CN208659042U - Nose assembly and soy bean milk making machine - Google Patents

Abstract

The utility model discloses a kind of nose assembly and soy bean milk making machine, wherein the nose assembly includes shell and motor, and the shell includes upper cover and the lower cover that connect with the upper cover, and the upper cover and lower cover form installation cavity, and the motor is installed in the installation cavity；A part close to the upper cover of the lower cover is formed as anti-overflow detection piece, and the anti-overflow detection piece is connect to the master control partitioned signal with soy bean milk making machine.Technical solutions of the utility model utilize the lower cover in existing shell, so that it may which the function of realizing anti-overflow detection does not need that anti-overflow detection probe is additionally arranged, simplifies the structure setting of nose assembly.

Description

Nose assembly and soy bean milk making machine

Technical field

The utility model relates to food processing technology field, in particular to a kind of nose assembly and the application nose assembly Soy bean milk making machine.

Background technique

Soya-bean milk has high nutritive value, is a kind of ideal healthy food.Gradually with the attention to health Reinforce, for clean hygiene, many families select one after another make by oneself soya-bean milk, soy bean milk making machine using more and more extensive.In production soya-bean milk During, it needs soy bean milk making machine to carry out whipping heating to food materials, when stirring or heating food, is easy to produce foam, the bubble Foam is easy to overflow from the rim of a cup of the cup body of soy bean milk making machine, so will affect the use of food cooking machine.Existing soy bean milk making machine it is anti-overflow An anti-overflow probe extended downwardly is generally arranged in mode out at head, and foam progress is perceived by the anti-overflow probe It is anti-overflow, however, the quantity that an anti-overflow probe will increase the component of head is separately provided in setting, increase production cost.Meanwhile It is not easy to the cleaning of nose assembly.

Utility model content

The main purpose of the utility model is to provide a kind of nose assembly, it is intended to simplify the anti-spilling structure of soy bean milk making machine, reduce Production cost, while making the nose assembly of soy bean milk making machine convenient for cleaning.

To achieve the above object, the utility model proposes nose assembly, be applied to soy bean milk making machine, the nose assembly includes Shell and motor, the shell include upper cover and the lower cover that connect with the upper cover, and the upper cover and lower cover form installation cavity, institute Motor is stated to be installed in the installation cavity；

A part close to the upper cover of the lower cover is formed as anti-overflow detection piece, the anti-overflow detection piece to beans The master control partitioned signal of pulp grinder connects.

Optionally, the lower cover includes anti-overflow shell and mounting cylinder, and the upper end of the mounting cylinder is fixedly connected with the upper cover, The anti-overflow valve jacket is set to outside the mounting cylinder, and the mounting cylinder is formed with step surface, the upper end of the anti-overflow shell and it is described on Lid connection, the lower end of the anti-overflow shell are connected to step surface, and the anti-overflow hull shape becomes anti-overflow detection piece.

Optionally, the anti-overflow shell and the mounting cylinder are metal material, between the anti-overflow shell and the step surface It is arranged equipped with insulating sealer, and with mounting cylinder interval.

Optionally, the anti-overflow shell is metal material, and the mounting cylinder is non-metallic material.

Optionally, the lower cover includes anti-overflow shell and mounting cylinder, and the anti-overflow shell is fixedly connected with the upper cover, the peace Fitted tube is connect with the anti-overflow shell away from one end of the upper cover, and the anti-overflow hull shape becomes the anti-overflow detection piece.

Optionally, the anti-overflow shell is metal material, and the mounting cylinder is non-metallic material, the anti-overflow shell and the master Control partitioned signal connection.

Optionally, the anti-overflow shell and the mounting cylinder integrated injection molding.

Optionally, the anti-overflow shell and the mounting cylinder are metal material, the anti-overflow shell and the master control partitioned signal The junction of connection, the anti-overflow shell and the mounting cylinder is equipped with insulating sealer.

Optionally, the insulating sealer is annular setting, and the lower end bending of the anti-overflow shell is equipped with the first flange, described The upper end bending of mounting cylinder is equipped with the second flange, and first flange and second flange overlap, the insulating sealer quilt It is held between first flange and the second flange.

Optionally, the insulating sealer is annular setting, and the upper surface of the insulating sealer is equipped with the first slot, institute The lower surface for stating insulating sealer is equipped with the second slot, and the lower end of the anti-overflow shell is plugged in first slot, the installation The upper end of cylinder is plugged in second slot.

Optionally, it is equipped with fixed glue in first slot and in the second slot, the lower end of the anti-overflow shell is plugged in First slot, and be fixedly connected by the fixed glue with the cell wall of first slot；It inserts the upper end of the mounting cylinder It is connected to second slot, is fixedly connected by the fixed glue with the cell wall of second slot.

Optionally, defining the width distance between the upper surface and lower surface of the insulating sealer is W1,3mm≤W1 ≤10mm。

Optionally, the material of the insulating sealer is plastic cement, silica gel or ceramic material.

The utility model also provides a kind of soy bean milk making machine, including main body, cup body and nose assembly, and the nose assembly includes Shell and motor, the shell include upper cover and the lower cover that connect with the upper cover, and the upper cover and lower cover form installation cavity, institute Motor is stated to be installed in the installation cavity；A part close to the upper cover of the lower cover is formed as anti-overflow detection piece, described Anti-overflow detection piece is connect to the master control partitioned signal with soy bean milk making machine；The cup body is set in the main body, the nose assembly Shell be buckled on the cup body upper end rim of a cup, the upper cover blocks the rim of a cup, and the soy bean milk making machine further includes master control borad, The anti-overflow detection piece of the nose assembly is connect with the master control partitioned signal.

Optionally, the lower side and the distance between the rim of a cup for defining the anti-overflow detection piece are H, 5mm≤H≤ 100mm。

Optionally, the outer wall of the lower end of the cup body is provided with heating device.

Optionally, the lower end of the cup body shrinks to form protrusion, defines the upper of the inner sidewall of the protrusion and the cup body Holding the distance between inner sidewall of not contracted part is W2,5mm≤W2≤30mm.

Optionally, the heating device is set to the lateral wall of the protrusion；

And/or the heating device is set to the exterior bottom wall of the protrusion.

Optionally, heat-conducting piece is additionally provided between the heating device and the cup body, the heat-conducting piece includes being connected The first heat-conducting part and the second heat-conducting part, first heat-conducting part is covered on the side wall of the cup body, the second heat-conducting part patch It is overlying on the bottom wall of the cup body.

Optionally, the bottom wall of protrusion described in the second heat-conducting part covered section；

Alternatively, second heat-conducting part coats the bottom wall of the entire protrusion.

Optionally, second heat-conducting part is in the projection of horizontal plane in circular ring shape or circle.

Optionally, second heat-conducting part is connected with temperature controller, and the temperature controller and the master control borad are electrically connected.

Optionally, the soy bean milk making machine further includes dismembyator, and the dismembyator is fixed on the lower cover away from the upper cover One end, the dismembyator, which is formed, beats space, and one end of the transmission shaft of the motor passes through the lower cover, and is equipped with stirring blade Component, the mixing blade assembly are located in the whipping space.

Optionally, the outer wall of the lower end of the lower cover is provided with swivelling chute, and the dismembyator is provided with connected structure, described Connected structure is inserted into the swivelling chute, and is rotated in the swivelling chute；

Alternatively, the dismembyator is structure as a whole with the lower cover.

Optionally, define the distance between the outer peripheral edge of the dismembyator and the inner sidewall of the cup body be W3,5mm≤ W3≤30mm。

Optionally, defining the height distance between the lower edge of the dismembyator and the inner bottom wall of the cup body is H2,5mm ≤H2≤30mm。

Optionally, sealing ring is equipped between the upper cover and the cup body.

Technical solutions of the utility model are by being formed as anti-overflow detection for a part in the lower cover of the shell of nose assembly Part, specifically, a part of region of the lower cover can be arranged to conductive anti-overflow detection piece, so that when part foam contact should When anti-overflow detection piece in lower cover, signal is passed to the master control borad of soy bean milk making machine, the heating device for controlling soy bean milk making machine reduces heating Power stops heating work, and then no longer generates foam, prevents foam overflow cup body.After the removal of foam, anti-overflow detection piece Signal is fed back into master control borad, master control borad control heating device is heated again, worked repeatedly, until heat foods It is extremely ripe.In this way, utilizing the lower cover in existing shell, so that it may which the function of realizing anti-overflow detection does not need additionally to be arranged anti-overflow Detection probe simplifies the structure setting of nose assembly.Meanwhile because not needing that anti-overflow detection probe is arranged, that is, it may make the machine The cleaning of head assembly is more convenient.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the cross-sectional view of one embodiment of the utility model soy bean milk making machine；

Fig. 2 is the partial enlarged view in Fig. 1 at A；

Fig. 3 is the cross-sectional view of another embodiment of the utility model soy bean milk making machine；

Fig. 4 is the partial enlarged view in Fig. 3 at B；

Fig. 5 is the cross-sectional view of the another embodiment of the utility model soy bean milk making machine；

Fig. 6 is the partial enlarged view in Fig. 5 at C；

Fig. 7 is the cross-sectional view of the utility model soy bean milk making machine another embodiment.

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In the present invention unless specifically defined or limited otherwise, term " connection ", " fixation " etc. should do broad sense reason Solution, for example, " fixation " may be a fixed connection, may be a detachable connection, or integral；It can be mechanical connection, it can also To be electrical connection；It can be directly connected, the connection inside two elements can also be can be indirectly connected through an intermediary Or the interaction relationship of two elements, unless otherwise restricted clearly.It for the ordinary skill in the art, can be with The concrete meaning of above-mentioned term in the present invention is understood as the case may be.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and cannot manage Solution is its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include at least one of the features.In addition, the skill between each embodiment Art scheme can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when technical solution It will be understood that the combination of this technical solution is not present in conjunction with there is conflicting or cannot achieve when, also not in the utility model It is required that protection scope within.

The utility model proposes a kind of nose assemblies 100, are applied to soy bean milk making machine 900.

Referring to figs. 1 to 7, in the utility model embodiment, which includes shell 10 and motor 30, shell 10 include upper cover 11 and the lower cover 13 connecting with upper cover 11, and upper cover 11 and lower cover 13 form installation cavity, and motor 30 is installed on installation It is intracavitary；A part close to the upper cover 11 of lower cover 13 is formed as anti-overflow detection piece, anti-overflow detection piece to soy bean milk making machine 900 301 signal of master control borad connection.

Its working principle for generating signal are as follows: be electrically connected in anti-overflow detection piece and master control borad 301 by connection cables, together When the connection cables and zero curve form circuit.When part foam contacts anti-overflow detection piece, voltage is generated at the anti-overflow detection piece Thus variation generates control signal to master control borad 301, then master control borad 301 issues instruction, and heating device 503 stops heating. As long as foam is ined succession always with anti-overflow detection piece.The soy bean milk making machine 900 is not heat or be constantly in always low-power heating.

Technical solutions of the utility model are by being formed as anti-for a part in the lower cover 13 of the shell 10 of nose assembly 100 Overflow detection piece, specifically, a part of region of the lower cover 13 can be arranged to conductive anti-overflow detection piece, so that when part is steeped When foam contacts the anti-overflow detection piece in the lower cover 13, signal is passed to the master control borad 301 of soy bean milk making machine 900, controls soy bean milk making machine 900 Heating device 503 reduce heating power or stop heating work, and then no longer generate foam, prevent foam overflow cup body 500. After the removal of foam, signal is fed back to master control borad 301 by anti-overflow detection piece, and master control borad 301 controls heating device 503 and added again Heat works repeatedly, until heat foods are to ripe.In this way, utilizing the lower cover 13 in existing shell 10, so that it may real The function of existing anti-overflow detection, does not need that anti-overflow detection probe is additionally arranged, simplifies the structure setting of nose assembly 100.Meanwhile Because not needing that anti-overflow detection probe is arranged, that is, it may make the cleaning of the nose assembly 100 more convenient.

Be understood that still, the part that anti-overflow detection piece is arranged in lower cover 13 is disposed proximate to upper cover 11, be in order to It realizes the purpose for increasing processing space, prevents the anti-overflow detection piece from stretching to too deep in the cup body 500 of soy bean milk making machine 900 and leading to shadow Processing space is rung, the processing efficiency of food is improved.

The shape of upper cover 11 and lower cover 13 in the application is arranged according to specific demand, can be used therebetween detachable The mode being fixedly connected, such as buckle, screw or screws fixed mode and connects.Upper cover 11 can be with away from the surface of lower cover 13 Handle ring is set, nose assembly 100 is conveniently lifted.

Referring to figs. 1 to Fig. 2, in the embodiment of the application, lower cover 13 includes anti-overflow shell 131 and mounting cylinder 133, installation The upper end of cylinder 133 is fixedly connected with the upper cover 11, and anti-overflow shell 131 is sheathed on outside mounting cylinder 133, and mounting cylinder 133 is formed with platform Terrace, the upper end of anti-overflow shell 131 are connect with the upper cover 11, and the lower end of anti-overflow shell 131 is connected to step surface, anti-overflow 131 shape of shell As anti-overflow detection piece.That is, entire mounting cylinder 133 is directly connect with upper cover 11, mounting cylinder 133 is arranged in anti-overflow shell 131 Periphery, and it is connected to step surface and upper cover 11, in this way, the installation of anti-overflow shell 131 can be facilitated.

Further, anti-overflow shell 131 and mounting cylinder 133 are metal material, are equipped between anti-overflow shell 131 and step surface exhausted Edge sealing element 15, and be spaced and be arranged with mounting cylinder 133.Anti-overflow shell 131 and mounting cylinder 133 are metal material, can be conveniently clear It washes, mounting cylinder 133 and anti-overflow shell 131 are connected in order to prevent, are arranged insulating sealer 15, and by anti-overflow shell 131 and mounting cylinder 133 are intervally arranged.

Certainly, when anti-overflow shell 131 is metal material, and mounting cylinder 133 is non-metallic material, it may not be necessary to be arranged above-mentioned Insulating sealer 15, anti-overflow shell 131 can also paste the outside wall surface with mounting cylinder 133.

Referring to Fig. 3 to Fig. 7, in another embodiment of the application, lower cover 13 includes anti-overflow shell 131 and mounting cylinder 133, is prevented The shell 131 that overflows is fixedly connected with upper cover 11, and mounting cylinder 133 is connect with anti-overflow shell 131 away from one end of the upper cover 11, anti-overflow shell 131 are formed as anti-overflow detection piece.

By the way that lower cover 13 to be arranged to two parts of segmentation, top is divided into anti-overflow shell 131, which can be made Conductive metalwork so facilitates the lower cover 13 for processing the nose assembly 100 to form anti-overflow detection piece.The anti-overflow shell 131 and the shape of mounting cylinder 133 can be set according to specific requirements, during installation, motor 30 is mainly fixedly mounted on mounting cylinder 133, anti-overflow shell 131 is detachably fixed with upper cover 11 to be connect.

When the lower cover 13 is arranged, the following two kinds mode can be used:

Mode one: anti-overflow shell 131 be metal material, mounting cylinder 133 be non-metallic material, the anti-overflow shell 131 with it is described The connection of 301 signal of master control borad.Anti-overflow shell 131 is metal material, to realize the function of anti-overflow detection, mounting cylinder 133 is non-gold Belong to material, 133 error detection of mounting cylinder can be prevented, generates the anti-overflow signal of mistake.The metal material can for 304 stainless steels or its His alloy material, it is to be understood that consider the safety of food processing, those skilled in the art can exclude it is some may be right Food generates the metal material of pollution.

Further, 133 integrated injection molding of anti-overflow shell 131 and mounting cylinder.By by mounting cylinder 133 and anti-overflow shell 131 Integrated injection molding, so that the processing and assembly of anti-overflow shell 131 and mounting cylinder 133 are more convenient.

Referring to Fig. 4 and Fig. 6, mode two: anti-overflow shell 131 and mounting cylinder 133 are metal material, anti-overflow shell 131 and installation The junction of cylinder 133 is equipped with insulating sealer 15.

By being metal material by anti-overflow shell 131 and mounting cylinder 133, the cleaning to lower cover 13 can be facilitated.To prevent from pacifying Therefore 133 error detection of fitted tube, the anti-overflow signal for generating mistake separate anti-overflow shell 131 and mounting cylinder 133, absolutely by one Edge sealing element 15 can separate the two.It, can be by the company of anti-overflow shell 131 and mounting cylinder 133 meanwhile by the insulating sealer 15 The place of connecing is sealed, and prevents food, liquid or steam from entering in shell 10 from the junction of the two.

Anti-overflow shell 131 is carried out installation with mounting cylinder 133 for convenience to dock, the application can be used following two kinds of setting and set Set mode:

Referring to Fig. 6, set-up mode one: insulating sealer 15 is annular setting, and the lower end bending of anti-overflow shell 131 is equipped with first Flange 1311, the upper end bending of mounting cylinder 133 are equipped with the second flange 1331, and the first flange 1311 and the second flange 1331 overlap, Insulating sealer 15 is held between first flange 1311 and the second flange 1331.

By the setting of the first flange 1311 and the second flange 1331, facilitate the connection of mounting cylinder 133 and anti-overflow shell 131. It is understood that first flange 1311 and the second flange 1331 be to cooperate, the direction of bending towards the same side, To realize overlapped function.Further, first flange 1311 and the second flange 1331 can also surround is arranged in a ring, Connection to realize the first flange 1311 and the second flange 1331 is more firm.

Referring to Fig. 4, set-up mode two: insulating sealer 15 is annular setting, and the upper surface of insulating sealer 15 is equipped with the The lower surface of one slot 151, insulating sealer 15 is equipped with the second slot 153, and the lower end of anti-overflow shell 131 is plugged in the first slot 151, the upper end of mounting cylinder 133 is plugged in the second slot 153.

By the way that the first slot 151 and the second slot 153 is arranged in insulating sealer 15, so that anti-overflow shell 131 and mounting cylinder 133 can be plugged in the opposite upper and lower surface of insulating sealer 15.The shape of first slot 151 and the second slot 153 can be Annular can also be one section in annular, as long as can be by the upper end grafting of the lower end of anti-overflow shell 131 and mounting cylinder 133.Into One step, in order to make anti-overflow shell 131 lower end and the upper end of mounting cylinder 133 and the grafting of insulating sealer 15 it is more stable, It is equipped with fixed glue in one slot 151 and in the second slot 153, the lower end of anti-overflow shell 131 is plugged in the first slot 151, and leads to Fixed glue is crossed to be fixedly connected with the cell wall of the first slot 151；The upper end of mounting cylinder 133 is plugged in the second slot 153, by solid Determine glue to be fixedly connected with the cell wall of the second slot 153.

By the setting of fixed glue, enable the lower end of anti-overflow shell 131 with the upper end of mounting cylinder 133 respectively at corresponding The cell wall gluing of first slot 151 and the second slot 153 is fixed, so that the stable connection between three, while but also two-by-two It is seamless between the junction of component, prevent steam and food from entering in shell 10.

Further, in order to enable having between the upper end and insulating sealer 15 of the lower end of anti-overflow shell 131 and mounting cylinder 133 Enough installation spaces, defining the width distance between the upper surface and lower surface of the insulating sealer 15 is W1,3mm≤W1 ≤10mm.That is, the insulation ring width may make that the depth of the first slot 151 and the second slot 153 is sufficient when being more than or equal to 3mm It is enough, so that the connection between anti-overflow shell 131 and mounting cylinder 133 and insulating sealer 15 is more convenient, meanwhile, also make The connection obtained between component two-by-two is more firm.And in order to save installation material, by the upper surface of insulating sealer 15 and following table Width distance between face is set smaller than 10mm.

In the embodiment of the application, the material of insulating sealer 15 is plastic cement, silica gel or ceramic material.

Plastic cement or silica gel material can be used in insulating sealer 15, while to consider food safety grade, and use is nontoxic Plastic cement or silica gel.Plastic cement or silica gel material facilitate processing, while materials also facilitate.The intensity of ceramic material is higher, uses the longevity It orders longer.Therefore, the material of insulating sealer 15 can be selected in above-mentioned thrin.

In conjunction with referring to Figure 1 to Figure 7, the utility model also proposes a kind of soy bean milk making machine 900, which includes head group Part 100, the specific structure of the nose assembly 100 is referring to above-described embodiment, since this soy bean milk making machine 900 uses above-mentioned all implementations Whole technical solutions of example, therefore at least all beneficial effects brought by the technical solution with above-described embodiment, herein not It repeats one by one again.

Soy bean milk making machine 900 further includes main body 300 and cup body 500, and cup body 500 is set in the main body 300, head group The shell 10 of part 100 is buckled on the rim of a cup 501 of the upper end of cup body 500, and upper cover 11 blocks rim of a cup 501, is additionally provided in main body 300 The anti-overflow detection piece of master control borad 301, nose assembly 100 is connect with 301 signal of master control borad.

When part foam contacts the anti-overflow detection piece in the lower cover 13, signal is passed to the master control borad of soy bean milk making machine 900 301, the heating device 503 of control soy bean milk making machine 900 reduces heating power or stops heating work, and then no longer generates foam, prevents Only foam overflow cup body 500.After the removal of foam, signal is fed back to master control borad 301 by anti-overflow detection piece, and master control borad 301 controls Heating device 503 is heated again, is worked repeatedly, until heat foods are to ripe.In this way, utilizing existing shell 10 In lower cover 13, so that it may the function of realizing anti-overflow detection does not need that anti-overflow detection probe is additionally arranged, simplifies nose assembly 100 structure setting.Meanwhile because not needing that anti-overflow detection probe is arranged, that is, it may make the cleaning of the nose assembly 100 more It is convenient.

In conjunction with referring to Fig. 3 and Fig. 4, in the embodiment of the application, the lower side and rim of a cup 501 of anti-overflow detection piece are defined The distance between be H, 5mm≤H≤100mm.When anti-overflow detection piece is arranged, if by the lower side and rim of a cup of anti-overflow detection piece 501 hypotelorism, then after forming anti-overflow signal, the food of heating can also overflow rim of a cup 501 because of inertia, therefore, H setting For more than or equal to 5mm, to realize anti-overflow pre- judgement.But as long as the lower side of anti-overflow detection piece detects that foam can be formed Anti-overflow signal, soy bean milk making machine 900 will reduce heating power or stop heating, and the space efficiency utilization of cup body 500 can be made to reduce. Therefore, H is set smaller than equal to 100mm, to promote the space efficiency utilization in cup body 500.

In the embodiment of the application, the outer wall of the lower end of cup body 500 is provided with heating device 503.Pass through the heating Device 503 can realize the heating to the food in cup body 500.There are two types of specific heating methods:

Embodiment one: the heating device 503 is electric resistance heating assembly, which includes resistance heating pipe.It is logical Cross the food in resistance heating tube heating cup body 500.

Embodiment two: the heating device 503 is electromagnetic heating component.Generally comprise magnetic conductive disk and coil panel.Magnetic conductive disk one As can be made into integration by magnetic conductive metal material for the stainless steel disc of magnetic conduction, for example be made of 430 stainless steels or cast iron.Certainly Magnetic conductive disk can also the disk body made of the un-conducted magnetic materials such as ceramics, and be attached to disk body bottom surface magnetic conductive film constitute.Coil Disk carries out electromagnetic heating to the magnetic conductive disk, to heat to the liquid in cup body 500.

Magnetic conductive disk is heated by way of electromagnetic heating, the coil panel service life is long, thus safeguards that replacement cost is low.Together When, it is acted on and being generated heat using high-frequency electromagnetic, heat utilization is abundant, substantially without scattering and disappearing, so that heat is gathered in magnetic conductive disk.Magnetic conductive disk Interior molecules directly incude magnetic energy and heat, thermal starting are very fast, while the thermal efficiency is up to 90% or more, substantially increases heating Efficiency.

In conjunction with reference Fig. 3 and Fig. 4, in the embodiment of the application, when cup body 500 is arranged, the lower end of cup body 500 Contraction forms protrusion 505, define between the inner sidewall of the not contracted part in upper end of the inner sidewall and cup body 500 of protrusion 505 away from From for W2,5mm≤W2≤30mm.

So set, the lower end of cup body 500 is made to shrink to form protrusion 505, in processing when food materials, enable solid-state food materials It is enough to assemble in the protrusion 505, so that the processing stirring of food materials is more abundant.While in order to make to store up in cup body 500 More liquid are deposited, therefore, set not contracted for 500 upper end of cup body.If distance between the two is excessive, solid-state food materials Processing space is too small, if the distance between the two is too small, the liquid food materials that cup body 500 integrally stores are very few, therefore, by the two it Between distance W2 be set as 5mm to 30mm, to meet process requirements.It should be understood that the cross-sectional shape of the protrusion 505 It can be the U-shaped with arc curve taper or rectangle that perhaps diameter reduces.

When the device is arranged, referring to Fig.1, Fig. 3 and Fig. 5, heating device 503 is set to the lateral wall of protrusion 505；Referring to figure 7, and/or, heating device 503 is set to the exterior bottom wall of protrusion 505.

That is, the heating device 503 can be arranged around the lateral wall of protrusion 505.It may also be arranged on the outer bottom of protrusion 505 Wall can also be respectively provided with heating device 503 in the lateral wall and exterior bottom wall of protrusion 505, to add to the food materials in cup body 500 Heat.

In order to enhance the heating conduction between heating device 503 and cup body 500, enable food materials in cup body 500 more It is processed well, is additionally provided with heat-conducting piece 507 between heating device 503 and cup body 500, heat-conducting piece 507 includes the to be connected One heat-conducting part 5071 and the second heat-conducting part 5073, the first heat-conducting part 5071 are covered on the side wall of the cup body 500, the second heat-conducting part 5073 are covered on the bottom wall of cup body 500.

By the setting of the first heat-conducting part 5071 and the second heat-conducting part 5073, so in the use process of soy bean milk making machine 900, The heat that heating device 503 generates is by heat-conducting piece 507 by the side wall and bottom wall of cup body 500 simultaneously to the food materials in cup body 500 It is heated, the food materials in cup body 500 are heated more uniform, and food materials heating is rapidly, so that the heating effect of soy bean milk making machine 900 is aobvious It writes and is promoted.

In this application, the bottom wall of protrusion 505 described in 5073 covered section of the second heat-conducting part；Alternatively, the second heat-conducting part 5073 coat the bottom wall of the entire protrusion 505.

It further may be configured as, the second heat-conducting part 5073 is in circular ring shape or circle in the projection of horizontal plane.

In the first structure type, the second heat-conducting part 5073 is in circular ring shape, the second heat-conducting part in the projection of horizontal plane The bottom wall of 5073 covered section protrusions 505, in second of structure type, the second heat-conducting part 5073 in horizontal plane projection in circle Shape, the second heat-conducting part 5073 coat the bottom wall of entire protrusion 505.The first structure type of the application heat-conducting piece 507, so that leading While warmware 507 can conduct even heat to protrusion 505, the structure of heat-conducting piece 507 is simpler, and cost of manufacture is lower, And second of structure type of heat-conducting piece 507, so that the heating surface (area) (HS of protrusion 505 is wider, heat transfer more evenly, and is heated It is more efficient.

Further, the application is connected with temperature controller 305 in the second heat-conducting part 5073, to realize to heating device 503 Temperature detected and perhaps monitored wherein temperature controller 305 and be also possible to the elements such as thermistor or fuse.By will be warm It controls device 305 to be arranged in the second heat-conducting part 5073, then temperature controller 305 is installed on 900 bottom of soy bean milk making machine, so can reduce cup body 500 and soy bean milk making machine 900 cover at the gap between the main body 300 outside cup body 500, can so reduce soy bean milk making machine 900 Volume rationally utilizes space.

Referring to Fig.1, in the embodiment of the application, soy bean milk making machine 900 further includes dismembyator 303, institute by Fig. 3, Fig. 5 and Fig. 7 It states dismembyator 303 and is fixed on one end that the lower cover 13 deviates from the upper cover 11, the dismembyator 303, which is formed, beats space, institute The one end for stating the transmission shaft 31 of motor 30 passes through the lower cover 13, and is equipped with mixing blade assembly 33, the mixing blade assembly 33 In in the whipping space.Dismembyator 303 plays flow-disturbing effect in whipping process, to promote the mixing effect of soy bean milk making machine 900, Solid-state food materials and liquid food materials are beaten flooding wherein mixing, and stirring blade rotates in the whipping space of dismembyator 303, so that food Material comes into full contact with stirring blade and dismembyator 303, is promoted and beats effect.

When installing and connecting dismembyator 303 in lower cover 13, can be used such as under type, the outer wall setting of the lower end of lower cover 13 There is a swivelling chute, dismembyator 303 is provided with connected structure, and connected structure is inserted into swivelling chute, and in rotating in swivelling chute.

In this way, can also further enhance flow-disturbing effect from rotation is generated when dismembyator 303 and food materials contact, promote food materials Whipping effect.

Certainly, in another connection type, dismembyator 303 is structure as a whole with lower cover 13.Dismembyator 303 and lower cover 13 are structure as a whole, and facilitate the installation and assembly of dismembyator 303 Yu lower cover 13.

Referring to Fig. 4, further, defining the distance between the outer peripheral edge of dismembyator 303 and the inner sidewall of cup body 500 is W3,5mm≤W3≤30mm.If the distance between the outer peripheral edge of dismembyator 303 and the inner sidewall of cup body 500 are narrow, it is less than 5mm, It is easy to produce the effect of clamping food materials, is unfavorable for the whipping of food materials.And if it is wide, be greater than 30mm, then food materials whipping effect drop It is low, therefore 5mm is set as between 30mm.

Further, defining the height distance between the lower edge of dismembyator 303 and the inner bottom wall of cup body 500 is H2,5mm ≤H2≤30mm.If the height between the lower edge of dismembyator 303 and the inner bottom wall of cup body 500 is too small, it is less than 5mm, it is same to hold Be also easy to produce the effect of clamping food materials, and if it is excessively high, be greater than 30mm, then the whipping effect of food materials reduces, therefore is set as 5mm extremely Between 30mm.

In order to promote the sealing performance of cup body 500 Yu nose assembly 100, sealing ring is equipped between upper cover 11 and cup body 500 700.Rubber and silica gel material can be used in the sealing ring 700.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes It changes, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (27)

1. a kind of nose assembly is applied to soy bean milk making machine, which is characterized in that the nose assembly includes shell and motor, the shell Body includes upper cover and the lower cover that connect with the upper cover, and the upper cover and lower cover form installation cavity, and the motor is installed on described In installation cavity；

A part close to the upper cover of the lower cover is formed as anti-overflow detection piece, the anti-overflow detection piece to soy bean milk making machine Master control partitioned signal connection.

2. nose assembly as described in claim 1, which is characterized in that the lower cover includes anti-overflow shell and mounting cylinder, the peace The upper end of fitted tube is fixedly connected with the upper cover, and the anti-overflow valve jacket is set to outside the mounting cylinder, and the mounting cylinder is formed with platform The upper end of terrace, the anti-overflow shell is connect with the upper cover, and the lower end of the anti-overflow shell is connected to step surface, the anti-overflow hull shape As anti-overflow detection piece.

3. nose assembly as claimed in claim 2, which is characterized in that the anti-overflow shell and the mounting cylinder are metal material Matter is equipped with insulating sealer, and is arranged with mounting cylinder interval between the anti-overflow shell and the step surface.

4. nose assembly as claimed in claim 2, which is characterized in that the anti-overflow shell is metal material, and the mounting cylinder is Non-metallic material.

5. nose assembly as described in claim 1, which is characterized in that the lower cover includes anti-overflow shell and mounting cylinder, described anti- The shell that overflows is fixedly connected with the upper cover, and the mounting cylinder is connect with the anti-overflow shell away from one end of the upper cover, described anti-overflow Hull shape becomes the anti-overflow detection piece.

6. nose assembly as claimed in claim 5, which is characterized in that the anti-overflow shell is metal material, and the mounting cylinder is Non-metallic material, the anti-overflow shell are connect with the master control partitioned signal.

7. nose assembly as claimed in claim 6, which is characterized in that the anti-overflow shell and the mounting cylinder integrated injection molding at Type.

8. nose assembly as claimed in claim 5, which is characterized in that the anti-overflow shell and the mounting cylinder are metal material Matter, the anti-overflow shell are connect with the master control partitioned signal, and the junction of the anti-overflow shell and the mounting cylinder is equipped with insulated enclosure Part.

9. nose assembly as claimed in claim 8, which is characterized in that the insulating sealer is annular setting, described anti-overflow The lower end bending of shell is equipped with the first flange, and the upper end bending of the mounting cylinder is equipped with the second flange, first flange with it is described Second flange overlap joint, the insulating sealer are held between first flange and the second flange.

10. nose assembly as claimed in claim 8, which is characterized in that the insulating sealer is annular setting, the insulation The upper surface of sealing element is equipped with the first slot, and the lower surface of the insulating sealer is equipped with the second slot, under the anti-overflow shell End is plugged in first slot, and the upper end of the mounting cylinder is plugged in second slot.

11. nose assembly as claimed in claim 10, which is characterized in that be equipped in first slot and in the second slot Fixed glue, the lower end of the anti-overflow shell is plugged in first slot, and passes through the slot of the fixed glue and first slot Wall is fixedly connected；The upper end of the mounting cylinder is plugged in second slot, passes through the fixed glue and second slot Cell wall is fixedly connected.

12. nose assembly as claimed in claim 10, which is characterized in that define upper surface and the following table of the insulating sealer Width distance between face is W1,3mm≤W1≤10mm.

13. the nose assembly as described in any in claim 3,8 to 12, which is characterized in that the material of the insulating sealer For plastic cement, silica gel or ceramic material.

14. a kind of soy bean milk making machine, which is characterized in that including main body, cup body and the head as described in any in claim 1 to 13 Component, the cup body are set in the main body, and the shell of the nose assembly is buckled on the rim of a cup of the upper end of the cup body, institute It states upper cover and blocks the rim of a cup, the soy bean milk making machine further includes master control borad, the anti-overflow detection piece of the nose assembly and the master control Partitioned signal connection.

15. soy bean milk making machine as claimed in claim 14, which is characterized in that define the lower side and the cup of the anti-overflow detection piece The distance between mouth is H, 5mm≤H≤100mm.

16. soy bean milk making machine as claimed in claim 14, which is characterized in that the outer wall of the lower end of the cup body is provided with heating dress It sets.

17. soy bean milk making machine as claimed in claim 16, which is characterized in that the lower end of the cup body shrinks to form protrusion, defines institute Stating the distance between the inner sidewall of protrusion and the inner sidewall of the not contracted part in upper end of the cup body is W2,5mm≤W2≤30mm.

18. soy bean milk making machine as claimed in claim 17, which is characterized in that the heating device is set to the lateral wall of the protrusion；

And/or the heating device is set to the exterior bottom wall of the protrusion.

19. soy bean milk making machine as claimed in claim 18, which is characterized in that be additionally provided between the heating device and the cup body Heat-conducting piece, the heat-conducting piece include the first heat-conducting part and the second heat-conducting part being connected, and first heat-conducting part is covered on described The side wall of cup body, second heat-conducting part are covered on the bottom wall of the cup body.

20. soy bean milk making machine as claimed in claim 19, which is characterized in that the bottom of protrusion described in the second heat-conducting part covered section Wall；

Alternatively, second heat-conducting part coats the bottom wall of the entire protrusion.

21. soy bean milk making machine as claimed in claim 20, which is characterized in that second heat-conducting part is in annulus in the projection of horizontal plane Shape or circle.

22. soy bean milk making machine as claimed in claim 20, which is characterized in that second heat-conducting part is connected with temperature controller, the temperature It controls device and the master control borad is electrically connected.

23. the soy bean milk making machine as described in any in claim 14 to 22, which is characterized in that the soy bean milk making machine further includes dismembyator, The dismembyator is fixed on one end that the lower cover deviates from the upper cover, and the dismembyator, which is formed, beats space, the motor it One end of transmission shaft passes through the lower cover, and is equipped with mixing blade assembly, which is located in the whipping space.

24. soy bean milk making machine as claimed in claim 23, which is characterized in that the outer wall of the lower end of the lower cover is provided with swivelling chute, The dismembyator is provided with connected structure, and the connected structure is inserted into the swivelling chute, and is rotated in the swivelling chute；

Alternatively, the dismembyator is structure as a whole with the lower cover.

25. soy bean milk making machine as claimed in claim 24, which is characterized in that define the dismembyator outer peripheral edge and the cup body The distance between inner sidewall is W3,5mm≤W3≤30mm.

26. soy bean milk making machine as claimed in claim 23, which is characterized in that define the lower edge and the cup body of the dismembyator Height distance between inner bottom wall is H2,5mm≤H2≤30mm.

27. the soy bean milk making machine as described in any in claim 14 to 22, which is characterized in that set between the upper cover and the cup body There is sealing ring.