CN211884545U - Fumigation instrument - Google Patents

Abstract

The utility model discloses a stifling appearance, include: a housing having a gas passage with a gas outlet; a hot water reservoir having a hot gas outlet in communication with the gas passage; a heating member for heating the hot water tank; and an atomizer having an atomization outlet in communication with the gas passage. The utility model discloses technical scheme can convenience of customers's use.

Description

Fumigation instrument

Technical Field

The utility model relates to the technical field of medical equipment, in particular to stifling appearance.

Background

Some parts of the human body, such as eyes, face or nose, are prone to various problems and require treatment to ensure their health. For example, for eyes, after long-term fatigue use, symptoms such as eye fatigue, pseudomyopia, dry eyes caused by tear film rupture, pseudopresbyopia and the like appear on the eyes, and the symptoms can cause more serious consequences if the eye is not effectively treated for a long time, so that the eye health protection and recovery are very important for a large number of patients and potential patients. At present, eyes, faces or noses are generally treated by a hot compress mode, but in order to ensure the temperature of the hot compress mode, a towel for frequent heat exchange is needed, and therefore the method brings great invariance to users.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a fumigating instrument, which aims at facilitating the use of users.

In order to achieve the above object, the utility model provides a stifling appearance includes:

a housing having a gas passage with a gas outlet;

a hot water reservoir having a hot gas outlet in communication with the gas passage;

a heating member for heating the hot water tank; and the number of the first and second groups,

an atomizer having an atomization outlet in communication with the gas passage.

Optionally, the hot water tank is removably connected to the housing.

Optionally, the housing has a base and a main body casing connected to each other, the main body casing is located above the base, the main body casing is formed with the gas passage, the gas passage has a downward gas inlet, and a notch is formed in the bottom of the main body casing to form a mounting opening through which the hot water container extends into the gas passage.

Optionally, the heating member is an electromagnetic heating member and is arranged in the base, the base corresponds to the top surface of the heating member and is provided with a yielding port, and the hot water container is arranged on the top surface of the heating member.

Optionally, the atomizer comprises a water tank and a spraying device, the spraying device is communicated with the water tank, the spraying device is provided with an ultrasonic sheet to atomize water flowing out of the water tank, and the spraying device is provided with the atomizing outlet;

the water tank is provided with a water filling port, the shell corresponds to the water filling port and is provided with a dodging port, a water tank cover is arranged at the dodging port, and the water tank cover covers the water filling port.

Optionally, the spraying device is located within the gas channel; and/or the presence of a gas in the gas,

the atomization outlet is connected with a gas passage between the gas outlet and the hot gas outlet.

Optionally, the atomizer comprises two of the spraying devices distributed in the left-right direction.

Optionally, the fumigating apparatus further comprises a plurality of guiding lamp beads, wherein one guiding lamp bead is arranged on each of the left side, the upper side and the lower side of the left spraying device, and one guiding lamp bead is arranged on each of the right side, the upper side and the lower side of the right spraying device.

Optionally, the fumigating apparatus further comprises an acupoint vibrating pen having an electric vibrating core and a massage head connected to each other, the acupoint vibrating pen being connected to the housing.

Optionally, a pen holder is arranged on the casing, the pen holder is provided with an insertion groove, and the insertion groove is used for inserting the head of the acupuncture point vibration pen.

The utility model discloses in, when stifling appearance sets up hot water container and atomizer simultaneously, hot water container can produce steam, and the steam temperature is higher, and the atomizer produces more atomizing gas, has guaranteed great air output, and simultaneously, atomizing gas is normal atmospheric temperature gas, and the higher steam of temperature mixes with the atomizing gas of normal atmospheric temperature, and the temperature of mist is higher relatively, can play stifling effect better. Meanwhile, medicines can be added into the hot water container and the atomizer, so that the sprayed mixed gas has the medicine fumigating effect, and the rehabilitation of patients with eye diseases is effectively assisted.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of a fumigating apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of the fumigator of FIG. 1 from another perspective;

FIG. 3 is a cross-sectional view of the fumigator of FIG. 1;

FIG. 4 is an exploded view of the fumigator of FIG. 1;

FIG. 5 is a cut-away schematic view of the fumigator of FIG. 1, wherein the hot gas regulator is in a closed condition;

FIG. 6 is a cut-away schematic view of the fumigator of FIG. 1, wherein the hot gas regulator is in a connected condition;

FIG. 7 is a schematic structural view of the base of FIG. 1;

FIG. 8 is a cross-sectional view of the base of FIG. 7;

FIG. 9 is an exploded view of the point vibrating pen of FIG. 1;

fig. 10 is a schematic structural view of a fumigation instrument according to another embodiment of the present invention;

fig. 11 is a cross-sectional view of the fumigator of fig. 10.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first", "second", may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a stifling appearance, this stifling appearance can carry out stifling treatment to eye, face or nose etc..

Specifically, referring to fig. 1 to 3, the fumigator includes a housing 10, the housing 10 has a gas passage 12, the gas passage 12 has a gas outlet 123, and gas is ejected from the gas outlet 123 along the gas passage 12 to fumigate eyes, face or nose of a user.

The gas passage 12 extends substantially in the up-down direction, and the gas outlet 123 is provided at the upper end portion of the housing 10, for example, the gas outlet 123 may be opened at a side of the housing 10 at a position near the upper end to allow the gas to be laterally ejected. In order to make the gas better contact with the face of the user or other parts of the face, the gas outlet 123 may be opened to be inclined upward so that the gas is ejected obliquely upward.

The gas passage 12 may further have a gas inlet 124, that is, the gas passage 12 is a passage with both ends passing through, and a device for generating gas (e.g., the hot water tank 20 or the atomizer 40, etc.) may be provided at the gas inlet 124, and the generated gas enters the gas passage 12 from the gas inlet 124. Alternatively, the gas channel 12 may also be provided without the gas inlet 124, i.e. the gas channel 12 is open at one end and closed at the other end, and the means for generating gas is arranged directly in the gas channel 12.

The fumigation instrument can further comprise a hot water container 20 and a heating element 30, wherein the hot water container 20 is provided with a hot air outlet 21, and the hot air outlet 21 is communicated with the gas channel 12; the heating member 30 serves to heat the hot water tank 20. The heating member 30 may be an electric heating pipe and is directly placed in the hot water tank 20. Alternatively, the heating member 30 may be an electromagnetic heating member 30, and disposed outside the hot water tank 20 to heat the hot water tank 20 by electromagnetic heating. Alternatively, the heating member 30 may be an open flame heating member 30. The hot water tank 20 may be connected to the housing 10, or the hot water tank 20 may be directly placed on the electromagnetic heating member 30, supported by the electromagnetic heating member 30. Specifically, the hot water tank 20 may contain a liquid such as water or a chemical solution, and the heating member 30 heats the hot water tank 20 so that the liquid in the hot water tank 20 generates hot air, and the hot air flows through the air passage 12 and flows out of the air outlet 123, thereby fumigating the face, eyes, nose, and the like of the user.

Further, the fumigator also comprises an atomizer 40, wherein the atomizer 40 is provided with an atomization outlet 421, and the atomization outlet 421 is communicated with the gas channel 12. The atomizer 40 may generate a mist ultrasonically, which flows from the atomizing outlet 421 into the gas channel 12 and out of the gas outlet 123 to fumigate the user. The atomizer 40 may be disposed in the gas channel 12, or the atomizer 40 may be disposed outside the gas channel 12, and a connection port is opened on a wall of the gas channel 12 to connect the atomization outlet 421. The atomizer 40 may be connected to the housing 10, or the atomizer 40 may be connected to other structures provided on the housing 10, such as the hot water tank 20.

In the embodiment that fumigator set up hot water container 20 and atomizer 40 simultaneously, hot water container 20 can produce steam, and the steam temperature is higher, and atomizer 40 produces more atomizing gas, has guaranteed great gas output, and simultaneously, atomizing gas is normal atmospheric temperature gas, and the higher steam of temperature mixes with the atomizing gas of normal atmospheric temperature, and the temperature of mist is higher relatively, can play stifling effect better. Meanwhile, medicines can be added into the hot water container 20 and the atomizer 40, so that the sprayed mixed gas has the function of medicine fumigation, and the rehabilitation of patients with eye diseases is effectively assisted.

In addition, if the hot water tank 20 is used alone, the temperature of the gas ejected from the gas outlet 123 is high, the gas output of the hot water tank 20 is small relative to the atomizer 40, and if a large gas output is required, the heating power of the heating member 30 needs to be set large, which results in high energy consumption, and the large gas output of hot gas further results in an excessively high temperature of the gas outlet 123, which is likely to cause discomfort to the patient. If the atomizer 40 is used alone, the amount of gas discharged from the atomizer 40 is large, but the atomizer 40 is a normal temperature gas, and the effect of steaming is not achieved. Therefore, the utility model discloses in, adopt the mode that hot water container 20 and atomizer 40 combine, hot water container 20 spun steam provides the heat, and atomizer 40 provides great air output, and the gas after so mixing can possess suitable temperature and air output simultaneously, better stifling effect that reaches.

To facilitate the addition of liquid to the hot water tank 20, in one embodiment, the hot water tank 20 is removably connected to the housing 10. Optionally, the housing 10 has a mounting port 1111, the mounting port 1111 communicates with the gas passage 12, and the hot water tank 20 can protrude from the mounting port 1111 into the gas passage 12 such that the hot gas outlet 21 of the hot water tank 20 communicates with the gas passage 12. The mounting port 1111 may be opened at a side of the housing 10 such that the hot water tank 20 is extended into the housing 10 in a lateral direction. The hot water tank 20 may be disposed upward and have an opening, which is the hot air outlet 21. Alternatively, the hot water tank 20 has a plurality of small holes formed on the top surface thereof to form the hot air outlet 21. The gas inlet 124 of the gas channel 12 opens downwards and is located above the hot gas outlet 21.

Referring to fig. 4, in detail, the housing 10 has a base 13 and a main body case 11 connected with each other, the main body case 11 is located above the base 13, the main body case 11 forms the gas channel 12, the gas channel 12 has a downward gas inlet 124, and the bottom of the main body case 11 is notched to form a mounting opening 1111 for the hot water tank 20 to extend into the gas channel 12. In this manner, the hot water tank 20 may be supported by the base 13.

In one embodiment, the heating element 30 is an electromagnetic heating element 30 and is disposed in the base 13, the base 13 is opened with a position-giving opening corresponding to the top surface of the heating element 30, and the hot water container 20 is disposed on the top surface of the heating element 30. The heating member 30 may be in the form of an induction cooker to better support the hot water tank 20. For better heat dissipation, the base 13 is provided with a plurality of heat dissipation holes 135.

Alternatively, a gap may be provided between the top surface of the hot water tank 20 and the hole edge of the mounting port 1111, so that on one hand, the installation of the hot water tank 20 is ensured to be smoother; on the other hand, when the gas outlet 123 is not smooth, for example, the gas outlet 123 is partially blocked, hot gas can flow out from the gap between the hot water tank 20 and the hole edge of the mounting port 1111, which is beneficial to release the internal pressure. Optionally, the upper orifice edge of the mounting port 1111 is angled generally upward such that the mounting port 1111 forms a flare.

Please refer to fig. 5 and fig. 6 in combination, wherein the dashed arrows represent the flowing direction of the gas. In order to adjust the gas output and the gas output temperature of the gas outlet 123, in an embodiment, the fumigator further includes a hot gas adjusting part 50, and the hot gas adjusting part 50 is disposed in the gas passage 12 and located between the hot gas outlet 21 and the gas outlet 123, so as to adjust the opening degree of the gas passage 12. That is, the hot gas adjusting member 50 can adjust the opening size of the gas passage 12, so as to adjust the amount of hot gas flowing from the hot gas outlet 21 to the gas outlet 123, thereby meeting the requirements of different patients.

The hot gas adjusting part 50 can be switched between a communication working condition (fig. 6) and a closing working condition (fig. 5), wherein under the communication working condition, the gas outlet 123 is communicated with the hot gas outlet 21, and under the closing working condition, the gas outlet 123 is disconnected with the hot gas outlet 21. By opening the gas channel 12, the hot gas can reach the gas outlet 123, resulting in a mixing of the hot gas and the atomizing gas. By closing the gas channel 12, the flow of hot gas to the gas outlet 123 can be prevented. In addition, the hot gas adjusting member 50 can gradually adjust the opening of the gas passage 12 during switching between the open condition and the closed condition.

In one embodiment, the hot gas regulating element 50 is movably connected to the housing 10, so as to switch the hot gas regulating element 50 between a connected condition and a closed condition. In the embodiment of the present invention, there are various ways for movably connecting the hot air adjusting element 50 to the housing 10, for example, the hot air adjusting element 50 is rotatably connected to the housing 10 or the hot air adjusting element 50 is slidably connected to the housing 10; alternatively, the hot air adjusting member 50 is engaged with the housing 10. In addition, the hot gas regulating member 50 may be a solenoid valve or a manual mechanical valve.

Referring to fig. 2 and 4 again, in order to facilitate the adjustment of the hot air adjusting element 50, in an embodiment, an adjusting knob 51 is disposed on an outer surface of the housing 10, and the adjusting knob 51 is connected to a rotating shaft of the hot air adjusting element 50. The hot air adjusting member 50 can be rotated by rotating the adjusting knob 51, thereby facilitating the user to manually control the amount of hot air. Of course, in other embodiments, the rotation of the hot air adjustment member 50 can be controlled electrically.

Referring to fig. 6 again, in an embodiment, the gas channel 12 has a gas inlet section 121 and a gas outlet section 122, the gas outlet section 122 is connected to the gas outlet 123, and the gas inlet section 121 is connected to the hot gas outlet 21. The opening that the section of giving vent to anger 121 held is less than the opening that the section of giving vent to anger 122 held, hot gas regulating part 50 sets up the section of giving vent to anger of the section of giving vent to anger 121 holds to can cover the section of giving vent to anger of the section of giving vent to anger 121 holds, just hot gas regulating part 50 can court the section of giving vent to anger holds the internal rotation. In this embodiment, the outlet of the air inlet section 121 is smaller than the inlet of the air outlet section 122, so that the hot air adjusting element 50 can close the outlet of the air inlet section 121 and rotate at the inlet of the air outlet section 122, and the inlet of the air outlet section 122 provides an abdicating space for the rotation of the air outlet section 122.

Specifically, the housing 10 includes a lower case 111 and an upper case 112 connected to each other, the lower case 111 is formed with the air inlet section 121, the air inlet section 121 penetrates through an upper end of the lower case 111, and an air outlet end is formed at an upper end of the lower case 111. The upper shell 112 may be open downward to form the air outlet section 122, and the upper shell 112 is enclosed outside the air inlet section 121. Alternatively, the air outlet section 122 is formed between the upper casing 112 and the lower casing 111. In this embodiment, the hot air adjusting member 50 is disposed at the lower case 111 and can cover the top opening of the air intake section 121. In this embodiment, the lower case 111 and the upper case 112 are detachably coupled, so that the hot air adjusting unit 50 can be conveniently disassembled. Of course, the lower case 111 and the upper case 112 may be integrally provided.

In the above embodiment, the hot air regulating member 50 may have a plate shape. The plate-shaped hot gas regulating member 50 occupies a small space and is more effectively covered with the outlet of the gas inlet section 121.

Referring to fig. 3, fig. 4, fig. 7 and fig. 8, in order to prevent the condensed water from dripping down during the rising process of the hot gas, in one embodiment, the housing 10 further has a drain groove 131, the gas channel 12 has a gas outlet 123, and the gas channel 12 is communicated with the hot gas outlet 21; the drainage groove 131 is disposed corresponding to the bottom of the gas channel 12, so that water sliding down along the inner wall of the gas channel 12 flows to the drainage groove 131, the housing 10 is provided with a drainage port 132, and the drainage port 132 is communicated with the drainage groove 131. Wherein the dotted arrows in fig. 3 represent the flow direction of the condensed water.

The embodiment of the utility model provides an in, the mode that water drainage tank 131 corresponds the bottom setting of gas passage 12 has the multiple, particularly speaking, in one embodiment, the opening has been seted up to the bottom of gas passage 12, and the opening of bottom can constitute gas inlet 124, and water drainage tank 131 extends along the hole edge of gas inlet 124, and the orthographic projection of the hole edge of gas inlet 124 on the surface at water drainage tank 131 is located water drainage tank 131 to make along the hydroenergy of gas inlet 124 hole edge drippage can just drip in water drainage tank 131. In one embodiment, the surface of the casing 10 on which the drainage groove 131 is formed (for better illustration, the surface is the first surface) is inclined downward, the hole edge of the gas inlet 124 is offset from the drainage groove 131 in the transverse direction, and the gas inlet 124 is located below the gas inlet 124 near the higher side of the first surface relative to the drainage groove 131. Thus, the condensed water flows to the drain groove 131 obliquely downward along the first surface. In one embodiment, the bottom of the gas channel 12 is closed and the drain groove 131 is opened in the bottom wall of the gas channel 12.

The drain port 132 may be directly formed at the bottom of the drain groove 131, or the drain port 132 may be formed outside the drain groove 131 and connected thereto by a connecting groove. In order to discharge the condensed water, a connection pipe 136 may be disposed at the drain port 132 to be led out to the outside, thereby achieving the purpose of draining water at any time. Or, a blocking cover may be disposed at the drain opening 132, and the drain opening 132 is sealed and covered, so that when there is much condensed water in the drain groove 131, the blocking cover is removed to open the drain opening 132, so as to drain the condensed water, thereby realizing regular or irregular drainage.

When the hot gas generated from the hot water tank 20 contacts the inner wall of the gas channel 12, a part of the hot gas is condensed to form condensed water and flows down along the inner wall of the gas channel 12. The utility model discloses in, after setting up water drainage tank 131 through the bottom that corresponds gas passage 12, can make the comdenstion water concentrate and flow into water drainage tank 131, and discharge from outlet 132, avoided the comdenstion water to flow everywhere, also can avoid the comdenstion water to drip simultaneously and add the surface of heat piece 30.

In one embodiment, the housing 10 includes a main body case 11 and a base 13, the main body case 11 is formed with the gas passage 12, and the gas passage 12 penetrates through the bottom surface of the main body case 11 to form a gas inlet 124; the base 13 is installed at the bottom of the body case 11, and the drain groove 131 is formed on the upper surface of the base 13, and the drain groove 131 extends along the edge of the gas inlet 124. In this embodiment, an orthographic projection of the edge of the gas inlet 124 on the base 13 is at least partially located within the water discharge groove 131. Specifically, the drain groove 131 may extend along the edge of the gas inlet 124 to have a closed loop shape, so that the condensed water dripping everywhere may flow into the drain groove 131. Of course, the drainage channel 131 may also be a ring with a gap, or the drainage channel 131 may be square, circular, etc. and the entire orthographic projection of the gas inlet 124 is located in the drainage channel 131.

In one embodiment, the orthographic projection of the edge of the gas inlet 124 on the base 13 is located in the drainage groove 131. In this embodiment, the orthographic projection of the edge of the gas inlet 124 on the base 13 may also be partially located within the hot water tank 20, thereby allowing a portion of the condensed water to flow back to the hot water tank 20. In addition, in other embodiments, a flange may be disposed at another edge of the gas inlet 124, and a diversion trench is formed at the flange, so that the condensed water is diverted to the side of the drainage trench 131 and finally to the drainage trench 131.

In one embodiment, the edge of the gas inlet 124 and the mounting port 1111 is not provided, and the orthographic projection on the base 13 is entirely located in the drainage groove 131; the body case 11 is provided with a blocking edge 1113, the blocking edge 1113 extends along the edge of the mounting opening 1111, and the blocking edge 1113 protrudes toward the inside of the gas passage 12. That is, at the edge where the mounting port 1111 is not provided, which is entirely inside the drain groove 131, the condensed water directly flows into the drain groove 131; at the position where the installation opening 1111 is opened, due to the arrangement of the blocking edge 1113, the blocking edge 1113 can guide the condensed water into the hot water container 20, so that the condensed water directly drops into the hot water container 20. Meanwhile, the arrangement of the blocking edge 1113 can reduce the area of the gas inlet 124, thereby reducing the entering amount of hot gas and avoiding the excessive inflow of hot gas into the gas channel 12 to cause overhigh temperature.

In one embodiment, the main body case 11 includes a lower case 111, the lower case 111 is formed with the air intake section 121, and the air intake section 121 penetrates through an upper end of the lower case 111; the upper end of the lower shell 111 is provided with a material saving cavity 1112, the material saving cavity 1112 is located in the air outlet section 122, and the material saving cavity 1112 is communicated with the water outlet 132. In this embodiment, the main body case 11 may be a plastic part. Since the opening of the air outlet end of the lower case 111 is small, the opening of the air inlet end of the upper case 112 is large, and the peripheral outer surface of the upper end of the lower case 111 is substantially flush with the peripheral outer surface of the lower end of the upper case 112, the wall thickness of the lower case 111 is thick relative to the upper case 112. Therefore, in order to achieve better molding and save material, the material saving cavity 1112 is disposed on the top surface of the lower case 111 to reduce the wall thickness of the lower case 111. The material saving cavity 1112 is arranged to allow part of the hot gas to enter the material saving cavity 1112 and condense into condensed water, so that the material saving cavity 1112 is communicated with the water outlet 132, and the condensed water can be discharged to the water outlet 132.

In one embodiment, the material saving cavity 1112 extends along the air inlet section 121 in a ring shape, so that the wall thickness of the lower shell 111 is more uniform, and the forming of the lower shell 111 is also facilitated.

In one embodiment, the top surface of the base 13 is provided with a mounting groove 133, the mounting groove 133 is communicated with the drainage port 132, the bottom of the lower shell 111 is disposed in the mounting groove 133, and the material saving cavity 1112 at least partially penetrates through the bottom surface of the lower shell 111 downward to be communicated with the mounting groove 133, so that the condensed water drops into the mounting groove 133 along the cavity wall of the material saving cavity 1112 and is drained from the drainage port 132. Optionally, the drain port 132 is arranged at the bottom of the mounting groove 133; the top surface of the base 13 is provided with a communication groove 134, and the communication groove 134 is respectively communicated with the drainage port 132 and the drainage groove 131. The condensed water in the drain groove 131 flows into the mounting groove 133 through the communication groove 134 and is discharged from the drain port 132.

Optionally, the material saving cavity 1112 extends downward through the bottom surface of the lower shell 111 without the retaining edge 1113. That is, the side of the material saving cavity 1112 penetrating downwards is located below the blocking edge 1113 and is lower than the side of the material saving cavity 1112 not penetrating, so that the condensed water on the side not penetrating can be ensured to flow downwards to the side penetrating downwards. Specifically, the blocking edge 1113 is not provided, the saving cavity 1112 penetrates through the bottom surface of the lower shell 111 downward, and at the position where the blocking edge 1113 is provided, the blocking edge 1113 blocks the bottom of the saving cavity 1112 to form the bottom wall of the saving cavity 1112, and the condensed water therein can flow downward along the blocking edge 1113 to the side of the saving cavity 1112 penetrating through the bottom surface of the lower shell 111. In this embodiment, the portion of the lower case 111 where the mounting opening 1111 is not provided is mounted in the mounting groove 133.

Referring again to fig. 5, in an embodiment, the atomizer 40 includes a water tank 41 and a spraying device 42, the spraying device 42 is communicated with the water tank 41, the spraying device 42 has an ultrasonic sheet to atomize the water flowing out from the water tank 41, and the spraying device 42 has the atomizing outlet 421. The spraying device 42 may in particular be arranged in the gas channel 12, so that no additional openings need to be made in the wall of the gas channel 12. Of course, the spraying device 42 may also be arranged outside the housing 10.

Referring to fig. 4 again, the water tank 41 has a water filling opening 411, the housing 10 has an avoiding opening corresponding to the water filling opening 411, the avoiding opening is provided with a water tank cover 43, and the water tank cover 43 covers the water filling opening 411. The water tank cover 43 is detachably connected to the housing 10 or the water tank 41, and can add liquid to the water tank 41 through the water inlet 411 and pour out the liquid in the water tank 41 through the water inlet 411. Specifically, the water tank 41 and the housing 10 may be integrally formed; or, the water tank 41 is detachably connected with the housing 10, the avoiding opening is arranged around the water filling opening 411 of the water tank 41, and the water tank 41 is connected with the hole edge of the avoiding opening.

In one embodiment, the atomization outlet 421 is connected to the gas passage 12 between the gas outlet 123 and the hot gas outlet 21. In particular, the spraying device 42 may be arranged in the gas channel 12 between the gas outlet 123 and said hot gas outlet 21. The hot gas is mixed with the atomizing gas to form a mixed gas in the ascending process, and then the mixed gas is ejected from the gas outlet 123. Of course, the atomization outlet 421 can also be connected to the gas channel 12 between the gas inlet 124 and the hot gas outlet 21.

In the embodiment where the hot gas adjusting member 50 is provided, the atomizing outlet 421 communicates with the gas passage 12 between the hot gas adjusting member 50 and the gas outlet 123, so that the hot gas adjusting member 50 can adjust the ratio of the amount of hot gas and the atomizing gas in the mixed gas, thereby adjusting the temperature of the mixed gas.

In one embodiment, the atomizer 40 includes two spraying devices 42 distributed along the left-right direction, and the two spraying devices 42 are connected to the water tank 41 respectively. The two spraying devices 42 spray larger mist, so that larger air output can be ensured. In addition, two spray devices 42 may be provided for each eye of the patient to provide more targeted treatment of the eye.

In one embodiment, the fumigator further includes a plurality of guiding light beads 60, wherein one guiding light bead 60 is disposed on each of the left side, the upper side, and the lower side of the left spraying device 42, and one guiding light bead 60 is disposed on each of the right side, the upper side, and the lower side of the right spraying device 42. The guiding lamp bead 60 can be switched between on and off, and has the function of guiding the eyeball moving direction of the patient by lighting in the treatment process of the patient, so that the purposes of pulling, training and relaxing the muscles of the eyes are achieved.

Referring to fig. 9, in one embodiment, the fumigator further includes an acupuncture point vibration pen 70, the acupuncture point vibration pen 70 has an electric vibration core 72 and a massage head 73 connected to each other, and the acupuncture point vibration pen 70 is connected to the housing 10. Specifically, the acupuncture point vibrating pen 70 may further have a housing 71, an electric vibrating core 72 is disposed in the housing 71, and a massage head 73 is disposed at one end of the housing 71. The electric vibration core 72 generates vibration after being electrified and drives the massage head 73 connected with the electric vibration core to vibrate, and the massage head 73 is contacted with the acupuncture points of the user to realize the massage of the acupuncture points. Optionally, the acupuncture point vibration pen 70 is connected to the casing 10 through an electrical connection line, and the electrical connection line is connected to a power module inside the casing 10, so as to supply power to the acupuncture point vibration pen 70. Alternatively, a power source may be installed inside the acupoint vibrating pen 70 to supply power to the electric vibrating core 72.

In one embodiment, the casing 10 is provided with a pen holder 14, and the pen holder 14 has an insertion groove for inserting the head of the acupuncture point vibration pen 70. In this embodiment, the head of the acupuncture point vibrating pen 70 is an end having the massage head 73, and the massage head 73 is inserted into the insertion groove to prevent the massage head 73 from being damaged by collision. In addition, the acupuncture point vibration pen 70 may be entirely inserted into the insertion groove, or the other end of the acupuncture point vibration pen 70 may be inserted into the insertion groove. When the acupuncture point vibration pen 70 is needed to be used, the acupuncture point vibration pen 70 is directly pulled out of the insertion groove.

Referring to fig. 10 and 11, in one embodiment, the fumigator is used for eye treatment, and includes an eye shield 80, wherein the eye shield 80 is connected to the housing 10 and disposed around the gas outlet 123. The eye shield 80 is ring-shaped, and optionally, the eye shield 80 is detachably connected to the housing 10, thereby facilitating replacement. Specifically, the eye shield 80 is inserted into the housing 10, for example, the eye shield 80 can be directly sleeved on the gas outlet 123 and inserted into the housing 10 at the gas outlet 123. In addition, the eye shield 80 may also snap fit, screwed, welded, etc. to the housing 10. Alternatively, the eye shield 80 is integrally formed with the housing 10.

Furthermore, the fumigator may also be used for facial treatment, in particular, the fumigator has a face shield 90, the face shield 90 also being provided around the gas outlet 123. The face shield 90 is annular and can be directly sleeved on the gas outlet 123 and is in plug-in fit with the housing 10 at the gas outlet 123. In addition, the face shield 90 may also snap fit, screw, weld, etc. to the housing 10. Alternatively, the face shield 90 is integrally formed with the housing 10.

In one embodiment, the face shield 90 is removably attached to the eye shield 80, or the face shield 90 is removably attached to the housing 10, and the face shield 90 projects beyond the eye shield 80 in a direction away from the gas outlet 123. Therefore, on the basis of the eye shield 80, the function of the fumigation instrument can be switched by connecting the face shield 90 without disassembling the eye shield 80, so as to fumigate the face; similarly, when eye fumigation is desired, the face shield 90 may be removed. By detachably connecting the face shield 90 to the eye shield 80 or the housing 10, the operation of the user can be facilitated, and the function of the fumigator can be rapidly switched.

The opening of the eye shield 80 is smaller than the opening of the face shield 90. typically, the eye shield 80 encloses the two eyes, and the face shield 90 encloses the eyes, nose, mouth, forehead, face, and chin.

In one embodiment, the face shield 90 has a contact section 91 and a plug section 92, the plug section 92 is inserted into the eye shield 80, and the contact section 91 is exposed outside the eye shield 80. In the present embodiment, the contact section 91 is in contact with the face of the user. The insertion and matching mode is adopted, so that the face shield 90 can be quickly disassembled and assembled. In addition, the face shield 90 may be inserted outside the eye shield 80. In addition, in other embodiments, the face shield 90 can be snapped or screwed to the eye shield 80 or the housing 10.

In one embodiment, the inner wall of the eye shield 80 is provided with a circle of insertion surrounding plate 81, the insertion surrounding plate 81 surrounds the gas outlet 123, and the insertion section 92 is inserted and matched with the insertion surrounding plate 81. Namely, the abutment between the plug section 92 and the plug shroud 81, thereby preventing gas from flowing out through the gap between the eye shield 80 and the face shield 90. Meanwhile, the insertion section 92 is also of an annular plate structure, the insertion enclosing plate 81 and the insertion section 92 are in surface contact, the contact area between the two is large, the insertion section 92 can be effectively supported, and the insertion section 92 is prevented from moving.

In one embodiment, the face shield 90 extends upwardly in a direction away from the gas outlet 123. This causes the face shield 90 to press the eye shield 80 downward and toward the gas outlet 123 under its own weight, thereby making the fit between the two tighter. Meanwhile, since the contact section 91 of the face shield 90 is large, the contact section 91 can prevent the face shield 90 from moving toward the eye shield 80.

In one embodiment, the fumigator further comprises a nose shield (not shown) surrounding the gas outlet 123, the nose shield being removably attachable to the housing 10 in the alternative to the eye shield 80. Specifically, in one embodiment, a nose shield is coupled to the housing 10 to effect treatment of the nose; in one embodiment, the eye shield 80 is coupled to the housing 10 to provide treatment to the eye. In this embodiment, different functions can be realized by matching different shields, so that one machine has multiple different functions at the same time, and the function can be quickly switched.

In this embodiment, the nose guard may enclose the nose.

Optionally, the eye shield 80 and the face shield 90 are both plastic pieces. In addition, the nose shield may also be a plastic piece. In other embodiments, the eye shield 80 and the face shield 90 may be both silicone or rubber.

Referring to fig. 2 again, in addition, a control device 15 may be disposed on the housing 10, and the control device 15 may be electrically connected to the atomizer 40 to control the atomizer 40. The control device 15 may be a mechanical button or a touch screen. Or, the control device 15 can also be electrically connected with the heating element 30, the guiding lamp bead 60 and the like.

A heat regulator 16 may be further disposed on the housing 10, and the heat regulator 16 is electrically connected to the heating element 30 to regulate the heating power of the heating element 30.

The above is only the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all of which are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of the specification and the attached drawings did, or directly/indirectly use all to include in other relevant technical fields the patent protection scope of the present invention.

Claims (10)

1. A fumigating instrument is characterized by comprising:

a housing having a gas passage with a gas outlet;

a hot water reservoir having a hot gas outlet in communication with the gas passage;

a heating member for heating the hot water tank; and the number of the first and second groups,

an atomizer having an atomization outlet in communication with the gas passage.

2. The fumigator of claim 1 wherein the hot water tank is removably connected to the housing.

3. The fumigator of claim 2 wherein the housing has a base and a body shell connected, the body shell being located above the base, the body shell forming the gas passage, the gas passage having a gas inlet facing downwardly, the body shell having a bottom opening defining a mounting opening for the hot water container to extend into the gas passage.

4. The fumigating instrument of claim 3 wherein the heating element is an electromagnetic heating element and is disposed in the base, the base is provided with a relief opening corresponding to the top surface of the heating element, and the hot water container is disposed on the top surface of the heating element.

5. The fumigator of claim 1 wherein the atomizer comprises a water tank and a spraying device in communication with the water tank, the spraying device having an ultrasonic blade to atomize water from the water tank, the spraying device having the atomizing outlet;

the water tank is provided with a water filling port, the shell corresponds to the water filling port and is provided with a dodging port, a water tank cover is arranged at the dodging port, and the water tank cover covers the water filling port.

6. The fumigator of claim 5 wherein the spraying means is located within the gas passage; and/or the presence of a gas in the gas,

the atomization outlet is connected with a gas passage between the gas outlet and the hot gas outlet.

7. The fumigator of claim 6 wherein the atomizer comprises two of the spray devices distributed in a side-to-side direction.

8. The fumigator of claim 7 further comprising a plurality of guide beads, wherein one guide bead is provided on each of the left, upper and lower sides of the left-hand spray device, and one guide bead is provided on each of the right, upper and lower sides of the right-hand spray device.

9. The fumigator of any one of claims 1 to 8, further comprising an acupuncture point vibrating pen having an electrically driven vibrating core and a massaging head connected thereto, the acupuncture point vibrating pen being connected to the housing.

10. The fumigating apparatus of claim 9 wherein the housing is provided with a pen holder having a slot for insertion of the head of the point-shaking pen.

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