CN214511685U - Domestic hyperbaric oxygen chamber - Google Patents

Abstract

The utility model provides a domestic hyperbaric oxygen cabin, including the cabin body, molecular sieve formula oxygenerator, touch display control screen, a controller, stand-by power supply, set up one in the front side of the cabin body and go into the hatch, articulated one and the corresponding sealed hatch door of income hatch in one side of going into the hatch, molecular sieve formula oxygenerator, stand-by power supply and controller setting are at the internal portion downside of cabin, and molecular sieve formula oxygenerator's air inlet link up with the external world through an intake pipe mutually, link up a first oxygen conveyer pipe in molecular sieve formula oxygenerator's gas outlet, touch display control screen sets up on the inside wall of sealed hatch door, be provided with automatically controlled relief pressure valve, surge damping valve on sealed hatch door, molecular sieve formula oxygenerator, touch display control screen, automatically controlled relief pressure valve and controller electric connection. This domestic hyperbaric oxygen cabin low in manufacturing cost, small, and it is convenient to remove, and then convenient to use person uses at home to do benefit to the user and utilize the hyperbaric oxygen environment to improve health.

Description

Domestic hyperbaric oxygen chamber

Technical Field

The utility model relates to a domestic hyperbaric oxygen cabin.

Background

Research of Israel scientists in recent years shows that the hyperbaric oxygen chamber can be used for treating anoxia treatment and can also be a treatment means for prolonging the service life, and the scientists explain the principle behind the hyperbaric oxygen chamber, the hyperbaric oxygen chamber simulates anoxia state firstly and then provides sufficient hyperbaric oxygen, so that the dissolved oxygen amount in tissues is increased, cells are regenerated, and telomeres are grown. The aging markers of the experimental participants are obviously improved, wherein the proportion of aging cells is reduced by 37 percent, gene telomeres are prolonged by 20 percent, and the maximum value reaches 52.7 percent. At present, the hyperbaric oxygen chamber only exists in hospitals and special operation places, the hospitals only use patients who need the hyperbaric oxygen, the use is inconvenient, the price is high, an economical and practical household hyperbaric oxygen chamber is designed, and great social benefit and economic benefit can be created certainly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a domestic hyperbaric oxygen cabin, this domestic hyperbaric oxygen cabin low in manufacturing cost, small, and it is convenient to remove, convenient to use person uses at home then to do benefit to the user and utilize the hyperbaric oxygen environment to improve health status.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a domestic high-pressure oxygen cabin, includes the cabin body, molecular sieve formula oxygenerator, touch display control screen, controller, stand-by power supply the front side of the cabin body sets up one and goes into the hatch one side of going into the hatch is articulated set up one with go into the corresponding sealed hatch door of hatch, molecular sieve formula oxygenerator, stand-by power supply and controller setting up cabin internal portion downside, the air inlet of molecular sieve formula oxygenerator link up with the external world through an intake pipe, and the lateral wall of intake pipe and the sealed cooperation of the lateral wall of the cabin body the gas outlet of molecular sieve formula oxygenerator link up a first oxygen conveyer pipe concatenate a filter on the first oxygen conveyer pipe a second oxygen conveyer pipe that sets up in the cabin body with the gas outlet of filter link up mutually the oxygen humidification bottle and the relief pressure valve of giving vent to anger have concatenated in proper order on the second oxygen conveyer pipe, the molecular sieve type oxygen generator is connected with a household lighting power supply, the touch display control screen is arranged on the inner side wall of the sealing cabin door, an electric control pressure reducing valve and a pressure stabilizing valve are arranged on the sealing cabin door, the molecular sieve type oxygen generator, the touch display control screen, the electric control pressure reducing valve and the controller are electrically connected, and when the household lighting power supply is powered off and cannot supply power to the controller, the standby power supply can supply power to the controller.

Preferably, an electric control locking mechanism is arranged in the sealed cabin door, the electric control locking mechanism comprises a support shaft, a rotary table, an electric push rod and a bolt mechanism, the support shaft is arranged in the sealed cabin door through a large bearing and a small bearing, an outer hand wheel and an inner hand wheel are respectively arranged on the front side and the rear side of the support shaft, a sealing ring is arranged between the small bearing and the outer hand wheel, the sealing ring can enable the side wall of the support shaft to be in sealing connection with the side wall of the sealed cabin door, the rotary table is arranged on the support shaft, the rotary table can freely rotate relative to the support shaft, the electric push rod is arranged in the sealed cabin door, a first connecting rod is arranged on the front side wall of the rotary table, a first slotted hole is arranged on the first connecting rod, a first inserting rod arranged at the movable end of the electric push rod is inserted in the first slotted hole, the first inserted bar can freely slide relative to the first long round hole, the rotary table can be driven to rotate through the reciprocating motion of the electric push rod, four groups of bolt mechanisms which are distributed at equal intervals along the circumferential direction of the rotary table are arranged on the front side wall of the rotary table, each group of bolt mechanisms comprises a left inserting mechanism and a right inserting mechanism, the left inserting mechanism and the right inserting mechanism are relatively distributed on two sides of the arc top of the rotary table, each left inserting mechanism comprises a first transmission rod, a first lever and a first bolt, the inner end of the first transmission rod is hinged with the rotary table, the middle part of the first lever is hinged on the side wall of the sealed cabin door, the outer end of the first bolt is sleeved in the sealed cabin door, a second inserted bar at the inner end of the first bolt is sleeved in a second long round hole formed in one end of the first lever, and the second inserted bar can freely slide relative to the second long round hole, the outer end of the first transmission rod is hinged to the other end of the first lever, the right inserting mechanism comprises a second transmission rod and a second bolt, the outer end of the second bolt is sleeved in the sealed cabin door, the inner end of the second transmission rod is fixedly connected with the rotary disc, a third inserting rod on the outer end of the second transmission rod is inserted in a third long circular hole formed in the inner end of the second bolt, the third inserting rod can freely slide relative to the third long circular hole, a first connecting hole corresponding to the first bolt and the second bolt is formed in the side wall of the hatch entering opening, the outer ends of the first bolt and the second bolt can be inserted into the corresponding first connecting hole or pulled out of the corresponding first connecting hole through rotation of the rotary disc, and the electric push rod is electrically connected with the controller.

Further, still set up a manual locking mechanism in the sealed cabin door, manual locking mechanism includes cross carousel and well bolt mechanism, the cross carousel sets up in the back shaft, and is located between carousel and the big bearing, can drive the synchronous rotation of cross carousel through rotating interior hand wheel or outer hand wheel, four groups well bolt mechanism respectively with the four connecting rods one-to-one of cross carousel, each group well bolt mechanism all includes third bolt, spring and stay cord, the outer end cover of third bolt is put in the sealed cabin door, and the third bolt is located between a set of first bolt and the second bolt in the bolt mechanism, be provided with on the lateral wall of entry hatch door with the corresponding second butt joint hole of third bolt, the spring cover is put the inner of third bolt, can make the outer end of third bolt insert in through the promotion of spring in the second butt joint hole, one end of the pull rope is connected with the third bolt, the other end of the pull rope is connected with a corresponding connecting rod of the cross-shaped rotary table, and the outer end of the third bolt can be pulled out from the corresponding second butt joint hole by rotating the cross-shaped rotary table.

Further, be provided with oxygen concentration detector and atmospheric pressure sensor on the inside lateral wall of cabin body, set up a first photoelectric detection switch that is used for detecting whether first bolt or second bolt insert the target in place in the outer end of one of them first butt joint hole, set up a second photoelectric detection switch that is used for detecting whether third bolt inserts the target in place in the outer end of one of them second butt joint hole, oxygen concentration detector, atmospheric pressure sensor, first photoelectric detection switch and second photoelectric detection switch with controller electric connection.

Furthermore, the touch display control screen can display the oxygen concentration and the atmospheric pressure value in the cabin body, and a pressurizing touch button, a depressurizing touch button, a stopping touch button, a cabin-out touch button and a timing plus-minus button are further arranged on the touch display control screen.

Preferably, a manual pressure relief valve is provided on the sealed hatch.

Further, the cabin is internally provided with a seat plate, and the molecular sieve type oxygen generator, the standby power supply and the controller are all positioned below the seat plate.

Preferably set up a third oxygen conveyer pipe in the cabin body, and the third oxygen conveyer pipe link up with the external world mutually, third oxygen conveyer pipe and second oxygen conveyer pipe with parallel mode with the filter link up mutually the end of giving vent to anger of third oxygen conveyer pipe sets up a second oxygen humidification bottle set up an outdoor system oxygen button on the lateral wall behind the cabin body, can realize molecular sieve formula oxygenerator through controlling outdoor system oxygen button and make oxygen work.

Preferably set up an observation window on the both sides lateral wall of the cabin body respectively, the observation window passes through transparent toughened glass and seals the inside upside of the cabin body sets up a LED lamp, LED lamp and controller electric connection.

Preferably, a monitoring camera is arranged in the cabin body, and the monitoring camera is connected with a monitoring terminal positioned outside the cabin body through a wireless communication technology.

The utility model has the advantages that: the utility model has simple structure, low processing and manufacturing cost and convenient movement, and is convenient for the user to use at home, thereby being beneficial to the user to improve the health condition by utilizing the high-pressure oxygen environment; the sealed cabin door can effectively realize the sealing of the entrance hatch through the electric control locking mechanism and the manual locking mechanism, thereby being beneficial to maintaining the high-pressure environment in the cabin body, and preventing the oxygen pressure in the cabin body from being overhigh by utilizing the pressure stabilizing valve, thereby ensuring the use safety; the controller is utilized to control the working mode of the electric pressure reducing valve, so that safe and effective pressure reduction in the cabin body can be ensured, and the use safety is ensured; utilize touch display control screen alright realize functions such as pressurization, decompression in this oxygen cabin to make the utility model is simple in operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some of the preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a side view of the overall structure of the present invention;

FIG. 3 is a schematic view of the distribution of the electric locking mechanism and the manual locking mechanism;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is an enlarged view of FIG. 3 at B;

FIG. 6 is an enlarged view of FIG. 3 at C;

FIG. 7 is an enlarged view of FIG. 3 at D;

FIG. 8 is a diagram of an oxygen delivery frame;

in the figure: 1 cabin, 11 hatch entrance, 12 seat board, 13 observation window, 14 support base, 15 handrail, 16 outdoor oxygen making button, 2 molecular sieve type oxygen generator, 21 first oxygen delivery pipe, 22 first oxygen humidifying bottle, 23 third oxygen delivery pipe, 24 second oxygen humidifying bottle, 25 filter, 26 second oxygen delivery pipe, 27 air outlet pressure reducing valve, 3 touch display control screen, 4 standby power supply, 5 sealed cabin door, 61 support shaft, 611 inner hand wheel, 612 outer hand wheel, 613 large bearing, 614 small bearing, 615 sealing ring, 62 turntable, 621 first connecting rod, 6211 first long round hole, 63 electric push rod, 631 first inserted bar, 71 first transmission bar, 72 first lever, 721 second long round hole, 73 first inserted bar, 731 second inserted bar, 81 second transmission bar, 811 third inserted bar, 82 second inserted bar, 821 long round hole, 91 cross turntable, 92 third inserted bar, 93 spring, 94 pull ropes, 101 pressure stabilizing valves, 102 electric control pressure reducing valves, 103 manual pressure reducing valves, 104 first photoelectric detection switches, 105 second photoelectric detection switches and 106 monitoring cameras.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following specific embodiments and accompanying drawings 1 to 8, and it is obvious that the described embodiments are only a part of the preferred embodiments of the present invention, and not all embodiments. Those skilled in the art can make similar variations without departing from the spirit of the invention, and therefore the invention is not limited by the specific embodiments disclosed below.

The utility model provides a domestic hyperbaric oxygen cabin (as shown in figure 1), including cabin body 1, molecular sieve formula oxygenerator 2, touch display control screen 3, controller, stand-by power supply 4, molecular sieve formula oxygenerator 2 is the mature technical product commonly used in the oxygen generation field, so here, do not do detailed explanation to the oxygen generation principle and the structural component of molecular sieve formula oxygenerator 2 again, set up one in the front side of cabin body 1 and go into hatch 11, articulate one side of going into hatch 11 and set up one with the sealed hatch door 5 that goes into hatch 11 and correspond, utilize sealed hatch door 5 can realize the sealed closing of going into hatch 11, be convenient for realize the high-pressure environment in the cabin body then; the molecular sieve type oxygen generator 2, the standby power supply 4 and the controller (for keeping the attached drawing clear, not drawn in the attached drawing) are arranged at the lower side inside the cabin body 1, the air inlet of the molecular sieve type oxygen generator 2 is communicated with the outside through an air inlet pipe, the outer side wall of the air inlet pipe is in sealing fit with the side wall of the cabin body 1, the air inlet pipe is utilized so that the molecular sieve type oxygen generator 2 can absorb air containing oxygen from the atmosphere, the air outlet of the molecular sieve type oxygen generator 2 is communicated with a first oxygen conveying pipe 21, a filter 25 is connected on the first oxygen conveying pipe 21 in series, a second oxygen conveying pipe 26 arranged in the cabin body 1 is communicated with the air outlet of the filter 25, a first oxygen humidifying bottle 22 and an air outlet pressure reducing valve 27 are connected on the second oxygen conveying pipe 26 in series, oxygen prepared by the molecular sieve type oxygen generator 2 passes through the filter 25, The first oxygen humidifying bottle 22 and the air outlet pressure reducing valve 27 enter the cabin body 1, so as to realize the high-pressure oxygen environment in the cabin body 1, the molecular sieve type oxygen generator 2 is connected with a household lighting power supply, the touch display control screen 3 is arranged on the inner side wall of the sealing cabin door 5, the sealed hatch door 5 is provided with an electric control pressure reducing valve 102 and a pressure stabilizing valve 101, the automatic control of the pressure reducing process can be realized by the electric control pressure reducing valve 102, the safe and effective operation of pressure reduction can be ensured, the pressure stabilizing valve 101 can ensure that the pressure environment in the cabin body 1 is maintained within a set value, thereby ensuring the effective operation of the high-pressure oxygen environment, the molecular sieve type oxygen generator 2, the touch display control screen 3 and the electric control pressure reducing valve 102 are electrically connected with the controller, the backup power supply 4 can supply power to the controller when the household lighting power supply is powered off and cannot supply power to the controller.

In practical application, in order to ensure effective, durable and reliable sealing of the sealed cabin door 5 to the access port 11, an electronic control locking mechanism is arranged in the sealed cabin door 5, the electronic control locking mechanism comprises a support shaft 61, a rotary disc 62, an electric push rod 63 and a bolt mechanism, the support shaft 61 is arranged in the sealed cabin door 5 through a large bearing 613 and a small bearing 614, an outer hand wheel 611 and an inner hand wheel 612 are respectively arranged on the front side and the rear side of the support shaft 61, a sealing ring 613 is arranged between the small bearing 614 and the outer hand wheel 611, the sealing ring 613 can enable the side wall of the support shaft 61 to be in sealing connection with the side wall of the sealed cabin door 5, the rotary disc 62 is arranged on the support shaft 61, the rotary disc 62 can freely rotate relative to the support shaft 61, the electric push rod 63 is arranged in the sealed cabin door 5, a first connecting rod 621 is arranged on the front side wall of the rotary disc 62, set up a first slotted hole 6211 on first connecting rod 621, a first inserted bar 631 that electric putter 63's expansion end set up is pegged graft in 6211 in the first slotted hole, and first inserted bar 631 can freely slide for first slotted hole 6211, can drive through electric putter 63's reciprocating motion carousel 62 rotates be provided with four groups along the circumferencial direction of carousel 62 equidistant distribution on the preceding lateral wall of carousel 62 the bolt mechanism, each group the bolt mechanism all includes left grafting mechanism and right grafting mechanism, and left grafting mechanism and right grafting mechanism relatively distribute in the both sides of carousel 62 arc top, left grafting mechanism includes first transmission rod 71, first lever 72 and first bolt 73, the inner of first transmission rod 71 with carousel 72 hinged joint, first lever 72 middle part is articulated to be set up on the sealed hatch door 5 lateral wall, the outer end of the first bolt 73 is sleeved in the sealed cabin door 5, the second insert rod 731 of the inner end of the first bolt 73 is sleeved in the second long circular hole 721 arranged at one end of the first lever 72, the second insert rod 731 can freely slide relative to the second long circular hole 721, the outer end of the first transmission rod 71 is hinged with the other end of the first lever 72, the right inserting mechanism comprises a second transmission rod 81 and a second bolt 82, the outer end of the second bolt 82 is sleeved in the sealed cabin door 5, the inner end of the second transmission rod 81 is fixedly connected with the rotary disc 82, a third insert rod 811 on the outer end of the second transmission rod 81 is inserted in a third long circular hole 821 arranged at the inner end of the second bolt 82, the third insert rod 811 can freely slide relative to the third long circular hole 821, a first aligning hole corresponding to the first bolt 73 and the second bolt 82 is arranged on the side wall of the entrance hatch 11, the rotation of the rotary disc 62 can realize that the outer ends of the first bolt 73 and the second bolt 82 are inserted into the corresponding first butt holes or pulled out from the corresponding first butt holes, and the electric push rod 63 is electrically connected with the controller. In practical application, when the electric push rod 63 pushes the rotary disc 62 to perform reciprocating rotation at a certain angle, the rotation of the rotary disc 62 drives the first transmission rod 71 and the second transmission rod 81 to move synchronously, and the first transmission rod 71 and the second transmission rod 81 move synchronously, so as to drive the first bolt 73 and the second bolt 82 to move synchronously up and down, thereby locking and unlocking the sealed hatch door 5 at the hatch entrance 11.

In order to further improve the locking reliability of the sealed cabin door 5 at the entrance 11, a manual locking mechanism is further arranged in the sealed cabin door 5, the manual locking mechanism comprises a cross-shaped rotary table 91 and a middle latch mechanism, the cross-shaped rotary table 91 is arranged on the supporting shaft 61 and is positioned between the rotary table 62 and a large bearing 613, the inner hand wheel 612 or the outer hand wheel 611 is rotated to drive the cross-shaped rotary table 62 to synchronously rotate, four groups of the middle latch mechanisms respectively correspond to four connecting rods of the cross-shaped rotary table 91 one by one, each group of the middle latch mechanisms comprises a third latch 92, a spring 93 and a pull rope 94, the outer end of the third latch 92 is sleeved in the sealed cabin door 5, the third latch 92 is positioned between a first latch 73 and a second latch 82 in a group of the latch mechanisms, a second butt joint hole corresponding to the third latch 92 is arranged on the side wall of the entrance 11, the spring 93 is sleeved at the inner end of the third bolt 92, the outer end of the third bolt 92 can be inserted into the second butt hole by the pushing of the spring 93, one end of the pull rope 94 is connected with the third bolt 92, the other end of the pull rope is connected with a corresponding connecting rod of the cross-shaped rotary disc 91, the outer end of the third bolt 92 can be pulled out from the corresponding second butt hole by rotating the cross-shaped rotary disc 91, when the sealed cabin door 5 is closed, the outer end of the third bolt 92 enters the corresponding second butt hole under the pushing of the spring 93, so that the sealed cabin door 5 is locked, when the sealed cabin door 5 needs to be opened, the cross-shaped rotary disc 91 is rotated, so that the cross-shaped rotary disc 91 pulls the third bolt 92 by using the pull rope 94, and when the cross-shaped rotary disc 91 rotates for a certain angle, the outer end of the third bolt 92 is pulled out from the corresponding second butt hole, which in turn facilitates the opening of the sealing hatch 5.

In practical application, in order to facilitate real-time monitoring of oxygen concentration and oxygen pressure in the cabin 1 and the closing of the sealed cabin door 5, an oxygen concentration detector and an atmospheric pressure sensor are disposed on the inner side wall of the cabin 1, a first photoelectric detection switch 101 for detecting whether the first bolt 73 or the second bolt 82 is inserted in place is disposed at the outer end of one of the first connection holes, a second photoelectric detection switch 102 for detecting whether the third bolt 92 is inserted in place is disposed at the outer end of one of the second connection holes, the oxygen concentration detector, the atmospheric pressure sensor, the first photoelectric detection switch 101 and the second photoelectric detection switch 102 are electrically connected to the controller, the touch display control panel 3 is capable of displaying oxygen concentration and atmospheric pressure values in the cabin, and a pressurizing touch button, a pressure sensor, and a pressure sensor, a pressure sensor, A decompression touch button, a stop touch button, a departure touch button and a timing plus-minus button. In the using process, when a user touches the pressurizing touch button, the molecular sieve type oxygen generator 2 starts to generate oxygen under the control of the controller, when the set pressure is reached or the touch button is stopped, the molecular sieve type oxygen generator 2 continues to supply oxygen, and simultaneously the electronic control pressure reducing valve synchronously starts to reduce the pressure, so that the pressure in the cabin body is basically constant, and the exhaust speed of the electronic control pressure reducing valve is the same as the air supply speed of the molecular sieve type oxygen generator 2; when pressure reduction is needed, a user touches the pressure reduction touch button, the controller starts pressure reduction according to a set pressure reduction program, and when the pressure value in the cabin body is snacks, the pressure reduction process is contacted; when the user needs to stop the working process in the pressurizing or depressurizing process, the pressurizing or depressurizing process can be realized by touching the stop touch button, when the pressure reduction process is finished and the cabin needs to be taken out, the user touches the cabin-out touch button so that the controller can carry out the cabin-out control flow, when the controller receives the cabin exit signal, firstly, whether the pressure value in the cabin is zero or not is judged, when the pressure value is zero, the controller is connected with the power supply of the electric push rod, then, the electric push rod is started again to carry out movement unlocking, when the electric push rod finishes unlocking, a user rotates the inner hand wheel 612 to realize unlocking again, thereby the sealed cabin door 5 can be opened, when the pressure value in the cabin body is not zero, the controller does not switch on the power supply of the electric push rod 63, therefore, the cabin outlet operation is prevented under the condition that the pressure is not zero, and the safety use performance of the cabin body is improved; the time length can be set by utilizing the timing plus-minus button, so that a user can set the staying time in the cabin body according to the self requirement, and after the set time length is reached, the user can perform subsequent operation so as to smoothly go out of the cabin; further, a locking button can be further arranged on the touch display control screen 3, when a user enters the cabin body 1 and closes the sealing cabin door 5, the electric push rod 63 moves by touching the locking button, and then the electric push rod 63 drives the first bolt 73 and the second bolt 82 to move, so that door locking is realized.

In order to facilitate a user to keep sitting in the cabin 1, a seat plate 12 is arranged in the cabin 1, the molecular sieve type oxygen generator 2, the standby power supply 4 and the controller are all positioned below the seat plate 12, and further, in order to facilitate the user to stand and sit in the cabin 1, handrails 15 are arranged on the side walls of the cabin 1; when the electrically controlled pressure reducing valve 102 cannot work normally, in order to smoothly reduce the pressure in the cabin 1, a manual pressure reducing valve 103 is provided on the sealed cabin door 5.

In practical application, be convenient for the utility model discloses a user outside the cabin body 1 provides oxygen, here the internal third oxygen conveyer pipe 23 that sets up of cabin, and third oxygen conveyer pipe 23 link up with the external world mutually, third oxygen conveyer pipe 23 and second oxygen conveyer pipe 26 with parallel mode with filter 25 link up mutually the end of giving vent to anger of third oxygen conveyer pipe 23 sets up a second oxygen humidification bottle 24 set up an outdoor system oxygen button 16 on the lateral wall behind the cabin body 1, can realize molecular sieve formula oxygenerator through controlling outdoor system oxygen button 16 and make oxygen work to convenient to use person realizes the oxygen uptake outside the cabin body 1.

In the high-pressure oxygen uptake process, for the condition in the cabin body 1 of observing, here set up an observation window 13 on the both sides wall of the cabin body 1 respectively, observation window 13 is sealed through transparent toughened glass the inside upside of the cabin body 1 sets up an LED lamp, LED lamp and controller electric connection.

In order to realize the remote real-time monitoring in the cabin 1, a monitoring camera 106 is arranged in the cabin 1, the monitoring camera 106 is connected with a monitoring terminal positioned at the outer side of the cabin 1 through a wireless communication technology, and a monitor realizes the monitoring in the cabin 1 through the monitoring terminal, wherein in the specific embodiment, the monitoring terminal can be a mobile phone; in the actual oxygen inhalation process, in order to facilitate the realization of the electric control operation steps of pressurization, decompression, cabin exit and the like for the user outside the cabin body 1, the controller can be connected with the mobile phone by using the Bluetooth wireless transmission technology, and the oxygen inhalation process in the cabin body can be realized by controlling the mobile phone by the personnel outside the cabin body 1.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

The above description is provided for the preferred embodiments and examples of the present invention with reference to the accompanying drawings, but the present invention is not limited to the above embodiments and examples, and it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention, and these modifications and variations should be construed as the protection scope of the present invention.

Claims (9)

1. The utility model provides a domestic hyperbaric oxygen cabin, characterized by, includes the cabin body, molecular sieve formula oxygenerator, touch display control screen, controller, stand-by power supply the front side of the cabin body sets up one and goes into the hatch one side of going into the hatch is articulated set up one with go into the corresponding sealed hatch door of hatch, molecular sieve formula oxygenerator, stand-by power supply and controller setting up cabin internal portion downside, the air inlet of molecular sieve formula oxygenerator link up with the external world through an intake pipe, and the lateral wall of intake pipe and the sealed cooperation of the lateral wall of the cabin body the gas outlet of molecular sieve formula oxygenerator link up a first oxygen conveyer pipe concatenate a filter on the first oxygen conveyer pipe a second oxygen conveyer pipe that sets up in the cabin body with the gas outlet of filter link up mutually the last first oxygen humidification bottle and the relief pressure valve of giving vent to anger of having concatenated in proper order of second oxygen conveyer pipe, the molecular sieve type oxygen generator is connected with a household lighting power supply, the touch display control screen is arranged on the inner side wall of the sealed cabin door, an electric control pressure reducing valve and a pressure stabilizing valve are arranged on the sealed cabin door, the molecular sieve type oxygen generator, the touch display control screen and the electric control pressure reducing valve are electrically connected with the controller, and when the household lighting power supply is powered off and cannot supply power to the controller, the standby power supply can supply power to the controller; an electric control locking mechanism is arranged in the sealed cabin door, the electric control locking mechanism comprises a support shaft, a rotary table, an electric push rod and a bolt mechanism, the support shaft is arranged in the sealed cabin door through a large bearing and a small bearing, an outer hand wheel and an inner hand wheel are respectively arranged on the front side and the rear side of the support shaft, a sealing ring is arranged between the small bearing and the outer hand wheel, the sealing ring can enable the side wall of the support shaft to be in sealing connection with the side wall of the sealed cabin door, the rotary table is arranged on the support shaft and can freely rotate relative to the support shaft, the electric push rod is arranged in the sealed cabin door, a first connecting rod is arranged on the front side wall of the rotary table, a first long circular hole is arranged on the first connecting rod, a first inserting rod arranged at the movable end of the electric push rod is inserted in the first long circular hole, and the first inserting rod can freely slide relative to the first long circular hole, the turntable can be driven to rotate through the reciprocating motion of the electric push rod, four groups of bolt mechanisms are arranged on the front side wall of the turntable and are distributed at equal intervals along the circumferential direction of the turntable, each group of bolt mechanisms comprises a left inserting mechanism and a right inserting mechanism, the left inserting mechanism and the right inserting mechanism are distributed on two sides of the arc top of the turntable relatively, the left inserting mechanism comprises a first transmission rod, a first lever and a first bolt, the inner end of the first transmission rod is hinged with the turntable, the middle part of the first lever is hinged on the side wall of the sealed cabin door, the outer end of the first bolt is sleeved in the sealed cabin door, a second inserting rod at the inner end of the first bolt is sleeved in a second long circular hole formed in one end of the first lever, the second inserting rod can freely slide relative to the second long circular hole, and the outer end of the first transmission rod is hinged with the other end of the first lever, the right inserting mechanism comprises a second transmission rod and a second bolt, the outer end of the second bolt is sleeved in the sealed cabin door, the inner end of the second transmission rod is fixedly connected with the rotary table, a third inserting rod on the outer end of the second transmission rod is inserted in a third long round hole formed in the inner end of the second bolt, the third inserting rod can freely slide relative to the third long round hole, a first butt hole corresponding to the first bolt and the second bolt is formed in the side wall of the entrance hatch, the outer ends of the first bolt and the second bolt can be inserted into the corresponding first butt holes or pulled out of the corresponding first butt holes through rotation of the rotary table, and the electric push rod is electrically connected with the controller.

2. The household high-pressure oxygen chamber as claimed in claim 1, wherein a manual locking mechanism is further disposed in the sealed chamber door, the manual locking mechanism comprises a cross-shaped rotary table and a middle latch mechanism, the cross-shaped rotary table is disposed on the supporting shaft and located between the rotary table and the large bearing, the inner hand wheel or the outer hand wheel is rotated to drive the cross-shaped rotary table to synchronously rotate, four sets of the middle latch mechanisms respectively correspond to four connecting rods of the cross-shaped rotary table one by one, each set of the middle latch mechanisms comprises a third latch, a spring and a pull rope, the outer end of the third latch is sleeved in the sealed chamber door, the third latch is located between a first latch and a second latch in a set of the latch mechanisms, a second butt hole corresponding to the third latch is disposed on the side wall of the entry port, and the spring is sleeved at the inner end of the third latch, the outer end of the third bolt can be inserted into the second butt joint hole through the pushing of the spring, one end of the pull rope is connected with the third bolt, the other end of the pull rope is connected with a corresponding connecting rod of the cross-shaped rotary table, and the outer end of the third bolt can be pulled out from the corresponding second butt joint hole by rotating the cross-shaped rotary table.

3. The domestic hyperbaric oxygen chamber of claim 2 wherein the inner side wall of the chamber body is provided with an oxygen concentration detector and an atmospheric pressure sensor, the outer end of one of the first connecting holes is provided with a first detection switch for detecting whether the first pin or the second pin is inserted in place, the outer end of one of the second connecting holes is provided with a second detection switch for detecting whether the third pin is inserted in place, and the oxygen concentration detector, the atmospheric pressure sensor, the first photoelectric detection switch and the second photoelectric detection switch are electrically connected with the controller.

4. The household hyperbaric oxygen chamber of claim 3, wherein the touch display control screen can display the oxygen concentration and the atmospheric pressure value in the chamber body, and a pressurizing touch button, a depressurizing touch button, a stopping touch button, a chamber-exiting touch button and a timing plus-minus button are further arranged on the touch display control screen.

5. The domestic hyperbaric oxygen chamber of claim 1 wherein a manual pressure relief valve is provided on the sealed chamber door.

6. The domestic hyperbaric oxygen chamber of claim 5 wherein a seat plate is provided inside the chamber body and the molecular sieve oxygen generator, the standby power supply and the controller are all located under the seat plate.

7. The household hyperbaric oxygen chamber of claim 6 wherein a third oxygen delivery pipe is arranged in the chamber body and is connected to the outside, the third oxygen delivery pipe and the second oxygen delivery pipe are connected in parallel and are connected to the filter, a second oxygen humidification bottle is arranged at the air outlet end of the third oxygen delivery pipe, an outdoor oxygen generation button is arranged on the rear side wall of the chamber body, and the operation of the outdoor oxygen generation button can realize the oxygen generation of the molecular sieve type oxygen generator.

8. The domestic hyperbaric oxygen chamber of claim 7 wherein an observation window is respectively arranged on the two side walls of the chamber body, the observation window is sealed by transparent toughened glass, and an LED lamp is arranged on the upper side of the inside of the chamber body and is electrically connected with the controller.

9. The domestic hyperbaric oxygen chamber of claim 8 wherein a monitoring camera is arranged in the chamber body, and the monitoring camera is connected with a monitoring terminal positioned outside the chamber body through a wireless communication technology.

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