CN116831846A - Micro-pressure physiotherapy oxygen cabin convenient for adjusting temperature in cabin - Google Patents

Abstract

The invention discloses a micro-pressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin, which comprises an oxygen cabin body, wherein a physiotherapy cavity is preset in the oxygen cabin body, a protection top plate is fixedly arranged at the upper end of the oxygen cabin body, an extension supporting frame is fixedly arranged at the side position of the lower end of the outer part of the oxygen cabin body, a positioning supporting plate is fixedly arranged at the side position of the front surface of the outer part of the oxygen cabin body, a sliding association groove is transversely formed at the lower end position of the inner side of the physiotherapy cavity, a transmission gear is movably arranged in the extension supporting frame, a driven gear is movably arranged at the side position of the lower end of the inner part of the oxygen cabin body, and a transmission chain belt is movably connected between the transmission gear and the driven gear. The cabinet type oxygen cabin breaks through the structural limitation of the traditional oxygen cabin, and the cabin door is designed to be of a chain transmission opening and closing structure, so that the overall applicability of the equipment is effectively enlarged, and the overall use functionality is enriched.

Description

Micro-pressure physiotherapy oxygen cabin convenient for adjusting temperature in cabin

Technical Field

The invention relates to the technical field of micro-pressure oxygen applying cabins, in particular to a micro-pressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin.

Background

The micro-pressure oxygen cabin is one kind of high pressure oxygen cabin, and is one kind of medical physiotherapy oxygen cabin for physiotherapy of user with micro-high pressure, and is one physiotherapy equipment for physical state regulation of physiotherapy user with micro-high pressure.

Through retrieval, chinese patent publication No. CN110638594A discloses a micro-pressure oxygen cabin, which comprises a cabin body and a chassis which are connected through a gas pipe, wherein an oxygen generating device is arranged in the chassis, oxygen manufactured by the oxygen generating device is conveyed into the cabin body through the gas pipe, a cavity for accommodating oxygen and a human body is arranged in the cabin body, and an opening for the human body to come in and go out is formed in the side wall of the cabin body, so that the human body can conveniently enter the cabin body through the opening to perform high-pressure oxygen treatment; the cabin body is of a double-layer structure and comprises an outer layer and an inner layer structure, wherein the cavity is positioned in the inner layer, and the outer surface area of the inner layer is not smaller than the inner surface area of the outer layer; when the cavity is filled with oxygen, the inner layer is attached to the inner side surface of the outer layer under the pressure of the oxygen, so that the air pressure born by the inner layer is transferred to the outer layer. "

However, most of the micro-pressure oxygen tanks and the existing micro-pressure oxygen tanks in the existing market adopt capsule type tank structures, the internal physiotherapy space is limited, the psychology of a user who carries out micro-pressure physiotherapy is easy to generate a relatively depressed emotion, normal continuous operation of physiotherapy operation is not facilitated, the internal physiotherapy environment is inconvenient to carry out proper adjustment operation according to specific use requirements or user self adjustment, the use functionality is correspondingly limited to a certain extent, the internal pressure, the temperature and the oxygen amount are difficult to properly adjust according to specific use conditions, the internal environment of the micro-pressure oxygen tank reaches an ideal state, and the applicability is correspondingly affected to a certain extent.

Based on the above, we propose a micro-pressure physiotherapy oxygen cabin which is convenient for adjusting the temperature in the cabin to solve the above problems.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been developed in view of the above-described and/or existing problems in micro-pressure oxygen chamber design.

Therefore, one of the purposes of the application is to provide a micropressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin, which breaks through the structural limitation of the traditional oxygen cabin, on the basis of expanding the internal space, the physiotherapy experience of a user is promoted, the use condition of pressing psychology is not generated in the physiotherapy process by the user due to the small internal space, the internal space is increased, the whole oxygen cabin can be arranged for auxiliary equipment such as physiotherapy chairs and the like in the inside of the physiotherapy cavity according to the actual use requirement, the use functionality is enriched, the cabin door structure is optimized and improved, the cabin door is realized by utilizing a multi-stage folding structure which is mutually related through a multi-stage hinge, the use effect of rapid folding and opening can be realized by utilizing the cabin door on the basis of ensuring the internal tightness of the oxygen cabin body under the addition of the chain transmission structure, the whole comprehensive use performance of the equipment is effectively improved, meanwhile, the supercharging unit and the air conditioner are additionally arranged in the oxygen cabin, the relevant environment components are correspondingly arranged, the oxygen cabin can be used for adjusting the physiotherapy equipment in the proper use condition according to the specific use requirement in the physical therapy cavity, the outside environment is not normally assembled, the protection environment is not normally, the use environment is protected by the whole equipment is not normally, and the protection environment is not normally adjusted, and the whole equipment is not used in the physical environment is properly is protected, and the whole equipment is not normally used, and the equipment is properly adjusted.

In order to achieve the above effects, the present invention provides the following technical solutions: the utility model provides a micro-pressure physiotherapy oxygen cabin convenient to adjust temperature in cabin, includes the oxygen cabin body, the inside of oxygen cabin body is preset the physiotherapy chamber, the upper end fixed mounting of oxygen cabin body has the protection roof, the avris position of the external lower extreme of oxygen cabin body is fixed mounting has the extension braced frame, the avris position of the external front of oxygen cabin body is fixed mounting has the location extension braced plate, the lower extreme position of the internal outside of physiotherapy chamber transversely has seted up the slip association groove, the internally movable mounting of extension braced frame has drive gear, the avris position movable mounting of the internal lower extreme of oxygen cabin has driven gear, swing joint has the drive chain strip between drive gear and the driven gear, the intermediate position fixed mounting of the external avris of oxygen cabin body has the distribution control box, the top fixed mounting of physiotherapy intracavity has the booster unit oxygen supply, the avris position fixed mounting of the internal outside of physiotherapy chamber has the metal detection subassembly, the avris position movable mounting of location braced plate has the folding association door plant of one-level, the folding association door plant of the opposite side position movable mounting of the folding association door plant of two-level, folding association door plant three-level folding association three-level door plant movable mounting of folding association of door plant of two-level association.

Through breaking through the structural limitation of current oxygen cabin, adopt cabinet type cabin body structure for the inner space in physiotherapy chamber is sufficient, can be used for placing physiotherapy auxiliary assembly such as physiotherapy chair, is favorable to promoting user's comprehensive use and experiences.

As a preferred embodiment of the present invention, wherein: the device comprises an oxygen cabin body, wherein balance support legs are symmetrically and fixedly arranged at the corners of the bottom of the oxygen cabin body, embedding grooves are symmetrically formed in the two sides of the upper end of the oxygen cabin body, alignment assembly support blocks are fixedly arranged at the upper ends of the embedding grooves, the bottom specifications of the alignment assembly support blocks are matched with the in-groove specifications of the embedding grooves in a corresponding manner, positioning fastening screw holes are formed in the side positions of the bottoms of the embedding grooves and the alignment assembly support blocks, positioning fastening bolts are movably arranged outside the positioning fastening screw holes, the positioning fastening bolts penetrate through the bottoms of the alignment assembly support blocks and are connected with the positioning fastening screw holes, and the hole specifications of the positioning fastening screw holes are matched with the external thread specifications of the positioning fastening bolts;

through the symmetry fixed mounting structure of balanced stabilizer blade in oxygen cabin body bottom, the support stability of the whole in normal use work of oxygen cabin body has been guaranteed to the at utmost, and the assembly structure of counterpoint adaptation between gomphosis groove and the counterpoint assembly piece is favorable to the high-efficient assembly stability that promotes counterpoint assembly piece in oxygen cabin body upper end.

As a preferred embodiment of the present invention, wherein: the sliding connection groove is communicated with the inside of the lower end of the oxygen cabin body, the transmission gear and the driven gear are meshed and connected with each other in the transmission chain belt, and the transmission gear is movably connected with the driven gear through the transmission chain belt;

through the structural feature of extension braced frame self to and move the outside mounting structure of door driving motor at extension braced frame, combine again and move connection structure between door driving motor output shaft and the drive gear, can be on the basis that does not influence the whole performance of oxygen cabin body, richened the holistic service functionality of this equipment greatly.

As a preferred embodiment of the present invention, wherein: the upper end of the alignment assembly support block is provided with an alignment insertion groove, two side positions of the bottom of the protection top plate are symmetrically and fixedly provided with an insertion connection support block, the fixed installation position of the insertion connection support block at the bottom of the protection top plate corresponds to the fixed installation position of the alignment assembly support block at the upper end of the oxygen cabin body, the external specification of the insertion connection support block is matched with the in-groove specification of the alignment insertion groove, two side positions of the outer side of the alignment assembly support block are symmetrically provided with an assembly threaded hole, two side positions of the inner side of the alignment assembly support block are symmetrically and fixedly provided with a threaded sleeve, the outer side of the insertion connection support block is symmetrically provided with a limit assembly hole, the outer side of the assembly threaded hole is movably provided with a limit fastening bolt, the limit fastening bolt penetrates through the assembly threaded hole and the limit assembly hole and is in threaded connection with the threaded sleeve, and meanwhile the internal thread specification of the threaded sleeve is matched with the external thread specification of the limit fastening bolt;

Through having adopted the counterpoint assembly structure between counterpoint assembly piece and the oxygen cabin body and the counterpoint assembly structure between protection roof and the assembly piece for this equipment can select counterpoint assembly piece and protection roof whole to carry out the cartridge at the oxygen cabin body according to specific user demand, be favorable to promoting the holistic suitability of oxygen cabin body, can carry out self external structure's suitable adjustment according to actual operational environment, and carry out firm screw thread assembly connection through positioning fastening bolt in oxygen cabin body upper end between counterpoint assembly piece and the oxygen cabin body, counterpoint assembly piece carries out firm counterpoint screw thread assembly connection through spacing fastening bolt between counterpoint assembly piece and the protection roof, assurance assembly stability between assembly piece and the oxygen cabin body and between protection roof and the assembly piece that all can very big degree.

As a preferred embodiment of the present invention, wherein: the positioning support plate is movably connected with the primary folding related door plate through the primary related hinge, and a sealing observation window is fixedly arranged outside the primary folding related door plate;

Through having add sealed observation window in the outside of the folding association door plant of one-level for on the whole inside leakproofness of oxygen cabin body obtained effective guarantee, can carry out audio-visual observation to the user's of oxygen cabin body user's user state through sealed observation window from the outside.

As a preferred embodiment of the present invention, wherein: the air conditioner is characterized in that an air pressure sensor is fixedly arranged at the upper end position of the inner wall of the inner side of the oxygen cabin body, an oxygen amount concentration detection assembly is fixedly arranged at the side position of the air pressure sensor, an air conditioner external pipe hole is preset at the upper end position of the side of the oxygen cabin body, the opening position of the air conditioner external pipe hole at the side of the oxygen cabin body corresponds to the fixed mounting position of an air conditioner internal machine in the oxygen cabin body, a pressurizing connecting pipe hole is preset at one side position of the upper end of the air conditioner external pipe hole, an oxygen supply connecting pipe hole is preset at the other side position of the upper end of the air conditioner external pipe hole, and the opening heights of the oxygen supply connecting pipe hole and the pressurizing connecting pipe hole at the outer part of the oxygen cabin body correspond to the fixed mounting height of a pressurizing oxygen supply unit in the oxygen cabin body;

through having seted up external tube hole of air conditioner, pressure boost connecting tube hole and oxygen suppliment connecting tube hole respectively in the outside corresponding position of oxygen cabin body, guaranteed that air conditioner internal unit and pressure boost oxygen suppliment unit can possess normal performance through external connection in the oxygen cabin body inside, enriched holistic use functionality.

As a preferred embodiment of the present invention, wherein: the electronic coded lock comprises a first-stage folding association door plate, a second-stage folding association door plate, a third-stage folding association door plate and an alarm loudspeaker, wherein the second-stage association hinge is fixedly connected to the outer side of the first-stage folding association door plate and the outer side of the second-stage folding association door plate, the first-stage folding association door plate is movably connected with the second-stage folding association door plate through the second-stage association hinge, the third-stage folding association door plate is fixedly connected with the inner side of the third-stage folding association door plate through the third-stage association hinge, a touch panel is fixedly arranged at the upper end position of the front side of the outer part of the second-stage folding association door plate, the touch panel is electrically connected with a distribution control box, the alarm loudspeaker is fixedly arranged at the upper end position of one side of the front side of the third-stage folding association door plate, the alarm loudspeaker is electrically connected with the metal detection assembly, and the electronic coded lock is fixedly arranged at the middle position of the other side of the front side of the third-stage folding association door plate;

through adopting electronic coded lock, at the door plant is associateed to the one-level folding, the hinge is associateed to the second grade and the door plant is associateed to the second grade is wholly with multistage beta structure on the outside basis as the hatch door of oxygen cabin body, can utilize the counterpoint adaptation structure between counterpoint lockhole and the associated tapered end for the safety in utilization of this oxygen cabin has obtained very big degree promotion.

As a preferred embodiment of the present invention, wherein: the middle position of the side of the inside of the oxygen cabin body is pre-provided with an alignment lock hole, the middle position of the side of the three-stage folding association door plate is pre-provided with an association lock head, the association lock head corresponds to the preset position of the side of the three-stage folding association door plate and the opening position of the alignment lock hole in the inside of the oxygen cabin body, and the positioning support plate, the one-stage folding association door plate, the two-stage folding association door plate and the three-stage folding association door plate are integrally of multi-stage folding structures which are respectively associated through a one-stage association hinge, a two-stage association hinge and a three-stage association hinge;

as a preferred embodiment of the present invention, wherein: the side position of the bottom of the primary folding association door plate is movably provided with a secondary guide connecting rod, the secondary guide connecting rod is rotatably and movably arranged at the side position of the bottom of the primary folding association door plate, the side position of the bottom of the tertiary folding association door plate is movably provided with a primary guide connecting rod, the side position of the bottom of the tertiary folding association door plate is rotatably and movably arranged, the external specifications of the primary guide connecting rod and the secondary guide connecting rod are mutually matched with the specifications in the groove of the sliding association groove, the bottom of the primary guide connecting rod is fixedly provided with a transmission rack, the transmission rack penetrates through the sliding association groove and is mutually meshed with a transmission chain belt, the bottom of the secondary guide connecting rod is fixedly provided with a sliding connecting block, and the secondary guide connecting rod is mutually connected with the sliding association groove in a sliding manner through the sliding connecting block;

Through the hatch door with the oxygen cabin body adopts location extension board, the folding door plant that associates of one-level, the folding door plant that associates of two-level and the folding structure of the mutual swing joint of three-level folding door plant that associates, on having guaranteed the inside sealed environment's of oxygen cabin body in the normal use of oxygen cabin body basis, can hold under drive chain strip's drive gear and driven gear's transmission structure add, realize carrying out the result of use that opens and shuts fast to oxygen cabin body hatch door according to specific user demand.

As a preferred embodiment of the present invention, wherein: the air conditioner comprises an air conditioner inner unit, an air pressure sensor, an oxygen concentration detection assembly, a touch panel, a door moving driving motor, a protective top plate, a digital display temperature sensor, an arc-shaped diversion trench, a door moving driving motor and a control panel, wherein the digital display temperature sensor is preset outside the air conditioner inner unit, the air pressure sensor, the oxygen concentration detection assembly and the digital display temperature sensor are all electrically connected with the touch panel;

through preset digital display temperature sensor in the air conditioner interior machine outside for the air conditioner interior machine can carry out real-time supervision to internal environment temperature on self possesses the basis that carries out the regulation to oxygen cabin body inside temperature, and air pressure sensor, oxygen volume concentration detection subassembly and digital display temperature sensor all with the touch panel between the electric connection structure, make probably do not establish the whole pressure, oxygen volume and the temperature that can carry out real-time supervision operation to oxygen cabin body inside through the touch panel from the outside, in order to guarantee that the equipment is whole can carry out the suitable regulation operation of internal environment condition to oxygen cabin body according to oxygen cabin body real-time supervision data in normal use work, can obtain very comfortable experience effect when guaranteeing that the user carries out the micropressure physiotherapy operation in oxygen cabin body inside, and the offer the structure of protection roof upper end arc guiding gutter, make the protection roof can have extremely strong outside protection effect at this equipment, be applicable to outdoor physiotherapy operation, no longer receive external environment's restriction, and then guaranteed that this equipment can carry out the water conservancy diversion to the roof both ends under the self structural feature of arc guiding gutter under outdoor rainy day environment.

The invention has the beneficial effects that: the cabinet type cabin body is adopted, the structural limitation of the traditional oxygen cabin is broken through, on the basis of expanding the internal space, the physiotherapy experience of a user is improved, the situation that the user is pressed and psychological in the physiotherapy process due to the fact that the internal space is too small is avoided, the internal space is increased, the whole oxygen cabin can be arranged in the physiotherapy cavity according to actual use requirements for auxiliary equipment such as physiotherapy chairs, the whole oxygen cabin is beneficial to enriching the whole use functionality, the cabin door structure is optimized and improved, the cabin door is enabled to achieve the use effect of being folded and unfolded quickly on the basis of guaranteeing the internal tightness of the oxygen cabin body by means of the multi-stage folding structure which is additionally arranged on the chain transmission structure, the whole comprehensive use performance of the equipment is effectively improved, meanwhile, the supercharging unit and the air conditioner inner machine are additionally arranged in the oxygen cabin, the relevant environment monitoring assembly is correspondingly arranged in the physiotherapy process, the whole oxygen cabin inner environment can be properly regulated according to the specific use requirements, the whole physiotherapy equipment can be conveniently lifted, the whole use environment can be effectively improved, the whole physiotherapy equipment can be assembled and disassembled and assembled on the outside in the physiotherapy process, the outdoor equipment can be prevented from being normally, the use environment can be protected, and the whole use environment can be protected, the whole equipment can be protected, and the use environment can be normally is protected, and the use environment can be protected.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

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

FIG. 2 is a schematic view of a split structure of a protective top plate according to the present invention;

FIG. 3 is a schematic view showing the structure of the cabin door in the opened state;

FIG. 4 is a schematic diagram of the overall lateral structure of the present invention;

FIG. 5 is a schematic view of the overall unfolded structure of the folding door of the present invention;

FIG. 6 is a schematic view showing the overall folding state structure of the folding door of the present invention;

FIG. 7 is a schematic view of the internal transmission mechanism of the oxygen cabin of the present invention;

FIG. 8 is a schematic view of the front internal structure of the oxygen chamber of the present invention;

FIG. 9 is a schematic view of the side internal structure of the oxygen chamber of the present invention;

FIG. 10 is a schematic view of the assembly structure of the drive chain of the present invention;

FIG. 11 is an enlarged schematic view of the structure of FIG. 7A according to the present invention;

FIG. 12 is an enlarged schematic view of the structure of FIG. 3B according to the present invention;

fig. 13 is an enlarged view of the structure of fig. 6C according to the present invention.

Reference numerals in the drawings: 1. an oxygen chamber body; 2. balance support legs; 3. a physiotherapy cavity; 4. a fitting groove; 5. extending the support frame; 6. positioning a support plate; 7. a sliding association groove; 8. assembling the support blocks in an alignment way; 9. a transmission gear; 10. a sliding door driving motor; 11. a driven gear; 12. a first stage folding associated door panel; 13. positioning and fastening screw holes; 14. a protective top plate; 15. assembling the threaded hole; 16. a threaded sleeve; 17. a pressurizing oxygen supply unit; 18. the air conditioner is externally connected with a pipe hole; 19. a power distribution control box; 20. an air conditioner indoor unit; 21. a metal detection assembly; 22. an air pressure sensor; 23. an oxygen amount concentration detection component; 24. a secondary folding associated door panel; 25. sealing the observation window; 26. positioning a fastening bolt; 27. arc-shaped diversion trenches; 28. inserting and connecting the supporting blocks; 29. a limit fastening bolt; 30. a first level of associated hinges; 31. a secondary associated hinge; 32. a touch panel; 33. three-stage folding associated door panels; 34. three-level association hinges; 35. an alarm speaker; 36. limiting the assembly holes; 37. an electronic coded lock; 38. a digital display temperature sensor; 39. a drive chain belt; 40. a primary guide link; 41. a secondary guide link; 42. a drive rack; 43. a sliding connection block; 44. aligning the lock holes; 45. associating a lock head; 46. an alignment insertion groove; 47. the supercharging connecting pipe hole; 48. oxygen supply connecting pipe holes.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 13, in a first embodiment of the present invention, a micro-pressure physiotherapy oxygen cabin is provided, which is convenient for adjusting the temperature in the cabin, and comprises an oxygen cabin body 1, wherein a physiotherapy cavity 3 is preset in the oxygen cabin body 1, a protection top plate 14 is fixedly arranged at the upper end of the oxygen cabin body 1, an extension supporting frame 5 is fixedly arranged at the side position of the lower end of the outer part of the oxygen cabin body 1, a positioning supporting plate 6 is fixedly arranged at the side position of the front of the outer part of the oxygen cabin body 1, a sliding association groove 7 is transversely arranged at the lower end position of the outer side of the inner part of the physiotherapy cavity 3, a transmission gear 9 is movably arranged in the extension supporting frame 5, a driven gear 11 is movably arranged at the side position of the lower end of the inner part of the oxygen cabin body 1, a transmission chain strip 39 is movably connected between the transmission gear 9 and the driven gear 11, an electric distribution control box 19 is fixedly arranged in the middle of the outer side of the oxygen cabin body 1, a pressurizing oxygen supply unit 17 is fixedly arranged at the top of the inside of the physiotherapy cavity 3, a metal detection assembly 21 is fixedly arranged at the side of the inner side of the physiotherapy cavity 3, a first-stage folding association door plate 12 is movably arranged at the side of the positioning support plate 6, a second-stage folding association door plate 24 is movably arranged at the other side of the first-stage folding association door plate 12, and a third-stage folding association door plate 33 is movably arranged at the other side of the second-stage folding association door plate 24;

The corner position of the bottom of the oxygen cabin body 1 is symmetrically and fixedly provided with balance support legs 2, the two side positions of the upper end of the oxygen cabin body 1 are symmetrically provided with jogging grooves 4, the upper end of each jogging groove 4 is fixedly provided with an alignment assembly support block 8, the bottom specifications of each alignment assembly support block 8 are matched with the in-groove specifications of each jogging groove 4, the side positions of the bottoms of each jogging groove 4 and each alignment assembly support block 8 are respectively provided with a positioning fastening screw hole 13, the outside of each positioning fastening screw hole 13 is movably provided with a positioning fastening bolt 26, each positioning fastening bolt 26 penetrates through the bottom of each alignment assembly support block 8 and is connected with each positioning fastening screw hole 13, and the in-hole specifications of each positioning fastening screw hole 13 are matched with the external thread specifications of each positioning fastening bolt 26;

the extension support frame 5 is communicated with the inside of the lower end of the oxygen cabin body 1, a sliding door driving motor 10 is fixedly arranged outside the extension support frame 5, an output shaft of the sliding door driving motor 10 penetrates through the extension support frame 5 and is fixedly connected with a transmission gear 9 inside the extension support frame, the sliding association groove 7 is communicated with the inside of the lower end position of the oxygen cabin body 1, the transmission gear 9 and a driven gear 11 are meshed with each other inside a transmission chain belt 39, and the transmission gear 9 is movably connected with the driven gear 11 through the transmission chain belt 39;

The upper end of the alignment assembly support block 8 is provided with an alignment insertion groove 46, two side positions of the bottom of the protection top plate 14 are symmetrically and fixedly provided with an insertion connection support block 28, the fixed installation position of the insertion connection support block 28 at the bottom of the protection top plate 14 corresponds to the fixed installation position of the alignment assembly support block 8 at the upper end of the oxygen cabin body 1, the external specification of the insertion connection support block 28 is matched with the in-groove specification of the alignment insertion groove 46, two side positions of the outer side of the alignment assembly support block 8 are symmetrically provided with an assembly threaded hole 15, two side positions of the inner side of the alignment assembly support block 8 are symmetrically and fixedly provided with a threaded sleeve 16, the outer side of the insertion connection support block 28 is symmetrically provided with a limit assembly hole 36, the outer side of the assembly threaded hole 15 is movably provided with a limit fastening bolt 29, the limit fastening bolt 29 passes through the assembly threaded hole 15 and the limit assembly hole 36 and is in threaded connection with the threaded sleeve 16, and meanwhile the internal thread specification of the threaded sleeve 16 is correspondingly matched with the external thread specification of the limit fastening bolt 29;

a primary correlation hinge 30 is fixedly arranged at the inner side position between the positioning support plate 6 and the primary folding correlation door plate 12, the positioning support plate 6 is movably connected with the primary folding correlation door plate 12 through the primary correlation hinge 30, and a sealing observation window 25 is fixedly arranged outside the primary folding correlation door plate 12;

The upper end position of the inner wall of the inner side of the oxygen cabin body 1 is fixedly provided with an air pressure sensor 22, the side position of the air pressure sensor 22 is fixedly provided with an oxygen concentration detection assembly 23, the upper end position of the side of the oxygen cabin body 1 is preset with an air conditioner external pipe hole 18, the opening position of the air conditioner external pipe hole 18 at the side of the oxygen cabin body 1 corresponds to the fixed mounting position of the air conditioner internal unit 20 in the oxygen cabin body 1, one side position of the upper end of the air conditioner external pipe hole 18 is preset with a pressurizing connecting pipe hole 47, the other side position of the upper end of the air conditioner external pipe hole 18 is preset with an oxygen supply connecting pipe hole 48, and the opening height of the oxygen supply connecting pipe hole 48 and the pressurizing connecting pipe hole 47 at the outer part of the oxygen cabin body 1 corresponds to the fixed mounting height of the pressurizing oxygen supply unit 17 in the oxygen cabin body 1;

the outside position between the first-stage folding association door plate 12 and the second-stage folding association door plate 24 is fixedly connected with a second-stage association hinge 31, the first-stage folding association door plate 12 is movably connected with the second-stage folding association door plate 24 through the second-stage association hinge 31, the inside position between the second-stage folding association door plate 24 and the third-stage folding association door plate 33 is fixedly connected with a third-stage association hinge 34, the second-stage folding association door plate 24 is mutually interactively connected with the third-stage folding association door plate 33 through the third-stage association hinge 34, the upper end position of the front surface of the outside of the second-stage folding association door plate 24 is fixedly provided with a touch panel 32, the touch panel 32 is electrically connected with the distribution control box 19, the upper end position of one side of the front surface of the third-stage folding association door plate 33 is fixedly provided with an alarm loudspeaker 35, the alarm loudspeaker 35 is electrically connected with the metal detection assembly 21, and the middle position of the other side of the front surface of the third-stage folding association door plate 33 is fixedly provided with an electronic coded lock 37;

The middle position of the side of the inside of the oxygen cabin body 1 is provided with an alignment lock hole 44 in advance, the middle position of the side of the three-stage folding association door plate 33 is provided with an association lock 45 in advance, the association lock 45 corresponds to the preset position of the side of the three-stage folding association door plate 33 and the opening position of the alignment lock hole 44 in the inside of the oxygen cabin body 1, and the positioning support plate 6, the one-stage folding association door plate 12, the two-stage folding association door plate 24 and the three-stage folding association door plate 33 are integrally of a multi-stage folding structure which are respectively associated with each other through a one-stage association hinge 30, a two-stage association hinge 31 and a three-stage association hinge 34;

the side position of the bottom of the primary folding association door plate 12 is movably provided with a secondary guide connecting rod 41, the secondary guide connecting rod 41 is rotatably and movably arranged at the side position of the bottom of the primary folding association door plate 12, the side position of the bottom of the tertiary folding association door plate 33 is movably provided with a primary guide connecting rod 40, the side position of the bottom of the tertiary folding association door plate 33 is rotatably and movably arranged, the external specifications of the primary guide connecting rod 40 and the secondary guide connecting rod 41 are mutually matched with the specifications in the sliding association groove 7, the bottom of the primary guide connecting rod 40 is fixedly provided with a transmission rack 42, the transmission rack 42 passes through the sliding association groove 7 and is mutually meshed with the transmission chain strip 39, the bottom of the secondary guide connecting rod 41 is fixedly provided with a sliding connecting block 43, and the secondary guide connecting rod 41 is mutually connected with the sliding association groove 7 in a sliding manner through the sliding connecting block 43;

The digital display temperature sensor 38 is preset outside the air conditioner indoor unit 20, the air pressure sensor 22, the oxygen concentration detection assembly 23 and the digital display temperature sensor 38 are electrically connected with the touch panel 32, the sliding door driving motor 10 and the touch panel 32 are electrically connected with each other, and the arc-shaped diversion trenches 27 are symmetrically arranged at the two side positions of the upper end of the protection top plate 14.

Example 2

Referring to fig. 1 and fig. a second embodiment of the present invention is shown, which resides in the previous embodiment.

The embedded groove 4 is symmetrically arranged at the upper end of the oxygen cabin body 1 in a groove type structure, so that the protection top plate 14 can ensure the support stability at the upper end outside the oxygen cabin body 1 through the symmetrical installation structure of the self bottom plug-in connection supporting block 28, and the assembly tightness of the protection top plate 14 at the upper end of the oxygen cabin body 1 is effectively improved by combining the alignment plug-in structure between the plug-in connection supporting block 28 and the alignment plug-in groove 46;

the alignment screw thread adaptation structure between the alignment assembly support block 8 and the embedded groove 4 through the alignment fastening bolt 26 and the alignment fastening screw hole 13 can realize the stable assembly effect of the alignment assembly support block 8 at the upper end of the embedded groove 4 and has the convenient use effect of dismantling, so that the equipment can select whether the protection top plate 14 carries out the combined assembly operation at the upper end of the oxygen cabin body 1 according to the use environment of the oxygen cabin body 1 in the practical application use work, and the whole use functionality is enriched and the whole application range is correspondingly enlarged on the basis of guaranteeing the whole external protection effect of the oxygen cabin body 1 to a great extent.

Example 3

Referring to fig. 3, 5, 6 and 11 to 12, a third embodiment of the present invention is the above embodiment.

The fixed mounting structure of the positioning support plate 6 outside the oxygen cabin body 1 can provide stable supporting points for the multi-stage folding cabin door structures of the primary folding association door plate 12, the secondary folding association door plate 24 and the tertiary folding association door plate 33;

under the condition that the transmission rack 42 at the bottom of the three-stage folding association door plate 33 is held by the meshing connection structure between the transmission rack 42 and the transmission chain strip 39, after the transmission gear 9 and the driven gear 11 drive the transmission chain strip 39 to rotate by utilizing the structural characteristics of the transmission rack 42 can drive the three-stage folding association door plate 33 to rotate along with the transmission chain strip 39 to perform directional displacement operation in the sliding association groove 7 through the meshing connection structure between the transmission rack 42 and the transmission chain strip 39;

the three-stage folding related door plate 33 and the two-stage folding related door plate 24 can be folded inwards by taking the three-stage related hinge 34 as a center by combining the rotary connection structure of the first-stage guide connecting rod 40 at the bottom of the three-stage folding related door plate 33 under the action of the three-stage folding related door plate 33 driven by the transmission rack 42 through the folding structure of the three-stage related hinge 34;

The sliding connection block 43 utilizes a sliding connection structure between itself and the sliding connection groove 7 and a rotating movable connection structure of the second-stage guiding connecting rod 41 at the bottom of the first-stage folding connection door plate 12, so that the first-stage folding connection door plate 12 can fold towards the inner side of the positioning support plate 6 by taking the first-stage connection hinge 30 as the center under the action of the displacement direction force of the third-stage folding connection door plate 33;

therefore, under the displacement folding action of the three-stage folding association door plate 33, the two-stage folding association door plate 24 and the one-stage folding association door plate 12 can be folded by taking the two-stage association hinge 31 as a rotation center, so that after the door moving driving motor 10 is started, the equipment can realize continuous and smooth folding and unfolding operation of the cabin door formed by the one-stage folding association door plate 12, the two-stage folding association door plate 24 and the three-stage folding association door plate 33, and the equipment cabin door can realize the use effect of rapid folding and unfolding on the basis of ensuring the tightness of the physiotherapy cavity 3 in the oxygen cabin body 1 in a closed state, thereby being more convenient for a user to experience micro-pressure physiotherapy in the oxygen cabin body 1.

Working principle:

when the equipment is used for normal physiotherapy operation, the protection top plate 14 can be selected according to the used environment to be disassembled and assembled at the upper end of the oxygen cabin body 1, if the physiotherapy operation is carried out in the indoor environment, the upper end of the oxygen cabin body 1 does not need to be assembled with the protection top plate 14, otherwise, the alignment assembly support block 8 can be stably assembled in the embedded groove 4 by utilizing the adapting structure between the alignment assembly support block 8 and the embedded groove 4, the assembling operation of the alignment assembly support block 8 at the upper end of the embedded groove 4 is stably fastened by utilizing the threaded connection structure mutually adapting between the positioning fastening bolt 26 and the positioning fastening screw hole 13, the protection top plate 14 is stably inserted in the alignment insertion groove 46 by utilizing the aligning insertion structure between the insertion connection support block 28 and the alignment insertion groove 46, and then the assembly operation is stably inserted in the alignment insertion groove 46 by utilizing the threaded adapting structure between the limiting fastening bolt 29 and the inside of the threaded sleeve 16, the plug-in structure of the plug-in connection support block 28 in the alignment plug-in groove 46 is stably assembled, so that the protection top plate 14 can balance and stably carry out effective external protection on the oxygen cabin body 1 at the upper end of the oxygen cabin body 1, the symmetrical opening structure of the arc-shaped guide grooves 27 at the two sides of the protection top plate 14 and the structural characteristics of the protection top plate 14 can protect the normal use operation of the oxygen cabin body 1 in the outdoor severe environment, the symmetrical fixed mounting structure of the balance support leg 2 at the bottom of the oxygen cabin body 1 can effectively ensure the integral supporting stability of the oxygen cabin body 1, after a preset password is input on the electronic coded lock 37, the related lock head 45 is separated from the alignment lock hole 44, the sliding door driving motor 10 is controlled and started on the touch panel 32, the output shaft of the sliding door driving motor 10 rotates to drive the transmission gear 9 in the extension supporting frame 5, under the condition of the meshed connection structure, the driving chain belt 39 is driven to rotate at the lower end position of the inner part of the oxygen cabin body 1, the primary guide connecting rod 40 drives the tertiary folding association door plate 33 to perform directional displacement operation along the sliding association groove 7 under the meshing structure relation between the driving chain belt 39 and the driving rack 42, the tertiary folding association door plate 33 and the secondary folding association door plate 24 pass through the folding structure of the tertiary association hinge 34, under the displacement action of the driving rack 42 driving the tertiary folding association door plate 33, the primary guide connecting rod 40 is combined with the rotary connecting structure of the primary guide connecting rod 40 at the bottom of the tertiary folding association door plate 33, the tertiary folding association door plate 33 and the secondary folding association door plate 24 can be folded inwards by taking the tertiary association hinge 34 as the center, the sliding connecting block 43 utilizes the sliding connecting structure between the primary guide connecting rod and the sliding association groove 7 and the rotary movable connecting structure of the secondary guide connecting rod 41 at the bottom of the primary folding association door plate 12, the primary folding association door plate 12 can be folded towards the inner side of the positioning support plate 6 by taking the primary association hinge 30 as the center under the action of the displacement direction force of the tertiary folding association door plate 33, so that the secondary folding association door plate 24 and the primary folding association door plate 12 can be folded by taking the secondary association hinge 31 as the rotation center under the action of the displacement folding of the tertiary folding association door plate 33, the cabin door of the multi-stage folding structure of the primary folding association door plate 12, the secondary folding association door plate 24 and the tertiary folding association door plate 33 is realized, the use effect of quick door opening can be realized in the normal use operation of the oxygen cabin body 1, a user can enter the physiotherapy cavity 3 to carry out micro-pressure physiotherapy operation, the metal detection assembly 21 detects the user in the entering process, if the user carries metal objects, the alarm speaker 35 can give out an alarm to remind, then the touch panel 32 controls the start-up of the sliding door driving motor 10 to drive the transmission gear 9 to reversely rotate, so as to drive the three-stage folding associated door plate 33 to close, the associated lock 45 and the alignment lock hole 44 are aligned and clamped, the tightness of the physiotherapy cavity 3 inside the oxygen cabin body 1 is ensured, a user only needs to ensure the most comfortable posture to carry out physiotherapy in the physiotherapy process, the sealing observation window 25 can observe the physiotherapy state of the user in real time from the outside so as to treat possible emergency in time, the air pressure sensor 22, the oxygen concentration detection assembly 23 and the digital display temperature sensor 38 can monitor the internal environment condition of the physiotherapy cavity 3 in real time in the micro-pressure physiotherapy process of the user, the control and starting of the pressurizing and oxygen supplying unit 17 and the air conditioner indoor unit 20 can be performed in real time in the touch panel 32, the proper adjustment operation of the internal pressure, oxygen and temperature of the physiotherapy cavity 3 is realized, the internal environment of the physiotherapy cavity 3 is in a comfortable physiotherapy best state, the external association pipeline passes through the pressurizing connection pipe hole 47 and the oxygen supplying connection pipe hole 48, the pressurizing and oxygen supplying unit 17 and the external oxygen supplying pressurizing equipment are stably connected, the external air conditioner connection pipeline passes through the air conditioner external pipe hole 18 to stably associate the air conditioner indoor unit 20 with the external air conditioner host, after the pipeline stably associates the air conditioner indoor unit 20, the pressurizing and oxygen supplying unit 17 and the corresponding external equipment, the sealing treatment is performed on the air conditioner external pipe hole 18, the pressurizing connection pipe hole 47 and the oxygen supplying connection pipe hole 48, so as to ensure that the physiotherapy cavity 3 in the oxygen cabin body 1 has good use tightness in the normal use process of the equipment, thereby comprehensively improving the comprehensive use performance and the actual use functionality of the equipment and having wider application range.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a micro-pressure physiotherapy oxygen cabin convenient to adjust cabin temperature, includes oxygen cabin body (1), its characterized in that: the inside of oxygen cabin body (1) is equipped with physiotherapy chamber (3) in advance, the upper end of oxygen cabin body (1) is fixed with protection roof (14), the avris position fixed mounting of oxygen cabin body (1) outside lower extreme has extension braced frame (5), the outside positive avris position fixed mounting of oxygen cabin body (1) has location extension braced board (6), slide association groove (7) have transversely been seted up in the lower extreme position of the inside outside of physiotherapy chamber (3), extension braced frame (5) inside movable mounting has drive gear (9), the avris position movable mounting of the inside lower extreme of oxygen cabin body (1) has driven gear (11), swing joint has transmission chain strip (39) between drive gear (9) and driven gear (11), the intermediate position fixed mounting of oxygen cabin body (1) outside avris has control box (19), the inside top fixed mounting of oxygen suppliment chamber (3) has supercharging unit (17), the avris position fixed mounting of the inside outside of physiotherapy chamber (3) has metal detection subassembly (21), the folding door plant (12) of the folding stage-one is related, folding stage two door plant (12) are related, and a three-stage folding related door plate (33) is movably arranged at the other side of the two-stage folding related door plate (24).

2. The micro-pressure physiotherapy oxygen cabin facilitating the adjustment of the temperature in the cabin according to claim 1, wherein: the utility model discloses a high-strength oxygen cabin, including oxygen cabin body (1), locating fastening screw (13) have all been seted up to the corner position symmetry fixed mounting of bottom of oxygen cabin body (1), gomphosis groove (4) have been seted up to the both sides position symmetry of oxygen cabin body (1) upper end, the upper end fixed mounting of gomphosis groove (4) has counterpoint assembly supporting shoe (8), correspond each other and match between the bottom specification of counterpoint assembly supporting shoe (8) and the inslot specification of gomphosis groove (4), locating fastening screw (13) have all been seted up in the avris position of gomphosis groove (4) and counterpoint assembly supporting shoe (8) bottom, the outside movable mounting of locating fastening screw (13) has locating fastening screw (26), interconnect between locating fastening screw (26) pass counterpoint assembly supporting shoe (8) bottom and locating fastening screw (13), the downthehole specification of locating fastening screw (13) and the external screw specification of locating fastening screw (26) are mutually adapted.

3. The micro-pressure physiotherapy oxygen cabin facilitating the adjustment of the temperature in the cabin according to claim 2, wherein: the oxygen cabin is characterized in that the extension supporting frame (5) is communicated with the inside of the lower end of the oxygen cabin body (1), a sliding door driving motor (10) is fixedly installed outside the extension supporting frame (5), an output shaft of the sliding door driving motor (10) penetrates through the extension supporting frame (5) and is fixedly connected with a transmission gear (9) inside the extension supporting frame, a sliding association groove (7) is communicated with the inside of the lower end position of the oxygen cabin body (1), the transmission gear (9) and a driven gear (11) are both in meshed connection with the inside of a transmission chain belt (39), and the transmission gear (9) is in movable connection with the driven gear (11) through the transmission chain belt (39).

4. A micro-pressure physiotherapeutic oxygen chamber for facilitating the regulation of the temperature in the chamber as claimed in claim 3, wherein: the utility model discloses a safety protection device for the oxygen cabin body, including protection roof (14) and protection roof, including protection roof (14) and oxygen cabin body (1), counterpoint mounting groove (46) has been seted up to the upper end of counterpoint assembly supporting shoe (8), the both sides position symmetry fixed mounting of protection roof (14) bottom has cartridge to connect supporting shoe (28), cartridge to connect supporting shoe (28) fixed mounting position and counterpoint assembly supporting shoe (8) in the fixed mounting position of oxygen cabin body (1) upper end corresponds each other, and the external specification of cartridge to connect supporting shoe (28) and the in-groove specification of counterpoint inserting groove (46) are mutually adapted, assembly screw hole (15) have been seted up to the both sides position symmetry in counterpoint assembly supporting shoe (8) outside, threaded sleeve (16) have been seted up to the both sides position symmetry of counterpoint assembly supporting shoe (8) inboard, spacing assembly hole (36) have been seted up to the outside symmetry of cartridge to connect supporting shoe (28), spacing fastening bolt (29) have been seted up to the outside movable mounting of assembly screw hole (15), spacing fastening bolt (29) pass assembly screw hole (15) and spacing assembly hole (36), mutually adapted between the internal thread (16) and the corresponding screw thread of screw thread specification between screw thread sleeve (16).

5. The micro-pressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin according to claim 4, wherein: the positioning support plate (6) is fixedly provided with a primary correlation hinge (30) at the inner side between the primary folding correlation door plate (12), the positioning support plate (6) is movably connected with the primary folding correlation door plate (12) through the primary correlation hinge (30), and a sealing observation window (25) is fixedly arranged outside the primary folding correlation door plate (12).

6. The micro-pressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin according to claim 5, wherein: the oxygen cabin is characterized in that an air pressure sensor (22) is fixedly installed at the upper end position of the inner side wall of the oxygen cabin body (1), an oxygen concentration detection assembly (23) is fixedly installed at the side position of the air pressure sensor (22), an air conditioner external pipe hole (18) is preset at the upper end position of the side of the oxygen cabin body (1), the position of the air conditioner external pipe hole (18) at the side of the oxygen cabin body (1) corresponds to the fixed installation position of an air conditioner internal machine (20) in the oxygen cabin body (1), a pressurizing connection pipe hole (47) is preset at one side position of the upper end of the air conditioner external pipe hole (18), an oxygen supply connection pipe hole (48) is preset at the other side position of the upper end of the air conditioner external pipe hole (18), and the opening height of the oxygen supply connection pipe hole (48) and the pressurizing connection pipe hole (47) at the outside of the oxygen cabin body (1) correspond to the fixed installation height of a pressurizing oxygen supply unit (17) in the oxygen cabin body (1).

7. The micro-pressure physiotherapy oxygen cabin convenient for adjusting the temperature in the cabin according to claim 6, wherein: the electronic password lock is characterized in that a secondary association hinge (31) is fixedly connected to the outer side position between the primary folding association door plate (12) and the secondary folding association door plate (24), the primary folding association door plate (12) is movably connected with the secondary folding association door plate (24) through the secondary association hinge (31), a tertiary association hinge (34) is fixedly connected to the inner side position between the secondary folding association door plate (24) and the tertiary folding association door plate (33), the secondary folding association door plate (24) is interactively connected with the tertiary folding association door plate (33) through the tertiary association hinge (34), a touch panel (32) is fixedly arranged at the upper end position of the outer front side of the secondary folding association door plate (24), the touch panel (32) is electrically connected with a distribution control box (19), an alarm loudspeaker (35) is fixedly arranged at the upper end position of one side of the front side of the tertiary folding association door plate (33), the alarm loudspeaker (35) is electrically connected with a metal detection assembly (21), and an electronic password lock (37) is fixedly arranged at the middle position of the other side of the front side of the tertiary folding association door plate (33).

8. The micro-pressure physiotherapy oxygen cabin facilitating the adjustment of the temperature in the cabin according to claim 7, wherein: the utility model discloses a three-stage folding oxygen cabin, including oxygen cabin body (1), door plant (33), locating support plate (6), one-stage folding door plant (12), two-stage folding door plant (24) and three-stage folding door plant (33) are wholly, are respectively through one-stage association hinge (30), two-stage association hinge (31) and three-stage association hinge (34) multistage folding structure that the intermediate position of the inside avris of oxygen cabin body (1) is equipped with counterpoint lockhole (44) in advance, the intermediate position of three-stage folding association door plant (33) avris is equipped with in advance, the presettings of association lockhole (45) at three-stage folding association door plant (33) avris correspond each other with counterpoint lockhole (44) at the inside seting up of oxygen cabin body (1).

9. The micro-pressure physiotherapy oxygen cabin facilitating the adjustment of the temperature in the cabin according to claim 8, wherein: the automatic folding door comprises a first-stage folding door plate (12), a second-stage guiding connecting rod (41) and a second-stage guiding connecting rod (41), wherein the second-stage guiding connecting rod (41) is movably installed at the side position of the bottom of the first-stage folding door plate (12), the first-stage guiding connecting rod (40) is movably installed at the side position of the bottom of the third-stage folding door plate (33), the second-stage guiding connecting rod (41) is rotatably movably installed at the side position of the bottom of the third-stage folding door plate (33), the outer specifications of the first-stage guiding connecting rod (40) and the second-stage guiding connecting rod (41) are mutually matched with the inner specifications of a sliding association groove (7), a transmission rack (42) is fixedly installed at the bottom of the first-stage guiding connecting rod (40), the transmission rack (42) penetrates through the sliding association groove (7) and is in meshed connection with a transmission chain strip (39), and a sliding connecting block (43) is fixedly installed at the bottom of the second-stage guiding connecting rod (41) and is mutually slidingly connected with the sliding association groove (7) through the sliding connecting block (43).

10. The micro-pressure physiotherapy oxygen cabin facilitating the adjustment of the temperature in the cabin according to claim 9, wherein: the outside of air conditioner inner unit (20) is equipped with digital display temperature sensor (38) in advance, electric connection each other between air pressure sensor (22), oxygen concentration detection subassembly (23) and digital display temperature sensor (38) and touch panel (32), electric connection each other between sliding door driving motor (10) and touch panel (32), and arc guiding gutter (27) have been seted up to the both sides position symmetry of protection roof (14) upper end.