CN216061570U - Hospital nursing staff uses both hands degassing unit - Google Patents

Abstract

The utility model relates to the technical field of a double-hand disinfection device for hospital nursing personnel, in particular to a double-hand disinfection device for hospital nursing personnel. The utility model has the advantages that: thrust is used on the gas in the compression jar, make gas compressed, compressed gas produces quick motion's gas through the compression pipe, by the feeding atomization jar, whole process has utilized the venturi principle, the prerequisite is provided by atomizing for the antiseptic solution, inside the compressed gas that produces at the compression pipe is fed atomization jar, cause the inside pressure difference of atomization jar, because the local pressure that the velocity of flow is big is little, make the antiseptic solution of drainage column bottom portion flow in the back through the drainage hole, produce the collision with the striking plate at last, the in-process of collision produces the energy, can make the antiseptic solution gasified and produce the fog, utilize the liquid collision to produce the fog, do not destroy the chemical property of antiseptic solution originally.

Description

Hospital nursing staff uses both hands degassing unit

Technical Field

The utility model relates to the technical field of double-hand disinfection devices for hospital nursing personnel, in particular to a double-hand disinfection device for hospital nursing personnel.

Background

Hospitals refer to medical institutions that carry out necessary medical examination, treatment measures, nursing techniques, reception services, rehabilitation equipment, treatment and transportation, and the like for patients according to laws, regulations and industrial specifications, and mainly aim to save and support injuries. Nursing staff in the middle of the hospital hand needs often to keep clean, just be convenient for nurse patient, at present, nursing staff uses medical antiseptic solution to wash the hand often when wasing the disinfection to the hand, and simultaneously, use the cleaning brush to scrub the hand, and then accomplish the hand cleanness and disinfection, but among the disinfection process, use liquid antiseptic solution not only can produce extravagantly, still can be because of scribbling the inequality, arouse the disinfection thoroughly.

When this hospital nursing staff uses both hands degassing unit, can make the antiseptic solution atomize, not only save the antiseptic solution, can also make the disinfection more thorough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, provides a double-hand disinfection device for hospital nursing personnel, and effectively overcomes the defects of the prior art.

The purpose of the utility model is realized by the following technical scheme: the utility model provides a hospital nursing staff uses both hands degassing unit, includes the organism, the first cylinder of one side fixedly connected with of organism, one side of first cylinder is provided with the compression component, one side fixedly connected with antiseptic solution atomizing component of compression component, antiseptic solution atomizing component one side is provided with the disinfection room, one side of disinfection room is provided with the liquefaction component.

Optionally, the compression member includes an air valve, one side of the air valve is slidably connected with a compression cylinder, the diameter of the air valve is matched with that of the compression cylinder, the axis of the first air cylinder coincides with that of the compression cylinder, the first air cylinder is started, air can be input from the rodless cavity and compressed, air is exhausted from the rod cavity, the pressure difference between the two cavities of the air cylinder acts on the piston, the formed thrust pushes the piston to move, the piston rod extends out, the air valve is further driven to move, and when the power potential energy is greater than the static friction force between the air valve and the compression cylinder, the air valve can move and compress air.

Optionally, one side fixedly connected with support frame of compression cylinder, one side fixedly connected with compression pipe of compression cylinder, the axle center of compression cylinder coincides mutually with the axle center of compression pipe, and first cylinder produces power, compresses the pneumatic valve, makes the thrust of pneumatic valve use on the gas in the compression cylinder, makes gas compressed, and the gas of compressed produces quick motion through the compression pipe is gaseous, is sent into the atomizing jar, and whole process has utilized the venturi principle, is atomized for the antiseptic solution and has provided the prerequisite.

Optionally, the disinfectant atomizing member includes an atomizing cylinder, a plurality of drainage holes are formed in one side of the atomizing cylinder, the drainage holes are uniformly distributed in one side of the drainage cylinder, the diameter of the drainage cylinder is matched with the diameter of the impact plate, the disinfectant atomizing member includes an atomizing cylinder, the drainage cylinder is disposed on one side of the atomizing cylinder, the impact plate is fixedly connected to one side of the drainage cylinder, the drainage holes are formed in one side of the drainage cylinder, the drainage holes are uniformly distributed in one side of the drainage cylinder, the diameter of the drainage cylinder is matched with the diameter of the impact plate, compressed gas generated in the compression pipe is delivered into the atomizing cylinder, the pressure difference in the atomizing cylinder is caused, and the local pressure with high flow velocity is small, so that the disinfectant at the bottom of the drainage column flows to the impact plate through the drainage hole and finally collides with the impact plate, energy is generated in the collision process, the disinfectant can be gasified to generate fog according to the law of energy conservation, the fog is generated by liquid collision, the original chemical property of the disinfectant is not damaged, and the disinfection effect is not weakened.

Optionally, one side fixedly connected with atomizing pipe of atomizing jar, one side fixedly connected with disinfection jar of disinfection pipe, the axle center of atomizing pipe coincides mutually with the axle center of atomizing pipe, and a large amount of antiseptic solution is deposited to the disinfection jar inside, because the mobility of liquid, through the transmission of disinfection pipe, is sent atomizing jar to participate in the atomizing, because the density of fog is less than the air, can rise to the disinfection room through the atomizing pipe and carry out work, makes antiseptic solution gasification produce the disinfection fog, can not only practice thrift a large amount of antiseptic solutions, and the hand of the worker of fog ability full contact medical treatment makes the disinfection more abundant.

Optionally, the liquefaction component includes the second cylinder, one side sliding connection of second cylinder has the liquefaction jar, one side of liquefaction jar is provided with into fog pipe, one side of liquefaction jar is provided with the output tube, the diameter size of second cylinder equals with the diameter size of liquefaction jar, the axle center of second cylinder coincides with the axle center of liquefaction jar mutually, and the antiseptic solution of liquid is atomized the back, through entering fog pipe behind the disinfection work, gets into the liquefaction jar through advancing fog pipe, through the compression of second cylinder, and energy is produced, because gas liquefaction needs the absorbed energy, the energy that produces makes fog be liquefied, because liquid has mobility, can flow out through the output tube, is collected at last, in time will use antiseptic solution fog liquefaction, can not make fog float out, the polluted environment.

Optionally, one side of disinfection room is provided with into the fog hole, one side of entering fog hole is provided with the fog sensor, one side of fog sensor is provided with ultrasonic sensor, the quantity of advancing the fog hole is a plurality of, a plurality of advance fog hole evenly distributed in one side of disinfection room, after the disinfection room was put into to medical practitioner's hand, ultrasonic signal that ultrasonic sensor sent was through the reflection of hand, finally reflected to ultrasonic sensor on, open first cylinder after receiving the signal, make first cylinder work, after the work was accomplished, the inside a large amount of fog that produces of studio, open the second cylinder behind the fog sensor received signal, make the fog by the liquefaction, at last by the collection, make whole device more automatic like this, convenient and fast more.

The utility model has the following advantages:

this hospital nursing staff uses both hands degassing unit, cooperation through first cylinder and compression component, make gas compressed, compressed gas produces the gas of quick motion through the compression pipe, be sent into the atomizing jar, whole process has utilized the venturi principle, provide the prerequisite for the antiseptic solution is atomized, effect through antiseptic solution liquefaction component, can make the antiseptic solution gasified and produce the fog, utilize liquid collision to produce the fog, do not destroy the original chemical property of antiseptic solution, make the disinfection effect not weaken, transmission through the disinfection pipe, be sent to the atomizing jar and participate in the atomizing, because the density of fog is less than the air, can rise to the disinfection room through the atomizing pipe and carry out work, make the antiseptic solution gasified and produce the disinfection fog, can not only practice thrift a large amount of antiseptic solutions, the fog can fully contact the hand of medical worker, make the disinfection more abundant, after the disinfection work, the mist enters the liquefaction cylinder through the mist inlet pipe, the energy is generated through the compression of the second cylinder, the energy is absorbed due to the liquefaction of the gas, the generated energy enables the mist to be liquefied, the liquid has fluidity and can flow out through the output pipe and be collected finally, the used disinfectant mist is liquefied in time, the mist cannot float out, the environment is polluted, an ultrasonic signal sent by the ultrasonic sensor is reflected by hands and finally reflected to the ultrasonic sensor, the first cylinder is opened after the signal is received, the first cylinder is enabled to work, after the work is completed, a large amount of mist is generated inside the working chamber, the second cylinder is opened after the signal is received by the mist sensor, the mist is liquefied and is collected finally, so that the whole device is more automatic, and more convenient and rapid.

Drawings

FIG. 1 is a schematic view of a first assembled perspective structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a first perspective of the present invention;

FIG. 3 is a schematic structural view of an atomizing member of the present invention;

FIG. 4 is a schematic diagram of the structure of a liquefaction package according to the present invention;

FIG. 5 is a schematic left sectional view of a liquefaction atomization cylinder according to the present invention;

fig. 6 is a schematic view of the upper cross-sectional structure of the atomizing cylinder of the present invention.

In the figure: 1-machine body, 2-first air cylinder, 3-compression member, 301-air valve, 302-compression cylinder, 303-compression pipe, 4-disinfectant atomization member, 401-atomization cylinder, 402-drainage column, 403-impact plate, 404-drainage hole, 5-disinfection chamber, 6-liquefaction member, 601-second air cylinder, 602-liquefaction cylinder, 603-fog inlet pipe, 604-output pipe, 7-support frame, 8-atomization pipe, 9-disinfection pipe, 10-disinfection tank, 11-fog inlet hole, 12-fog sensor and 13-ultrasonic sensor.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 6, a hand disinfection device for hospital nursing staff comprises a machine body 1, a first air cylinder 2 fixedly connected to one side of the machine body 1, a compression member 3 arranged on one side of the first air cylinder 2, a disinfectant atomization member 4 fixedly connected to one side of the compression member 3, a disinfection chamber 5 arranged on one side of the disinfectant atomization member (4), and a liquefaction member 6 arranged on one side of the disinfection chamber 5.

As an optional technical scheme of the utility model: the compression component 3 comprises an air valve 301, one side of the air valve 301 is connected with a compression cylinder 302 in a sliding mode, the diameter of the air valve 301 is matched with that of the compression cylinder 302, the axis of the first air cylinder 2 is overlapped with that of the compression cylinder 302, the first air cylinder 301 is started, air can be input from a rodless cavity and compressed, air is exhausted from a rod cavity, the pressure difference between the two cavities of the air cylinder acts on a piston, the formed thrust pushes the piston to move, the piston rod extends out, the air valve 301 is further driven to move, and when the power potential energy is larger than the static friction force between the air valve 301 and the compression cylinder 302, the air valve 301 can move and compress air.

As an optional technical scheme of the utility model: one side of the compression cylinder 302 is fixedly connected with a support frame 7, one side of the compression cylinder 302 is fixedly connected with a compression pipe 303, the axis of the compression cylinder 302 is coincided with the axis of the compression pipe 303, the first cylinder 2 generates power to compress the air valve 301, so that the thrust of the air valve 301 acts on the air in the compression cylinder 302, the air is compressed, and the compressed air generates fast-moving air through the compression pipe 303 and is sent to the atomization cylinder 401.

As an optional technical scheme of the utility model: the disinfectant atomizing member 4 comprises an atomizing cylinder 401, one side of the atomizing cylinder 401 is provided with a flow guiding column 402, one side of the flow guiding column 402 is fixedly connected with an impact plate 403, one side of the flow guiding column 402 is provided with a plurality of flow guiding holes 404, the flow guiding holes 404 are uniformly distributed on one side of the flow guiding column 402, the diameter of the flow guiding column 402 is matched with that of the impact plate 403, compressed gas generated inside a compression pipe 204 is sent into the atomizing cylinder 401 to cause pressure difference inside the atomizing cylinder 401, and the disinfectant at the bottom of the flow guiding column 402 passes through the flow guiding holes 404 due to small local pressure with large flow velocity, flows to the impact plate 403 and finally collides with the impact plate, energy is generated in the collision process, and the disinfectant can be gasified to generate a fog law according to energy conservation.

As an optional technical scheme of the utility model: one side fixedly connected with atomizing pipe 8 of atomizing jar 401, one side fixedly connected with disinfection pipe 9 of atomizing jar 401, one side fixedly connected with disinfection jar 10 of disinfection pipe 9, the axle center of atomizing pipe 8 coincides mutually with the axle center of atomizing pipe 8, a large amount of antiseptic solution is deposited to disinfection jar 7 inside, because the mobility of liquid, through the transmission of disinfection pipe 9, be sent to atomizing jar 401 and participate in the atomizing, because the density of fog is less than the air, can rise to disinfection room 5 through atomizing pipe 8 and carry out work.

As an optional technical scheme of the utility model: the liquefaction component 6 comprises a second cylinder 601, one side of the second cylinder 601 is slidably connected with a liquefaction cylinder 602, one side of the liquefaction cylinder 602 is provided with a fog inlet pipe 603, one side of the liquefaction cylinder 602 is provided with an output pipe 604, the diameter of the second cylinder 601 is equal to that of the liquefaction cylinder 602, the axis of the second cylinder 601 coincides with that of the liquefaction cylinder 602, a disinfection solution of the liquid is atomized and enters the liquefaction cylinder 602 through the fog inlet pipe 603 after disinfection, and energy is generated through compression of the second cylinder 601, and the generated energy is liquefied because the gas needs to absorb energy, and the mist can flow out through the output pipe 604 because the liquid has fluidity.

As an optional technical scheme of the utility model: the hand-operated ultrasonic disinfection device is characterized in that a fog inlet hole 11 is formed in one side of the disinfection chamber 5, a fog sensor 12 is arranged on one side of the fog inlet hole 11, an ultrasonic sensor 13 is arranged on one side of the fog sensor 12, the number of the fog inlet holes 11 is a plurality, the fog inlet holes 11 are uniformly distributed in one side of the disinfection chamber 5, when a hand of a medical worker is placed in the disinfection chamber 5, an ultrasonic signal sent by the ultrasonic sensor 13 is reflected to the ultrasonic sensor 13 finally, the first air cylinder 2 is started after the signal is received, the first air cylinder 2 works, after the work is completed, a large amount of fog is generated inside the working chamber, and the second air cylinder 601 is started after the fog sensor 12 receives the signal, so that the fog is liquefied.

The working process of the utility model is as follows: when the user uses

S1, firstly, after hands of medical workers are put into the disinfection chamber 5, ultrasonic signals sent by the ultrasonic sensor 13 are finally reflected to the ultrasonic sensor 13 through reflection of the hands, the first air cylinder 2 is started after the signals are received, the first air cylinder 2 is enabled to work, air can be input from the rodless cavity and compressed, air is exhausted from the rod cavity, the pressure difference between the two cavities of the air cylinder acts on the piston, the formed thrust pushes the piston to move, the piston rod extends out, the air valve 301 is further driven to move, and when the power potential energy is larger than the static friction force between the air valve 301 and the compression cylinder 302, the air valve 301 can move and compress the air.

S2, secondly, the first cylinder 2 generates power, the air valve 301 is compressed, the thrust of the air valve 301 acts on the gas in the compression cylinder 302, the gas is compressed, the compressed gas generates fast moving gas through the compression pipe 303 and is sent into the atomization cylinder 401, the compressed gas generated in the compression pipe 303 is sent into the atomization cylinder 401 to cause the pressure difference in the atomization cylinder 401, and the disinfectant at the bottom of the diversion column 402 flows to the impact plate 403 through the diversion hole 404 due to the small pressure at the place with large flow rate, finally collides with the impact plate 403, generates energy in the collision process, and can be gasified to generate mist according to the law of conservation of energy.

S3: finally, a large amount of disinfection liquid is stored in the disinfection tank 10, and is conveyed to the atomization cylinder 401 to participate in atomization through the transmission of the disinfection pipe 9 due to the liquidity of the liquid, and can be lifted to the disinfection chamber 5 through the atomization pipe 8 to work as the density of the fog is smaller than that of the air, so that the disinfection liquid is gasified to generate disinfection fog, after the work is completed, a large amount of fog is generated in the working chamber, the fog sensor 12 receives a signal and then starts the second cylinder 601, energy is generated through the compression of the second cylinder 601, and the fog is liquefied due to the energy absorption required by the liquefaction of the gas, and the generated energy can flow out through the output pipe 604 due to the liquidity of the liquid.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a hospital nursing staff uses both hands degassing unit which characterized in that: including organism (1), one side fixedly connected with first cylinder (2) of organism (1), one side of first cylinder (2) is provided with compression component (3), one side fixedly connected with antiseptic solution atomizing component (4) of compression component (3), antiseptic solution atomizing component (4) one side is provided with disinfection room (5), one side of disinfection room (5) is provided with liquefaction component (6).

2. The hand sanitizer according to claim 1, wherein: the compression component (3) comprises an air valve (301), a compression cylinder (302) is connected to one side of the air valve (301) in a sliding mode, the diameter of the air valve (301) is matched with that of the compression cylinder (302), and the axis of the first air cylinder (2) is overlapped with that of the compression cylinder (302).

3. A hospital care personnel both hands disinfecting device according to claim 2, wherein: one side fixedly connected with support frame (7) of compression cylinder (302), one side fixedly connected with compression pipe (303) of compression cylinder (302), the axle center of compression cylinder (302) and the axle center coincidence of compression pipe (303).

4. The hand sanitizer according to claim 1, wherein: antiseptic solution atomizing component (4) are including atomizing jar (401), one side of atomizing jar (401) is provided with drainage post (402), one side fixedly connected with striking plate (403) of drainage post (402), drainage hole (404) have been seted up to one side of drainage post (402), the quantity of drainage hole (404) is a plurality of, a plurality of drainage hole (404) evenly distributed is in one side of drainage post (402), the diameter size of drainage post (402) and the diameter size looks adaptation of striking plate (403).

5. The hand sanitizer according to claim 4, wherein: one side fixedly connected with atomizing pipe (8) of atomizing jar (401), one side fixedly connected with disinfection pipe (9) of atomizing jar (401), one side fixedly connected with disinfection jar (10) of disinfection pipe (9), the axle center of atomizing pipe (8) coincides mutually with the axle center of atomizing pipe (8).

6. The hand sanitizer according to claim 1, wherein: the liquefaction component (6) comprises a second cylinder (601), one side of the second cylinder (601) is connected with a liquefaction cylinder (602) in a sliding mode, one side of the liquefaction cylinder (602) is provided with a mist inlet pipe (603), one side of the liquefaction cylinder (602) is provided with an output pipe (604), the diameter of the second cylinder (601) is equal to that of the liquefaction cylinder (602), and the axis of the second cylinder (601) coincides with the axis of the liquefaction cylinder (602).

7. The hand sanitizer according to claim 1, wherein: one side of disinfection room (5) is provided with into fog hole (11), one side of advancing fog hole (11) is provided with fog sensor (12), one side of fog sensor (12) is provided with ultrasonic sensor (13), the quantity of advancing fog hole (11) is a plurality of, a plurality of advance fog hole (11) evenly distributed in one side of disinfection room (5).

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