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CN-121987440-A - Micro-hyperbaric oxygen chamber

CN121987440ACN 121987440 ACN121987440 ACN 121987440ACN-121987440-A

Abstract

The invention belongs to the technical field of medical treatment and relates to a micro-hyperbaric oxygen chamber, which comprises a chamber body, wherein a door body is arranged on one side of the chamber body, a widening splice shell is arranged between the chamber body and the door body, a wall connecting plate is arranged on one side of the widening splice shell, a sealing strip is arranged on the outer side of the widening splice shell, a door decoration cover plate is arranged on one side of the door body, an observation window splice shell is arranged on one side of the door decoration cover plate, and an observation window is arranged on one side of the observation window splice shell. The invention has complete structure and perfect functions, can effectively improve the oxygen content of a human body, improve the condition of insufficient oxygen supply, avoid potential safety hazards related to hyperbaric oxygen treatment, reduce the treatment cost and provide guarantee for the health and rehabilitation of patients.

Inventors

  • Liang Erguo
  • SUN MINGQIANG
  • Lv Xuying

Assignees

  • 济南力卓力智能制造有限公司

Dates

Publication Date
20260508
Application Date
20260320

Claims (9)

  1. 1. The utility model provides a little hyperbaric oxygen cabin, its characterized in that, includes the cabin body, cabin body one side is provided with the door body, is provided with the concatenation casing that widens between the cabin body and the door body, and concatenation casing one side that widens is provided with the wall body connecting plate, and concatenation casing outside that widens is provided with the sealing strip, and door body one side is provided with the door and decorates the apron, and door is decorated apron one side and is provided with observation window concatenation casing, and observation window concatenation casing one side is provided with the observation window.
  2. 2. The micro-hyperbaric oxygen chamber of claim 1, wherein the chamber body is provided with door frame mounting holes.
  3. 3. The micro-hyperbaric chamber of claim 1, wherein the door body is provided with corner gusset plates.
  4. 4. The micro-hyperbaric oxygen chamber according to claim 1, wherein the sealing strip is of a square structure, one end of the sealing strip is connected with the widening splice shell, and the other end of the sealing strip is connected with the door decorative cover plate.
  5. 5. The micro-hyperbaric oxygen chamber according to claim 1, wherein an observation window cover plate is arranged on one side of the observation window, and the observation window cover plate covers the outer side of the observation window splicing shell.
  6. 6. The micro-hyperbaric oxygen chamber according to claim 1, wherein a gasket is provided between the widening splice housing and the chamber body, and a door mounting plate is provided between the widening splice housing and the door body.
  7. 7. The micro-hyperbaric oxygen chamber according to claim 1, wherein a containing space is formed between the door decoration cover plate and the door body, and a door lock device is arranged in the containing space.
  8. 8. The method of using a micro-hyperbaric oxygen chamber according to any of claims 1-7, comprising the steps of: 1) Opening the door body, and allowing a user to enter the cabin body; 2) Closing the door body to enable the sealing strip and the wall connecting plate to be tightly pressed and sealed; 3) Starting a pressurizing system, and filling gas into the cabin; 4) Observing the condition in the cabin through an observation window; 5) After reaching the set pressure, maintaining the pressure stabilizing state; 6) After the use is finished, starting a pressure relief system; 7) After the pressure returns to zero, opening the door body; 8) The user leaves the cabin; 9) Closing the door body to perform cleaning maintenance; 10 Checking the fastening condition of each connecting part.
  9. 9. The method of claim 8, wherein the checking the fastening of each connection part in step 10) includes checking the fastening state of the spliced housing of the observation window and the connection plate of the cabin body.

Description

Micro-hyperbaric oxygen chamber Technical Field The invention belongs to the technical field of medical treatment, and particularly relates to a micro-hyperbaric oxygen chamber. Background With the development of modern medical technology, oxygen therapy is becoming an effective means of treating a variety of diseases. Oxygen therapy is mainly to increase oxygen concentration in air or to increase oxygen inhalation efficiency of human body by pressurizing environment. In the prior art, although a common hyperbaric oxygen chamber can provide high-concentration oxygen under a certain pressure, the hyperbaric oxygen chamber is usually required to be used in professional places such as hospitals due to a large design volume. The micro-hyperbaric oxygen chamber is used as a novel therapeutic tool, and can achieve similar effect under lower pressure by means of micro-pressure oxygenation. The existing micro-hyperbaric oxygen chamber equipment still has some technical defects such as poor comfort, uneven oxygen distribution, complex operation and the like. Therefore, there is a need for a micro-hyperbaric oxygen chamber that is reasonable in design, comfortable, easy to operate, and capable of effectively increasing oxygen concentration and oxygen partial pressure. Disclosure of Invention The invention aims to provide a micro-hyperbaric oxygen chamber, which can ensure timely response of oxygen concentration monitoring and supply regulation in the treatment process, thereby ensuring that abnormal oxygen partial pressure cannot be caused in the treatment process and solving the problem of unstable oxygen partial pressure control in the prior art. In order to achieve the above purpose, the technical scheme includes that the micro-hyperbaric oxygen chamber comprises a chamber body, a door body is arranged on one side of the chamber body, a widening spliced shell is arranged between the chamber body and the door body, a wall connecting plate is arranged on one side of the widening spliced shell, a sealing strip is arranged on the outer side of the widening spliced shell, a door decorative cover plate is arranged on one side of the door body, an observation window spliced shell is arranged on one side of the door decorative cover plate, and an observation window is arranged on one side of the observation window spliced shell. Specifically, door frame mounting holes are formed in the cabin body. Specifically, the door body is provided with a corner gusset plate. Specifically, the sealing strip is a square structure, one end of the sealing strip is connected with the widening splicing shell, and the other end of the sealing strip is connected with the door decoration cover plate. Specifically, observation window one side is provided with the observation window apron, and the observation window apron covers in the observation window concatenation casing outside. Specifically, a sealing gasket is arranged between the widening splicing shell and the cabin body, and a door body mounting plate is arranged between the widening splicing shell and the door body. Specifically, an accommodating space is formed between the door decorative cover plate and the door body, and a door lock device is arranged in the accommodating space. The application method of the micro-hyperbaric oxygen chamber comprises the following steps: 1) Opening the door body, and allowing a user to enter the cabin body; 2) Closing the door body to enable the sealing strip and the wall connecting plate to be tightly pressed and sealed; 3) Starting a pressurizing system, and filling gas into the cabin; 4) Observing the condition in the cabin through an observation window; 5) After reaching the set pressure, maintaining the pressure stabilizing state; 6) After the use is finished, starting a pressure relief system; 7) After the pressure returns to zero, opening the door body; 8) The user leaves the cabin; 9) Closing the door body to perform cleaning maintenance; 10 Checking the fastening condition of each connecting part. Specifically, step 10) includes checking the fastening state of the spliced shell of the observation window and the cabin connecting plate. Compared with the prior art, the invention has the advantages and positive effects that, The invention has complete structure and perfect functions, can effectively improve the oxygen content of a human body, improve the condition of insufficient oxygen supply, avoid potential safety hazards related to hyperbaric oxygen treatment, reduce the treatment cost and provide guarantee for the health and rehabilitation of patients; the invention can ensure that the oxygen concentration monitoring and supply regulation can respond in time in the treatment process, thereby ensuring that the abnormal oxygen partial pressure cannot be caused in the treatment process and solving the problem of unstable oxygen partial pressure control in the prior art. Drawings In order to more clearly illustrate the technical solutions o