it is good that above-mentioned through hole 111a, 113a are installed in above-mentioned compressor top.In addition, in order more stably to arrange above-mentioned air hose 126a, 126b, fixing above-mentioned air hose 126a, the fixture of 126b can be located at above-mentioned compressor 13 surfaces or it is peripheral.

Above-mentioned oxygen conveying pipe 300 is transported to above-mentioned oxygen escaper 200 to the oxygen that above-mentioned oxygen generator 100 takes place in the oxygengenerating plant of the present invention.As shown in Figure 7, be arranged in the refrigerant pipe 30a of the flow of refrigerant of HTHP, it would be better to be arranged near the mobile refrigerant pipe 30b of low-temperature low-pressure refrigerant.This is that the oxygen temperature that is transferred is low and fresh because under such arrangement.In addition, for more effective reduction oxygen temperature, it is good that above-mentioned oxygen conveying pipe 300 is with above-mentioned refrigerant pipe 30b that central row is classified as.

At last, above-mentioned oxygen escaper 200 in the above-mentioned oxygengenerating plant by linking to each other with above-mentioned oxygen conveying pipe 300, is formed to the oxygen discharge portion 210 of indoor discharging oxygen as shown in Figure 8.At this, be advisable in the evaporimeter rear that the air of above-mentioned evaporimeter 21 the place aheads that the air that above-mentioned oxygen discharge portion 210 is arranged in needs cooling sucks or discharging cooling is discharged from.This is because under any circumstance, cause that can be fresher after the oxygen of discharging from above-mentioned oxygen discharge portion 210 is cooled.

In addition, above-mentioned oxygen escaper 200 can also increase with above-mentioned oxygen conveying pipe 300 and is connected, and shows the oxygen generation display part 220 of oxygen supply flow.At this, above-mentioned oxygen generation display part 220 by: be connected with oxygen conveying pipe 300 and oxygen discharge portion 210 separately with two ends, inner form and body 221 that the above-mentioned two ends that are connected communicate, insert the transparency window 222 and 223 compositions of the ball float in above-mentioned body 10 streams that are attached to above-mentioned body 12 the place aheads.Therefore, above-mentioned ball float 223 begins to swim in the time of above-mentioned oxygen conveying pipe 300 supply oxygens, and is highly also different according to swimming of the above-mentioned ball float 223 of oxygen supply amount.In addition, the user of use air regulator of the present invention can confirm the rising degree of above-mentioned ball float 223 by above-mentioned transparency window 222.Therefore, above-mentioned oxygen generation display part 220, the visual effect in the time of not only can providing system oxygen to the user can also more correctly be judged oxygen making amount.

As mentioned above, air regulator of the present invention possesses the structure of indoor oxygen supply.Work of the present invention to such structure is described as follows with reference to figure 1.

The course of work of the present invention can roughly be divided into: keep the process of room air and by a certain amount of process of giving indoor supply oxygen by uniform temperature and humidity.Above-mentioned air conditioning process chamber utilizes above-mentioned off-premises station 10 and indoor set 20 to finish.Above-mentioned oxygen supply process is to utilize above-mentioned oxygen generator 100 and oxygen escaper 200 etc. to finish.

At first, the cold-producing medium of the low-temp low-pressure that transports from refrigerant pipe 30 in 21 compressions of above-mentioned evaporimeter of above-mentioned compressor 13.Afterwards, above-mentioned compressed cold-producing medium becomes the high-temperature high-pressure refrigerant of liquid condition at condensing machine 11, is transported to above-mentioned evaporimeter 21 by above-mentioned refrigerant pipe 30.Expand and the cold-producing medium of evaporation and the air by above-mentioned suction inlet 23 carry out heat exchange at above-mentioned evaporimeter 21, above-mentioned cooled air is supplied to indoor by above-mentioned outlet 24.

Air conditioning process of the present invention is well-known, is not described further.Be described below in detail with reference to figure 1 and Fig. 2 for above-mentioned oxygen supply process.

Above-mentioned oxygen supply process can be subdivided into: the oxygen generating process of finishing at above-mentioned oxygen generator 100, the oxygen of above-mentioned generation is sent to the oxygen discharge process that the course of conveying of above-mentioned oxygen escaper 200, above-mentioned oxygen escaper 200 are finished by above-mentioned oxygen conveying pipe 300.

Above-mentioned oxygen generating process is discharged the vacuum stages that is adsorbed onto adsorbent nitrogen in order to isolate oxygen from extraneous air absorption nitrogen gas, to be divided into the stage in the pressurization adsorption tower 123 and to break away from such oxygen supply process.

At first, in the above-mentioned pressure period, the extraneous air that flows into by the first transfer valve 122a and the first air hose 126a under the operation of air pump 121 is compressed.Afterwards, compressed air flow in the adsorption tower 123 through the second transfer valve 122b and the second stream 125b, the extraneous air pressurization that this moment, above-mentioned adsorption tower 123 was flowed into.

In such pressure process, be included in nitrogen in the extraneous air by the adsorbents adsorb in the above-mentioned adsorption tower 123, isolate oxygen, reach certain pressure when above, be discharged to oxygen conveying pipe 300 by above-mentioned control valve 124.

In addition, in above-mentioned vacuum stages, above-mentioned first and second transfer valve 122a, 122b is converted to the flow direction opposite with the above-mentioned pressure period.That is, the above-mentioned first transfer valve 122a is connected with the first stream 125a, and the above-mentioned second transfer valve 122b is connected with the second air hose 126b.Above-mentioned air pump 121 as above-mentioned pressure period, carry air to the second transfer valve 122b from the first transfer valve 122a, therefore adsorption tower 30 inside become vacuum state under the effect of the inhalation power of above-mentioned air pump 121.Moving for such inverted draft, above-mentioned control valve 124 is kept blocking.In such vacuum process, above-mentioned adsorbent is isolated nitrogen and is discharged into the outside through above-mentioned adsorption tower 123, the above-mentioned first stream 125a, the first switching method valve 122a, air pump 121, the second transfer valve 122b and the second air hose 126b successively.Therefore, the adsorbent such as the above-mentioned pressure period of above-mentioned adsorption tower 123 inside are reduced to the state that oxygen can take place again.

Above-mentioned oxygen generating process carries out above-mentioned pressure period and vacuum stages repeatedly, continues to take place oxygen.

Oxygen course of conveying afterwards is to deliver to oxygen escaper 200 by above-mentioned oxygen conveying pipe 300, and oxygen together is discharged into indoor by the air of above-mentioned air conditioning process cooling in above-mentioned oxygen discharge portion process the most at last.

Though the whole oxygen supply process that illustrates previously and finish simultaneously according to the above-mentioned air regulator process in the air regulator of the present invention can independently be finished oxygen supply according to user's needs.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, every foundation technical spirit of the present invention all still belongs in the scope of technical solution of the present invention any simple modification, equivalent variations and modification that above embodiment did.

The effect of air regulator of the present invention is as follows.

1, air regulator of the present invention possesses the structure of effectively giving indoor supply oxygen.Be divided into oxygen generator and oxygen escaper in the present invention according to the structure oxygengenerating plant of the air regulator that separates, be combined in off-premises station and indoor set separately.The oxygengenerating plant of air regulator structure can not change under the situation of above-mentioned air regulator and can possess the oxygen supply ability as mentioned above.Just the oxygen escaper is installed in above-mentioned indoor set, big so above-mentioned air regulator possesses the oxygen supply ability but profile does not need to become, do not influence the interior space.

2, the oxygengenerating plant performance of air regulator of the present invention inside obtains substantive the raising.Oxygengenerating plant of the present invention and above-mentioned air regulator partly link, and the various advantages in the operation are arranged.That is, above-mentioned oxygen conveying pipe is arranged near the refrigerant pipe of low-temp low-pressure, and above-mentioned oxygen discharge portion is positioned at before and after the evaporimeter, can be fed to the oxygen of making indoor freshlyer.The air hose of above-mentioned drive division is positioned at the above-mentioned compressor periphery in addition, therefore is inhaled into the high temperature air of drive division inside, can improve the oxygen luminous efficiency.

Claims (23)

1, a kind of air regulator is characterized in that: comprise by sucking grid, the grid that spues, evaporimeter and fan being constituted, and room air is cooled off the indoor set of discharging afterwards; Constituted by condenser, fan and compressor, and the off-premises station of condensating refrigerant; Connect the evaporimeter of above-mentioned indoor set and the condenser of above-mentioned off-premises station, thereby make in the air regulator of the refrigerant pipe that cold-producing medium circulates, also comprise, suck extraneous air and the oxygen generator of oxygen takes place by the optional position that is installed in above-mentioned off-premises station; Be installed in the above-mentioned indoor set, discharge the oxygen escaper of oxygen; To be transplanted on the oxygen oxygen generator of the oxygen transferring tube composition of above-mentioned oxygen escaper at the oxygen that above-mentioned oxygen generator produces, and, above-mentioned oxygen generator and oxygen escaper are installed in indoor and outdoors separately respectively, thereby can produce oxygen under the situation that does not change structure.

2, air regulator according to claim 1 is characterized in that: the oxygenous drive division that a plurality of inscapes are arranged; Protect plug-in composition of above-mentioned drive division.

3, air regulator according to claim 2 is characterized in that: comprise in order to pressurize and to form vacuum state, the air pump of forced circulation air;

Be connected the gateway of above-mentioned air pump, selectivity forms first and second transfer valve of air flow circuit; Be connected above-mentioned first and second transfer valve and be connected, the adsorption tower of the certain adsorbent of filling; Be connected above-mentioned adsorption tower outlet, be installed in above-mentioned oxygen conveying pipe, only allow to discharging the control valve that direction flows; Interconnect first stream of above-mentioned air pump inlet, above-mentioned first transfer valve and above-mentioned adsorption tower inlet; Interconnect second stream of above-mentioned air pump outlet, above-mentioned second transfer valve and above-mentioned adsorption tower inlet; Come out from the first transfer valve difference of above-mentioned first stream, and lead to first air hose of outside atmosphere; Come out from the second transfer valve difference of above-mentioned second stream, lead to second air hose of outside atmosphere.

4, air regulator according to claim 3 is characterized in that: above-mentioned first air hose and second air hose together lead to outside atmosphere.

5, air regulator according to claim 2 is characterized in that: above-mentioned oxygen generator is positioned at the off-premises station top of above-mentioned air regulator.

6, air regulator according to claim 5 is characterized in that: above-mentioned oxygen generator is installed separately on above-mentioned off-premises station top.

7, air regulator according to claim 6; it is characterized in that: the plug-in portion of above-mentioned oxygen generator is fixed on above-mentioned off-premises station top; comprise on the gripper shoe and fixing above-mentioned gripper shoe of fixing above-mentioned drive division, for the shell of protecting above-mentioned drive division to cover.

8, air regulator according to claim 7, it is characterized in that: the gripper shoe of above-mentioned plug-in portion also possesses a certain size through hole, above-mentioned off-premises station top also possess with above-mentioned gripper shoe through hole relevant position on through hole, by above-mentioned through hole, the air hose of above-mentioned drive division is above-mentioned off-premises station inner compressor periphery for the air that sucks high temperature is installed in.

9, air regulator according to claim 5 is characterized in that: above-mentioned oxygen generator is integrally formed on above-mentioned off-premises station top.

10, air regulator according to claim 9; it is characterized in that: the plug-in portion of above-mentioned oxygen generator is installed in above-mentioned off-premises station drive division top; possesses the separating plate of fixing and supporting above-mentioned oxygen generator drive division; fixing above-mentioned separating plate, the outer cover of protection oxygen generator drive division and bottom off-premises station drive division thereof.

11, air regulator according to claim 10 is characterized in that: the separating plate of above-mentioned plug-in portion also possesses a certain size through hole, in order to allow the air hose of above-mentioned drive division suck high temperature air by through hole, is installed in the above-mentioned compressor periphery.

12, according to Claim 8 or 11 described air regulators, it is characterized in that: the fixing fitting that above-mentioned off-premises station is positioned at the above-mentioned compressor surface or it is peripheral, as to possess in order more stably to fix above-mentioned air hose around above-mentioned compressor.

13, air regulator according to claim 1, it is characterized in that: above-mentioned oxygen conveying pipe is got back to the close arrangement of refrigerant pipe that the cold-producing medium of compressor of outdoor unit flows through in the refrigerant pipe of indoor set that connects air regulator and off-premises station and from indoor machine evaporation.

14, air regulator according to claim 1, it is characterized in that: above-mentioned oxygen escaper links to each other with above-mentioned oxygen conveying pipe, comprise the oxygen discharge portion of discharging oxygen, above-mentioned oxygen discharge portion is installed in the place ahead or the rear of evaporimeter according to being drawn into the direction of air of discharging behind the indoor set.

15, air regulator according to claim 14 is characterized in that: above-mentioned oxygen escaper is attached to above-mentioned off-premises station exterior face, is connected with above-mentioned oxygen conveying pipe, comprises the oxygen generation display part that shows oxygen discharge portion state.

16, air regulator according to claim 15 is characterized in that: oxygen generation display part comprises an end and oxygen conveying pipe, and the other end links to each other with the oxygen discharge portion, also comprises between the above-mentioned continuous two ends, forms the body of oxygen stream; Be attached to above-mentioned body the place ahead, can see the transparency window of above-mentioned stream; Insert in the above-mentioned body, according to swim ball float in stream of oxygen flow.

17, a kind of air regulator, it is characterized in that: comprising off-premises station, in the air regulator of indoor set and connection the two refrigerant pipe, also comprise by oxygen generator, the oxygen oxygen generator of oxygen escaper and oxygen transferring tube, wherein, above-mentioned oxygen generator is installed in the optional position of above-mentioned off-premises station, and comprises air compressor, adsorption tower, passage between the inlet of above-mentioned air compressor and outlet side and the adsorption tower, the air hose that branches away from above-mentioned passage, be arranged at the conversion valve of above-mentioned air hose bifurcation and suck extraneous air and the oxygen generator of oxygen takes place; Above-mentioned oxygen escaper is installed in the above-mentioned indoor set and discharges oxygen; Above-mentioned oxygen transferring tube will be transplanted on above-mentioned oxygen escaper at the oxygen that above-mentioned oxygen generator produces, and above-mentioned oxygen generator and oxygen escaper are installed in indoor and outdoors separately respectively, thereby can produce oxygen under the situation that does not change structure.

18, air regulator according to claim 17 is characterized in that: above-mentioned oxygen generator is installed in above-mentioned outdoor unit of air conditioner top.

19, air regulator according to claim 18, it is characterized in that: the through hole that forms the inside that connects above-mentioned oxygen generator inside and above-mentioned off-premises station, on the surface of above-mentioned off-premises station inner compressor or the position faced mutually, utilize fixture, by the air of above-mentioned through hole suction hyperthermia drying, the air hose of above-mentioned oxygen generator is drawn the back to above-mentioned off-premises station inside pipeline is fixed on fixed part.

20, air regulator according to claim 17, it is characterized in that: above-mentioned oxygen conveying pipe is arranged in the refrigerant pipe of getting back to the flow of refrigerant of compressor of outdoor unit from indoor machine evaporation and faces the position mutually in the refrigerant pipe of the connection indoor set of air regulator and off-premises station.

21, air regulator according to claim 17, it is characterized in that: above-mentioned oxygen escaper comprises with above-mentioned oxygen conveying pipe and is connected, the oxygen discharge portion of discharging oxygen, above-mentioned oxygen discharge portion is installed in the place ahead or the rear of evaporimeter according to being drawn into the direction of air that indoor set is discharged.

22, air regulator according to claim 21 is characterized in that: above-mentioned oxygen escaper is attached to above-mentioned off-premises station outside, and comprises with above-mentioned oxygen conveying pipe and is connected, thereby shows the oxygen generation display part of oxygen discharge state.

23, air regulator according to claim 22 is characterized in that: above-mentioned oxygen generation display part comprises that an end is an oxygen conveying pipe, and the other end is connected separately with the oxygen discharge portion, forms the body of oxygen stream between the two ends of above-mentioned connection; Be attached to above-mentioned body the place ahead, can show the transparency window of the stream of above-mentioned body; Insert in the stream of above-mentioned body, according to swim ball float in stream of oxygen flow.

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