CN216631874U - Energy-saving intermittent type formula blows wind leaching rooms that drenches - Google Patents

Abstract

The utility model belongs to the technical field of the air shower and specifically relates to a wind shower that drenches is blown to energy-saving intermittent type formula is related to, including clean warehouse and set up the air shower system in clean warehouse, be provided with the circulation wind gap in the clean warehouse, still include induction system and controller, induction system including set up in infrared inductor and dust detector in the clean warehouse, dust detector set up in being close to circulation wind gap one side, the controller can receive infrared inductor and dust detector's sensing signal, and right the air shower system is controlled. The application has the effect of reducing energy consumption.

Description

Energy-saving intermittent type formula blows wind leaching rooms that drenches

Technical Field

The application relates to the field of air showers, in particular to an energy-saving intermittent air shower.

Background

The air shower is a local purifying device with strong universality and is arranged between a clean room and a non-clean room. When people and goods enter the clean area, the people and the goods need to be blown and showered by the air shower, dust carried by the people and the goods can be removed by clean air blown out of the air shower, and dust sources can be effectively blocked or reduced to enter the clean area.

The utility model discloses an application number is 201921440119.5's chinese utility model patent document discloses an environmental protection and energy saving's wind leaching rooms, which comprises a housin, the fixed wind that is equipped with in middle part of casing drenches the passageway, the one end that the wind drenches the passageway and the other end articulates respectively has first wind to drench door and second wind to drench the door, the wind drenches the top of passageway one side and the top of opposite side and fixedly is equipped with a plurality of wind respectively and drenches spout and return air inlet, the fixed air intake that is equipped with in one side at casing back top, one side fixed mounting of air intake has primary filter, the inside of casing one side and the inside of opposite side are fixed respectively and are equipped with air inlet chamber and circulation room, the inner wall of circulation room one side fixed mounting respectively has timer and infrared switch, infrared switch's test probe is arranged in the top that the wind drenched passageway one side, the fan is respectively through infrared switch and timer and power electric connection. When a worker enters the circulating chamber, the infrared switch senses that a person enters the circulating chamber, the fan is automatically started to blow and spray the worker, and when the time set by the timer is reached, the timer automatically turns off the fan.

In view of the above-mentioned related technologies, the inventor thinks that the time for setting the timing shower is long and the extra energy consumption is high because the air shower needs to fully remove dust for people or objects.

Disclosure of Invention

In order to reduce energy consumption, the application provides an energy-saving intermittent type formula blows wind shower of drenching.

The application provides an energy-saving intermittent type formula blows wind shower that drenches adopts following technical scheme:

the utility model provides an energy-saving intermittent type formula blows wind leaching rooms that drenches, includes the clean warehouse and sets up the wind system that drenches in the clean warehouse, be provided with the circulation wind gap in the clean warehouse, still include induction system and controller, induction system including set up in infrared inductor and dust detector in the clean warehouse, dust detector set up in being close to circulation wind gap one side, the controller can receive infrared inductor and dust detector's sensing signal, and right the wind system that drenches controls.

By adopting the technical scheme, when the infrared sensor senses that people or objects enter the clean room, the sensing signal is transmitted to the controller, and the controller receives the signal and then controls the air shower system to carry out air shower dedusting on the people or objects in the clean room; the dust concentration of the dust detector in the clean room is detected when the air showering system blows and showers the clean room, when the dust detector detects that the dust concentration in the sucked air in the clean room reaches below a set clean value, a signal is transmitted to the controller, and the controller controls the air showering system to be closed. Through mutually supporting of dust detector and controller, can fully remove dust according to the people or the thing that adhere to the dust and differ, and then reduce to blow and drench the condition emergence that the time overlength leads to extra energy waste, reduced the consumption of the energy.

Optionally, the clean cabin comprises a cabin body and two vertical partition plates arranged in the cabin body, the two vertical partition plates divide the cabin body into a first cavity, a second cavity and a clean cavity, the first cavity and the second cavity are respectively located at two sides of the clean cavity, the first cavity and the second cavity are communicated through a pipeline to form an installation cavity, the circulating air port is arranged on one vertical partition plate, and the air shower system is arranged in the installation cavity; the air shower system comprises an air suction mechanism, a filtering mechanism and a blow shower mechanism, and the air suction mechanism can suck air in the clean cavity into the installation cavity through the circulating air port; the filtering mechanism is used for filtering the air sucked by the air suction mechanism; the blowing and sprinkling mechanism is used for blowing and sprinkling the air filtered by the filtering mechanism into the clean cavity.

Through adopting above-mentioned technical scheme, the air suction mechanism inhales the installation intracavity with the air of dust in with the clean intracavity, and the air with the dust filters through filtering mechanism, and the clean air after filtering drenches the mechanism by blowing again and blows to drench to the clean intracavity, realizes the filtration circulation of air in the installation intracavity, and each mechanism arranges to join in marriage compactly rationally, is convenient for save space.

Optionally, the air suction mechanism comprises a separation net and a centrifugal fan, the separation net is arranged on the circulating air port, the centrifugal fan is arranged at the bottom of the first cavity, an air suction port of the centrifugal fan faces towards the separation net, and the centrifugal fan is in signal connection with the controller.

Through adopting above-mentioned technical scheme, after the controller received the sensing signal, can control centrifugal fan and inhale the installation intracavity with the air of dust in the clean room to discharge at the installation intracavity, centrifugal fan ventilation effect is good, operates steadily, helps promoting to blow and drenches efficiency.

Optionally, filtering mechanism set up in the first cavity, filtering mechanism includes just imitates air cleaner and high efficiency air cleaner, just be located just to imitate air cleaner set up in centrifugal fan's air outlet top separate the net top, high efficiency air cleaner set up in just imitate air cleaner top.

Through adopting above-mentioned technical scheme, discharge from centrifugal fan with the air current of dust, flow direction in proper order and just imitate air cleaner and high efficiency air cleaner, through just imitating air cleaner mutually supporting with high efficiency air cleaner, can the degree of depth filtration fall the dust in the air, help promoting to blow and drench the effect.

Optionally, blow and drench the mechanism and include baffle, main blast pipe, a plurality of wind and drench shower nozzle and a blast pipe, the baffle set up in high-efficiency filter top, main blast pipe one end runs through the baffle, and the other end extends to in the second cavity, two all the array is provided with on the baffle wind drenches the shower nozzle, just wind drenches the shower nozzle and all passes through blast pipe and main blast pipe intercommunication.

Through adopting above-mentioned technical scheme, during clean air after the filtration flowed into main blast pipe along with the air current, flowing into each blast pipe through atmospheric pressure, and then blown to drenching to clean intracavity, helped the air after the filtration to obtain make full use of.

Optionally, the branch blast pipes are flexible pipes, and each air shower nozzle is movably embedded in the corresponding partition plate; blow and drench the mechanism and still include two sets of swing subassemblies, two swing subassembly set up respectively in first cavity and second cavity, the swing subassembly includes link and driving piece, the link is used for connecting all wind on corresponding baffle and drenches the shower nozzle, the driving piece is used for the drive to correspond the link carries out sharp reciprocating motion, the driving piece with controller signal connection.

By adopting the technical scheme, the controller can control the driving piece to respectively drive the connecting frame to do reciprocating motion with small frequency, so that the air shower nozzles on the corresponding vertical partition walls rotate at small angles, the air shower range of the air shower nozzles is increased, and the air shower efficiency is improved; the hose can make the wind shower nozzle take place the rotation and the gas flow consumption is less simultaneously.

Optionally, a rotating mechanism is arranged in the clean cavity and comprises a rotating disc and a pulse motor, the rotating disc is rotatably arranged at the bottom of the clean cavity, the pulse motor is used for driving the rotating disc to rotate, and the pulse motor is in signal connection with the controller.

Through adopting above-mentioned technical scheme, the controller can control pulse motor rotation number of degrees after receiving the signal, helps the rotatory all-round dust removal of people or thing on the disc, reduces the wind and drenches the dead angle, has further promoted the wind and drenches the effect.

Optionally, a dust adhering patch is arranged on the rotating disc.

By adopting the technical scheme, the dust at the bottom of a person or an object can be favorably removed, and the dust removal effect is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the infrared sensor senses that people or objects enter the clean cabin, sensing signals are transmitted to the controller, and the controller controls the air shower system to carry out air shower dedusting on the people or objects in the clean cabin after receiving the signals; the dust concentration of the dust detector in the clean room is detected when the air showering system blows and showers the clean room, when the dust detector detects that the dust concentration in the sucked air in the clean room reaches below a set clean value, a signal is transmitted to the controller, and the controller controls the air showering system to be closed. Through the mutual matching of the dust detector and the controller, dust can be fully removed according to people or objects with different dust adhesion, so that the situation of extra energy waste caused by overlong blowing and spraying time is reduced, and the energy consumption is reduced;

2. the air suction mechanism sucks air with dust in the clean cavity into the first cavity, the air with dust is filtered by the filtering mechanism, and the filtered clean air is blown into the clean cavity by the blowing and sprinkling mechanism, so that the air filtering circulation is realized in the side cavity, the arrangement is compact and reasonable, and the space is saved;

3. the controller can control the rotation degree of the pulse motor after receiving the signal, thereby being beneficial to the all-round dust removal of people or objects on the disc, reducing the air shower dead angle and further improving the air shower effect.

Drawings

Fig. 1 is a schematic overall structure diagram of an energy-saving intermittent shower air shower according to an embodiment of the present application.

Fig. 2 is a schematic view of the internal structure of the clean room of fig. 1.

Fig. 3 is a schematic view of the internal structure of the first cavity in fig. 1.

Reference numerals: 1. a clean bin; 11. a bin body; 111. cleaning the cavity; 1111. a rotation mechanism; 11111. rotating the disc; 11112. a pulse motor; 1112. an air shower door; 1113. a transparent viewing window; 112. a mounting cavity; 1121. a first cavity; 1122. a second cavity; 1123. a pipeline; 12. a vertical partition plate; 121. a circulating tuyere; 2. an air shower system; 21. an air suction mechanism; 211. separating the net; 212. a mounting frame; 213. a centrifugal fan; 22. a filtering mechanism; 221. a primary air filter; 222. a high efficiency air filter; 23. a blowing and sprinkling mechanism; 231. a baffle plate; 232. a main blast pipe; 233. a swing assembly; 2331. a connecting frame; 2332. a drive member; 234. a wind shower nozzle; 235. a branch blast pipe; 3. an induction system; 31. an infrared sensor; 32. a dust detector; 4. a controller; 5. and adsorbing the dust paste.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an energy-saving intermittent type formula blows wind leaching rooms that drenches. Referring to fig. 1, the energy-saving intermittent shower room comprises a clean room 1, a shower system 2, an induction system 3 and a controller 4; the air shower system 2 and the induction system 3 are both arranged in the clean room 1, and the controller 4 is welded on the outer wall of the clean room 1.

Referring to fig. 1, the clean bin 1 comprises a bin body 11 and two vertical partition plates 12 arranged in the bin body 11, the two vertical partition plates 12 divide the bin body 11 into a clean chamber 111 and a first cavity 1121 and a second cavity 1122 on two sides of the clean chamber 111, and the first cavity 1121 and the second cavity 1122 are communicated through a pipeline 1123 to form an installation cavity 112; air shower doors 1112 are movably mounted on two side walls of the clean cavity 111, transparent observation windows 1113 are arranged on the air shower doors 1112, embedded grooves are formed in the air shower doors 1112, and the transparent observation windows 1113 are embedded in the embedded grooves.

Referring to fig. 2, the air shower system 2 is disposed in the installation cavity 112, the air shower system 2 includes an air suction mechanism 21, a filtering mechanism 22 and a blow shower mechanism 23, the air suction mechanism 21 is used for sucking air in the clean cavity 111 into the installation cavity 112; the filtering mechanism 22 is used for filtering the air sucked by the air suction mechanism 21; the shower mechanism 23 is used for showering the air filtered by the filtering mechanism 22 into the clean chamber 111.

Referring to fig. 1, the sensing system 3 is disposed on the vertical partition 12, the sensing system 3 includes an infrared sensor 31 and a dust detector 32, the infrared sensor 31 is fixed on the vertical partition 12 near the first cavity 1121 by bolts, and the dust detector 32 is fixed on the vertical partition 12 by bolts. The controller 4 can receive the sensing signals of the infrared sensor 31 and the dust detector 32, and control the air shower system 2.

Referring to fig. 2, the air suction mechanism 21 includes a separation net 211, an installation frame 212 and a centrifugal fan 213, a circulation air opening 121 is formed in the vertical partition plate 12 close to the first cavity 1121, the circulation air opening 121 is located below the dust detector 32, the separation net 211 is fixed on the circulation air opening 121 through a bolt, the installation frame 212 fixes the bottom of the first cavity 1121 through a bolt, the centrifugal fan 213 is fixed on the installation frame 212 through a bolt, an air suction opening of the centrifugal fan 213 faces a net opening of the separation net 211, and a control switch of the centrifugal fan 213 is in signal connection with the controller 4.

Referring to fig. 2, the filter mechanism 22 includes a primary air filter 221 and a high efficiency air filter 222, the primary air filter 221 is fixed above the air outlet of the centrifugal fan 213 by bolts and located above the partition net 211, and the high efficiency air filter 222 is fixed above the primary air filter 221 by bolts. The airflow discharged from the centrifugal fan 213 passes through the primary air filter 221 and the high efficiency air filter 222 in this order.

Referring to fig. 2 and 3, the shower mechanism 23 includes a baffle 231, a main air supply pipe 232, two sets of swing assemblies 233, a plurality of shower nozzles 234, and a branch air supply pipe 235, the baffle 231 is fixed above the high efficiency filter by bolts, the baffle 231 is provided with an air supply outlet, one end of the main air supply pipe 232 is in threaded communication with the air supply outlet, the other end extends into the second cavity 1122, the air shower nozzles 234 are movably embedded on the two clapboards at intervals, the air outlets of the air shower nozzles 234 face the cleaning cavity 111, in this embodiment, six air shower nozzles 234 are disposed on the vertical partition wall adjacent to the first cavity 1121, eight air shower nozzles 234 are disposed on the vertical partition wall adjacent to the second cavity 1122, in other embodiments, five or seven air shower nozzles 234 can be disposed on the vertical partition wall near the first cavity 1121, and seven or nine air shower nozzles 234 can be disposed on the vertical partition wall near the first cavity 1121; the air shower nozzles 234 are all communicated with the main blast pipe 232 through branch blast pipes 235, and the branch blast pipes 235 adopt hoses.

Referring to fig. 2 and 3, the two sets of swing assemblies 233 are respectively disposed in the first cavity 1121 and the second cavity 1122, each swing assembly 233 includes a connecting frame 2331 and a driving member 2332, for example, the swing assembly 233 in the first cavity 1121 is provided, the air shower 234 on the vertical partition wall close to the first cavity 1121 is fixed to the connecting member by bolts, the fixed end of the driving member 2332 is fixed to the inner side wall of the first cavity 1121 by bolts, the movable end of the driving member 2332 is welded to the connecting frame 2331, and the driving direction of the driving member 2332 is disposed along the length direction of the first cavity 1121, so that the connecting frame 2331 can reciprocate along the length direction of the first cavity 1121 at a small frequency, and further, the air shower 234 is driven to rotate, and the driving member 2332 is in signal connection with the controller 4.

Referring to fig. 2, a rotating mechanism 1111 is arranged in the clean chamber 111, the rotating mechanism 1111 includes a rotating disk 11111 and a pulse motor 11112, a rotating shaft of the rotating disk 11111 is rotatably connected to the bottom of the clean chamber 111 through a bearing, the pulse motor 11112 is fixed to the bottom of the bottom chamber through a bolt, an output shaft of the pulse motor 11112 is coaxially welded to a rotating shaft of the rotating disk 11111, and the pulse motor 11112 is in signal connection with the controller 4. After receiving the signal, the controller 4 controls the pulse motor 11112 to rotate ninety degrees, so that people or objects on the rotating disc 11111 can be blown and showered in all directions. The top of the rotating disc 11111 is adhered with a dust adsorption paste 5 for adhering dust above the top of the disc.

The implementation principle of the energy-saving intermittent blowing and showering air shower chamber in the embodiment of the application is as follows: when the infrared sensor 31 senses that a person or an object enters the clean room 1, a sensing signal is transmitted to the controller 4, the controller 4 controls the centrifugal fan 213, the driving member 2332 and the pulse motor 11112 to be automatically started, and the centrifugal fan 213 absorbs the air with dust in the clean room 111 into the installation cavity 112; the air flow with dust passes through the primary air filter 221 and the high-efficiency air filter 222 in sequence under the action of the centrifugal fan 213; the filtered air flows into the main exhaust pipe through the airflow and is sequentially exhausted to the secondary exhaust pipe through the air pressure effect to blow from the air outlet of the air shower nozzle 234 to the clean room 1. The driving member 2332 is raised and contracted in a small range to drive the connecting frame 2331 to reciprocate in a small range, so that the air shower nozzle 234 is driven to rotate in a small angle, and the spraying range is enlarged. Meanwhile, the controller 4 controls the pulse motor 11112 to drive the rotating disc 11111 to rotate ninety degrees, so that people and objects on the rotating disc 11111 can be fully blown by the air. When the dust concentration detected by the dust detector 32 above the air suction opening is lower than the set normal value, a signal is transmitted to the controller 4, and the controller 4 controls the centrifugal fan 213, the driving member 2332 and the pulse motor 11112 to be automatically turned off.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an energy-saving intermittent type formula blows wind leaching rooms that drenches, includes clean warehouse (1) and sets up wind leaching system (2) in clean warehouse (1), be provided with circulation wind gap (121), its characterized in that in clean warehouse (1): still include induction system (3) and controller (4), induction system (3) including set up in infrared inductor (31) and dust detector (32) in clean storehouse (1), dust detector (32) set up in being close to circulation wind gap (121) one side, controller (4) can receive infrared inductor (31) and dust detector (32)'s sensing signal, and it is right air showers system (2) and controls.

2. The energy-saving intermittent shower air shower according to claim 1, characterized in that: the clean cabin (1) comprises a cabin body (11) and two vertical partition plates (12) arranged in the cabin body (11), the cabin body (11) is divided into a first cavity (1121), a second cavity (1122) and a clean cavity (111) by the two vertical partition plates (12), the first cavity (1121) and the second cavity (1122) are respectively positioned at two sides of the clean cavity (111), the first cavity (1121) and the second cavity (1122) are communicated through a pipeline (1123) to form a mounting cavity (112), the circulating air opening (121) is arranged on one vertical partition plate (12), and the air showering system (2) is arranged in the mounting cavity (112); the air shower system (2) comprises an air suction mechanism (21), a filtering mechanism (22) and a blow shower mechanism (23), wherein the air suction mechanism (21) can suck air in the clean cavity (111) into the installation cavity (112) through a circulating air opening (121); the filtering mechanism (22) is used for filtering the air sucked by the air suction mechanism (21); the blowing and sprinkling mechanism (23) is used for blowing and sprinkling the air filtered by the filtering mechanism (22) into the clean cavity (111).

3. The energy-saving intermittent shower air shower according to claim 2, characterized in that: induced draft mechanism (21) including separating net (211) and centrifugal fan (213), separate net (211) set up in on circulating air port (121), centrifugal fan (213) set up in first cavity (1121) bottom, the inlet scoop orientation of centrifugal fan (213) separate net (211) and set up, centrifugal fan (213) with controller (4) signal connection.

4. The energy-saving intermittent shower air shower according to claim 3, characterized in that: filtering mechanism (22) set up in first cavity (1121), filtering mechanism (22) include primary air cleaner (221) and high efficiency air cleaner (222), primary air cleaner (221) set up in centrifugal fan's (213) air outlet top, and be located separate net (211) top, high efficiency air cleaner (222) set up in primary air cleaner (221) top.

5. The energy-saving intermittent shower air shower according to claim 4, wherein: blow and drench mechanism (23) and include baffle (231), main blast pipe (232), a plurality of wind and drench shower nozzle (234) and branch blast pipe (235), baffle (231) set up in high-efficient air cleaner (222) top, main blast pipe (232) one end is run through baffle (231), and the other end extends to in second cavity (1122), two equal array is provided with on the baffle wind drenches shower nozzle (234), just wind drenches shower nozzle (234) and all passes through branch blast pipe (235) and main blast pipe (232) intercommunication.

6. The energy-saving intermittent shower air shower according to claim 5, characterized in that: the branch air supply pipes (235) adopt flexible pipes, and each air shower nozzle (234) is movably embedded on the corresponding vertical partition plate (12); the shower blowing mechanism (23) further comprises two groups of swing assemblies (233), the two swing assemblies (233) are respectively arranged in the first cavity (1121) and the second cavity (1122), each swing assembly (233) comprises a connecting frame (2331) and a driving piece (2332), each connecting frame (2331) is used for being connected with all shower nozzles (234) on the corresponding partition plate, each driving piece (2332) is used for driving the corresponding connecting frame (2331) to perform linear reciprocating motion, and each driving piece (2332) is in signal connection with the controller (4).

7. The energy-saving intermittent shower air shower according to claim 2, characterized in that: be provided with rotary mechanism (1111) in clean chamber (111), rotary mechanism (1111) include rotating disc (11111) and pulse motor (11112), rotating disc (11111) rotate set up in clean chamber (111) bottom, pulse motor (11112) are used for the drive rotating disc (11111) rotate, pulse motor (11112) with controller (4) signal connection.

8. The energy-saving intermittent shower air shower according to claim 7, wherein: and the rotating disc (11111) is provided with a dust adsorption paste (5).

Images