DE2210473B1 - Device for influencing the air humidity in a plant growth chamber with a circulating air system - Google Patents

Description

3 4

lie. The trickle water in the air conditioning system are adjustable, with which one is also stepless then does not need to be supercooled and not with freezer activation and deactivation of the regenerative drying

protective means to be added. ner and / or the air conditioning system

Can with a device designed according to the invention. The motor for the throttle valves can be from

device, the dew point can be set very precisely 5 be controlled by a climate control device,

and reduce to values down to about -40 ° C. The invention is based on an embodiment

The application of the invention is not explained in more detail on the example. In detail shows

Plant growth chambers limited, but Fig. 1 shows a plant growth chamber with one of the

can, for example, also be switched off in climate test systems.

be evaluated. io ner,

According to a further embodiment of the invention, FIG. 2 a plant growth chamber with two regenerative dryers connected one behind the other from the air conditioning unit to the plant,
growth chamber leading backflow channel a parallel F i g. 3 a plant growth chamber according to FIG. 2 lelkanal branched off, which leads via the regenerative dryer with an intercooler between the two Rener, whereby the regenerative air for the dryer 15 generative dryer,

ner from the F i g influenced by the air conditioning system. 4 a plant growth chamber with deep

Circulating air partial flow is branched off. The fact that also humidification, in which the air conditioning device and the

the regenerative air for the regenerative dryer is regenerative dryer in separate circulating air partial flow

already has a low dew point, a duct can be arranged.

achieve particularly effective dehumidification. This Wir- ao In F i g. 1 is not shown in detail Efficiency can be further increased by the fact that the re-plant growth chamber with the reference number 10 begenerativluft for the individual regenerative dryers. A circulating air leads from this chamber 10 in each case at the input of the partial flow of the circulating air flow duct 11 in an air conditioning device 12, the is branched off. So it has a water bath 13 with an upstream one above it Dryers reached a low dew point. 35 steam block 14 has. From the water bath 13

The deep moistening can thereby be even further carried out by means of a pump 15 of water at the auction be that when using several re-steaming block 14 are promoted, which is to one additive dryers between the dryers an intermediate coolant circuit of a refrigeration machine 16 and Schenkooler is arranged, which is connected to the circulating air part a heat exchanger 17. In the Wassi rom acts and in each case the dew point depression 30 serbad 13 are heating devices 18 for heating favored in the following regenerative dryer. of the water arranged. Fer-Der protrude into the water bath The drying effect of the regenerative dryer is a heat sensor 19, not shown and the higher the lower the inlet temperature, since the climate control device is of no further interest here Drying the LiCl increases the temperature.

of the air flowing through, caused by the 35 with the air conditioning device 12, in which via a Intercooler is eliminated again. The Regenera filter 20 can also be sucked in fresh air, tive air for the following regenerative dryer is a humidification or dehumidification of the However, it is expedient in each case before the circulating air flow duct 11 flowing in before the circulating air flow duct 11 Intercooler from the parallel channel caused part volume. The air conditioning in branches, since the effectiveness of the regenerative air 40 the return leading to the plant growth chamber 10 increasing temperature. Flow channel 21 has escaping partial air circulation

For Tiefstentfeuchtung one or a bestimmmehrere by said control means regenerative dryers are advantageously in an th dew point whose minimum value is limited due to separate from the air conditioning device Umluftteil- water bath at 13 + 2 ⁰ C.
45 From the return flow channel 21, a parallel channel 22 is arranged, and the regenerative air for the re-branched, which leads to the inlet 231 of a rotating generative dryer is expediently led from a regenerative dryer, the outlet 232 of which is supplied via a separate regenerative dryer. In one embodiment, a return flow channel 24 is connected to the preferred embodiment of the plant growth to the deep dehumidification chamber 10. As a regenerative dryer, the separate regenerative dryer can be used, the length of which is impregnated with a LiCl solution, which exceeds the regenerative air capacity of the regenerative dryer that influences the partial flow of circulating air. The regenerative dryer 23 has throughput capacity and has a regenerative air inlet 233 on the inlet side and a regenerative air outlet 234 on the outlet side via a cooling device. The regenerative air circulation duct is connected, from which air inlet 233 is connected to the parallel duct 22. An outside air inlet duct, the regenerative air ducts. The regenerative air outlet 234 can lead into the open air for the partial flow influencing the circulating air.

Regenerative dryer and the regenerative air line in the return flow duct 21, in the parallel duct 22 and Throttle valves 25, 26 are branched off in the return flow duct 24 for the separate regenerative dryer are. Of the air circulation duct can also be arranged 60 and 27, which allow a change in the flow allow shut-off connecting line to the circulating air part of these channels and that of flow channel on the output side of the separate one motor 28 can be adjusted, which is from the climatic regenerative dryer to lead. control device is controlled. The throttle bodies

Both in the air conditioning system and in 25 to 27 are arranged in such a way that with increasing closing movement of the throttle flap 25, the throttle flow ducts leading to the regenerative dryer, the throttle flow ducts on the inlet and outlet side of the flaps 26 and 27 have an increasing opening movement of the duct passage cross-section carry out,
pen arranged, which together with a motor The mode of operation of the device according to F i g. 1

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is as follows: The regenerative dryer 23 is stan- The dehumidifying performance of a device according to

dig in rotation and at full heating power to the F i g. 2 can according to FIG. 3 by the arrangement

heating of the regenerative air, that is, an intermediate cooler 32 in the intermediate duct 30 is continuously operating

kept ready. With larger regenerative dryers between the two regenerative dryers 23 and

a standby mode with reduced 5 29 can also be improved even further. The intermediate

Performance to be sustained. The air conditioning cooler 32 is also connected to the same cooling circuit.

device 12 is in continuous operation. So closed, with which also the evaporator block

soon a dew point decrease in the plant 14 of the air conditioning device 12 is connected. The to

growth chamber 10 is required, the regenerative input 293 of the regenerative drying

Umluftteil- io ners 29 leading line is introduced to the intermediate channel

amount already in the air conditioning device 12 by 30 in front of the input of the intercooler 32

brought cooling to a lower dew point. closed, so that for regeneration of the dryer 29

The air arrives in the return flow duct 21 and uses circulating air not detected by the intercooler

ter in the parallel channel 22, since the return flow channel is.

21 blocked by the throttle valve 25 and the Par- 15 F i g. 4 shows an arrangement with which a allele duct 22 is opened by the throttle valve 26. very strong dehumidification of the circulating air can be achieved The pre-treated in the air conditioning device 12 can so that dew points of down to -40 ° C can be reached So let the partial amount of air get into the regenerative dryer. With this arrangement, the air conditioning unit is 23, where further dehumidification of this circulating air division 12 accumulates in its own circulating air partial flow channel takes place, which is then arranged via the Rückströmka- ao that gebilnal through the lines 11 'and 21' 24 is returned to the plant growth chamber 10. Parallel to this is in a separate Umtet and there, due to its dry state, the partial air flow channel that passes through channels 22 'and 24' desired dew point lowering caused. For the re-formation, a regenerative dryer 33 is switched on, generation of the dryer 23 is a part of the already In this circulating air partial flow channel is in front of the entrance predried circulating air from the parallel duct 22 as 331 of the regenerative dryer a cooling device branched off and switched after passing through the regenerative 34, in which the channel 22 'off part of the dryer 23 discharged into the open. The circulating air part removed from the plant growth chamber resulting loss of partial amount of circulating air is cooled by electricity. The arrangement also has Sucking in fresh air through the filter 20 in a separate regenerative dryer 35, the air conditioning device 12 balanced. 30 which is connected in an air circulation channel 36, the

If the dew point in the plant growth chamber is to be increased again both on the output side of the separate Remer 10, for example from additive dryer 35 and on its input - 10 ° C to -5 ° C, it is sufficient to increase the value via a separate section the temperature of the water bath 13 is conducted with the aid of the heating-cooling device 34. This air circuit devices 18. The increase 35 thereby achieved, the running duct 36 receives fresh air from the moisture supplied into the parallel duct 22 and outside via a filter 37 and delivers regenerative air to the regenerative partial amount of circulating air via a regenerative air line 38 reaching the inlet side of the regenerative dryer 23 Entrance 333 of the dryer 33. From the air circuit increase in the humidity of the regenerative running duct 36, dryer 23 is exited via a regenerative air line via the return flow duct 24 - 39 also the separate regenerative dryer 35 converts partial air circulation, since the dryer 23 always provides. In addition, the air circuit 36 is operated via a connecting line 40 that can be shut off with the same and full output without dry-lock and is therefore only ever connected to one 22 ',
has a constant drying effect. In the circulating air partial flow channels 11 ', 21', 22 'and

If high dew 45 24 'are again throttle valves 25, 41, 26 and 27 points are required in the plant growth chamber 10, the downstream regenerative dryer 23, which can be operated by a common motor 28, can be arranged with the help of the throttle valves, with which the passage cross-section of the Ka -26 and 27 are switched off so that only the nals can be changed. In the arrangement of the air conditioning device 12 for influencing a circulating air, the air conditioning device 12, which is a dew point compartment flow, is effective. 5 ° lowering can only bring about ^{a maximum of +2 0 C,}

For a greater dew point lowering and a completely stronger dehumidification of the plant growth chamber 10, the circulating air parts are separated, so that a circulating air partial flow can only be carried out according to FIG. 2 two regenerative dryers via the regenerative dryer 33 is passed. The ners 23 and 29 can be connected in series. The moisture of the circulating air partial flow is lowered again from the output 232 of the first regenerative dryer 23 is 55 regenerative dryer 33, since the remit is connected to the input 291 of the second regenerative drying air for the dryer 33 with the help of the generator 29 via an intermediate duct 30. Separated regenerative dryer 35 is already important with this arrangement that the Regenera low dew point has been brought.
tive input 293 of the second regenerative dryer 29 The mode of operation of the device is as follows: Via a line 31 with the intermediate duct 30 connected 60 In the air circulation duct 36 with the separate rebond, so that already in the dryer 23 the dehumidifying generative dryer 35 circulates dry air, the from the discharged air for the correspondingly improved regeneration, the cooler 34 is constantly cooled and, if necessary, the downstream second dryer 29 is also used for pre-dehumidifying. This air circulation system is det. The regeneration outlet 294 of the is the regeneration air for the regenerative dry-regenerative dryer 29 can be led outside 33, the regeneration air for the separate one. The resulting increased loss of circulating air can also be compensated for by regenerative dryer 35 and, via the connection, by sucking in fresh air through the filter line 40, additional fresh air for the vegetation 20 in the air conditioning device 12. chamber 10 removed. The capacity of the air circuit

running system is so large that there is always a repeated passage of the air in this circulatory system is guaranteed. The regenerative dryer 35 is so both at the input 331 and at Regenerative input 333 air with a deep dew

point offered, which is further lowered in the dryer 33.

If intermediate dew point values are to be achieved, the air conditioning device 12 can be switched on slowly at any time will.

For this purpose 2 sheets of drawings

309 536/332

Claims (9)

ι 2 indicates that the air circulation channel (36) claims: in addition, a lockable connecting line (40) to the partial air circulation flow channel (22 ') on the 1. Device for influencing the air outlet side of the separate regenerative dry moisture leads in a plant growth chamber with Um- 5 ners (35). air system, in which a partial air circulation for loading 10. Device according to claim 8 and / or 9, damp, heating or cooling by a KIi- characterized in that both in the for measuring device with water bath, heating element and air conditioning device (12) as well as in the one for the re-cooler is conductive, marked generative dryer (33) leading circulating air part c h at least one known ro- ίο flow channel (11721 ', 22724') input and output Regenerative dryer (23; 33), change the passage cross-section on the aisle side an adjustable amount of the partial flow of circulating air can be arranged to change the throttle valves (25, 41; 26, 27). net that are common to a motor (28) 2. Device according to claim 1, thereby being adjustable. indicates that of the air conditioning unit 15 11. The device according to claim 10, characterized in the direction (12) to the plant growth chamber, characterized in that the motor (28) for the Dresden return flow channel (21) a parallel channel (22) seiklappen (25 to 27, 41) is branched off from a climate control device, which is controlled by the regenerative dryer.
(23, 29) leads, with the regenerative air for the Dryer (23, 29) from the 20 device influenced circulating air flow is derived. 3. Apparatus according to claim 2, characterized in that the regenerative air for the individual The invention relates to a device for Bezelnen Regenerative dryer (23, 29) each to influence the air humidity in a plant growth Input (231, 291) from the circulating air part chamber with a circulating air system in which a circulating air part flow is branched off. electricity for humidifying, heating or cooling 4. Apparatus according to claim 1 to 3, characterized in an air conditioning device with a water bath, heating element characterized in that when using several and cooler can be conducted. Regenerative dryers (23, 29) between the plant growth chambers are equipped with air-conditioned dryers an intercooler (32) arranged 30 directions that allow it into the planter. growth chambers determined climatic conditions 5. Apparatus according to claim 4, thereby setting and maintaining gnisse. Of these indicates that the regenerative air for the control devices will respond quickly and subsequent regenerative dryer (29) each requires a rapid effectiveness, since the Klimavervor the upstream intercooler (32) from 35 conditions in the chambers through the growth, Giedem Parallel channel (intermediate channel 30) branched off and a different level of perspiration is. of the introduced plants continuously and severely disturbed 6. Device according to one of claims 1 can be. to 5, characterized in that in the back it is already known to measure the humidity in the plant flow channel (21) behind the junction of the 40 growth chambers with a circulating air system to thereby affect the parallel channel (22) and flow in the parallel duct that an adjustable (22) The amount of circulating air that changes the duct cross-section through a throttle valve filled with water (25 to 27) are arranged, the trickled evaporator block of a refrigeration unit gemit a motor (28) is sent together adjustable so that the air depending on the temperature of the are. 45 evaporator block and the trickle water humid 7. Device according to claim 1, characterized in that it can receive or release. Because of the Riekennzeichnet that the regenerative dryer (33) selwassers but air conditions with Tauin can not be attained a getrenn- of the air conditioning device (12) points at + 3 ⁰ C. th circulating air partial flow duct (22724 ') under Pre In addition, dryers have been developed circuit of a cooling device (34) arranged 50 which regenerate continuously by using a LiCl- is, and that the regenerative air for the regeneration solution impregnated honeycomb wheel from the moist relative dryer (33) from a separate receiving part of the dryer by rotating in additive dryer (35) is supplied. migrates a regeneration area in which it 8. The device according to claim 7, characterized by means of a warm regeneration air stream, that the separate regenerative 55 dries and is thus regenerated. dryer (35) a regenerative air capacity The invention is based on the object of a of the rain influencing the partial flow of circulating air - additional dehumidification of the circulating air for plant rativtrockners (33) exceeding through-flow capacity growth chambers to develop so that air levels with has an extremely low dew point on the inlet side in such vegetation 60 chambers are adjustable on the outlet side via a cooling device (34). led air circulation channel (36) is switched, by The task set is according to the invention which an outside air inlet duct (filter 37), solved by that the device of the inlet the regenerative air line (38) for the aforementioned type of at least one known per se ro- Has regenerative drying regenerative dryer influencing partial air flow, through which ner (33) and the regenerative air line (39) for 65 an adjustable amount of the partial air circulation flow the separate regenerative dryer (35) is removed. are branches. With the regenerative dryer, the 9. Apparatus according to claim 8, thereby lowering the humidity to dew points which are below 0 ° C