CN209996003U - soymilk machine with good anti-overflow effect - Google Patents

Abstract

The utility model provides an soybean milk machine, including the cup with install the aircraft nose on the cup, the aircraft nose includes upper cover and lower cover, the upper cover with the lower cover encloses to close the installation intracavity that forms and installs the motor, its characterized in that, the lower cover includes the lower cover base member and locates the tubulose connector of lower cover base member front end, the pivot of motor runs through the tubulose connector stretches into in the cup, the aircraft nose is held at the rim of a cup through holding portion overlap, the aircraft nose still includes the anti-overflow electrode that has stiff end and sense terminal, the stiff end is fixed in holding portion, the top of sense terminal is equipped with the cushion chamber, the cushion chamber by holding portion, lower cover lateral wall and cup lateral wall enclose to close and form.

Description

soymilk machine with good anti-overflow effect

Technical Field

The utility model relates to a small kitchen appliance, in particular to soymilk makers.

Background

The soymilk machine usually generates a large amount of foam when boiling soymilk, rich foam overflows from a cup body, consumers are easily scalded and the cleaning difficulty is increased, most soymilk machines are provided with an anti-overflow electrode on a machine head, when the foam touches the anti-overflow electrode, a motor and a heating pipe stop working, sections of time are stopped, the foam disappears, and the pulping step continues until the pulping work is completed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing soybean milk machines, this soybean milk machine's anti-overflow electrode is installed on the aircraft nose is taken and is held the portion, and the stiff end that implies is higher than the rim of a cup, and it is big to take the cushion chamber that portion, lower cover lateral wall and cup lateral wall enclose to form, can hold a large amount of thick liquid foam, and the anti-overflow is effectual, and the thick liquid foam of cushion chamber is whole can the direct contact air, and the radiating effect is good, and the defoaming is fast, reduces and spills over the probability, also accelerates slurrying speed simultaneously.

In order to realize the above-mentioned purpose, the utility model provides an soybean milk machines, include the cup and install the aircraft nose on the cup, the aircraft nose includes upper cover and lower cover, the upper cover with the lower cover encloses to close the installation intracavity that forms and installs the motor, the lower cover includes the lower cover base member and locates the tubulose connector of lower cover base member front end, the pivot of motor is run through the tubulose connector stretches into in the cup, the aircraft nose is held at the rim of a cup through holding portion overlap, the aircraft nose is still including the anti-overflow electrode that has stiff end and sense terminal, the stiff end is fixed in hold portion, the top of sense terminal is equipped with the cushion chamber, the cushion chamber by hold portion, lower cover lateral wall and cup lateral wall enclose to close and form.

, the lower cover base body comprises a convex part extending downwards and a flanging extending outwards, the flanging is the holding part, the tubular connecting body is located at the front end of the convex part, the buffer cavity is formed by enclosing the side wall of the convex part and the side wall of the cup body, the radial width of the buffer cavity is 10mm-20mm, and the detection end of the anti-overflow electrode is located below the front end face of the convex part.

, the vertical distance between the detecting end and the front end surface of the lower cover is not less than 3 mm.

, the distance from the detection end to the inner side wall of the cup body is not less than 8mm, or the distance from the detection end to the tubular connecting body is not less than 10mm, or the distance from the detection end to the tubular connecting body is a, the distance from the detection end to the side wall of the cup body is b, and a/b is not less than 1 and not more than 2.

, the lower cover base body is a connecting plate, the tubular connecting body is located in the central area of the connecting plate, the connecting plate is the lapping part, the buffer cavity is formed by enclosing the side wall of the tubular connecting body, the edge of the connecting plate and the side wall of the cup body, and the radial width of the buffer cavity is 20mm-50 mm.

And , arranging a transition support between the upper cover and the lower cover, fixing the lower cover base body on the bottom end face of the transition support, fixing the transition support and the upper cover, and arranging the transition support as the overlapping part.

, a through hole for the rotating shaft to pass through is arranged at the front end of the tubular connecting body, a sealing element is arranged between the through hole and the rotating shaft, a spring is further arranged in the tubular connecting body, and the spring in a compressed state compresses the sealing element.

, a protrusion is arranged on the top end face of the upper cover, the protrusion is provided with an accommodating cavity, and the rear end of the motor extends into the accommodating cavity.

, the tubular connecting body and the lower cover base body are separated, and the tubular connecting body is locked on the front end face of the lower cover base body through a screw.

, the inner diameter of the cup body is 50mm-120mm, or the tubular connecting body is cylindrical, and the outer diameter of the tubular connecting body is 10mm-20 mm.

The utility model discloses a soybean milk machine, the anti-overflow electrode is installed on taking holding the portion, the aircraft nose is taken holding the portion and is taken holding at the rim of a cup, mean that anti-overflow electrode stiff end is installed in the rim of a cup top, above the anti-overflow electrode detection end, take below holding the portion, and lower cover lateral wall and cup inner wall enclose to close and form the cushion chamber, because the thick liquid foam that thermal inertia produced gets into the cushion chamber, the anti-overflow electrode is installed and is greater than the same model and install the cushion chamber that the anti-overflow electrode formed at the step big in the cushion chamber that holds the portion formation, the cushion chamber is big more, the thick liquid foam that can. The thick liquid foam of cushion chamber is whole with air direct contact, and the radiating effect is good, and thick liquid foam cooling is fast, reduces thick liquid foam and overflows the probability for the slurrying process.

Additional features and advantages of the invention are described in the detailed description section.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification , which together with the following detailed description serve to explain the invention, but are not intended to limit the invention.

Fig. 1 is a schematic view of the whole structure of a soymilk maker according to an embodiment of the present invention.

Description of reference numerals:

1. a cup body; 2. a machine head; 21. an upper cover; 22. a lower cover; 221. a lower cap base; 222. a tubular connector; 23. a lapping part; 24. an anti-overflow electrode; 241. a fixed end; 242. a detection end; 3. an electric motor.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

In the present invention, unless otherwise indicated, use of the directional terms "upper, lower, top, side" and "lateral" are generally used in the orientation shown in the drawings or in the positional relationship of the components with respect to each other in the vertical, or gravitational direction.

Example :

as shown in fig. 1, the utility model provides an soybean milk machines, include cup 1 and install the aircraft nose 2 on the cup, aircraft nose 2 includes upper cover 21 and lower cover 22, upper cover 21 with lower cover 22 encloses to close the installation intracavity that forms and installs motor 3, the lower cover includes lower cover base member 221 and locates the tubulose connector 222 of lower cover base member 221 front end, motor 3's pivot is run through tubulose connector 222 stretches into in the cup, aircraft nose 2 is held at the rim of a cup through holding portion 23, the aircraft nose is still including the anti-overflow electrode 24 who has stiff end 241 and sense terminal 242, the stiff end 241 is fixed in hold portion 23, the top of sense terminal 242 is equipped with the cushion chamber, the cushion chamber by hold portion 23, lower cover 22 lateral wall and cup 1 lateral wall enclose to close and form.

The lower cover of the soymilk machine is provided with steps, the anti-overflow electrode is arranged on the steps, the anti-overflow electrode is completely positioned in the grinding cup, the upper part of the detection end of the anti-overflow electrode can be used as a buffer cavity for buffering the pulp foam, and the space of the buffer cavity is smaller due to the steps, so that the pulp foam is easy to overflow. And the step prevents partial pulp foam from contacting with air, the temperature of the pulp foam is difficult to reduce, the foam is not easy to break, and the probability of pulp foam overflow is increased. The utility model discloses a soybean milk machine, the anti-overflow electrode is installed on taking holding the portion, the aircraft nose is taken holding the portion and is taken holding at the rim of a cup, mean that anti-overflow electrode stiff end is installed in the rim of a cup top, above the anti-overflow electrode detection end, take below holding the portion, and lower cover lateral wall and cup inner wall enclose to close and form the cushion chamber, because the thick liquid foam that thermal inertia produced gets into the cushion chamber, the anti-overflow electrode is installed and is greater than the same model and install the cushion chamber that the anti-overflow electrode formed at the step big in the cushion chamber that holds the portion formation, the cushion chamber is big more, the thick liquid foam that can. The thick liquid foam of cushion chamber is whole with air direct contact, and the radiating effect is good, and thick liquid foam cooling is fast, reduces thick liquid foam and overflows the probability for the slurrying process.

Specifically, the lower cover base 221 includes a convex portion extending downward and a flange extending outward, the flange is the holding portion, the tubular connector is located at the front end of the convex portion, the buffer cavity is formed by enclosing the flange, the side wall of the convex portion and the side wall of the cup body, the radial width a of the buffer cavity is 10mm-20mm, and the detection end 242 of the anti-overflow electrode is located below the front end face of the convex portion.

For a small size machine with a small protrusion extending into a cup body, the protrusion is less far away from the inner side wall of the cup body, for a small size machine with a small inner diameter of the cup body, the protrusion is less far away from the inner side wall of the cup body, even no space for installing an anti-overflow electrode exists, if the lower cover is still provided with a step-shaped mounting seat, only a buffer space is narrower, the foam in the narrow space is not easy to break, and the adhesion phenomenon of the foam can occur when the distance between the lower cover and the inner wall is too close to the inner wall or the lower cover, the slurry generates foam, the foam touches the detection end of the anti-overflow electrode, a detection signal is transmitted to a control panel, the control panel controls a heating device and a motor to stop working, after the foam is eliminated, the detection end recovers to a high-level detection state, the control panel controls the motor and the heating device to continue working, for a small size machine with a small buffer cavity, the foam enters the space and is not easy to break, the foam in a large-area, the pulping work can be continued originally, but the detection end of the detection end is not connected with the inner wall of the lower cover and the detection end of the detection end, the detection end face of the anti-overflow electrode, the detection end is not extended, the detection end face of the detection end is not extended, and the detection of the detection end, the detection end face of the detection end, the detection end is not extended small size machine, the detection end, and the detection end, the detection end face of the detection end, the detection end face is not extended, the detection end face of the detection end, and the detection end face of the detection end, the detection end face of the detection.

Specifically, the vertical distance b from the detection end 242 to the front end face of the lower cover is not less than 3mm, the position of the detection end opposite to the side wall of the lower cover can retain foam, if the detection end is too close to the front end face of the lower cover, the foam slides down slightly under the action of gravity to touch the detection end, and in order to prevent the residual foam from being adhered to the detection end, the detection end needs to extend out of the front end face of the lower cover by a certain distance.

Specifically, the distance from the detection end 242 to the inner side wall of the cup body is not less than 8mm, and the distance from the detection end to the tubular connecting body is not less than 10 mm. The detection end is too close to the inner wall of the cup body, so that adhesion is easy to occur, and false anti-overflow phenomenon occurs after the cup body and the detection end are conducted by foam. The detection end stretches out the preceding terminal surface of convex part, and the detection end is located between cup inner wall and the tubulose connector, and when the distance of detection end and cup inner wall was not less than 8mm, can effectively prevent the production of adhesion phenomenon. The detection end is too close to the side wall of the tubular connector, and the adhesion is generated, so that the false anti-overflow phenomenon is generated.

The sealing element is rigidly connected with other abutting elements, the requirement on installation accuracy is higher, -denier rotation of the rotating shaft of the motor deviates, the sealing effect is greatly influenced, when the spring abuts against the sealing element, the rotating shaft deviates slightly immediately, and the self-adaptability of the spring can also ensure good sealing effect.

Specifically, the top terminal surface of upper cover is equipped with the arch, the arch has and holds the chamber, the rear end of motor stretches into hold the chamber. When the motor is in the aircraft nose inside, the motor radiating effect is poor, and the motor rear end stretches into in the arch of upper cover, and motor housing is great with bellied relative area, and the heat passes through in the protruding air that transmits, and motor operational environment is good, reducible motor loss, extension motor life-span.

The utility model discloses a tubular connector's top has the turn-ups, and the turn-ups locks with the preceding terminal surface of lower cover base member, tubular connector can with the shaping of lower cover body, also can be with the lower cover branch body, the utility model discloses a tubular connector's top has the turn-ups, and the turn-ups locks with the preceding terminal surface of lower cover base member with the screw.

Specifically, the inner diameter of the cup body is 50mm-120 mm; or the tubular connecting body is cylindrical, and the outer diameter of the tubular connecting body is 10mm-20 mm. The utility model discloses a scheme is better to the anti-overflow effect of small-size machine, and the present common small-size quick-witted cup internal diameter is about 50mm-120 mm. The outer diameter of the tubular connector is usually 10mm-20mm, the outer diameter is too small, the installation of the rotating shaft is not facilitated, the outer diameter is too large, more space in the cup body is occupied, the space is crushed, the heat dissipation is hindered by colleagues, and the cleaning area is also increased.

In addition, the lower cover base body is a connecting plate, the tubular connecting body is located in the central area of the connecting plate, the connecting plate is the lapping and holding portion, the buffer cavity is formed by enclosing the side wall of the tubular connecting body, the connecting plate and the side wall of the cup body, the radial width of the buffer cavity is 20mm-50mm, the lower cover of the existing soybean milk maker is not a traditional lower cover with a convex portion but plane plates, the whole plane plate is lapped and held above the cup opening, the motor is installed between the lower cover and the upper cover, the grinding space and the heat dissipation effect of the soybean milk are better than those of the traditional soybean milk, the buffer cavity of the soybean milk maker is larger than that of a lower cover maker with a convex portion, the anti-overflow effect is better, the buffer cavity formed by the plane plate maker is usually 20mm-50mm, the 20mm is a small-sized maker, and the 50mm is a conventional maker.

In addition, a transition support is arranged between the upper cover and the lower cover, the base body of the lower cover is fixed on the bottom end face of the transition support, the transition support is fixed with the upper cover, the transition support is the lapping and holding part, the lower cover is mostly metal, an installation hole is needed for installing the anti-overflow electrode, the installation hole is arranged on the metal lower cover, the metal lower cover is usually thin, and the installation hole is easy to deform, so that soybean milk makers exist, the anti-overflow electrode is installed on the plastic transition support, the diameter of the transition support is larger than that of a flanging at the top end of the lower cover, the flanging is fixed on the transition support, the transition support is locked with an upper cover screw, the installation hole is arranged on the transition support, and the fixed end of the anti-overflow electrode is connected with the installation hole in.

In addition, the distance from the detection end to the tubular connecting body is c, the distance from the detection end to the side wall of the cup body is d, and c/d is more than or equal to 1 and less than or equal to 2. After the sense terminal stretches out the preceding terminal surface of convex part, the sense terminal is located between tubulose connector and the cup lateral wall, current soybean milk machine, the sense terminal is close to the distance between the two, and the two ratio is about 1, the utility model discloses a behind the sense terminal stretches out the terminal surface before the convex part, the distance of sense terminal and tubulose connector is bigger, as long as guarantee that the distance of sense terminal to cup inner wall is not glutinous, the sense terminal just can not take place glutinous even to the tubulose connector, when the distance of sense terminal to tubulose connector is 2 times of the distance of sense terminal to cup inner wall, the spatial layout in the cup is most reasonable.

It should be emphasized that the scope of the present invention includes, but is not limited to, the above-mentioned embodiments, and it should be understood that various changes and modifications can be made by those skilled in the art without departing from the principle of the present invention, and these should also be construed as belonging to the scope of the present invention.

Claims (10)

1. The soybean milk maker comprises a cup body and a machine head arranged on the cup body, wherein the machine head comprises an upper cover and a lower cover, a motor is arranged in a mounting cavity formed by the upper cover and the lower cover in a surrounding mode, and the soybean milk maker is characterized in that the lower cover comprises a lower cover base body and a tubular connecting body arranged at the front end of the lower cover base body, a rotating shaft of the motor penetrates through the tubular connecting body and stretches into the cup body, the machine head is supported on a cup opening through a supporting portion, the machine head further comprises an anti-overflow electrode with a fixed end and a detection end, the fixed end is fixed on the supporting portion, a buffer cavity is arranged above the detection end, and the buffer cavity is formed by the supporting portion, the lower cover side wall and the cup side wall in a surrounding mode.
2. 2. The soymilk maker of claim 1, wherein: the lower cover base body comprises a convex portion extending downwards and a flanging extending outwards, the flanging is the lapping portion, the tubular connecting body is located at the front end of the convex portion, the buffer cavity is formed by encircling the flanging, the side wall of the convex portion and the side wall of the cup body, the radial width of the buffer cavity is 10mm-20mm, and the detection end of the anti-overflow electrode is located below the front end face of the convex portion.
3. 3. The soymilk maker of claim 2, wherein: the vertical distance from the detection end to the front end face of the lower cover is not less than 3 mm.
4. 4. The soymilk maker of claim 2, wherein: the distance from the detection end to the inner side wall of the cup body is not less than 8 mm; or

   The distance from the detection end to the tubular connecting body is not less than 10 mm; or

   The distance from the detection end to the tubular connecting body is a, the distance from the detection end to the side wall of the cup body is b, and a/b is more than or equal to 1 and less than or equal to 2.
5. 5. The soymilk maker of claim 1, wherein: the lower cover base body is a connecting plate, the tubular connecting body is located in the central area of the connecting plate, the connecting plate is the lapping and holding portion, the buffer cavity is formed by enclosing the side wall of the tubular connecting body, the connecting plate and the side wall of the cup body, and the radial width of the buffer cavity is 20mm-50 mm.
6. 6. The soymilk maker of claim 1, wherein: the transition support is arranged between the upper cover and the lower cover, the lower cover base body is fixed on the bottom end face of the transition support, the transition support is fixed with the upper cover, and the transition support is the lapping part.
7. 7. The soymilk machine according to any of claims 1-6, wherein the front end of the tubular connecting body is provided with a through hole for the rotating shaft to pass through, a sealing element is arranged between the through hole and the rotating shaft, a spring is also arranged in the tubular connecting body, and the spring in a compressed state presses the sealing element.
8. 8. The soymilk maker according to any of claims 1-6, wherein the top end surface of the upper cover is provided with a projection, the projection is provided with an accommodating cavity, and the rear end of the motor extends into the accommodating cavity.
9. 9. The soymilk machine as claimed in any of claims 1-6, wherein the tubular connecting body and the lower cover base body are separate pieces, and the tubular connecting body is locked on the front end surface of the lower cover base body through a screw.
10. 10. The soymilk machine as claimed in any of claims 1-6, wherein the inner diameter of the cup body is 50mm-120mm, or

    The tubular connecting body is cylindrical, and the outer diameter of the tubular connecting body is 10mm-20 mm.