CN214992535U - Clothes nursing machine - Google Patents

Clothes nursing machine Download PDF

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Publication number
CN214992535U
CN214992535U CN202023082892.4U CN202023082892U CN214992535U CN 214992535 U CN214992535 U CN 214992535U CN 202023082892 U CN202023082892 U CN 202023082892U CN 214992535 U CN214992535 U CN 214992535U
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China
Prior art keywords
ozone
controller
fan
cavity
clothes
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CN202023082892.4U
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Chinese (zh)
Inventor
王世宇
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Guangzhou Yijia Intelligent Electronic Technology Co ltd
Guangzhou Shiyuan Electronics Thecnology Co Ltd
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Guangzhou Yijia Intelligent Electronic Technology Co ltd
Guangzhou Shiyuan Electronics Thecnology Co Ltd
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Priority to CN202023082892.4U priority Critical patent/CN214992535U/en
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Abstract

The utility model relates to the field of clothes nursing, and provides a clothes nursing machine, which comprises a controller, a fan, an accommodating cavity, a wrinkle removing system, a drying system and a deodorizing and degerming system; the deodorization and sterilization system comprises an ozone sensor and an ozone generator which are connected with a controller; when the ozone sensor detects that the concentration of ozone in the accommodating cavity is lower than a set value, the ozone generator generates ozone, and air flow generated by the fan is brought into the accommodating cavity so as to deodorize and sterilize the clothes. The utility model has the advantages that the clothes nursing machine has multiple functions by arranging the wrinkle removing system, the drying system and the odor removing and bacteria removing system, thereby being beneficial to popularization and application and meeting the requirements of users; the deodorizing and sterilizing system can deodorize and sterilize clothes more thoroughly by using ozone; the clothes nursing machine separates the accommodating cavity from the mounting cavity through the partition plate, and an air outlet and an air inlet are further designed on the partition plate, and an air duct is designed in the mounting cavity, so that the space of the mounting cavity is fully utilized.

Description

Clothes nursing machine
Technical Field
The utility model relates to a clothing nursing field, more specifically relates to a clothing nursing machine.
Background
In daily life, people are often troubled by clothes which are difficult to dry and have peculiar smell caused by continuous rainy days, or peculiar smell caused by residual smoke and wine smell, seasoning smell or other reasons on the clothes after the polymerization. The time for cleaning, drying, deodorizing and sterilizing the clothes is not little. Since the appearance of the clothes care machine, the problem of nursing clothes at home is solved.
In the prior art, although a laundry care machine can deodorize and sterilize laundry, it is implemented by high-temperature steam. The feedback of the odor removing and sterilizing effects of high-temperature steam on the market is general, and the specific expression is that during odor removing, all odor substances cannot be carried away by the steam, and the odor on clothes cannot be thoroughly eliminated. In addition, although there is a clothes care machine to remove odor and bacteria from clothes in the prior art, it only has the effects of removing odor, bacteria and drying, which limits the popularization of the clothes care machine.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at overcoming the not thorough defect inadequately of the clothing nursing machine odor removal effect of above-mentioned prior art, provide a clothing nursing machine for thoroughly eliminate peculiar smell and degerming on the clothing, and make clothing nursing machine have more functions, do benefit to popularization and application.
The technical scheme adopted by the utility model is that the clothes nursing machine comprises a controller, a fan connected with the controller, a holding cavity for placing clothes, a wrinkle removing system and a drying system, wherein the wrinkle removing system and the drying system are respectively and electrically connected with the controller and are respectively communicated with the holding cavity; the deodorization and sterilization system comprises an ozone sensor and an ozone generator, wherein the ozone sensor and the ozone generator are both electrically connected with the controller, the ozone sensor is positioned in the accommodating cavity, and the ozone generator is used for generating ozone;
when the ozone sensor detects that the concentration of ozone in the accommodating cavity is lower than a set value, the ozone generator generates ozone, and air flow generated by the fan is brought into the accommodating cavity to deodorize and sterilize the clothes.
In the scheme, under the control of the controller, when the concentration of the accommodating cavity for accommodating clothes is detected to be lower than a set value by the clothes care machine through the ozone sensor, the ozone generator generates ozone, and the clothes in the accommodating cavity are deodorized and sterilized by utilizing the oxidability of the ozone. Compared with the prior art that high-temperature steam is used for deodorization and sterilization, the scheme uses the oxidability of ozone for deodorization and sterilization, and can remove peculiar smell and fungi more thoroughly. In addition, this scheme just triggers ozone generator and produces ozone when the ozone concentration of holding intracavity is less than the setting value through controller and ozone sensor, so can be with the content control of ozone within safe application range, ensure safe and reliable.
Compare prior art, this scheme will remove the wrinkle system and combine together with the degerming system of removing the flavor, can utilize the high temperature steam that removes the wrinkle system effectively to get rid of the ozone residue of holding intracavity, ensures the clothing fresh free from extraneous odour.
Compared with the prior art, the clothes nursing machine has the advantages that the wrinkle removing system, the drying system and the odor removing and bacteria removing system are combined together, so that the clothes nursing machine has multiple functions and is beneficial to popularization and application.
Preferably, the wrinkle removing system comprises a purified water tank, a purified water pump and a steam generator, wherein the purified water pump and the steam generator are both electrically connected with the controller and are connected with the purified water tank through pipelines, and the steam generator is connected with the purified water pump through a pipeline; wherein the clean water pump draws water from the clean water tank to the steam generator and generates steam from the steam generator. This scheme utilizes the high temperature steam that steam generator produced to remove the wrinkle to the clothing, in addition, can also utilize high temperature steam to get rid of the remaining ozone in the holding intracavity ensures the clothing fresh free from extraneous odour.
Preferably, the clothes care machine further comprises a mounting cavity, the mounting cavity is positioned at the lower end of the accommodating cavity and is communicated with the accommodating cavity; the fan is arranged on one side in the installation cavity, the water purification tank is arranged on the other side in the installation cavity, the installation cavity is arranged between the fan and the water purification tank, and the controller is arranged; the bottom of the mounting cavity is sequentially provided with the water purifying pump and the steam generator. The scheme separates the installation cavity from the containing cavity so as to separate clothes from equipment in the clothes care machine and avoid the mutual interference of the clothes and the equipment in the clothes care machine. The controller set up in the installation intracavity the fan with between the water purification case, be convenient for the controller with fan, water purification case, clean water pump, steam generator connect.
Preferably, the drying system comprises a waste water tank, and a condenser, an evaporator, a compressor and a waste water pump which are respectively electrically connected with the controller; the compressor is connected with the condenser and the evaporator; the waste water pump is connected with the waste water tank and the evaporator through a pipeline; when the compressor is operated, the water vapor in the air flow is liquefied into water through the evaporator and is pumped into the waste water tank by the waste water pump. In the scheme, the water vapor in the air flow is liquefied into water through the evaporator, and the water vapor in the air flow is reheated through the condenser and returns to the accommodating cavity.
Preferably, the clothes care machine further comprises a mounting cavity, the mounting cavity is positioned at the lower end of the accommodating cavity and is communicated with the accommodating cavity; the fan is arranged on one side in the installation cavity, and the waste water tank is arranged on the other side in the installation cavity; the controller is arranged between the fan and the waste water tank in the installation cavity; the compressor and the waste water pump are sequentially arranged at the bottom of the installation cavity; wherein, the condenser and the evaporator are respectively arranged on two sides of the fan. In this scheme, the installation cavity is in be equipped with between fan and the waste water case the controller is convenient for fan, compressor, waste water pump, condenser, evaporimeter with the controller is connected.
Preferably, the ozone generator comprises a voltage boosting circuit and an ozone generating electrode, and the voltage boosting circuit is electrically connected with the controller; the ozone generating electrode is electrically connected with the booster circuit and is used for generating ozone; when the voltage of the booster circuit is boosted to a high voltage, the ozone generating electrode ionizes air to generate ozone.
Preferably, the clothes care machine further comprises a mounting cavity, the mounting cavity is located at the lower end of the accommodating cavity, and a partition plate is arranged between the mounting cavity and the accommodating cavity; the controller, the fan, the wrinkle removing system, the drying system and the ozone generator are arranged in the mounting cavity; the clothes care machine also comprises an air duct which is arranged in the mounting cavity and is positioned on one side of the fan; the air inlet is arranged on the partition plate and communicated with the air duct and the accommodating cavity; and the air outlet is arranged on the partition plate and positioned above the fan and communicated with the air duct and the accommodating cavity. In this scheme, the clothing nursing machine separates holding chamber and installation cavity through the baffle, more can save material. And the clothes nursing machine can save space by arranging the air duct, the air outlet and the air inlet, and other devices are closely arranged without mutual interference.
Preferably, a clothes airing rod is further arranged at the upper end of the accommodating cavity, and the ozone sensor is arranged on the clothes airing rod; the lower end of the partition board is provided with an installation cabinet which is positioned at one side of the air outlet; the ozone generator is arranged in the mounting cabinet and the air outlet, and ozone generated by the ozone generator enters the accommodating cavity through the air outlet by the airflow. In this scheme, the ozone sensor is located can detect more accurately on the clothes-horse whether the ozone of holding intracavity can be enough with the clothing contact for the clothing goes the flavor degerming more thoroughly. Generally, the ozone generator occupies a small space. The installation cabinet is arranged at the lower end of the partition board and on one side of the air outlet, so that space can be saved, ozone generated by the ozone generator can directly enter the accommodating cavity, efficiency can be improved, and the problem that the ozone is distributed in the installation cavity in a large quantity at the beginning of production to cause resource waste is avoided.
Preferably, the ozone generator is provided with an ozone generating electrode, the baffle between the mounting cabinet and the air outlet is provided with a through hole, and the ozone generating electrode is inserted into the through hole and positioned in the air outlet. In this scheme, ozone generating electrode is located in the air outlet, can make the ozone of its production directly circulate through the air outlet and arrive the holding intracavity.
Preferably, after the fan is operated, the deodorizing and sterilizing system is operated to generate ozone to deodorize and sterilize the clothes, the clothes are subjected to wrinkle removal through the wrinkle removal system, and the clothes are dried through the drying system. In this scheme, the clothing nursing machine removes flavor and degerming, removes wrinkle, stoving to the clothing in proper order, convenience of customers's use satisfies user's demand. After the odor removing and bacteria removing system utilizes ozone, the wrinkle removing system utilizes high-temperature steam to deodorize clothes, and meanwhile residual ozone in the accommodating cavity can be removed, so that the clothes are ensured to be fresh and free of peculiar smell.
Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages that the clothes nursing machine has multiple functions by arranging the wrinkle removing system, the drying system and the odor removing and bacteria removing system, thereby being beneficial to popularization and application and meeting the requirements of users; the odor removing and bacteria removing system can remove odor and bacteria of clothes more thoroughly by using the oxidizing property of ozone; the clothes nursing machine separates the accommodating cavity from the mounting cavity through the partition plate, and an air outlet and an air inlet are further designed on the partition plate, and an air duct is designed in the mounting cavity, so that the space of the mounting cavity is fully utilized.
Drawings
Fig. 1 is a front view of the present invention.
Fig. 2 is a side view of the present invention.
Fig. 3 is a partial schematic view of the present invention.
FIG. 4 is a schematic diagram of the structure of the deodorizing and sterilizing system.
Reference numerals: the air purifier comprises a controller 100, a fan 200, a motor 201, a wind wheel 202, an accommodating cavity 300, an ozone sensor 401, an ozone generator 402, an ozone generating electrode 4021, a water purifying tank 501, a water purifying pump 502, a steam generator 503, a waste water tank 601, a condenser 602, an evaporator 603, a compressor 604, a waste water pump 605, an installation cavity 700, an air duct 701, an air inlet 702, an air outlet 703, a partition plate 800, a clothes drying rod 900, an installation cabinet 110 and a door 120.
Detailed Description
The drawings of the present invention are for illustration purposes only and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.
Examples
The embodiment provides a clothes care machine, which comprises a controller 100, a fan 200, a wrinkle removing system, a drying system and a deodorizing and sterilizing system.
In order to facilitate understanding of the laundry care machine according to the embodiment of the present application, the laundry care machine will be generally described first. The controller 100 of the laundry care machine is connected to a power source. Under the control of the controller 100, the fan 200 rotates to generate an air flow, and the laundry care machine removes wrinkles from laundry through a wrinkle removal system, dries the laundry through a drying system, and removes odors and bacteria from the laundry through a odor removal and bacteria removal system.
As shown in fig. 1, the laundry care machine includes an accommodating chamber 300 and a mounting chamber 700, wherein the mounting chamber 700 is located at a lower end of the accommodating chamber 300 and is communicated with the accommodating chamber 300. The fan 200, the controller 100, the wrinkle removing system and the drying system are all positioned in the installation cavity 700. The deodorization and sterilization system is located in the accommodating chamber 300 and the installation chamber 700. The accommodating chamber 300 is for accommodating laundry. As shown in fig. 2, a clothes drying rod 900 is provided at an upper end portion of the accommodating chamber 300, and clothes are hung on the clothes drying rod 900. The accommodating chamber 300 is further provided with a door 120, and the clothes can be stored and released by opening the door 120. The controller 100 is disposed at a position in the middle of the inner wall of the installation cavity 700.
As shown in fig. 3, the laundry care machine is provided with a partition 800 between the installation chamber 700 and the accommodation chamber 300. An air outlet 703 and an air inlet 702 are provided on the partition 800 to communicate the installation cavity 700 with the accommodation cavity 300. In order to facilitate the airflow generated by the fan 200 to flow to the installation cavity 700, the air outlet 703 is disposed above the fan 200. An air duct 701 is further disposed in the installation cavity 700, the air duct 701 is communicated with the air outlet 703 and the air inlet 702, and the air duct 701 is disposed on one side of the fan 200, so that the air flow can flow regularly.
In another application embodiment, the laundry care machine includes the receiving chamber 300 and the installation chamber 700 without the partition plate 800 between the receiving chamber 300 and the installation chamber 700.
In another application embodiment, the laundry care machine includes only the accommodating chamber 300, and the blower 200, the controller 100, the wrinkle removing system, the drying system, and the deodorizing and sterilizing system are all located in the accommodating chamber 300.
The blower 200 includes a motor 201 and a wind wheel 202. Specifically, a motor 201 is connected to the controller 100. The number of the wind wheels 202 is two, and the two wind wheels are symmetrically distributed on two sides of the motor 201 and are driven by the motor 201 to operate so as to generate airflow. The fan 201 is arranged on one side in the installation cavity 700.
The wrinkle removing system comprises a clean water tank 501, a clean water pump 502 and a steam generator 503. Specifically, clean water tank 501 is disposed on a side of installation cavity 700 away from fan 200. Specifically, the water purifying pump 502 is a cube shape, and clean water is contained therein. The water purifying pump 502 is arranged at the bottom of the mounting cavity 700 and is electrically connected with the controller 100. Specifically, each steam generator 503 is electrically connected to controller 100 and is connected to clean water tank 501 through a pipe, and steam generator 503 is also connected to clean water pump 502 through a pipe. The steam generator 503 is located at the bottom of the installation cavity 700. The steam generator 503 may be a boiler. Clean water pump 502 draws water from clean water tank 501 to steam generator 503, and steam is generated by steam generator 503.
Wherein, the drying system comprises a waste water tank 601, a condenser 602, an evaporator 603, a compressor 604 and a waste water pump 605. Specifically, the waste water tank 601 is square, and is disposed on a side far from the fan 200 in the installation cavity 700. Waste water tank 601 is located below clean water tank 501. Specifically, the condenser 602 is electrically connected to the controller 100, and is disposed on a side of the blower 200 close to an inner wall of the installation cavity 700. Specifically, the evaporator 603 is electrically connected to the controller 100, and is disposed on a side of the blower 200 away from the inner wall of the installation cavity 700. Specifically, the compressor 604 is electrically connected to the controller 100 and is disposed at the bottom of the installation cavity 700. The compressor 604 is connected to the condenser 602 and the evaporator 603, respectively, by pipes. Specifically, waste pump 605 is electrically connected to controller 100 and is disposed at the bottom of mounting chamber 700. Inside the condenser 602, the evaporator 603 there is a refrigerating liquid, the temperature of which is varied by means of a compressor 604. The working process of the drying system is as follows: the blower 200 draws air containing water vapor from within the laundry care machine. The compressor 604 is operated and the water vapour in the gas stream is liquefied into water by the evaporator 603 and pumped into the waste tank 601 by the waste pump 605. The water vapor in the air flow is heated again by the condenser 602 and returns to the accommodating chamber 300. In addition, the air duct 701 is disposed on a side of the evaporator 603 away from the fan 200.
Wherein, the deodorization and sterilization system comprises an ozone sensor 401 and an ozone generator 402. Specifically, the ozone sensor 401 is located on the laundry rack in the accommodating chamber 300. Specifically, an ozone generator 402 is used to generate ozone and is located within the mounting cavity 700. As shown in fig. 4, the ozone generator 402 includes a booster circuit and an ozone generating electrode 4021. The boost circuit is electrically connected to the controller 100. The ozone generating electrode 4021 is electrically connected to the booster circuit and is used for generating ozone. The operating principle of the ozone generator 402 is: when the voltage of the booster circuit is boosted to a high voltage by the control of the controller 100, the ozone generating electrode 4021 ionizes the air to generate ozone.
In order to install the ozone generator 402, an installation cabinet 110 is provided at the lower end of the partition 800 to install the ozone generator 402. The mounting cabinet 110 is located at one side of the air outlet 703, and the mounting cabinet 110 is separated from the air outlet 703 by a baffle. The baffle is provided with a through hole, and the ozone generating electrode 4021 is inserted into the through hole and positioned in the air outlet 703. The through-holes are not shown in the figures.
The working principle of the deodorization and sterilization system is as follows: under the control of the controller 100, when the ozone sensor 401 detects that the concentration of ozone in the accommodating chamber 300 is lower than a set value, the ozone generating electrode 4021 generates ozone, and the ozone is brought into the accommodating chamber 300 by the airflow generated by the fan 200 to deodorize and sterilize the laundry.
In another embodiment, the cabinet 110 is disposed at the upper end of the partition 800 and at one side of the air outlet 703. The mounting cabinet 110 is communicated with the air outlet 703, and the ozone generating electrode 4021 is disposed in the air outlet 703.
In one of the embodiments, the wrinkle removing system, the drying system and the deodorizing and sterilizing system are operated in a certain order, and after the fan 200 is operated under the control of the controller 100, firstly, the deodorizing and sterilizing system is operated to generate ozone to deodorize and sterilize the laundry, secondly, the wrinkle removing system removes wrinkles from the laundry, and thirdly, the drying system dries the laundry.
In one of the application embodiments, the wrinkle removing system, the drying system and the odor removing and bacteria removing system can be operated independently according to requirements, and/or the combination of any two systems can be operated sequentially according to a set sequence, and/or the combination of the three systems can be operated sequentially according to a set sequence.
In one of the application embodiments, the working process of the clothes care machine is as follows: when the clothes care machine starts the deodorizing and sterilizing system, after the motor 201 drives the wind wheel 202 to operate, and the ozone sensor 401 detects that the concentration of ozone in the accommodating cavity 300 is lower than 0.8ppm, the controller 100 supplies power to the ozone generator 402, the ozone generating electrodes 4021 generate ozone, the ozone is blown into the accommodating cavity 300 through airflow in the air duct 701, and the ozone is repeatedly circulated, so that the clothes in the accommodating cavity 300 are deodorized and sterilized by utilizing the oxidability of the ozone. After 30 minutes, the ozone generator 402 stops working, the wrinkle removing system starts to operate, the steam generator 503 starts to heat to generate steam, and after 1-10 minutes, the steam generator 503 stops generating steam. Then, the drying system starts to operate, the compressor 604 is started to dehumidify the accommodating chamber 300 and the clothes therein, until the machine stops working after the clothes are dried.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not limitations to the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (9)

1. A clothes care machine, including controller (100), fan (200) be connected with controller (100), be used for placing the holding chamber (300) of clothing, its characterized in that still includes:
the wrinkle removing system and the drying system are respectively and electrically connected with the controller (100) and are respectively communicated with the accommodating cavity (300);
the deodorization and sterilization system comprises an ozone sensor (401) and an ozone generator (402), wherein the ozone sensor (401) and the ozone generator (402) are both electrically connected with the controller (100), the ozone sensor (401) is positioned in the accommodating cavity (300), and the ozone generator (402) is used for generating ozone;
when the ozone sensor (401) detects that the concentration of ozone in the accommodating cavity (300) is lower than a set value, the ozone generator (402) generates ozone, and air flow generated by the fan (200) is brought into the accommodating cavity (300) to deodorize and sterilize the clothes.
2. A machine as in claim 1, characterized in that the de-wrinkling system comprises a clean water tank (501), a clean water pump (502), a steam generator (503),
the water purifying pump (502) and the steam generator (503) are both electrically connected with the controller (100) and are connected with the water purifying tank (501) through pipelines, and the steam generator (503) is connected with the water purifying pump (502) through a pipeline;
wherein the water purification pump (502) draws water from the water purification tank (501) to the steam generator (503) and generates steam from the steam generator (503).
3. A laundry care machine according to claim 2, characterized in that it further comprises a mounting chamber (700), said mounting chamber (700) being located at the lower end of said accommodating chamber (300) and communicating with said accommodating chamber (300);
the fan (200) is arranged on one side in the installation cavity (700), the water purification tank (501) is arranged on the other side, and the controller (100) is arranged between the fan (200) and the water purification tank (501) in the installation cavity (700);
the bottom of the mounting cavity (700) is sequentially provided with the water purifying pump (502) and the steam generator (503).
4. A laundry care machine as claimed in claim 1, characterized in that said drying system comprises a waste water tank (601), and a condenser (602), an evaporator (603), a compressor (604), a waste water pump (605) electrically connected to said controller (100), respectively; the compressor (604) connecting the condenser (602) and the evaporator (603); the waste water pump (605) is connected with the waste water tank (601) and the evaporator (603) through a pipeline;
the compressor (604) is operated and the water vapour in the gas stream is liquefied into water by the evaporator (603) and pumped into the waste tank (601) by the waste pump (605).
5. A laundry care machine as claimed in claim 4, characterized in that it further comprises a mounting chamber (700), said mounting chamber (700) being located at the lower end of said housing chamber (300) and communicating with said housing chamber (300);
the fan (200) is arranged on one side in the installation cavity (700), and the waste water tank (601) is arranged on the other side;
the installation cavity (700) is arranged between the fan (200) and the waste water tank (601) and is provided with the controller (100);
the compressor (604) and the waste water pump (605) are sequentially arranged at the bottom of the mounting cavity (700);
wherein, the condenser (602) and the evaporator (603) are respectively arranged on two sides of the fan (200).
6. A machine as claimed in claim 1, characterized in that said ozone generator (402) comprises a booster circuit and an ozone generating electrode (4021), said booster circuit being electrically connected to said controller (100); the ozone generating electrode (4021) is electrically connected with the booster circuit and used for generating ozone;
when the voltage of the voltage boosting circuit is boosted to a high voltage, the ozone generating electrode (4021) ionizes air to generate ozone.
7. A laundry care machine according to claim 1, characterized in that it further comprises a mounting chamber (700), said mounting chamber (700) being located at the lower end of said accommodating chamber (300), and a partition (800) being provided between said mounting chamber (700) and said accommodating chamber (300); the controller (100), the fan (200), the wrinkle removing system, the drying system and the ozone generator (402) are arranged in the installation cavity (700);
the laundry care machine further comprises
The air duct (701) is arranged in the installation cavity (700) and is positioned on one side of the fan (200);
the air inlet (702) is arranged on the partition plate (800) and communicated with the air duct (701) and the accommodating cavity (300);
and the air outlet (703) is arranged on the partition plate (800) and positioned above the fan (200) and communicated with the air duct (701) and the accommodating cavity (300).
8. A clothes care machine according to claim 7, characterized in that a clothes drying rod (900) is further arranged at the upper end of the accommodating cavity (300), and the ozone sensor (401) is arranged on the clothes drying rod (900);
the lower end of the partition board (800) is provided with an installation cabinet (110), and the installation cabinet (110) is positioned on one side of the air outlet (703); the ozone generator (402) is arranged in the installation cabinet (110) and the air outlet (703), and ozone generated by the ozone generator (402) flows into the accommodating cavity (300) through the air outlet (703).
9. A machine as claimed in claim 8, characterized in that said ozone generator (402) is provided with ozone generating electrodes (4021), said baffle between said cabinet (110) and said outlet (703) being provided with through holes, said ozone generating electrodes (4021) being inserted in said through holes and located in said outlet (703).
CN202023082892.4U 2020-12-17 2020-12-17 Clothes nursing machine Active CN214992535U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202023082892.4U CN214992535U (en) 2020-12-17 2020-12-17 Clothes nursing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202023082892.4U CN214992535U (en) 2020-12-17 2020-12-17 Clothes nursing machine

Publications (1)

Publication Number Publication Date
CN214992535U true CN214992535U (en) 2021-12-03

Family

ID=79084168

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202023082892.4U Active CN214992535U (en) 2020-12-17 2020-12-17 Clothes nursing machine

Country Status (1)

Country Link
CN (1) CN214992535U (en)

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