CN205458126U - Anti-overflow device and food processor - Google Patents

Abstract

The utility model provides an anti-overflow device, include: the anti-overflow device comprises an anti-overflow electrode, a first single chip microcomputer and a second single chip microcomputer, wherein the first single chip microcomputer is connected with the anti-overflow electrode, so that the first single chip microcomputer can generate an anti-overflow signal according to an electric signal detected by the anti-overflow electrode, and the second single chip microcomputer is connected with the first single chip microcomputer, so that the second single chip microcomputer can perform anti-overflow processing according to the anti-overflow signal. Furthermore, the utility model discloses the food processor who adopts this anti-overflow device is still provided.

Description

Anti-overflow device and food cooking machine

Technical field

This utility model relates to the anti-overflow device being applicable to food cooking machine, particularly relate to a kind of anti-overflow device and It is adapted in use to the food cooking machine of this anti-overflow device.

Background technology

The food cooking machine of such as soy bean milk making machine is likely to occur the slurry that overflows in heating process.Existing soy bean milk making machine all can make Detect, with an anti-flow electrode, the slurry that overflows, when liquid level encounters anti-flow electrode, anti-flow electrode the resistance value detected or Person's capacitance feeds back to single-chip microcomputer, and single-chip microcomputer detects anti-overflow signal, stops heating.

Owing to resistance value or capacitance are relatively big by ectocine, the connection long, middle of anti-overflow connecting line the most all can Cause resistance value or capacitance fluctuation very big, cause anti-overflow bad.

Utility model content

For the problems referred to above of prior art, the utility model proposes a kind of novel anti-overflow device, i.e. this reality Realizing anti-overflow detection with two single-chip microcomputers of novel use, the first single-chip microcomputer is arranged near anti-flow electrode, detection Anti-overflow signal, is converted into simple low and high level signal the anti-overflow signal detected, is sent to second singlechip, This second singlechip carries out corresponding anti-overflow process further according to the signal received.This device can effectively overcome existing The problems referred to above in technology.

According to an aspect of the present utility model, it is provided that a kind of anti-overflow device, including:

Anti-flow electrode, the first single-chip microcomputer and second singlechip,

Wherein, this first single-chip microcomputer is connected with this anti-flow electrode, in order to this first single-chip microcomputer is according to this anti-overflow electricity The signal of telecommunication that pole detects produces anti-overflow signal,

Wherein, this second singlechip is connected with this first single-chip microcomputer, in order to this second singlechip is anti-overflow according to this Signal carries out anti-overflow process.

It is preferred that in above-mentioned anti-overflow device, this first single-chip microcomputer is adjacent to this anti-flow electrode and arranges.

It is preferred that in above-mentioned anti-overflow device, this first single-chip microcomputer position is set than this second singlechip Setting is located closer to this anti-flow electrode.

It is preferred that in above-mentioned anti-overflow device, this first single-chip microcomputer and this second singlechip are wirelessly Signal connects.

According to another aspect of the present utility model, it is provided that a kind of food cooking machine, including cup and heater block, This heater block is arranged at bottom or the sidewall of this cup, and this food cooking machine farther includes anti-overflow device, and this is prevented Excessive device includes anti-flow electrode, the first single-chip microcomputer and second singlechip, and this anti-flow electrode extends in this cup,

Wherein, this first single-chip microcomputer is connected with this anti-flow electrode, in order to this first single-chip microcomputer is according to this anti-overflow electricity The signal of telecommunication that pole detects produces anti-overflow signal,

Wherein, this second singlechip is connected with this first single-chip microcomputer, in order to this second singlechip is anti-overflow according to this Signal carries out anti-overflow process.

It is preferred that in above-mentioned food cooking machine, this anti-flow electrode includes test side and connects end, this detection End extends in this cup, and this connection end is connected with this first single-chip microcomputer.

It is preferred that in above-mentioned food cooking machine, this connection end is directly welded in this first single-chip microcomputer.

It is preferred that in above-mentioned food cooking machine, this connection end is connected to this first single-chip microcomputer via wire.

It is preferred that in above-mentioned food cooking machine, this food cooking machine also includes being suitable to be covered on this cup Upper cover, the connection end of this anti-flow electrode is fixed in this upper cover, and this first single-chip microcomputer is also disposed in this upper cover.

It is preferred that in above-mentioned food cooking machine, this second singlechip is connected with this heater block, wherein This anti-overflow process includes: when this anti-overflow signal is the first level, turns off this heater block, and when this anti-overflow letter When number being second electrical level, this heater block is kept to start.

Should be appreciated that general description of more than this utility model is all exemplary with the following detailed description and says Bright property, and it is intended that this utility model as claimed in claim provides further explanation.

Accompanying drawing explanation

Being to be further understood from this utility model for providing including accompanying drawing, they are included and constitute the application's A part, accompanying drawing shows embodiment of the present utility model, and plays explanation this utility model together with this specification The effect of principle.In accompanying drawing:

Fig. 1 shows the schematic diagram according to anti-overflow device of the present utility model.

Fig. 2 shows the schematic diagram of an embodiment according to food cooking machine of the present utility model.

Fig. 3 shows the flow chart of the first single-chip microcomputer.

Fig. 4 shows the flow chart of second singlechip.

Detailed description of the invention

With detailed reference to accompanying drawing, embodiment of the present utility model is described now.Now new with detailed reference to this practicality The preferred embodiment of type, its example is shown in the drawings.In the case of any possible, in all of the figs Same or analogous part is represented by using identical labelling.Although additionally, used in this utility model Term be to select from public term, but mentioned some in this utility model description Term is probably what applicant was selected by his or her judgement, its detailed meanings being correlated with in description herein Explanation in part.Additionally, require not only by the actual terms used, and it is also to by each art The meaning that language is contained is to understand this utility model.

With reference first to Fig. 1, this diagram all illustrates the schematic diagram according to anti-overflow device 100 of the present utility model.

Anti-overflow device 100 in Fig. 1 specifically includes that anti-flow electrode the 101, first single-chip microcomputer 102 and the second monolithic Machine 103.This first single-chip microcomputer 102 is connected with this anti-flow electrode 101, in order to this first single-chip microcomputer 102 basis The signal of telecommunication that this anti-flow electrode 101 detects produces anti-overflow signal.This second singlechip 103 and this first single-chip microcomputer 102 are connected, in order to this second singlechip 103 carries out anti-overflow process according to this anti-overflow signal.

It is preferred that this first single-chip microcomputer 102 is arranged near anti-flow electrode 101, to reduce because of between both Wire long and to detected value produce adverse effect.Such as, this first single-chip microcomputer 102 to arrange position permissible It is located closer to this anti-flow electrode 101 than the setting of this second singlechip 103.

Additionally, may be constructed unidirectional between this first single-chip microcomputer 102 and this second singlechip 103 or be bi-directionally connected, Two-way communication or at least the first single-chip microcomputer can be carried out between i.e. first single-chip microcomputer 102 and this second singlechip 103 Anti-overflow signal can be sent to second singlechip 103 by 102.This connection can be such as wired connection, or Wirelessly signal connects.Such as, wireless signal connects can be that IIC communicates, UART communicates or other Known wireless communications mode.

Fig. 2 shows the schematic diagram of an embodiment according to food cooking machine of the present utility model.Such as Fig. 2 institute Showing, food cooking machine 200 specifically includes that upper cover 201, cup 202 and heater block 203.Upper cover 201 is fitted In being covered on cup 202.

This heater block 203 is arranged at bottom or the sidewall of this cup 202, in order to cup 202 is heated, Thus cook the food materials in cup 202 and water.

Additionally, this food cooking machine 200 still further comprises the anti-overflow device 100 as discussed above in association with Fig. 1. The anti-flow electrode 101 of this anti-overflow device 100 extends in this cup 202.Particularly, this anti-flow electrode 101 Including test side and connection end.This test side extends in this cup 202, this connection end and this first single-chip microcomputer 102 are connected.

Such as, this connection end can be directly welded in this first single-chip microcomputer 102, as shown in Figure 2.Or, this is even Connect end and can also be connected to this first single-chip microcomputer 102 via wire.Even the situation of the latter, the first single-chip microcomputer 102 It is also required to be positioned adjacent to this connection end of anti-flow electrode 101, to shorten the length of wire as far as possible.

It is preferred that as shown for example in fig. 2, the connection end of this anti-flow electrode 101 is fixed on this upper cover 201 In, and this first single-chip microcomputer 102 is also disposed in this upper cover 201.

Second singlechip 103 can be arranged at any position of food cooking machine 200 in theory.This second monolithic Machine 103 is connected with this heater block 203, in order to control this heater block 203 according to anti-overflow signal.

Such as, when this anti-overflow signal is the first level (such as high level), turn off this heater block 203, with And when this anti-overflow signal is second electrical level (such as low level), keep this heater block 203 to start.

An example of implementation of the present utility model is discussed in detail presently in connection with Fig. 3 and Fig. 4.

For the first single-chip microcomputer 102 (flow process 300 of Fig. 3), this first single-chip microcomputer 102 detects inspection in real time Survey end extends in resistance value or the capacitance (step 301) of the anti-flow electrode 102 in cup 202；Subsequently, One single-chip microcomputer 102 judges that whether this resistance value or capacitance are beyond the safety range (step 302) preset；If Beyond this safety range, then export the anti-overflow signal of the first level (such as high level) to second singlechip 103 (step Rapid 303)；If without departing from, then export the anti-overflow signal of second electrical level (such as low level) to second singlechip 103 (steps 304)

For second singlechip 103 (flow process 400 of Fig. 4), first this second singlechip 103 receives From the anti-overflow signal (step 401) of the first single-chip microcomputer 102；Then this second singlechip 103 is according to this anti-overflow letter Number judge whether there occurs the situation (step 402) of spilling；If the most anti-overflow signal be the first level (such as High level), then may determine that and overflow, thus this second singlechip 103 turns off heater block 203 (step 403)；If the most anti-overflow signal is second electrical level (such as low level), then may determine that and overflow, Thus this second singlechip 103 keeps heater block 203 to start (step 403).

Those skilled in the art can be obvious, above-mentioned exemplary embodiment of the present utility model can be carried out various repairing Change with modification without departing from spirit and scope of the present utility model.Accordingly, it is intended to make this utility model cover In the range of appended claims and equivalent arrangements thereof to amendment of the present utility model and modification.

Claims (10)

1. an anti-overflow device, it is characterised in that including:

Anti-flow electrode, the first single-chip microcomputer and second singlechip,

Wherein, described first single-chip microcomputer is connected with described anti-flow electrode, in order to described first single-chip microcomputer is according to institute State the signal of telecommunication anti-overflow signal of generation that anti-flow electrode detects,

Wherein, described second singlechip is connected with described first single-chip microcomputer, in order to described second singlechip according to Described anti-overflow signal carries out anti-overflow process.

2. anti-overflow device as claimed in claim 1, it is characterised in that described first single-chip microcomputer is adjacent to described Anti-flow electrode is arranged.

3. anti-overflow device as claimed in claim 1, it is characterised in that described first single-chip microcomputer position is set It is located closer to described anti-flow electrode than the setting of described second singlechip.

4. anti-overflow device as claimed in claim 1, it is characterised in that described first single-chip microcomputer and described second Single-chip microcomputer wirelessly signal connects.

5. a food cooking machine, including cup and heater block, described heater block is arranged at described cup Bottom or sidewall, it is characterised in that described food cooking machine farther includes anti-overflow device, described anti-overflow device bag Including anti-flow electrode, the first single-chip microcomputer and second singlechip, described anti-flow electrode extends in described cup,

Wherein, described first single-chip microcomputer is connected with described anti-flow electrode, in order to described first single-chip microcomputer is according to institute State the signal of telecommunication anti-overflow signal of generation that anti-flow electrode detects,

Wherein, described second singlechip is connected with described first single-chip microcomputer, in order to described second singlechip according to Described anti-overflow signal carries out anti-overflow process.

6. food cooking machine as claimed in claim 5, it is characterised in that described anti-flow electrode includes test side With connection end, described test side extends in described cup, and described connection end is connected with described first single-chip microcomputer.

7. food cooking machine as claimed in claim 6, it is characterised in that described connection end is directly welded in institute State the first single-chip microcomputer.

8. food cooking machine as claimed in claim 6, it is characterised in that described connection end connects via wire To described first single-chip microcomputer.

9. food cooking machine as claimed in claim 6, it is characterised in that described food cooking machine also includes fitting In the upper cover being covered on described cup, the connection end of described anti-flow electrode is fixed in described upper cover, and described One single-chip microcomputer is also disposed in described upper cover.

10. food cooking machine as claimed in claim 9, it is characterised in that described second singlechip adds with described Thermal part is connected, and wherein said anti-overflow process includes: when described anti-overflow signal is the first level, turns off described Heater block, and when described anti-overflow signal is second electrical level, keep described heater block to start.