CN102716537A - Quantifying aerohaler and casing thereof - Google Patents

Abstract

The invention discloses a quantifying aerohaler and a casing thereof. The aerohaler comprises an atomizing mechanism, the casing and a sound generation mechanism, the casing is provided with a main cavity, a suction cavity and a sound generation cavity, the suction cavity is communicated with the sound generation cavity, and a separation layer is arranged in the casing to separate the main cavity from the suction cavity and the sound generation cavity. Partial or all atomizing mechanism is arranged in the main cavity, the sound generation mechanism is arranged in the sound generation cavity, the atomizing mechanism is provided with an atomizing port, a small hole is left on the separation layer, and the atomizing port can right penetrate through the small hole to be communicated with the suction cavity. After the atomizing mechanism is arranged in the main cavity, the suction cavity is not communicated with the main cavity, and the suction cavity enables air to flow through the sound generation cavity. When a user inhales, the sound generation mechanism in the sound generation cavity can make a noise. By means of the quantifying aerohaler and the casing, the sound generation cavity and the sound generation mechanism are arranged on the casing, medicament suction situation of a patient can be judged through sound of the sound generation mechanism, and whether the patient successfully sucks medicaments or not can be further obtained.

Description

A kind of quantitative aerohaler and housing thereof

Technical field

The invention belongs to technical field of medical instruments, relate to a kind of aerohaler, relate in particular to a kind of quantitative aerohaler; Simultaneously, the invention still further relates to the housing of quantitative aerohaler.

Background technology

Quantitatively aerohaler is the instrument of a kind of quantitative aerosol (MDI) anapnotherapy, uses that the aerosol anapnotherapy has that dosage is little, effect is fast, few side effects, advantage such as effective.Suction apparatus at present commonly used has manual firm gas day with fog, Diskus, with the nebulizer of oxygen or compressed air, ultrasound atomizer etc.Which kind of spray-type no matter, the medicine grain that it sprayed all requires diameter between the 2-5 micron, can directly get into bronchioles, reaches corresponding effects.

The structure of existing quantitative aerohaler is as shown in Figure 1, mainly comprises humidifier 1, housing 2, and housing 2 comprises main cavity 21, suction chamber 22, and main cavity 21, suction chamber 22 are connected.Humidifier 1 is set in the main cavity 21, and suction chamber 22 is arranged at the below of housing 2, and the patient sucks medicine through the opening of suction chamber 22.

Because volume is little, easy to carry, manual mode firm gas day with fog is current the most frequently used inhalator, and its correct method for using is: fully shake up earlier medicinal liquid before using; Interface end is put between lips; In dark air-breathing beginning, push the aerosolizer top, make its spray medicine, the medicine grain is sucked deeply with air-breathing; Hold the breath the several seconds as far as possible after sucking (preferably 10 seconds), breathe again subsequently.

When the existing quantitative aerohaler is inhaled through the suction chamber medicine the patient, can't know patient's breath state usually, thereby can't know the patient and whether successfully medicine is sucked.

In view of this, nowadays press for a kind of quantitative aerohaler shell that can know the patient respiratory state easily of design.

Summary of the invention

Technical problem to be solved by this invention is: a kind of quantitative aerohaler is provided, can judges patient's breath state through the sound of sound generating mechanism, and then know whether the patient successfully sucks medicine.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of quantitative aerohaler, said aerohaler comprises: humidifier, housing, sound generating mechanism;

Said housing is provided with main cavity, suction chamber, sounding chamber, and suction chamber communicates with the sounding chamber; Be provided with an interlayer in the said housing, this interlayer is separated main cavity and suction chamber, sounding chamber;

The part or all of of said humidifier is set in the said main cavity, and said sound generating mechanism is arranged at the sounding chamber;

Said humidifier is provided with a nozzle; Said interlayer leaves an aperture, and said nozzle can pass this aperture just, is communicated with said suction chamber;

Said humidifier is arranged at after the main cavity, and suction chamber is not communicated with main cavity, and suction chamber is through said sounding chamber circulation airflow; When the user was air-breathing, the sound generating mechanism that is arranged at the sounding intracavity can send the sound.

As a kind of preferred version of the present invention, said suction chamber, sounding chamber are separately positioned on the both sides of housing, and suction chamber, sounding chamber are oppositely arranged.

As a kind of preferred version of the present invention, said interlayer below is provided with a cylinder, and this cylinder is arranged between suction chamber, the sounding chamber; The top of said cylinder is provided with a sinking space, and this sinking space can hold said nozzle just; Said sinking space is communicated with said suction chamber.

As a kind of preferred version of the present invention, said aerohaler also comprises preserving jar, and preserving jar is connected with suction chamber.

A kind of housing of quantitative aerohaler, said housing are provided with main cavity, suction chamber, sounding chamber, and suction chamber communicates with the sounding chamber; Be provided with an interlayer in the said housing, this interlayer is separated main cavity and suction chamber, sounding chamber;

The part or all of of humidifier is set in the said main cavity;

Humidifier is provided with a nozzle; Said interlayer leaves an aperture, and said nozzle can pass this aperture just, is communicated with said suction chamber;

Said humidifier is arranged at after the main cavity, and suction chamber is not communicated with main cavity, and suction chamber is through said sounding chamber circulation airflow; When the patient was air-breathing, the sound generating mechanism that is arranged at the sounding intracavity can send the sound.

As a kind of preferred version of the present invention, said suction chamber, sounding chamber are separately positioned on the both sides of housing, and suction chamber, sounding chamber are oppositely arranged.

As a kind of preferred version of the present invention, said interlayer below is provided with a cylinder, and this cylinder is arranged between suction chamber, the sounding chamber; The top of said cylinder is provided with a sinking space, and this sinking space can hold said nozzle just; Said sinking space is communicated with said suction chamber.

Beneficial effect of the present invention is: quantitative aerohaler and housing thereof that the present invention proposes; Through sounding chamber and sound generating mechanism are set on housing; Judge patient's breath state through the sound of sound generating mechanism, and then know whether the patient successfully sucks medicine.

Description of drawings

Fig. 1 is the structural representation of existing quantitative aerohaler.

Fig. 2 is the structural representation of quantitative aerohaler among the embodiment one.

Fig. 3 is the structural representation of quantitative aerohaler among the embodiment two.

The specific embodiment

Specify the preferred embodiments of the present invention below in conjunction with accompanying drawing.

Embodiment one

See also Fig. 2, the present invention has disclosed a kind of quantitative aerohaler, and said aerohaler comprises: humidifier 1, housing 2, sound generating mechanism 3.

Said housing 2 is provided with main cavity 21, suction chamber 22, sounding chamber 23, and suction chamber 22 communicates with sounding chamber 23; In the present embodiment, said suction chamber 22, sounding chamber 23 are separately positioned on the both sides of housing 2, and suction chamber 22, sounding chamber 23 are oppositely arranged.

Be provided with an interlayer 24 in the said housing 1, this interlayer 24 is separated main cavity 21 and suction chamber 22, sounding chamber 23.The part or all of of said humidifier 1 is set in the said main cavity 21, and said sound generating mechanism 3 is arranged at sounding chamber 23, and patient's mouth is then aimed at suction chamber 22.

Said humidifier 1 is provided with a nozzle 12; Said interlayer 24 leaves an aperture, and said nozzle 12 can pass this aperture just, is communicated with said suction chamber 22.Particularly, said interlayer 24 belows are provided with a cylinder 25, and this cylinder 25 is arranged between suction chamber 22, the sounding chamber 23; The top of said cylinder 25 is provided with a sinking space, and this sinking space can hold said nozzle 12 just; Said sinking space is communicated with said suction chamber 22.

Said humidifier 1 is arranged at after the main cavity 21, and suction chamber 22 is not communicated with main cavity 21, and suction chamber 22 is through said sounding chamber 23 circulation airflow; When the user was air-breathing, the sound generating mechanism 3 that is arranged in the sounding chamber 23 can send the sound.

The present invention through squeeze spray mechanism 1 ejection aerosol, sucks medicine with mouth facing to suction chamber 22 in use; Can whether send the sound through observing sound generating mechanism 3, send the suction medicine situation which kind of sound is judged the patient, and then know whether the patient successfully sucks medicine.

Embodiment two

See also Fig. 3, the difference of present embodiment and embodiment one is that in the present embodiment, said aerohaler also comprises preserving jar 4, and preserving jar 4 is connected with suction chamber 22, and mouth/nose of patient is then aimed at the air-breathing place (like the rightmost among Fig. 3) of preserving jar 4.

In sum, quantitative aerohaler and housing thereof that the present invention proposes through sounding chamber and sound generating mechanism are set on housing, are judged patient's suction medicine situation through the sound of sound generating mechanism, and then are known whether the patient successfully sucks medicine.

Here description of the invention and application is illustrative, is not to want with scope restriction of the present invention in the above-described embodiments.Here the distortion of the embodiment that is disclosed and change are possible, and the replacement of embodiment is known with the various parts of equivalence for those those of ordinary skill in the art.Those skilled in the art are noted that under the situation that does not break away from spirit of the present invention or substitutive characteristics, and the present invention can be with other form, structure, layout, ratio, and realize with other assembly, material and parts.Under the situation that does not break away from the scope of the invention and spirit, can carry out other distortion and change here to the embodiment that is disclosed.

Claims (7)

1. a quantitative aerohaler is characterized in that, said aerohaler comprises: humidifier, housing, sound generating mechanism;

Said housing is provided with main cavity, suction chamber, sounding chamber, and suction chamber communicates with the sounding chamber; Be provided with an interlayer in the said housing, this interlayer is separated main cavity and suction chamber, sounding chamber;

The part or all of of said humidifier is set in the said main cavity, and said sound generating mechanism is arranged at the sounding chamber;

Said humidifier is provided with a nozzle; Said interlayer leaves an aperture, and said nozzle can pass this aperture just, is communicated with said suction chamber;

Said humidifier is arranged at after the main cavity, and suction chamber is not communicated with main cavity, and suction chamber is through said sounding chamber circulation airflow; When the user was air-breathing, the sound generating mechanism that is arranged at the sounding intracavity can send the sound.

2. quantitative aerohaler according to claim 1 is characterized in that:

Said suction chamber, sounding chamber are separately positioned on the both sides of housing, and suction chamber, sounding chamber are oppositely arranged.

3. quantitative aerohaler according to claim 1 is characterized in that:

Said interlayer below is provided with a cylinder, and this cylinder is arranged between suction chamber, the sounding chamber;

The top of said cylinder is provided with a sinking space, and this sinking space can hold said nozzle just;

Said sinking space is communicated with said suction chamber.

4. quantitative aerohaler according to claim 1 is characterized in that:

Said aerohaler also comprises preserving jar, and preserving jar is connected with suction chamber.

5. the housing of a quantitative aerohaler is characterized in that, said housing is provided with main cavity, suction chamber, sounding chamber, and suction chamber communicates with the sounding chamber; Be provided with an interlayer in the said housing, this interlayer is separated main cavity and suction chamber, sounding chamber;

The part or all of of humidifier is set in the said main cavity;

Humidifier is provided with a nozzle; Said interlayer leaves an aperture, and said nozzle can pass this aperture just, is communicated with said suction chamber;

Said humidifier is arranged at after the main cavity, and suction chamber is not communicated with main cavity, and suction chamber is through said sounding chamber circulation airflow; When the user was air-breathing, the sound generating mechanism that is arranged at the sounding intracavity can send the sound.

6. the housing of quantitative aerohaler according to claim 5 is characterized in that:

Said suction chamber, sounding chamber are separately positioned on the both sides of housing, and suction chamber, sounding chamber are oppositely arranged.

7. the housing of quantitative aerohaler according to claim 5 is characterized in that:

Said interlayer below is provided with a cylinder, and this cylinder is arranged between suction chamber, the sounding chamber;

The top of said cylinder is provided with a sinking space, and this sinking space can hold said nozzle just;

Said sinking space is communicated with said suction chamber.

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