Gas-excited high-concentration negative oxygen ion generator
Technical Field
The utility model relates to the technical field of medical care instruments, in particular to a gas-excited high-concentration negative oxygen ion generator.
Background
The negative oxygen ions are called as 'air vitamins', and have the effects of promoting human metabolism, enhancing immunity, resisting oxidation, preventing aging, eliminating in-vivo free radicals, tranquilizing, and the like. The patient inhales high-concentration negative oxygen ions (1 ten thousand per cm)3Above) can accelerate wound healing and recover in advance, and meanwhile, can purify indoor air, inhibit the transmission of viruses and bacteria, and is beneficial to body health.
The existing oxygen generator has more side effects on human body after excessive oxygen is inhaled, such as pulmonary fibrosis, oxygen poisoning and the like. The negative oxygen ion air has no side effect, the conventional corona discharge type negative oxygen ion generator generates ozone and nitrogen-containing oxygen while generating the negative oxygen ion air, the risk of harming human health also exists, the generated negative oxygen ions have short service life, the negative oxygen ions which can reach the lung of a human body are few, and the treatment and health care effects are not great.
Disclosure of Invention
The utility model aims to solve the technical problem of providing a gas-excited high-concentration negative oxygen ion generator which can release high-concentration negative oxygen ions and does not contain ozone and nitrogen oxides.
The technical proposal adopted by the utility model for solving the technical problems is that the air-excited high-concentration negative oxygen ion generator comprises an air source 1, an air conduit 2, a filter 3 and a humidifier 4 which are communicated in sequence, the humidifier 4 comprises a humidifying bottle 41, a humidifying bottle cap 42 and a humidifying bottle air inlet pipe 43, humidifying liquid 5 is filled in the humidifying bottle 41, the air inlet pipe 43 of the humidifying bottle is connected with an airflow impact type negative oxygen ion generator 6 immersed in the humidifying liquid 5, the airflow impact type negative oxygen ion generator 6 comprises a body 61, a hard sheet 62 arranged at the bottom of the body 61, and a baffle 65 hung on the hard sheet 62 and the body 61, wherein the body 61 is connected with a humidifying bottle air inlet pipe 43, the hard sheet 62 is provided with impact holes 63, the impact holes 63 are communicated with the humidification bottle air inlet pipe 43 and the humidification liquid 5, and the humidification bottle cap 42 is connected with the negative oxygen ion air output pipe 7.
Further, the hard plate 62 is fixed through a hard plate fixing screw 67, the baffle plate 65 is fixed through a baffle plate fixing screw 66, and the baffle plate 65 is positioned opposite to the impact hole 63 and is 3-15 mm away from the outlet of the impact hole 63.
Further, a seal ring 64 is provided on the joint surface between the hard plate 62 and the body 61.
Air-excited high concentration negative oxygen ion generator, including air source 1, air conduit 2, humidifier 4 that communicate in proper order, humidifier 4 includes humidifying bottle 41, humidifying bottle lid 42, humidifying bottle intake pipe 43, humidifying liquid 5 is equipped with in the humidifying bottle 41, airflow impact formula negative oxygen ion generator 6 has been soaked in humidifying liquid 5, airflow impact formula negative oxygen ion generator 6 includes body 61, and humidifying bottle intake pipe 43 is connected to body 61, body 61 with humidifying bottle intake pipe 43 junction is equipped with filter 3, is equipped with impulse chamber 68 on the body 61, is equipped with impact hole 63 on one side wall of impulse chamber 68, and impulse chamber 68 and humidifying liquid 5 intercommunication to through impact hole 63, humidifying bottle intake pipe 43 and air conduit 2 intercommunication, be connected with negative oxygen ion air output tube 7 on the humidifying bottle lid 42.
Air-excited high-concentration negative oxygen ion generator, including air source 1, air conduit 2, filter 3, humidifier 4 that communicate in proper order, humidifier 4 includes humidifying bottle 41, humidifying bottle lid 42, humidifying bottle intake pipe 43, humidifying liquid 5 is equipped with in the humidifying bottle 41, air current impact type negative oxygen ion generator 6 has been soaked in humidifying liquid 5, air current impact type negative oxygen ion generator 6 includes body 61, and humidifying bottle intake pipe 43 is connected to body 61, is equipped with impact chamber 68 on the body 61, and impact chamber 68 upper portion and lower part symmetry are equipped with two air chambers 69, and two air chambers 69 communicate through air chamber connecting pipe 610, all are equipped with stereoplasm piece 62 between impact chamber 68 and two air chambers, correspond on two stereoplasm pieces 62 and be equipped with impact hole 63, and two impact holes 63 are located same straight line, and impact chamber 68 communicates with humidifying liquid 5, be connected with negative oxygen ion air output tube 7 on the humidifying bottle lid 42, the air flow enters the air chamber 69 through the humidifying bottle air inlet pipe 43 and then enters the impact chamber 68 through the impact hole 63.
Further, the body 61 and the humidifying bottle air inlet pipe 43 are plated with silver, and are connected with each other through threads or clamping sleeves.
Further, the air source 1 includes a casing 11, and an air compressor 12, an air tank 13, a pressure regulating valve 14, and a flow regulating valve 15 provided in the casing 11 and communicating with each other.
Further, the hard plate 62 is made of metal or ceramic.
Further, a one-way valve 8 is arranged on the humidification bottle cap 42 and used for adding humidification liquid 5.
Compared with the prior art, the utility model has the advantages as follows:
(1) the existing air negative oxygen ion generator is put into use in real scale and is an electric shock type air negative oxygen ion generator, ozone and oxide are generated to damage health, simultaneously, the generated negative oxygen ions disappear quickly, and a person can not breathe high-concentration negative oxygen ions unless the nostril directly aims at an air outlet to breathe. The utility model discloses utilize compressed air striking humidifying liquid and wall, perhaps two air current clashes to produce negative oxygen ion, do not produce ozone and oxide, and utilize the pipeline directly to import the nostril with high enriched negative oxygen ion air, the people can breathe ecological level high enriched negative oxygen ion, has apparent medical care effect.
(2) The oxygen generated by the existing oxygen generator can reduce the breathing burden of people, but the long-term large-flow oxygen inhalation can generate pulmonary fibrosis and oxygen poisoning, and the negative oxygen ion oxygen generator adopts an electric shock principle. The utility model discloses an utilize the air to produce negative oxygen ion, it is the same with the oxygen concentration in the natural air, do not have the oxygen uptake and excessively cause pulmonary fibrosis and oxygen poisoning, and can obviously improve the function of taking a breath of ventilating of lung, strengthen the depth of respiration of lung. Can increase the air inhalation amount by more than 20 percent and exhale more than 14 percent of carbon dioxide, and also has the function of oxygen therapy.
(3) The utility model provides a body among the air current striking formula negative oxygen ion generator, baffle and humidifying bottle intake pipe silvering, silver has very strong bactericidal ability, makes the humidifying liquid keep sterile condition constantly, need not add chemical sterilizing agent and directly adopt ordinary water.
Drawings
Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.
Fig. 2 is a schematic view showing the structure of the air-flow impact type negative oxygen ion generator in fig. 1.
Fig. 3 is a schematic structural diagram of embodiment 2 of the present invention.
Fig. 4 is a schematic view showing the structure of the air-flow impact type negative oxygen ion generator of fig. 3.
Fig. 5 is a schematic structural view of embodiment 3 of the present invention.
Fig. 6 is a schematic view showing the structure of the air-flow impact type negative oxygen ion generator of fig. 5.
In the figure: 1-air source, 11-shell, 12-air compressor, 13-air tank, 14-pressure regulating valve, 15-flow regulating valve, 2-air conduit, 3-filter, 4-humidifier, 41-humidification bottle, 42-humidification bottle cap, 43-humidification bottle air inlet pipe, 5-humidification liquid, 6-airflow impact type negative oxygen ion generator, 61-body, 62-hard sheet, 63-impact hole, 64-sealing ring, 65-baffle, 66-baffle fixing screw, 67-hard sheet fixing screw, 68-impact chamber, 69-air chamber, 610-air chamber connecting pipe, 7-negative ion air output pipe and 8-one-way valve.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Example 1
Referring to fig. 1 and 2, the present embodiment includes an air source 1, an air conduit 2, a filter 3, and a humidifier 4, which are sequentially connected, wherein the humidifier 4 includes a humidification bottle 41, a humidification bottle cap 42, and a humidification bottle air inlet pipe 43. The humidifying bottle 41 is filled with humidifying liquid 5, the air inlet pipe 43 of the humidifying bottle is connected with an airflow impact type negative oxygen ion generator 6 immersed in the humidifying liquid 5 in a threaded connection mode, and the humidifying bottle cap 42 is connected with a negative oxygen ion air output pipe 7.
The airflow impact type negative oxygen ion generator 6 comprises a body 61, a hard sheet 62 arranged at the bottom of the body 61, and a baffle 65 hung on the hard sheet 62 and the body 61.
The body 61 is connected with the air inlet pipe 43 of the humidification bottle, the hard sheet 62 is provided with impact holes 63, and the impact holes 63 are communicated with the air inlet pipe 43 of the humidification bottle and the humidification liquid 5.
The impact hole 63 is communicated with the air conduit 2 through an airflow channel arranged in the body 61, the humidifying bottle air inlet pipe 43 and the filter 3 fixed on the humidifying bottle cap 42, the hard sheet 62 is fixed through a hard sheet fixing screw 63, and the sealing ring 64 is placed on the joint surface of the body 61 and the hard sheet 62 and used for preventing gas leakage. The baffle plate 65 is fixed by a baffle plate fixing screw 66, and the baffle plate 65 is positioned opposite to the impact hole 63 and 5mm away from the outlet of the impact hole 63.
The body 61 is made of injection molding, the hard sheet 62 is made of metal or ceramic, and the hard sheet 62 is used for preventing the impact holes 63 from being abraded by air flow scouring. The surfaces of the body 61, the baffle 65 and the humidifying bottle air inlet pipe 43 are plated with silver.
The air source 1 comprises a shell 11, and an air compressor 12, a layer regulating valve 14 and a flow regulating valve 15 which are arranged in the shell 11 and communicated with each other. The humidifying bottle cap 42 is provided with a one-way valve 8 for adding the humidifying liquid 5.
Example 2
Referring to fig. 3 and 4, the present embodiment comprises an air source 1, an air conduit 2, and a humidifier 4 in sequential communication.
The humidifier 4 comprises a humidifying bottle 41, a humidifying bottle cap 42 and a humidifying bottle air inlet pipe 43, wherein humidifying liquid 5 is filled in the humidifying bottle 41, and an airflow impact type negative oxygen ion generator 6 is immersed in the humidifying liquid 5.
The airflow impact type negative oxygen ion generator 6 comprises a body 61, wherein the body 61 is connected with a humidifying bottle air inlet pipe 43, a filter 3 is arranged at the joint of the body 61 and the humidifying bottle air inlet pipe 43, an impact chamber 68 is arranged on the body 61, and an impact hole 63 is formed in one side wall of the impact chamber 68.
The impact chamber 68 is communicated with the humidification liquid 5 and is communicated with the air conduit 2 through the impact holes 63 and the humidification bottle air inlet pipe 43, and the humidification bottle cap 42 is connected with the negative oxygen ion air output pipe 7.
The material of the body 61 is one of metal and alloy.
The air source 1 comprises a shell 11, and an air compressor 12, a layer regulating valve 14 and a flow regulating valve 15 which are arranged in the shell 11 and communicated with each other. The humidifying bottle cap 42 is provided with a one-way valve 8 for adding the humidifying liquid 5.
Example 3
Referring to fig. 5 and 6, the present embodiment comprises an air source 1, an air conduit 2, a filter 3, and a humidifier 4, which are in communication in sequence.
The humidifier 4 comprises a humidifying bottle 41, a humidifying bottle cap 42 and a humidifying bottle air inlet pipe 43, wherein humidifying liquid 5 is filled in the humidifying bottle 41, and an airflow impact type negative oxygen ion generator 6 is immersed in the humidifying liquid 5.
Airflow impact type negative oxygen ion generator 6 comprises a body 61, a body is connected with a humidifying bottle air inlet pipe 43, an impact chamber 68 is arranged on the body 61, two air chambers 69 are symmetrically arranged on the upper portion and the lower portion of the impact chamber 68, the two air chambers 69 are communicated through an air chamber connecting pipe 610, hard plates 62 are arranged between the impact chamber 68 and the two air chambers, impact holes 63 are correspondingly arranged on the two hard plates 62, and the two impact holes 63 are located on the same straight line. The impact chamber 68 is communicated with the humidifying liquid 5, and the humidifying bottle cap 42 is connected with a negative oxygen ion air output pipe 7.
The airflow enters the air chamber 69 through the air inlet pipe 43 of the humidification bottle and then enters the impact chamber 68 through the impact hole 63, and the two high-speed airflows collide with each other to generate more negative oxygen ions, so that the humidification effect is better.
The material of the body 61 is one of metal and alloy.
The air source 1 comprises a shell 11, and an air compressor 12, a layer regulating valve 14 and a flow regulating valve 15 which are arranged in the shell 11 and communicated with each other. The humidifying bottle cap 42 is provided with a one-way valve 8 for adding the humidifying liquid 5.
Various modifications and variations of the present invention may be made by those skilled in the art, and they are within the scope of the present invention provided they are within the scope of the claims and their equivalents.
What is not described in detail in the specification is prior art that is well known to those skilled in the art.