CN115076935A - Clean air conditioner purification system and control method - Google Patents

Abstract

The invention discloses a clean air-conditioning purification system which comprises a bottom plate, wherein the top of the bottom plate is provided with two temperature adjusting cylinders through a support, one of the temperature adjusting cylinders is internally provided with a temperature-rising and dehumidifying component, and the other temperature adjusting cylinder is internally provided with a temperature-lowering and humidifying component; the temperature control device also comprises an air inlet pipe used for filling air into one of the temperature control cylinders. According to the invention, the air treated in the temperature adjusting cylinder is mixed with the air sucked out of the clean room, the mixed air is sent into the clean room, and the air in the clean room and the air treated outside can be neutralized through the mixing of the air and the air, so that the temperature and the humidity tend to preset values.

Description

Clean air conditioner purification system and control method

Technical Field

The invention relates to the technical field of air conditioners, in particular to a clean air conditioner purification system and a control method.

Background

In the industrial production process, an industrial air conditioner is an air conditioning device for guaranteeing the environmental temperature, the humidity and the cleanliness, wherein a clean air conditioning system continuously feeds a certain amount of processed air into a clean room and continuously discharges a part of the processed air from the clean room, so that the required parameters such as the temperature, the humidity and the cleanliness are kept in the clean room, a stable environment is provided for the operation of the industrial product production process or the process equipment, and the process requirements are guaranteed.

At present, a clean air conditioning system generally adjusts the balance of indoor temperature and humidity by controlling the opening degrees of a cold water valve, a hot water valve, a humidifier and the like, and because a clean room is in a relatively closed environment, the temperature and the humidity inside the clean room have strong correlation, and the clean room has two states, namely when the temperature is high, the relative humidity is reduced; secondly, when the temperature is low, the relative humidity will rise.

The temperature is directly adjusted by controlling the cold water valve and the hot water valve, and the humidity is adjusted by controlling the cold water valve and the humidifier, so that the temperature and the humidity in the clean room are easily adjusted by relatively large fluctuation, and the work operation in the clean room is further influenced.

Disclosure of Invention

The invention aims to provide a clean air conditioner purification system and a control method, which are characterized in that air treated in a temperature adjusting cylinder is mixed with air sucked out of a clean room, the mixed air is sent into the clean room, the air in the clean room and the air treated outside can be neutralized through the mixing of the air and the air, so that the temperature and the humidity tend to preset values.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a clean air conditioner clean system, includes the bottom plate, there are two temperature adjusting cylinder at the top of bottom plate through the support mounting, one of them be provided with the dehumidification subassembly of rising temperature in the temperature adjusting cylinder, another be provided with cooling humidification subassembly in the temperature adjusting cylinder.

The air inlet pipe is used for filling air into one of the temperature adjusting cylinders, the air in the air inlet pipe is processed, and the temperature and humidity value is the same as the temperature and humidity value preset in the clean room.

The air after being treated in the temperature adjusting cylinder is mixed with the air sucked out of the clean room through the mixing component and then is sent into the clean room together.

Preferably, the mixing assembly includes the circulation section of thick bamboo through the support mounting at the bottom plate top, the outer wall of circulation section of thick bamboo both sides communicates respectively has breathing pipe and blast pipe, just breathing pipe and blast pipe all communicate with the toilet, circulation section of thick bamboo mid portion sets up to the mixing box, the inner wall of circulation section of thick bamboo is installed and is had pivoted pivot, is located pivot outer wall in the mixing box is fixed with a plurality of fan boards, is located the pivot outer wall of fan board both sides all is fixed with the screw thread board, and two the direction of delivery of screw thread board is the same, two the outer wall of a temperature regulating section of thick bamboo all with the mixing box between the intercommunication have the outlet duct that can make the one-way entering temperature regulating section of thick bamboo of air.

Preferably, still including being used for detecting temperature sensor and the humidity transducer of clean room air humiture, just temperature sensor and humidity transducer all install in the breathing tube, work as temperature sensor and humidity transducer detect that air temperature is less than the default and humidity is higher than the default, the intake pipe can aerify in the section of thick bamboo that adjusts the temperature that has the dehumidification subassembly of intensification, otherwise, when detecting that air temperature is higher than the default and humidity is less than the default, the intake pipe can aerify in the section of thick bamboo that adjusts the temperature that has the humidification subassembly of cooling.

Preferably, the bottoms of the two temperature adjusting cylinders are respectively provided with an adjusting groove, the two adjusting grooves are respectively internally provided with a slidable adjusting strip, the inner walls of the two temperature adjusting cylinders are respectively provided with a circular plate fixed on the adjusting strips in a sliding manner, the two adjusting strips are respectively internally provided with a communicating channel, the outlet of the communicating channel is communicated with the air outlet pipe, the inlet of the communicating channel is communicated with the interior of the temperature adjusting cylinder at one side of the circular plate far away from the air outlet pipe, the temperature-raising dehumidifying component comprises a moisture absorption plate arranged at the bottom of one of the adjusting tanks, the temperature-lowering humidifying component comprises a plurality of humidifying holes arranged at the bottom of the other adjusting tank and humidifying pipes for supplementing water vapor into the humidifying holes, liquid adding channels are respectively arranged in the two temperature adjusting cylinders, wherein, the liquid charging channel arranged in the same position with the moisture absorption plate is filled with hot liquid, and the liquid charging channel arranged in the same position with the humidifying hole is filled with cold liquid.

When the air inlet pipe is used for inflating the temperature adjusting cylinder with the heating and dehumidifying component, the humidity sensor can drive the adjusting strip inside the humidity sensor to move through the external mechanism to control the exposed area of the moisture absorption plate, and when the air inlet pipe is used for inflating the temperature adjusting cylinder with the cooling and humidifying component, the humidity sensor can drive the adjusting strip inside the humidity sensor to move through the external mechanism to control the number of opened humidifying holes.

Preferably, a vertical plate is installed at the top of a bottom plate between the two temperature adjusting cylinders, a circular groove is formed in the vertical plate, a through hole is formed in the inner wall of the circle center of the circular groove, a pin shaft capable of rotating in a reciprocating mode is installed in the through hole, a rotating plate is fixed to one end, inserted into the circular groove, of the pin shaft, a fan-shaped groove and a switching channel communicated with the fan-shaped groove are formed in the rotating plate, the outer walls of the two sides of the vertical plate are communicated with gas pipes, the two gas pipes are communicated with the two temperature adjusting cylinders respectively, two pipelines communicated with the two gas pipes respectively are formed in the vertical plate, pipelines communicated with the gas inlet pipe are formed in the vertical plate, when the rotating plate rotates, the fan-shaped groove is communicated with the gas inlet pipe all the time, and the switching channel is communicated with one of the gas pipes through the pipelines.

Preferably, the one end that the round pin axle wore out the riser is fixed with the pendulum rod that can reciprocate to oscillate, just the pendulum rod is parallel arrangement with switching the passageway, works as temperature sensor and humidity transducer detect air temperature and are less than the default and when humidity is higher than the default, the pendulum rod can swing and make switching passageway and the section of thick bamboo intercommunication that adjusts the temperature that has the dehumidification subassembly of rising temperature, when detecting air temperature and be higher than the default and when humidity is lower than the default, the pendulum rod swing makes switching passageway and the section of thick bamboo intercommunication that adjusts the temperature that has the humidification subassembly of cooling.

Preferably, the outer walls of the opposite surfaces of the two temperature adjusting cylinders are respectively provided with a through hole, spline shafts are respectively and rotatably installed in the two through holes, the opposite ends of the two spline shafts are respectively fixed with gears, the outer walls of the two spline shafts which are opposite to each other are respectively and slidably installed with spline housings, the ends of the two spline housings, which are far away from the air outlet pipe, are respectively and rotatably installed on the outer walls of the two circular plates, the outer walls of the two spline housings are respectively provided with a conveying auger, the conveying directions of the two conveying augers are opposite, the top of a bottom plate positioned between the two gears is slidably installed with a slider, the top of the slider is installed with a motor, the top of the motor output shaft is fixedly provided with a disc, the top of the disc is fixedly provided with an arc-shaped rack, the outer wall of the slider, which is close to the swing rod, is rotatably installed with a driven rod, the outer wall of the driven rod is provided with a sliding groove, and the bottom of the swing rod is rotatably installed with a limiting block capable of sliding in the sliding groove, the limiting block and the inner bottom of the sliding groove are fixedly provided with springs, and when the sliding block moves, the arc-shaped rack can be meshed with one of the gears.

Preferably, an outer ring rack is fixed on the top of the disc, the outer ring rack and the arc rack are concentrically arranged, and when the disc moves, the arc rack is meshed with one gear or the outer ring rack is meshed with the other gear.

A control method of a clean air-conditioning purification system comprises the following steps:

s1: setting preset values of temperature and humidity in a clean room, determining a range to be adjusted, communicating an air inlet pipe with an external processing mechanism, processing air entering the air inlet pipe to enable the temperature and humidity value to be the same as the preset temperature and humidity value in the clean room, and simultaneously setting a discharge passage for discharging the air in the clean room to enable exhaust of the discharge passage and air inlet of the air inlet pipe to form balance;

s2: the air suction pipe on the mixing assembly is used for sucking out air in the clean room, the temperature and the humidity of the air in the clean room are detected through the temperature sensor and the humidity sensor, when the temperature sensor and the humidity sensor detect that the air temperature is lower than a preset value and the humidity is higher than the preset value, the air inlet pipe can inflate the temperature adjusting cylinder with the temperature-increasing and dehumidifying assembly, otherwise, when the air temperature is higher than the preset value and the humidity is lower than the preset value, the air inlet pipe can inflate the temperature adjusting cylinder with the temperature-decreasing and humidifying assembly;

s3: the air after being heated, dehumidified or cooled and humidified is charged into the mixing component to be mixed with the air sucked out from the clean room and then is sent into the clean room, and the two kinds of air can have a neutralization effect on the temperature and the humidity through mixing, so that the fluctuation of the air in the clean room can be reduced during temperature and humidity adjustment, and the influence on the working operation is reduced;

s4: by the circulation, the relatively stable temperature and humidity in the clean room are kept.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the air treated in the temperature adjusting cylinder is mixed with the air sucked out of the clean room, the mixed air is sent into the clean room, and the air in the clean room and the air treated outside can be neutralized through the mixing of the air and the air, so that the temperature and the humidity tend to preset values.

Drawings

FIG. 1 is a schematic perspective view illustrating a clean air conditioning and purifying system according to an embodiment of the present invention;

FIG. 2 is a schematic front view illustrating a clean air conditioning and purifying system according to an embodiment of the present invention;

FIG. 3 is a right side view schematically illustrating a clean air conditioning and purifying system according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of the cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic structural view of the present invention in section B-B of FIG. 3;

FIG. 6 is a schematic structural view taken along the line C-C of FIG. 3 in accordance with the present invention;

FIG. 7 is a schematic structural view taken along line D-D of FIG. 3 in accordance with the present invention;

FIG. 8 is a schematic top view illustrating a cleaning system according to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a partially enlarged perspective view of the swing link according to the first embodiment of the present invention;

fig. 10 is a simplified schematic diagram of a second embodiment of the present invention.

In the figure: 1. a base plate; 2. a temperature regulating cylinder; 3. a circulation cylinder; 4. a vertical plate; 5. a gas delivery pipe; 6. an air inlet pipe; 7. an adjustment bar; 8. an air outlet pipe; 9. an air intake duct; 10. an exhaust pipe; 11. a temperature sensor; 12. a humidity sensor; 13. a mixing box; 14. a spline shaft; 15. a gear; 16. an arc-shaped rack; 17. a disc; 18. conveying a flood dragon; 19. a spline housing; 20. a circular plate; 21. a liquid feeding channel; 22. a communicating channel; 23. a humidifying pipe; 24. an adjustment groove; 25. a humidifying hole; 26. a moisture absorption plate; 27. a slider; 28. a motor; 29. a rotating shaft; 30. a thread plate; 31. a fan plate; 32. a rotating plate; 33. a sector groove; 34. a swing rod; 35. a pin shaft; 36. a driven lever; 37. a spring; 38. a limiting block; 39. a chute; 40. an outer ring rack; 41. and switching the channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1 to 9, the present invention provides a technical solution: a clean air-conditioning purification system comprises a bottom plate 1, wherein the top of the bottom plate 1 is provided with two temperature adjusting cylinders 2 through a support, one temperature adjusting cylinder 2 is internally provided with a temperature-rising and dehumidifying component, and the other temperature adjusting cylinder 2 is internally provided with a temperature-lowering and humidifying component;

the clean air-conditioning purification system also comprises an air inlet pipe 6 for filling air into one of the temperature adjusting cylinders 2, the air in the air inlet pipe 6 is treated, and the temperature and humidity value is the same as the temperature and humidity value preset in the clean room;

the clean air-conditioning purification system also comprises a mixing component which can suck out the air in the clean room, and the air treated in the temperature adjusting cylinder 2 is mixed with the air sucked out of the clean room through the mixing component and then is sent into the clean room.

When the clean air-conditioning purification system works, preset values of the temperature and the humidity in the clean room are set, and then the temperature and the humidity of the air sent into the clean room are adjusted according to the preset values, wherein the temperature and the humidity of the air in the clean room have two conditions relative to the preset values;

in the first situation, the temperature in the clean room is higher than the preset value and the relative humidity is lower than the preset value, at this time, the treated air is charged into the temperature adjusting cylinder 2 with the temperature reducing and humidifying component from the air inlet pipe 6, the temperature of the outside treated air is increased and humidified through the temperature reducing and humidifying component, and the increased temperature value is the same as the difference between the temperature in the clean room and the preset value, and similarly, the humidity is also the same.

In the second situation, the temperature in the clean room is lower than the preset value, and the relative humidity is higher than the preset value, at this time, the air after blowing is charged into the temperature adjusting cylinder 2 with the temperature-raising and dehumidifying component from the air inlet pipe 6, and the temperature and humidity are adjusted in the same principle.

Air in the barrel 2 that adjusts the temperature at last mixes through the air of mixing assembly with the clean room suction, send the air after mixing into the clean room again, can make the air in the clean room and the air after the external processing through the mixture of the two carry out neutralization to make temperature and humidity tend to the default, through this way of eliminating one's best, compare in charging the air after the direct processing into the clean room, both can accelerate the speed of temperature and humidity regulation in the clean room, fluctuation when simultaneously can also reduce temperature and humidity regulation, reduce the influence to the work operation in the clean room.

In conclusion, after the air input into the clean room is subjected to temperature and humidity regulation through the two temperature regulation cylinders 2, a reliable environment can be provided for the industrial production process in the clean room, and therefore the normal operation of the process and the equipment is guaranteed.

In one preferred embodiment, the mixing assembly comprises a circulating cylinder 3 mounted on the top of a bottom plate 1 through a support, the outer walls of two sides of the circulating cylinder 3 are respectively communicated with an air suction pipe 9 and an air exhaust pipe 10, the air suction pipe 9 and the air exhaust pipe 10 are both communicated with a clean room, the middle part of the circulating cylinder 3 is provided with a mixing box 13, the inner wall of the circulating cylinder 3 is provided with a rotatable rotating shaft 29, the outer wall of the rotating shaft 29 in the mixing box 13 is fixed with a plurality of fan plates 31, the outer walls of the rotating shaft 29 on two sides of the fan plates 31 are both fixed with threaded plates 30, the conveying directions of the two threaded plates 30 are the same, and an air outlet pipe 8 which can enable air to enter the temperature adjusting cylinder 2 in a single direction is communicated between the outer walls of the two temperature adjusting cylinders 2 and the mixing box 13.

The rotating shaft 29 is driven to rotate by an external mechanism, a motor driving mode can be adopted, referring to fig. 5, the rotating shaft 29 can drive the two threaded plates 30 and the fan plate 31 to rotate, air can be sucked from the air suction pipe 9 under the rotating action of the threaded plates 30 and then is discharged from the exhaust pipe 10 to form a circulation, after the air which is further processed in the temperature adjusting cylinder 2 is introduced into the mixing box 13 from the air outlet pipe 8, the air and the fan plate 31 are mixed under the rotation of the fan plate 31, and the air is sent back to a clean room from the exhaust pipe 10 along with the rotation of the threaded plates 30, so that the mixing and the circulation of the air are completed.

Further, clean air conditioner clean system still includes temperature sensor 11 and humidity transducer 12 that is used for detecting the clean room air humiture, and temperature sensor 11 and humidity transducer 12 all install in breathing pipe 9, and when temperature sensor 11 and humidity transducer 12 detected the air temperature and is less than the default and humidity is higher than the default, intake pipe 6 can aerify in the section of thick bamboo 2 that adjusts the temperature that has the dehumidification subassembly of rising temperature, otherwise, when detecting the air temperature and be higher than the default and humidity is less than the default, intake pipe 6 can aerify in the section of thick bamboo 2 that adjusts the temperature that has the humidification subassembly of lowering temperature.

As can be seen from the foregoing, when air is sucked from the air intake pipe 9, the temperature sensor 11 and the humidity sensor 12 detect the temperature and humidity thereof, and control the direction of inflation of the air intake pipe 6.

Furthermore, the bottoms of the two temperature adjusting cylinders 2 are respectively provided with an adjusting groove 24, the two adjusting grooves 24 are respectively internally provided with a slidable adjusting strip 7, the inner walls of the two temperature adjusting cylinders 2 are respectively provided with a circular plate 20 fixed on the adjusting strips 7 in a sliding manner, the insides of the two adjusting strips 7 are respectively provided with a communicating channel 22, the outlet of the communicating channel 22 is communicated with the air outlet pipe 8, the inlet of the communicating channel 22 is communicated with the inside of the temperature adjusting cylinder 2 at one side of the circular plate 20 far away from the air outlet pipe 8, the temperature raising and dehumidifying component comprises a moisture absorption plate 26 arranged at the bottom of one adjusting groove 24, the temperature lowering and humidifying component comprises a plurality of humidifying holes 25 arranged at the bottom of the other adjusting groove 24 and humidifying pipes 23 for supplying water vapor into the plurality of humidifying holes 25, and the insides of the two temperature adjusting cylinders 2 are respectively provided with a liquid adding channel 21, wherein, the liquid charging channel 21 which is arranged in the same position with the moisture absorption plate 26 is filled with hot liquid, and the liquid charging channel 21 which is arranged in the same position with the humidifying hole 25 is filled with cold liquid.

When the air inlet pipe 6 is used for inflating the temperature adjusting cylinder 2 with the temperature rising and dehumidifying component, the humidity sensor 12 can drive the adjusting strip 7 inside the humidity adjusting cylinder to move through the external mechanism to control the exposed area of the moisture absorption plate 26, and when the air inlet pipe 6 is used for inflating the temperature adjusting cylinder 2 with the temperature lowering and humidifying component, the humidity sensor 12 can drive the adjusting strip 7 inside the humidity adjusting cylinder to move through the external mechanism to control the opening amount of the humidifying holes 25.

It can be known from the foregoing that, when the air inlet pipe 6 is filled with air into the temperature adjusting cylinder 2 with the temperature raising and dehumidifying component, the humidity sensor 12 can drive the adjusting bar 7 to move through the external mechanism to control the exposed area of the moisture absorption plate 26, so as to achieve the purpose of adjusting the moisture absorption degree, and at the same time, the temperature sensor 11 can control the temperature of the hot liquid in the liquid adding channel 21, and the hot liquid is heated by the heater, or heated circularly, so that the temperature of the air is the same as the difference between the temperature in the clean room and the preset value, and the humidity is also the same.

Similarly, when the air inlet pipe 6 is used for inflating the temperature adjusting cylinder 2 with the temperature reducing and humidifying component, the humidity sensor 12 drives the adjusting strip 7 to move through an external mechanism to control the number of the humidifying holes 25, so that the purpose of adjusting the humidifying degree is achieved, and the temperature sensor 11 is used for controlling the temperature of cold liquid in the liquid adding channel 21.

Like this, come to carry out corresponding regulation to the air of external world through the response of temperature sensor 11 and humidity transducer 12 to the clean room humiture to guarantee that the last two mixes the back, the neutralization of temperature and humidity can be close to the default, and then the fluctuation range when reducing the clean room humiture and adjusting, still improved its governing speed simultaneously.

Further, riser 4 is installed at 1 top of bottom plate between two section of thick bamboo 2 that adjust the temperature, the circular slot has been seted up to riser 4's inside, and circular slot centre of a circle department inner wall has seted up the through-hole, and install pin shaft 35 that can reciprocating rotation in the through-hole, the one end that pin shaft 35 inserted the circular slot is fixed with swivel plate 32, sector groove 33 and switching channel 41 who communicates with it are seted up to swivel plate 32's inside, the outer wall of riser 4 both sides all communicates has gas-supply pipe 5, and two gas-supply pipes 5 communicate with two section of thick bamboo 2 that adjust the temperature respectively, two pipelines that communicate with two gas-supply pipes 5 respectively are seted up to riser 4's inside, the pipeline that communicates with intake pipe 6 is seted up to riser 4's inside, when swivel plate 32 rotates, sector groove 33 is through pipeline and intake pipe 6 intercommunication all the time, and switching channel 41 communicates with one of them gas-supply pipe 5 through the pipeline.

Referring to fig. 6, it can be known from the foregoing that, the processed air is introduced through the air inlet pipe 6, and the external mechanism is adjusted through the temperature sensor 11 and the humidity sensor 12 to drive the rotation of the pin shaft 35, and since the fan-shaped groove 33 is provided, the air inlet pipe 6 can be always communicated with the fan-shaped groove 33 through the pipeline when the rotating plate 32 rotates, and the purpose of switching the two temperature adjusting cylinders 2 can be achieved only by adjusting the orientation of the switching channel 41, so that the switching channel 41 is communicated with the corresponding air delivery pipe 5.

Furthermore, one end of the pin shaft 35 penetrating through the vertical plate 4 is fixed with a swing rod 34 capable of swinging in a reciprocating manner, the swing rod 34 and the switching channel 41 are arranged in parallel, when the temperature sensor 11 and the humidity sensor 12 detect that the air temperature is lower than a preset value and the humidity is higher than the preset value, the swing rod 34 can swing and enables the switching channel 41 to be communicated with the temperature adjusting cylinder 2 with the temperature rising and dehumidifying component, and when the air temperature is higher than the preset value and the humidity is lower than the preset value, the swing rod 34 swings and enables the switching channel 41 to be communicated with the temperature adjusting cylinder 2 with the temperature lowering and humidifying component.

The temperature sensor 11 and the humidity sensor 12 drive the external mechanism to swing the swing link 34, and referring to fig. 6 and 7, since the swing link 34 is parallel to the switching channel 41, the swing link 34 swings to which side, and the air inlet pipe 6 inflates the temperature adjusting cylinder 2 at which side.

Further, the outer walls of the opposite surfaces of the two temperature adjusting cylinders 2 are respectively provided with a through hole, spline shafts 14 are respectively and rotatably installed in the two through holes, one ends of the two spline shafts 14, which are opposite to each other, are respectively fixed with a gear 15, the outer walls of the two spline shafts 14, which are opposite to each other, are respectively and slidably installed with spline housings 19, one ends of the two spline housings 19, which are far away from the air outlet pipe 8, are respectively and rotatably installed on the outer walls of the two circular plates 20, the outer walls of the two spline housings 19 are respectively and rotatably installed with a conveying auger 18, the conveying directions of the two conveying augers 18 are opposite, a sliding block 27 is slidably installed on the top of the bottom plate 1, which is positioned between the two gears 15, a motor 28 is installed on the top of the sliding block 27, a circular disc 17 is fixed on the top of the circular disc 17, a driven rod 36 is rotatably installed on the outer wall of the sliding block 27, a sliding groove 39 is formed on the outer wall of the driven rod 36, a limiting block 38 which can slide in the sliding groove 39 is rotatably installed on the bottom end of the sliding rod 34, a spring 37 is fixed to the inner bottom of the stopper 38 and the slide groove 39, and when the slide block 27 moves, the arc-shaped rack 16 is engaged with one of the gears 15.

Referring to fig. 4, 7 and 9, the output shaft of the motor 28 drives the disc 17 to rotate and simultaneously drives the arc-shaped rack 16 to rotate, and meanwhile, when the swing rod 34 swings, the limiting block 38 is driven to slide in the sliding groove 39, the spring 37 compresses, the driven rod 36 swings, and when the swing rod 34 and the driven rod 36 cross the same straight line, the driven rod 36 is driven to swing under the elastic force of the spring 37 and drives the slider 27 and the upper structure to move, and at this time, the arc-shaped rack 16 is meshed with the gear 15 facing the swing rod 34 and drives the same to rotate, as can be seen from the foregoing, the air inlet pipe 6 is also communicated with the temperature adjusting cylinder 2 facing the swing rod 34, and air is driven to enter from the air pipe 5 under the rotation of the conveying auger 18, and is discharged from the communicating pipe 22 and the air outlet pipe 8 after temperature raising, dehumidifying or temperature lowering and humidifying processes.

Therefore, the structure of the gas transmission can be switched while the temperature adjusting cylinder 2 is switched, and energy is saved.

Example two:

in the second embodiment, the outer ring rack 40 is fixed on the top of the disk 17, and the outer ring rack 40 and the arc-shaped rack 16 are concentrically arranged, so that when the disk 17 moves, the arc-shaped rack 16 is meshed with one of the gears 15 or the outer ring rack 40 is meshed with the other gear 15.

The second embodiment is an improvement on the first embodiment, and as can be seen from the foregoing, the arc-shaped rack 16 is engaged with one of the gears 15 to drive the gears 15 to rotate, so that the two gears 15 have the same rotation speed, i.e. the same air delivery speed, and by further adding one outer ring rack 40 and referring to fig. 10, the outer ring rack 40 is engaged with the gear 15 or the arc-shaped rack 16 is engaged with the gear 15 to drive the gear 15 to rotate, and since the diameter of the outer ring rack 40 is greater than that of the arc-shaped rack 16, the speed of driving the gear 15 to rotate is different, so that the air delivery speed is also different, when the external temperature is higher in summer, the temperature difference between the temperature of the temperature adjusting cylinder 2 and the external temperature is small, and if the internal air is heated, the heat loss is reduced, at this time, the temperature adjusting cylinder 2 with the temperature raising and dehumidifying component can drive the gear 15 to rotate through the arc-shaped rack 16 to increase the air delivery speed, the efficiency is improved, and the other temperature adjusting cylinder 2 is driven by an arc-shaped rack 16.

On the contrary, when the outside temperature is lower in winter, the temperature difference between the temperature adjusting cylinder 2 and the outside temperature is large, so that the heat loss of the inside air is relatively large when the temperature is increased, at the moment, the temperature adjusting cylinder 2 with the temperature increasing and dehumidifying component drives the gear 15 to rotate through the outer ring rack 40, the flow rate of the air is reduced, the retention time of the air in the temperature adjusting cylinder 2 is prolonged, the air can be fully increased in temperature, and the temperature adjusting quality of the air is ensured.

Therefore, the gas transmission speed of the temperature adjusting cylinder 2 can be adaptively adjusted according to different external environments, so that the temperature and humidity adjustment is more stable.

To sum up, through the detection to air temperature and humidity in the clean room, adjust the temperature and humidity of sending into the air, and mix through the air after the humiture regulation and the air in the clean room, make temperature and humidity approach to the default after the neutralization, then send into the clean room together, and along with exhaust passage discharges the air in the clean room, make it form a process of taking a breath, both can accelerate the speed of humiture regulation in the clean room, fluctuation when simultaneously can also reduce humiture regulation, guarantee the stability of the humiture in the clean room, reduce the influence to the work operation in the clean room.

Example three:

the third embodiment provides a control method of the clean air-conditioning purification system according to the first embodiment or the second embodiment, which includes the following steps:

a control method of a clean air-conditioning purification system comprises the following steps:

s1: setting preset values of temperature and humidity in a clean room, determining a range to be adjusted, communicating an air inlet pipe 6 with an external processing mechanism, processing air entering the air inlet pipe 6 to enable the temperature and humidity value to be the same as the preset temperature and humidity value in the clean room, and meanwhile, arranging a discharge channel for discharging the air in the clean room to enable exhaust of the discharge channel and inlet air of the air inlet pipe 6 to form balance;

s2: the air suction pipe 9 on the mixing component is used for sucking out air in the clean room, the temperature and the humidity of the air in the clean room are detected through the temperature sensor 11 and the humidity sensor 12, when the temperature sensor 11 and the humidity sensor 12 detect that the air temperature is lower than a preset value and the humidity is higher than the preset value, the air inlet pipe 6 can inflate the temperature adjusting cylinder 2 with the temperature-increasing and dehumidifying component, otherwise, when the air temperature is higher than the preset value and the humidity is lower than the preset value, the air inlet pipe 6 can inflate the temperature adjusting cylinder 2 with the temperature-decreasing and humidifying component;

s3: the air after being heated, dehumidified or cooled and humidified is charged into the mixing component to be mixed with the air sucked out from the clean room and then is sent into the clean room, and the two kinds of air can have a neutralization effect on the temperature and the humidity through mixing, so that the fluctuation of the air in the clean room can be reduced during temperature and humidity adjustment, and the influence on the working operation is reduced;

s4: by the circulation, the relatively stable temperature and humidity in the clean room are kept.

The standard parts used in the present embodiment may be purchased directly from the market, and the non-standard structural components described in the specification and drawings may also be obtained by processing directly according to the common general knowledge of the prior art without any doubt, and the connection manner of the respective parts is a conventional manner well-established in the prior art, and the machines, parts and equipment are of a type conventional in the prior art, so that detailed description thereof is omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A clean air conditioner clean system, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is provided with two temperature adjusting cylinders (2) through a support, one of the temperature adjusting cylinders (2) is internally provided with a temperature-raising dehumidifying component, and the other temperature adjusting cylinder (2) is internally provided with a temperature-lowering humidifying component;

the air conditioner also comprises an air inlet pipe (6) used for filling air into one of the temperature adjusting cylinders (2), the air in the air inlet pipe (6) is treated, and the temperature and humidity value is the same as the temperature and humidity value preset in the clean room;

the air conditioner also comprises a mixing component which can suck out the air in the clean room, and the air treated in the temperature adjusting cylinder (2) is mixed with the air sucked out of the clean room through the mixing component and then is sent into the clean room.

2. The clean air-conditioning purification system according to claim 1, wherein: the mixing component comprises a circulating cylinder (3) which is arranged on the top of the bottom plate (1) through a bracket, the outer walls of the two sides of the circulating cylinder (3) are respectively communicated with an air suction pipe (9) and an air exhaust pipe (10), the air suction pipe (9) and the exhaust pipe (10) are both communicated with the clean room, the middle part of the circulating cylinder (3) is provided with a mixing box (13), a rotating shaft (29) capable of rotating is installed on the inner wall of the circulating cylinder (3), a plurality of fan plates (31) are fixed on the outer wall of the rotating shaft (29) positioned in the mixing box (13), threaded plates (30) are fixed on the outer walls of the rotating shaft (29) positioned on two sides of each fan plate (31), and the conveying directions of the two thread plates (30) are the same, and an air outlet pipe (8) which can enable air to enter the temperature adjusting cylinder (2) in a one-way mode is communicated between the outer wall of each of the two temperature adjusting cylinders (2) and the mixing box (13).

3. The clean air-conditioning purification system according to claim 2, wherein: still including temperature sensor (11) and humidity transducer (12) that are used for detecting the clean room air humiture, just temperature sensor (11) and humidity transducer (12) are all installed in breathing pipe (9), work as temperature sensor (11) and humidity transducer (12) detect that air temperature is less than the default and when humidity is higher than the default, intake pipe (6) can be aerifyd in the section of thick bamboo of adjusting the temperature (2) that has the subassembly that dehumidifies that heaies up, otherwise, when detecting that air temperature is higher than the default and humidity is less than the default, intake pipe (6) can be aerifyd in the section of thick bamboo of adjusting the temperature (2) that have the subassembly of cooling and humidifying.

4. The clean air-conditioning purification system according to claim 3, wherein: the bottom of two temperature adjusting cylinders (2) is provided with adjusting grooves (24), the adjusting grooves (24) are internally provided with slidable adjusting strips (7), the inner walls of the two temperature adjusting cylinders (2) are provided with circular plates (20) fixed on the adjusting strips (7) in a sliding manner, the adjusting strips (7) are internally provided with communicating channels (22), the outlet of each communicating channel (22) is communicated with the air outlet pipe (8), the inlet of each communicating channel (22) is communicated with the inside of the temperature adjusting cylinder (2) on one side, away from the air outlet pipe (8), of each circular plate (20), each temperature rising and dehumidifying component comprises a moisture absorption plate (26) arranged at the bottom of one adjusting groove (24), each temperature lowering and humidifying component comprises a plurality of humidifying holes (25) arranged at the bottom of the other adjusting groove (24) and humidifying pipes (23) for supplementing water vapor into the plurality of humidifying holes (25), liquid feeding channels (21) are formed in the two temperature adjusting cylinders (2), wherein the liquid feeding channels (21) which are arranged in the same position with the moisture absorption plate (26) are filled with hot liquid, and the liquid feeding channels (21) which are arranged in the same position with the humidifying holes (25) are filled with cold liquid;

when intake pipe (6) aerify in to the tempering section of thick bamboo (2) that have the dehumidification subassembly of rising temperature, humidity transducer (12) can move through its inside regulation strip (7) of external mechanism drive and control the area that moisture absorption plate (26) expose, when intake pipe (6) aerify in to the tempering section of thick bamboo (2) that have the humidification subassembly of lowering temperature, humidity transducer (12) can move through its inside regulation strip (7) of external mechanism drive and control the quantity that humidification hole (25) are opened.

5. The clean air-conditioning purification system according to claim 4, wherein: a vertical plate (4) is installed at the top of a bottom plate (1) between the two temperature adjusting cylinders (2), a circular groove is formed in the vertical plate (4), a through hole is formed in the inner wall of the center of the circular groove, a pin shaft (35) capable of rotating in a reciprocating manner is installed in the through hole, a rotating plate (32) is fixed at one end of the pin shaft (35) inserted into the circular groove, a fan-shaped groove (33) and a switching channel (41) communicated with the fan-shaped groove are formed in the rotating plate (32), air conveying pipes (5) are communicated with the outer walls on the two sides of the vertical plate (4), the two air conveying pipes (5) are respectively communicated with the two temperature adjusting cylinders (2), two pipelines respectively communicated with the two air conveying pipes (5) are formed in the vertical plate (4), pipelines communicated with an air inlet pipe (6) are formed in the vertical plate (4), and when the rotating plate (32) rotates, the fan-shaped groove (33) is always communicated with the air inlet pipe (6) through the pipelines, and the switching channel (41) is communicated with one of the air conveying pipes (5) through a pipeline.

6. The clean air-conditioning purification system according to claim 5, wherein: the one end that riser (4) were worn out in round pin axle (35) is fixed with pendulum rod (34) that can reciprocate to oscillate, just pendulum rod (34) are parallel arrangement with switching passageway (41), work as temperature sensor (11) and humidity transducer (12) detect that air temperature is less than the default and when humidity is higher than the default, pendulum rod (34) can swing and make switching passageway (41) and a tempering section of thick bamboo (2) intercommunication that has the dehumidification subassembly of rising temperature, when detecting that air temperature is higher than the default and when humidity is less than the default, pendulum rod (34) swing makes switching passageway (41) and a tempering section of thick bamboo (2) intercommunication that has the humidification subassembly of lowering temperature.

7. The clean air-conditioning purification system according to claim 6, wherein: the outer wall of the opposite surface of the two temperature adjusting cylinders (2) is provided with through holes, spline shafts (14) are rotatably arranged in the two through holes, one ends of the two spline shafts (14) opposite to each other are fixed with gears (15), the outer walls of the two spline shafts (14) which are mutually opposite to each other are slidably provided with spline sleeves (19), one ends of the two spline sleeves (19) far away from an air outlet pipe (8) are rotatably arranged on the outer walls of the two circular plates (20) respectively, the outer walls of the two spline sleeves (19) are provided with conveying dragon (18), the conveying directions of the two conveying dragon (18) are opposite, the top of a bottom plate (1) between the two gears (15) is provided with a sliding block (27) in a sliding manner, the top of the sliding block (27) is provided with a motor (28), the top end of an output shaft of the motor (28) is fixedly provided with a disc (17), the top of the disc (17) is fixedly provided with an arc-shaped rack (16), slider (27) are close to the outer wall rotation of pendulum rod (34) and install driven lever (36), spout (39) have been seted up to the outer wall of driven lever (36), the bottom of pendulum rod (34) is rotated and is installed and to be installed can be at spout (39) gliding stopper (38), stopper (38) and the interior bottom of spout (39) are fixed with spring (37), work as slider (27) can make arc rack (16) and one of them when removing gear (15) meshing.

8. The clean air-conditioning purification system according to claim 7, wherein: an outer ring rack (40) is fixed at the top of the disc (17), the outer ring rack (40) and the arc-shaped rack (16) are arranged concentrically, and when the disc (17) moves, the arc-shaped rack (16) can be meshed with one gear (15) or the outer ring rack (40) can be meshed with the other gear (15).

9. A method for controlling a clean air-conditioning purification system according to any one of claims 3 to 8, wherein: the method comprises the following steps:

s1: setting preset values of temperature and humidity in a clean room, determining a range to be adjusted, communicating an air inlet pipe (6) with an external processing mechanism, processing air entering the air inlet pipe (6) to enable the temperature and humidity value to be the same as the preset temperature and humidity value in the clean room, and meanwhile, arranging a discharge channel for discharging the air in the clean room to enable exhaust of the discharge channel and inlet air of the air inlet pipe (6) to form balance;

s2: air in a clean room is sucked out by using an air suction pipe (9) on the mixing component, the temperature and the humidity of the air in the clean room are detected by a temperature sensor (11) and a humidity sensor (12), when the temperature sensor (11) and the humidity sensor (12) detect that the air temperature is lower than a preset value and the humidity is higher than the preset value, the air inlet pipe (6) can inflate the temperature adjusting cylinder (2) with the temperature-increasing and dehumidifying component, otherwise, when the air temperature is higher than the preset value and the humidity is lower than the preset value, the air inlet pipe (6) can inflate the temperature adjusting cylinder (2) with the temperature-decreasing and humidifying component;

s3: the air after being heated, dehumidified or cooled and humidified is charged into the mixing component to be mixed with the air sucked out from the clean room and then is sent into the clean room, and the two kinds of air can have a neutralization effect on the temperature and the humidity through mixing, so that the fluctuation of the air in the clean room can be reduced during temperature and humidity adjustment, and the influence on the working operation is reduced;

s4: by the circulation, the relatively stable temperature and humidity in the clean room are kept.

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