CN114868585A

CN114868585A - Garden fogging environment optimization device and working method thereof

Info

Publication number: CN114868585A
Application number: CN202210541628.7A
Authority: CN
Inventors: 傅伟
Original assignee: Guangzhou Water Art Fountain Irrigation Garden Co ltd
Current assignee: Guangzhou Water Art Fountain Irrigation Garden Co ltd
Priority date: 2022-05-17
Filing date: 2022-05-17
Publication date: 2022-08-09
Anticipated expiration: 2042-05-17
Also published as: CN114868585B

Abstract

The invention discloses a garden mist making environment optimization device and a working method thereof, and relates to the technical field of mist making machines. When the intelligent water tank is used, the plurality of fog-sen nozzles are installed at a designated position, water can enter through the water inlet pipe, impurities are filtered by the water through the two fine filters and the automatic high-grade biomembrane filter, then the water enters the water tank, the depth of the water in the water tank can be detected through the three liquid level sensors, the water can be sucked from the water tank by starting the intelligent terminal, then the water is discharged into the stainless steel cold fog main pipe through the second connecting pipe, and the water is discharged through the plurality of fog-sen nozzles to form fog.

Description

Garden fogging environment optimization device and working method thereof

Technical Field

The invention relates to the technical field of a fogging machine, in particular to a garden fogging environment optimization device and a working method thereof.

Background

The fogging principle of a fogging machine is based on natural phenomena such as water vapor, clouds and fog. Can let you generate such environment anytime and anywhere, the aquatic that current fog machine of making inserts when making the fog contains a large amount of impurity, when spouting through the nozzle, blocks up the nozzle easily to influence and make the fog and use, for this reason we have proposed gardens and made fog environment optimization device and working method thereof.

Disclosure of Invention

The application aims to provide a garden fogging environment optimization device and a working method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the garden mist-making environment optimization device comprises a cabinet body, wherein a water tank is installed in the cabinet body, an overflow pipe is installed on the water tank through an overflow valve, three liquid level sensors are installed on the inner wall of the water tank and located at different heights, the water tank is connected with a cold mist main machine through a first connecting pipe, a pressure gauge and a pressure regulating valve are arranged on the cold mist main machine, the water outlet end of the cold mist main machine is connected with a stainless steel cold mist main pipe through a second connecting pipe, a plurality of mist nozzles are installed at the top of the stainless steel cold mist main pipe, the water tank is connected with a biological membrane automatic advanced filter through a third connecting pipe, the biological membrane automatic advanced filter is connected with two fine filters which are sequentially arranged through a fourth connecting pipe, the water inlet end of the fine filter far away from the biological membrane automatic advanced filter is connected with a water inlet pipe, and an intelligent terminal is arranged in the cabinet body, the intelligent terminal is connected with a power bus, the water inlet pipe is provided with a water replenishing electromagnetic valve, the automatic high-grade biofilm filter is connected with a blow-off pipe, the blow-off pipe is provided with a blow-off electromagnetic valve, the intelligent terminal is connected with the blow-off electromagnetic valve, the water replenishing electromagnetic valve and the liquid level sensor, the cold fog host machine, the pressure gauge and the fog nozzles are connected.

Preferably, the fine filter comprises an upper cover disc and a cylinder body, a sealing ring is mounted at the top of the cylinder body, a sealing groove is formed in the bottom of the upper cover disc, the sealing ring extends into the sealing groove, a water through hole is formed in the upper cover disc, a plugging ring is mounted in the water through hole, a plugging ball is arranged on the side portion of the plugging ring and is in contact with the plugging ring, the plugging ball is mounted on the inner wall of the water through hole through a sliding mechanism, two lower through holes formed in the inner wall of the bottom side of the water through hole are formed in two sides of the plugging ring and communicated with the cylinder body, a filter element is connected to the inner wall of the cylinder body and corresponds to one of the lower through holes, the cylinder body is connected with the filter element through a fixing mechanism, and two moving holes are formed in the inner wall of the top side of the water through hole, two sealing mechanisms for respectively sealing the lower through holes are respectively installed in the two moving holes, the two sealing mechanisms are provided with thread moving mechanisms, one of the sealing mechanisms is provided with a pushing mechanism on the side part, and the pushing mechanism is connected with the sliding mechanism.

Preferably, the sliding mechanism comprises a positioning rod arranged on the inner wall of the top side of the water through hole, a sliding hole is formed in the side portion of the positioning rod, a sliding rod is slidably arranged in the sliding hole and connected with the side portion of the plugging ball, a sealing plate is arranged at the top of the sliding rod, an inclined groove is formed in the side portion of the sliding rod, and the inclined groove is matched with the pushing mechanism for installation.

Preferably, the fixing mechanism comprises a plurality of guide rods arranged at the bottom of the upper cover plate, a moving ring is sleeved on the guide rods in a sliding manner, pulling holes are formed in the side portions of the guide rods, an inserting rod is arranged in each pulling hole in a sliding manner, the bottom of each inserting rod is rotatably provided with a pulling rod, the bottom of each pulling rod is rotatably arranged on the top of the moving ring, a plurality of inserting grooves are formed in the inner wall of the barrel, one end of each inserting rod extends into each inserting groove, a mounting plate is arranged on the inner wall of the moving ring, an extrusion rod arranged on the sealing mechanism is arranged above the mounting plate, the extrusion rod corresponds to the mounting plate in position, elastic units are arranged at the top of the moving ring and the side portions of the sealing plate, and the side portions of the elastic units are respectively arranged on the positioning rods, The bottom of the upper cover plate.

Preferably, the elastic unit includes a moving rod, a moving sleeve and a sealing hose, the moving sleeve is sleeved on the moving rod, a spring is installed on a side portion of the moving sleeve, a side portion, far away from the moving rod, of the moving sleeve located above is installed on a side portion, close to the positioning rod and the sealing plate, of the moving sleeve, a side portion, far away from the moving sleeve, of the moving sleeve located above is installed on a side portion, close to the positioning rod and the sealing plate, respectively, two ends of the sealing hose located above are installed on a side portion, close to the upper cover plate and the moving ring, respectively, one end, far away from the moving sleeve, of the spring located above is installed on a side portion, far away from the moving sleeve, of the moving sleeve located below is installed on a side portion, close to the upper cover plate and the moving ring, respectively, two ends of the sealing hose located below are installed on a side portion, close to the upper cover plate and the moving ring, respectively, and one end of the spring positioned below and far away from the movable sleeve is arranged on the bottom of the upper cover plate.

Preferably, sealing mechanism include slidable mounting in remove downthehole lower depression bar, down the sealed dish is installed to the bottom of depression bar, the below of sealed dish is provided with sets up in down sealed dish groove on the through-hole inner wall, down sealed dish with the position of sealed dish groove is corresponding, is close to the locating lever the lateral part of depression bar with pushing mechanism connects, install on the top of extrusion pole and be located the pushing mechanism below on the bottom of sealed dish down, the top of depression bar with the screw-thread moving mechanism connects down.

Preferably, pushing mechanism including install in the swash plate of depression bar lateral part, the riser is installed on the top of swash plate, the bottom of swash plate with the inner wall of chute contacts, the slide bar bottom with the distance of riser bottom is less than down sealed dish with the distance of limbers bottom side inner wall.

Preferably, the lower pressure rod is fixedly sleeved with a sealing ring, the lower pressure rod is sleeved with an upper sealing pipe, the top end of the upper sealing pipe is installed on the inner wall of the bottom side of the water through hole, and the bottom end of the upper sealing pipe is installed on the top of the sealing ring.

Preferably, the thread moving mechanism comprises moving plates arranged at the tops of the two lower pressing rods, threaded holes are formed in the tops of the moving plates, adjusting studs are arranged in the threaded holes, bearing grooves are formed in the tops of the upper cover plates, outer rings of bearings are arranged in the bearing grooves, and the bottom ends of the adjusting studs are arranged in inner rings of the bearings.

The application also discloses a garden fogging environment optimization device and a working method thereof, wherein the method comprises the following steps:

s1: when the intelligent water tank is used, the plurality of fog-sen nozzles are installed at a specified position, water can enter through the water inlet pipe, the water passes through the two fine filters and the automatic high-level biomembrane filter to filter impurities, then enters the water tank, the depth of the water in the water tank can be detected through the three liquid level sensors, the water can be sucked from the water tank by starting the intelligent terminal, then the water is discharged into the stainless steel cold fog main pipe through the second connecting pipe, and the water is discharged through the plurality of fog-sen nozzles to form fog;

s2: the water level in the water tank can be detected through the plurality of liquid level sensors, when the water level is lower than the liquid level sensor at the bottom, the cold fog host is controlled by the intelligent terminal not to be started, the water replenishing electromagnetic valve is opened, water can enter, when the water level is higher than the liquid level sensor at the bottom, the cold fog host is opened to make fog, and when the water level reaches the liquid level sensor at the top, the water replenishing electromagnetic valve is controlled by the intelligent terminal to be closed;

s3: when the fog generating is carried out by the plurality of fog nozzles, the intelligent terminal can automatically brake and adjust the water yield and the pressure of the cold fog host machine according to the pressure meter and the opening amount of the fog nozzles through the PID algorithm.

In conclusion, the technical effects and advantages of the invention are as follows:

1. when the intelligent water tank is used, the plurality of fog-sen nozzles are installed at a designated position, water can enter through the water inlet pipe, impurities are filtered by the water through the two fine filters and the automatic high-grade biomembrane filter, then the water enters the water tank, the depth of the water in the water tank can be detected through the three liquid level sensors, the water can be sucked from the water tank by starting the intelligent terminal, then the water is discharged into the stainless steel cold fog main pipe through the second connecting pipe, and the water is discharged through the plurality of fog-sen nozzles to form fog.

2. According to the invention, the barrel body is held by a hand, the water through hole can be firstly opened by rotating the thread moving mechanism, then the two lower through holes are sealed, and meanwhile, the barrel body is released from being fixed, so that a filter element in the barrel body can be conveniently replaced during fogging, and the use is convenient.

3. According to the invention, the water level in the water tank can be detected through the plurality of liquid level sensors, when the water level is lower than the liquid level sensor at the lowest part, the cold fog host is controlled by the intelligent terminal not to be started, the water replenishing electromagnetic valve is opened, so that water can be fed, when the water level is higher than the liquid level sensor at the lowest part, the cold fog host is opened for fog making, and when the water level reaches the liquid level sensor at the highest part, the water replenishing electromagnetic valve is controlled by the intelligent terminal to be closed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a garden fogging environment optimization device in an embodiment of the application;

FIG. 2 is a process flow chart of the garden fogging environment optimizing device in the embodiment of the application;

FIG. 3 is a schematic diagram of a fine filter according to an embodiment of the present application;

FIG. 4 is a schematic view of a portion of the structure of FIG. 3;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

FIG. 6 is a schematic view of a portion of the structure of FIG. 4;

FIG. 7 is a schematic diagram of the PID algorithm.

In the figure: 1. a cabinet body; 2. a water tank; 3. a biofilm automatic high-grade filter; 4. a fine filter; 5. a liquid level sensor; 6. a water replenishing electromagnetic valve; 7. a blowdown electromagnetic valve; 8. a cold fog host machine; 9. a stainless steel cold mist main pipe; 10. a misten nozzle; 11. an intelligent terminal; 12. a power bus; 13. an upper cover plate; 14. a barrel; 15. a filter element; 16. a lower through hole; 17. a lower pressure lever; 18. a plugging ring; 19. plugging the ball; 20. a slide bar; 21. a seal ring; 22. positioning a rod; 23. a lower sealing disc; 24. a sealing disc groove; 25. an extrusion stem; 26. a guide bar; 27. a moving ring; 28. pulling a rod; 29. inserting a rod; 30. a slot; 31. mounting a plate; 32. moving the sleeve; 33. a travel bar; 34. sealing the hose; 35. a sealing plate; 36. a seal ring; 37. an upper sealing tube; 38. a sloping plate; 39. a vertical plate; 40. mounting a plate; 41. and adjusting the stud.

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.

In the description of the present disclosure, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are merely for convenience in describing the present disclosure and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present disclosure. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It should be noted that the standard parts used in the present specification are commercially available and can be customized according to the description and drawings. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in this disclosure will be understood in a particular context to those of ordinary skill in the art, and machines, parts and equipment may take on any of the models conventional in the art without explicit limitation.

In this document, the term "comprises/comprising" is intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of additional identical elements in the process, method, article, or apparatus that comprises the element.

Example (b): referring to fig. 1-6, the garden mist-making environment optimization device comprises a cabinet body 1, a water tank 2 is installed in the cabinet body 1, an overflow pipe is installed on the water tank 2 through an overflow valve, three level sensors 5 are installed on the inner wall of the water tank 2, the three level sensors 5 are located at different heights, the water tank 2 is connected with a cold mist main machine 8 through a first connecting pipe, a pressure gauge and a pressure regulating valve are arranged on the cold mist main machine 8, the water outlet end of the cold mist main machine 8 is connected with a stainless steel cold mist main pipe 9 through a second connecting pipe, a plurality of misten nozzles 10 are installed at the top of the stainless steel cold mist main pipe 9, the water tank 2 is connected with a biofilm automatic advanced filter 3 through a third connecting pipe, the level sensors 5, the water tank 2, the cabinet body 1, the pressure gauge, the pressure regulating valve, the cold mist main machine 8, the stainless steel cold mist main pipe 9, the misten nozzles 10, and the biofilm automatic advanced filter 3 can be any one of the prior art, automatic advanced filter 3 of biomembrane is connected with two fine filters 4 that set gradually through the fourth connecting pipe, the end of intaking of fine filter 4 of keeping away from automatic advanced filter 3 of biomembrane is connected with the inlet tube, the internal intelligent terminal 11 that is provided with of cabinet, be connected with power bus 12 on the intelligent terminal 11, be provided with moisturizing solenoid valve 6 on the inlet tube, automatic advanced filter 3 of biomembrane is connected with the blow off pipe, be provided with blowdown solenoid valve 7 on the blow off pipe, fine filter 4, the inlet tube, intelligent terminal 11, power bus 12, moisturizing solenoid valve 6, the blow off pipe, blowdown solenoid valve 7 can be any one among the prior art, intelligent terminal 11 and blowdown solenoid valve 7, moisturizing solenoid valve 6, three level sensor 5, cold fog host computer 8, manometer and a plurality of fog sensor 10 are connected.

Borrow by above-mentioned structure, during the use, install a plurality of fog sensor 10 to assigned position, can intake through the inlet tube, thereby water filters impurity through two fine filters 4 and the automatic advanced filter 3 of biomembrane, then in water gets into water tank 2, can detect the degree of depth of water in the water tank 2 through three level sensor 5, can inhale water from water tank 2 through starting intelligent terminal 11, then in stainless steel cold mist main pipe 9 is gone into through the second connecting pipe discharge, and make fog through a plurality of fog sensor 10 dischargings.

As shown in fig. 3-6, the fine filter 4 includes an upper cover disc 13 and a cylinder 14, a sealing ring 21 is installed on the top of the cylinder 14, the sealing ring 21, the upper cover disc 13 and the cylinder 14 may be any one of the prior art, a sealing groove is opened on the bottom of the upper cover disc 13, the sealing ring 21 extends into the sealing groove, a water through hole is opened on the upper cover disc 13, a plugging ring 18 is installed in the water through hole, a plugging ball 19 is installed on the side portion of the plugging ring 18, the plugging ring 18 and the plugging ball 19 may be any one of the prior art, the plugging ball 19 contacts with the plugging ring 18, the plugging ball 19 is installed on the inner wall of the water through hole through a sliding mechanism, two lower through holes 16 opened on the inner wall of the bottom side of the water through hole are both provided on both sides of the plugging ring 18, the two lower through holes 16 communicate with the cylinder 14, a filter element 15 is connected to the inner wall of the cylinder 14, the sliding mechanism and the filter element 15 may be any one of the prior art, the filter element 15 corresponds to one of the lower through holes 16, the barrel 14 is connected with the filter element 15 through a fixing mechanism, two moving holes are formed in the inner wall of the top side of the water through hole, sealing mechanisms for respectively sealing the two lower through holes 16 are installed in the two moving holes, thread moving mechanisms are installed on the two sealing mechanisms, a pushing mechanism is installed on the side portion of one of the sealing mechanisms and connected with a sliding mechanism, and the fixing mechanism, the sealing mechanisms, the thread moving mechanisms and the pushing mechanism can be any one of the fixing mechanism, the sealing mechanism, the thread moving mechanisms and the pushing mechanism in the prior art. The barrel 14 is held by hand, the water through holes can be firstly opened by rotating the thread moving mechanism, then the two lower through holes 16 are sealed, and meanwhile, the barrel 14 is released from being fixed, so that the filter element 15 in the barrel 14 can be conveniently replaced during fogging, and the use is convenient.

As shown in fig. 4 and 6, the sliding mechanism includes a positioning rod 22 mounted on the inner wall of the top side of the water passage hole, a sliding hole is formed in the side portion of the positioning rod 22, a sliding rod 20 is slidably mounted in the sliding hole, the sliding rod 20 is connected with the side portion of the plugging ball 19, a sealing plate 35 is mounted at the top portion of the sliding rod 20, the positioning rod 22, the sliding rod 20, and the sealing plate 35 may be any one of the prior art, a chute is formed in the side portion of the sliding rod 20, and the chute is mounted in cooperation with the pushing mechanism. The sliding rod 20 moves to drive the blocking ball 19 to separate from the blocking ring 18, so that the blocking ball 19 can only move back and forth linearly, and the water through hole is convenient to be communicated in the later period.

As shown in fig. 4-5, the fixing mechanism includes a plurality of guide rods 26 installed at the bottom of the upper cover plate 13, a moving ring 27 is slidably sleeved on the plurality of guide rods 26, pulling holes are formed on the side portions of the plurality of guide rods 26, inserting rods 29 are slidably installed in the plurality of pulling holes, pulling rods 28 are rotatably installed at the bottoms of the plurality of inserting rods 29, the guide rods 26, the moving ring 27, the inserting rods 29 and the pulling rods 28 may be any one of the prior art, the bottom ends of the plurality of pulling rods 28 are rotatably installed at the top of the moving ring 27, a plurality of slots 30 are formed in the inner wall of the cylinder 14, one ends of the plurality of inserting rods 29 respectively extend into the plurality of slots 30, an installation plate 31 is installed on the inner wall of the moving ring 27, an extrusion rod 25 installed on the sealing mechanism is arranged above the installation plate 31, the extrusion rod 25 corresponds to the installation plate 31, and the top of the moving ring 27 corresponds to each other, The side parts of the sealing plate 35 are all provided with elastic units, the mounting plate 31, the extrusion rod 25 and the elastic units can be any one of the prior art, and the side parts of the two elastic units are respectively arranged on the positioning rod 22 and the bottom part of the upper cover disc 13. The lower sealing disc 23 continues to move so that the extrusion rod 25 extrudes the mounting plate 31 to move, the mounting plate 31 moves to drive the plurality of pulling rods 28 to rotate, the plurality of pulling rods 28 rotate to drive the plurality of inserting rods 29 to move, so that the plurality of inserting rods 29 slowly move out of the plurality of inserting slots 30, opening is facilitated, and when the lower sealing disc is fixed, the plurality of inserting rods 29 respectively move into the plurality of inserting slots 30, and fixing is facilitated from a plurality of positions.

As shown in fig. 5 and 6, the elastic unit includes a moving rod 33, a moving sleeve 32 and a sealing hose 34, the moving sleeve 32 is sleeved on the moving rod 33, a spring is mounted on a side portion of the moving sleeve 32, the sealing hose 34, the moving sleeve 32, the moving rod 33 and the spring may be any one of those in the prior art, a side portion of the moving sleeve 32 and the moving rod 33 located above away from each other is mounted on a side portion of the positioning rod 22 and the sealing plate 35 adjacent to each other, respectively, both ends of the sealing hose 34 located above are mounted on side portions of the positioning rod 22 and the sealing plate 35 adjacent to each other, one end of the spring located above away from the moving sleeve 32 is mounted on a side portion of the sealing plate 35, a side portion of the moving sleeve 32 and the moving rod 33 located below away from each other is mounted on a side portion of the upper cover plate 13 and the moving ring 27 adjacent to each other, both ends of the sealing hose 34 located below are mounted on side portions of the upper cover plate 13 and the moving ring 27 adjacent to each other, the end of the spring located below, remote from the moving sleeve 32, is mounted on the bottom of the upper tray 13. Slide bar 20 removes and drives the closing plate 35 and removes, and closing plate 35 removes and drives movable rod 33 and remove at removal cover 32, and movable rod 33 removes and drives the spring and take place deformation, and closing plate 35 removes and drives sealing hose 34 and remove simultaneously, is convenient for seal removal cover 32, spring and movable rod 33 through sealing hose 34, through the setting of spring, is convenient for make closing plate 35 reconversion.

As shown in fig. 3-6, the sealing mechanism includes a lower pressing rod 17 slidably mounted in the moving hole, a lower sealing disc 23 is mounted at the bottom end of the lower pressing rod 17, the lower pressing rod 17 and the lower sealing disc 23 may be any one of the prior art, a sealing disc groove 24 opened on the inner wall of the lower through hole 16 is provided below the lower sealing disc 23, the lower sealing disc 23 corresponds to the sealing disc groove 24, the side portion of the lower pressing rod 17 close to the positioning rod 22 is connected with the pushing mechanism, the top end of the extruding rod 25 is mounted on the bottom portion of the lower sealing disc 23 below the pushing mechanism, and the top end of the lower pressing rod 17 is connected with the screw moving mechanism. The sliding rod 20 moves to drive the sealing plate 35 to move, so that the sealing disc groove 24 can be sealed, and the filter element 15 can be replaced at a later stage.

As shown in fig. 6, the pushing mechanism includes a sloping plate 38 mounted on the side of the lower pressing rod 17, a vertical plate 39 is mounted on the top end of the sloping plate 38, the vertical plate 39 and the sloping plate 38 can be any one of the prior art, the bottom of the sloping plate 38 contacts with the inner wall of the chute, and the distance between the bottom of the sliding rod 20 and the bottom end of the vertical plate 39 is smaller than the distance between the lower sealing disc 23 and the inner wall of the bottom side of the water through hole. The lower pressure rod 17 moves to drive the inclined plate 38 and the vertical plate 39 to move, the inclined plate 38 moves to extrude the chute, and therefore the sliding rod 20 is driven to move, and the plugging ring 18 is convenient to open in the later period.

As shown in fig. 4 and 6, the lower pressure rod 17 is fixedly sleeved with a sealing ring 36, the lower pressure rod 17 is sleeved with an upper sealing pipe 37, the sealing ring 36 and the upper sealing pipe 37 may be any one of the prior art, the top end of the upper sealing pipe 37 is installed on the bottom inner wall of the water through hole, and the bottom end of the upper sealing pipe 37 is installed on the top of the sealing ring 36. Two depression bars 17 remove and drive two sealed dishes 23 and remove, and two depression bars 17 remove and drive two sealing rings 36 and remove, and two sealing rings 36 remove and drive two upper seal pipes 37 tensile, under two upper seal pipes 37's effect, can seal, and the depression bar 17 of being convenient for removes.

As shown in fig. 4 and 6, the thread moving mechanism includes a moving plate 40 mounted on the tops of the two lower pressing rods 17, a threaded hole is formed in the top of the moving plate 40, an adjusting stud 41 is mounted in the threaded hole, a bearing groove is formed in the top of the upper cover plate 13, an outer ring of a bearing is mounted in the bearing groove, the moving plate 40, the adjusting stud 41 and the bearing may be any one of the prior art, and the bottom end of the adjusting stud 41 is mounted in the inner ring of the bearing. When the filter element 15 in the fine filter 4 needs to be replaced, the adjusting studs 41 are rotated to drive the moving plate 40 to move downwards, the adjusting studs 41 are moved to drive the bearings to rotate, and meanwhile, the moving plate 40 is moved to drive the two lower pressure rods 17 to move, so that simultaneous adjustment is facilitated.

The application also discloses a working method of the garden fogging environment optimizing device, and the method comprises the following steps:

s1: when the intelligent water tank is used, the plurality of fog-sen nozzles 10 are installed at a designated position, water can enter through the water inlet pipe, water passes through the two fine filters 4 and the automatic high-grade biomembrane filter 3 to filter impurities, then enters the water tank 2, the depth of the water in the water tank 2 can be detected through the three liquid level sensors 5, the water can be sucked from the water tank 2 by starting the intelligent terminal 11, then is discharged into the stainless steel cold fog main pipe 9 through the second connecting pipe, and is discharged through the plurality of fog-sen nozzles 10 to form fog;

s2: the water level in the water tank 2 can be detected through the liquid level sensors 5, when the water level is lower than the liquid level sensor 5 at the bottom, the cold fog host 8 is controlled by the intelligent terminal 11 not to be started, the water replenishing electromagnetic valve 6 is opened, water can enter, when the water level is higher than the liquid level sensor 5 at the bottom, the cold fog host 8 is opened to generate fog, and when the water level reaches the liquid level sensor 5 at the top, the water replenishing electromagnetic valve 6 is controlled by the intelligent terminal 11 to be closed;

s3: when the plurality of misty nozzles 10 are used for making mist, the intelligent terminal 11 can automatically brake and adjust the water yield and the pressure of the cold mist host machine 8 according to the pressure table and the opening amount of the misty nozzles 10 through a PID algorithm, and the algorithm is shown in FIG. 7.

This practical theory of operation:

when the filter element 15 in the fine filter 4 needs to be replaced, the adjusting studs 41 are rotated, the adjusting studs 41 rotate to drive the moving plate 40 to move downwards, the adjusting studs 41 move to drive the bearings to rotate, and meanwhile, the moving plate 40 moves to drive the two lower pressure rods 17 to move, so that simultaneous adjustment is facilitated;

the two lower pressing rods 17 move to drive the two lower sealing discs 23 to move, the two lower pressing rods 17 move to drive the two sealing rings 36 to move, the two sealing rings 36 move to drive the two upper sealing pipes 37 to stretch, and sealing can be performed under the action of the two upper sealing pipes 37, so that the lower pressing rods 17 can move conveniently;

the lower pressure rod 17 moves to drive the inclined plate 38 and the vertical plate 39 to move, the inclined plate 38 moves to extrude the chute, so that the sliding rod 20 is driven to move, the sliding rod 20 moves to drive the blocking ball 19 to separate from the blocking ring 18, so that the water through hole is communicated, the sliding rod 20 moves to drive the sealing plate 35 to move, the sealing plate 35 moves to drive the moving rod 33 to move on the moving sleeve 32, the moving rod 33 moves to drive the spring to deform, meanwhile, the sealing plate 35 moves to drive the sealing hose 34 to move, the moving sleeve 32, the spring and the moving rod 33 are conveniently sealed through the sealing hose 34, the sealing plate 35 is convenient to restore to the original state through the arrangement of the spring, and when the sliding rod 20 is in contact with the vertical plate 39, the blocking ring 18 is completely opened;

the barrel 14 is held by hand, the lower sealing disc 23 moves to drive the extrusion rod 25 to move, when the plugging ring 18 is completely opened, the extrusion rod 25 is in contact with the mounting plate 31, at the moment, the lower sealing disc 23 continues to move downwards to slowly seal the sealing disc groove 24, the lower sealing disc 23 continues to move to enable the extrusion rod 25 to extrude the mounting plate 31 to move, the mounting plate 31 moves to drive the plurality of pulling rods 28 to rotate, the plurality of pulling rods 28 rotate to drive the plurality of inserting rods 29 to move, so that the plurality of inserting rods 29 slowly move out of the plurality of inserting grooves 30, meanwhile, the moving ring 27 moves to drive the moving rod 33 to move in the moving sleeve 32, the moving rod 33 moves to drive the spring to deform, when the sealing disc groove 24 is sealed by the lower sealing disc 23, the plurality of inserting rods 29 move out of the plurality of inserting grooves 30, so that the barrel 14 can be moved out, and the filter element 15 can be quickly replaced in the working process.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. Gardens fog environment optimization device, including the cabinet body (1), its characterized in that: a water tank (2) is installed in the cabinet body (1), an overflow pipe is installed on the water tank (2) through an overflow valve, three liquid level sensors (5) are installed on the inner wall of the water tank (2), the three liquid level sensors (5) are located at different heights, the water tank (2) is connected with a cold fog host (8) through a first connecting pipe, a pressure gauge and a pressure regulating valve are arranged on the cold fog host (8), the water outlet end of the cold fog host (8) is connected with a stainless steel cold fog main pipe (9) through a second connecting pipe, a plurality of misten nozzles (10) are installed at the top of the stainless steel cold fog main pipe (9), the water tank (2) is connected with a biological membrane automatic advanced filter (3) through a third connecting pipe, the biological membrane automatic advanced filter (3) is connected with two fine filters (4) through a fourth connecting pipe, keep away from automatic advanced filter of biomembrane (3) the end of intaking of secondary filter (4) is connected with the inlet tube, be provided with intelligent terminal (11) in the cabinet body (1), be connected with power bus (12) on intelligent terminal (11), be provided with moisturizing solenoid valve (6) on the inlet tube, automatic advanced filter of biomembrane (3) are connected with the blow off pipe, be provided with blowdown solenoid valve (7) on the blow off pipe, intelligent terminal (11) with blowdown solenoid valve (7), moisturizing solenoid valve (6), three level sensor (5) cold fog host computer (8) the manometer is with a plurality of fog nozzle (10) is connected.

2. The garden fogging environment optimizing device of claim 1, wherein: the fine filter (4) comprises an upper cover disc (13) and a cylinder body (14), a sealing ring (21) is installed at the top of the cylinder body (14), a sealing groove is formed in the bottom of the upper cover disc (13), the sealing ring (21) extends into the sealing groove, a water through hole is formed in the upper cover disc (13), a plugging ring (18) is installed in the water through hole, a plugging ball (19) is arranged on the lateral portion of the plugging ring (18), the plugging ball (19) is in contact with the plugging ring (18), the plugging ball (19) is installed on the inner wall of the water through hole through a sliding mechanism, two lower through holes (16) formed in the inner wall of the bottom side of the water through hole are formed in the two sides of the plugging ring (18), the two lower through holes (16) are communicated with the cylinder body (14), and a filter element (15) is connected to the inner wall of the cylinder body (14), the filter element (15) is corresponding to one of the filter element and the lower through hole (16), the barrel (14) is connected with the filter element (15) through a fixing mechanism, two moving holes are formed in the inner wall of the top side of the water through hole, two sealing mechanisms which are respectively sealed with the lower through hole (16) are arranged in the moving holes, two threaded moving mechanisms are arranged on the sealing mechanisms, one of the threaded moving mechanisms is arranged on the side portion of the sealing mechanism, and the pushing mechanism is connected with the sliding mechanism.

3. The garden fogging environment optimizing device of claim 2, wherein: slide mechanism including install in locating lever (22) on limbers top side inner wall, the slide opening has been seted up to the lateral part of locating lever (22), slidable mounting has slide bar (20) in the slide opening, slide bar (20) with the lateral part of shutoff ball (19) is connected, closing plate (35) are installed at the top of slide bar (20), the chute has been seted up to the lateral part of slide bar (20), the chute with pushing mechanism cooperation installation.

4. The garden fogging environment optimizing device of claim 3, wherein: the fixing mechanism comprises a plurality of guide rods (26) installed at the bottom of the upper cover plate (13), a moving ring (27) is slidably sleeved on the guide rods (26), pulling holes are formed in the side portions of the guide rods (26), inserting rods (29) are slidably installed in the pulling holes, the bottom of each inserting rod (29) is rotatably installed with a pulling rod (28), the bottom of each pulling rod (28) is rotatably installed on the top of the moving ring (27), a plurality of inserting grooves (30) are formed in the inner wall of the barrel (14), one ends of the inserting rods (29) extend into the inserting grooves (30) respectively, a mounting plate (31) is installed on the inner wall of the moving ring (27), an extruding rod (25) installed on the sealing mechanism is arranged above the mounting plate (31), and the extruding rod (25) corresponds to the position of the mounting plate (31), elastic units are arranged on the top of the moving ring (27) and the side of the sealing plate (35), and the sides of the two elastic units are respectively arranged on the positioning rod (22) and the bottom of the upper cover disc (13).

5. The garden fogging environment optimizing device of claim 4, wherein: the elastic unit comprises a moving rod (33), a moving sleeve (32) and a sealing hose (34), the moving sleeve (32) is sleeved on the moving rod (33), a spring is installed on the side of the moving sleeve (32), the side, far away from each other, of the moving sleeve (32) and the moving rod (33) above is installed on the side, close to each other, of the positioning rod (22) and the sealing plate (35) respectively, two ends of the sealing hose (34) above are installed on the side, close to each other, of the positioning rod (22) and the sealing plate (35) respectively, one end, far away from the moving sleeve (32), of the spring above is installed on the side of the sealing plate (35), the side, far away from each other, of the moving sleeve (32) and the moving rod (33) below is installed on the side, close to each other, of the upper cover plate (13) and the moving ring (27) respectively, two ends of the sealing hose (34) positioned below are respectively arranged on the side parts of the upper cover disc (13) and the moving ring (27) close to each other, and one end of the spring positioned below, which is far away from the moving sleeve (32), is arranged on the bottom of the upper cover disc (13).

6. The garden fogging environment optimizing device of claim 4, wherein: sealing mechanism include slidable mounting in remove downthehole holding down rod (17), sealed dish (23) are installed down to the bottom of holding down rod (17), the below of sealed dish (23) is provided with sets up in down sealed dish groove (24) on through-hole (16) inner wall, sealed dish (23) down with the position of sealed dish groove (24) is corresponding, is close to locating lever (22) the lateral part of holding down rod (17) with pushing mechanism connects, install on the top of extrusion stem (25) and be located the pushing mechanism below on the bottom of sealed dish (23) down, the top of holding down rod (17) with screw-thread moving mechanism connects down.

7. The garden fogging environment optimizing device of claim 6, wherein: pushing mechanism including install in swash plate (38) of depression bar (17) lateral part down, riser (39) are installed on the top of swash plate (38), the bottom of swash plate (38) with the inner wall of chute contacts, slide bar (20) bottom with the distance of riser (39) bottom is less than down sealed dish (23) with the distance of limbers bottom side inner wall.

8. The garden fogging environment optimizing device of claim 7, wherein: the sealing ring (36) is fixedly sleeved on the lower pressing rod (17), the upper sealing pipe (37) is sleeved on the lower pressing rod (17), the top end of the upper sealing pipe (37) is installed on the inner wall of the bottom side of the water through hole, and the bottom end of the upper sealing pipe (37) is installed on the top of the sealing ring (36).

9. The garden fogging environment optimizing device of claim 8, wherein: the thread moving mechanism comprises moving plates (40) arranged at the tops of the two lower pressing rods (17), threaded holes are formed in the tops of the moving plates (40), adjusting studs (41) are installed in the threaded holes, bearing grooves are formed in the tops of the upper cover plates (13), outer rings of bearings are installed in the bearing grooves, and the bottom ends of the adjusting studs (41) are installed in inner rings of the bearings.

10. A method for operating the garden fogging environment optimizing device according to any one of claims 1-9, characterised in that the method includes:

s1: when the intelligent water tank is used, the plurality of fog-sen nozzles (10) are installed to a designated position, water can enter through the water inlet pipe, the water can filter impurities through the two fine filters (4) and the automatic high-grade biomembrane filter (3), then the water enters the water tank (2), the depth of the water in the water tank (2) can be detected through the three liquid level sensors (5), the water can be sucked from the water tank (2) by starting the intelligent terminal (11), then the water is discharged into the stainless steel cold fog main pipe (9) through the second connecting pipe, and the water is discharged through the plurality of fog-sen nozzles (10) to form fog;

s2: the water level in the water tank (2) can be detected through the liquid level sensors (5), when the water level is lower than the liquid level sensor (5) at the bottom, the cold fog host (8) is controlled by the intelligent terminal (11) to be not started, the water replenishing electromagnetic valve (6) is opened, water can enter, when the water level is higher than the liquid level sensor (5) at the bottom, the cold fog host (8) is opened to make fog, and when the water level reaches the liquid level sensor (5) at the top, the water replenishing electromagnetic valve (6) is controlled by the intelligent terminal (11) to be closed;

s3: when the fog generating is carried out on the fog nozzles (10), the intelligent terminal (11) can automatically brake and adjust the water yield and the pressure of the cold fog host (8) through a PID algorithm according to the pressure meter and the opening amount of the fog nozzles (10).