CN215822039U - Non-obstacle high-efficiency tubular breathing pipeline filter - Google Patents

Abstract

The utility model discloses a barrier-free high-efficiency tubular breathing pipeline filter, which comprises a fixed pipe, a bottom baffle, a support frame, a silica gel sleeve, a guide sleeve cover, a filter cap, a micro motor, a cam and a filter element, wherein the fixed pipe and the filter cap are mutually combined to form a tubular structure, so that the filter can be conveniently worn by a patient, the compression area is reduced, the problems of easy generation of barrier and interference and influence on the comfort and compliance of the patient of the traditional umbrella-shaped breathing pipeline filter are solved, the filter element in the filter cap adopts a composite structure, dust particles, pollutants and germs in gas can be effectively filtered and isolated, the comfort and safety of subsequent ventilation of the patient are improved, and finally, in the ventilation process, the micro motor can drive the cam to contact with the silica gel sleeve in a high-point reciprocating manner to promote the reciprocating expansion and contraction of the silica gel sleeve, so as to realize the negative pressure suction state in the fixed pipe, by means of the suction of negative pressure, the gas circulation can be accelerated, and the subsequent breathing of a patient is facilitated.

Description

Non-obstacle high-efficiency tubular breathing pipeline filter

Technical Field

The utility model relates to the technical field of medical instruments, in particular to an obstruction-free efficient tubular breathing pipeline filter.

Background

The economy of the world is rapidly developed nowadays, meanwhile, the living environment of people is full of a large amount of pollution such as waste gas, germs, dust and the like, the consequence of the pollution is that the health of people is seriously threatened, the pollution mainly enters the human body through the respiratory tract of people to cause damage to the human body, especially, the pollution is very unfavorable for the patient with low resistance, and the respiratory filter is used for solving the problems, and the respiratory filter is inserted between the respiratory pipelines of the patient, so that the impurities such as waste gas particles, germs, dust and the like in the air are adsorbed in the respiratory filter, and the air entering the respiratory tract is ensured to be clean, thereby ensuring the health of people.

According to the above, the conventional respiratory tract filter in the prior art has many defects and shortcomings in the clinical use process, specifically as follows;

1. the shape of traditional breathing circuit filter is umbrella shape, and the diameter is big, when wearing the back, oppresses easily in patient's eye region, brings injury and discomfort for the patient, and patient's travelling comfort and compliance are poor.

2. When the traditional filter is used for filtering, the flow rate of gas is easy to reduce due to the filtering obstruction of the filter element, and the breathing burden of a patient is increased.

Therefore, in view of the above drawbacks, there is a need for an unobstructed high efficiency tubular breathing circuit filter.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: provides an unobstructed high-efficiency tubular breathing pipeline filter to solve the problems of the background art.

In order to solve the technical problems, the technical scheme of the utility model is as follows: an obstruction-free efficient tubular breathing pipeline filter comprises a fixed pipe, a bottom baffle, a support frame, a silica gel sleeve, a guide sleeve cover, a filter cap, a micro motor, a cam and a filter element, wherein the bottom baffle is fixedly arranged at the lower end inside the fixed pipe, the bottom baffle and the fixed pipe are integrally formed, the support frame is fixedly arranged at the middle end of the top of the bottom baffle, the support frame and the bottom baffle are integrally formed, the silica gel sleeve is fixedly arranged at the top of the support frame, the silica gel sleeve and the support frame are connected by hot melting, the guide sleeve cover is fixedly arranged at the upper end inside the fixed pipe, the guide sleeve cover and the fixed pipe are integrally formed, the guide sleeve cover and the silica gel sleeve are connected by hot melting, the filter cap is arranged at the top of the fixed pipe, the filter cap and the fixed pipe are connected by internal and external threads, and the micro motor is fixedly arranged at the middle end of the bottom of the filter cap, the micro motor and the filter cap are connected through hot melting, the cam is fixedly arranged at the bottom of the micro motor, the cam and the micro motor are connected through a coupler, the filter element is fixedly arranged inside the filter cap, and the filter element and the filter cap are connected through hot melting.

Further, fixed intraductal wall bottom still be equipped with the mounting groove, the mounting groove be thread groove, fixed intraductal portion still be equipped with the water conservancy diversion chamber, the water conservancy diversion chamber be toroidal cavity.

Furthermore, a plurality of first flow through holes are further arranged in the bottom baffle, and the first flow through holes are circular through holes.

Furthermore, the top end in the guide sleeve cover is also provided with a plurality of second flow through holes, and the second flow through holes are circular through holes.

Furthermore, the bottom end in the filtering cap is also provided with a plurality of third through holes, the third through holes are circular, the third through holes correspond to the second through holes in position, a storage battery is fixedly arranged at the middle end in the filtering cap, the storage battery is connected with the filtering cap in a hot melting mode, the storage battery is connected with a micro motor in a power line mode, a one-way valve is fixedly arranged at the top of the filtering cap, and the one-way valve and the filtering cap are integrally formed.

Compared with the prior art, the barrier-free high-efficiency tubular breathing pipeline filter has the advantages that;

1. at first the fixed pipe forms the tubular structure with filtering the cap intercombination, can make things convenient for the patient to wear, has reduced the oppression area, has solved traditional umbelliform breathing circuit filter, produces easily and hinders and interfere, influences the problem of patient's travelling comfort and compliance.

2. Secondly adopt composite construction through the inside filter core of filter cap, can carry out effectual filtration isolation to dust particle, pollutant and germ in the gas, improved follow-up patient's comfortable and security of ventilating.

3. And finally, in the ventilation process, the micro motor can drive the cam to contact the silica gel sleeve in a reciprocating manner at a high point, so that the reciprocating expansion and contraction of the silica gel sleeve are promoted, the negative pressure suction state inside the fixed tube is realized, the gas circulation can be accelerated by virtue of the suction of the negative pressure, and the subsequent breathing of a patient is facilitated.

Drawings

FIG. 1 is a front view of an unobstructed high efficiency tubular breathing line filter;

FIG. 2 is a top view of an unobstructed high efficiency tubular breathing circuit filter;

FIG. 3 is a perspective view of an unobstructed high efficiency tubular breathing line filter 1;

FIG. 4 is a perspective view of an unobstructed high efficiency tubular breathing line filter 2;

FIG. 5 is a perspective view of an unobstructed high efficiency tubular breathing circuit filter in a separated state, FIG. 1;

FIG. 6 is a perspective view of an unobstructed high efficiency tubular breathing circuit filter in a separated state, FIG. 2;

figure 7 is a cross-sectional view taken along line a of an unobstructed high efficiency tubular breathing circuit filter.

The device comprises a fixed pipe 1, a bottom baffle 2, a support frame 3, a silica gel sleeve 4, a guide sleeve cover 5, a filter cap 6, a micro motor 7, a cam 8, a filter element 9, a mounting groove 101, a flow guide cavity 102, a first flow through hole 201, a second flow through hole 501, a third flow through hole 601, a storage battery 602 and a one-way valve 603.

The following detailed description will be further described in conjunction with the above-identified drawings.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the concepts underlying the described embodiments, however, it will be apparent to one skilled in the art that the described embodiments may be practiced without some or all of these specific details, and in other cases well-known process steps have not been described in detail.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, an unobstructed high-efficiency tubular breathing pipeline filter comprises a fixed pipe 1, a bottom baffle 2, a support frame 3, a silica gel sleeve 4, a guide sleeve cover 5, a filter cap 6, a micro motor 7, a cam 8 and a filter element 9, wherein the bottom baffle 2 is fixedly arranged at the lower end inside the fixed pipe 1, the bottom baffle 2 and the fixed pipe 1 are integrally formed, the support frame 3 is fixedly arranged at the middle end of the top of the bottom baffle 2, the support frame 3 and the bottom baffle 2 are integrally formed, the silica gel sleeve 4 is fixedly arranged at the top of the support frame 3, the silica gel sleeve 4 and the support frame 3 are connected by hot melting, the guide sleeve cover 5 is fixedly arranged at the upper end inside the fixed pipe 1, the guide sleeve cover 5 and the fixed pipe 1 are integrally formed, and the guide sleeve cover 5 and the silica gel sleeve 4 are connected by hot melting, the filter cap 6 is arranged at the top of the fixed pipe 1, the filter cap 6 is connected with the fixed pipe 1 through internal and external threads, the micro motor 7 is fixedly arranged at the middle end of the bottom of the filter cap 6, the micro motor 7 is connected with the filter cap 6 through hot melting, the cam 8 is fixedly arranged at the bottom of the micro motor 7, the cam 8 is connected with the micro motor 7 through a coupler, the filter element 9 is fixedly arranged in the filter cap 6, and the filter element 9 is connected with the filter cap 6 through hot melting;

the unobstructed high-efficiency tubular breathing pipeline filter has the following functions;

A. the fixed tube 1 and the filter cap 6 are combined with each other to form a tubular structure, so that the filter can be worn by a patient conveniently, the compression area is reduced, and the problems that the traditional umbrella-shaped breathing pipeline filter is easy to generate obstruction and interference and affects the comfort and compliance of the patient are solved;

B. the filter element 9 in the filter cap 6 adopts a composite structure, so that dust particles, pollutants and germs in the gas can be effectively filtered and isolated, and the comfort and safety of subsequent ventilation of patients are improved;

C. in the ventilation process, in order to improve high circulation, the micro motor 7 can be started, namely the cam 8 is driven to rotate, the reciprocating expansion and contraction of the silica gel sleeve 4 are promoted by the aid of the action that the high point of the cam 8 is in reciprocating contact with the silica gel sleeve 4, the negative pressure suction state in the fixed tube 1 is realized, and the ventilation can be accelerated by the aid of the suction of the negative pressure, so that the follow-up smooth breathing of a patient is facilitated;

the bottom end of the inner wall of the fixed pipe 1 is also provided with a mounting groove 101, the mounting groove 101 is a threaded groove, a flow guide cavity 102 is also arranged in the fixed pipe 1, and the flow guide cavity 102 is an annular cavity;

it should be noted that the mounting groove 101 can be butted with a patient cannula in the prior art, the flow guide cavity 102 can facilitate gas circulation, and the silica gel sleeve 4 is matched to enhance the high-efficiency gas circulation;

a plurality of first flow through holes 201 are further formed in the bottom baffle 2, and the first flow through holes 201 are circular through holes;

it should be noted that the first flow through hole 201 can facilitate gas diversion and oxygen supply to the inside of the fixed pipe 1 after filtration;

the top end of the interior of the guide sleeve cover 5 is also provided with a plurality of second flow through holes 501, and the second flow through holes 501 are circular through holes;

it should be noted that the second flow through hole 501 can guide the flow of the gas in cooperation with the first flow through hole 201, which is beneficial to the subsequent respiration of the patient;

the bottom end in the filter cap 6 is further provided with a plurality of third flow through holes 601, the third flow through holes 601 are circular through holes, the third flow through holes 601 correspond to the second flow through holes 201 in position, a storage battery 602 is further fixedly arranged at the middle end in the filter cap 6, the storage battery 602 is connected with the filter cap 6 in a hot melting mode, the storage battery 602 is connected with the micro motor 7 through a power line, a one-way valve 603 is further fixedly arranged at the top of the filter cap 6, and the one-way valve 603 and the filter cap 6 are integrally formed;

it should be noted that the third flow through hole 601 can be communicated with the second flow through hole 201, the storage battery 602 can supply power to the micro motor 7, the use without an external power line is realized, the wearing by a patient is facilitated, the one-way valve 603 can be butted with an existing pipeline, the guiding is facilitated, and in addition, the gas backflow cannot be caused due to the adoption of a one-way structure.

Claims (5)

1. An obstruction-free efficient tubular breathing pipeline filter is characterized by comprising a fixed pipe, a bottom baffle, a support frame, a silica gel sleeve, a guide sleeve cover, a filter cap, a micro motor, a cam and a filter element, wherein the bottom baffle is fixedly arranged at the lower end inside the fixed pipe, the bottom baffle and the fixed pipe are integrally formed, the support frame is fixedly arranged at the middle end of the top of the bottom baffle, the support frame and the bottom baffle are integrally formed, the silica gel sleeve is fixedly arranged at the top of the support frame, the silica gel sleeve and the support frame are connected by hot melting, the guide sleeve cover is fixedly arranged at the upper end inside the fixed pipe, the guide sleeve cover and the fixed pipe are integrally formed, the guide sleeve cover and the silica gel sleeve are connected by hot melting, the filter cap is arranged at the top of the fixed pipe, the filter cap and the fixed pipe are connected by internal and external threads, the micro motor is fixedly arranged at the middle end of the bottom of the filter cap, the micro motor and the filter cap are connected through hot melting, the cam is fixedly arranged at the bottom of the micro motor, the cam and the micro motor are connected through a coupler, the filter element is fixedly arranged inside the filter cap, and the filter element and the filter cap are connected through hot melting.

2. The unobstructed high efficiency tubular breathing tube filter according to claim 1, wherein said bottom end of the inner wall of said retention tube further comprises an installation groove, said installation groove is a threaded groove, said retention tube further comprises a flow guide chamber, said flow guide chamber is an annular cavity.

3. The unobstructed high efficiency tubular breathing circuit filter of claim 1 wherein said bottom baffle further comprises a plurality of first flow openings formed therein, said first flow openings being circular.

4. The unobstructed high efficiency tubular breathing line filter according to claim 1 wherein said guiding shroud interior top end further defines a plurality of second flow apertures, said second flow apertures being circular.

5. The unobstructed high efficiency tubular breathing tube line filter according to claim 4, wherein said filter cap has a plurality of third flow holes at its inner bottom, said third flow holes being circular and corresponding to said second flow holes, said filter cap also having a battery at its inner middle end, said battery being connected to said filter cap by heat fusion, said battery being connected to said micro-motor by a power cord, said filter cap also having a one-way valve at its top, said one-way valve being integrally formed with said filter cap.

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