CN109998391A - A kind of pulping process for the food processor cleaned automatically - Google Patents

Abstract

The present invention relates to the pulping process of kitchen small household appliances, especially a kind of pulping process for the food processor cleaned automatically.The food processor cleaned automatically of the invention can be realized the unattended of Automatic pulp making, automatic plasma discharge, automatic cleaning and automatic waste discharge, greatly improve intelligent level, simultaneously, it can also prevent drain pipe from drain phenomenon occurring in the course of rotation, can effectively promote drain reliability and the usage experience of consumer.

Description

A kind of pulping process for the food processor cleaned automatically

Technical field

The present invention relates to the pulping process of kitchen small household appliances, especially a kind of slurrying side for the food processor cleaned automatically Method.

Background technique

The applicant has applied for a Patent No. " CN201620511374.4 " before this, entitled " a kind of automatic The utility model patent of the soy bean milk making machine of cleaning ".Disclose in the patent: the crushing chamber bottom of soy bean milk making machine is provided only with a drainage hole In the case where, by control drain pipe outlet end rotated when connecting tube be connected to drain pipe to plasma discharge position progress plasma discharge or Person, which rotates to effluent position, carries out effluent.The function of realizing soy bean milk making machine automatic plasma discharge and automatic waste discharge water, not only simplifies The structure of crushing chamber also achieves the function that soy bean milk making machine is cleaned automatically, enormously simplifies the operation of consumer, improve convenience Property.

It for the soy bean milk making machine, is equipped with outside complete machine and connects slurry container and waste water box, for use in drain pipe discharge is received Slurries or drain pipe discharge ejected wash water.And connecing slurry container and waste water box is two containers independent of each other, therefore, whole When machine assembles, fixing clearance will certainly be had by connecing between slurry container and waste water box.And in above-mentioned patent, the outlet end of drain pipe After connecting tube is connected to drain pipe, then rotates to plasma discharge position and carry out plasma discharge or the progress effluent of effluent position.Therefore, When will cause drain pipe and not turning to plasma discharge position also, drain pipe has begun plasma discharge, alternatively, drain pipe does not turn to waste discharge also When water position, drain pipe, which has begun, clears wash water.The slurries drink or ejected wash water being discharged in this way, which are easy to trickle down, is connecing slurry Outside cup or waste water box, not only drink is caused to waste, pollute desktop, ground, scald consumer is also easy to when serious, there is peace Full hidden danger.

At the same time, the intercommunicating pore that liquid passes through is provided on the rotary valve of the soy bean milk making machine, and the rear end of drain pipe has row Liquid mouth, the size of leakage fluid dram and the size of intercommunicating pore are corresponding, generally Φ=10mm ~ 20mm, when rotary valve is moved to leakage fluid dram With intercommunicating pore by locally it is be overlapped mutually lead to completely overlapped communicate when, from drain pipe be discharged fluid flow change from small to big, also, turn The outlet end rotation of drain pipe is driven while valve motor driven rotary valve.Therefore, though when drain pipe be not fully rotated into also it is pre- Positioning is when setting, in this case it is still possible to will appear the situation that intercommunicating pore is communicated with leakage fluid dram part, there are in drain pipe rotation process The phenomenon that being started plasma discharge or draining, it is also possible to deposit the situation for scalding consumer in use.

Based on this, the applicant improves for deficiency existing for patent formula before this.

Summary of the invention

Present invention purpose to be achieved, which is just to provide one kind, can be realized Automatic pulp making, automatic plasma discharge, cleans automatically, certainly Unattended, the promotion intelligent level of dynamic waste discharge, it is existing at the same time it can also prevent drain pipe from drain occurring in the course of rotation As effectively avoiding scalding consumer in discharge opeing process, can effectively promote the food processor of drain reliability cleaned automatically Pulping process.

In order to achieve the above object, the present invention adopts the following technical scheme: a kind of system for the food processor cleaned automatically Paste-making method, the food processor include mash vessel, the grinding device in mash vessel, rotatable drain pipe, control The tapping valve of on-off between mash vessel and drain pipe processed connects slurry cup and waste water box, the drain pipe below drain pipe Plasma discharge is carried out being located at plasma discharge position, carries out effluent being located at waste position, it is characterised in that: the system of the food processor Paste-making method includes the following steps:

Pulp stage: grinding device crushes the material in mash vessel, and the material and water after being crushed are mixed to form slurry Liquid；

The plasma discharge stage: drain pipe is located at plasma discharge position, and tapping valve is opened, and the slurries in mash vessel connect slurry by drain pipe inflow In cup；

Wash phase: tapping valve is closed, and grinding device carries out whipping cleaning to the ejected wash water in mash vessel, and drain pipe is by arranging Slurry position turns to waste position；

The waste discharge stage: drain pipe is located at waste position, and tapping valve is opened, and the ejected wash water in mash vessel is flowed into useless by drain pipe In water box.

Further, in wash phase, before grinding device carries out whipping cleaning to the ejected wash water in mash vessel for the first time, Drain pipe turns to waste position by plasma discharge position；

Alternatively, in wash phase, after grinding device last time carries out whipping cleaning to the ejected wash water in mash vessel, drain pipe Waste position is turned to by plasma discharge position；

Alternatively, while grinding device carries out beating cleaning to the ejected wash water in mash vessel, drain pipe is by arranging in wash phase Slurry position turns to waste position.

Further, the drain pipe and tapping valve are driven by same driving device, and when drain pipe and tapping valve difference Work, the drain pipe stop after turning to plasma discharge position or waste position, and the tapping valve is started to work, until tapping valve It opens.

Further, the drain pipe and tapping valve are driven by same driving device, and drain pipe and tapping valve work simultaneously Make, the drain pipe stops after turning to plasma discharge position or waste position, and the tapping valve works on, until tapping valve is opened It opens.

Further, the food processor further includes detection device, in the plasma discharge stage, before tapping valve unlatching, and inspection It surveys device first to detect the position of drain pipe, if detection device detects drain pipe not in plasma discharge position, drain pipe turns It moves to plasma discharge position；If detecting, positioned at plasma discharge position, discharge pipe remains stationary work.

Further, before the initial slurrying of the food processor, the drain pipe is located at waste position, before the plasma discharge stage, The drain pipe turns to plasma discharge position by waste position；

Alternatively, before the initial slurrying of food processor, the drain pipe is located at waste position, before pulp stage, food processing Machine first carries out prerinse to mash vessel；

Alternatively, the drain pipe automatically returns to plasma discharge position after the completion of the waste discharge stage.

Further, in the plasma discharge stage, the drain pipe is located at plasma discharge position and remains stationary, and the tapping valve is repeatedly opened And close, to realize to connecing multiple plasma discharge in slurry cup.

Further, after each tapping valve is closed, the grinding device carries out whipping mixing to the liquid in mash vessel；

Alternatively, the food processor further includes water feed apparatus, after each tapping valve is closed, the water feed apparatus is to mash vessel Interior water inlet is blent.

Further, in pulp stage, slurries obtained are made a living slurries；

Alternatively, the food processor further includes heating device, in pulp stage, heating device endures the slurries of formation It boils.

Further, the food processor includes first driving device and the second driving device, the first driving dress Set driving drain pipe rotation, the second driving device driving tapping valve work.

The food processor that the present invention cleans automatically is in pulping process, and when being in the plasma discharge stage, drain pipe needs are arrived first Up to after plasma discharge position, tapping valve is just opened, meanwhile, it cleans during waste discharge, before the waste discharge stage, drain pipe is also first by arranging After slurry position automatically rotates to waste position, tapping valve is then turned on, and realizes discharge of wastewater.For compared with the prior art, completely The drain pipe that prevents do not rotate in place also the problem of starting drain, greatly improve the reliability of drain pipe drain, prevent The risk that consumer scalds during use is stopped, the present invention adequately considers the logicality of human-machine operation, greatly Big improves the usage experience of consumer.Meanwhile food processor of the invention can be realized Automatic pulp making, automatic plasma discharge, Automatic cleaning and automatic waste discharge, realize the unattended of full-automation, greatly improve the intelligent level of food processor.

Detailed description of the invention

The present invention will be further explained below with reference to the attached drawings:

Fig. 1 is the structural schematic diagram of food processor of the present invention；

Fig. 2 is the working principle diagram of food processor in Fig. 1；

Fig. 3 is the step block diagram of food processor pulping process in Fig. 1；

Fig. 4 is the structural schematic diagram of food processor tapping valve assembly embodiment one of the present invention；

Fig. 5 is the structural schematic diagram that first driving device drives driven subassembly in Fig. 4；

Fig. 6 is the decomposition texture schematic diagram of drain valve module in Fig. 4；

Fig. 7 is the structural schematic diagram of food processor tapping valve assembly embodiment two of the present invention；

Fig. 8 is the decomposition texture schematic diagram of drain valve module in Fig. 7；

Fig. 9 is the plasma discharge status diagram of drain valve module in Fig. 7；

Figure 10 is the valve-closed state schematic diagram of drain valve module in Fig. 7；

Figure 11 is the effluent status diagram of drain valve module in Fig. 7.

Specific embodiment

It as shown in Figure 1 and Figure 2, is food processor of the present invention, including pedestal 1, the mash vessel being set on pedestal 16, And it is fixedly installed in the drain valve module of 6 bottom of mash vessel, and the drain valve module includes tapping valve 8 and drain pipe 2, The drain pipe 2 is located at outside pedestal 1, and the lower section of drain pipe 2 is provided with and connects slurry cup 3 and waste water box 4, and the tapping valve 8 is used It is connected to or turns off with drain pipe 2 in control mash vessel 6, the drain valve module further includes that first driving device 51 and second drive Dynamic device 52, the first driving device 51 drive drain pipe 2 to be rotated between slurry cup 3 and waste water box 4 being located to connect, and described second Driving device 52 drives tapping valve 8 to work, so that mash vessel 6 is connected to drain pipe 2, and tapping valve when tapping valve 8 is opened When 8 closing, mash vessel 6 and drain pipe 2 are turned off, and drain pipe 2 has the plasma discharge position being located at connect above slurry cup 3 and is located at useless The waste position of 4 top of water box, the tapping valve 8 is after drain pipe 2 turns to corresponding position, by mash vessel 6 and drain pipe 2 Connection.

Meanwhile in the present embodiment, it is provided with grinding device (being not drawn into figure) in mash vessel 6, is located at outside pedestal 1 also It is provided with water tank 9, water tank 9 is connected to by water pipe and water pump (being not drawn into figure) with mash vessel 6, and is realized to mash vessel 6 To water inlet.Wherein, water tank, water pipe, water pump form water feed apparatus.

As shown in figure 3, the pulping process of food processor of the invention has following operating procedure:

Pulp stage: grinding device crushes the material in mash vessel, and the material and water after being crushed are mixed to form slurry Liquid；

The plasma discharge stage: drain pipe is located at plasma discharge position, and tapping valve is opened, and the slurries in mash vessel connect slurry by drain pipe inflow In cup；

Wash phase: tapping valve is closed, and grinding device carries out whipping cleaning to the ejected wash water in mash vessel, and drain pipe is by arranging Slurry position turns to waste position；

The waste discharge stage: drain pipe is located at waste position, and tapping valve is opened, and the ejected wash water in mash vessel is flowed into useless by drain pipe In water box.

In the patent that the applicant applies before this (CN201620511374.4), the outlet end of drain pipe in connecting tube and After drain pipe connection, then rotates to plasma discharge position and carry out plasma discharge or the progress effluent of effluent position.Therefore, it will cause drain When pipe does not turn to plasma discharge position also, drain pipe has begun plasma discharge, alternatively, when drain pipe does not turn to effluent position also, Drain pipe has begun effluent.The slurries drink or ejected wash water being discharged in this way, which are easy to trickle down, is connecing slurry cup or waste water box Outside not only causes drink to waste, and pollutes desktop, ground, scald consumer is also particularly easy to when serious, there are security risks.

And the food processor that the present invention cleans automatically is in pulping process, when being in the plasma discharge stage, drain pipe needs elder generation Reach plasma discharge position after, tapping valve is just opened, meanwhile, clean waste discharge during, be in the waste discharge stage before, drain pipe be also elder generation by After plasma discharge position automatically rotates to waste position, tapping valve is then turned on, and realizes discharge of wastewater.It is complete for compared with the prior art It is complete that drain pipe is prevented not rotate in place also the problem of starting drain, the reliability of drain pipe drain is greatly improved, The risk that consumer scalds during use is prevented, the present invention adequately considers the logicality of human-machine operation, Greatly improve the usage experience of consumer.Meanwhile food processor of the invention can be realized Automatic pulp making, automatic row Slurry, automatic cleaning and automatic waste discharge, realize the unattended of full-automation, greatly improve the intelligent water of food processor It is flat.

It for food processor of the invention, in wash phase, can be, grinding device for the first time holds slurrying Before ejected wash water in device carries out whipping cleaning, drain pipe first turns to waste position by plasma discharge position；It is also possible to grinding device After last time carries out whipping cleaning to the ejected wash water in mash vessel, drain pipe turns to waste position by plasma discharge position again； Alternatively, drain pipe turns to row by plasma discharge position while grinding device carries out beating cleaning to the ejected wash water in mash vessel Deposal is set.Meanwhile for food processor of the invention, in wash phase, tapping valve is needed to close, and it is further desired that It is intake by water feed apparatus into mash vessel, therefore, drain pipe first can also turn to waste position by plasma discharge position, then It is intake again by water feed apparatus into mash vessel；Also, it is also possible to first pass through water feed apparatus and intakes into mash vessel, Drain pipe turns to waste position by plasma discharge position again；Alternatively, while drain pipe turns to waste position by plasma discharge position, into Water installations are intake into mash vessel.Regardless of when drain pipe by plasma discharge position is turning to waste position, water feed apparatus to In mash vessel before water inlet, tapping valve all must be completely closed first, to prevent tapping valve to be not turned off, into clear in mash vessel Wash water is directly flowed out by drain pipe.Certainly, for food processor of the invention, since wash phase is in plasma discharge rank It is carried out after section is complete, therefore, drain pipe is also possible to rotation while tapping valve is closed, because, after the completion of the plasma discharge stage, system Slurry container in slurries drained, even if tapping valve close while, drain pipe rotate synchronously, will not exist leak, The problem of spillage.

In the pulping process of food processor of the invention, before initial slurrying, drain pipe is likely located at waste position, because This needs first to detect drain pipe position, if detecting drain pipe not in plasma discharge position, drain before tapping valve is opened Pipe needs to turn to plasma discharge position, if detecting, drain pipe is in plasma discharge position, and drain pipe remains stationary work.Certainly, initially Before slurrying, when drain pipe is located at waste position, food processor first can also carry out prerinse to mash vessel, and clean After, drain pipe directly carries out effluent operation in waste position.For food processor of the invention, it can also set It counts into after the completion of each waste discharge stage, control drain pipe automatically returns to plasma discharge position.

For food processor of the invention, the structure and logic control method of drain valve module are to complete the present invention The key factor of food processor pulping process, the present invention below by drain valve module specific structure and working method carry out Specific expansion description.

Embodiment one:

It is the structural schematic diagram of the first embodiment of food processor drain valve module of the present invention as shown in Fig. 4, Fig. 5, Fig. 6.

In the present embodiment, drain valve module further includes the driven subassembly 7 for driving drain pipe 2 to rotate, which includes Intermediate gear 71 and driven gear 72, wherein intermediate gear 71 is driven by first driving device 51, and driven gear 72 is by center tooth Wheel 71 drives rotation, and drain pipe 2 links into an integrated entity through driven gear 72 and with driven gear 72, and the drain pipe 2 follows Driven gear 72 is rotated and is rotated.The tapping valve 8 includes the spool with intercommunicating pore 80, and spool is by the second driving device 52 Mash vessel is connected to by driving, the intercommunicating pore 80 with drain pipe 2 in the course of rotation for spool.

In the present embodiment, tapping valve is plane rotary valve, and the spool is plane moving valve plate 81, also, the tapping valve 8 is also Including upper quiet valve block 82 quiet valve block 83 under, and the quiet valve opening 84 of face setting, the drain pipe are respectively provided on upper and lower quiet valve block Quiet valve opening 84 of 2 rear end under on quiet valve block 83 is connected to, and the quiet valve opening 84 on the upper quiet valve block 82 is connected to mash vessel, The plane moving valve plate 81 be installed on quiet valve block 82 and under between quiet valve block 83, and with upper quiet valve block 82, under quiet valve block 83 Be positioned in same shaft, the plane moving valve plate 81 is rotated relative to upper and lower quiet valve block, turn to when plane moving valve plate 81 so that When intercommunicating pore 80 is gradually overlapped with the quiet valve opening 84 on upper and lower quiet valve block, mash vessel is connected to drain pipe 2, and drain pipe 2 can be with Carry out drain operation.

At the same time, the drain valve module of the present embodiment further includes installation shell 5, and first driving device 51, second drives Device 52, driven subassembly 7 and tapping valve 8 are mounted in installation shell 5, and the front end of drain pipe 2 is located at outside installation shell 5, And drain pipe 2 can be rotated relative to installation shell 5.Meanwhile the bottom that shell 5 is fixed on mash vessel being installed, wherein upper quiet valve Piece 82, under quiet valve block 83 and installation shell 5 between, and installation shell 5 and mash vessel between, under quiet valve block 83 and drain pipe Encapsulation process is required between 2, to prevent from revealing in discharge opeing process.

In the present embodiment, first driving device 51 is molded as one with the second driving device 52, and first driving device 51 and second driving device 52 by same motor 50 drive drive, the first driving device 51 be the first partial gear, Second driving device 52 is the second partial gear, and there are two the tools of intercommunicating pore 80 of plane moving valve plate 81, including is spaced apart from each other The plasma discharge hole 801 and waste discharge water hole 802 set are opened up, in the course of rotation, drain pipe 2 selects one and plasma discharge hole to plane moving valve plate 81 801 or 802 phase on-off of waste discharge water hole.Meanwhile in the present embodiment, the gear teeth of the first partial gear and the second partial gear Interlock up and down and do not overlap (figure is as indicated at 3), therefore, the first partial gear does not drive simultaneously with the second partial gear Dynamic driven subassembly 7 and plane moving valve plate 81 work.

In the present embodiment, the first endless gear first drives intermediate gear, and to drive drain pipe to turn to pre- for driven gear Positioning postpones, and the first partial gear no longer drives with intermediate gear disengaging, and drain pipe also accordingly stops operating, at this point, second Partial gear starts to be meshed with plane moving valve plate, and plane moving valve plate is driven to rotate, when the plasma discharge hole on plane moving valve plate Or waste discharge water hole, when being overlapped with the quiet valve opening on upper and lower quiet valve block, mash vessel ability is connected to drain pipe.It is achieved thereby that After drain pipe turns to predetermined position, mash vessel is just connected to by tapping valve with drain pipe.It can turn in this way to avoid drain pipe The problem of plasma discharge or effluent are occurred as soon as in dynamic process greatly improves the safety in utilization of food processor and reliable Property.

Inventive concept in order to better understand the present invention carries out plasma discharge stage and waste discharge rank to food processor herein The course of work of Duan Shi, drain valve module are described:

Pulp stage: before slurrying is initial, drain pipe is in waste position, and tapping valve is in close state, not exclusively due to first Gear is structure as a whole with the second partial gear, and motor drives the first partial gear to turn simultaneously with the second partial gear It is dynamic, simultaneously as the first partial gear is to interlock in axial direction and do not overlap with the gear teeth on the second partial gear, the One partial gear is first engaged with driven subassembly, and drain pipe is driven to rotate, during drain pipe rotation, not due to second Complete gear is not engaged with plane moving valve plate, and therefore, plane moving valve plate still maintains the state not rotated, until first is incomplete Gear driving driven subassembly drives drain pipe to turn to drain pipe and be in and connects plasma discharge position above slurry cup, motor stalls, Grinding device starts to crush the material in mash vessel, and pulverized material and water are mixed to form slurries；

The plasma discharge stage: after the completion of pulp stage, after drain pipe turns to the plasma discharge position connect above slurry cup, first not exclusively Gear is just disengaged from driven subassembly, and drain pipe no longer rotates, at this point, the second partial gear just turn to beginning with The engagement of plane moving valve plate, and plane moving valve plate is driven to rotate, when plane moving valve plate turns to plasma discharge hole thereon gradually and above and below When quiet valve opening on quiet valve block is overlapped, i.e., tapping valve is opened, and mash vessel is just connected to drain pipe, and the slurries in mash vessel are logical Drain pipe inflow is crossed to connect in slurry cup.

Wash phase: after the completion of the plasma discharge stage, the second partial gear of motor driven reversely drives plane moving valve plate to turn It is dynamic, so that plasma discharge Kong Yujing valve opening closes (tapping valve closing), realize that mash vessel and drain pipe are in an off state, according to Program setting, at this point, motor stops working, food processor can be intake to mash vessel and be beaten automatically cleaning behaviour Make.After mash vessel cleaning, according to program setting, at this point, motor can be again started up, and continue to be driven in the reverse direction second not Complete gear drives the rotation of plane moving valve plate, until the second partial gear is disengaged from plane moving valve plate, at the same time, the One partial gear is just engaged with driven subassembly, and drain pipe is driven to rotate backward, until drain pipe turns on waste water box The waste position of side.

The waste discharge stage: when drain pipe turns to the waste position above waste water box, the first partial gear just with from Dynamic component is disengaged from, and drain pipe no longer rotates, at this point, the second partial gear also just turn to again with plane moving valve plate Engagement, and drives plane moving valve plate to continue to rotate, when plane moving valve plate turn to waste discharge water hole thereon gradually with upper and lower quiet valve When the quiet valve opening of on piece is overlapped, mash vessel is just connected to drain pipe, and the ejected wash water in mash vessel is flowed into useless by drain pipe In water box.

It should be noted that the invention thinking of the present embodiment is that drain pipe is not worked at the same time with tapping valve, tapping valve is being arranged After liquid pipe turns to corresponding position (plasma discharge position or waste position), just start to be driven by the second driving device, until will make Slurry container is connected to drain pipe, and tapping valve is opened.And the present embodiment realizes that the principle of this thinking essentially consists in: the first driving dress It sets driving driven subassembly and drives drain pipe rotation, the second driving device drives plane moving valve plate to rotate relative to quiet valve block up and down, In, first driving device and driven subassembly and the second driving device form two groups of intermittent drive mechanisms with moving valve plate.Two groups The problem of intermittent drive mechanism effectively avoids drain pipe and does not rotate in place also, and valve has been switched on drain.

For the present embodiment, in the plasma discharge stage, the second driving device repeatedly can also drive tapping valve to work, real Existing tapping valve repeatedly opens and closes, so that mash vessel is repeatedly connected to and is turned off with drain pipe, to realize that drain pipe is more It is secondary to connecing plasma discharge in slurry cup, and during this plasma discharge, drain pipe is held at the plasma discharge position connect above slurry cup always It is motionless.For the food processor of the present embodiment, after the closing of tapping valve each time, water feed apparatus can be to mash vessel Interior water inlet is blent, then plasma discharge, and food processor may be implemented in the mash vessel with low capacity, can make more person-portions Slurries drink；Alternatively, grinding device carries out whipping mixing to the liquid in mash vessel after the closing of tapping valve each time, with Abundant homogeneous slurry prevents plasma discharge rear slurry from lamination occurs.Certainly, in the waste discharge stage, it is more also to can control tapping valve It is secondary to unlatch and close, realize the multiple effluent into waste water box, it is cleaner to clean.

It should also be noted that, for the present embodiment, it is also not necessary to intermediate gears for driven subassembly, and only from The structure of moving gear forms and directly drives driven gear drive drain pipe rotation by first driving device.Meanwhile the present embodiment In, the connection between driven gear and drain pipe can both be integrally formed, and can also connect in such a way that partial installation is fixed It is connected into one.

Certainly, in the present embodiment, first driving device can also pass through journey by different motor drivens from the second driving device Sequence control first motor stops operating after driving first driving device driving drain pipe to turn to predetermined position, then passes through the second electricity Machine drives the second driving device driving plane moving valve plate to turn to and is connected to mash vessel with drain pipe.But the driving method is opposite It is higher in same motor driven cost, bigger installation space is needed when complete machine is installed.Meanwhile in order to improve drain pipe rotation Detection device can also be arranged in mounting shell body in reliability, and to detect whether drain pipe rotate in place, or detection plane is dynamic Whether valve block, which turns to, is connected to mash vessel with drain pipe, when detecting connection, is then stopped working by controlling motor, real Existing plane moving valve plate stops operating, and achievees the purpose that drain pipe continuous draining.

Also, artificial rotation drain pipe manually in order to prevent, can also be arranged ending tendon transfer on driven subassembly, for example, this In embodiment, the arc sections that the first partial gear has the first driving tooth and is staggered up and down with the first driving tooth, intermediate gear On be provided with ending tendon transfer, due to ending tendon transfer have arc surface corresponding with circular arc contouring, the side of arc surface and arc sections When matching, as motor drives the rotation of the first partial gear, arc sections can be along the apparent motion of arc surface.To real The first partial gear intermittently-driving driven subassembly is showed.But since ending tendon transfer and arc sections form spline structure, because This, if apply external force rotation drain pipe, driven subassembly still can not occur actively to rotate, to effectively prevent in drain In the process, there is a phenomenon where drain pipe artificially misroute it is dynamic, avoid consumer scald risk.Certainly, in the present embodiment, first Arc sections and the first driving tooth on partial gear can have multiple, also, when having multiple, arc sections and the first driving tooth are needed Arranged for interval is wanted, also, adjacent circular arc portion and the first driving tooth are required to be staggered like state.Certainly, for the present embodiment, Arc sections also can be set on two end faces up and down of first partial gear, at this point, two end faces up and down of intermediate gear On be also required to that two ending tendon transfers opposite with arc sections are arranged.The setting can reinforce the locking intensity of driven gear, prevent because External force excessive the problem of causing ending tendon transfer to be broken.Also, it is through research, the inventor has found that long for the circular arc of single arc sections For degree, typically no less than 8mm, because if the arc length of single arc sections is too small, and be less than after 8mm, by actively right Drain pipe applies external force, and ending tendon transfer can still bypass arc sections, so that the still rotary phenomenon of driven subassembly occur.It is based on This, for the structure of the present embodiment, the arc length of general arc sections and ending tendon transfer is required to not less than 8mm.In addition, this In embodiment, since there are two drain state, plasma discharge state and waste discharge water states therefore to need on intermediate gear for drain pipe tool Two symmetrical ending tendon transfers are set, cooperate rotation stop from different ending tendon transfers when realizing different location drain.

It should also be noted that, the variation for the present embodiment above structure is readily applicable to other implementations of the invention In example.

Embodiment two:

It as shown in Figure 7, Figure 8, is the structural schematic diagram of second of embodiment of food processor drain valve module of the present invention.This reality It applies in example, first driving device 51 and the second driving device 52 are also driven by same motor 50 and operated.The present embodiment and embodiment One the difference is that: first driving device 51 be the first partial gear, the second driving device 52 be the second complete gear, put down Face moving valve plate 81 is driven by the second complete gear, and the intercommunicating pore 80 on plane moving valve plate 81 only one, drain pipe 2 and the company 80 phase on-off of through-hole, wherein while the first partial gear drives driven subassembly, the second complete gear is also synchronous to drive plane Moving valve plate 81 works, and when the first partial gear, which is turned to, to be detached from driven subassembly, the second complete gear continues to drive plane Moving valve plate 81 turns to intercommunicating pore 80 and is connected to drain pipe 2.

Inventive concept in order to better understand the present invention carries out plasma discharge stage and waste discharge rank to food processor herein The course of work of Duan Shi, drain valve module are described:

Pulp stage: when slurrying is initial, drain pipe is in waste position, and tapping valve is in close state, not exclusively due to first Gear is also structure as a whole with the second complete gear, and motor drives the first partial gear and the second complete gear simultaneously clockwise Rotation, the first partial gear engage with driven subassembly and driven subassembly are driven to rotate, the second complete gear and plane moving valve plate It engages and plane moving valve plate is driven to rotate, when the first partial gear driving driven subassembly drives drain pipe rotation, until drain Pipe turns to the plasma discharge position connect above slurry cup, and motor stalls, according to program setting, grinding device starts to mash vessel Interior material is crushed, and pulverized material and water are mixed to form slurries；

The plasma discharge stage: as shown in figure 9, when pulp stage is completed, motor is again started up, and is connect above slurry cup since drain pipe turns to Plasma discharge position when (in Fig. 9 position shown in dotted line be drain pipe where plasma discharge position), due to the first partial gear with from Dynamic component is the intermittently-driving of partial gear, therefore, after drain pipe turns to plasma discharge position, the first partial gear just with Driven subassembly is disengaged from, and drain pipe no longer rotates, and the second complete gear is that complete gear still will drive plane moving valve plate Rotation, when plane moving valve plate, which turns to intercommunicating pore thereon, to be gradually overlapped with the quiet valve opening on upper and lower quiet valve block, tapping valve is opened It opens, mash vessel is just connected to drain pipe, and the slurries in mash vessel are connect in slurry cup by drain pipe inflow.

Wash phase: as shown in Figure 10, after the completion of plasma discharge, the second complete gear reversely drives plane moving valve plate counterclockwise Rotation, so that intercommunicating pore and quiet valve opening are closed, tapping valve is closed, and mash vessel is in an off state with drain pipe, at this point, the Two complete gears continue reversed drive plane moving valve plate rotation counterclockwise, since the first partial gear and the second complete gear are Integral structure, and by same motor driven, it is nibbled again when the second complete gear turns to the first partial gear with driven subassembly When conjunction, the first partial gear can be driven in the reverse direction driven subassembly rotation counterclockwise, until driven subassembly drives drain pipe to turn to Waste position (position shown in Figure 10 dotted line is that drain pipe is in the waste position above waste water box) above waste water box, works as drain When pipe just turns to waste position, the first partial gear is just disengaged from driven subassembly, and the second complete gear is still Can counterclockwise driving plane moving valve plate rotation, until plane moving valve plate turn to close to 3/4 circle when, mash vessel still with drain pipe In an off state, at this point, motor stalls, according to program setting, food processor cleans mash vessel automatically.

The waste discharge stage: as shown in figure 11, after automatic cleaning, motor can be again started up, and drive the first incomplete tooth Wheel continues to rotate in the counterclockwise direction with the second complete gear, at this point, the first partial gear and driven subassembly are still in disengaging Meshing state, drain pipe remain stationary that (position shown in Figure 11 dotted line is at drain pipe still in the waste position above waste water box Waste position above waste water box), and the second complete gear will continue to drive the rotation of plane moving valve plate, until plane moving valve plate On intercommunicating pore when gradually being communicated with quiet valve opening, tapping valve is opened, and mash vessel is connected to drain pipe, the cleaning in mash vessel Water is flowed into waste water box by drain pipe.

It should be noted that being additionally provided on drain valve module and being turned to for detecting plane moving valve plate in the present embodiment The detection device that intercommunicating pore is communicated with quiet valve opening can transmit signals to control device after the detection device detects signal, To control motor stalls, the continuous plasma discharge of drain pipe or waste discharge are realized, meanwhile, detection device can also be for detection plane Moving valve plate turns to the state that intercommunicating pore and quiet valve opening close, and when being located at valve-closed state, control device controls motor It stops operating, food processor can carry out cleaning operation to mash vessel.

It should also be noted that, the invention thinking of the present embodiment is that drain pipe is worked at the same time with tapping valve, tapping valve is being arranged After liquid pipe turns to corresponding position, continue to be driven by the second driving device, until mash vessel is connected to drain pipe.And this reality Apply example and realize that the principle of this thinking essentially consists in: first driving device drives driven subassembly to drive drain pipe rotation, and second drives Dynamic device driving plane moving valve plate is rotated relative to quiet valve block up and down, wherein first driving device is intermittently-driving with driven subassembly Mechanism, the second driving device and plane moving valve plate are complete gear rotating mechanism.Previous intermittent drive mechanism can effectively be kept away Exempt from drain pipe not rotate in place also, the problem of valve has been switched on drain.

For the present embodiment, the intermittently-driving of first driving device and driven subassembly is in addition to partial gear and completely It can also be sheave intermittent drive mechanism other than the gear intermittently-driving of gear.For example, first driving device is to make period rotation Straight pin, driven subassembly is the sheave driven by straight pin, and sheave drives drain pipe rotation, and straight pin and sheave form interval The Geneva mechanism of transmission.Certainly, the intermittently-driving of the present embodiment first driving device and driven subassembly is not limited to endless gear Gear drive and sheave drive can also be other intermittent drive mechanisms with the same function.

It should be noted that in the present embodiment, after drain pipe turns to corresponding position, the meeting stop motion t time, and After the t time, the liquid in mash vessel just starts to be discharged from drain pipe, by the study found that t is generally at least 0.2s, in this way Can adequately it guarantee, after drain pipe rotate in place, tapping valve is just opened, and carries out drain, further promotes food processor Safety in utilization and reliability.Also, drain pipe is stopping operating to during starting drain, and food processor can also carry out The operation of other functions, for example, in the present embodiment, stop operating after drain pipe turns to waste position by plasma discharge position, At this point, food processor is first intake into mash vessel, then controls grinding device and the ejected wash water in mash vessel is stirred It beats, to clean mash vessel, after cleaning, the second driving device drives tapping valve to work again, until waste water starts to be discharged.? During this, food processor is finished from water inlet to cleaning, and required scavenging period is T, and drain pipe is from stopping operating to giving up Water starts to be discharged the required time as t, it is clear that t > T.

In addition, in the present embodiment, in pulp stage, slurries obtained can make a living slurries, can be with after the discharge of raw pulp liquid Individually carry out infusion；Certainly, heating device also can be set in food processor of the invention, in pulp stage, heating dress It sets and carries out plasma discharge again after carrying out infusion to the slurries of formation.

It should be noted that the pulping process for the present embodiment is readily applicable in other embodiments of the invention.

For the food processor cleaned automatically of the invention, the broken wall cooking machine of provided with motor at lower can be, it can also To be the food processor of frame structure.Those skilled in the art should be understood that the present invention include but is not limited to attached drawing and Content described in specific embodiment above.Any modification without departing from function and structure principle of the invention is intended to be included in In the range of claims.

Claims (10)

1. the pulping process for the food processor that one kind is cleaned automatically, the food processor includes mash vessel, is located at slurrying The tapping valve of on-off between grinding device, rotatable drain pipe in container, control mash vessel and drain pipe is located at drain Slurry cup and waste water box are connect below pipe, the drain pipe is being located at the progress plasma discharge of plasma discharge position, is being arranged being located at waste position Waste water, it is characterised in that: the pulping process of the food processor includes the following steps:

Pulp stage: grinding device crushes the material in mash vessel, and the material and water after being crushed are mixed to form slurry Liquid；

The plasma discharge stage: drain pipe is located at plasma discharge position, and tapping valve is opened, and the slurries in mash vessel connect slurry by drain pipe inflow In cup；

Wash phase: tapping valve is closed, and grinding device carries out whipping cleaning to the ejected wash water in mash vessel, and drain pipe is by arranging Slurry position turns to waste position；

The waste discharge stage: drain pipe is located at waste position, and tapping valve is opened, and the ejected wash water in mash vessel is flowed into useless by drain pipe In water box.

2. the pulping process for the food processor cleaned automatically according to claim 1, it is characterised in that: in wash phase, Before grinding device carries out whipping cleaning to the ejected wash water in mash vessel for the first time, drain pipe turns to waste discharge position by plasma discharge position It sets；

Alternatively, in wash phase, after grinding device last time carries out whipping cleaning to the ejected wash water in mash vessel, drain pipe Waste position is turned to by plasma discharge position；

Alternatively, while grinding device carries out beating cleaning to the ejected wash water in mash vessel, drain pipe is by arranging in wash phase Slurry position turns to waste position.

3. the pulping process for the food processor cleaned automatically according to claim 1, it is characterised in that: the drain pipe with Tapping valve is driven by same driving device, and drain pipe is not worked at the same time with tapping valve, and the drain pipe turns to plasma discharge position Or stop after waste position, the tapping valve is started to work, until tapping valve is opened.

4. the pulping process for the food processor cleaned automatically according to claim 1, it is characterised in that: the drain pipe with Tapping valve is driven by same driving device, and drain pipe is worked at the same time with tapping valve, the drain pipe turn to plasma discharge position or Stop after person's waste position, the tapping valve works on, until tapping valve is opened.

5. according to claim 1 to the pulping process of any one of 4 food processor cleaned automatically, it is characterised in that: row In the slurry stage, before tapping valve unlatching, first the position of drain pipe is detected, if detecting drain pipe not in plasma discharge position It sets, then drain pipe turns to plasma discharge position；If detecting, positioned at plasma discharge position, discharge pipe remains stationary work.

6. according to claim 1 to the pulping process of any one of 4 food processor cleaned automatically, it is characterised in that: institute Before stating the initial slurrying of food processor, the drain pipe is located at waste position, and before pulp-expelling valve is opened, the drain pipe is by waste discharge position It sets and turns to plasma discharge position；

Alternatively, before the initial slurrying of food processor, the drain pipe is located at waste position, before pulp stage, food processing Machine first carries out prerinse to mash vessel；

Alternatively, the drain pipe automatically returns to plasma discharge position after the completion of the waste discharge stage.

7. according to claim 1 to the pulping process of any one of 4 food processor cleaned automatically, it is characterised in that: row In the slurry stage, the drain pipe is located at plasma discharge position and remains stationary, and the tapping valve repeatedly unlatches and closes, with realize to connect slurry Multiple plasma discharge in cup.

8. the pulping process for the food processor cleaned automatically according to claim 7, it is characterised in that: each tapping valve closes After closing, the grinding device carries out whipping mixing to the liquid in mash vessel；

Alternatively, the food processor further includes water feed apparatus, after each tapping valve is closed, the water feed apparatus is to mash vessel Interior water inlet is blent.

9. according to claim 1 to the pulping process of any one of 4 food processor cleaned automatically, it is characterised in that: system In the slurry stage, slurries obtained are made a living slurries；

Alternatively, the food processor further includes heating device, in pulp stage, heating device endures the slurries of formation It boils.

10. the pulping process for the food processor cleaned automatically according to claim 1, it is characterised in that: the food adds Work machine includes first driving device and the second driving device, and the first driving device driving drain pipe rotation, described second drives Dynamic device driving tapping valve work.