CN115337164A

CN115337164A - Multifunctional hyperbaric oxygen chamber for dental implantation

Info

Publication number: CN115337164A
Application number: CN202210962209.0A
Authority: CN
Inventors: 张则军; 徐成伟; 张羽
Original assignee: Qingdao Baodao Wutong Stomatological Hospital Co ltd
Current assignee: Qingdao Baodao Wutong Stomatological Hospital Co ltd
Priority date: 2022-08-11
Filing date: 2022-08-11
Publication date: 2022-11-15
Anticipated expiration: 2042-08-11
Also published as: CN115337164B

Abstract

The invention provides a multifunctional dental hyperbaric oxygen chamber, which comprises a fixed seat, wherein a support member and a rotating seat are respectively arranged on the fixed seat close to the two ends of the fixed seat, a hydraulic rod is rotatably connected to the rotating seat, mounting frames are arranged on the two sides of the fixed seat, and an oxygen generator is arranged on the fixed seat and close to the support member; the air outlet end fixedly connected with air inlet pipe of oxygenerator, the top of fixing base is provided with the cabin body, and the bottom of the cabin body is run through and is had L type pipe, and the inside of the cabin body is provided with the L template that is used for adjusting oxygen atmospheric pressure, and the both sides of L template are provided with pneumatic telescopic rod respectively, and pneumatic telescopic rod's outer end and cushion are connected, and a plurality of air channels have been seted up at the top of L template. The invention ensures that the existing small hyperbaric oxygen chamber keeps a certain installation height with the ground and is integrally fixed, but for older people, the problem of secondary injury of the people caused by collision in the process of entering and exiting the hyperbaric oxygen chamber can be solved.

Description

Multifunctional hyperbaric oxygen chamber for dental implantation

Technical Field

The invention relates to the technical field of post-dental rapid recovery, in particular to a multifunctional hyperbaric oxygen chamber for dental use.

Background

After the tooth implantation operation, the problem of wound swelling and pain is likely to be generated by patients, and even some infection phenomena may occur, at this time, if the high-pressure oxygen therapy is used for intervention, pure oxygen can reduce swelling of tissues, blood circulation after activating collaterals can increase immunity and reduce infection chances, and meanwhile, bone healing can be promoted, and the postoperative recovery period is shortened.

The existing small single hyperbaric oxygen chamber keeps a certain installation height with the ground and is integrally fixed, so that a patient needs to climb up and down when entering and exiting the hyperbaric oxygen chamber, but for older people, the people are easy to be injured secondarily due to collision in the process of entering and exiting the hyperbaric oxygen chamber; in addition, current high-pressure storehouse body has great space to be in the vacant state when using, consequently, causes hyperbaric oxygen's waste very easily, consequently, this scheme expects to solve these two technical problem simultaneously to it is multi-functional technological effect to expect to reach.

Disclosure of Invention

The invention aims to solve the technical problems that the existing small hyperbaric oxygen chamber in the prior art keeps a certain installation height with the ground and is inconvenient to enter and exit, and when a patient enters and exits the hyperbaric oxygen chamber, the patient can enter and exit more smoothly; and the air bag system is arranged, so that the technical effect of oxygen saving is realized.

A multifunctional high-pressure oxygen chamber for dental use comprises a fixed seat, wherein a support member and a rotating seat are respectively arranged on the fixed seat close to the two ends of the fixed seat, a hydraulic rod is rotatably connected to the rotating seat, mounting frames are arranged on the two sides of the fixed seat, and an oxygen generator is arranged on the fixed seat close to the support member;

an air inlet pipe is fixedly connected to the air outlet end of the oxygen generator, a cabin body is arranged above the fixing seat, an L-shaped pipe penetrates through the bottom of the cabin body, an L-shaped plate used for adjusting oxygen pressure is arranged inside the cabin body, pneumatic telescopic rods are respectively arranged on two sides of the L-shaped plate, the outer end of each pneumatic telescopic rod is connected with a cushion block, and a plurality of vent grooves are formed in the top of each L-shaped plate;

the L-shaped pipe is provided with two pipes, wherein one pipe is connected with the air inlet pipe, and the other pipe is communicated with the vent groove.

The bottom of one end of the cabin body is hinged with the supporting piece, and the top of the cabin body is hinged with a sealing cover.

The bottom of the other end of the cabin body is hinged with the telescopic end of the hydraulic rod, and the bottom of the cabin body is movably erected on the mounting frame.

One end of the L-shaped pipe is communicated with the interior of the cabin body, and the other end, close to the L-shaped pipe, of the L-shaped pipe is provided with an electromagnetic valve.

One end of the air inlet pipe is connected with the other end of the L-shaped pipe.

The flexible end of pneumatic telescopic link runs through the surface of L template and outwards extends, and pneumatic telescopic link's flexible end and cushion fixed connection.

An oxygen saving system is also arranged in the cabin body; the oxygen saving system comprises a first air bag, a second air bag connected close to the first air bag, a first air inlet pipe and a first air outlet pipe arranged on the first air bag, and a second air inlet pipe and a second air outlet pipe arranged on the second air bag, wherein an air supply pipe is connected between the first air bag and the second air bag, a valve is arranged on the air supply pipe, and an oxygen mask is arranged at the end part of the air supply pipe;

the air bag I is provided with an inlet and outlet layer I at the opening position, the inlet and outlet layer II is arranged at the opening position of the air bag II, the inlet and outlet layer I can be connected to the air bag I through a zipper, a magic tape is arranged at the sewing position of the zipper, so that a further sealing effect is realized, the inlet and outlet layer II can be connected to the air bag II through the zipper, and the magic tape is arranged at the sewing position of the zipper, so that a further sealing effect is realized; the goal of personnel entering and exiting is realized through the first entering and exiting layer and the second entering and exiting layer;

preferably, an inlet and outlet layer III can be arranged on the first air bag, and the air bag system can be installed and positioned according to actual situations, so that people can conveniently enter and exit.

The upper end and the lower end of the first air bag are respectively connected to the inner top surface and the inner bottom surface of the cabin body, and the upper end and the lower end of the second air bag are respectively connected to the inner top surface and the inner bottom surface of the cabin body.

The cushion block is arranged in the first air bag, and the side part of the pneumatic telescopic rod is connected with the first air bag.

Compared with the prior art, the invention has the advantages and positive effects that:

(1) The position installation of the cabin body is convenient to realize through the supporting piece, the upward rotation of the rear side of the cabin body is realized through the extension of the hydraulic rod, the personnel lean backwards in the cabin body by opening the sealing cover and treading on the surface of the cushion block by feet, the personnel can conveniently and safely enter the cabin body, the rotation reset of the cabin body is realized through the contraction of the hydraulic rod, the cushion block is realized through the extension of the pneumatic telescopic rod to drive the patient to move in the cabin body, the gravity center of the personnel is close to one side of the hydraulic rod, the stress of the telescopic end of the hydraulic rod is prevented, namely, the front side of the cabin body is prevented from declining;

(2) The oxygen generator is started, so that oxygen can be gradually added into the cabin body through the air inlet pipe and one L-shaped pipe at the corresponding position, the condition that high-pressure oxygen is gradually formed in the cabin body is realized, personnel can gradually adapt to the pressure in the cabin body, after the oxygen generator is used, the oxygen in the cabin body is gradually discharged through the vent groove through the other L-shaped pipe, the pressure in the cabin body is gradually reduced, and the safety of personnel is ensured;

(3) The tooth planting device is provided with a first air bag and a second air bag, wherein people are positioned in the first air bag, the first air bag and the second air bag are both provided with high-pressure oxygen, a valve in an air supply pipe is closed, people perform tooth planting operation in the first air bag, after a certain time, the oxygen in the first air bag is exhausted, at the moment, the carbon dioxide in the first air bag is pumped out through a first air outlet pipe, meanwhile, the air supply pipe in the second air bag is opened, one end of the air supply pipe is close to people, after a certain time, the oxygen in the second air bag is exhausted, the carbon dioxide in the first air bag is basically exhausted, the valve in the air supply pipe is closed, oxygen is supplied to the first air bag through the air inlet pipe until a certain high-pressure value is reached, the carbon dioxide in the second air bag is exhausted through the second air outlet pipe until the second air bag is deflated, and then the high-pressure oxygen is filled into the second air bag; the process is repeated, the first air bag and the second air bag can greatly save oxygen consumption, and the oxygen supply and the suction process are smoothly carried out by matching the flexible characteristic of the air bags in an oxygen dividing mode;

(4) The air bag I is provided with the pneumatic telescopic rod and the cushion block, when oxygen in the air bag I is exhausted, people can be pushed to move to the air supply pipe, so that people can smoothly approach the oxygen mask to complete the air exchange process, and the multifunctional air bag I has a multifunctional technical effect;

(5) Be provided with gasbag one and gasbag two in this scheme, still have the technological effect of buffering, when people especially old man, child, get into after the cabin body, can make the health lie on the gasbag, played the effect of buffering, avoid old man or child to step on the sky carelessly, cause the injury on the health, the setting of gasbag. The safety degree is further increased, and therefore the airbag in the scheme has a multifunctional technical effect.

Drawings

Fig. 1 is a schematic perspective view of a high-pressure oxygen silo according to

embodiments

1 and 2 of the present invention.

Fig. 2 is a schematic sectional view of the hyperbaric oxygen chamber of fig. 1 according to

embodiments

1 and 2 of the present invention.

Fig. 3 is a schematic side view of the hyperbaric oxygen chamber of fig. 2 according to

embodiments

1 and 2 of the present invention.

FIG. 4 is a schematic structural diagram of a first airbag and a second airbag in the present invention.

FIG. 5 is a schematic structural view of a second airbag of the present invention.

Wherein the reference numerals are: 1. a fixed seat; 2. a mounting frame; 3. a support member; 4. an oxygen generator; 5. rotating the base; 6. a hydraulic lever; 7. a cabin body; 8. an air inlet pipe; 9. an L-shaped pipe; 10. an electromagnetic valve; 11. a pneumatic telescopic rod; 12. an L-shaped plate; 13. cushion blocks; 14. a vent channel; 15. a sealing cover; 16. a first air bag; 161. a first air inlet pipe; 162. a first air outlet pipe; 163. an access layer I; 164. entering and exiting the layer III; 17. a second air bag; 171. a second air inlet pipe; 172. a second air outlet pipe; 173. entering and exiting the second layer; 174. a gas supply pipe.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is described below by way of specific embodiments.

Example 1

As shown in fig. 1-3, a multifunctional hyperbaric oxygen chamber for various teeth, including a fixing base 1, the top of the fixing base 1 is close to a front position fixed connection support member 3, and the top center of the fixing base 1 is close to a rear position fixed connection rotation base 5, the relative inner surface of the rotation base 5 is close to a bottom position and is rotationally connected with a hydraulic rod 6, the top rear position fixed connection mounting frame 2 of the fixing base 1 is connected with an installation frame 2, and one side of the top of the fixing base 1 is located at the position of the support member 3 and is fixedly connected with an oxygen generator 4, the air outlet end of the oxygen generator 4 is fixedly connected with an air inlet pipe 8, the top of the fixing base 1 is provided with a cabin body 7, the front position of the bottom of the outer surface of the cabin body 7 is provided with two L-shaped pipes 9, the front position of the inner bottom of the cabin body 7 is fixedly connected with an L-shaped plate 12, the positions of the two sides of the inner top of the L-shaped plate 12 are respectively and fixedly connected with pneumatic rods 11, and the cushion blocks 13 are slidably connected to the outer surface of the rear side of the L-shaped plate 12, and a plurality of vent grooves 14 are formed in the top of the L-shaped plate 12.

The whole embodiment 1 of the invention has the advantages that the fixed seat 1 is installed in the position through expansion bolts, the arranged rotating seat 5 is convenient for fixing the position of the hydraulic rod 6, the hydraulic rod 6 can be ensured to rotate in an angle when the hydraulic rod 6 stretches out and draws back, the upper part of the arranged installation frame 2 is arranged in a U shape, the arranged oxygen generator 4 and the cabin body 7 are the existing oxygen generating equipment and a hyperbaric oxygen cabin, the arranged L-shaped plate 12 is convenient for personnel to step on the surface of the cushion block 13 when entering the cabin body 7, namely the cushion block 13 is arranged on the L-shaped plate 12 in a telescopic manner, and the L-shaped plate 12 has the effect of limiting the cushion block 13; the surface of the L-shaped plate 12 is provided with a vent groove 14, so that oxygen in the cabin body 7 can conveniently enter the L-shaped plate 12, and the oxygen can be discharged through the L-shaped pipe 9 on the other side, and further the pressure in the cabin body 7 can be reduced.

Example 2

As shown in fig. 1-3, the outer surface bottom of the cabin 7 is close to the front position, and is arranged to run through the surface sliding of the supporting member 3, and the top hinge connection of the cabin 7 has a sealing cover 15, the outer surface bottom center of the cabin 7 is close to the rear position, and is connected to the flexible end rotation of the hydraulic rod 6, and the outer surface bottom rear position of the cabin 7 is connected to the surface sliding of the mounting bracket 2, the inside of the L-shaped pipe 9 is communicated with the inside of the cabin 7, and the outer surface bottom position of the L-shaped pipe 9 is provided with an electromagnetic valve 10, the top end surface of the air inlet pipe 8 is connected to the bottom end surface sliding of the L-shaped pipe 9 on one side, the flexible end of the pneumatic telescopic rod 11 runs through the surface of the L-shaped plate 12 and extends outwards, and the flexible end of the pneumatic telescopic rod 11 is fixedly connected to the front surface of the cushion block 13.

The effect that its whole embodiment 2 reaches does, the support piece 3 that sets up is convenient for realize the rigidity of the cabin body 7, and guarantee that the cabin body 7 can rotate, the sealed lid 15 that sets up is convenient for personnel to open and shut, and then personnel pass in and out the cabin body 7, and extend through hydraulic stem 6, utilize hydraulic stem 6 to be connected with the rotation on cabin body 7 surface, when realizing that hydraulic stem 6 extends, it is rotatory to drive the cabin body 7, when the cabin body 7 is kept flat, mounting bracket 2 is convenient for realize the support of cabin body 7 rear side, prevent that the cabin body 7 from rocking, the solenoid valve 10 that sets up is convenient for control opening and shutting of L type pipe 9, realize the entering of oxygen and the discharge of oxygen, it moves to drive cushion 13 to extend through pneumatic telescopic link 11, and then when personnel lie flat in the cabin body 7, promote patient through cushion 13 and move in the cabin body 7, guarantee that personnel's focus is close to the rear side position of cabin body 7.

The specific working process of the invention is as follows:

through the extension of hydraulic stem 6, realized that the rear side of cabin 7 is upwards rotated to the front side of cabin 7, and support the surface of fixing base 1, the one end upper portion of sealed lid 15 is provided with the glass window, open sealed lid 15, personnel can step on the surface of cushion 13 with the foot, personnel lean on behind on the bed body in cabin 7 or the activity chair, realize cabin 7 rotation reset through hydraulic stem 6 shrink, through pneumatic telescopic link 11 extension, realize that cushion 13 drives patient and moves in cabin 7, realize that personnel's focus is close to one side of hydraulic stem 6, oxygenerator 4 starts, through intake pipe 8 and the L type pipe 9 of one side, add oxygen in cabin 7 gradually, realize forming the condition of hyperbaric oxygen in cabin 7 gradually, be convenient for personnel adapt to the pressure in cabin 7 gradually, after a period, open through the solenoid valve 10 on opposite side L type pipe 9 surface, realize that oxygen in cabin 7 passes through air vent 14 and gets into L type board 12, and get into the air through the L type pipe 9 of opposite side, realize discharging gradually of oxygen in cabin 7, realize the pressure in cabin 7 reduces gradually, guarantee personnel's safety.

Example 3

Referring to fig. 4-5, there are provided a first airbag 16 and a second airbag 17,

when people enter and open the sealing cover 15 and prepare to enter the cabin body, the body can lean against the first air bag 16, the foot is stepped on the cushion block 3, and when the body is slightly stable, the third in-out layer 164 of the first air bag 16 is opened, and then people can enter the first air bag 16; people lie on the bed body or the armchair, the bed body or the armchair is connected with the cushion block, the bed body or the armchair is positioned in the first air bag 16, the first air bag 16 and the second air bag 17 are both provided with high-pressure oxygen, a valve in the air supply pipe 174 is closed, people perform tooth planting operation in the first air bag 16, after a certain time, the oxygen in the first air bag 16 is exhausted, at the moment, carbon dioxide in the first air bag 16 is pumped out through the first air outlet pipe 162 by using a suction pump, meanwhile, the air supply pipe 174 in the second air bag 17 is opened, so that an oxygen mask at one end of the air supply pipe 174 is close to people, after a certain time, the oxygen in the second air bag 17 is exhausted, and meanwhile, the carbon dioxide in the first air bag 16 is basically exhausted;

because the first air bag 16 and the second air bag 17 are flexible structures, when the carbon dioxide in the first air bag 16 is exhausted, the shape of the first air bag 16 is changed, namely, the first air bag 16 is deflated, and the deflation degree can be adjusted according to the actual situation, for example, a gas pressure meter is arranged to roughly judge the relationship between the gas content and the deflation degree;

then, the valve in the gas supply pipe 174 is closed, oxygen is supplied to the first air bag 16 through the first gas supply pipe 161, the second air bag 17 is filled with carbon dioxide, then the carbon dioxide in the second air bag 17 is pumped out through the second gas supply pipe 172 until the second air bag is deflated, and then oxygen is supplied to the second air bag 17 through the second gas supply pipe 171 until a certain high pressure value is reached;

when oxygen is supplied, oxygen can be added into the first air inlet pipe 161 and the second air inlet pipe 171 through one of the L-shaped pipes, the processes are repeated, oxygen consumption can be greatly saved by the first air bag 16 and the second air bag 17, and oxygen supply and suction processes can be smoothly carried out through an oxygen dividing mode and matching with the flexibility of the air bags;

note: the first inlet and outlet layer 163 and the second inlet and outlet layer 173 are respectively arranged on the outer sides of the first air bag 16 and the second air bag 17, so that the first air bag 16 and the second air bag 17 can be conveniently sealed during manufacturing;

in addition, the first outlet pipe 162, the first inlet pipe 161, the second outlet pipe 172 and the second inlet pipe 171 are provided with electromagnetic valves, so that the on-off state of the electromagnetic valves can be adjusted according to actual situations, and detailed description is omitted.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims

1. A multifunctional high-pressure oxygen cabin for dental use comprises a fixed seat (1), and is characterized in that a support member (3) and a rotating seat (5) are respectively arranged on the fixed seat (1) close to the two ends of the fixed seat, a hydraulic rod (6) is rotatably connected to the rotating seat (5), mounting frames (2) are arranged on the two sides of the fixed seat (1), and an oxygen generator (4) is arranged on the fixed seat (1) close to the support member (3);

an air inlet pipe (8) is fixedly connected to an air outlet end of the oxygen generator (4), a cabin body (7) is arranged above the fixing seat (1), an L-shaped pipe (9) penetrates through the bottom of the cabin body (7), an L-shaped plate (12) used for adjusting oxygen pressure is arranged inside the cabin body (7), pneumatic telescopic rods (11) are respectively arranged on two sides of the L-shaped plate (12), the outer end of each pneumatic telescopic rod (11) is connected with a cushion block (13), and a plurality of vent grooves (14) are formed in the top of the L-shaped plate (12);

the L-shaped pipe (9) is provided with two pipes, one of the two pipes is connected with the air inlet pipe (8), and the other pipe is communicated with the vent groove (14).

2. The multifunctional dental hyperbaric oxygen chamber of claim 1, wherein the bottom of one end of the chamber body (7) is hinged with the support member (3), and the top of the chamber body (7) is hinged with a sealing cover (15).

3. The multifunctional dental hyperbaric oxygen chamber of claim 1, characterized in that the bottom of the other end of the chamber body (7) is hinged with the telescopic end of the hydraulic rod (6), and the bottom of the chamber body (7) is movably arranged on the mounting frame (2).

4. The multifunctional dental hyperbaric oxygen chamber according to claim 1, characterized in that one end of the L-shaped pipe (9) is communicated with the interior of the chamber body (7), and the L-shaped pipe (9) is provided with an electromagnetic valve (10) near the other end thereof.

5. The dental multifunctional hyperbaric oxygen chamber according to claim 1, characterized in that one end of the air inlet pipe (8) is connected with the other end of the L-shaped pipe (9).

6. The multifunctional dental hyperbaric oxygen chamber of claim 1, wherein the telescopic end of the pneumatic telescopic rod (11) extends outwards through the surface of the L-shaped plate (12), and the telescopic end of the pneumatic telescopic rod (11) is fixedly connected with the cushion block (13).

7. The multifunctional dental hyperbaric oxygen chamber of claim 1, characterized in that an oxygen saving system is further arranged in the chamber body (7); the oxygen saving system comprises a first air bag (16), a second air bag (17) connected close to the first air bag (16), a first air inlet pipe (161) and a first air outlet pipe (162) arranged on the first air bag (16), and a second air inlet pipe (171) and a second air outlet pipe (172) arranged on the second air bag (17), wherein an air supply pipe (174) is connected between the first air bag (16) and the second air bag (17), a valve is arranged on the air supply pipe (174), and an oxygen mask is arranged at the end part of the air supply pipe;

an access layer I (163) is arranged at the opening position of the air bag I (16), and an access layer II (173) is arranged at the opening position of the air bag II (17);

the upper end and the lower end of the first air bag (16) are respectively connected to the inner top surface and the inner bottom surface of the cabin body (7), and the upper end and the lower end of the second air bag (17) are respectively connected to the inner top surface and the inner bottom surface of the cabin body (7).

8. The dental multifunctional hyperbaric oxygen chamber according to claim 7, wherein the cushion block (13) is movably arranged in the first air bag (16), and the side part of the pneumatic telescopic rod (11) is connected with the first air bag (16).