CN219782301U - Water supplementing system and electric steamer using same - Google Patents

Water supplementing system and electric steamer using same Download PDF

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Publication number
CN219782301U
CN219782301U CN202320511138.2U CN202320511138U CN219782301U CN 219782301 U CN219782301 U CN 219782301U CN 202320511138 U CN202320511138 U CN 202320511138U CN 219782301 U CN219782301 U CN 219782301U
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China
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water
steam
storage cavity
heating
pressure relief
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CN202320511138.2U
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Chinese (zh)
Inventor
顾宣丰
张光恒
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Zhongshan Kuaite Electrical Appliances Co ltd
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Zhongshan Kuaite Electrical Appliances Co ltd
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Publication of CN219782301U publication Critical patent/CN219782301U/en
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Abstract

The utility model relates to a water supplementing system and an electric steamer using the same, comprising a water storage tank and a heating device, wherein a steam storage cavity is arranged in the heating device in a sealing way, a heating piece for heating water in the steam storage cavity into steam and a unidirectional pressure relief channel for limiting the outward discharge of the steam from the steam storage cavity are arranged on the heating device; this kind of moisturizing system can utilize heating device to stop the heating back at the piece that generates heat, and the steam reserve chamber of sealed setting can form the negative pressure state after standing and cooling, inhales the water in the storage water tank into steam reserve intracavity through the negative pressure, makes steam reserve chamber can realize automatic moisturizing.

Description

Water supplementing system and electric steamer using same
Technical Field
The utility model relates to the field of steam heating equipment, in particular to a water supplementing system and an electric steamer applying the same.
Background
In current steam equipment such as electric steamer, steam broken wall machine, steam oven and steam fryer, generally heat article through producing the steam mode, and wherein steam generation system mainly includes the steam generation chamber, set up the heat-generating body on steam generation chamber cavity wall, thereby heat the clear water of storing in the steam generation intracavity through the heat-generating body and produce required high temperature high pressure steam, and in order to improve the heating efficiency of steam generation chamber, consequently only maintain a lower water level in steam generation chamber bottom, and set up external water tank and steam generation chamber intercommunication, along with the water level in steam generation chamber reduces gradually, the water tank can in time carry out moisturizing to the steam generation chamber, in order to prevent the dry combustion method condition of steam generation chamber.
The water supplementing mode of the water tank to the steam generating cavity is not limited, the first mode is to supplement water by utilizing the communicating vessel principle, the placing height of the water tank is equal to or close to the bottom surface height of the steam generating cavity, the single water storage capacity of the steam generating cavity is increased by utilizing the water tank, the synchronous water level drop can be realized when the water body is consumed, a user can supplement water in real time through the water supplementing port of the water tank, the long-term use requirement of the steam generating cavity is met, the structure is simple, the use cost is low, but the water supplementing mode limits the installation position of the water tank, the appearance design of the steam equipment is limited, the whole height of the water tank can only be below the highest water level line of the steam generating cavity, and a small amount of clear water can be stored each time, so that the water supplementing of the water tank is frequent.
The second water supplementing mode is to connect the water pump in series on the pipeline between the steam generating cavity and the water tank, and quantitatively supplement water by utilizing the water pump according to the water level of the steam generating cavity, wherein the water tank can be randomly arranged at any position of the steam equipment in the water supplementing mode, so that the appearance of the steam equipment has more design space, the overall height of the water tank can be increased, the water storage capacity is increased so as to reduce the water adding frequency of the water tank, but the water pump supplementing mode is adopted to increase the production cost of the equipment on one hand, and the water pump is of a mechanical structure and has a certain failure rate, so that the service life of the equipment can be influenced after the water pump is damaged.
Therefore, the inventor provides a water supplementing system which has simple structure, low use cost and overcomes the defects of the two water supplementing modes through improving and perfecting the structure, and is used for consumers to select.
Disclosure of Invention
The utility model aims to solve the existing problems, and provides a water supplementing system which is simple and reasonable in structure and suitable for steam heating equipment such as an electric steamer, a steam wall breaking machine, a steam oven, a steam frying pot and the like, and the water supplementing system has the main function that the steam storage cavity sucks water in the water storage cavity into the steam storage cavity by utilizing the negative pressure state of the steam storage cavity, so that the full-automatic water supplementing function is realized.
A water supplementing system comprises a water storage tank and a heating device, wherein a steam storage cavity is arranged in the heating device in a sealing mode, a heating piece for heating water in the steam storage cavity into steam and a one-way pressure release channel for limiting the steam to be discharged from the steam storage cavity are arranged on the heating device, a water storage cavity is arranged in the water storage tank, a one-way water conveying pipeline for limiting water flowing into the steam storage cavity from the water storage cavity is arranged between the water storage cavity and the steam storage cavity, and when the heating piece stops heating and the steam storage cavity is in a negative pressure state, water in the water storage cavity is sucked into the steam storage cavity through the one-way water conveying pipeline for heating.
The aim of the utility model can be also solved by adopting the following technical measures:
the controller is connected with a water level detection element arranged in the steam storage cavity or/and a temperature detection element arranged on the heating element, and the controller judges the water level in the steam storage cavity through the water level detection element or/and the temperature detection element so as to control the working heating or stopping heating of the heating element.
As a further scheme, the heating device is provided with a mounting and dismounting port, a pressure release valve is arranged in the mounting and dismounting port, and a unidirectional pressure release channel is arranged in the pressure release valve; the one-way water delivery pipeline comprises a water delivery pipeline and a one-way valve, two ports of the water delivery pipeline are respectively communicated with the bottoms of the water storage cavity and the steam storage cavity, and the one-way valve is connected in series on the water delivery pipeline.
As a further scheme, the one-way pressure release channel is arranged right above the heating piece, a boiling water baffle is arranged between the heating piece and the one-way pressure release channel, and a plurality of steam through holes are formed in the boiling water baffle.
As a further scheme, the bottoms of the water storage tank and the heating device are respectively provided with a water outlet and a water inlet, the water outlet and the water inlet are arranged laterally opposite, and the water delivery pipe is horizontally connected with the water outlet and the water inlet.
As a further scheme, the heating element is a heating disc and is assembled and connected to the bottom of the steam storage cavity, the bottom of the steam storage cavity extends to form a energy gathering cover along the periphery of the heating disc, a water supplementing port is formed in the energy gathering cover, and the boiling water baffle cover is arranged at the top opening of the energy gathering cover.
As a further scheme, the pressure relief valve comprises a valve body and a gravity ball, wherein a pressure relief inlet and a pressure relief outlet which are communicated with the inner cavity of the valve body are formed in the valve body, the gravity ball is arranged in the inner cavity of the valve body and movably supports against the pressure relief inlet, and a unidirectional pressure relief channel is formed between the pressure relief inlet and the pressure relief outlet through the on-off pressure relief inlet of the gravity ball.
The electric steamer with the structure comprises a base component serving as a heating device, a water storage tank arranged on the base component and a steamer detachably arranged on the base component and enabling an internal steaming cavity of the steamer to be communicated with the unidirectional pressure relief channel.
As a further scheme, the base assembly comprises a base and a juice collecting disc, the top of the base is provided with a water collecting tank in a sinking mode, the juice collecting disc is detachably arranged at a water collecting tank opening, a sealing piece is further arranged at the joint between the juice collecting disc and the water collecting tank, and a steam storage cavity is defined between the juice collecting disc and the water collecting tank through the sealing piece.
As a further scheme, the juice receiving disc is provided with a juice receiving disc boss, the bottom opening of the juice receiving disc boss is arranged corresponding to the heating piece, and the one-way pressure relief channel is arranged on the juice receiving disc boss.
The beneficial effects of the utility model are as follows: according to the water replenishing system, after the heating part stops heating by the heating device, the fully-sealed steam storage cavity can be cooled to form a negative pressure state after being kept still for a period of time, and the pressure can be balanced only through the one-way water conveying pipeline in the negative pressure state, so that the water in the water storage tank can be sucked into the steam storage cavity through negative pressure, and the steam storage cavity can realize automatic water replenishing.
The water replenishing system is adopted, so that the water storage tank for storing clean water can be arranged at any position of the device, the water replenishing system is not limited by the constraint of a communicating vessel principle, the heating container can be positioned at an ideal water level under any condition, the device has more flexible design space, the whole height of the heating container can be increased, the water storage capacity of the heating container is improved, the water replenishing frequency can be reduced, the structure is simple, the production cost is low, the whole water replenishing system does not depend on a complex mechanical structure, the fault rate of the water replenishing system is reduced to the maximum limit, and the condition that the service life of the device is influenced due to the fault of the water replenishing system is avoided.
Drawings
Fig. 1 and 2 are schematic structural diagrams of the water replenishing system of the present utility model.
Fig. 3 is a schematic cross-sectional view of a relief valve according to the present utility model.
Fig. 4 is a schematic view of an exploded structure of the electric steamer of the present utility model.
Detailed Description
The utility model will be further described with reference to the drawings and examples.
Referring to fig. 1 to 3, a water replenishing system comprises a water storage tank 1 and a heating device 2, wherein a steam storage cavity 201 is arranged in the heating device 2 in a sealing way, a heating element 3 for heating water in the steam storage cavity 201 into steam and a one-way pressure release channel 4 for limiting the outward discharge of the steam from the steam storage cavity 201 are arranged on the heating device 2, a water storage cavity 101 is arranged in the water storage tank 1, a one-way water conveying pipeline 5 for limiting the water flowing into the steam storage cavity 201 from the water storage cavity 101 is arranged between the water storage cavity 101 and the steam storage cavity 201, and when the heating element 3 stops heating and the steam storage cavity 201 is in a negative pressure state, water in the water storage cavity 101 is sucked into the steam storage cavity 201 through the one-way water conveying pipeline 5 for heating;
this kind of moisturizing system can utilize heating device 2 to stop the heating after heating element 3 for the steam reserve chamber of totally enclosed setting can cool down and form the negative pressure state after standing for a period, can only balance pressure through unidirectional water conduit 5 under the negative pressure state, consequently can inhale the water in the storage water tank 1 in the steam reserve chamber 201 through the negative pressure, makes steam reserve chamber 201 can realize automatic moisturizing.
When the working state of the heating element 3 depends on the water level of the steam storage cavity 201 and the specific implementation of the water level is determined, the heating element further comprises a controller 6 connected with the heating element 3, the controller 6 is connected with a temperature detection element 7 arranged on the heating element 3, the temperature detection element 7 can be an NTC thermistor, the controller 6 determines the water level in the steam storage cavity 201 through the NTC thermistor to control the working heating or stopping heating of the heating element 3, in this way, the heating temperature of the heating element 3 is changed under different water temperature conditions (specifically, the higher the water level is, the lower the temperature is, the lower the water level is or the dry heating is, the higher the temperature is), therefore, the temperature of the heating element 3 is detected through the NTC thermistor, the approximate water level of the steam storage cavity 201 is determined, and when the temperature of the heating element 3 is detected through the NTC thermistor to be higher than a preset temperature value, the controller 6 stops the heating element 3 to continue heating, thereby performing water supplementing by utilizing the principle.
In more embodiments, the controller 6 may be connected with a water level detecting element disposed in the steam storage cavity 201, where the water level detecting element and the temperature detecting element 7 may be adopted synchronously, or alternatively, the water level detecting element may directly detect the water level in the steam storage cavity 201, and when the water level is low or dry heating occurs, the controller 6 stops the heating element 3 to continue heating, so as to supplement water by using the above principle.
The heating device 2 is provided with a mounting and dismounting port 202, a pressure release valve 8 is arranged in the mounting and dismounting port 202, and a one-way pressure release channel 4 is arranged in the pressure release valve 8; effectively adjust steam pressure and steam temperature in the steam reserve chamber 201 through relief valve 8, after the pressure in the steam reserve chamber 201 equals or is greater than the preset pressure value of relief valve 8, one-way pressure release passageway 4 opens outwards releases steam, makes one-way pressure release passageway 4 can discharge high temperature high pressure's steam in the twinkling of an eye, makes the cavity that heats can keep the micropressure state, effectively improves heating efficiency, can practice thrift the electric energy again.
The unidirectional water delivery pipeline 5 comprises a water delivery pipeline 501 and a unidirectional valve 502, two ports of the water delivery pipeline 501 are respectively communicated with the bottoms of the water storage cavity 101 and the steam storage cavity 201, and the unidirectional valve 502 is connected in series on the water delivery pipeline 501; the one-way valve 502 enables water to flow from the water storage cavity 101 to the steam storage cavity 201 only, so that the steam storage cavity 201 can form a sealing state, and the water and steam in the steam storage cavity 201 cannot overflow outwards through the one-way water conveying pipeline 5.
The one-way pressure release channel 4 is arranged right above the heating element 3, a boiling water baffle 9 is arranged between the heating element 3 and the one-way pressure release channel 4, and a plurality of steam through holes 901 are formed in the boiling water baffle 9; when the heating piece 3 heats, boiling can occur in the water body due to heating, even part of the water body with severe boiling splashes to the position of the unidirectional pressure relief channel 4, when the unidirectional pressure relief channel 4 is opened to release steam, the part of the water body can be sprayed outwards along the exhaust path of the unidirectional pressure relief channel 4, so that boiling water can be shielded by the boiling water baffle 9, the splashing height during boiling is limited, and generated steam can be upwards guided by the steam through hole 901, so that the exhaust effect is not influenced.
The bottoms of the water storage tank 1 and the heating device 2 are respectively provided with a water outlet 102 and a water inlet 203, the water outlet 102 and the water inlet 203 are arranged laterally opposite, and the water delivery pipe 501 is horizontally connected with the water outlet 102 and the water inlet 203; the lengths of the water delivery pipe 501 can be reduced by the water delivery pipe 102 and the water inlet 203 which are arranged laterally oppositely, so that the lift is reduced, and the water delivery pipe 102 and the water inlet 203 are positioned on the same horizontal plane, so that the pressure difference caused by the height of the positions can be avoided, and the water in the water storage tank can be pumped away by the steam storage cavity 201 under the state of low negative pressure.
The heating element 3 is a heating disc and is assembled and connected to the bottom of the steam storage cavity 201, the bottom of the steam storage cavity 201 extends to form a water-collecting cover 14 along the periphery of the heating disc, the water-collecting cover 14 is provided with a water-supplementing port 141, the heating efficiency of a water body can be improved through the water-collecting cover 14, steam can be rapidly generated, and when the water level in the water-collecting cover 14 is gradually reduced due to the working and heating of the heating element 3, the water in the steam storage cavity 201 can automatically flow into the water-collecting cover 14 through the water-supplementing port 141;
the boiling water baffle 9 is arranged at the top opening of the energy gathering cover 14 in a covering way; the boiling water baffle 9 is arranged on the energy gathering cover 14 in a covering way, so that the boiling water baffle is convenient for a user to detach; but also prevents boiling water from escaping beyond the energy concentrating shield 14 into the vapor reservoir 201.
The pressure relief valve 8 comprises a valve body 81 and a gravity ball 82, wherein a pressure relief inlet 801 and a pressure relief outlet 802 which are communicated with the inner cavity of the valve body 81 are formed in the valve body 81, the pressure relief inlet 801 is formed in the bottom of the valve body 81 and is communicated with the steam storage cavity 201, a plurality of pressure relief outlets 802 are formed, and the pressure relief outlets 802 are circumferentially and uniformly distributed on the upper part of the valve body 81 and are communicated with the outside above the mounting and dismounting port 202; the gravity ball 82 is arranged in the inner cavity of the valve body 81 and movably abuts against the pressure relief inlet 801, the preset pressure value of the pressure relief valve is changed through the weight of different gravity balls 82, and a unidirectional pressure relief channel 4 is formed between the pressure relief inlet 801 and the pressure relief outlet 802 by switching on and switching off the pressure relief inlet 801 through the gravity ball 82.
The relief valve 8 is detachably mounted in the mounting/dismounting port 202, and a seal structure, such as a seal ring, is mounted between the relief valve 8 and the mounting/dismounting port 202 so as to perform sealing engagement therebetween after mounting.
In order to clearly show the scheme, the utility model also provides an electric steamer, which comprises the water supplementing system.
Specifically, referring to fig. 4, the electric steamer comprises a base assembly as a heating device 2 and a steamer 10 which is detachably arranged on the base assembly and enables a steaming cavity inside the steamer to be communicated with a one-way pressure release channel 4, and the water storage tank 1 is arranged on the base assembly; the water storage tank 1 is detachably or irremovably arranged on the base assembly, the water filling port 15 is arranged on the water storage tank 1, the water filling port 15 is movably covered with the water tank cover 16, so that a user can fill water into the water storage tank 1 at any time, and steam generated by the steam storage cavity 201 is discharged into the steam cavity of the food steamer 10 through the unidirectional pressure relief channel 4 to heat food.
The base assembly comprises a base 11 and a juice collecting tray 12, wherein a water collecting tank 111 is arranged at the top of the base 11 in a sinking mode, the juice collecting tray 12 is detachably arranged at a notch of the water collecting tank 111, a sealing piece 13 is arranged at the joint between the juice collecting tray 12 and the water collecting tank 111, and a steam storage cavity 201 is defined between the juice collecting tray 12 and the water collecting tank 111 through the sealing piece 13; the water collection tank 111 is opened by the juice collecting tray 12, so that the user can clean the water conveniently, and a sealed steam storage cavity 201 is formed between the juice collecting tray 12 and the water collection tank 111 by the sealing member 13.
The juice collecting tray 12 is provided with a juice collecting tray boss 121, the bottom opening of the juice collecting tray boss 121 is correspondingly arranged with the heating element 3, the unidirectional pressure relief channel 4 is arranged on the juice collecting tray boss 121, specifically, the middle position of the juice collecting tray boss 121 is provided with a mounting and dismounting opening 202, and the pressure relief valve is mounted on the juice collecting tray 12 through the mounting and dismounting opening 202.
The water replenishing system has the working principle that: the water quantity corresponding to the cooking time is injected into the water storage tank 1 through the water adding port 15, the water body for generating steam in the earlier stage is poured into the steam storage cavity 201, at the moment, the pressure in the water storage cavity 101 is the same as the pressure in the steam storage cavity 201, and the gravity ball 82 is propped against the pressure release inlet 801, so that the one-way pressure release channel 4 is disconnected, and the steam storage cavity 201 is in a sealed state.
Then the heating element 3 is opened to work, steam is gradually generated in the steam storage cavity 201 and water in the steam storage cavity 201 is gradually consumed, and when the steam pressure in the steam storage cavity 201 is equal to or exceeds the preset pressure value of the pressure relief valve, the gravity ball 82 is pushed away by the steam through the pressure relief inlet 801, so that the steam is discharged into the steamer for heating through the unidirectional pressure relief channel 4.
When the temperature of the heating element 3 is higher than the preset temperature value, the controller 6 stops the heating element 3 to continue heating, the steam storage cavity 201 after stopping heating gradually cools down, and the steam storage cavity 201 is in a negative pressure state after cooling down in a high temperature and high pressure state because the steam storage cavity 201 is in a sealed state, so that a pressure difference is formed between the steam storage cavity 201 and the water storage cavity 101, and the steam storage cavity 201 pumps the water in the water storage cavity 101 through the unidirectional water conveying pipeline 5 for balancing the air pressure, thereby realizing automatic water supplementing.
The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims (10)

1. The water replenishing system comprises a water storage tank (1) and a heating device (2), and is characterized in that: the heating device is characterized in that a steam storage cavity (201) is arranged in the heating device (2) in a sealing mode, a heating piece (3) for heating water in the steam storage cavity (201) into steam and a one-way pressure release channel (4) for limiting the steam to be discharged outwards from the steam storage cavity (201) are arranged on the heating device (2), a water storage cavity (101) is arranged in the water storage tank (1), a one-way water conveying pipeline (5) for limiting the water flowing into the steam storage cavity (201) from the water storage cavity (101) is arranged between the water storage cavity (101) and the steam storage cavity (201), and when the heating piece (3) stops heating and the steam storage cavity (201) is in a negative pressure state, water in the water storage cavity (101) is sucked into the steam storage cavity (201) through the one-way water conveying pipeline (5) for heating.
2. A water replenishment system as claimed in claim 1, wherein: the device is characterized by further comprising a controller (6) connected with the heating element, wherein the controller (6) is connected with a water level detection element arranged in the steam storage cavity (201) or/and a temperature detection element (7) arranged on the heating element (3), and the controller (6) judges the water level in the steam storage cavity (201) through the water level detection element or/and the temperature detection element (7) so as to control the working heating or stopping heating of the heating element (3).
3. A water replenishment system as claimed in claim 1, wherein: the heating device (2) is provided with a mounting and dismounting opening (202), a pressure release valve (8) is arranged in the mounting and dismounting opening (202), and a one-way pressure release channel (4) is arranged in the pressure release valve (8); the one-way water delivery pipeline (5) comprises a water delivery pipeline (501) and a one-way valve (502), two ports of the water delivery pipeline (501) are respectively communicated with the bottoms of the water storage cavity (101) and the steam storage cavity (201), and the one-way valve (502) is connected in series on the water delivery pipeline (501).
4. A water replenishment system as claimed in claim 1, wherein: the one-way pressure release channel (4) is arranged right above the heating piece (3), a boiling water baffle (9) is arranged between the heating piece (3) and the one-way pressure release channel (4), and a plurality of steam through holes (901) are formed in the boiling water baffle (9).
5. A water replenishment system as claimed in claim 3, wherein: the bottom of the water storage tank (1) and the bottom of the heating device (2) are respectively provided with a water outlet (102) and a water inlet (203), the water outlet (102) and the water inlet (203) are arranged laterally opposite, and the water delivery pipe (501) is horizontally connected with the water outlet (102) and the water inlet (203).
6. A water replenishment system as claimed in claim 4, wherein: the heating element (3) is a heating disc and is assembled and connected to the bottom of the steam storage cavity (201), the bottom of the steam storage cavity (201) extends to form a energy gathering cover (14) along the periphery of the heating disc, a water supplementing port (141) is formed in the energy gathering cover (14), and the boiling water baffle (9) is arranged at the top opening of the energy gathering cover (14) in a covering mode.
7. A water replenishment system as claimed in claim 3, wherein: the pressure relief valve (8) comprises a valve body (81) and a gravity ball (82), wherein a pressure relief inlet (801) and a pressure relief outlet (802) which are communicated with the inner cavity of the valve body (81) are formed in the valve body (81), the gravity ball (82) is arranged in the inner cavity of the valve body (81) and movably abuts against the pressure relief inlet (801), and a unidirectional pressure relief channel (4) is formed by connecting the pressure relief inlet (801) with the pressure relief outlet (802) through the gravity ball (82).
8. An electric steamer, characterized in that: an electric steamer using the water replenishing system according to any one of claims 1 to 7, the electric steamer comprising a base assembly as the heating device (2) and a steamer (10) removably placed on the base assembly and having an internal steaming cavity in communication with the unidirectional pressure relief channel (4), the water storage tank (1) being arranged on the base assembly.
9. An electric steamer as claimed in claim 8, characterized in that: the base assembly comprises a base (11) and a juice collecting disc (12), wherein a water collecting tank (111) is arranged on the top of the base (11) in a sinking mode, the juice collecting disc (12) is detachably arranged at a notch of the water collecting tank (111) and a sealing piece (13) is arranged at a joint between the juice collecting disc and the notch, and a steam storage cavity (201) is defined between the juice collecting disc (12) and the water collecting tank (111) through the sealing piece (13).
10. An electric steamer as claimed in claim 9, characterized in that: the juice collecting tray is characterized in that a juice collecting tray boss (121) is arranged on the juice collecting tray (12), the bottom opening of the juice collecting tray boss (121) is arranged corresponding to the heating piece (3), and the one-way pressure relief channel (4) is arranged on the juice collecting tray boss (121).
CN202320511138.2U 2023-03-15 2023-03-15 Water supplementing system and electric steamer using same Active CN219782301U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320511138.2U CN219782301U (en) 2023-03-15 2023-03-15 Water supplementing system and electric steamer using same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320511138.2U CN219782301U (en) 2023-03-15 2023-03-15 Water supplementing system and electric steamer using same

Publications (1)

Publication Number Publication Date
CN219782301U true CN219782301U (en) 2023-10-03

Family

ID=88176179

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320511138.2U Active CN219782301U (en) 2023-03-15 2023-03-15 Water supplementing system and electric steamer using same

Country Status (1)

Country Link
CN (1) CN219782301U (en)

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