阅读说明：本技术 一种高质量的蒸羹器 (High-quality thick soup steamer ) 是由 张�杰 于 2021-09-01 设计创作，主要内容包括：本发明涉及一种高质量的蒸羹器,包括：加热底座；水壶,所述水壶设置于所述加热底座上；加热锅,所述加热锅设置于所述水壶内部,所述加热锅的锅口与所述水壶的壶口相配合；盖子,所述盖子设置于所述水壶上端,所述盖子与所述水壶紧密配合,所述盖子与所述加热锅紧密配合；进气口,所述进气口设置于所述盖子上；蒸汽加热结构,所述蒸汽加热结构设置于所述水壶上端,所述蒸汽加热结构的一端与所述盖子相配合,所述蒸汽加热结构与所述进气口相配合。本发明通过设置蒸汽加热结构解决了如何如何提高蒸羹器的质量的技术问题。(The invention relates to a high-quality soup steamer, comprising: heating the base; the kettle is arranged on the heating base; the heating pot is arranged in the kettle, and a pot opening of the heating pot is matched with a pot opening of the kettle; the cover is arranged at the upper end of the kettle and is tightly matched with the kettle, and the cover is tightly matched with the heating pot; an air inlet disposed on the cover; the steam heating structure is arranged at the upper end of the kettle, one end of the steam heating structure is matched with the cover, and the steam heating structure is matched with the air inlet. The invention solves the technical problem of how to improve the quality of the soup steamer by arranging the steam heating structure.)

1. A high quality steamer for soup comprising: heating base (1), its characterized in that includes:

the kettle (2), the said kettle (2) is set up on the said heating base (1);

the heating pot (3) is arranged inside the kettle (2), a pot opening of the heating pot (3) is matched with a pot opening of the kettle (2), a spherical bulge is arranged in the center of the bottom surface of the heating pot (3), and a water collecting groove (32) is formed by the bulge and the side wall of the heating pot (3);

the water guide grooves (33) are concave, the water guide grooves (33) are arranged on the upper surfaces of the protrusions, one ends of the water guide grooves (33) are arranged in the centers of the protrusions, the other ends of the water guide grooves (33) are connected with the water collecting grooves (32), and the water guide grooves (33) are inclined from the centers of the protrusions to the edges of the protrusions;

the cover (4) is arranged at the upper end of the kettle (2), the cover (4) is tightly matched with the heating pot (3), and heating wires are arranged inside the cover (4);

the air inlet (48), the air inlet (48) is arranged on the cover (4), and the air inlet (48) is communicated with the inside of the heating pot (3);

the exhaust port (31) is a pipeline, the exhaust port (31) is arranged on the cover (4), the lower end of the exhaust port (31) is arranged in a water collecting tank (32) at the bottom of the heating pot (3), the upper end of the exhaust port (31) is communicated with the outside air, and the exhaust port (31) is arranged on the opposite side of the air inlet (48);

the steam heating structure is arranged on the side face of the kettle (2), one end of the steam heating structure is matched with the cover (4), and the steam heating structure is matched with the air inlet (48).

2. A high quality steamer according to claim 1, characterized in that the lid (4) comprises:

the lower cover (42) is arranged at the upper end of the kettle (2), the lower cover (42) is tightly matched with the kettle (2), and the lower cover (42) is tightly matched with the heating pot (3);

the heating wire is arranged inside the lower cover (42);

the auxiliary plate (45) is annular, the auxiliary plate (45) is arranged at the upper end of the lower cover (42), and the lower end of the auxiliary plate (45) is fixed with the edge of the lower cover (42);

the upper cover (41), the upper cover (41) is arranged above the lower cover (42), the upper cover (41) is arranged at the upper end of the auxiliary plate (45), the edge of the upper cover (41) is fixed with the auxiliary plate (45), the upper cover (41), the lower cover (42) and the auxiliary plate (45) form a cavity, a plurality of drainage channels are arranged on the lower surface of the upper cover (41), the drainage channels are elongated depressions, and the drainage channels are arranged along the steam flowing direction;

the steam inlet (47) is a hole, the steam inlet (47) is arranged on the side surface of the auxiliary plate (45), the steam inlet (47) is arranged above the lower cover (42), the steam inlet (47) is arranged below the upper cover (41), and the steam inlet (47) is communicated with the inner side of the auxiliary plate (45);

the steam outlet (49) is a hole, the steam outlet (49) is arranged on one side of the auxiliary plate (45), the steam outlet (49) is arranged above the lower cover (42), the steam outlet (49) is arranged below the upper cover (41), and the steam outlet (49) is communicated with the inner side of the auxiliary plate (45);

the steam heating structure is arranged on the side of the auxiliary plate (45), the steam heating structure is arranged on the side of the steam inlet (47), one end of the steam heating structure is matched with the steam inlet (47), and the steam heating structure is matched with the outer side surface of the auxiliary plate (45);

the upper end of the vent (31) is arranged in the inner cavity of the cover (4), and the upper port of the vent (31) is opposite to the steam outlet (49).

3. A high quality steamer according to claim 2, comprising:

the air inlet (48) is formed in the upper end of the lower cover (42), the air inlet (48) is formed in the inner side of the auxiliary plate (45), the air inlet (48) is communicated with the lower end of the lower cover (42), and the air inlet (48) is communicated with the interior of the heating pot (3).

4. A high quality steamer according to claim 3 comprising:

the guide plate (43), the guide plate (43) is an arc-shaped plate, the guide plate (43) is arranged at the upper end of the lower cover (42), the guide plate (43) is arranged at the inner side of the auxiliary plate (45), the guide plate (43) is arranged below the upper cover (41), the guide plate (43) and the steam inlet (47) are arranged oppositely, and the guide plate (43) is bent from bottom to top to be close to the steam inlet (47);

the air inlet structure comprises two blocking plates (44), wherein the blocking plates (44) are arranged at the upper end of the lower cover (42), the blocking plates (44) are arranged on the inner side of the auxiliary plate (45), the blocking plates (44) are arranged below the upper cover (41), the two blocking plates (44) are arranged on two sides of the guide plate (43), the two blocking plates (44) are arranged on two sides of the air inlet (48), and the two blocking plates (44) are matched with the guide plate (43).

5. A high quality steamer according to claim 2, comprising:

the lower cover (42) is made of stainless steel.

6. A high quality steamer according to claim 2, comprising:

the handle (5), the said handle (5) is set up in the said kettle (2) side;

distilled water collection device (51), distilled water collection device (51) is the bottle, distilled water collection device (51) set up in inside handle (5), the bottleneck of distilled water collection device (51) set up in steam outlet (49) side, the bottleneck and the steam outlet (49) of distilled water collection device (51) cooperate, the lower extreme of distilled water collection device (51) with the inside intercommunication of kettle (2), the lower extreme of distilled water collection device (51) is less than the surface of water.

7. A high quality steamer according to claim 6 and comprising:

the guide pipe (410) is a straight pipe body, the guide pipe (410) is arranged above the kettle (2), the guide pipe (410) is fixed on the side surface of the auxiliary plate (45), one end of the guide pipe (410) is communicated with the steam outlet (49), the other end of the guide pipe (410) is opposite to the bottle mouth of the distilled water collecting device (51), the inner side wall of the guide pipe (410) is a wavy surface, and the extending direction of the wavy surface is the same as the extending direction of the guide pipe (410).

8. A high quality steamer tray according to claim 1 wherein the steam heating structure comprises:

the steam pipeline (6), the steam pipeline (6) set up in kettle (2) side, the lower port of steam pipeline (6) with kettle (2) inside intercommunication, the last port of steam pipeline (6) set up in steam inlet (47) side, the last port of steam pipeline (6) with accessory plate (45) cooperate, the inside wall of steam pipeline (6) is the wave surface, the extending direction of wave surface is the same with the flow direction of steam.

9. A high quality steamer according to claim 8 and comprising:

the steam pipeline auxiliary device comprises a limiting rod (46), the limiting rod (46) is in an inverted U shape, the limiting rod (46) is arranged on the side face of the auxiliary plate (45), the limiting rod (46) is arranged above the upper port of the steam pipeline (6) respectively, the limiting rod (46) is matched with the upper port of the steam pipeline (6), and a sponge layer is arranged on one face, facing the upper port of the steam pipeline (6), of the limiting rod (46).

10. The use method of the high-quality soup steamer is characterized by comprising the following steps:

the method comprises the following steps: moving the cover (4) upwards until the limiting rod (46) is separated from the steam pipeline (6);

step two: after the cover (4) is rotated clockwise or anticlockwise by a certain angle by taking a vertical axis as a rotating shaft, the cover (4) is covered on the kettle (2), so that the auxiliary plate (45) blocks the upper end opening of the steam pipeline (6);

step three: starting the heating base (1) to heat the kettle (2) until white steam emerges from the upper port of the steam pipeline (6);

step four: moving the cover (4) upwards until the cover (4) is disengaged from the upper port of the steam pipe (6);

step five: and rotating the cover (4) clockwise or anticlockwise by a certain angle by taking a vertical axis as a rotating shaft, so that the limiting rods (46) are positioned at two sides of the upper port of the steam pipeline (6), and covering the cover (4) on the kettle (2).

Technical Field

The invention relates to the field of a soup steaming device, in particular to a high-quality soup steaming device.

Background

The egg is a food with rich nutrition, and one egg is about 50 g, contains 7 g of protein and 6 g of fat, and generates 82 kcal of heat energy. The amino acid proportion of the egg protein is very suitable for the physiological needs of human bodies, the egg protein is easy to be absorbed by organisms, the utilization rate is up to more than 98 percent, and the egg protein has high nutritive value. The eggs have high contents of calcium, phosphorus, iron and vitamin A, are rich in B vitamins, also contain other vitamins and microelements which are necessary for human bodies, and are good tonics for children, old people, lying-in women, hepatitis patients, tuberculosis patients, anemia patients and postoperative convalescent patients.

The invention discloses a patent with publication number CN 102423238A, which relates to a compound steamer, comprising a cooker cover, wherein a stackable steamer is arranged below the cooker cover, a storage cavity for placing food is arranged in the steamer, the steamer is arranged on a steamer base, and a water storage cavity is arranged in the steamer base; handles are arranged on two sides of the steamer; the bottom of the steamer is in a grid shape; the middle of the top of the pot cover is provided with a pot cover handle.

In the scheme, when boiling, water in the water storage cavity can be splashed onto food in the steamer, so that the taste of the food is hidden. Steam in the steamer can form condensed water at the cooker cover, and the condensed water drops on food to affect the taste of the food. Therefore, there is a need for a high quality steamer.

Disclosure of Invention

The invention aims to solve the technical problem of improving the quality of a soup steamer and provides a high-quality soup steamer.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a high quality steamer for soup comprising: a heating base comprising: the kettle is arranged on the heating base; the heating pot is arranged in the kettle, a pot opening of the heating pot is matched with a pot opening of the kettle, a spherical bulge is arranged in the center of the bottom surface of the heating pot, and the bulge and the side wall of the heating pot form a water collecting groove; the water guide groove is concave and is arranged on the upper surface of the bulge, one end of the water guide groove is arranged in the center of the bulge, the other end of the water guide groove is connected with the water collecting groove, and the water guide groove is inclined from the center of the bulge to the edge of the bulge; the cover is arranged at the upper end of the kettle and is tightly matched with the kettle, the cover is tightly matched with the heating pot, and a heating wire is arranged inside the cover; the air inlet is arranged on the cover and communicated with the interior of the heating pot; the exhaust port is a pipeline and is arranged on the cover, the lower end of the exhaust port is arranged at the bottom of the heating pot, the upper end of the exhaust port is communicated with the outside air, and the exhaust port is arranged on the opposite side of the air inlet; the steam heating structure is arranged on the side face of the kettle, one end of the steam heating structure is matched with the cover, and the steam heating structure is matched with the air inlet. The pot mouth of the heating pot is matched with the pot mouth of the kettle, so that the pot mouth of the kettle can support the heating pot. The cover is tightly matched with the kettle to seal the kettle. The cover is tightly matched with the heating pot to seal the kettle. One end of the steam heating structure is matched with the cover to heat the cover. The steam heating structure is matched with the air inlet and can spray steam into the air inlet.

The kettle is placed on the heating base, a proper amount of water is added into the kettle, then the heating pot is placed into the kettle from the kettle opening of the kettle, then the container with the soup is placed into the heating pot, and the cover is covered. When the heating base is electrified, water in the kettle can boil to generate steam when reaching 100 ℃, and the steam can heat the heating pot and the soup. The steam heating structure sprays steam to heat the cover, and steam is injected into the heating pot through the air inlet to heat the soup. The heating pot and the kettle are mutually separated and used for preventing water in the kettle from splashing into a container containing the soup when boiling, so that the taste of the soup is influenced. When steam in the heating pot meets the cover with low temperature, the steam can be condensed on the lower surface of the cover to generate distilled water which drops into the container containing the soup, and the taste of the soup is influenced. The one end that sets up steam heating structure cooperatees with the lid for heat the lid through high temperature steam, reduce the steam in the heating pot and the difference in temperature between the lid, avoid the distilled water that the condensation produced on the lid lower surface. The steam heating structure is matched with the air inlet and used for injecting steam into the heating pot, so that the temperature in the heating pot is quickly increased, pressure is applied to the air inlet, the pressure in the heating pot is increased, and the upper limit of the temperature of the heating pot is increased. The lower end of the exhaust port is arranged at the bottom of the heating pot and is used for enabling flowing steam to pass through the bottom of the heating pot. The lower end of the exhaust port is arranged at the bottom of the heating pot and used for cleaning condensed water at the bottom of the heating pot. The exhaust port is arranged on the opposite side of the air inlet and is used for enabling the steam to heat the whole heating pot. The center of the bottom surface of the heating pot is provided with a spherical bulge for gathering water into the water collecting tank. A water chute is provided for collecting water into the water collection sump so that steam can heat the underside of the spoon. The bulges are spherical bulges and are used for being matched with the bottom of the bowl for containing the soup, so that the bowl for containing the soup is kept stable.

Further, the cover includes: the lower cover is arranged at the upper end of the kettle and is tightly matched with the kettle, and the lower cover is tightly matched with the heating pot; the heating wire is arranged inside the lower cover; the auxiliary plate is annular and is arranged at the upper end of the lower cover, and the lower end of the auxiliary plate is fixed with the edge of the lower cover; the upper cover is arranged above the lower cover, the upper cover is arranged at the upper end of the auxiliary plate, the edge of the upper cover is fixed with the auxiliary plate, and the upper cover, the lower cover and the auxiliary plate form a cavity; the lower surface of the upper cover is provided with a plurality of drainage channels which are strip-shaped depressions and are arranged along the flow direction of steam; the steam inlet is a hole and is arranged on the side surface of the auxiliary plate, the steam inlet is arranged above the lower cover, the steam inlet is arranged below the upper cover, and the steam inlet is communicated with the inner side of the auxiliary plate; the steam outlet is a hole and is arranged on one side of the auxiliary plate, the steam outlet is arranged above the lower cover, the steam outlet is arranged below the upper cover, and the steam outlet is communicated with the inner side of the auxiliary plate; the steam heating structure is arranged on the side of the auxiliary plate, the steam heating structure is arranged on the side of the steam inlet, one end of the steam heating structure is matched with the steam inlet, and the steam heating structure is matched with the outer side surface of the auxiliary plate. The lower cover is tightly matched with the kettle to seal the kettle. The lower cover is tightly matched with the heating pot to seal the heating pot. One end of the steam heating structure is matched with the steam inlet to spray steam into the steam inlet. The steam heating structure is matched with the outer side surface of the auxiliary plate, so that steam leakage is avoided. The upper end of the vent is arranged in the inner cavity of the cover, and the upper port of the vent is arranged opposite to the steam outlet.

Steam sprayed by the steam heating structure enters the cover through the steam inlet, and a high-temperature area is formed in the cover under the limitation of the upper cover, the lower cover and the auxiliary plate to heat the lower cover. When the air pressure in the cover is higher than the atmospheric pressure, the steam in the cover can be discharged from the steam outlet under the pushing action of the air pressure difference. The steam heating structure directly sprays steam to the cover, and the steam can be quickly scattered in a larger space, so that the heating effect on the lower surface of the cover is not good, and the temperature of the steam at the cover is required to be increased. A cavity is formed in the cover and used for gathering steam, improving the air pressure of the steam in the cavity inside the cover, improving the temperature of the steam inside the cover and improving the heating effect on the lower surface of the cover. The steam heating structure is matched with the outer side face of the auxiliary plate and used for improving the impact force of the steam heating structure on the air inlet. The heating wire is arranged for heating the lower cover. And a drainage channel is arranged for draining water on the lower surface of the upper cover and preventing condensed water from falling into the air inlet. The upper port of the exhaust port is opposite to the steam outlet and is used for conveying the condensed water at the bottom of the heating pot out of the steam outlet.

Further, the device comprises an air inlet arranged at the upper end of the lower cover, an air inlet arranged at the inner side of the auxiliary plate, an air inlet communicated with the lower end of the lower cover and an air inlet communicated with the interior of the heating pot.

Steam in the heating pot is discharged from the air inlet, enters the cover to heat the cover, and is finally discharged into the air from the steam outlet. The air inlet is exposed to the air, and the steam is directly discharged to the air, which causes waste of resources, and thus, it is necessary to improve the resource utilization rate. The cover is provided with an air inlet inside and used for recycling steam exhausted by the air inlet and heating the inside of the cover. The air inlet is arranged inside the cover, so that the air inlet is communicated with higher air pressure in the cavity inside the cover, the air pressure in the heating pot is improved, the temperature in the heating pot is improved, and the heating effect of the heating pot on the thick soup is improved.

Further, the method comprises the following steps: the guide plate is an arc-shaped plate, the guide plate is arranged at the upper end of the lower cover, the guide plate is arranged on the inner side of the auxiliary plate, the guide plate is arranged below the upper cover, the guide plate is arranged opposite to the steam inlet, and the guide plate is bent from bottom to top to the direction close to the steam inlet; two barrier plates, barrier plate set up in the lower cover upper end, and barrier plate sets up in the accessory plate inboard, and barrier plate sets up in the upper cover below, and two barrier plates set up in guide board both sides, and two barrier plates set up in the air inlet both sides, and two barrier plates cooperate with the guide board. The two blocking plates are matched with the guide plate, so that the opening of a cavity formed by the blocking plates and the guide plate is opposite to the steam inlet.

The steam sprayed out of the steam heating structure enters the cavity inside the cover from the steam inlet, one part enters the heating pot from the air inlet under the guide of the guide plate, and the other part diffuses towards two sides under the action of the self pressure and forms a higher air pressure area between the guide plate and the two barrier plates under the blocking action of the barrier plates. The higher the air pressure at the air inlet, the higher the air pressure in the heating pan, and the higher the temperature in the heating pan, the better the heating effect of the heating pan on the spoon, so the air pressure at the air inlet needs to be increased. Set up guide board and barrier plate for improve steam heating structure and to the steam injection efficiency of heating pot, improve the heating rate of thick soup ware to the heating pot. Set up guide board and barrier plate for improve the atmospheric pressure of air inlet department, improve atmospheric pressure and the temperature in the heating pot.

Further, the method comprises the following steps: the lower cover is made of stainless steel.

The high temperature steam inside the cover heats the lower cover. The lower cover is made of a material with poor thermal conductivity, so that the heating effect of high-temperature steam inside the lower cover on the lower cover is reduced, and the lower cover with good thermal conductivity is required. The lower cover is made of stainless steel materials and used for improving the heating effect of high-temperature steam inside the cover on the lower cover. The material with good heat conductivity is generally a metal material, and is easy to generate various chemical reactions under a high-temperature environment to generate rust, and the rust falls into the soup to damage a human body, so that the material with strong anti-rust capability is needed. The lower cover is made of stainless steel material and used for preventing the rusted metal material from damaging a human body.

Further, the method comprises the following steps: the handle is arranged on the side surface of the kettle; distilled water collection device, distilled water collection device are the bottle, and distilled water collection device sets up inside the handle, and distilled water collection device's bottleneck sets up in steam outlet side, and distilled water collection device's bottleneck cooperatees with the steam outlet. The mouth of the distilled water collecting device is matched with the steam outlet, so that the steam discharged from the steam outlet can enter the distilled water collecting device. The lower end of the distilled water collecting device is communicated with the inside of the kettle, and the lower end of the distilled water collecting device is lower than the water surface.

And the steam discharged from the steam outlet enters a bottle mouth of the distilled water collecting device, the liquid water falls to the bottom of the distilled water collecting device, and the gaseous water can extrude subsequent gaseous steam into air in all directions after filling the distilled water collecting device. The steam discharged from the steam outlet carries the liquid distilled water out of the steamer, and the liquid distilled water is scattered in a direction in which the steam outlet faces, so that the liquid distilled water needs to be collected. And a distilled water collecting device is arranged for collecting distilled water in the steam, so that the periphery of the steamer is kept clean. Set up distilled water collection device inside the handle for reduce the volume, practice thrift the cost. The lower extreme of distilled water collection device and the inside intercommunication of kettle, the lower extreme of distilled water collection device is less than the surface of water for carry out recycle with the water among the distilled water collection device.

Further, the method comprises the following steps: the guide pipe is a straight pipe body and is arranged above the kettle, the guide pipe is fixed on the side face of the auxiliary plate, one end of the guide pipe is communicated with the steam outlet, the other end of the guide pipe is arranged opposite to the bottle opening of the distilled water collecting device, the inner side wall of the guide pipe is a wavy surface, and the extending direction of the wavy surface is the same as that of the guide pipe.

The steam discharged from the steam outlet enters from one end of the guide pipe and is discharged from the other end of the guide pipe. And the distilled water in the steam enters the distilled water collecting device through the guide of the guide pipe. The steam is discharged from the steam outlet and moves towards the hemispherical direction range corresponding to the steam outlet, so that part of distilled water cannot enter a bottle mouth of the distilled water collecting device, and therefore the distilled water in the steam needs to be guided. The guide pipe is arranged for improving the collecting effect of the distilled water collecting device on the steam discharged from the steam outlet. The inside wall that sets up the stand pipe is the wave face for improve the guide effect of stand pipe to distilled water in the steam.

Further, the steam heating structure includes: the steam pipeline, steam pipeline set up in the kettle side, and steam pipeline's lower port and the inside intercommunication of kettle, steam pipeline's last port set up in steam inlet side, and steam pipeline's last port cooperatees with the accessory plate, and the steam pipeline inside wall is the wave face, and the extending direction of wave face is the same with the flow direction of steam. The upper port of the steam pipeline is matched with the auxiliary plate, so that steam leakage is avoided.

The high-temperature steam in the kettle flows to the steam inlet of the cover through the steam pipeline. The steam pipeline is arranged for guiding high-temperature steam in the kettle, so that the resource utilization rate is improved. The lower port of the steam pipeline is communicated with the inside of the kettle, so that the temperature difference between the cover and the steam inside the heating pot is reduced, and distilled water is prevented from being produced. The inner side wall of the steam pipeline is arranged to be a wavy surface, and the steam pipeline is used for guiding steam in the steam pipeline, so that the directivity of the steam entering between the guide plate and the blocking plate is improved, and the air pressure of an area between the guide plate and the blocking plate is improved.

Further, the method comprises the following steps: the limiting rod is in a U shape with an inverted head, the limiting rod is arranged on the side face of the auxiliary plate and is arranged above the upper port of the steam pipeline respectively, the limiting rod is matched with the upper port of the steam pipeline, and a sponge layer is arranged on one face of the limiting rod facing the upper port of the steam pipeline. The limiting rod is matched with the upper port of the steam pipeline, so that the steam pipeline is communicated with the steam inlet.

The kettle is covered by the cover, the upper port of the steam pipeline is positioned between the limiting rods, and the steam pipeline is communicated with the steam inlet. When the cover is covered on the kettle opening of the kettle, the steam pipeline and the steam inlet can not be communicated, so that a limiting structure is needed. And the limiting rod is arranged and used for limiting the steam pipeline so that the steam pipeline is communicated with the steam inlet. The limiting rod is provided with a sponge layer on one side facing the upper port of the steam pipeline and used for protecting the limiting rod and the steam pipeline. The limiting rod is provided with a sponge layer on one side facing the upper port of the steam pipeline, and after leaked steam is absorbed by the sponge, water sealing is carried out on a connecting port between the limiting rod and the steam pipeline.

Further, a method for using the high-quality soup steamer comprises the following steps: the method comprises the following steps: moving the cover upwards until the limiting rod is separated from the steam pipeline; step two: after the cover is rotated clockwise or anticlockwise by a certain angle by taking the vertical axis as a rotating shaft, the cover is covered on the kettle, so that the auxiliary plate blocks the upper port of the steam pipeline; step three: starting the heating base to heat the kettle until white steam emerges from the upper port of the steam pipeline; step four: moving the cover upward until the cover is separated from the upper port of the steam pipeline; step five: the cover is rotated clockwise or anticlockwise for a certain angle by taking the vertical axis as a rotating shaft, so that the limiting rods are positioned at two sides of the upper port of the steam pipeline, and the cover is covered on the kettle.

Use the lid to block the last port of steam conduit, improve the atmospheric pressure in the kettle, improve the heating efficiency of heating base to the water in the kettle. After steam is generated in the steam pipeline, the steam pipeline is communicated with the steam inlet to heat the cover.

The invention has the beneficial effects that:

1. set up steam heating structure and heat the lid, avoid steam to condense at the lower surface of lid, drip to in the spoon.

2. The cavity is formed in the cover, so that the heating efficiency of steam to the cover can be improved.

3. The distilled water collecting device is arranged, so that the cleanness around the soup steaming device can be maintained.

4. The heating pot is isolated from the kettle, so that water in the kettle can be prevented from splashing into the thick soup.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic view of a stop lever of the present invention;

FIG. 3 is a schematic view of the directing and blocking plates of the present invention;

FIG. 4 is a top view of the heating pan;

description of reference numerals:

1. heating the base;

2. a kettle;

3. heating the pan; 31. an exhaust port; 32. a water collection tank; 33. a water chute;

4. a cover; 41. an upper cover; 42. a lower cover; 43. a guide plate; 44. a blocking plate; 45. an auxiliary plate; 46. a limiting rod; 47. a steam inlet; 48. an air inlet; 49. a steam outlet; 410. a guide tube;

5. a handle; 51. a distilled water collecting device;

6. a steam pipeline.

Detailed Description

The concept and technical effects of the present invention will be clearly and completely described below in conjunction with the embodiments to fully understand the objects, features and effects of the present invention.

Example 1:

as shown in fig. 1 and 4, a high quality steamer for soup comprises: heating base 1, comprising: the kettle 2 is arranged on the heating base 1; the heating kettle comprises a heating kettle 3, wherein the heating kettle 3 is arranged in a kettle 2, a kettle opening of the heating kettle 3 is matched with a kettle opening of the kettle 2, a spherical bulge is arranged in the center of the bottom surface of the heating kettle 3, and a water collecting groove 32 is formed by the bulge and the side wall of the heating kettle 3; the water chute 33 is concave, the water chute 33 is arranged on the upper surface of the protrusion, one end of the water chute 33 is arranged in the center of the protrusion, the other end of the water chute 33 is connected with the water collecting tank 32, and the water chute 33 inclines from the center of the protrusion to the edge of the protrusion; the cover 4 is arranged at the upper end of the kettle 2, the cover 4 is tightly matched with the heating pot 3, and heating wires are arranged inside the cover 4; the air inlet 48 is arranged on the cover 4, and the air inlet 48 is communicated with the inside of the heating pot 3; an air outlet 31, the air outlet 31 being a pipe, the air outlet 31 being disposed on the lid 4, a lower end of the air outlet 31 being disposed at a bottom of the heating pan 3, an upper end of the air outlet 31 being communicated with the outside air, the air outlet 31 being disposed at an opposite side of the air inlet 48; the steam heating structure is arranged on the side face of the kettle 2, one end of the steam heating structure is matched with the cover 4, and the steam heating structure is matched with the air inlet 48. The pot mouth of the heating pot 3 is matched with the pot mouth of the kettle 2, so that the pot mouth of the kettle 2 can support the heating pot 3. The cover 4 is tightly matched with the kettle 2 to seal the kettle 2. The cover 4 is tightly matched with the heating pot 3 to seal the kettle 2. One end of the steam heating structure is matched with the cover 4 to heat the cover 4. Steam heating structure cooperates with air inlet 48 to inject steam into air inlet 48.

The kettle 2 is placed on the heating base 1, a proper amount of water is added into the kettle 2, then the heating pot 3 is placed into the kettle 2 from the kettle opening of the kettle 2, then the container with the soup is placed into the heating pot 3, and the cover 41 is covered. When the heating base 1 is electrified, water in the kettle 2 can boil to generate steam after reaching 100 ℃, and the steam can heat the heating pot 3 to heat the soup. The steam heating means sprays steam to heat the lid 4, and the steam is injected into the heating pan 3 through the air inlet 48 to heat the spoon. The heating pot 3 and the kettle 2 are mutually separated and used for preventing water in the kettle 2 from splashing into a container containing a thick soup when boiling, and the taste of the thick soup is influenced. When steam in the heating pan 3 meets the cover 4 with low temperature, distilled water is generated by condensation on the lower surface of the cover 4 and drops into a container containing a spoon, and the taste of the spoon is influenced. The one end that sets up steam heating structure cooperatees with lid 4 for heat lid 4 through high temperature steam, reduce the steam in the heating pan 3 and the difference in temperature between lid 4, avoid the distilled water that the condensation produced on the lower surface of lid 4. The steam heating structure is arranged to be matched with the air inlet 48 and used for injecting steam into the heating pot 3, so that the temperature in the heating pot 3 is rapidly increased, pressure is applied to the air inlet 48, the pressure in the heating pot 3 is increased, and the upper limit of the temperature of the heating pot 3 is increased.

The cover 4 includes: the lower cover 42 is arranged at the upper end of the kettle 2, the lower cover 42 is tightly matched with the heating pot 3, and the heating wire is arranged in the lower cover 42; an auxiliary plate 45, wherein the auxiliary plate 45 is annular, the auxiliary plate 45 is arranged at the upper end of the lower cover 42, and the lower end of the auxiliary plate 45 is fixed with the edge of the lower cover 42; an upper cover 41, wherein the upper cover 41 is arranged above the lower cover 42, the upper cover 41 is arranged at the upper end of the auxiliary plate 45, the edge of the upper cover 41 is fixed with the auxiliary plate 45, and the upper cover 41, the lower cover 42 and the auxiliary plate 45 form a cavity; the lower surface of the upper cover 41 is provided with a plurality of drainage channels which are strip-shaped depressions and are arranged along the flow direction of steam; the steam inlet 47 is a hole, the steam inlet 47 is arranged on the side surface of the auxiliary plate 45, the steam inlet 47 is arranged above the lower cover 42, the steam inlet 47 is arranged below the upper cover 41, and the steam inlet 47 is communicated with the inner side of the auxiliary plate 45; the steam outlet 49 is a hole, the steam outlet 49 is arranged on one side of the auxiliary plate 45, the steam outlet 49 is arranged above the lower cover 42, the steam outlet 49 is arranged below the upper cover 41, and the steam outlet 49 is communicated with the inner side of the auxiliary plate 45; the steam heating structure is arranged on the side of the auxiliary plate 45, the steam heating structure is arranged on the side of the steam inlet 47, one end of the steam heating structure is matched with the steam inlet 47, and the steam heating structure is matched with the outer side surface of the auxiliary plate 45. The lower cover 42 is tightly matched with the kettle 2 to seal the kettle 2. The lower cover 42 is tightly fitted with the heating pan 3 to seal the heating pan 3. One end of the steam heating structure is coupled to the steam inlet 47 to spray steam into the steam inlet 47. The steam heating structure is matched with the outer side surface of the auxiliary plate 45, so that steam leakage is avoided. The upper end of the vent 31 is disposed in the internal cavity of the lid 4, and the upper end port of the vent 31 is disposed opposite the steam outlet 49.

The steam ejected from the steam heating structure enters the cover 4 through the steam inlet, and a high-temperature region is formed inside the cover 4 under the restriction of the upper cover 41, the lower cover 42, and the auxiliary plate 45, thereby heating the lower cover 42. When the pressure in the lid 4 is higher than the atmospheric pressure, the steam in the lid 4 is discharged through the steam outlet 49 by the pressure difference. The steam heating structure directly sprays the steam toward the cover 4, and the steam is quickly scattered due to a large space, so that the heating effect on the lower surface of the cover 4 is not good, and thus the temperature of the steam at the cover 4 needs to be increased. A cavity is provided in the lid 4 for collecting steam, increasing the pressure of the steam in the cavity inside the lid 4, increasing the temperature of the steam inside the lid 4, and increasing the heating effect on the lower surface of the lid 4. Set up steam heating structure and auxiliary plate 45 lateral surface and cooperate for improve steam heating structure and pour into the efficiency of steam into lid 4.

The steamer comprises an air inlet 48 arranged at the upper end of the lower cover 42, the air inlet 48 arranged at the inner side of the auxiliary plate 45, the air inlet 48 communicated with the lower end of the lower cover 42, and the air inlet 48 communicated with the inside of the heating pot 3.

The steam in the heating pan 3 is discharged from the air inlet 48, enters the inside of the cover 4, heats the cover 4, and is finally discharged to the air from the steam outlet 49. The air inlet 48 is exposed to the air and discharges the steam directly to the air, which causes waste of resources, and thus, it is required to improve the resource utilization. An air inlet 48 is provided inside the cover 4 for reusing the steam discharged from the air inlet 48 and heating the inside of the cover 4. The air inlet 48 is arranged inside the cover 4, so that the air inlet 48 is communicated with the higher air pressure in the cavity inside the cover 4, and the air pressure in the heating pot 3 is increased, the temperature in the heating pot 3 is increased, and the heating effect of the heating pot 3 on the spoon is improved.

As shown in fig. 3, includes: the guide plate 43, the guide plate 43 is an arc-shaped plate, the guide plate 43 is arranged at the upper end of the lower cover 42, the guide plate 43 is arranged at the inner side of the auxiliary plate 45, the guide plate 43 is arranged below the upper cover 41, the guide plate 43 is arranged opposite to the steam inlet 47, and the guide plate 43 is bent from bottom to top to be close to the steam inlet 47; two blocking plates 44, the blocking plate 44 is arranged at the upper end of the lower cover 42, the blocking plate 44 is arranged at the inner side of the auxiliary plate 45, the blocking plate 44 is arranged below the upper cover 41, the two blocking plates 44 are arranged at two sides of the guide plate 43, the two blocking plates 44 are arranged at two sides of the air inlet 48, and the two blocking plates 44 are matched with the guide plate 43. The two blocking plates 44 cooperate with the guide plate 43 such that the opening of the cavity formed by the blocking plates 44 and the guide plate 43 is opposite the steam inlet 47.

The steam sprayed from the steam heating structure enters the cavity inside the cover 4 through the steam inlet 47, a part of the steam enters the heating pan 3 through the air inlet 48 under the guiding of the guiding plate 43, and a part of the steam diffuses towards two sides under the self-pressure effect and forms a higher air pressure area between the guiding plate 43 and the two blocking plates 44 under the blocking effect of the blocking plates 44. The higher the air pressure at the air inlet 48, the higher the air pressure in the heating pan 3, and the higher the temperature in the heating pan 3, the better the heating effect of the spoon by the heating pan 3, so it is necessary to increase the air pressure at the air inlet 48. The guide plate 43 and the blocking plate 44 are provided for improving the steam injection efficiency of the steam heating structure to the heating pan 3, and improving the heating rate of the steamer to the heating pan 3. A guide plate 43 and a blocking plate 44 are provided for increasing the air pressure at the air inlet 48, increasing the air pressure and temperature in the heating pan 3.

The thick soup steamer includes: the lower cover 42 is made of stainless steel.

The lower cover 42 is heated by the high-temperature steam inside the cover 4. The lower cover 42 is made of a material having poor thermal conductivity, which reduces the heating effect of the high-temperature steam inside the cover 4 on the lower cover 42, and thus a lower cover 42 having good thermal conductivity is required. The lower cover 42 is made of stainless steel material, and is used for improving the heating effect of the high-temperature steam inside the cover 4 on the lower cover 42. The material with good heat conductivity is generally a metal material, and is easy to generate various chemical reactions under a high-temperature environment to generate rust, and the rust falls into the soup to damage a human body, so that the material with strong anti-rust capability is needed. The lower cover 42 is made of stainless steel material to prevent the rusted metal material from damaging the human body.

The thick soup steamer includes: the handle 5 is arranged on the side surface of the kettle 2; distilled water collection device 51, distilled water collection device 51 are the bottle, and distilled water collection device 51 sets up in handle 5 inside, and the bottleneck of distilled water collection device 51 sets up in steam outlet 49 side, and the bottleneck of distilled water collection device 51 cooperatees with steam outlet 49. The mouth of the distilled water collecting means 51 is fitted with the steam outlet 49 so that the steam discharged from the steam outlet 49 can be introduced into the distilled water collecting means 51. The lower end of the distilled water collecting device 51 is communicated with the inside of the kettle 2, and the lower end of the distilled water collecting device 51 is lower than the water surface.

The steam discharged from the steam outlet 49 enters the mouth of the distilled water collecting device 51, the liquid water falls to the bottom of the distilled water collecting device 51, and the gaseous water in the distilled water collecting device 51 can expel the subsequent gaseous steam to the air in all directions after filling the distilled water collecting device 51. The steam discharged from the steam outlet 49 carries the liquid distilled water out of the steamer, and the liquid distilled water is scattered to a direction in which the steam outlet 49 faces, so that the liquid distilled water needs to be collected. A distilled water collecting means 51 is provided for collecting distilled water in the steam to keep the surroundings of the steamer clean. The distilled water collecting device 51 is provided inside the handle 5 for reducing the volume and saving the cost.

The thick soup steamer includes: the guide pipe 410 is a straight pipe body, the guide pipe 410 is arranged above the kettle 2, the guide pipe 410 is fixed on the side surface of the auxiliary plate 45, one end of the guide pipe 410 is communicated with the steam outlet 49, the other end of the guide pipe 410 is arranged opposite to the bottle mouth of the distilled water collecting device 51, the inner side wall of the guide pipe 410 is a wave surface, and the extending direction of the wave surface is the same as the extending direction of the guide pipe 410.

The steam discharged from the steam outlet 49 enters one end of the guide duct 410 and is discharged from the other end of the guide duct 410. The distilled water in the steam is guided through the guide pipe 410 and enters the distilled water collecting device 51. The steam is discharged from the steam outlet 49 and moves toward the hemispherical range corresponding to the steam outlet 49, so that part of the distilled water cannot enter the bottle mouth of the distilled water collecting device 51, and therefore, the distilled water in the steam needs to be guided. The guide pipe 410 is provided to improve the collecting effect of the distilled water collecting means 51 on the steam discharged from the steam outlet 49. The inner side wall of the guide pipe 410 is a wavy surface for improving the guiding effect of the guide pipe 410 on the distilled water in the steam.

The steam heating structure includes: steam conduit 6, steam conduit 6 set up in 2 sides of kettle, and steam conduit 6's lower port and the inside intercommunication of kettle 2, steam conduit 6's last port set up in steam inlet 47 sides, and steam conduit 6's last port cooperatees with accessory plate 45, and steam conduit 6 inside wall is the wave face, and the extending direction of wave face is the same with the flow direction of steam. The upper port of the steam pipeline 6 is matched with the auxiliary plate 45, so that steam leakage is avoided.

The high temperature steam in the kettle 2 flows to the steam inlet of the cover 4 through the steam pipe 6. The steam pipeline 6 is arranged and used for guiding high-temperature steam in the kettle 2, and the resource utilization rate is improved. The lower port of the steam pipeline 6 is communicated with the inside of the kettle 2, so that the temperature difference between the steam inside the cover 4 and the steam inside the heating pot 3 is reduced, and distilled water is prevented from being produced. The inner side wall of the steam pipeline 6 is a wavy surface, and is used for guiding steam in the steam pipeline 6, improving the directivity when the steam enters between the guide plate 43 and the blocking plate 44, and improving the air pressure of the area between the guide plate 43 and the blocking plate 44.

As shown in fig. 2, includes: gag lever post 46, gag lever post 46 are the U type of handstand, and gag lever post 46 sets up on the side of auxiliary plate 45, and gag lever post 46 sets up respectively in steam conduit 6's last port top, and gag lever post 46 cooperatees with steam conduit 6's last port, and gag lever post 46 is provided with the sponge layer towards the one side of steam conduit 6's last port. The limiting rod 46 is matched with the upper port of the steam pipeline 6, so that the steam pipeline 6 is communicated with the steam inlet 47.

The kettle 2 is covered by the cover 4, so that the upper port of the steam pipeline 6 is positioned between the limiting rods 46, and the steam pipeline 6 is communicated with the steam inlet 47. When the lid 4 is covered on the spout of the kettle 2, the steam pipeline 6 and the steam inlet 47 may not be communicated with each other, so that a limit structure is required. A limiting rod 46 is provided for limiting the steam pipe 6, so that the steam pipe 6 is communicated with the steam inlet 47. A sponge layer is arranged on one surface of the limiting rod 46 facing the upper port of the steam pipeline 6, and is used for protecting the limiting rod 46 and the steam pipeline 6. The sponge layer is arranged on the surface, facing the upper port of the steam pipeline 6, of the limiting rod 46, and after leaked steam is absorbed by the sponge, a connecting port between the limiting rod 46 and the steam pipeline 6 is subjected to water sealing.

The working process of the embodiment is as follows: the kettle 2 is placed on the heating base 1, a proper amount of water is added into the kettle 2, then the heating pot 3 is placed into the kettle 2 from the kettle opening of the kettle 2, then the container with the soup is placed into the heating pot 3, and the cover 41 is covered. When the heating base 1 is electrified, water in the kettle 2 can boil to generate steam after reaching 100 ℃, and the steam can heat the heating pot 3 to heat the soup. The steam heating means sprays steam to heat the lid 4, and injects the steam into the heating pan 3 through the exhaust port 48 to heat the spoon. The steam in the heating pan 3 is discharged through the exhaust port 31.

The kettle 2 is covered by the cover 4, so that the upper port of the steam pipeline 6 is positioned between the limiting rods 46, and the steam pipeline 6 is communicated with the steam inlet 47. The high temperature steam in the kettle 2 flows to the steam inlet of the cover 4 through the steam pipe 6. The steam ejected from the steam heating structure enters the cover 4 through the steam inlet, and a high-temperature region is formed inside the cover 4 under the restriction of the upper cover 41, the lower cover 42, and the auxiliary plate 45, thereby heating the lower cover 42. When the pressure in the lid 4 is higher than the atmospheric pressure, the steam in the lid 4 is discharged through the steam outlet 49 by the pressure difference. The steam in the heating pan 3 is discharged from the air inlet 48, enters the inside of the cover 4, heats the cover 4, and is finally discharged to the air from the steam outlet 49. The steam sprayed from the steam heating structure enters the cavity inside the cover 4 through the steam inlet 47, a part of the steam enters the heating pan 3 through the air inlet 48 under the guiding of the guiding plate 43, and a part of the steam diffuses towards two sides under the self-pressure effect and forms a higher air pressure area between the guiding plate 43 and the two blocking plates 44 under the blocking effect of the blocking plates 44.

The steam discharged from the steam outlet 49 enters one end of the guide duct 410 and is discharged from the other end of the guide duct 410. The distilled water in the steam is guided through the guide pipe 410 and enters the distilled water collecting device 51. The liquid water falls to the bottom of the distilled water collecting device 51, and the gaseous water in the distilled water collecting device 51 will expel the subsequent gaseous steam to the air in all directions after filling the distilled water collecting device.

The high temperature steam in the kettle 2 flows to the steam inlet of the cover 4 through the steam pipe 6. The kettle 2 is covered by the cover 4, so that the upper port of the steam pipeline 6 is positioned between the limiting rods 46, and the steam pipeline 6 is communicated with the steam inlet 47.

Example 2:

a method for using a high-quality steamer, comprising the following steps: the method comprises the following steps: moving the cover 4 upwards until the stop lever 46 disengages from the steam pipe 6; step two: after the cover 4 is rotated clockwise or anticlockwise by a certain angle by taking the vertical axis as a rotating shaft, the cover 4 is covered on the kettle 2, so that the auxiliary plate 45 blocks the upper end opening of the steam pipeline 6; step three: starting the heating base 1 to heat the kettle 2 until white steam emerges from the upper port of the steam pipeline 6; step four: moving the cover 4 upward until the cover 4 is separated from the upper port of the steam pipe 6; step five: the cover 4 is rotated clockwise or counterclockwise by a certain angle by taking the vertical axis as a rotating shaft, so that the limiting rods 46 are positioned at two sides of the upper port of the steam pipeline 6, and the cover 4 is covered on the kettle 2.

Use lid 4 to block the last port of steam conduit 6, improve the atmospheric pressure in kettle 2, improve the heating efficiency of heating base 1 to the water in kettle 2. When steam is generated in the steam pipe 6, the steam pipe 6 is communicated with the steam inlet 47 to heat the cover 4.

The above-mentioned embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive efforts based on the embodiments of the present invention belong to the protection scope of the present invention.