CN115192836A

CN115192836A - Intelligent temperature control suction type electronic nasopharynx kettle

Info

Publication number: CN115192836A
Application number: CN202210776623.2A
Authority: CN
Inventors: 曾小萌
Original assignee: Shenzhen Meida Jiaye Technology Co ltd
Current assignee: Shenzhen Meida Jiaye Technology Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-10-18
Anticipated expiration: 2042-06-30
Also published as: CN115192836B

Abstract

The invention belongs to the technical field of nasopharynx kettles, and particularly relates to an intelligent temperature control suction type electronic nasopharynx kettle which comprises a nasopharynx kettle body, a nasopharynx kettle nozzle, a nasopharynx kettle cover, a nasopharynx straw, a temperature control unit and a control unit, wherein the nasopharynx kettle nozzle is integrally formed at the top end of the nasopharynx kettle body, the nasopharynx kettle cover is assembled inside the nasopharynx kettle cover, the nasopharynx kettle cover is assembled at the bottom end of the nasopharynx kettle cover, the temperature control unit is assembled inside a storage cavity, the control unit is installed inside the integrated cavity, a feeding unit communicated with the inside of the nasopharynx straw is arranged inside the temperature control unit, a material distributing plate is fixedly installed inside the storage cavity, a material guide pipe is fixedly embedded in the middle of the material distributing plate, an air bag located above the feeding unit is sleeved at the top of the material guide pipe, and connecting pipes communicated with the feeding unit are installed on two sides of the air bag. The nasopharynx heating device can heat nasopharynx before nasopharynx inhalation, can kill germs, can improve the temperature of nasopharynx, and reduces discomfort of users.

Description

Intelligent temperature control suction type electronic nasopharynx kettle

Technical Field

The invention belongs to the technical field of nasopharynx kettles, and particularly relates to an intelligent temperature-control suction-type electronic nasopharynx kettle.

Background

The nasopharynx kettle is a container for holding nasopharynx, is small and portable, is a traditional nasopharynx grass product, is prepared by baking, removing stems and powder from the nasopharynx, fermenting and adding spice, is smelled by the nasopharynx, gradually disappears from daily life due to the fact that the sucking posture is extremely unsightly, but at present, people prepare a plurality of Chinese herbal medicines by the mode, then grind the Chinese herbal medicines into powder and put the powder in the nasopharynx kettle, and accordingly provide medicine smelling services for patients.

The traditional sucking mode mostly needs to use a nasopharynx spoon to scoop the nasopharynx out of the nasopharynx pot in advance and then put the nasopharynx pot on some vessels or hands to suck, the operation is very troublesome, the sucking is extremely unsightly when the surrounding people gather, the nasopharynx is powdery at normal temperature, the temperature is lower compared with the temperature in the human nasal cavity, the direct sucking can cause discomfort of the user, the user can easily sneeze, the carried germs are more in the sneeze, great influence can be brought to the surrounding people, the sucking mode is not particularly sanitary, some germs can be easily sucked by the user, meanwhile, the nasopharynx cannot be completely sucked into the nasal cavity every time, the residual germs can be directly brushed off, so that the germs can be diffused into the air, the surrounding people can possibly feel uncomfortable when sucking, and even the user can carry some germs to infect the surrounding people by depending on the nasopharynx.

Disclosure of Invention

The invention aims to provide an intelligent temperature-control suction-type electronic nasopharynx kettle which can be heated before nasopharynx suction, not only can kill germs, but also can improve the temperature of nasopharynx, so that the temperature of nasopharynx can reach the temperature suitable for a user, and the discomfort of the user is reduced.

The technical scheme adopted by the invention is as follows:

an intelligent temperature control suction type electronic nasopharynx kettle comprises a nasopharynx kettle body, wherein a nasopharynx kettle mouth is integrally formed at the top end of the nasopharynx kettle body, a nasopharynx kettle cover is assembled inside the nasopharynx kettle mouth, a nasopharynx suction pipe is assembled at the bottom end of the nasopharynx kettle cover, a material taking spoon is integrally formed at the bottom end of the nasopharynx suction pipe, a partition plate is integrally formed inside the nasopharynx kettle body and divides an inner cavity of the nasopharynx kettle body into a storage cavity and an integrated cavity, two through holes are formed in the nasopharynx kettle mouth, and the two through holes are respectively communicated with the storage cavity and the integrated cavity;

the temperature control unit is assembled inside the storage cavity and used for controlling the temperature of the nasopharynx in the storage cavity;

the control unit is arranged in the integrated cavity and is electrically connected with the temperature control unit;

the feeding unit is arranged in the temperature control unit, communicated with the inside of the nasal straw and used for feeding nasopharynx inside the storage cavity to the inside of the nasal straw;

the storage cavity is fixedly provided with a material distribution plate inside, the material distribution plate divides the storage cavity into a nasopharynx storage area and a nasopharynx transfer area, a material guide pipe located on the inner side of the feeding unit is fixedly embedded in the middle of the material distribution plate, an air bag located above the feeding unit is sleeved at the top of the material guide pipe, and connecting pipes communicated with the feeding unit are mounted on two sides of the air bag.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the temperature control unit comprises a bearing sleeve and an electric heating wire, the bearing sleeve is fixedly arranged in the nasopharynx transfer area and covers the outer side of the feeding unit, an annular cavity is formed in the bearing sleeve, and the electric heating wire is assembled in the annular cavity.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the control unit comprises an integrated mainboard, the integrated mainboard is assembled in the interior of the integrated cavity, the integrated mainboard is connected with a temperature sensor through a wire, the temperature sensor is assembled in the interior of the feeding unit, a storage battery electrically connected with the integrated mainboard is further installed in the interior of the integrated cavity, and the storage battery is further electrically connected with the heating wire.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the feeding unit comprises a feeding barrel, a feeding pipe and a clamping ring, the feeding barrel is wrapped on the outer surface of the guide pipe in a sliding mode, a feeding port is formed in the bottom end of the feeding barrel, the feeding pipe is sleeved inside the feeding port, the feeding pipe penetrates through the partition plate and extends to the inside of the integrated cavity, the clamping ring is arranged inside the integrated cavity and fixedly connected with one end of the feeding pipe, and the clamping ring is further sleeved on the outer surface of the nasal suction pipe.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the bottom of the guide pipe is provided with a discharge hole, and the bottom inside the feeding barrel is fixedly provided with a plugging rod corresponding to the discharge hole.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the feeding device comprises a feeding barrel, a feeding port, a feeding pipe, a feeding inclined plane, a leakage-proof plug and a feeding pipe, wherein the feeding inclined plane is arranged in the feeding barrel, the lowest end of the feeding inclined plane is communicated with the feeding port, the leakage-proof plug is fixedly arranged in the feeding barrel and is aligned with the feeding port, and the leakage-proof plug is matched with the feeding pipe.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the feeding device comprises a feeding barrel, a feeding pipe and a feeding pipe, and is characterized in that a mounting groove is formed in the top of the feeding barrel, a reset spring is fixedly mounted inside the mounting groove, an external ring which is integrally formed with a material guide pipe is fixedly mounted at the bottom end of the reset spring, and the external ring is slidably sleeved inside the mounting groove.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the bottom of the inner cavity of the nasopharynx transit zone is fixedly provided with an electromagnet aligned with the feeding barrel, the electromagnet is electrically connected with the storage battery, and the bottom end of the feeding barrel is fixedly embedded with a magnetic suction piece corresponding to the electromagnet.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the connecting pipe comprises an air supply pipe and an air outlet pipe, the air supply pipe is a flexible hose, the air outlet pipe is a rigid pipe, the air supply pipe is communicated with the inside of the mounting groove, the air outlet pipe is connected with one side of the bottom of the feeding barrel in a sliding mode, an air guide cavity is formed in the bottom of the feeding barrel, and a plurality of air outlet notches facing the feeding port are formed in the inner side of the air guide cavity.

As a preferred scheme of the intelligent temperature control suction type electronic nasopharynx kettle, the invention comprises the following steps: the bottom end of the nasopharyngeal kettle cover is provided with an arc-shaped groove which is sleeved outside the top end of the nasal suction tube, one side of the bottom end of the nasopharyngeal kettle cover is rotatably connected with a convex block, and the top end of the nasopharyngeal kettle spout is provided with a butt joint notch corresponding to the convex block.

The invention has the technical effects that:

the nasopharynx heating device adopts the design of the temperature control unit, and can heat the nasopharynx in advance before a user adsorbs the nasopharynx, so that on one hand, germs carried by the user are killed, on the other hand, the temperature of the nasopharynx can be increased, therefore, when the nasopharynx is inhaled, the nasopharynx does not stimulate the paranasal sinuses of the user, the user does not feel uncomfortable when adsorbing the nasopharynx, the probability of sneezing is reduced, and the infection rate of germs is reduced;

the nasopharynx type nasal suction tube adopts the design of the feeding unit, the nasopharynx can be stored in the feeding unit in advance, the nasopharynx is heated in the temperature control unit, the nasopharynx cannot enter the interior of the nasal suction tube in the process, the nasal suction tube cannot be heated, and the phenomenon that the nose of a user generates burning sensation due to the fact that the nasal suction tube is heated is avoided;

the invention adopts the matching of the air bag and the connecting pipe, can convey gas to the interior of the air bag in advance in the operation process of the feeding unit to enable the air bag to be expanded, and can extrude the gas in the air bag into the interior of the feeding barrel in the subsequent resetting process of the feeding unit, so that excessive residual nasopharynx in the interior of the feeding barrel can be avoided, further the error of the nasopharynx amount absorbed by an inhaler each time can be ensured to be small, meanwhile, a user only needs to align nostrils to the nasal suction pipe during absorption, and even if nasopharynx residues exist, the nasopharynx residues can fall into the interior of the nasal suction pipe and can not be diffused into the air.

Drawings

FIG. 1 is a schematic view of an overall apparatus provided by an embodiment of the present invention;

FIG. 2 is a side view of the interior of a nasopharyngeal kettle body according to an embodiment of the present invention;

FIG. 3 is a schematic view of the interior of an integrated chamber provided by an embodiment of the present invention;

FIG. 4 is a schematic view of the interior of a storage compartment provided by an embodiment of the present invention;

FIG. 5 is an enlarged schematic view taken at A of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic view of a nasopharyngeal pot lid and a nasal straw according to an embodiment of the present invention;

FIG. 7 is an exploded view of the junction of a feed unit and a temperature control unit provided by an embodiment of the present invention;

FIG. 8 is a cross-sectional view of the junction of a feed unit and a temperature control unit provided by an embodiment of the present invention;

fig. 9 is an enlarged schematic view of the invention at B in fig. 7.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a nasopharyngeal kettle body; 101. a storage chamber; 1011. a nasopharyngeal storage area; 1012. a nasopharyngeal transnasopharyngeal area; 102. an integrated cavity; 2. a nasopharyngeal spout; 3. a nasopharyngeal pot lid; 301. a nasal suction tube; 302. a bump; 4. a partition plate; 5. a temperature control unit; 501. a load bearing sleeve; 502. an electric heating wire; 6. a feeding unit; 601. a feed cylinder; 6011. a plugging rod; 6012. a material guiding inclined plane; 6013. a leakage-proof plug; 6014. mounting grooves; 6015. an air guide chamber; 602. a feed pipe; 603. a snap ring; 7. a material distributing plate; 8. a material guide pipe; 801. an external ring; 9. an air bag; 10. a connecting pipe; 1001. an air supply pipe; 1002. an air outlet pipe; 11. a return spring; 12. an electromagnet; 13. magnetically attracting the chock; 1301. a guide rod.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1 to 6, the invention provides an intelligent temperature control suction type electronic nasopharynx kettle, which comprises a nasopharynx kettle body 1, a nasopharynx spout 2 is integrally formed at the top end of the nasopharynx kettle body 1, a nasopharynx kettle lid 3 is assembled inside the nasopharynx spout 2, both the nasopharynx spout 3 and the nasopharynx spout 2 can be made of magnetic materials, and the opposite sides of the two have opposite magnetic poles, so that the nasopharynx kettle lid 3 is not easy to shift relative to the nasopharynx spout 2, a nasal suction tube 301 is assembled at the bottom end of the nasopharynx kettle lid 3, a material taking spoon is integrally formed at the bottom end of the nasal suction tube 301, a partition plate 4 is integrally formed inside the nasopharynx kettle body 1, the partition plate 4 divides the inner cavity of the nasopharynx kettle body 1 into a storage cavity 101 and an integrated cavity 102, the storage cavity 101 is filled with nasopharynx, the integrated cavity 102 is internally provided with an electric component, the nasopharyngeal spout 2 is provided with two through holes which are respectively communicated with the storage cavity 101 and the integrated cavity 102, the nasopharynx inside the storage cavity 101 can be directly scooped up by the material taking spoon, a user can directly suck the nasopharynx through the nasopharynx tube 301, the bottom end of the nasopharyngeal spout lid 3 is provided with an arc-shaped groove which is sleeved on the outer side of the top end of the nasopharynx tube 301, one side of the bottom end of the nasopharyngeal spout lid 3 is rotatably connected with a bump 302, the top end of the nasopharyngeal spout 2 is provided with a butt joint notch corresponding to the bump 302, the nasopharyngeal spout lid 3 can be rotated by taking the bump 302 as an axis through rotating the nasopharyngeal spout lid 3, the nasopharyngeal spout lid 3 can be gradually moved away from the top end of the nasopharynx tube 301, and the user can conveniently suck the nasopharynx;

still include temperature control unit 5, temperature control unit 5 assembles in the inside of depositing chamber 101, be used for the control to deposit the temperature of the inside nasopharynx of chamber 101, comfort level when improving the user and absorbing, the internally mounted of integrated cavity 102 has the control unit, and with temperature control unit 5 electric connection, the start-stop button is installed to one side of the nasopharynx kettle body 1, be used for controlling the start and stop of temperature control unit 5, the inside of depositing chamber 101 is provided with the inside feeding unit 6 of temperature control unit 5, and be linked together with the inside of nasal suction pipe 301, be used for making the inside nasopharynx of depositing chamber 101 send to the inside of nasal suction pipe 301, the inside fixed mounting of depositing chamber 101 has branch flitch 7, branch flitch 7 is the arc setting, can effectually play the guide effect, branch flitch 7 will deposit the inside of chamber 101 and separate for nasopharynx storage area 1011 and nasopharynx transit area 1012, the inside of nasopharynx storage area 1011 has the nasopharynx, feeding unit 6 and temperature control unit 5 all set up the inside of transition area 1012 in the nasopharynx, the fixed intussuseption the feeding unit 6 that is equipped with the intussuseption the inside of feeding unit 8 that is located the nasopharynx 6, the pneumatic conveying of air bag is linked together with the top of guide unit 9, make the air current of air bag 6 that the feeding unit 10 that the inside of storing nasopharynx is linked together with the connecting pipe 301, it is linked together, it is located to last connecting pipe 10, it is linked together.

When the nasopharynx sucking device is used, a user firstly presses the start-stop button to switch on a circuit of the temperature control unit 5 when the nasopharynx needs to be sucked, so that the nasopharynx inside the feeding unit 6 is heated by the temperature control unit 5, the heating is stopped after the temperature reaches a rated value, then the nasopharynx inside the feeding unit 6 is guided into the nasopharynx pipe 301, the nasopharynx inside the feeding unit 6 is maximally discharged under the action of the air bag 9 and the connecting pipe 10, then the user removes the nasopharynx pot cover 3, aligns nostrils with the through holes communicated with the inside of the integrated cavity 102, and finally sucks the nasopharynx inside the nasopharynx pipe 301 to the inside of the nasal cavity;

when the nasopharynx needs to be scooped for suction, a user can insert the nasopharynx tube 301 into the nasopharynx storage area 1011 through the through hole, and then directly scoops the nasopharynx by using the material taking hopper, and the scooped nasopharynx is placed at the position of the tiger mouth of the hand or in a special nasopharynx vessel, and then the nasopharynx is sucked.

As shown in fig. 7 and 8, the temperature control unit 5 includes a bearing sleeve 501 and an electric heating wire 502, the electric heating wire 502 is preferably a non-magnetic nichrome, the bearing sleeve 501 is fixedly installed inside the nasopharynx transition area 1012 and covers the outside of the feeding unit 6, an annular chamber is formed inside the bearing sleeve 501, an outer wall of the annular chamber is provided with a heat insulating material, the heat insulating material can limit the heat of the electric heating wire 502 from being transferred to the nasopharynx kettle body 1 when the heating wire 502 is heated, so that the hand of a user does not generate a glowing feeling when holding the nasopharynx kettle body 1, an inner wall of the annular chamber is provided with a heat conducting material, the electric heating wire 502 is assembled inside the annular chamber, the electric heating wire 502 is attached to the inner wall of the annular chamber, and in an energized state, the temperature of the electric heating wire 502 is constantly increased, and the temperature of the inner wall of the bearing sleeve 501 is also constantly increased, so that the nasopharynx inside the feeding unit 6 is correspondingly and effectively heated.

As shown in fig. 2 and fig. 3, the control unit includes an integrated mainboard, a single chip microcomputer for data processing is integrated on the integrated mainboard, the integrated mainboard is assembled inside the integrated cavity 102, the integrated mainboard is connected with a temperature sensor through a wire, the temperature sensor is assembled inside the feeding unit 6, a rated value is initially preset by the temperature sensor, after the temperature of the nasopharynx inside the feeding unit 6 rises to the rated value, the temperature sensor sends an electric signal to the single chip microcomputer, the single chip microcomputer sends the electric signal and disconnects the circuit of the heating wire 502, so that the heating wire 502 stops heating, a storage battery electrically connected with the integrated mainboard is further installed inside the integrated cavity 102, the storage battery is set as a rechargeable battery, the storage battery is further electrically connected with the heating wire 502, and a charging interface electrically connected with the storage battery is arranged on the nasopharynx pot body 1.

As shown in fig. 7 and 8, the feeding unit 6 includes a feeding tube 601, a feeding tube 602 and a clamping ring 603, the feeding tube 601 is slidably wrapped on the outer surface of the material guiding tube 8, a material outlet is formed in the bottom end of the material guiding tube 8, a blocking rod 6011 corresponding to the material outlet is fixedly mounted at the bottom end inside the feeding tube 601, the outer wall of the feeding tube 601 is further attached to the inner wall of the bearing sleeve 501, the feeding tube is also made of a heat conductive material, a feeding port is formed in the bottom end of the feeding tube 601, the feeding tube 602 is sleeved inside the feeding port, the feeding tube 602 is used for guiding out a nasopharynx inside the feeding tube 601, the feeding tube 602 penetrates through the partition plate 4 and extends into the integration cavity 102, the feeding tube 602 is made to be inclined, one higher end of the feeding tube is close to the feeding tube 601, the clamping ring 603 is disposed inside the integration cavity 102 and fixedly connected to one end of the feeding tube 602, the feeding tube 602 is specifically configured to penetrate through a structure on one side of the clamping ring 603, a port of the clamping ring 603 is communicated with the clamping ring 603, and a suction tube 603 is communicated with the outer surface of the clamping ring 603 which is sleeved on the outer surface of the nose 301, and a suction tube 603.

Further, a material guide inclined plane 6012 is arranged inside the feeding barrel 601, specifically referring to fig. 8, the lowest end of the material guide inclined plane 6012 is communicated with the feeding port, a leakage-proof plug 6013 aligned with the feeding port is further fixedly mounted inside the feeding barrel 601, the leakage-proof plug 6013 is matched with the feeding pipe 602, and the leakage-proof plug 6013 is used for plugging the feeding pipe 602, so that nasopharynx inside the feeding barrel 601 does not flow into the snuffing pipe 301 when being heated.

Here, it should be noted that, in the initial state, the plugging rod 6011 is located inside the discharge opening, so that the nasopharynx inside the material guiding tube 8 does not enter the inside of the material feeding tube 601, the leakage-proof plug 6013 is located above the material feeding opening, the material feeding tube 601 and the material feeding tube 602 are in a communicating state, when the material feeding tube 601 descends relative to the material guiding tube 8, the plugging rod 6011 is driven to gradually slide out from the inside of the discharge opening, at this time, the material feeding tube 601 also drives the leakage-proof plug 6013 to gradually approach to the port of the material feeding tube 602, before the plugging rod 6011 relieves the plugging state of the discharge opening, the leakage-proof plug 6013 enters the inside of the material feeding tube 602 in advance, after the subsequent plugging rod 6011 slides out from the inside of the discharge opening, the nasopharynx inside the material guiding tube 8 will gradually fall into the inside of the material feeding tube 601, and at this time, the port of the material feeding tube 602 is plugged by the leakage-proof plug 6013, so that the nasopharynx inside of the material feeding tube 601 does not flow out, the nasopharynx inside of the material feeding tube 601 is heated by the subsequent cooperation with the temperature control unit 5, and the heat of the nose 301 is not transferred to the nostril suction tube, thereby preventing the user from getting close to the nostril.

Further, referring to fig. 8, a mounting groove 6014 is formed at the top of the feeding barrel 601, a return spring 11 is fixedly mounted inside the mounting groove 6014, an external ring 801 integrally formed with the material guide pipe 8 is fixedly mounted at the bottom end of the return spring 11, a sealing ring is sleeved on the outer surface of the external ring 801, a closed space is formed inside the mounting groove 6014, the external ring 801 is slidably sleeved inside the mounting groove 6014, an electromagnet 12 aligned with the feeding barrel 601 is fixedly mounted at the bottom of an inner cavity of the nasopharynx transition area 1012, the electromagnet 12 is electrically connected with a storage battery, a magnetic attraction piece corresponding to the electromagnet 12 is embedded at the bottom end of the feeding barrel 601, and the magnetic attraction piece is made of iron sheets and other materials capable of being attracted by the magnet.

According to the structure, when the electromagnet 12 is powered on, the feeding barrel 601 moves towards the direction close to the electromagnet 12 along with the magnetic attraction piece, the feeding barrel 601 descends and simultaneously extrudes the reset spring 11, the reset spring 11 is stressed and contracted, and the reset spring 11 in the state is in a force accumulation state, then the feeding barrel 601 drives the nasopharynx to enter the inner side of the bearing sleeve 501 together, the nasopharynx is heated under the action of the electric heating wire 502, after the nasopharynx temperature reaches a rated value, the temperature sensor sends an electric signal to the single chip microcomputer, the single chip microcomputer sends the electric signal and disconnects the circuit of the electric heating wire 502, and the circuit of the electromagnet 12 is synchronously disconnected, at this moment, the feeding barrel 601 will gradually rise under the resilience force of the reset spring 11, then the feeding barrel 601 will drive the blocking rod 6011 to be inserted into the discharge hole again, meanwhile, the leakage-proof plug 6013 will gradually slide out from the interior of the feeding pipe 602, and the heated nasopharynx in the subsequent feeding barrel 601 will gradually flow into the interior of the snuffing pipe 301 through the feeding pipe 602.

In addition, referring to fig. 7 and fig. 9, an extrusion block is fixed at the bottom end of the mounting groove 6014, a vent hole corresponding to the extrusion block is formed in the external ring 801, the aperture of the vent hole is twice the outer diameter of the extrusion block, a vent hole communicated with the vent hole is formed in the side surface of the feed cylinder 601, a magnetic plug 13 corresponding to the extrusion block is arranged above the external ring 801, the external ring 801 is filled with a material capable of being adsorbed by the magnetic plug 13, such as an iron sheet, the bottom end of the magnetic plug 13 is fixed with a plurality of guide rods 1301 positioned inside the vent hole, when the feed cylinder 601 descends, the extrusion block gradually moves out from the interior of the vent hole, the extrusion force borne by the magnetic plug 13 disappears, the vent hole is gradually blocked under the guiding action of the guide rods 1301, at this time, a closed space is formed inside the mounting groove 6014, and then the external ring 801 can extrude the gas inside the mounting groove 6014 to the inside of the airbag 9 through the connecting pipe 10, otherwise, when the feed cylinder 601 resets, the extrusion block can extrude the magnetic plug 13, at this time, the mounting groove 4 is communicated with the external gas inside of the mounting groove 6014, and the external gas can be supplemented accordingly.

It should be further noted that after entering the feeding cylinder 601, the nasopharynx inside the guiding tube 8 is in an inflated state inside the feeding cylinder 601, but because the nasopharynx is in a granular shape, there is a certain gap between the nasopharynx and the nasopharynx, that is, the nasopharynx in this state is in a loose shape, and its resistance is smaller than the traction force of the return spring 11 to the feeding cylinder 601, and the subsequent feeding cylinder 601 can still rise under the action of the return spring 11, and will not be stopped due to the presence of the nasopharynx inside the feeding cylinder 601.

As shown in fig. 7 to 9, the connection pipe 10 includes an air supply pipe 1001 and an air outlet pipe 1002, the air supply pipe 1001 is a flexible hose, the air outlet pipe 1002 is a rigid pipe, one-way air valves are disposed inside the air supply pipe 1001 and the air outlet pipe 1002, the one-way air valve connected to the air supply pipe 1001 is used for limiting air to flow only from the inside of the air supply pipe 1001 to the inside of the air bag 9, the one-way air valve connected to the air outlet pipe 1002 is used for limiting air to flow only from the inside of the air bag 9 to the inside of the air outlet pipe 1002, the air supply pipe 1001 is communicated with the inside of the installation groove 6014, the air supply pipe 1001 is driven to move synchronously when the feeding barrel 601 descends, the air outlet pipe 1002 is slidably connected to one side of the bottom of the feeding barrel 601, a stroke groove covering the outer surface of the air outlet pipe 1002 is formed at one side of the bottom of the feeding barrel 601, the feeding barrel 601 can limit the descending stroke of the feeding barrel 601, the air guide chamber 6015 is formed at the bottom of the feeding barrel 601, a plurality of air guide grooves facing the feeding port are formed in a shape, so that the nasopharynx is not easy to enter the air guide chamber 6015, the nasopharynx, and the nasopharynx can flow into the nasopharynx through the nasopharynx 602 sufficiently.

Specifically, in the process that the feed cylinder 601 descends, the feed cylinder 601 drives the stroke groove to slide along the outer surface of the air outlet pipe 1002, the air outlet pipe 1002 is isolated from the air guide chamber 6015, the internal gas of the installation groove 6014 can be extruded by the external ring 801, the internal gas of the installation groove 6014 enters the air bag 9 through the air supply pipe 1001, the air bag 9 can be gradually expanded, the air bag 9 can be gradually extruded when the feed cylinder 601 is reset, the internal gas of the air bag 9 can be discharged through the air outlet pipe 1002 at last, the internal gas is discharged to the feed cylinder 601 through the air guide chamber 6015 and the air outlet groove, and the heated nasopharynx can be maximally flowed into the snuffing pipe 301 through the feed pipe 602.

The working principle of the invention is as follows: when a user needs to suck nasopharynx, firstly, a circuit of the temperature control unit 5 is switched on, so that the nasopharynx inside the feeding unit 6 is heated by the temperature control unit 5, the heating is stopped when the temperature reaches a rated value, the temperature sensor sends an electric signal to the control unit, the control unit controls the circuit of the temperature control unit 5 to be switched off, at this time, the nasopharynx inside the feeding unit 6 is guided into the nasopharynx pipe 301, air flow can be blown into the feeding unit 6 through the air bag 9 and the connecting pipe 10, so that the nasopharynx inside the feeding unit 6 is maximally discharged, then, the user removes the nasopharynx pot cover 3, aligns nostrils on a through hole communicated with the inside of the integrated cavity 102, and finally, the nasopharynx inside the nasopharynx pipe 301 can be sucked into the nasal cavity forcibly;

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides an intelligence control by temperature change suction-type electron nasopharynx kettle which characterized in that: the nasopharynx kettle comprises a nasopharynx kettle body (1), wherein a nasopharynx spout (2) is integrally formed at the top end of the nasopharynx kettle body (1), a nasopharynx kettle cover (3) is assembled inside the nasopharynx spout (2), a nasal suction pipe (301) is assembled at the bottom end of the nasopharynx kettle cover (3), a material taking spoon is integrally formed at the bottom end of the nasal suction pipe (301), a partition plate (4) is integrally formed inside the nasopharynx kettle body (1), the partition plate (4) divides an inner cavity of the nasopharynx kettle body (1) into a storage cavity (101) and an integrated cavity (102), two through holes are formed in the nasopharynx spout (2), and the two through holes are respectively communicated with the storage cavity (101) and the integrated cavity (102);

the temperature control device is characterized by further comprising a temperature control unit (5), wherein the temperature control unit (5) is assembled inside the storage cavity (101) and used for controlling the temperature of nasopharynx inside the storage cavity (101);

the control unit is arranged inside the integrated cavity (102) and is electrically connected with the temperature control unit (5);

the feeding unit (6) is arranged inside the temperature control unit (5), communicated with the inside of the nasal suction tube (301) and used for conveying nasopharynx inside the storage cavity (101) to the inside of the nasal suction tube (301);

wherein, deposit the inside fixed mounting in chamber (101) and divide flitch (7), divide flitch (7) will deposit the internal partitioning in chamber (101) and deposit district (1011) and nasopharynx transfer district (1012) for the nasopharynx, the fixed pilot tube (8) that are located in middle part of dividing flitch (7), the top of pilot tube (8) has been cup jointed and has been located gasbag (9) of pay-off unit (6) top, the both sides of gasbag (9) all install with connecting pipe (10) that pay-off unit (6) are linked together.

2. The intelligent temperature-controlled suction-type electronic nasopharynx kettle according to claim 1, wherein: the temperature control unit (5) comprises a bearing sleeve (501) and an electric heating wire (502), the bearing sleeve (501) is fixedly installed inside the nasopharynx transition area (1012) and covers the outer side of the feeding unit (6), an annular cavity is formed in the bearing sleeve (501), and the electric heating wire (502) is assembled inside the annular cavity.

3. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 2, wherein: the control unit comprises an integrated mainboard, the integrated mainboard is assembled in the interior of the integrated cavity (102), the integrated mainboard is connected with a temperature sensor through a wire, the temperature sensor is assembled in the interior of the feeding unit (6), a storage battery electrically connected with the integrated mainboard is further installed in the interior of the integrated cavity (102), and the storage battery is further electrically connected with the electric heating wire (502).

4. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 1, wherein: the feeding unit (6) comprises a feeding barrel (601), a feeding pipe (602) and a clamping ring (603), the feeding barrel (601) is slidingly wrapped on the outer surface of the material guide pipe (8), a feeding hole is formed in the bottom end of the feeding barrel (601), the feeding pipe (602) is sleeved inside the feeding hole, the feeding pipe (602) penetrates through the partition plate (4) and extends to the inside of the integrated cavity (102), the clamping ring (603) is arranged inside the integrated cavity (102) and fixedly connected with one end of the feeding pipe (602), and the clamping ring (603) is further sleeved on the outer surface of the nasal suction pipe (301).

5. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 4, wherein: a discharge hole is formed in the bottom end of the guide pipe (8), and a blocking rod (6011) corresponding to the discharge hole is fixedly mounted at the bottom end inside the feeding barrel (601).

6. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 4, wherein: a material guide inclined plane (6012) is arranged inside the feeding barrel (601), the lowest end of the material guide inclined plane (6012) is communicated with the feeding port, a leakage-proof plug (6013) aligned with the feeding port is fixedly mounted inside the feeding barrel (601), and the leakage-proof plug (6013) is matched with the feeding pipe (602).

7. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 4, wherein: the top of the feeding barrel (601) is provided with a mounting groove (6014), a return spring (11) is fixedly mounted inside the mounting groove (6014), an external ring (801) integrally formed with the material guide pipe (8) is fixedly mounted at the bottom end of the return spring (11), and the external ring (801) is slidably sleeved inside the mounting groove (6014).

8. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 4, wherein: the bottom of the inner cavity of the nasopharynx transition region (1012) is fixedly provided with an electromagnet (12) aligned with the feeding cylinder (601), the electromagnet (12) is electrically connected with the storage battery, and a magnetic suction piece corresponding to the electromagnet (12) is fixedly embedded at the bottom end of the feeding cylinder (601).

9. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 7, wherein: connecting pipe (10) are including air feed pipe (1001) and outlet duct (1002), air feed pipe (1001) sets up to flexible hose, outlet duct (1002) set up to the rigid tube, air feed pipe (1001) with the inside of mounting groove (6014) is linked together, outlet duct (1002) with one side sliding connection of feed cylinder (601) bottom, air guide cavity (6015) has been seted up to the bottom of feed cylinder (601), a plurality of orientation have been seted up to the inboard of air guide cavity (6015) the exhaust notch of feed port department.

10. The intelligent temperature-controlled suction-type electronic nasopharynx kettle of claim 1, wherein: the bottom of nasopharyngeal pot lid (3) has been seted up the arc wall, the arc wall cup joint in the outside on nasopharynx kettle lid (3) top, one side of nasopharyngeal pot lid (3) bottom is rotated and is connected with a lug (302), nasopharyngeal spout (2) top is seted up the butt joint notch corresponding with lug (302).