CN215959495U - Soup machine - Google Patents

Abstract

The utility model provides a soup machine. The soup machine comprises a cup body assembly, a heating assembly and a heat preservation assembly. The inside of cup body group spare is provided with the holding chamber. The heating component is arranged in the cup body component and used for heating food in the accommodating cavity. The heat preservation assembly is arranged in the cup body assembly and is arranged at an interval with the heating assembly and used for preserving heat of food in the accommodating cavity. Because heating element and heat preservation subassembly separately set up, it can effectively avoid will realizing the heating function promptly when heating element, when will realizing the heat preservation function again, at the heat preservation in-process, heating element's heating power is too big, and leads to the problem that the food in the holding chamber sticks with paste the end easily.

Description

Soup machine

Technical Field

The utility model belongs to the technical field of household appliances, and particularly relates to a soup machine.

Background

With the increasing living standard of people, various types of Soup machines (Soup Maker/Suppzuber) appear on the market. People can use the soup machine to make soybean milk, fruit juice, rice paste, meat stuffing and the like. A general soup machine generally has a heating assembly to heat food in the soup machine while the soup machine is in operation. However, the conventional soup machine usually has no heat preservation function, and the heating assembly stops working after the operation of the soup machine is finished. On the other hand, even if the soup machine has a heat preservation function, the heat preservation function is realized by heating the food through the heating assembly. Because the heating assembly is mainly used for heating food in the working process of the soup machine, the heating power is usually higher, and the heating assembly is used for heat preservation at the moment, so that the food is easily burnt.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a soup machine, which aims to solve the problem that food is easy to stick to the bottom when the soup machine in the prior art adopts a heating component for heat preservation.

One embodiment of the present invention provides a soup machine, including:

the cup body assembly is internally provided with an accommodating cavity;

the heating assembly is arranged in the cup body assembly and is used for heating food in the accommodating cavity; and

the heat preservation assembly is arranged in the cup body assembly and is arranged at intervals with the heating assembly and used for preserving heat of food in the accommodating cavity.

In one embodiment, the rated power value of the heating assembly is larger than that of the heat-preserving assembly.

In one embodiment, the heating assembly and the heat preservation assembly are arranged at the bottom of the cup body assembly, and the heating assembly is arranged around the heat preservation assembly.

In one embodiment, the heat-insulating component comprises a positive temperature coefficient thermistor.

In one embodiment, the soup machine further comprises a control component connected with the heating component and the heat preservation component, and the soup machine comprises a heating mode and a heat preservation mode:

in a heating mode, the heating component starts to work, and the heat preservation component stops working;

in the heat preservation mode, the heating assembly stops working, and the heat preservation assembly starts working.

In one embodiment, the soup machine further comprises a stirring head, wherein the stirring head is arranged in the accommodating cavity and used for stirring food in the accommodating cavity.

In one embodiment, the soup machine further includes:

the driving motor is connected to the stirring head and used for driving the stirring head to rotate;

the control assembly is connected with the driving motor and is used for controlling the rotating speed of the driving motor;

in a heating mode, the control component controls the driving motor to drive the stirring head to rotate at a first rotating speed;

in the heat preservation mode, the control assembly controls the driving motor to drive the stirring head to rotate at a second rotating speed;

wherein the first rotational speed is greater than the second rotational speed.

In one embodiment, the cup body assembly comprises a base, the base is provided with a first surface and a second surface, the first surface of the base is arranged facing the accommodating cavity, the second surface of the base is arranged opposite to the accommodating cavity, and the heating assembly and the heat preservation assembly are arranged on the second surface of the base.

In one embodiment, the heating assembly comprises a first end, a second end and an annular heating part connected between the first end and the second end, the annular heating part is close to the edge of the cup body assembly, the heat preservation assembly comprises a third end, a fourth end and a linear heating part connected between the third end and the fourth end, and the annular heating part surrounds the linear heating part.

In one of them embodiment, heating element includes first end, second end and connects first annular heating portion between the first end with the second end, annular heating portion is close to cup body assembly's edge sets up, the subassembly that keeps warm includes third end, fourth end and connects the third end with second annular heating portion between the fourth end, the soup machine has the stirring head, second annular heating portion encircles the stirring head sets up, first annular heating portion encircles second annular heating portion sets up.

In the soup machine provided by the embodiment of the utility model, the heating component is arranged in the cup body component to heat food in the accommodating cavity; and arranging a heat preservation assembly in the cup body assembly to preserve heat of food in the accommodating cavity. Because heating element and heat preservation subassembly separately set up, it can effectively avoid will realizing the heating function promptly when heating element, when will realizing the heat preservation function again, at the heat preservation in-process, heating element's heating power is too big, and leads to the problem that the food in the holding chamber sticks with paste the end easily.

Drawings

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

Fig. 1 is a schematic structural diagram of a soup machine according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the soup machine of FIG. 1;

FIG. 3 is an inverted schematic view of the cup assembly of FIG. 1;

FIG. 4 is a schematic illustration of the positioning of a heating assembly and a holding assembly according to another embodiment of the present invention;

fig. 5 is an electrical connection diagram of the control assembly of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

One embodiment of the present invention provides a soup machine, including:

the cup body assembly is internally provided with an accommodating cavity;

the heating assembly is arranged in the cup body assembly and is used for heating food in the accommodating cavity; and

the heat preservation assembly is arranged in the cup body assembly and is arranged at intervals with the heating assembly and used for preserving heat of food in the accommodating cavity.

In the soup machine provided by the embodiment of the utility model, the heating component is arranged in the cup body component to heat food in the accommodating cavity; and arranging a heat preservation assembly in the cup body assembly to preserve heat of food in the accommodating cavity. Because heating element and heat preservation subassembly separately set up, it can effectively avoid will realizing the heating function promptly when heating element, when will realizing the heat preservation function again, at the heat preservation in-process, heating element's heating power is too big, and leads to the problem that the food in the holding chamber sticks with paste the end easily.

Referring to fig. 1 and 2, an embodiment of the utility model provides a soup machine 100. The soup machine 100 includes a cup assembly 110, a cup holder assembly 120, a heating assembly 130, a heat preservation assembly 140, and a control assembly 150. The cup assembly 110 may be mounted in a cup holder assembly 120. The cup holder assembly 120 may control and drive the soup machine 100. The cup holder assembly 120 is provided therein with a driving motor 121.

In one embodiment, the cup assembly 110 is removably mounted in the cup holder assembly 120. The cup body assembly 110 is provided with a receiving cavity 111 therein for receiving food to be processed. The soup machine 100 can stir, crush, heat, etc. food placed in the receiving cavity 111 of the cup body assembly 110. The cup assembly 110 also includes a stir head 112. The stirring head 112 is disposed in the accommodating cavity 111 and is used for stirring or smashing food in the accommodating cavity 111. The cup assembly 110 may be made of a metal material or a glass material, as required. When the cup body assembly 110 is mounted on the cup holder assembly 120, the stirring head 112 of the cup body assembly 110 is connected to the driving motor 121 of the cup holder assembly 120. At this time, when the soup machine 100 works, the driving motor 121 may drive the stirring head 112 to rotate, so as to stir or smash the food in the accommodating cavity 111. In this embodiment, the cup assembly 110 further includes a base 113. The base 113 includes a first surface 1131 and a second surface 1132. The first surface 1131 of the base 113 is disposed facing the accommodating cavity 111. The second surface 1132 of the base 113 is disposed opposite to the accommodating cavity 111. The heating assembly 130 and the thermal insulation assembly 140 are disposed on the second surface 1132 of the base 113.

In one embodiment, the cup holder assembly 120 includes a holder body 122. The driving motor 121 is disposed on the seat 122. During operation, the cup assembly 110 is fixed to the seat 122. The stirring head 112 of the cup body assembly 110 is fixedly connected with the driving motor 121 of the cup holder assembly 120. In the present embodiment, the driving motor 121 has an output shaft 1211. The mixing head 112 is in threaded connection with the output shaft 1211 of the drive motor 121. Specifically, a through hole is formed in the center of the base 113 of the cup assembly 110, and the output shaft 1211 of the driving motor 121 passes through the through hole in the base 113 to be connected to the mixing head 112. During the operation of the soup machine 100, the output shaft 1211 of the driving motor 121 drives the stirring head 112 to rotate, so as to stir or smash the food in the accommodating cavity 111.

In one embodiment, the rated power of the heating assembly 130 is greater than the rated power of the temperature maintaining assembly 140. At this time, when the soup machine 100 is in operation, the driving motor 121 drives the stirring head 112 to rotate, so as to stir or smash the food in the accommodating cavity 111. Meanwhile, the heating assembly 130 heats the food in the accommodating chamber 111. Since the rated power of the heating assembly 130 is greater than that of the thermal insulation assembly 140, the heating assembly 130 can heat the food in the accommodating cavity 111 more rapidly. After the operation of the soup machine 100 is completed, it is subjected to a heat-preserving process. At this time, the heat-insulating member 140 is turned on, thereby insulating the processed food in the soup machine 100. Since the rated power of the heat-retaining member 140 is smaller than that of the heating member 130, the heat-retaining member 140 can effectively retain the heat of the processed food without causing the food to be burnt due to excessive heating power. In this embodiment, the heating element 130 is made of an electrothermal alloy. In one embodiment, the heating element 130 is made of a material selected from one or more of fe-cr-al alloy, nicr alloy, w-al alloy, or mo-al alloy. The thermal insulation assembly 140 includes a Positive Temperature Coefficient thermistor (PTC) element. In the present embodiment, the insulation member 140 is made of a PTC heating element. Specifically, the heat preservation assembly 140 includes a PTC ceramic heating sheet and an aluminum sheet disposed on the PTC ceramic heating sheet. The PTC heating body is adopted as the heat preservation assembly 140, on one hand, the PTC heating body has the advantages of small heat resistance, high heat exchange efficiency and the like, can automatically realize constant temperature and saves electricity. On the other hand, the PTC heating element has high safety performance, and when the temperature of the PTC heating element rises due to poor heat dissipation, the temperature value on the surface of the PTC heating element is about curie temperature (generally about 250 ℃), so that the phenomenon that the surface of the PTC heating element turns red due to rapid temperature rise when a heating assembly such as an electric heating tube is dried is avoided.

Referring also to fig. 3, in one embodiment, the heating assembly 130 and the insulating assembly 140 are disposed at the bottom of the cup assembly 110. The heating assembly 130 is disposed around the insulating assembly 140. The heating assembly 130 and the heat preservation assembly 140 are arranged at the bottom of the cup body assembly 110, and the heating assembly 130 can heat the food in the accommodating cavity 111 more effectively; the heat-insulating assembly 130 can more effectively insulate the food in the accommodating chamber 111. It is to be understood that the heating assembly 130 and/or the insulating assembly 140 are not limited to being disposed on the bottom of the cup body assembly 110, but may be disposed on the side wall of the cup body assembly 110, or disposed on the bottom and the side wall of the cup body assembly 110, respectively.

In one embodiment, the heating assembly 130 includes a first end 131, a second end 132, and an annular heating portion 133 coupled between the first end 131 and the second end 132. The annular heating portion 133 is disposed adjacent to the rim of the cup assembly 110. The temperature maintaining assembly 140 includes a third terminal 141, a fourth terminal 142, and a linear heating portion 143 connected between the third terminal 141 and the fourth terminal 142. The annular heating portion 133 is provided around the linear heating portion 143. Because the annular heating portion 133 is disposed near the edge of the cup assembly 110, it can effectively heat the base 113 of the cup assembly 110 more uniformly, thereby preventing the heat from concentrating in the central area of the base 113 and causing uneven temperature distribution. On the other hand, the linear heating portion 143 of the insulating assembly 140 is disposed inside the annular heating portion 133, and even though the insulating assembly 140 is disposed in the middle region of the base 113 of the cup assembly 110 due to its small power rating, the bottom-sticking phenomenon caused by the high temperature of the central region of the base 113 does not occur.

It is to be understood that the heating part 130 and the insulating part 140 are not limited to the above-described embodiments. Referring to fig. 4, in one embodiment, the heating element 130 includes a first end 131, a second end 132, and a first annular heating portion 133 connected between the first end 131 and the second end 132. The first annular heating section 133 is disposed adjacent to the edge of the cup assembly 110. The insulating assembly 140 includes a third end 141, a fourth end 142, and a second annular heating portion 143 connected between the third end 141 and the fourth end 142. The first annular heating portion 133 is disposed around the second annular heating portion 143. The soup machine 100 has a stirring head 112. The second annular heating portion 143 is disposed around the stirring head 112. Since the second annular heating portion 143 of the insulating assembly 140 is disposed around the mixing head 112, it heats the cup assembly 110 of the soup machine 100 more uniformly.

Referring to fig. 5, in one embodiment, the soup machine 100 further includes a control assembly 160. The control assembly 160 is connected to the heating assembly 130 and the temperature maintaining assembly 140. In operation, the soup machine 100 includes a heating mode and a warming mode.

In the heating mode, the heating assembly 130 starts to operate, and the insulating assembly 140 stops operating. That is, in the heating mode, the food in the receiving cavity 111 of the cup body assembly 110 is heated mainly by the heating assembly 130. Since the heating assembly 130 has a high power rating, it can rapidly warm the food in the accommodating chamber 111.

In the keep warm mode, the heating assembly 130 stops operating and the keep warm assembly 140 starts operating. That is, in the heat preservation mode, the food in the accommodating cavity 111 of the cup body assembly 110 is mainly preserved by the heat preservation assembly 140. Because the rated power of the heat preservation component 140 is lower, the food in the accommodating cavity 111 is not burnt while the food is preserved heat.

The control component 160 may also be connected to the driving motor 121 for controlling the rotation speed of the driving motor 121 according to requirements. In one of the embodiments, the first and second electrodes are,

in the heating mode, the control unit 160 controls the driving motor 121 to drive the stirring head 112 to rotate at a first rotation speed. At this time, the stirring head 112 rotates at a high speed for stirring or crushing the food in the receiving cavity 111 of the cup body assembly 110.

In the heat preservation mode, the control component 160 controls the driving motor 121 to drive the stirring head 112 to rotate at the second rotation speed. Wherein the first rotational speed is greater than the second rotational speed. At this time, the stirring head 112 rotates at a lower speed, so that the food in the accommodating cavity 111 of the cup body assembly 110 is distributed uniformly. It can be understood that, in the warming mode, the control assembly 160 can intermittently control the driving motor 121 to drive the stirring head 112 to rotate at the second rotation speed, so that the food in the accommodating cavity 111 of the cup body assembly 110 is distributed uniformly. In one embodiment, in the heat preservation mode, the control component 160 may control the driving motor 121 to drive the stirring head 112 to rotate for a period of 1 minute; then, the stirring head 112 is stopped from rotating for a period of 1 minute; the stirring head 112 is then rotated again for a period of 1 minute, … …. The steps are repeated, so that the temperature of the food in the heat preservation process is uniform. It will be appreciated that the duration and dwell time of the mixing head 112 during the incubation period, which may be half a minute, two minutes, five minutes or ten minutes, etc., may be selected as desired. The duration and stop time of the stirring head 112 during the incubation may also be set to be unequal. For example, in the heat preservation mode, the control component 160 may control the driving motor 121 to drive the stirring head 112 to rotate for 1 minute; then, the stirring head 112 is stopped from rotating for a half minute; the stirring head 112 is then rotated again for a period of 1 minute, … …. The user can set the setting by himself according to actual needs, and details are not repeated here.

The soup machine 100 may further include a cup handle assembly 170 and a cup cover assembly 180, as desired. The cup handle assembly 170 is disposed at a side of the cup body assembly 110 for allowing a user to conveniently pick up the soup machine 100. The lid assembly 180 is removably mounted to the top of the bowl assembly 110. When the soup machine 100 is in operation, the cap assembly 180 is fastened to the top of the cup body assembly 110, so as to prevent food in the accommodating cavity 111 of the cup body assembly 110 from splashing outwards.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A soup machine, comprising:

the cup body assembly is internally provided with an accommodating cavity;

the heating assembly is arranged in the cup body assembly and is used for heating food in the accommodating cavity; and

the heat preservation assembly is arranged in the cup body assembly and is arranged at intervals with the heating assembly and used for preserving heat of food in the accommodating cavity.

2. The soup machine of claim 1, wherein the heating assembly is rated at a power level greater than the holding assembly.

3. The soup machine of claim 2, wherein the heating assembly and the insulating assembly are disposed at a bottom of the cup body assembly, the heating assembly being disposed around the insulating assembly.

4. The soup machine of claim 2, wherein the heat retention assembly comprises a positive temperature coefficient thermistor.

5. The soup machine of claim 1, further comprising a control assembly coupled to the heating assembly and the keep warm assembly, the soup machine including a heating mode and a keep warm mode:

in a heating mode, the heating component starts to work, and the heat preservation component stops working;

in the heat preservation mode, the heating assembly stops working, and the heat preservation assembly starts working.

6. The soup machine of claim 5, further comprising a stirring head disposed within the receiving cavity for stirring the food therein.

7. The soup machine of claim 6, further comprising:

the driving motor is connected to the stirring head and used for driving the stirring head to rotate;

the control assembly is connected with the driving motor and is used for controlling the rotating speed of the driving motor;

in a heating mode, the control component controls the driving motor to drive the stirring head to rotate at a first rotating speed;

in the heat preservation mode, the control assembly controls the driving motor to drive the stirring head to rotate at a second rotating speed;

wherein the first rotational speed is greater than the second rotational speed.

8. The soup machine of claim 1, wherein the cup assembly includes a base having a first surface and a second surface, the first surface of the base disposed facing the receiving cavity, the second surface of the base disposed facing away from the receiving cavity, the heating assembly and the insulating assembly disposed on the second surface of the base.

9. The soup machine of claim 8, wherein the heating assembly includes a first end, a second end, and an annular heating portion connected between the first end and the second end, the annular heating portion being disposed proximate to an edge of the cup body assembly, the insulating assembly including a third end, a fourth end, and a linear heating portion connected between the third end and the fourth end, the annular heating portion being disposed around the linear heating portion.

10. The soup machine of claim 8, wherein the heating assembly comprises a first end, a second end, and a first annular heating portion connected between the first end and the second end, the annular heating portion being disposed proximate to an edge of the cup assembly, the heat retention assembly comprising a third end, a fourth end, and a second annular heating portion connected between the third end and the fourth end, the soup machine having a stir head, the second annular heating portion being disposed around the stir head, the first annular heating portion being disposed around the second annular heating portion.

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