CN112023205B - Rotary impact type constant-temperature atomization physical therapy device and use method thereof - Google Patents

Abstract

The invention discloses a rotary impact type constant-temperature atomization physiotherapy device and a use method thereof.A direct-current switch power supply is electrically connected with an intelligent adjusting system, the intelligent adjusting system which is arranged on a rack is electrically connected with a rotary impact type atomization system, a circulating ventilation system and a liquid circulating system, the intelligent adjusting system detects the indoor temperature of a fog chamber and an air chamber in real time through a temperature measuring device and intelligently adjusts the indoor temperature through a heating device, the intelligent adjusting system intelligently controls the liquid circulating system to supply water to the rotary impact type atomization system and controls the rotary impact type atomization system to atomize liquid sprayed into the fog chamber and blow the liquid into a working chamber through the circulating ventilation system, and the rotary impact type atomization system is intelligently operated, efficient and labor-saving. The invention adopts the circulating ventilation system to convey the atomized particles, can save water and electric energy, can realize circulating atomization by adopting the liquid circulating system, adopts the turbine mechanism to atomize liquid, has small noise, large fog amount, high concentration and high atomization efficiency, is suitable for multiple fields of physical therapy, sauna and the like, and has wide application range.

Description

Rotary impact type constant-temperature atomization physical therapy device and use method thereof

Technical Field

The invention belongs to the technical field of atomization equipment, and particularly relates to a rotary impact type constant-temperature atomization physical therapy device and a using method thereof.

Background

The atomizer can convert the liquid medicine into atomized particles, so that the atomized medicine can be directly adsorbed to the oral cavity, throat, trachea and the like of a patient after the patient inhales the medicine mist, and then the atomized medicine is absorbed by the mucosa of the patient to achieve more effective and rapid treatment, thereby becoming an important medical appliance for treating respiratory diseases. Different medicines are known to have different suitable administration temperatures or brewing temperatures, and improper temperatures may reduce the efficacy of the medicines. Most of the existing medical atomizers have no temperature regulation and control function, which greatly limits the types of the medicines which can be atomized; some atomizers capable of temperature adjustment, such as a medical atomization particle constant temperature adjustment type atomizer (application number: 201520934236.2), can perform constant temperature adjustment on atomization particles through a heating device, but the atomizer adopts compressed air, has large noise, small fog amount and low concentration, cannot circulate air, wastes liquid medicine, and is only used for medical use and has small application range.

Disclosure of Invention

The ultrasonic atomization device intelligently controls a heating device to adjust the temperature of atomized particles through an intelligent adjusting system, intelligently controls a liquid circulating system to convey liquid, intelligently controls the rotary impact type atomization system to atomize the liquid, and intelligently controls a circulating ventilation system to convey the atomized particles to a working chamber.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows: the utility model provides a rotatory impacted style constant temperature atomization physical therapy equipment, the studio comprises a studio, rotatory impacted style atomizing system, circulation ventilation system, liquid circulation system, intelligent regulation system and DC switch power supply, DC switch power supply electric connection intelligent regulation system, intelligent regulation system electric connection rotatory impacted style atomizing system, circulation ventilation system and liquid circulation system, rotatory impacted style atomizing system, circulation ventilation system, liquid circulation system and intelligent regulation system are all installed in the frame, rotatory impacted style atomizing system and circulation ventilation system are equipped with fog room and air chamber respectively, the indoor temperature of intelligent regulation system through temperature measuring device real-time detection fog room and air chamber, and the indoor temperature through heating device intelligent regulation fog room and air chamber, the rotatory impacted style atomizing system of intelligent regulation system intelligent control liquid circulation system water supply, and control rotatory impacted style atomizing system will spout the liquid atomization in the fog room and blow into the studio through circulation ventilation system and blow in the studio .

Further, the studio is the bottomless casing, but the universal wheel of locking is installed to the bottom four corners department of bottomless casing, the side of bottomless casing articulates there is the studio door.

Further, the heating device comprises a fog chamber electric heating tube and an air chamber electric heating tube, the fog chamber electric heating tube and the air chamber electric heating tube are respectively fixed in the fog chamber and the air chamber through PC joints, and the fog chamber and the air chamber are correspondingly provided with air guide holes through adjacent side plates and are communicated in an air flow mode.

Furthermore, the intelligent adjusting system is a touch screen PLC all-in-one machine, temperature parameters of a touch button, a fog chamber and an air chamber are arranged on a touch screen of the touch screen PLC all-in-one machine, wherein the temperature parameters of the fog chamber comprise an actual temperature t_qrTarget temperature t_qdAnd the deviation temperature delta 1, the temperature parameter of the gas chamber comprises the actual temperature t_wrTarget temperature t_wdAnd the deviation temperature delta 2, the touch-sensitive screen PLC all-in-one is first solid state relay, second solid state relay and third solid state relay of electric connection respectively, first solid state relay electric connection fog room electrothermal tube, second solid state relay electric connection air chamber electrothermal tube, first AC speed regulator, second AC speed regulator and DC speed regulator of third solid state relay electric connection, rotatory impact type atomizing system is connected in the drive of first AC speed regulator, circulating ventilation system is connected in the drive of second AC speed regulator, liquid circulation system is connected in the drive of DC speed regulator.

Further, liquid circulation system includes water tank and direct current water pump, direct current water pump is connected to the water tank delivery port, direct current water pump passes through the inlet tube and inserts fog chamber, direct current speed regulator electric connection direct current water pump to drive control direct current water pump spouts the interior liquid of water tank into fog chamber through the inlet tube, fog chamber and air chamber pass through two water inlets of outlet pipe connection water tank respectively, the water tank is arranged in on the frame of fog chamber and air chamber below.

Further, rotatory impact atomizing system includes fog chamber and turbo mechanism, first AC speed regulator electric connection turbo mechanism to drive control turbo mechanism smashes the liquid rotation that spouts into the fog chamber into fog, the upper shed department lid of fog chamber is equipped with fog chamber apron, the switch-on has a fog pipe on the fog chamber apron, the side face of working chamber is worn to establish by the play fog pipe end lets in the working chamber.

Further, the turbine mechanism comprises a long shaft motor and a rotor, the rotor comprises a rotor sleeve, a threaded hole plate, a breaking long screw and a fixing screw, a through hole is formed in a bottom plate of the fog chamber, the shaft sleeve is vertically sleeved in the through hole and is flush with the bottom surface of the fog chamber, the rotor sleeve is sleeved on the outer side of the shaft sleeve and is rotatably connected with the bottom surface of the fog chamber, a machine body of the long shaft motor is fixed at the bottom of the fog chamber, an output shaft of the long shaft motor extends upwards along the shaft sleeve, the upper end of the output shaft of the long shaft motor is fixed at the upper part of the rotor sleeve, the threaded hole plate is horizontally fixed at the top of the rotor sleeve through the fixing screw, 1-3 circles of threaded holes are formed in the threaded hole plate, the breaking long screw is locked on the threaded hole plate in a threaded manner and vertically falls on the outer side of the rotor sleeve, and the first alternating current speed regulator is electrically connected with the long shaft motor, the drive control long shaft motor drives the rotor to rotate synchronously, and the water inlet pipe in the fog chamber is aligned with the rotor.

Further, the rotor sleeve comprises an upper opening cylinder A and an upper and lower through cylinder B, the inner diameter of the upper opening cylinder A is not smaller than the outer diameter of the upper and lower through cylinder B, the upper opening cylinder A is integrally connected with the top of the upper and lower through cylinder B, a fixing hole is formed in the center of the bottom of the upper opening cylinder A, an output shaft of the long shaft motor extends upwards along the shaft cylinder, the upper end of the output shaft of the long shaft motor is fixed in the fixing hole, the upper and lower through cylinder B is sleeved on the outer side of the shaft cylinder, and the upper and lower through cylinder B is higher than the shaft cylinder.

Further, circulation ventilation system includes air chamber and air-blower, second AC speed regulator electric connection air-blower, the upper shed department lid of air chamber is equipped with air chamber apron, the air outlet end locking of air-blower is fixed on upper shed apron, and the air-blower air outlet aims at the ventilation hole of upper shed apron, the air intake end of air-blower passes through air-blower switching mouth and connects the muffler, the side face of studio is worn to establish by the muffler end, lets in the studio, and the inside muffler of studio is located a fog pipe below.

The invention also provides a using method of the rotary impact type constant-temperature atomization physical therapy instrument, which comprises the following steps:

s1, turning on the direct current switch power supply, enabling the intelligent adjusting system to be in a starting state, and setting the target temperature t through the touch screen of the intelligent adjusting system by a user according to requirements_qdAnd the deviation temperature delta 1, and the temperature measuring device detects the indoor actual temperature t of the fog chamber and the air chamber in real time_qrAnd transmitting to an intelligent adjusting system;

s2, after temperature parameters of the fog chamber and the air chamber are set, clicking a touch button, enabling the equipment to enter a preheating state, controlling the electrothermal tube of the fog chamber to start heating through a first solid-state relay and controlling the electrothermal tube of the air chamber to start heating through a second solid-state relay by the intelligent adjusting system;

s3 actual temperature t of mist chamber_qrIs adjusted to t_qd- Δ 1 to t_qd+ Δ 1 while the actual temperature t of the chamber_wrIs adjusted to t_wd- Δ 2 to t_wdWhen the temperature is within + delta 2, the equipment enters a working state, the intelligent adjusting system controls the direct-current water pump to spray liquid in the water tank to the rotor through the water inlet pipe through a third solid-state relay, the direct-current speed regulator is used for adjusting the rotating speed of the direct-current water pump, meanwhile, the intelligent adjusting system drives the long-axis motor to start through the third solid-state relay and drives the rotor to synchronously rotate so as to break the liquid into mist by rotating, the first alternating-current speed regulator is used for adjusting the rotating speed of the long-axis motor, the intelligent adjusting system controls the air blower to start and blow air into the air chamber through the third solid-state relay, the second alternating-current speed regulator is used for adjusting the rotating speed of the air blower, the air flow is blown to the mist chamber from the air chamber through the air guide holes, and finally the mist is blown into the working chamber through the mist outlet pipe;

s4, clicking the touch button again, enabling the equipment to return to a starting state, controlling the electric heating tube of the fog chamber to stop heating through the first solid-state relay, controlling the electric heating tube of the air chamber to stop heating through the second solid-state relay, and controlling the direct-current water pump, the long-axis motor and the blower to stop working through the third solid-state relay by the intelligent adjusting system;

s5, turning off the direct current switch power supply, and stopping working of the whole equipment of the rotary impact type constant temperature atomization physical therapy device.

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

1) the intelligent adjusting system of the invention intelligently controls the electric heating tube of the fog chamber and the electric heating tube of the air chamber to respectively heat the fog chamber and the air chamber through the first solid-state relay and the second solid-state relay, controls the indoor temperature of the fog chamber and the air chamber to reach the target temperature through PID, improves the safety and prolongs the service life of equipment, controls the rotary impact type atomizing system, the circulating ventilation system and the liquid circulating system to start and work through the third solid-state relay after the indoor temperature of the fog chamber and the air chamber reaches the target temperature, respectively adjusts the rotating speed of a rotor, the gas flow and the liquid flow through the first alternating current speed regulator, the second alternating current speed regulator and the direct current speed regulator, further controls the rotary impact type atomizing system to supply water to the rotary impact type atomizing system through the third solid-state relay, controls the rotary impact type atomizing system to atomize the liquid sprayed into the fog chamber and finally blows into the working chamber through the circulating ventilation system, the liquid atomization device has the advantages that the liquid atomization efficiency can be adjusted, the atomization temperature can be adjusted and maintained, the flow of atomized particles introduced into a working chamber can be adjusted, the requirements of users in various aspects are met, the atomization efficiency is high, the liquid atomization device is suitable for multiple fields such as physical therapy, home sauna and the like, and the application range is wide;

2) the rotary impact type atomization system provided by the invention adopts the high-speed rotation of the rotor of the turbine mechanism to break liquid into atomized particles, the noise is low, the water atomization is taken as an example, the actual measurement temperature is 40 ℃, the humidity reaches 97%, 500ml of water is completely atomized for only 30min, the atomization amount is large, the concentration is high, and the atomization efficiency is high;

3) the liquid circulating system of the invention controls the direct current water pump to spray the liquid in the water tank with a certain flow rate to the rotor of the rotary impact type atomizing system through the direct current speed regulator, the flow rate liquid is matched with the rotation speed regulation of the rotor, the regulation of the liquid atomizing amount can be realized, the concentration of atomized particles is improved, and the bottoms of the fog chamber and the air chamber are respectively connected with the water tank through the water outlet pipe, so that the liquid which is not atomized in the fog chamber and the air chamber can flow downwards into the water tank through the water outlet pipe, the circulating atomization of the liquid is realized, or the waste of resources such as liquid medicine is avoided;

4) the circulating ventilation system of the invention blows atomized particles into the working chamber through the blower, the air inlet of the blower is connected into the working chamber through the air return pipe, the blower can be ensured to extract damp and hot air in the working chamber to form circulation, water and electric energy are saved, and the air return pipe in the working chamber is positioned below the fog outlet pipe, so that the blower can be ensured to preferentially extract cold air below the inner part of the working chamber, and the working chamber can maintain good humidity and temperature.

Drawings

FIG. 1 is a schematic view of the overall structure of the rotary impact type constant temperature atomization physiotherapy apparatus of the present invention;

FIG. 2 is a rear side view of FIG. 1;

FIG. 3 is a front bottom view of FIG. 1;

FIG. 4 is a schematic view of the right side of the working chamber of FIG. 1;

FIG. 5 is a partial schematic view of the rotary impingement atomization system of FIG. 4;

FIG. 6 is a schematic view of the mist and air chambers of FIG. 4 shown in a disassembled configuration;

FIG. 7 is a schematic view of the turbine configuration of FIG. 6;

FIG. 8 is a discrete view of the turbine of FIG. 7;

FIG. 9 is a schematic view of the mist and gas chamber configuration of FIG. 5;

FIG. 10 is a longitudinal cross-sectional view of the mist and air chambers of FIG. 9;

FIG. 11 is a longitudinal sectional view of the mist chamber and the turbine mechanism of FIG. 9 in an assembled state;

FIG. 12 is a circuit diagram of the rotary impact type constant temperature atomization physiotherapy apparatus of the present invention;

FIG. 13 is a diagram of the smart adjustment system work interface of the present invention.

Wherein the reference numerals are: the device comprises a working chamber 1, a lockable universal wheel 1-1, a working chamber door 1-2, an intelligent adjusting system 2, a direct current switch power supply 3, a frame 4, a fog chamber 5-1, a shaft cylinder 5-11, an upper fog chamber cover plate 5-2, a fog outlet pipe 5-3, a long shaft motor 5-4, a rotor 5-5, a rotor sleeve 5-51, a threaded hole plate 5-52, a breaking long screw 5-53, a fixing screw 5-54, an air chamber 6-1, an air blower 6-2, an upper air chamber cover plate 6-3, an air blower adapter 6-4, an air return pipe 6-5, a temperature measuring device 7, a fog chamber electric heating pipe 8-1, an air chamber electric heating pipe 8-2, a first solid state relay 9, a second solid state relay 10, a third solid state relay 11, a first alternating current speed regulator 12, a second alternating current speed regulator 13, The device comprises a direct current speed regulator 14, a water tank 15-1, a direct current water pump 15-2, a water inlet pipe 15-3 and a water outlet pipe 15-4.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

Embodiments 1 to 13 show that the invention relates to a rotary impact type constant temperature atomization physical therapy apparatus, which comprises a working chamber 1, a rotary impact type atomization system, a circulating ventilation system, a liquid circulation system, an intelligent adjustment system 2 and a direct current switch power supply 3, wherein the working chamber 1 is a square shell made of aluminum profile materials without bottom, lockable universal wheels 1-1 are arranged at four corners of the bottom of the square shell, one side surface of the square shell is hinged with a working chamber door 1-2, the square shell is supported on the ground and moves through the lockable universal wheels 1-1 and ventilates through a gap between the bottom of the square shell and the ground, so as to avoid safety accidents caused by completely blocked indoor airflow when the working chamber door 1-2 is closed, the commercial power supply direct current switch power supply 3 is electrically connected with the intelligent adjustment system 2, the intelligent adjustment system 2 is electrically connected with the rotary impact type atomization system, the circulating ventilation system and the liquid circulation system, the rotary impact type atomization system, the circulating ventilation system, the liquid circulation system and the intelligent adjusting system 2 are all arranged on a frame 4, universal wheels with brakes are arranged at the bottom of the frame 4, the rotary impact type atomization system and the circulating ventilation system are respectively provided with a fog chamber 5-1 and an air chamber 6-1, a temperature measuring device 7 selects a temperature sensor, is respectively arranged in the fog chamber 5-1 and the air chamber 6-1 and is respectively and electrically connected with the intelligent adjusting system 2, the temperature control system is used for detecting indoor temperatures of the fog chamber 5-1 and the air chamber 6-1 in real time and transmitting the indoor temperatures to the intelligent adjusting system 2, the intelligent adjusting system 2 adopts a touch screen PLC all-in-one machine, a touch button and temperature parameters of the fog chamber 5-1 and the air chamber 6-1 are arranged on a touch screen of the touch screen PLC all-in-one machine, and the temperature parameter of the fog chamber 5-1 comprises an actual temperature t._qrTarget temperature t_qdAnd the deviation temperature Delta 1, the temperature parameter of the gas chamber 6-1 comprises the actual temperature t_wrTarget temperature t_wdAnd the deviation temperature delta 2, the intelligent adjusting system 2 displays the temperature measuring device 7 through the touch screenActual temperature t of mist chamber 5-1 of the transport_qrAnd the actual temperature t of the gas chamber 6-1_wrThe heating device comprises a fog chamber electric heating tube 8-1 and an air chamber electric heating tube 8-2, the fog chamber electric heating tube 8-1 and the air chamber electric heating tube 8-2 are 220V double U-shaped stainless steel dry-burning heating tubes, the two fog chamber electric heating tubes 8-1 and the two air chamber electric heating tubes 8-2 are respectively fixed in a fog chamber 5-1 and an air chamber 6-1 through PC joints, the fog chamber 5-1 and the air chamber 6-1 are correspondingly provided with air guide holes through adjacent side plates for air flow communication, the Y0 end of the touch screen PLC all-in-one machine is electrically connected with a first solid state relay 9, the first solid state relay 9 is electrically connected with the fog chamber electric heating tube 8-1, the touch screen PLC all-in-one machine controls the heating work of the fog chamber electric heating tube 8-1 through the first solid state relay 9 to adjust the indoor temperature of the fog chamber 5-1, the Y1 end of the touch screen PLC all-in-one machine is connected with a second solid state relay 10, the second solid state relay 10 is connected with an air chamber electric heating tube 8-2, the touch screen PLC all-in-one machine controls the heating work of the air chamber electric heating tube 8-2 through the second solid state relay 10 to adjust the indoor temperature of the air chamber 6-1, the touch screen PLC all-in-one machine controls the indoor temperatures of the fog chamber 5-1 and the air chamber 6-1 to reach the target temperature through PID, the Y2 end (closed in the conventional state and opened only in the working state) of the touch screen PLC all-in-one machine is connected with a third solid state relay 11, the third solid state relay 11 is electrically connected with a first alternating current speed regulator 12, a second alternating current speed regulator 13 and a direct current speed regulator 14, the first alternating current speed regulator 12 is in driving connection with a rotary impact type atomizing system, the second alternating current speed regulator 13 is in driving connection with a circulating ventilation system, the direct current speed regulator 14 is in driving connection with a liquid circulation system, the intelligent adjusting system 2 intelligently controls the liquid circulation system through the third solid state relay 11 to supply water to the rotary impact type atomizing system, and controlling the rotary impact type atomization system to atomize the liquid sprayed into the fog chamber 5-1 and blow the liquid into the working chamber 1 through the circulating ventilation system.

As shown in figures 1 and 7-11, the rotary impact type atomization system comprises a fog chamber 5-1 and a turbine mechanism, wherein an upper fog chamber cover plate 5-2 is installed at the upper opening of the fog chamber 5-1 through a screw, a fog outlet pipe 5-3 is communicated with the upper fog chamber cover plate 5-2, the fog outlet pipe 5-3 is made of a PVC aluminum foil pipe, the tail end of the fog outlet pipe 5-3 penetrates through one side plate surface of a working chamber 1 and is communicated into the working chamber 1, the turbine mechanism comprises a long shaft motor 5-4 and a rotor 5-5, the rotor 5-5 comprises a rotor sleeve 5-51, a threaded hole plate 5-52, a broken long screw 5-53 and a fixing screw 5-54, a through hole is formed in the bottom plate of the fog chamber 5-1, a shaft 5-11 is vertically sleeved in the through hole, and the shaft 5-11 is flush with the bottom surface of the fog chamber 5-1, a rotor sleeve 5-51 is sleeved outside the shaft tube 5-11 and rotatably connected with the bottom surface of the fog chamber 5-1, the body of a long shaft motor 5-4 is fixed at the bottom of the fog chamber 5-1, the output shaft of the long shaft motor 5-4 extends upwards along the shaft tube 5-11, the upper end of the output shaft of the long shaft motor 5-4 is fixed at the upper part of the rotor sleeve 5-51, a threaded pore plate 5-52 is horizontally fixed at the top of the rotor sleeve 5-51 through a fixing screw 5-54, 1-3 circles of threaded holes are formed in the threaded pore plate 5-52, a crushing long screw 5-53 is in threaded locking on the threaded hole of the threaded pore plate 5-52 and vertically falls outside the rotor sleeve 5-51, a first alternating current speed regulator 12 is electrically connected with the long shaft motor 5-4, and an intelligent adjusting system 2 drives and controls the long shaft motor 5-4 to drive the rotor 5-5 through a third solid relay 11 The rotation is synchronous, the rotation speed of the long shaft motor 5-4 is adjusted through the first AC speed regulator 12, and the rotation speed of the rotor 5-5 is adjusted, so that the rotor 5-5 can ensure that the liquid sprayed into the fog chamber 5-1 is rotationally broken into fog with certain rotational impact force.

Further, as shown in fig. 8, the rotor sleeve 5-51 comprises an upper opening cylinder a and an upper and lower through cylinder B, the inner diameter of the upper opening cylinder a is not smaller than the outer diameter of the upper and lower through cylinder B, the upper opening cylinder a is integrally connected to the top of the upper and lower through cylinder B, a fixing hole is arranged at the center of the bottom of the upper opening cylinder a, the output shaft of the long shaft motor 5-4 extends upwards along the shaft cylinder 5-11, the upper end of the output shaft of the long shaft motor 5-4 is fixed in the fixing hole, the upper and lower through cylinder B is sleeved outside the shaft cylinder 5-11, the upper and lower through cylinder B is higher than the shaft cylinder 5-11, the design can ensure that the liquid sprayed into the mist chamber 5-1 can not flow downwards to the long shaft motor 5-4, can only flow into the mist chamber 5-1 or be thrown into the gas chamber 6-1, and flows backwards to the water tank 15-1 through the water outlet pipe 15-4, and circulating atomization is realized, 3 circles of threaded holes are formed in the threaded hole plates 5-52, and the length of the threaded rod of the crushing long screw 5-53 is 20-100 mm.

As shown in figures 4-6, the liquid circulation system comprises a water tank 15-1 and a direct-current water pump 15-2, a water outlet of the water tank 15-1 is connected with the direct-current water pump 15-2, the direct-current water pump 15-2 is connected into a fog chamber 5-1 through a water inlet pipe 15-3, a direct-current speed regulator 14 is electrically connected with the direct-current water pump 15-2 and drives and controls the direct-current water pump 15-2 to spray liquid in the water tank 15-1 into the fog chamber 5-1 through the water inlet pipe 15-3, the water inlet pipe 15-3 in the fog chamber 5-1 is aligned with a rotor 5-5, so that the liquid is directly sprayed to the rotor 5-5, the atomization efficiency is improved, the fog chamber 5-1 and an air chamber 6-1 are respectively connected with two water inlets of the water tank 15-1 through a water outlet pipe 15-4, the water tank 15-1 is arranged on a rack 4 below the fog chamber 5-1 and the air chamber 6-1, the design can ensure that the liquid which is not atomized in the fog chamber 5-1 and the air chamber 6-1 flows downwards into the water tank 15-1 through the water outlet pipe 15-4, thereby realizing the circulating atomization of the liquid or avoiding the waste of resources such as liquid medicine and the like.

As shown in fig. 2, 4, 5 and 9, the circulating ventilation system comprises an air chamber 6-1 and an air blower 6-2, the air blower 6-2 is a 220V air-mode air blower (inner rotor type), an upper opening of the air chamber 6-1 is covered with an upper air chamber cover plate 6-3, an air outlet end of the air blower 6-2 is locked and fixed on the upper air chamber cover plate 6-3 through a screw, an air outlet of the air blower 6-2 is aligned with an air vent of the upper air chamber cover plate 6-3, a second AC speed regulator 13 is electrically connected with the air blower 6-2 for regulating the rotating speed of the air blower 6-2, an air inlet end of the air blower 6-2 is connected with an air return pipe 6-5 through an air blower adapter 6-4, the air return pipe 6-5 adopts a PVC aluminum foil pipe, the tail end of the air return pipe 6-5 penetrates through a side plate surface of the working chamber 1, the air return pipe 6-5 is connected into the air return pipe 6-5 after being introduced into the working chamber 1, so that the air blower 6-2 can be ensured to extract hot and humid air in the working chamber 1, circulation is formed, water and electric energy are saved, and the air return pipe 6-5 in the working chamber 1 is positioned below the fog outlet pipe 5-3, so that the air blower 6-2 can be ensured to preferentially extract cold air below the inside of the working chamber 1, and the working chamber 1 can maintain good humidity and temperature.

As shown in the schematic circuit diagram of fig. 12, L and N are the live wire and the neutral wire of the commercial power 220V, respectively, to supply power to the dc switching power supply 3, then the dc switching power supply 3 supplies power to the intelligent adjusting system 2, L1 and T1 of the relay are equivalent to switches, Y0, Y1 and Y2 of the touch screen PLC all-in-one machine are equivalent to controlling the open end of the switch, L1 is connected to the live wire, T1 is connected to the live wire inlet of the electric equipment (the heating device, the first ac speed regulator 12, the second ac speed regulator 13 and the dc speed regulator 14), the neutral wire inlet of the electric equipment is directly connected to N, when L1 and T1 are disconnected, all the electric appliances do not work, when L1 and T1 are connected, it is equivalent to the live wire inlet of the electric equipment is connected to the live wire, and the equipment can work.

The use method of the rotary impact type constant-temperature atomization physical therapy device comprises the following steps:

s1, turning on the direct current switch power supply 3, enabling the intelligent adjusting system 2 to be in a starting state, and setting the target temperature t through the touch screen of the intelligent adjusting system 2 by a user according to requirements_qdAnd the deviation temperature delta 1, the temperature measuring device 7 detects the indoor actual temperature t of the fog chamber 5-1 and the air chamber 6-1 in real time_qrAnd transmits to the intelligent adjusting system 2;

s2, after the temperature parameters of the fog chamber 5-1 and the air chamber 6-1 are set, clicking a touch button, enabling the equipment to enter a preheating state, controlling the electrothermal tube 8-1 of the fog chamber to start heating by the intelligent adjusting system 2 through the first solid-state relay 9, and controlling the electrothermal tube 8-2 of the air chamber to start heating by the second solid-state relay 10;

s3 actual temperature t of mist chamber 5-1_qrIs adjusted to t_qd- Δ 1 to t_qd+ Δ 1 while the actual temperature t of the gas chamber 6-1_wrIs adjusted to t_wd- Δ 2 to t_wdWhen the temperature is between + delta 2, the equipment enters a working state, the intelligent adjusting system 2 controls the direct current water pump 15-2 to spray liquid in the water tank 15-1 to the rotor 5-5 through the water inlet pipe 15-3 through the third solid-state relay 11, the direct current speed regulator 14 is used for rotating the direct current water pump 15-2 to further adjust the liquid flow, meanwhile, the intelligent adjusting system 2 drives the long shaft motor 5-4 to start through the third solid-state relay 11 and drives the rotor 5-5 to synchronously rotate so as to break the liquid into mist through rotation, the first alternating current speed regulator 12 is used for adjusting the rotating speed of the long shaft motor 5-4 to further adjust the rotating speed of the rotor 5-5, meanwhile, the intelligent adjusting system 2 controls the air blower 6-2 to start and blow air into the air chamber 6-1 through the third solid-state relay 11, the second alternating current speed regulator 13 is used for adjusting the rotating speed of the air blower 6-2, then the gas flow is adjusted, the gas flow is blown to the fog chamber 5-1 from the gas chamber 6-1 through the air guide holes, and finally the fog is blown into the working chamber 1 through the fog outlet pipe 5-3;

s4, clicking the touch button again, enabling the equipment to return to a starting state, controlling the fog chamber electric heating tube 8-1 to stop heating through the first solid-state relay 9, controlling the air chamber electric heating tube 8-2 to stop heating through the second solid-state relay 10, and controlling the direct-current water pump 15-2, the long-axis motor 5-4 and the air blower 6-2 to stop working through the third solid-state relay 11 by the intelligent adjusting system 2;

s5, turning off the direct current switch power supply 3, and stopping working of the whole equipment of the rotary impact type constant temperature atomization physical therapy device.

In the embodiment, the target temperature of the fog chamber 5-1 and the target temperature of the air chamber 6-1 are set to be 30-60 ℃, the rotary impact type constant-temperature atomization physical therapy device is adopted to carry out the atomization operation, when the actual temperature is 40 ℃, the humidity can reach 97%, the 500ml water is completely atomized for only 30 minutes, and the atomization efficiency is high.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may be made by those skilled in the art without departing from the principle of the invention.

Claims (5)

1. A rotary impact type constant-temperature atomization physical therapy instrument is characterized by comprising a working chamber (1), a rotary impact type atomization system, a circulating ventilation system, a liquid circulation system, an intelligent adjusting system (2) and a direct-current switch power supply (3), wherein the direct-current switch power supply (3) is electrically connected with the intelligent adjusting system (2), the intelligent adjusting system (2) is electrically connected with the rotary impact type atomization system, the circulating ventilation system and the liquid circulation system, the rotary impact type atomization system, the circulating ventilation system, the liquid circulation system and the intelligent adjusting system (2) are all installed on a rack (4), the rotary impact type atomization system and the circulating ventilation system are respectively provided with a fog chamber (5-1) and an air chamber (6-1), and the intelligent adjusting system (2) detects the indoor temperature of the fog chamber (5-1) and the indoor temperature of the air chamber (6-1) in real time through a temperature measuring device (7), the indoor temperature of the fog chamber (5-1) and the indoor temperature of the air chamber (6-1) are intelligently adjusted through a heating device, the intelligent adjusting system (2) intelligently controls a liquid circulating system to supply water to the rotary impact type atomizing system, and controls the rotary impact type atomizing system to atomize the liquid sprayed into the fog chamber (5-1) and blow the liquid into the working chamber (1) through a circulating ventilation system;

the heating device comprises a fog chamber electric heating pipe (8-1) and a gas chamber electric heating pipe (8-2), the fog chamber electric heating pipe (8-1) and the gas chamber electric heating pipe (8-2) are respectively fixed in a fog chamber (5-1) and a gas chamber (6-1) through PC joints, and the fog chamber (5-1) and the gas chamber (6-1) are correspondingly provided with wind guide holes through adjacent side plates so as to be communicated in a gas flow manner;

the intelligent adjusting system (2) is a touch screen PLC all-in-one machine, a touch screen on the touch screen PLC all-in-one machine is provided with a touch button and temperature parameters of a fog chamber (5-1) and an air chamber (6-1), wherein the temperature parameter of the fog chamber (5-1) comprises an actual temperature t_qrTarget temperature t_qdAnd the deviation temperature delta 1, the temperature parameter of the gas chamber (6-1) comprises the actual temperature t_wrTarget temperature t_wdThe touch screen PLC all-in-one machine is respectively and electrically connected with a first solid-state relay (9), a second solid-state relay (10) and a third solid-state relay (11), the first solid-state relay (9) is electrically connected with a fog chamber electric heating tube (8-1), the second solid-state relay (10) is electrically connected with an air chamber electric heating tube (8-2), the third solid-state relay (11) is electrically connected with a first alternating current speed regulator (12), a second alternating current speed regulator (13) and a direct current speed regulator (14), the first alternating current speed regulator (12) is in driving connection with a rotary impact type atomization system, the second alternating current speed regulator (13) is in driving connection with a circulating ventilation system, and the direct current speed regulator (14) is in driving connection with a liquid circulation system;

the liquid circulating system comprises a water tank (15-1) and a direct-current water pump (15-2), the water outlet of the water tank (15-1) is connected with the direct-current water pump (15-2), the direct current water pump (15-2) is connected into the fog chamber (5-1) through a water inlet pipe (15-3), the direct current speed regulator (14) is electrically connected with the direct current water pump (15-2), and drives and controls the direct current water pump (15-2) to spray the liquid in the water tank (15-1) into the fog chamber (5-1) through the water inlet pipe (15-3), the fog chamber (5-1) and the air chamber (6-1) are respectively connected with two water inlets of the water tank (15-1) through water outlet pipes (15-4), the water tank (15-1) is arranged on the rack (4) below the fog chamber (5-1) and the air chamber (6-1);

the rotary impact type atomization system comprises a fog chamber (5-1) and a turbine mechanism, wherein the first alternating current speed regulator (12) is electrically connected with the turbine mechanism and drives and controls the turbine mechanism to rotationally break liquid sprayed into the fog chamber (5-1) into fog, an upper fog chamber cover plate (5-2) is covered at an upper opening of the fog chamber (5-1), a fog outlet pipe (5-3) is communicated with the upper fog chamber cover plate (5-2), and the tail end of the fog outlet pipe (5-3) penetrates through a side plate surface of the working chamber (1) and is communicated into the working chamber (1);

the turbine mechanism comprises a long shaft motor (5-4) and a rotor (5-5), the rotor (5-5) comprises a rotor sleeve (5-51), a threaded hole plate (5-52), a breaking long screw (5-53) and a fixing screw (5-54), a through hole is formed in a bottom plate of the fog chamber (5-1), a shaft sleeve (5-11) is vertically sleeved in the through hole, the shaft sleeve (5-11) is flush with the bottom surface of the fog chamber (5-1), the rotor sleeve (5-51) is sleeved on the outer side of the shaft sleeve (5-11) and is rotatably connected with the bottom surface of the fog chamber (5-1), a machine body of the long shaft motor (5-4) is fixed at the bottom of the fog chamber (5-1), an output shaft of the long shaft motor (5-4) extends upwards along the shaft sleeve (5-11), and the upper end of the output shaft of the long shaft motor (5-4) is fixed on the upper part of the rotor sleeve (5-51), the threaded pore plate (5-52) is horizontally fixed at the top of the rotor sleeve (5-51) through a fixing screw (5-54), 1-3 circles of threaded holes are formed in the threaded hole plates (5-52), the crushing long screws (5-53) are locked on the threaded holes of the threaded hole plates (5-52) in a threaded mode, and vertically falls on the outer side of a rotor sleeve (5-51), the first alternating current speed regulator (12) is electrically connected with a long shaft motor (5-4) to drive and control the long shaft motor (5-4) to drive the rotor (5-5) to synchronously rotate, the water inlet pipe (15-3) in the fog chamber (5-1) is aligned with the rotor (5-5).

2. The rotary impact type constant temperature atomization physiotherapy apparatus according to claim 1, wherein: the working chamber (1) is a bottomless shell, lockable universal wheels (1-1) are installed at four corners of the bottom of the bottomless shell, and the side face of the bottomless shell is hinged with a working chamber door (1-2).

3. The rotary impact type constant temperature atomization physiotherapy apparatus according to claim 1, wherein: the rotor sleeve (5-51) comprises an upper opening cylinder A and an upper and lower through cylinder B, the inner diameter of the upper opening cylinder A is not smaller than the outer diameter of the upper and lower through cylinder B, the upper opening cylinder A is integrally connected with the top of the upper and lower through cylinder B, a fixing hole is formed in the center of the bottom of the upper opening cylinder A, an output shaft of the long shaft motor (5-4) extends upwards along the shaft cylinder (5-11), the upper end of the output shaft of the long shaft motor (5-4) is fixed in the fixing hole, the upper and lower through cylinder B is sleeved on the outer side of the shaft cylinder (5-11), and the upper and lower through cylinder B is higher than the shaft cylinder (5-11).

4. The rotary impact type constant temperature atomization physiotherapy apparatus according to claim 1, wherein: the circulating ventilation system comprises a gas chamber (6-1) and a blower (6-2), a second alternating current speed regulator (13) is electrically connected with the blower (6-2), an upper air chamber cover plate (6-3) is covered at the upper opening of the air chamber (6-1), the air outlet end of the air blower (6-2) is locked and fixed on the upper air chamber cover plate (6-3), and the air outlet of the blower (6-2) is aligned with the vent hole of the upper air chamber cover plate (6-3), the air inlet end of the blower (6-2) is connected with the air return pipe (6-5) through the blower adapter (6-4), the tail end of the air return pipe (6-5) penetrates through the side plate surface of the working chamber (1) and is communicated into the working chamber (1), and the air return pipe (6-5) in the working chamber (1) is positioned below the fog outlet pipe (5-3).

5. The use method of the rotary impact type constant temperature atomization physiotherapy apparatus according to any one of claims 1 to 4, characterized by comprising the following steps:

s1, turning on the direct-current switching power supply (3), enabling the intelligent adjusting system (2) to be in a starting state, and setting a target temperature t by a user through a touch screen of the intelligent adjusting system (2) according to requirements_qdAnd the deviation temperature delta 1, and a temperature measuring device (7) detects the indoor actual of the fog chamber (5-1) and the air chamber (6-1) in real timeTemperature t_qrAnd transmitting the data to the intelligent adjusting system (2);

s2, after the temperature parameters of the fog chamber (5-1) and the air chamber (6-1) are set, clicking a touch button, enabling the equipment to enter a preheating state, controlling the fog chamber electric heating tube (8-1) to start heating through a first solid-state relay (9) by the intelligent adjusting system (2), and controlling the air chamber electric heating tube (8-2) to start heating through a second solid-state relay (10);

s3, actual temperature t of mist chamber (5-1)_qrIs adjusted to t_qd- Δ 1 to t_qd+ Delta 1, while the actual temperature t of the gas chamber (6-1)_wrIs adjusted to t_wd- Δ 2 to t_wdWhen the temperature is between + delta 2, the equipment enters a working state, the intelligent adjusting system (2) controls the direct-current water pump (15-2) to spray liquid in the water tank (15-1) to the rotor (5-5) through the water inlet pipe (15-3) through the third solid-state relay (11), the direct-current speed regulator (14) is used for adjusting the rotating speed of the direct-current water pump (15-2), meanwhile, the intelligent adjusting system (2) drives the long-axis motor (5-4) to start through the third solid-state relay (11) and drives the rotor (5-5) to synchronously rotate so as to break the liquid into mist, the first alternating-current speed regulator (12) is used for adjusting the rotating speed of the long-axis motor (5-4), and meanwhile, the intelligent adjusting system (2) controls the air blower (6-2) to start through the third solid-state relay (11) and blows air into the air chamber (6-1), the second alternating current speed regulator (13) is used for regulating the rotating speed of the blower (6-2), air flow is blown to the fog chamber (5-1) from the air chamber (6-1) through the air guide holes, and finally the fog is blown into the working chamber (1) through the fog outlet pipe (5-3);

s4, clicking the touch button again, enabling the equipment to return to a starting state, controlling the fog chamber electric heating tube (8-1) to stop heating through the first solid-state relay (9) by the intelligent adjusting system (2), controlling the air chamber electric heating tube (8-2) to stop heating through the second solid-state relay (10), and controlling the direct-current water pump (15-2), the long-axis motor (5-4) and the air blower (6-2) to stop working through the third solid-state relay (11);

s5, turning off the direct current switch power supply (3), and stopping working of the whole equipment of the rotary impact type constant temperature atomization physical therapy device.

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