CN111266366B

CN111266366B - Intelligent high-efficiency constant-temperature air shower

Info

Publication number: CN111266366B
Application number: CN202010091858.9A
Authority: CN
Inventors: 谢燕辉; 成海平
Original assignee: Dongguan Leader Clean Tech Co ltd
Current assignee: Dongguan Leader Clean Tech Co ltd
Priority date: 2020-02-14
Filing date: 2020-02-14
Publication date: 2021-12-10
Anticipated expiration: 2040-02-14
Also published as: CN111266366A

Abstract

The invention provides an intelligent high-efficiency constant-temperature air shower, belonging to the technical field of air showers; the air conditioner comprises a chamber body, an electric control door, a blowing partition plate and an air return partition plate; the blowing partition plate is provided with a plurality of air inlet holes, the return air partition plate is provided with a plurality of return air nets, the air making area is provided with a blowing device, the dust collecting area is provided with a plurality of dust collecting devices, and the blowing device and the dust collecting devices are respectively communicated with the air showering area through the air inlet holes and the return air nets; the device also comprises a controller and a rotating platform which are arranged in the air showering area, and a gravity sensor arranged on the rotating platform; the blowing device comprises a wind showering opening transplanting mechanism which penetrates through the wind inlet and stretches relative to the wind showering opening transplanting mechanism, and the dust collecting device comprises a dust cleaning mechanism which sweeps along the surface of the air return net. The invention has the functions of forcibly and automatically starting the air shower operation, automatically adjusting the reasonable distance between the air outlet and the user, automatically cleaning dust while the air shower and the like, ensures constant temperature when the air shower blows to the user, improves the comfort and ensures ideal air shower effect.

Description

Intelligent high-efficiency constant-temperature air shower

Technical Field

The invention relates to the technical field of air showers, in particular to an intelligent efficient constant-temperature air shower.

Background

The air shower is an indispensable clean corollary device in a modern industrial clean factory building, plays a role in buffering and isolating a clean area and a non-clean area on two sides of the air shower, and is widely applied to the fields of food, medicine, bioengineering, precise electronics and the like. The air shower is a local purifying device with strong universality, and a passage through which people need to pass when entering the clean room; when people or goods enter the clean area, the air shower is needed, the clean air blown out of the air shower can remove the polluted particles and dust carried on the people or goods, and the polluted dust source can be effectively blocked or reduced to enter the clean area.

At present, cold air blowing and showering and manual starting control modes are mostly adopted in air showers, so that the comfort level of a user is extremely low, individual operators can select an escape mode of 'leaving without blowing and showering', and the air cleanliness of a clean area is difficult to guarantee. Moreover, most of the blowing and showering air outlets of the existing air showering chambers are fixedly arranged, and due to different human body shapes (such as adults or children), the distances between the blowing and showering air outlets are different, so that the temperature of blown cold and hot air blown to a user is not uniform and constant enough, the comfort level of the user is not high, and the dust removing effect of blowing and showering is particularly influenced; in addition, the dust on the dust collection net of the air shower room with the existing structure is not timely removed, and the blowing and spraying dust removal effect is also easy to cause and is not ideal.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent high-efficiency constant-temperature air shower which has the functions of forcibly starting air shower operation, automatically adjusting the reasonable distance between an air outlet and a user, automatically cleaning dust while air shower and the like, so that the temperature of air showered by air on the user is constant, the comfort is improved, and the ideal air shower effect is ensured.

The invention provides the following technical scheme, and provides an intelligent high-efficiency constant-temperature air shower which comprises a room body, an electric control door, a blowing partition plate and a return air partition plate, wherein the electric control door is hinged with the front end and the rear end of the room body, and the blowing partition plate and the return air partition plate are arranged in the inner cavity of the room body in parallel and vertically and divide the room body into an air making area, an air shower area and a dust collecting area which are mutually independent; the air shower has the advantages of simple structural design, convenient assembly and low manufacturing cost.

Preferably, a plurality of air inlet holes are formed in the blowing partition plate, a plurality of air return nets are installed on the air return partition plate, a blowing device is arranged in the air generating area, a plurality of dust collecting devices are arranged in the dust collecting area, and the blowing device and the dust collecting devices are respectively communicated with the air showering area through the air inlet holes and the air return nets.

Preferably, the air shower further comprises a controller and a rotating platform which are arranged in the air shower area, and a gravity sensor which is arranged on the rotating platform; the blowing device comprises an air shower opening transplanting mechanism which penetrates through the air inlet and stretches relative to the air inlet, and the dust collecting device comprises a dust cleaning mechanism which sweeps along the surface of the air return net; the electric control door, the rotating platform, the gravity sensor and the air shower port transplanting mechanism are respectively and electrically connected with the controller; gravity sensor perception heavy object feeds back to the controller control the electrically controlled door is tightly closed and the revolving stage is rotatory, drives the wind drenches a mouthful transplanting mechanism and stretches to the heavy object and drenches it with wind, and the dust removal mechanism is driven down by oneself at the return air power and is cleared up the dust on the return air net surface. The structural design enables the air shower chamber to have the functions of forced self-starting air shower operation, automatic adjustment of reasonable distance between the air outlet and a user, automatic dust removal during air shower and the like.

Preferably, the air shower opening transplanting mechanism comprises an air shower pipe which stretches relative to the air inlet hole, a refrigerating and heating assembly arranged at the air inlet end of the air shower pipe, and a supporting assembly which is arranged on the blowing partition plate and drives the refrigerating and heating assembly to move. The air shower opening transplanting mechanism can perform telescopic motion relative to the air blowing partition plate through the structural design.

Preferably, the air outlet end of the air shower pipe is provided with a rotary air port, a temperature sensor and a distance sensor; the temperature sensor and the distance sensor are respectively electrically connected with the controller. The structural design realizes real-time sensing of the distance between the air outlet end of the air shower pipe and a user and monitoring of the temperature during wind.

Preferably, the support assembly comprises a sliding base arranged on the blowing partition plate, a motor arranged on the sliding base and electrically connected with the controller, a transmission gear arranged on an output shaft of the motor, a rack meshed with the transmission gear and a sliding base plate fixedly connected with the rack; the refrigerating and heating assembly is arranged on the sliding base plate. The structural design plays a role in providing power for the synchronous movement of the air shower pipe and the refrigerating and heating assembly.

Preferably, the refrigerating and heating assembly comprises a heat-insulating tube body which is mutually clamped or in threaded connection with the air shower tube, an electric heating net which is arranged in an inner cavity of the heat-insulating tube body and is matched with the heat-insulating tube body, and a semiconductor refrigerating piece which is arranged on the inner wall of the heat-insulating tube body; the electric heating net and the semiconductor refrigeration piece are respectively electrically connected with the controller. The structural design can sense the temperature of the air outlet end of the air shower pipe in real time according to the temperature sensor and feed the temperature back to the controller so as to control the electric heating net or the semiconductor refrigerating sheet to start, and the temperature of the air outlet end of the air shower pipe is in a constant temperature state.

Preferably, the blowing device further comprises a blower electrically connected with the controller, a plenum box connected with the air outlet end of the blower, and a multi-way pipe arranged at the air outlet of the plenum box; an air filter is arranged in the static pressure box, and the shunt pipe openings of the multi-way pipes are respectively communicated with the air shower opening transplanting mechanisms in a one-to-one correspondence mode through guide pipes. The structural design realizes that the air blown into the air shower opening transplanting mechanism is purified air.

Preferably, the dust cleaning mechanism comprises a driving assembly arranged on the return air partition plate, a dust sweeping assembly connected with the driving assembly and a dust collecting assembly arranged on the dust sweeping assembly; sweep grey subassembly warp drive assembly's drive realizes right the dust that the return air was netted is cleared up, and sweeps after the dust passes through dust collection component collects.

Preferably, the dust sweeping assembly comprises a cam connected with the driving assembly, a sliding rod moving relative to the air return partition plate, a roller arranged at one end of the sliding rod and abutted against the side wall of the cam, a piston arranged at the other end of the sliding rod, a closed cylinder for limiting the sliding of the piston, sliding chutes arranged on two sides of the air return net in parallel, a folding air bag arranged between the two sliding chutes, a scraping plate arranged at the bottom end of the folding air bag and a strip-shaped hairbrush arranged on the scraping plate; the piston divides the closed cylinder into a dust suction cavity and an air cavity, the folding air bag is communicated with the air cavity, and the piston is elastically connected with the inner wall of the air cavity through a spring. This structural design is from structural realization to the dust of return air net carries out automatic clearance processing.

Preferably, the driving component comprises an impeller arranged corresponding to the air return net, a follow-up bevel gear coaxially arranged with the impeller head, a transmission bevel gear meshed with the follow-up bevel gear and a connecting rod arranged on the transmission bevel gear and coaxially rotating; the cam is arranged at the other end of the connecting rod. The structural design is structurally not required to be additionally provided with an additional power source, and the structural design is simplified.

Preferably, the dust collection assembly comprises dust collection pipes arranged at two sides of the strip-shaped brush, a plurality of dust collection holes equidistantly arranged on the side wall of the dust collection pipe and a dust collection box; the dust suction cavity is respectively communicated with the dust suction pipe and the dust collection box through a connecting pipe, and a one-way valve is arranged in the connecting pipe. The structural design structurally realizes automatic collection and treatment of dust after sweeping.

Preferably, the top end of the inner cavity of the chamber body is provided with the ultraviolet sterilizing lamp and the ion wind rod; the ultraviolet germicidal lamp and the ion air bar are respectively and electrically connected with the controller. The structural design ensures that the air shower area has the functions of sterilization and static elimination, and the function of the air shower is expanded.

Compared with the existing air shower, the invention has the advantages that:

1. the method comprises the steps that a controller, a rotating platform and a gravity sensor arranged on the rotating platform are arranged in an air showering area; the rotating platform, the gravity sensor and the electric control door are respectively and electrically connected with the controller; when a user stands on the rotary table, the gravity sensor senses a heavy object and feeds the heavy object back to the controller to control the electric control door to be tightly closed and the rotary table to rotate, so that the sealing performance of the chamber body is ensured, the cleaning and the dust leakage prevention are facilitated, in addition, the blowing device can carry out omnibearing air shower on the user, the air shower effect is enhanced, and meanwhile, the escape mode that individual operators select 'leave without blowing shower' is also prevented, and the air cleanliness of a clean area is ensured.

2. The method is characterized in that a temperature sensor and a distance sensor are arranged at the air outlet end of the air shower pipe, so that the distance between the air outlet end of the air shower pipe and a user can be sensed in real time, and the temperature during wind can be monitored; wherein, temperature sensor and distance sensor are connected with the controller electricity respectively. Specifically, the supporting assembly is controlled to drive the air shower pipe and the refrigerating and heating assembly to synchronously move to a preset position under the feedback of the distance sensor, so that the effect of enhancing the air shower effect is achieved; meanwhile, the electric heating net or the semiconductor refrigerating sheet is controlled to be started under the feedback of the temperature sensor, the temperature of the air outlet end of the air shower pipe is a preset constant temperature value, the function of keeping the temperature constant is realized, and the use experience is improved.

3. The adoption is under the effect of return air force, adopts cam slide bar structure drive piston to be reciprocating motion along airtight barrel, and wherein, the piston divide into dust absorption chamber and air cavity with airtight barrel, folding gasbag and air cavity intercommunication, and the inner wall of piston and air cavity passes through spring elastic connection, structural realization aerifys or loses heart folding gasbag, realizes that the strip brush is reciprocating type to be the dust removal operation to the return air net. The structural design I does not need to add a power source, and the air return of the air showering area is utilized for driving, so that the energy is saved, the environment is protected, and the manufacturing cost is reduced; the two are in when blast apparatus divides to drench, realize clearing up the dust on the return air net automatically, prevent that the dust from to the jam of return air net, play and strengthen clear stifled effect and wind drench the effect.

4. The dust suction cavity is respectively communicated with the dust suction pipe and the dust collection box through a connecting pipe, and a one-way valve is arranged in the connecting pipe; the piston divides the sealed cylinder into a dust suction cavity and an air cavity, and the return air force indirectly drives the piston to reciprocate along the sealed cylinder. This structural design realizes carrying out automatic collection to the dust after sweeping and handles, and convenient to use person is to the clearance of dust.

Drawings

FIG. 1 is a simple three-dimensional structure diagram of the intelligent high-efficiency constant-temperature air shower;

FIG. 2 is a front view of the intelligent high-efficiency thermostatic air shower (without an electrically controlled door) according to the present invention;

FIG. 3 is a front view of an air shower transplanting mechanism of the intelligent high-efficiency constant-temperature air shower;

FIG. 4 is a sectional view of an air shower of the intelligent high-efficiency constant-temperature air shower of the present invention;

FIG. 5 is a sectional view of a cooling and heating assembly of the intelligent high-efficiency constant-temperature air shower;

FIG. 6 is a simplified diagram of a dust collecting device of the intelligent high-efficiency constant-temperature air shower;

FIG. 7 is a simplified diagram of a dust collection assembly of the intelligent high-efficiency constant-temperature air shower;

description of reference numerals: 10-chamber body, 11-electric control door, 12-blowing clapboard, 121-air inlet, 13-air return clapboard, 131-air return net, 14-air making area, 15-air shower area, 16-dust collecting area, 17-controller, 18-ultraviolet germicidal lamp, 19-ion air bar, 20-blowing device, 21-air shower transplanting mechanism, 211-air shower pipe, 2111-rotary air outlet, 2112-temperature sensor, 2113-distance sensor, 212-refrigeration and heating assembly, 2121-heat preservation pipe body, 2122-electric heating net, 2123-semiconductor refrigeration piece, 213-support assembly, 2131-sliding base, 2132-motor, 2133-transmission gear, 2134-rack, 2135-sliding base plate, 22-blower, 23-static pressure, 24-multiway tube, 30-dust collector, 31-dust cleaning mechanism, 311-driving assembly, 3111-impeller, 3112-follow-up bevel gear, 3113-drive bevel gear, 3114-connecting rod, 312-dust sweeping assembly, 3121-cam, 3122-sliding rod, 3123-roller, 3124-roller, 3125-sealed cylinder, 3125 a-dust suction cavity, 3125 b-air cavity, 3125 c-spring, 3126-sliding groove, 3127-folding air bag, 3128-scraper blade, 3129-strip brush, 313-dust suction assembly, 3131-dust suction tube, 3132-dust suction hole, 3133-dust collection box, 40-rotating table, 41-gravity sensor.

Detailed Description

In order to make the object, technical solution and technical effect of the present invention more apparent, the present invention will be further described with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, an intelligent high-efficiency constant-temperature air shower comprises a room body 10, an electric control door 11 hinged to the front end and the rear end of the room body, and a blowing partition 12 and a return air partition 13 which are arranged in parallel and vertically in the inner cavity of the room body 10, wherein the blowing partition 12 and the return air partition 13 divide the room body 10 into an air generating area 14, an air shower area 15 and a dust collecting area 16 which are independent of each other. In order to make the air shower have the functions of sterilization, disinfection and static elimination and enhance the cleanness of a cleaning workshop, an ultraviolet germicidal lamp 18 and an ion air rod 19 are arranged at the top end of the inner cavity of the room body 10. In this embodiment, adopt the baffle 12 of blowing and the simple and easy setting of return air baffle 13 for this wind leaching rooms structural design is succinct, the equipment is convenient, low in manufacturing cost.

Furthermore, a plurality of air inlet holes 121 are formed in the blowing partition plate 12, a plurality of air return nets 131 are installed on the air return partition plate 13, the blowing device 20 is arranged in the air generating area 14, and a plurality of dust collecting devices 30 are arranged in the dust collecting area 16. Specifically, the air blowing device 20 is communicated with the air showering area 15 through the air inlet holes 121, so as to provide flowing air required by the air showering effect for the air showering area 15; the dust collecting device 30 is communicated with the air showering area 15 through the air return net 131, so that the dust in the air showering area 15 is collected.

Further, the air shower also comprises a controller 17 and a rotating platform 40 which are arranged in the air shower area 15, and a gravity sensor 41 which is arranged on the rotating platform; preferably, the electronic control door 11, the ultraviolet germicidal lamp 18, the ion wind bar 19 and the rotating table 40 are electrically connected to the controller 17, respectively. Specifically, when a user stands on the rotating table 40, the weight is sensed by the gravity sensor 41 and fed back to the controller 17 to control the electric control door 11 to be tightly closed, so that the sealing performance of the chamber body 10 is ensured, and the cleaning and dust leakage prevention are facilitated; the rotating platform 40 is controlled to rotate, so that the air blowing device 20 can perform omnibearing air showering on a user, the air showering effect is enhanced, and an escape mode of 'leaving without blowing out' is prevented from being selected by an individual operator; the ultraviolet germicidal lamp 18 and the ion air bar 19 are controlled to be started, so that the effects of sterilization, disinfection and static electricity removal are achieved.

Further, the blowing device 20 includes a wind shower transplanting mechanism 21 passing through the wind inlet 121 and extending and contracting relative thereto, and the dust collecting device 30 includes a dust cleaning mechanism 31 sweeping along the surface of the return air net 131; the air shower port transplanting mechanism 21 is electrically connected with the controller 17 respectively. The gravity sensor 41 senses the heavy object and feeds back the heavy object to the controller 17 to control the air shower opening transplanting mechanism 21 to stretch to the heavy object and carry out air shower on the heavy object, meanwhile, the dust cleaning mechanism 31 automatically cleans dust on the surface of the air return net 131 under the driving of the return air force, so that the air shower room can automatically adjust the reasonable distance between an air outlet and a user according to the conditions of different users, automatically clean the dust on the air return net 131 during air shower operation, prevent the dust from being blocked, efficiently realize the air shower effect and ensure the air cleanliness of a clean workshop.

Referring to fig. 3, the air shower port transplanting mechanism 21 includes an air shower pipe 211 extending and contracting with respect to the air inlet hole 121, a cooling and heating assembly 212 disposed at an air inlet end of the air shower pipe, and a supporting assembly 213 disposed on the blowing partition 12 and driving the cooling and heating assembly 212 to move. Specifically, clean air is supplied to the cooling and heating assembly 212 through the blowing device 20, and is heated or cooled to a predetermined temperature, and the air shower pipe 211 and the cooling and heating assembly 212 are driven to perform telescopic motion relative to the blowing partition 121 through the function of the supporting assembly 213, so that the distance between the air shower pipe 211 and a user is adjusted, and a reasonable requirement is met to enhance the air shower effect.

Referring to fig. 4, the air outlet end of the air shower pipe 211 is provided with a rotary air port 2111, a temperature sensor 2112 and a distance sensor 2113. Specifically, the temperature sensor 2112 and the distance sensor 2113 are electrically connected to the controller 17, respectively. By adding the temperature sensor 2112, the temperature of the flowing air blown out from the air shower pipe 211 can be monitored in real time, and the flowing air is fed back to the controller 17, so that the refrigeration and heating assembly 212 is controlled to heat or refrigerate the flowing air, the flowing air meets the process requirement, and the purpose of keeping the temperature is achieved; through the addition of the distance sensor 2113, the real-time distance between a user and the air shower opening transplanting mechanism 21 is fed back to the controller 17, and the supporting component 213 is controlled to drive the air shower pipe 211 and the refrigerating and heating component 212 to perform telescopic motion relative to the air blowing partition plate 12, so that the reasonable distance between the air shower pipe 211 and the user is adjusted, and the purpose of enhancing the air shower effect is achieved.

Referring to fig. 3, the supporting assembly 213 includes a sliding base 2131 disposed on the blowing partition 12, a motor 2132 disposed on the sliding base and electrically connected to the controller 17, a transmission gear 2133 disposed on an output shaft of the motor, a rack 2134 engaged with the transmission gear, and a sliding base 2135 fixedly connected to the rack; the cooling and heating assembly 212 is mounted on the sliding base plate 2135. Specifically, the controller 17 is fed back by the distance sensor 2113 to drive the motor to start 2132, so as to drive the transmission gear 2133 to rotate, and the sliding substrate 2135 moves relative to the sliding base 2131 under the meshing action of the rack 2134, so as to drive the air shower pipe 211 and the refrigeration and heating assembly 212 to move synchronously.

Referring to fig. 5, the cooling and heating assembly 212 includes a heat preservation tube 2121 connected to the air shower 211 in a clamped or threaded manner, an electric heating net 2122 disposed in an inner cavity of the heat preservation tube and adapted to the heat preservation tube, and a semiconductor cooling plate 2123 disposed on an inner wall of the heat preservation tube 2121. Specifically, the electric heating network 2122 and the semiconductor refrigeration sheet 2123 are electrically connected to the controller 17, and sense the temperature of the air outlet end of the air shower 211 in real time according to the temperature sensor 2112, and feed back the temperature to the controller 17, so as to control the electric heating network 2122 or the semiconductor refrigeration sheet 2123 to start, thereby maintaining the flowing air temperature at the air outlet end of the air shower 211 at a preset constant temperature state.

Referring to fig. 2, the blowing device 20 further includes a blower 22 electrically connected to the controller 17, a plenum box 23 connected to an air outlet end of the blower, and a multi-pass tube 24 disposed at an air outlet of the plenum box. Preferably, an air filter is arranged in the static pressure box 23, the shunt pipe openings of the multi-way pipe 24 are respectively communicated with the air shower port transplanting mechanisms 21 in a one-to-one correspondence mode through guide pipes, so that the air is blown in by the air blower 22, flowing air is filtered by the primary filter and the high-efficiency filter, and the purified air is blown into the air shower port transplanting mechanisms 21.

Referring to fig. 6, the dust removing mechanism 31 includes a driving assembly 311 disposed on the return air partition 13, a dust removing assembly 312 connected to the driving assembly, and a dust collecting assembly 313 disposed on the dust removing assembly. Specifically, under the action of the return air force, the driving assembly 311 drives the dust sweeping assembly 312 to clean the dust on the return air net 131, and the dust after sweeping is collected through the dust collecting assembly 313, so that the automatic dust cleaning operation and the automatic dust collecting operation are realized.

Further, the dust sweeping assembly 312 comprises a cam 3121 connected to the driving assembly 311, a sliding rod 3122 moving relative to the return air partition 13, a roller 3123 disposed at one end of the sliding rod 3122 and abutting against a side wall of the cam 3121, a piston 3124 disposed at the other end of the sliding rod 3122, a sealed cylinder 3124 for limiting sliding of the piston, sliding chutes 3126 disposed at two sides of the return air net 131 in parallel, a folded air bag 3127 disposed between the two sliding chutes, a scraping plate 3128 disposed at a bottom end of the folded air bag, and a strip brush 3129 disposed on the scraping plate; the piston 3124 divides the sealed cylinder 3125 into a dust suction chamber 3125a and an air chamber 3125b, the folding air bag 3127 is communicated with the air chamber 3125b, and the piston 3124 is elastically connected with the inner wall of the air chamber 3125b by a spring 3125 c. Specifically, the driving assembly 311 drives the cam 3131 to rotate, so as to drive the sliding rod 3122 to drive the piston 3124 to reciprocate along the sealed cylinder 3125, when the piston 3124 compresses or releases the air in the air chamber 3125b, the folded air bag 3127 is opened or retracted, so as to drive the strip brush 3129 to reciprocate along the air return net 131, so as to automatically clean up dust on the air return net 131, prevent the dust from blocking the air return net 131, and achieve the enhanced blockage removing effect and the enhanced air shower effect.

Further, the driving assembly 311 includes an impeller 3111 disposed corresponding to the air return net 131, a following bevel gear 3112 disposed coaxially with the impeller head, a transmission bevel gear 3113 engaged with the following bevel gear, and a connecting rod 3114 disposed coaxially with the transmission bevel gear for rotation; the cam 3111 is provided at the other end of the link 3114. Specifically, the impeller 3111 drives the impeller 3111 to rotate under the action of the return air, and the connecting rod 3114 is driven to rotate through the meshing action of the follow-up bevel gear 3112 and the transmission bevel gear 3113, so that the cam 3131 is driven to rotate synchronously, a power source is not required to be added, the return air in the air showering area 15 is used for driving, energy is saved, the environment is protected, and the manufacturing cost is reduced.

Referring to fig. 7, the dust suction assembly 313 includes a dust suction pipe 3131 disposed at both sides of the strip brush 3129, a plurality of dust suction holes 3132 equidistantly formed at a side wall of the dust suction pipe, and a dust collection box 3133; the dust suction cavity 3124a is respectively communicated with the dust suction pipe 3131 and the dust collection box 3133 through a connection pipe, and a one-way valve is arranged in the connection pipe. In this embodiment, the dust suction cavity 3124a is respectively communicated with the dust suction pipe 3131 and the dust collection box 3133 through a connection pipe, and a one-way valve is arranged in the connection pipe, so that the piston 3124 is indirectly driven by the return air force to reciprocate along the sealed cylinder 3125, thereby realizing automatic collection and processing of dust after sweeping, and facilitating the cleaning of dust by a user.

The working principle of the invention is as follows: when a user stands on the rotating platform 40, the gravity sensor 41 senses a heavy object and feeds the heavy object back to the controller 17 to control the electric control door 11 to be tightly closed, the rotating platform 40 to rotate, and the ultraviolet sterilizing lamp 18 and the ion air bar 19 to be opened; at this time, the temperature sensor 2112 monitors the temperature of the flowing air blown out from the air shower pipe 211 in real time, feeds the temperature back to the controller 17, and controls the refrigerating and heating component 212 to heat or refrigerate the flowing air to achieve the purpose of keeping the temperature constant; meanwhile, the distance sensor 2123 feeds back the real-time distance between the user and the air shower port transplanting mechanism 21 to the controller 17, and controls the supporting assembly 213 to drive the air shower pipe 211 and the refrigerating and heating assembly 212 to perform telescopic motion relative to the blowing partition 12, so as to realize reasonable adjustment of the distance between the air shower pipe 211 and the user; constant-temperature flowing air drenches a user in a rotating state, the air drenched return force enters the dust collecting device 30 through the air return net 131, the impeller 3111 drives the impeller 3111 to rotate under the action of the return force, the connecting rod 3114 is driven to rotate through the meshing action of the follow-up bevel gear 3112 and the transmission bevel gear 3113 so as to drive the cam 3121 to synchronously rotate, the sliding rod 3122 is driven to drive the piston 3124 to reciprocate along the closed cylinder 3125, and when the piston 3124 compresses or releases air in the air cavity 3124b, the folding air bag 3127 is opened or retracted to drive the strip brush 3129 to reciprocate along the air return net 131 so as to automatically clean dust on the air return net 131; meanwhile, the piston 3124 reciprocates along the sealed cylinder 3125, so that the dust enters the dust suction pipe 3131 through the dust suction hole 3132, and then enters the dust collection box 3133 to automatically collect and process the dust after sweeping.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the present invention pertains, the architecture form can be flexible and varied without departing from the concept of the present invention, and a series of products can be derived. But rather a number of simple derivations or substitutions are made which are to be considered as falling within the scope of the invention as defined by the appended claims.

Claims

1. An intelligent high-efficiency constant-temperature air shower comprises a shower body, an electric control door hinged with the front end and the rear end of the shower body, and a blowing partition plate and a return air partition plate which are parallel to each other and vertically arranged in an inner cavity of the shower body, wherein the blowing partition plate and the return air partition plate divide the shower body into a wind making area, an air shower area and a dust collecting area which are mutually independent; the air blowing partition plate is provided with a plurality of air inlet holes, the air return partition plate is provided with a plurality of air return nets, the air making area is provided with an air blowing device, the dust collecting area is provided with a plurality of dust collecting devices, and the air blowing device and the dust collecting devices are respectively communicated with the air showering area through the air inlet holes and the air return nets; the method is characterized in that: the air shower system also comprises a controller and a rotating platform which are arranged in the air shower area, and a gravity sensor arranged on the rotating platform; the blowing device comprises an air shower opening transplanting mechanism which penetrates through the air inlet hole and stretches relative to the air inlet hole, and the dust collecting device comprises a dust cleaning mechanism which sweeps along the surface of the air return net; the electric control door, the rotating platform, the gravity sensor and the air shower port transplanting mechanism are respectively and electrically connected with the controller; the gravity sensor senses a heavy object, feeds the heavy object back to the controller to control the electric control door to be tightly closed and the rotating table to rotate, drives the air shower opening transplanting mechanism to stretch to the heavy object and carry out air shower on the heavy object, and the dust cleaning mechanism automatically cleans dust on the surface of the air return net under the driving of the return air force; the air shower opening transplanting mechanism comprises an air shower pipe which stretches relative to the air inlet hole, a refrigerating and heating assembly arranged at the air inlet end of the air shower pipe and a supporting assembly which is arranged on the blowing partition plate and drives the refrigerating and heating assembly to move; the air outlet end of the air shower pipe is provided with a rotary air port, a temperature sensor and a distance sensor; the temperature sensor and the distance sensor are respectively electrically connected with the controller; the supporting assembly comprises a sliding base arranged on the blowing partition plate, a motor arranged on the sliding base and electrically connected with the controller, a transmission gear arranged on an output shaft of the motor, a rack meshed with the transmission gear and a sliding base plate fixedly connected with the rack; the refrigerating and heating assembly is arranged on the sliding base plate.

2. The intelligent high-efficiency thermostatic air shower according to claim 1, wherein: the refrigerating and heating assembly comprises a heat-insulating pipe body which is mutually clamped or in threaded connection with the air shower pipe, an electric heating net which is arranged in an inner cavity of the heat-insulating pipe body and is matched with the heat-insulating pipe body, and a semiconductor refrigerating piece which is arranged on the inner wall of the heat-insulating pipe body; the electric heating net and the semiconductor refrigeration piece are respectively electrically connected with the controller.

3. The intelligent high-efficiency thermostatic air shower according to claim 1, wherein: the blowing device also comprises a blower electrically connected with the controller, a static pressure box connected with the air outlet end of the blower, and a multi-way pipe arranged at the air outlet of the static pressure box; an air filter is arranged in the static pressure box, and the shunt pipe openings of the multi-way pipes are respectively communicated with the air shower opening transplanting mechanisms in a one-to-one correspondence mode through guide pipes.

4. The intelligent high-efficiency thermostatic air shower according to claim 1, wherein: the dust cleaning mechanism comprises a driving assembly arranged on the air return partition plate, a dust sweeping assembly connected with the driving assembly and a dust collecting assembly arranged on the dust sweeping assembly;

the ash sweeping assembly comprises a cam connected with the driving assembly, a sliding rod moving relative to the air return partition plate, a roller arranged at one end of the sliding rod and abutted against the side wall of the cam, a piston arranged at the other end of the sliding rod, a closed cylinder for limiting the sliding of the piston, sliding grooves arranged on two sides of the air return net in parallel, a folding air bag arranged between the two sliding grooves, a scraping plate arranged at the bottom end of the folding air bag and a strip-shaped hairbrush arranged on the scraping plate; the piston divides the closed cylinder into a dust suction cavity and an air cavity, the folding air bag is communicated with the air cavity, and the piston is elastically connected with the inner wall of the air cavity through a spring.

5. The intelligent high-efficiency thermostatic air shower according to claim 4, wherein: the driving component comprises an impeller arranged corresponding to the air return net, a follow-up bevel gear coaxially arranged with the impeller, a transmission bevel gear meshed with the follow-up bevel gear and a connecting rod arranged on the transmission bevel gear and coaxially rotating; the cam is arranged at the other end of the connecting rod.

6. The intelligent high-efficiency thermostatic air shower according to claim 4, wherein: the dust collection assembly comprises dust collection pipes arranged on two sides of the strip-shaped hairbrush, a plurality of dust collection holes arranged on the side wall of the dust collection pipe at equal intervals and a dust collection box; the dust suction cavity is respectively communicated with the dust suction pipe and the dust collection box through a connecting pipe, and a one-way valve is arranged in the connecting pipe.

7. The intelligent high-efficiency thermostatic air shower according to claim 1, wherein: the top end of the inner cavity of the chamber body is provided with an ultraviolet germicidal lamp and an ion air bar; the ultraviolet germicidal lamp and the ion air bar are respectively and electrically connected with the controller.