CN114159700A - Infrared thermotherapy equipment and infrared thermotherapy scheme optimizing system - Google Patents

Abstract

The invention provides infrared thermal therapy equipment and an infrared thermal therapy scheme optimization system, and belongs to the technical field of infrared thermal therapy. The thermal therapy device comprises a thermal therapy seat, wherein a left cover body and a right cover body are arranged on the thermal therapy seat, the left cover body is fixed on the thermal therapy seat, a cover body driving mechanism capable of driving the right cover body to move into the left cover body is further arranged on the thermal therapy seat, and infrared irradiation devices are arranged on the left cover body and the right cover body. The left side cover body, the right side cover body and two side shields can form sealed thermotherapy cabin at thermotherapy seat upside, thereby can reduce patient and external contact when the thermotherapy and reduce the probability of traumatic wound infection, opening and closing of thermotherapy cabin is controlled through cover body actuating mechanism, cover body drive assembly can drive the right side cover body rotatory to the left side cover internal, thereby can open half with the thermotherapy cabin, be enough for letting the patient get into and lie down on the thermotherapy bed, the mode of opening the thermotherapy cabin through rotatory right side cover body can greatly reduced equipment to the demand on the service environment space.

Description

Infrared thermotherapy equipment and infrared thermotherapy scheme optimizing system

Technical Field

The invention belongs to the technical field of infrared thermal therapy, and relates to infrared thermal therapy equipment and an infrared thermal therapy scheme optimization system.

Background

The heat treatment instrument is an instrument for realizing clinical curative effect by heating human tissues, is widely applied to the auxiliary treatment of various diseases and the promotion of wound healing, patients, particularly patients with traumatic sores, need to be treated in a relatively closed and sterile environment, the patients are exposed in the external environment and are easy to cause cross infection, a sealed cabin body in the prior art is generally opened by lifting or translating, the patient needs to lift the cabin body or translate a bed body in the cabin body to the outside of the cabin body firstly when entering, and the length or height requirement on an equipment arrangement space is large.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, chinese patent discloses an infrared irradiation whole body thermotherapy device [ application number: 201810747670.8], comprising a cabin roof frame, wherein the lower end of the cabin roof frame is provided with a cabin body side wall with a closed circumferential direction, the lower end of the cabin body side wall is provided with a bottom surface, the cabin roof frame, the cabin body side wall and the bottom surface surround to form an infrared irradiation cabin which is used for the whole body to enter and lie flat, the cabin roof frame is provided with an infrared irradiation device, the cabin roof frame is connected with a lifting mechanism which can drive the infrared irradiation cabin to move up and down along the vertical direction, and the infrared irradiation cabin is connected to the lifting mechanism in a cantilever manner.

Disclosure of Invention

The object of the present invention is to provide an infrared thermal therapy device that addresses the above problems.

The invention aims to solve the problems and provide an infrared thermotherapy scheme optimization system.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an infrared thermotherapy equipment, includes the thermotherapy seat, the thermotherapy seat on be equipped with the left side cover body and the right side cover body, the left side cover body fix on the thermotherapy seat just the thermotherapy seat on still be equipped with and drive the right side cover body and remove to the internal cover body actuating mechanism of left side cover, the left side cover body and right side cover body on be equipped with infrared irradiation device, thermotherapy seat top still be equipped with two with the left side cover body and right side cover body sealing connection's side shield, thermotherapy seat top be equipped with the thermotherapy bed, the thermotherapy bed protrusion set up on the thermotherapy seat and both sides can support with the left side cover body and right side cover body and lean on, the thermotherapy seat on still be equipped with disinfection and sterilization device.

In foretell infrared thermotherapy equipment, the left side cover body and the right side cover body the cross-section be arc and the radian is the same, the cross-section semicircular in shape of side shield, two inner and left side cover body both sides of side shield support and lean on, the right side cover body inner wall and the arcwall face of side shield support and lean on, cover body actuating mechanism including setting up the arc wall in the left side cover body, the arc wall set up in the outside of the left side cover body and side shield junction and run through the left side cover body, right side cover body one side insert in the arc wall and both ends are worn out from the arc wall both sides, the right side cover body protrusion is supported and is equipped with the rack in the inboard and the side shield of arc groove part and the outside, the side shield on still linked firmly the gear box, the gear box in be equipped with rack toothing's drive gear, the gear box outside still linked firmly the circumference driver that links to each other with drive gear.

In the infrared thermal therapy equipment, a plurality of arc-shaped limiting grooves are further arranged on the outer sides of the arc-shaped grooves, and a plurality of arc-shaped limiting blocks corresponding to the arc-shaped limiting grooves are fixedly connected to the left cover body.

In foretell infrared thermotherapy equipment, infrared irradiation device including set up at the internal irradiation lamp mounting groove of left side cover and set up at the internal irradiation lamp mounting groove of two of right side cover, the cross-section of an irradiation lamp mounting groove and two irradiation lamp mounting grooves all be the arc, irradiation lamp mounting groove and two irradiation lamp mounting grooves in be equipped with a plurality of infrared light source respectively, irradiation lamp mounting groove and two irradiation lamp mounting grooves in still be equipped with the cross-section and be curved transparent partition No. three.

In the infrared thermal therapy equipment, the disinfection and sterilization device comprises a first disinfection and sterilization mechanism which can convey ozone into a left cover body and a right cover body, the inner sides of the two side baffles are respectively provided with a second disinfection and sterilization mechanism and an infrared high-temperature heating mechanism, the thermal therapy seat is also internally provided with an oxygen recovery mechanism, the first disinfection and sterilization mechanism comprises a first ozone transmission channel which is horizontally arranged in the thermal therapy seat, an air inlet of the first ozone transmission channel is connected with an ozone generating device through a hose, the upper side of the first ozone transmission channel is provided with a lifting plate groove, an ozone transmission plate is arranged in the lifting plate groove, an ozone transmission cavity is arranged in the ozone transmission plate, a second ozone transmission channel is vertically arranged between the lifting plate groove and the first ozone transmission channel, and the bottom of the ozone transmission plate is fixedly connected with a first ozone transmission pipe which is inserted into the second ozone transmission channel and is connected with the ozone transmission cavity, a plurality of second ozone transmission pipes connected with the ozone transmission cavity are vertically arranged at the top of the ozone transmission plate, a side air outlet leakage-proof structure is arranged at the top of each second ozone transmission pipe, and a lifting driving assembly connected with the ozone transmission plate is further arranged at the lower side of the lifting plate groove;

the side air outlet leakage-proof structure comprises an air outlet head embedded on the thermal therapy bed, the top of the air outlet head is flush with the thermal therapy bed, a third ozone transmission channel with a T-shaped section is arranged in the air outlet head, the bottom of the third ozone transmission channel is connected with a second ozone transmission pipe, and two ends of the air outlet head are abutted against the thermal therapy bed;

the lifting driving assembly comprises a plurality of lifting drivers arranged on the lower side of the lifting plate groove, each lifting driver is provided with an output shaft capable of lifting along the vertical direction, the end part of the output shaft of each lifting driver is fixedly connected with the ozone transmission plate, the bottom of the lifting plate groove is also provided with a plurality of limiting rod grooves vertically arranged, and the bottom of the ozone transmission plate is fixedly connected with a plurality of limiting rods inserted into the limiting rod grooves.

In foretell infrared thermotherapy equipment, infrared high temperature heating mechanism including setting up the heating lamp mounting groove in the side shield, the heating lamp mounting groove in be equipped with a plurality of high power infrared heating lamps, the heating lamp mounting groove in still be equipped with a transparent partition.

In foretell infrared thermotherapy equipment, No. two disinfection and sterilization mechanisms including setting up the ultraviolet lamp mounting groove in another side shield, the ultraviolet lamp mounting groove in be equipped with a plurality of ultraviolet lamps, the ultraviolet lamp mounting groove in still be equipped with No. two transparent separators.

In foretell infrared thermotherapy equipment, oxygen recovery mechanism include a plurality of vertical settings at an oxygen recovery passageway of lifter plate groove both sides, an oxygen recovery passageway top be equipped with hidden inlet structure, an ozone transmission passageway downside still be equipped with No. two oxygen recovery passageways, No. two oxygen recovery passageways link to each other through No. three oxygen recovery passageways and an oxygen recovery passageway that the level set up, No. two oxygen recovery passageways's gas vent pass through hose and oxygen storage tank and link to each other.

In the infrared thermal therapy equipment, the hidden air inlet structure comprises an oxygen recovery pipe vertically inserted into the first oxygen recovery channel, the top of the oxygen recovery pipe is fixedly connected with an air inlet head embedded into the thermal therapy bed, air inlet holes are horizontally formed in two sides of the air inlet head, the top of the air inlet head is flush with the top of the thermal therapy bed, and two ends of the air inlet head are abutted against the inner wall of the thermal therapy bed;

a oxygen recovery passageway lateral part still be equipped with the lift spout, oxygen recovery pipe lateral part link firmly the lift stopper of inserting to the lift spout in, lift spout bottom be equipped with the lift driver No. two, the output shaft tip and the lift stopper bottom of the lift driver link firmly.

The utility model provides an infrared thermotherapy scheme optimizing system of infrared thermotherapy equipment, includes cabin temperature monitoring module, body temperature monitoring module and microcontroller, body temperature monitoring module include a plurality of temperature sensor that set up on infrared thermotherapy equipment's thermotherapy bed, cabin temperature monitoring module include a plurality of temperature sensor that set up at the left side cover body or the right side cover body is inboard.

Compared with the prior art, the invention has the advantages that:

1. the left side cover body, the right side cover body and two side shields can form sealed thermotherapy cabin at thermotherapy seat upside, thereby can reduce patient and external contact when the thermotherapy and reduce the probability of traumatic wound infection, opening and closing of thermotherapy cabin is controlled through cover body actuating mechanism, cover body drive assembly can drive the right side cover body rotatory to the left side cover internal, thereby can open half with the thermotherapy cabin, be enough for letting the patient get into and lie down on the thermotherapy bed, the mode of opening the thermotherapy cabin through rotatory right side cover body can greatly reduced equipment to the demand on the service environment space.

2. The thermal therapy bed is convexly arranged on the thermal therapy seat, and two sides of the thermal therapy bed can be abutted against the left cover body and the right cover body to improve the sealing effect in the cabin.

3. Thermotherapy equipment is before using, close the right side cover body through cover body actuating mechanism, make the under-deck form sealed environment, disinfection and sterilization mechanism can carry ozone to equipment disinfection and sterilization in to the under-deck, infrared high temperature heating mechanism can heat the under-deck, make the internal temperature rise of cover, the temperature rise in the under-deck makes ozone decomposition become oxygen, oxygen recovery mechanism can retrieve oxygen, with reduce cost, No. two disinfection and sterilization mechanisms can transmit the ultraviolet ray and carry out the secondary disinfection and isolation to thermotherapy equipment, with further improvement bactericidal effect.

4. The circumference driver on two side shields can two drive gear of synchronous drive rotate, and drive gear rotates and can drive the right side cover body through the arc rack and rotate to the internal arc wall of left side cover to open the thermotherapy cabin, at this moment, the right side cover body is located the left side cover and covers the internal, can not additionally prevent that all the other spaces in the environment from occuping to equipment, thereby two circumference driver reverse motions enable the right side cover body and follow the arc wall and remove and can close the thermotherapy cabin.

5. When carrying out ozone disinfection, thereby lift drive assembly can drive ozone transmission board upward movement makes the side play gas leak protection structure remove to the thermotherapy bed top, ozone generating device can pass through the hose to input ozone in the ozone transmission passageway, ozone in the ozone transmission passageway can pass through No. two ozone transmission passageways, ozone transmission pipe, ozone transmission chamber, ozone input left cover body is with side play gas leak protection structure to No. two ozone transmission passageways, the thermotherapy under-deck that right cover body and thermotherapy seat formed is disinfected to the thermotherapy under-deck, after accomplishing the disinfection, lift drive assembly drive ozone transmission board resets downwards, thereby make side play gas leak protection structure and thermotherapy bed inner wall support and lean on the problem that ozone revealed when can preventing to appear treating.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a left side view of the present invention;

FIG. 4 is an enlarged schematic view at A in FIG. 1;

FIG. 5 is an enlarged schematic view at B of FIG. 1;

FIG. 6 is an enlarged schematic view at C of FIG. 1;

fig. 7 is a block flow diagram of the present invention.

In the figure: an infrared irradiation device 2, a first disinfection and sterilization mechanism 3, a second disinfection and sterilization mechanism 4, an infrared high-temperature heating mechanism 5, an oxygen recovery mechanism 6, a first ozone transmission channel 7, a lifting plate groove 8, an ozone transmission plate 9, an ozone transmission cavity 10, a second ozone transmission channel 11, a first ozone transmission pipe 12, a second ozone transmission pipe 13, a side gas outlet leakage-proof structure 14, a lifting driving component 15, a gas outlet head 16, a third ozone transmission channel 17, a first lifting driver 18, a limiting rod 19, a heating lamp mounting groove 20, a high-power infrared heating lamp 21, a first transparent partition plate 22, an ultraviolet lamp mounting groove 23, an ultraviolet lamp 24, a second transparent partition plate 25, a first oxygen recovery channel 26, a hidden gas inlet structure 27, a second oxygen recovery channel 28, a third oxygen recovery channel 29, an oxygen recovery pipe 30, a gas inlet head 31, a gas inlet 32, a lifting chute 33, The thermal therapeutic apparatus comprises a lifting limiting block 34, a second lifting driver 35, a thermal therapeutic seat 100, a side baffle 101, a thermal therapeutic bed 102, a left cover body 103, a right cover body 104, a cover body driving mechanism 105, an arc-shaped groove 106, an arc-shaped rack 107, a gear box 108, a driving gear 109, a circumferential driver 110, an arc-shaped limiting groove 111, an arc-shaped limiting block 112, a first radiation lamp mounting groove 113, a second radiation lamp mounting groove 114, an infrared light source 115 and a third transparent partition plate 116.

Detailed Description

As shown in fig. 1-6, an infrared thermal therapy device comprises a thermal therapy base 100, a left cover 103 and a right cover 104 are disposed on the thermal therapy base 100, the left cover 103 is fixed on the thermal therapy base 100, a cover driving mechanism 105 is disposed on the thermal therapy base 100 and can drive the right cover 104 to move into the left cover 103, an infrared irradiation device 2 is disposed on the left cover 103 and the right cover 104, two side baffles 101 are disposed on the top of the thermal therapy base 100 and are hermetically connected with the left cover 103 and the right cover 104, a thermal therapy bed 102 is disposed on the top of the thermal therapy base 100, the thermal therapy bed 102 is protrudingly disposed on the thermal therapy base 100, and two sides of the thermal therapy bed can abut against the left cover 103 and the right cover 104, and a disinfection device is disposed on the thermal therapy base 100.

In this embodiment, the left side cover body, the right side cover body and two side shields 101 can form sealed thermotherapy cabin at thermotherapy seat upside, thereby can reduce when the thermotherapy patient and external contact reduce the probability of traumatic wound infection, opening and closing of thermotherapy cabin is controlled through cover body actuating mechanism 105, cover body drive assembly can drive the right side cover body rotatory to the left side cover internally, thereby can open the thermotherapy cabin half, be enough for letting the patient get into and lie flat to the thermotherapy bed on, can greatly reduced equipment demand on the service environment space through the mode of rotatory right side cover body opening the thermotherapy cabin.

After the thermotherapy cabin is closed, the infrared irradiation device 2 can perform whole-body infrared irradiation thermotherapy on the patient.

Preferably, the thermal therapeutic bed 102 is protruded on the thermal therapeutic seat 100 and both sides can abut against the left and right covers 103 and 104 to improve the sealing effect in the cabin.

As shown in fig. 1-3, the cross-sections of the left cover 103 and the right cover 104 are arc-shaped and have the same radian, the cross-section of the side baffle 101 is semicircular, the inner ends of the two side baffles 101 are abutted against the two sides of the left cover 103, and the inner wall of the right cover 104 is abutted against the arc-shaped surface of the side baffle 101, so that the left cover, the right cover and the two side baffles 101 can form a sealed thermotherapy compartment at the upper side of the thermotherapy seat. Cover body actuating mechanism 105 is including setting up the arc wall 106 in the left cover body 103, arc wall 106 set up in the outside of the left cover body 103 and side shield 101 junction and run through the left cover body 103, right cover body 104 one side insert in arc wall 106 and both ends are worn out from arc wall 106 both sides, right cover body 104 protrusion is supported and is equipped with arc rack 107 in the inboard and side shield 101 of arc wall 106 part and the outside, side shield 101 on still linked firmly gear box 108, gear box 108 in be equipped with the drive gear 109 of arc rack 107 meshing, gear box 108 outside still linked firmly the circumference driver 110 who links to each other with drive gear 109. Circumferential drivers 110 on two side shields can rotate by synchronous drive two drive gears, and drive gear rotation can drive the right cover body through the arc rack and rotate to the internal arc wall of left cover to open the thermotherapy cabin, at this moment, the right cover body is located the left cover and covers the internal, can not additionally prevent that all the other spaces in the environment from occuping to equipment, thereby two circumferential drivers reverse action enable the right cover body to follow and move out in the arc wall and can close the thermotherapy cabin.

Preferably, as shown in fig. 1 and 6, a plurality of arc-shaped limiting grooves 111 are further disposed on the outer side of the arc-shaped groove 106, and a plurality of arc-shaped limiting blocks 112 corresponding to the arc-shaped limiting grooves 111 are fixedly connected to the left cover body 103. The arc-shaped limiting groove 111 is matched with the arc-shaped limiting block 112 to limit the right cover body.

Specifically speaking, as shown in fig. 1 and fig. 6, the infrared irradiation device 2 includes a first irradiation lamp mounting groove 113 disposed in the left cover body 103 and a second irradiation lamp mounting groove 114 disposed in the right cover body 104, the cross sections of the first irradiation lamp mounting groove 113 and the second irradiation lamp mounting groove 114 are arc-shaped, a plurality of infrared light sources 115 are respectively disposed in the first irradiation lamp mounting groove 113 and the second irradiation lamp mounting groove 114, and a third transparent partition 116 having an arc-shaped cross section is further disposed in the first irradiation lamp mounting groove 113 and the second irradiation lamp mounting groove 114. A plurality of infrared light sources in the first radiation lamp mounting groove 113 and the second radiation lamp mounting groove 114 can form 180-degree infrared radiation in the thermal therapy cabin, so that infrared radiation thermal therapy can be simultaneously carried out on the whole body of a patient, and the third transparent partition plate 116 can protect the infrared light sources.

As shown in fig. 1-2 and 4-5, the disinfection and sterilization device comprises a first disinfection and sterilization mechanism 3 capable of conveying ozone into a left cover 103 and a right cover 104, a second disinfection and sterilization mechanism 4 and an infrared high-temperature heating mechanism 5 are respectively arranged on the inner sides of two side baffles 101, an oxygen recovery mechanism 6 is further arranged in the thermal therapy base 100, the first disinfection and sterilization mechanism 3 comprises a first ozone transmission channel 7 horizontally arranged in the thermal therapy base 100, an air inlet of the first ozone transmission channel 7 is connected with an ozone generating device through a hose, a lifting plate groove 8 is arranged on the upper side of the first ozone transmission channel 7, an ozone transmission plate 9 is arranged in the lifting plate groove 8, an ozone transmission cavity 10 is arranged in the ozone transmission plate 9, a second ozone transmission channel 11 is vertically arranged between the lifting plate groove 8 and the first ozone transmission channel 7, the bottom of the ozone transmission plate 9 is fixedly connected with a first ozone transmission pipe 12 which is inserted into a second ozone transmission channel 11 and connected with an ozone transmission cavity 10, the top of the ozone transmission plate 9 is vertically provided with a plurality of second ozone transmission pipes 13 connected with the ozone transmission cavity 10, the top of each second ozone transmission pipe 13 is provided with a side gas outlet leakage-proof structure 14, and the lower side of the lifting plate groove 8 is also provided with a lifting driving assembly 15 connected with the ozone transmission plate 9;

thermotherapy equipment is before using, close the right side cover body 104 through cover body actuating mechanism 105, make the under-deck form sealed environment, disinfection and sterilization mechanism 3 can carry ozone to the under-deck and carry out disinfection and sterilization to equipment, infrared high temperature heating mechanism 5 can heat the under-deck, make the internal temperature rise of cover, the temperature rise in the under-deck makes ozone decompose into oxygen, oxygen recovery mechanism 6 can retrieve oxygen, with reduce cost, No. two disinfection and sterilization mechanism 4 can transmit the ultraviolet ray and carry out the secondary sterilization disinfection to thermotherapy equipment, with further improvement bactericidal effect.

When carrying out ozone disinfection, thereby lift drive assembly 15 can drive ozone transmission board 9 upward movement makes the side play gas leakage-proof structure 14 remove to the thermotherapy bed top, ozone generating device can pass through the hose to inputing ozone in ozone transmission channel 7, ozone in ozone transmission channel 7 can pass through No. two ozone transmission channel 11, No. one ozone transmission pipe 12, ozone transmission chamber 10, No. two ozone transmission pipe 13 and side play gas leakage-proof structure 14 input ozone to the left cover body, the thermotherapy under-deck that right cover body and thermotherapy seat formed is disinfected, after accomplishing the disinfection, lift drive assembly 15 drive ozone board resets downwards, make side play gas leakage-proof structure 14 and thermotherapy bed inner wall support and lean on thereby can prevent the problem of ozone leakage when appearing the treatment.

Specifically, the side air outlet leakage-proof structure 14 comprises an air outlet head 16 embedded on the thermal therapy bed 102, the top of the air outlet head 16 is flush with the thermal therapy bed 102, a third ozone transmission channel 17 with a T-shaped section is arranged in the air outlet head 16, the bottom of the third ozone transmission channel 17 is connected with a second ozone transmission pipe 13, and two ends of the air outlet head 16 are abutted to the thermal therapy bed 102; the third ozone transmission channel 17 in the air outlet head 16 can enable ozone to be exhausted from two sides of the air outlet head, and during treatment, the air outlet head 16 is embedded into the thermal treatment bed 102, and two ends of the air outlet head abut against the inner wall of the thermal treatment bed, so that ozone leakage during treatment can be prevented.

Specifically speaking, lift drive assembly 15 includes a plurality of lift drivers 18 of setting in lifter plate groove 8 downside, lift drivers 18 have the output shaft that can follow vertical direction lift, the output shaft tip of a lift driver 18 links firmly with ozone transmission board 9, lifter plate groove 8 bottom still be equipped with the gag lever post groove of a plurality of vertical settings, ozone transmission board 9 bottom link firmly a plurality of gag lever posts 19 that insert to the gag lever post inslot. A plurality of first lifting drivers 18 can synchronously drive the ozone transmission plate 9 to lift along the vertical direction, and the limiting rod grooves are matched with the limiting rods to limit the ozone transmission plate.

It will be appreciated by those skilled in the art that lift drive 18 may be a cylinder, linear motor, or the like.

Specifically, as shown in fig. 1 and 2, the infrared high-temperature heating mechanism 5 includes a heating lamp mounting groove 20 disposed in the side baffle 101, a plurality of high-power infrared heating lamps 21 are disposed in the heating lamp mounting groove 20, and a first transparent partition 22 is further disposed in the heating lamp mounting groove 20. High power infrared heating lamp 21 can heat in the thermotherapy cabin, and compare in the infrared light source who is used for the thermotherapy, and high power infrared heating lamp's heating efficiency and heating effect are stronger, and high power infrared heating lamp can heat the temperature in the thermotherapy cabin to the required temperature of ozone rapid transformation into oxygen that can let, and transparent partition 22 can protect high power infrared heating lamp 21.

Specifically, referring to fig. 2, the second disinfection and sterilization mechanism 4 includes an ultraviolet lamp mounting groove 23 disposed in the other side baffle 101, a plurality of ultraviolet lamps 24 are disposed in the ultraviolet lamp mounting groove 23, and a second transparent partition 25 is further disposed in the ultraviolet lamp mounting groove 23. The ultraviolet lamp 24 can emit ultraviolet rays into the thermotherapy compartment so that the sterilizing effect can be improved.

As shown in fig. 1, fig. 2 and fig. 4, the oxygen recovery mechanism 6 includes a plurality of vertical first oxygen recovery channels 26 disposed on both sides of the lifter plate groove 8, the top of the first oxygen recovery channel 26 is provided with a hidden air intake structure 27, the lower side of the first ozone transmission channel 7 is further provided with a second oxygen recovery channel 28, the second oxygen recovery channel 28 is connected with the first oxygen recovery channel 26 through a third oxygen recovery channel 29 disposed horizontally, and an exhaust port of the second oxygen recovery channel 28 is connected with the oxygen storage tank through a hose. The hidden air inlet structure 27 can prevent the patient from being affected during the thermotherapy, and the oxygen converted from ozone in the thermotherapy cabin can enter the oxygen storage tank for storage through the hidden air inlet structure 27, the second oxygen recovery channel 28, the third oxygen recovery channel 29 and the second oxygen recovery channel 28, so that the cost is reduced.

Specifically, the hidden air inlet structure 27 comprises an oxygen recovery tube 30 vertically inserted into the first oxygen recovery channel 26, the top of the oxygen recovery tube 30 is fixedly connected with an air inlet 31 embedded into the thermal therapy bed 102, air inlet holes 32 are horizontally arranged on two sides of the air inlet 31, the top of the air inlet 31 is flush with the top of the thermal therapy bed 102, and two ends of the air inlet 31 abut against the inner wall of the thermal therapy bed 102. During treatment, the air inlet head 31 is embedded in the thermal therapy bed and the top of the air inlet head is flush with the thermal therapy bed, so that the influence on a patient can be prevented.

Specifically speaking, the lateral part of first oxygen recovery channel 26 still is equipped with lift spout 33, the lateral part of oxygen recovery pipe 30 link firmly the lift stopper 34 of inserting in lift spout 33, lift spout 33 bottom be equipped with No. two lift drivers 35, the output shaft tip of No. two lift drivers 35 and lift stopper 34 bottom link firmly. When oxygen is collected, the second lifting driver 35 can drive the lifting limiting block 34 to vertically move upwards, and the lifting limiting block 34 can drive the oxygen recovery tube 30 and the air inlet head to move upwards so as to separate the air inlet holes on two sides of the air inlet head 31 from the thermal therapy bed, so that oxygen can enter the air inlet head.

Those skilled in the art will appreciate that the second lifting drive 35 can be a cylinder, a pneumatic cylinder, a linear motor, etc.

Preferably, as shown in fig. 2, the reverse arrangement of the exhaust port of the second oxygen recovery channel 28 and the intake port of the first ozone transmission channel 7 can prevent the hose and the external device on the second oxygen recovery channel 28 and the first ozone transmission channel 7 from influencing each other.

As shown in fig. 7, an infrared thermal therapy scheme optimizing system of an infrared thermal therapy device includes a cabin temperature monitoring module 117, a body temperature monitoring module 118 and a microcontroller 119, wherein the body temperature monitoring module 118 includes a plurality of body temperature sensors 120 disposed on a thermal therapy bed 102, and the cabin temperature monitoring module 117 includes a plurality of temperature sensors 121 disposed inside a left cover 103 or a right cover 104. Before the thermotherapy, the high-power infrared heating lamp 21 is used for preheating the interior of the thermotherapy cabin, the preheated temperature is recorded by the temperature sensor and uploaded to the temperature controller for recording, and the time required for the body temperature of the same patient to rise to the target temperature during the thermotherapy under different preheating temperatures is recorded by the microcontroller for multiple times for transverse comparison, so that the optimal infrared thermotherapy scheme can be obtained.

The working principle of the invention is as follows: the left cover body, the right cover body and the two side baffles 101 can form a sealed thermotherapy cabin on the upper side of the thermotherapy seat, the contact between a patient and the outside during thermotherapy can be reduced, so that the probability of infection of an external wound is reduced, the opening and closing of the thermotherapy cabin are controlled by the cover body driving mechanism 105, the cover body driving component can drive the right cover body to rotate into the left cover body, so that the thermotherapy cabin can be opened by a half, the patient can enter and lie on a thermotherapy bed, the requirement of equipment on the use environment space can be greatly reduced by rotating the right cover body to open the thermotherapy cabin, after the thermotherapy cabin is closed, the infrared irradiation device 2 can carry out whole-body infrared irradiation thermotherapy on the patient, the thermotherapy bed 102 is convexly arranged on the thermotherapy seat 100, two sides of the thermotherapy bed can abut against the left cover body 103 and the right cover body 104 to improve the sealing effect in the cabin, before the thermotherapy equipment is used, the right cover body 104 is closed by the cover body driving mechanism 105, the cabin is enabled to form a sealed environment, the first disinfection and sterilization mechanism 3 can convey ozone to the cabin to disinfect and sterilize equipment, the infrared high-temperature heating mechanism 5 can heat the cabin to raise the temperature in the cover body, the temperature in the cabin can be raised to decompose the ozone into oxygen, the oxygen recovery mechanism 6 can recover the oxygen to reduce the cost, and the second disinfection and sterilization mechanism 4 can emit ultraviolet rays to carry out secondary disinfection and sterilization on the thermal therapy equipment to further improve the sterilization effect;

the circumferential drivers 110 on the two side baffles can synchronously drive the two driving gears to rotate, the driving gears can drive the right cover body to rotate to the arc-shaped groove in the left cover body through the arc-shaped racks so as to open the thermotherapy cabin, at the moment, the right cover body is positioned in the left cover body and cannot additionally occupy the rest space in the environment prevented by equipment, the two circumferential drivers can reversely act to enable the right cover body to move out of the arc-shaped groove so as to close the thermotherapy cabin, the arc-shaped limiting groove 111 can limit the right cover body by matching with the arc-shaped limiting block 112, a plurality of infrared light sources in the first radiation lamp mounting groove 113 and the second radiation lamp mounting groove 114 can form 180-degree infrared radiation in the thermotherapy cabin, so that the whole body of a patient can be subjected to infrared radiation thermotherapy simultaneously, and the third transparent partition plate 116 can protect the infrared light sources;

when ozone disinfection is carried out, the lifting driving component 15 can drive the ozone transmission plate 9 to move upwards so as to enable the side air-out leakage-proof structure 14 to move to the upper part of the thermal therapy bed, the ozone generating device can input ozone into the first ozone transmission channel 7 through the hose, the ozone in the first ozone transmission channel 7 can be input into the thermal therapy cabin formed by the left cover body, the right cover body and the thermal therapy seat through the second ozone transmission channel 11, the first ozone transmission pipe 12, the ozone transmission cavity 10, the second ozone transmission pipe 13 and the side air-out leakage-proof structure 14 and disinfect the thermal therapy cabin, after disinfection is finished, the lifting driving component 15 drives the ozone plate to reset downwards so that the side air-out leakage-proof structure 14 and the inner wall of the thermal therapy bed are abutted to prevent the problem of ozone leakage during therapy, the third ozone transmission channel 17 in the air outlet head 16 can enable the ozone to be exhausted from two sides of the air outlet head, during treatment, the air outlet head 16 is embedded into the thermal treatment bed 102, two ends of the air outlet head are abutted against the inner wall of the thermal treatment bed, so that ozone leakage during treatment can be prevented, the first lifting drivers 18 can synchronously drive the ozone transmission plate 9 to lift along the vertical direction, and the limiting rod grooves are matched with the limiting rods to limit the ozone transmission plate;

the high-power infrared heating lamp 21 can heat the interior of the thermotherapy cabin, and compared with an infrared light source for thermotherapy, the high-power infrared heating lamp has higher heating efficiency and heating effect, the high-power infrared heating lamp can heat the temperature in the thermotherapy cabin to the temperature required by ozone to be quickly converted into oxygen, the first transparent partition plate 22 can protect the high-power infrared heating lamp 21, the ultraviolet lamp 24 can emit ultraviolet rays into the thermotherapy cabin so as to improve the disinfection effect, the hidden air inlet structure 27 can prevent the influence on a patient during thermotherapy, the oxygen converted from ozone in the thermotherapy cabin can enter the oxygen storage tank through the hidden air inlet structure 27, the second oxygen recovery channel 28, the third oxygen recovery channel 29 and the second oxygen recovery channel 28 to be stored, so as to reduce the cost, during the thermotherapy, the air inlet head 31 is embedded into the bed, and the top of the thermotherapy bed is flush with the thermotherapy bed so as to prevent the influence on the patient, when collecting oxygen, No. two lift drivers 35 can drive the vertical upward movement of lift stopper 34, thereby lift stopper 34 motion energy drives oxygen recovery tube 30 and the inlet port that the head of admitting air rebound and can make the head of admitting air 31 both sides break away from with the thermotherapy bed, thereby can make oxygen get into in the head of admitting air, No. two the gas vent of oxygen recovery passageway 28 and the air inlet of ozone transmission passageway 7 reverse setting, can prevent hose and external equipment on No. two oxygen recovery passageway 28 and the ozone transmission passageway 7 from influencing each other.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the present document mostly uses the infrared irradiation device 2, the first disinfection and sterilization mechanism 3, the second disinfection and sterilization mechanism 4, the infrared high-temperature heating mechanism 5, the oxygen recovery mechanism 6, the first ozone transmission channel 7, the lifting plate groove 8, the ozone transmission plate 9, the ozone transmission chamber 10, the second ozone transmission channel 11, the first ozone transmission tube 12, the second ozone transmission tube 13, the side air-out leakage-proof structure 14, the lifting driving component 15, the air outlet head 16, the third ozone transmission channel 17, the first lifting driver 18, the limiting rod 19, the heating lamp installation groove 20, the high-power infrared heating lamp 21, the first transparent partition plate 22, the ultraviolet lamp installation groove 23, the ultraviolet lamp 24, the second transparent partition plate 25, the first oxygen recovery channel 26, the hidden air inlet structure 27, the second oxygen recovery channel 28, the third oxygen recovery channel 29, the oxygen recovery tube 30, the air inlet head 31, The air inlet hole 32, the lifting chute 33, the lifting limiting block 34, the second lifting driver 35, the thermal therapy base 100, the side baffle 101, the thermal therapy bed 102, the left cover body 103, the right cover body 104, the cover body driving mechanism 105, the arc-shaped groove 106, the arc-shaped rack 107, the gear box 108, the driving gear 109, the circumferential driver 110, the arc-shaped limiting groove 111, the arc-shaped limiting block 112, the first irradiation lamp mounting groove 113, the second irradiation lamp mounting groove 114, the infrared light source 115, the third transparent partition 116, etc., which are used only for conveniently describing and explaining the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. An infrared thermal therapy device comprises a thermal therapy seat (100), and is characterized in that a left cover body (103) and a right cover body (104) are arranged on the thermal therapy seat (100), the left cover body (103) is fixed on the thermal therapy seat (100), the thermal therapy seat (100) is also provided with a cover body driving mechanism (105) which can drive the right cover body (104) to move into the left cover body (103), the left cover body (103) and the right cover body (104) are provided with infrared irradiation devices (2), the top of the thermal therapy seat (100) is also provided with two side baffles (101) which are hermetically connected with the left cover body (103) and the right cover body (104), the top of the thermal therapy seat (100) is provided with a thermal therapy bed (102), the thermal therapy bed (102) is convexly arranged on the thermal therapy seat (100), two sides of the thermal therapy bed (102) can be abutted against the left cover body (103) and the right cover body (104), and the thermal therapy seat (100) is also provided with a disinfection device.

2. An infrared thermal therapy device according to claim 1, characterized in that the cross-section of the left cover (103) and the right cover (104) is arc-shaped and has the same radian, the cross-section of the side baffle (101) is semi-circular, the inner ends of the two side baffles (101) abut against the two sides of the left cover (103), the inner wall of the right cover (104) abuts against the arc-shaped surface of the side baffle (101), the cover driving mechanism (105) comprises an arc-shaped groove (106) arranged in the left cover (103), the arc-shaped groove (106) is arranged outside the joint of the left cover (103) and the side baffles (101) and penetrates through the left cover (103), one side of the right cover (104) is inserted into the arc-shaped groove (106) and the two ends of the right cover protrude out from the two sides of the arc-shaped groove (106), the right cover (104) protrudes from the inner side of the arc-shaped groove (106) and the side baffles (101) abut against each other and the outer side of the arc-shaped groove (106) is provided with an arc-shaped rack (107), side shield (101) on still linked firmly gear box (108), gear box (108) in be equipped with drive gear (109) of arc rack (107) meshing, gear box (108) outside still linked firmly circumferential direction driver (110) that link to each other with drive gear (109).

3. An infrared thermal therapy device according to claim 2, characterized in that a plurality of arc-shaped limiting grooves (111) are further provided on the outer side of the arc-shaped groove (106), and a plurality of arc-shaped limiting blocks (112) corresponding to the arc-shaped limiting grooves (111) are fixedly connected to the left cover body (103).

4. The infrared thermotherapy apparatus according to claim 2, wherein the infrared irradiation device (2) comprises a first irradiation lamp mounting groove (113) disposed in the left housing (103) and a second irradiation lamp mounting groove (114) disposed in the right housing (104), the first irradiation lamp mounting groove (113) and the second irradiation lamp mounting groove (114) are arc-shaped in cross section, a plurality of infrared light sources (115) are disposed in the first irradiation lamp mounting groove (113) and the second irradiation lamp mounting groove (114), and a third transparent partition (116) having an arc-shaped cross section is further disposed in the first irradiation lamp mounting groove (113) and the second irradiation lamp mounting groove (114).

5. The infrared thermal therapy device according to any one of claims 1 to 4, wherein the sterilizing device comprises a first sterilizing mechanism (3) for delivering ozone into the left and right housings (103, 104), a second sterilizing mechanism (4) and an infrared high temperature heating mechanism (5) are respectively disposed at the inner sides of the two side baffles (101), an oxygen recovery mechanism (6) is further disposed in the thermal therapy base (100), the first sterilizing mechanism (3) comprises a first ozone transmission channel (7) horizontally disposed in the thermal therapy base (100), an air inlet of the first ozone transmission channel (7) is connected with the ozone generating device through a hose, a lifting plate groove (8) is disposed at the upper side of the first ozone transmission channel (7), and an ozone transmission plate (9) is disposed in the lifting plate groove (8), an ozone transmission cavity (10) is arranged in the ozone transmission plate (9), a second ozone transmission channel (11) is vertically arranged between the lifting plate groove (8) and the first ozone transmission channel (7), the bottom of the ozone transmission plate (9) is fixedly connected with a first ozone transmission pipe (12) which is inserted into the second ozone transmission channel (11) and is connected with the ozone transmission cavity (10), a plurality of second ozone transmission pipes (13) which are connected with the ozone transmission cavity (10) are vertically arranged at the top of the ozone transmission plate (9), a side air outlet leakage-proof structure (14) is arranged at the top of each second ozone transmission pipe (13), and a lifting driving assembly (15) connected with the ozone transmission plate (9) is further arranged at the lower side of the lifting plate groove (8);

the side air outlet leakage-proof structure (14) comprises an air outlet head (16) embedded on the thermal therapy bed (102), the top of the air outlet head (16) is flush with the thermal therapy bed (102), a third ozone transmission channel (17) with a T-shaped section is arranged in the air outlet head (16), the bottom of the third ozone transmission channel (17) is connected with a second ozone transmission pipe (13), and two ends of the air outlet head (16) are abutted against the thermal therapy bed (102);

lift drive assembly (15) including a plurality of lifting drive ware (18) of setting at lifter plate groove (8) downside, lifting drive ware (18) have the output shaft that can follow vertical direction and go up and down, the output shaft tip of a lifting drive ware (18) links firmly with ozone transmission board (9), lifter plate groove (8) bottom still be equipped with the gag lever post groove of a plurality of vertical settings, ozone transmission board (9) bottom link firmly a plurality of gag lever posts (19) that insert to the gag lever post inslot.

6. An infrared thermal treatment device according to any one of claims 1 to 5, wherein the infrared high temperature heating means (5) comprises a heating lamp installation groove (20) provided in the side shield (101), a plurality of high power infrared heating lamps (21) are provided in the heating lamp installation groove (20), and a number one transparent partition plate (22) is further provided in the heating lamp installation groove (20).

7. An infrared thermal therapy device according to claim 6, characterized in that said second disinfection and sterilization means (4) comprises an ultraviolet lamp mounting groove (23) provided in another side barrier (101), said ultraviolet lamp mounting groove (23) being provided with a plurality of ultraviolet lamps (24), said ultraviolet lamp mounting groove (23) being further provided with a second transparent partition (25).

8. An infrared thermal therapy apparatus according to claim 5, wherein said oxygen recovery mechanism (6) comprises a plurality of first oxygen recovery channels (26) vertically disposed at both sides of the lifting plate slot (8), a hidden air intake structure (27) is disposed at the top of said first oxygen recovery channels (26), a second oxygen recovery channel (28) is further disposed at the lower side of said first ozone transmission channel (7), said second oxygen recovery channel (28) is connected to said first oxygen recovery channel (26) through a third horizontally disposed oxygen recovery channel (29), and the exhaust port of said second oxygen recovery channel (28) is connected to the oxygen storage tank through a hose.

9. An infrared thermal therapy device according to claim 8, characterized in that the hidden air intake structure (27) comprises an oxygen recovery tube (30) vertically inserted into the first oxygen recovery channel (26), the top of the oxygen recovery tube (30) is fixedly connected with an air intake head (31) embedded into the thermal therapy bed (102), air intake holes (32) are horizontally arranged at two sides of the air intake head (31), the top of the air intake head (31) is flush with the top of the thermal therapy bed (102) and two ends of the air intake head (31) abut against the inner wall of the thermal therapy bed (102);

a oxygen recovery passageway (26) lateral part still be equipped with lift spout (33), oxygen recovery pipe (30) lateral part link firmly lift stopper (34) of inserting in lift spout (33), lift spout (33) bottom be equipped with No. two lift drivers (35), the output shaft tip of No. two lift drivers (35) link firmly with lift stopper (34) bottom.

10. An infrared thermal treatment protocol optimizing system of an infrared thermal treatment apparatus, comprising a chamber temperature monitoring module (117), a body temperature monitoring module (118) and a microcontroller (119), wherein the body temperature monitoring module (118) comprises a plurality of body temperature sensors (120) disposed on a thermal treatment bed (102) of the infrared thermal treatment apparatus according to any one of claims 1 to 9, and the chamber temperature monitoring module (117) comprises a plurality of temperature sensors (121) disposed inside a left housing (103) or a right housing (104).

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