CN104938905A - Foodstuff mixer - Google Patents

Abstract

A foodstuff mixer comprises the following elements: a mixing cylinder freely being supported by a machinery frame and used for containing food material; a stirrer arranged in the mixing cylinder and used for stirring the food material; a guide portion used for guiding cool air into the mixing cylinder; a control device controlling rotation of the mixing cylinder. In rotation of the mixing cylinder, the mixer uses the stirrer to lift up and drop the food material so as to mix the food material, and uses the cool air to cool off the food material; the control device can stop the rotation of the mixing cylinder when the stirrer lifts up the food material. The foodstuff can simply and effectively cool off vinegar food in the mixing cylinder.

Description

Food materials mixer

Technical field

The present invention relates to a kind of food materials mixer mixed by various food, such as, relate to and vinegar (sushi vinegar) is blended in meal the food materials mixers such as the vinegar mixer making vinegar meal.

Background technology

As the food materials mixer mixed various food, patent document 1 and patent document 2 disclose and a kind ofly vinegar are blended in meal the vinegar mixer making vinegar meal.

The vinegar mixer of patent document 1 and patent document 2 has: mechanical framework and mixing drum, and described mixing drum is rotatably supported on this mechanical framework around the drum rotating axle core of left and right directions.This mixing drum has: the cylinder body of upper opening shape and seal the drum cover of upper opening of this cylinder body.The stirring rod of left and right across its inner space is provided with at the cylinder body of mixing drum and the inside of drum cover.Vinegar by carrying out rotary actuation to described cylinder body around drum rotating axle core, thus is blended in meal in mixing drum inside by this vinegar mixer.

Here, the vinegar mixer of patent document 1, imports cooling-air from the side of the drum rotating axle of tubular, is supplied in mixing drum, thus cools the vinegar meal (rice) in this mixing drum.In addition, be provided with the cooling duct that cooling water passes through in the outer peripheral face side of mixing drum, by cooling water is imported this cooling duct, thus vinegar meal cooled.

Cooling-air by intermittently making mixing drum rotate, and is supplied in mixing drum by the vinegar mixer of patent document 2, thus cools vinegar meal.That is, after carrying air under the state making mixing drum temporarily stop, making this mixing drum rotate and stir, thus vinegar meal is cooled.

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2001-54363 publication

Patent document 2: Japanese Unexamined Patent Publication 2005-245387 publication

Invent problem to be solved

Cooling water by being imported in mixing drum by cooling-air from the side of drum rotating axle, and is imported the cooling duct being formed at the outside of mixing drum by the vinegar mixer of patent document 1, thus cools vinegar meal.That is, in order to cool vinegar meal, need import the device of cooling-air and import the device of cooling water, there is device complexity and the problem maximized.

On the other hand, cooling-air by intermittently making mixing drum rotate, and is supplied in mixing drum by the vinegar mixer of patent document 2, thus cools vinegar meal.In this patent document 2, although describe rotation, the stopping of repetition mixing drum, while cool vinegar meal, owing to only importing cooling-air when mixing drum stops, so be sometimes difficult to cool vinegar meal expeditiously.

Summary of the invention

Therefore, the present invention is point in view of the above problems, object be to provide a kind of can simply and expeditiously to the food materials mixer that the vinegar meal in mixing drum cools.

For solving the means of problem

For solving above-mentioned technical task, the technological means that the present invention takes with point as follows for feature.

1st technical scheme is a kind of food materials mixer, has: mixing drum, and described mixing drum is rotatably supported on mechanical framework, and receives food materials; Mixing component, described mixing component is located in described mixing drum, and stirs described food materials; Introduction part, cooling-air imports in described mixing drum by described introduction part; And control device, described control device controls the rotation of described mixing drum, when described mixing drum rotates, described food materials mixer lifts food materials by described mixing component, and food materials are fallen, thus various food is mixed, the feature of this food materials mixer is, when being cooled food materials by described cooling-air, described control device make described mixing component be food materials lift posture time the rotation of described mixing drum stop.

The feature of the 2nd technical scheme is, described control device make described mixing component be food materials lift posture time the dwell time of described mixing drum increase gradually.

3rd technical scheme is a kind of food materials mixer, has: mixing drum, and described mixing drum is rotatably supported on mechanical framework, and receives food materials; Mixing component, described mixing component is located in described mixing drum, and stirs described food materials; Introduction part, cooling-air imports in described mixing drum by described introduction part; And control device, described control device controls the rotation of described mixing drum, when described mixing drum rotates, described food materials mixer lifts food materials by described mixing component, and food materials are fallen, thus mixes various food, the feature of this food materials mixer is

When being cooled food materials by described cooling-air, described control device make described mixing component be food materials lift posture time described mixing drum rotary speed than described mixing component be food materials non-lift posture time the rotary speed of described mixing drum slow.

The feature of the 5th technical scheme has wind direction set parts, and described wind direction set parts will import inner cooling-air to the described food materials guiding be lifted from described mixing drum, and to the food materials guiding fallen.

The feature of the 6th technical scheme is that described mixing drum has: opening and closing lid freely, and described lid carries out food materials picking and placeing for this mixing drum; And switching mechanism, described switching mechanism keeps the locking of described lid when this mixing drum rotates to a direction, and remove the locking of described lid when mixing drum rotates to other direction thus described lid can be opened, described mixing drum is configured to, when described mixing drum rotates to other direction, the food materials bearing-surface of this mixing drum tilts gradually relative to horizontal direction and discharges food materials, at described mixing drum from the discharge starting position of food materials until during discharging recovery, described control device makes the rotation of this mixing drum stop.

The feature of the 7th technical scheme is, described mixing component has multiple stirring rod, across the inner space of described mixing drum about described multiple stirring rod, and rotate together with described mixing drum, the described introduction part importing cooling-air to described inner space is provided with in a side side of described mixing drum

This food materials mixer has wind direction set parts, the cooling-air importing described introduction part is led to the rotation with described mixing drum by the food materials that described multiple stirring rod is lifted by described wind direction set parts, and to the food materials guiding by falling between each described stirring rod.

The feature of the 8th technical scheme is, described introduction part is formed in the cylinder fulcrum of the tubular of the rotating shaft core as described mixing drum, and described wind direction set parts is arranged in described cylinder fulcrum to rotate together with described mixing drum.

The feature of the 9th technical scheme is, described wind direction set parts has air outlet, and described air outlet, when each described stirring rod is the posture lifting described food materials, blows described cooling-air upward, and blows described cooling-air downwards.

The feature of the 10th technical scheme is, described wind direction set parts has air intake vent, the cooling-air importing described introduction part enters described air intake vent, described wind direction set parts has separating part, and the cooling-air entering described air intake vent is divided into the cooling-air blown to described top and the cooling-air blown to described below by described separating part.

Invention effect

Adopt the present invention, following effect can be realized.

Adopt the 1st technical scheme, when mixing component is the posture lifting food materials, the rotation of mixing drum stops, therefore, it is possible to guarantee that the food materials be lifted are disintegrated and the lowering time fallen gradually, thus reliably can being cooled by cooling-air.Such as, dropping in mixing drum by vinegar and rice, when mixing them and make vinegar meal (rice), because vinegar meal has viscosity, this vinegar meal can be stirred parts with the rotation of mixing drum and lift.Stop due under the state that mixing drum is lifted at vinegar meal, thus the vinegar meal be lifted due to deadweight shape disintegrate gradually, by between mixing component and dispersion and falling.Therefore, disintegrate to shape after vinegar meal is lifted and in the process fallen, cooling-air can be made easily to contact with vinegar meal entirety, thus the cooling effect of cooling-air can be improved.

Adopt the 2nd technical scheme, even if food materials pass through in time and become the state being difficult to fall, food materials also can be made to fall.Such as, when to vinegar and meter Jin Hang mix and blend, along with mixing time is elongated, the viscosity grow of vinegar meal (rice), the shape of the vinegar meal be lifted is difficult to disintegrate, and becomes and is difficult to fall, but due to mixing component be food materials lift posture time the dwell time of mixing drum elongated gradually, even if so the viscosity of vinegar meal strengthens, vinegar meal also can be made to fall.

Adopt the 3rd technical scheme, due to food materials lift posture time mixing drum rotary speed than non-lift posture time the rotary speed of mixing drum slow, fall so the food materials be lifted easily are disintegrated under the state be lifted.

Adopt the 4th technical scheme, as mentioned above, when to vinegar and meter Jin Hang mix and blend, due to the impact of the viscosity of vinegar meal (rice), become shape to be gradually difficult to disintegrate, be difficult to fall, but due to mixing component be food materials lift posture time the reduced value of revolution of mixing drum become large gradually, even if so the viscosity of vinegar meal strengthens, vinegar meal also can be made to fall.

Adopt technical scheme 5, because cooling-air reliably contacts with the food materials fallen, so can cool food materials expeditiously with the food materials be lifted (such as, vinegar meal).

Adopt technical scheme 6, due at mixing drum from the discharge starting position of food materials until discharge during recovery, the rotation of mixing drum stops, so the food materials in mixing drum can be disintegrated due to deadweight and outside to this mixing drum is discharged.

Adopt technical scheme 7, cooling-air and the rotation along with mixing drum can be made and contacted by the food materials that multiple stirring rod is lifted, and cooling-air can be made also to contact with the food materials by falling between each stirring rod.Such as, dropping in mixing drum by vinegar and rice, when mixing them and make vinegar meal (rice), because vinegar meal has viscosity, this vinegar meal can be stirred rod with the rotation of mixing drum and lift.In addition, the vinegar meal be lifted due to deadweight shape disintegrate gradually, by falling between stirring rod.By wind direction set parts, cooling-air can be made intensively to contact with the vinegar meal fallen with the vinegar meal be lifted, so can cool these vinegar meals expeditiously.

Especially, the vinegar meal shape when falling be lifted is disintegrated at leisure, but due to wind direction set parts, the vinegar meal that cooling-air and shape also can be made to have disintegrated in the process that shape is disintegrated contacts.Therefore, also can cool the inside of vinegar meal.In addition, at the lowering position that vinegar meal falls, vinegar meal can slowly be piled up, and the vinegar meal that cooling-air can be made also slowly to pile up with this by wind direction set parts contacts.

Adopt technical scheme 8, because wind direction set parts rotates together with mixing drum, even if so do not correspond to the direction changing this wind direction set parts rotatably of mixing drum, also cooling-air can be made simply to contact with the food materials fallen with the food materials (such as, vinegar meal) be lifted.

Adopt technical scheme 9, can make cooling-air simultaneously be stirred food materials that rod lifts upward and contact from the food materials fallen downwards between stirring rod.

Adopt technical scheme 10, separating part is set by means of only on wind direction set parts, just simply 1 bundle cooling-air can be divided into the cooling-air contacted with the food materials be lifted and the cooling-air contacted with the food materials fallen.

Accompanying drawing explanation

Fig. 1 is the stereogram of the vinegar mixer seen from oblique right front.

Fig. 2 is the stereogram of mechanical framework.

Fig. 3 is the side view of the body side frame inside representing right side.

Fig. 4 (a) is the stereogram of the body side frame on right side, and Fig. 4 (b) is the stereogram of the body side frame in left side.

Fig. 5 is the front view of mixing drum.

Fig. 6 is the top view of mixing drum.

Fig. 7 is the side view of mixing drum.

Fig. 8 (a) is the side view of Lock Part, and Fig. 8 (b) is the stereogram of Lock Part and its mounting portion.

Fig. 9 (a) is the side view of the configuration section of latch-release parts and drum cover limiting part, and Fig. 9 (b) is the front view of the configuration section of latch-release parts and drum cover limiting part.

Figure 10 is the top view of the configuration section of latch-release parts and drum cover limiting part.

Figure 11 is the side view cutaway drawing of mixing drum.

Figure 12 is the vertical view cutaway drawing of cylinder body.

Figure 13 is the front sectional view of mixing drum.

Figure 14 is the stereogram of mixing component.

Figure 15 (a) is the side view of wind direction set parts, and Figure 15 (b) is that the C of wind direction set parts is to top view.

Figure 16 (a) is the A-A alignment sectional view of Figure 15, and Figure 16 (b) is the B-B alignment sectional view of Figure 15.

Figure 17 is the diagram of the relation represented between the position of vinegar meal (rice) and stirring rod.

Figure 18 is the control system block diagram of vinegar meal mixer.

Figure 19 is the skeleton diagram of the control that control device carries out.

Figure 20 (a) is the diagram of the 1st example representing stir process, simmer the rotary speed of the mixing drum in process, cooling processing and working time, and Figure 20 (b) is the diagram of the 2nd example representing stir process, simmer the rotary speed of the mixing drum in process, cooling processing and working time.

Figure 21 (a) is the side-looking action diagram of the action representing drum cover limiting part, and Figure 21 (b) is the side-looking action diagram of the action representing latch-release parts.

Figure 22 (a) is the side view automatically locking the state before releasing of Lock Part, and Figure 22 (b) is the side view automatically locking the state after releasing of Lock Part.

Figure 23 (a) ~ Figure 23 (d) is the side-looking action diagram of the action of the latch-release representing Lock Part.

Figure 24 (a) be discharge vinegar meal time the side view starting to open drum cover, Figure 24 (b) be cylinder body become vinegar meal discharge posture time side view.

Symbol description

1 food materials mixer

2 mechanical frameworks

3 mixing drums

9 control device

25L, 25R cylinder fulcrum

47 lids

157 introduction parts

176 wind direction set parts

178 separating parts

192 air intake vents

193 air outlets

201,202 mixing components

203,211,214 stirring rod

Detailed description of the invention

Below, with reference to accompanying drawing, embodiments of the present invention are described.

Fig. 1, as the food materials mixer mixed various food, illustrates and vinegar (sushi vinegar) is automatically mixed in meal the vinegar mixer 1 making vinegar meal.Fig. 1 is the stereogram of the vinegar mixer 1 seen from oblique right front.

In addition, in the following description, side refers to the direction from the end of the left and right directions of vinegar mixer 1 towards left and right directions central authorities in left and right directions, and left and right directions foreign side refers to the direction from the left and right directions central authorities of vinegar mixer 1 towards the end of left and right directions.

As shown in Figure 1, described vinegar mixer 1 mainly has: mechanical framework 2 and the mixing drum 3 be blended in by vinegar in meal.As shown in Figure 2, described mechanical framework 2 has: be placed on the underframe 4 on ground etc.; Erect body side frame 5L, the 5R in this underframe 4 left and right sides; And the rear portion connecting plate 6 will coupled together between the rear end side top of left and right sides framework 5L, 5R.

Mixing drum 3 is configured in the upper side between left and right sides framework 5L, 5R, and is rotatably supported on left and right sides framework 5L, 5R around Y-axis.Left and right sides framework 5L, 5R are formed as hollow form by sheet material, and are oppositely disposed at left and right directions.

As shown in Figure 3, be provided with in the body side frame 5R on right side: the barrel drive motors 7 mixing drum 3 being carried out to rotary actuation; Cooling-air is supplied to the air-supply arrangement 8 in mixing drum 3; And to the control device 9 that these barrel drive motors 7 and air-supply arrangement 8 control.

Described barrel drive motors 7 is made up of positive and negative rotation motor freely.This barrel drive motors 7 is made up of brushless DC motor in the present embodiment, and its rotary speed can be controlled by control device 9.

Air-supply arrangement 8 has: the pressure fan 10 producing cooling air, and described pressure fan 10 is made up of air blast etc.; Air supply duct 11, the end side of described air supply duct 11 is connected with the blow-off outlet of this pressure fan 10; And air supply part 12, described air supply part 12 is connected with the other end of this air supply duct 11 and is delivered in mixing drum 3 by cooling-air etc.The rotary speed of described pressure fan 10 controls by control device 9.

In this mixing drum 3, supply cooling-air from the right side (side of left and right) of mixing drum 3 by this air-supply arrangement 8, be supplied to the cooling-air in this mixing drum 3 and be discharged from the left side (opposite side of left and right) of mixing drum 3.

As shown in Fig. 4 (a), the madial wall 13 of the side of the left and right directions inward side of the body side frame 5R on the right side of forming is provided with: the right side of mixing drum 3 is supported to rotatable parts of bearings 15R; And by the cylinder drive gear 16 of described barrel drive motors 7 rotary actuation.Described parts of bearings 15R is located at the top of depressed part 14, and this depressed part 14 is formed at the top of the fore-and-aft direction middle part of the madial wall 13 of right side body side frame 5R.Cylinder drive gear 16 is located at the lower side (bottom of depressed part 14) of parts of bearings 15R.

As shown in Fig. 4 (b), the madial wall 23 of the side of the left and right directions inward side of the body side frame 5L on the left of forming is provided with the left side of mixing drum 3 is supported to rotatable parts of bearings 15L.This parts of bearings 15L is located at the top of the fore-and-aft direction middle part of the madial wall 23 of left side body side frame 5L.

Parts of bearings 15L, 15R of left and right are configured to relative shape in the lateral direction, and have respectively and be formed in the U-shaped groove 24 that side is seen as U-shaped.

The bottom of the U-shaped groove 24 of parts of bearings 15L, 15R of left and right is the bearing portion 26 of the arc-shaped of cylinder fulcrum 25L, the 25R rotatably carrying cylindrical shape described later.The top of the U-shaped groove 24 of parts of bearings 15L, 15R of left and right is the axially oriented portion 27 cylinder fulcrum 25L, 25R imported from upper side in bearing portion 26.The skewed of oblique upper is forward made in this axially oriented portion 27, and makes the open shape of oblique upper forward.

As shown in Fig. 4 (a), the madial wall 13 of the body side frame 5R on right side is formed with circular air vent 28.This air vent 28 is formed on the position corresponding with the bearing portion 26 of right side parts of bearings 15R.This air vent 28 is connected with the air supply part 12 of described air-supply arrangement 8, and can supply cooling-air from this air vent 28 in mixing drum 3.

As shown in Fig. 4 (b), the madial wall 23 of the body side frame 5L in left side is formed with circular steam vent 29.This steam vent 29 is formed on the position corresponding with the bearing portion 26 of left side parts of bearings 15L.Air in mixing drum 3 is discharged by this steam vent 29.

As shown in Figure 1, the bottom between left and right sides framework 5L, 5R and the below of mixing drum 3 are the configuration space of vinegar meal containing box 39 (food materials containing box), and this vinegar meal containing box 39 put into by the vinegar meal that mixing drum 3 is made.Vinegar meal containing box 39 is made up of the container of upper end open shape, inserts the configuration space of vinegar meal containing box 39, and be placed on underframe 4 from front side.

As shown in Figure 2, the rear portion on underframe 4, is provided with boxes detecting device 40, and the situation that this boxes detecting device 40 pairs of vinegar meal containing boxs 39 are configured on the appropriate location below mixing drum 3 detects.

As shown in Fig. 5 ~ 7, mixing drum 3 comprises: the cylinder body 46 of bottom and opening and closing seal the drum cover 47 on the top of this cylinder body 46 freely.These cylinder bodies 46 and drum cover 47 are by resin forming.

Cylinder body 46 is upper opening shape, drum cover 47 is lower openings shape, the flange part 48,49 stretched out outward from opening periphery is respectively equipped with at the opening peripheral side of cylinder body 46 and drum cover 47, by being overlapped by these flange parts 48,49, thus cylinder body 46 is sealed freely by drum cover 47 opening and closing.

What the front side of flange part 49 sidepiece of drum cover 47 was formed with that foreign side in the lateral direction stretches out stretches out holding section 50.Cylindric cylinder fulcrum 25L, 25R is provided with in the left and right sides on cylinder body 46 top, described cylinder fulcrum 25L, 25R have the axle core of left and right directions, and the axle core of this cylinder fulcrum 25L, 25R is the rotating shaft core of mixing drum 3 (drum rotating axle core X).Left and right cylinder fulcrum 25L, 25R are imported into the bearing portion 26 being in described parts of bearings 15L, 15R of same side at left and right directions by axially oriented portion 27, carried and be supported to rotatable by bearing portion 26.

Right hand roller fulcrum 25R is provided with gear installation portion 51, this gear installation portion 51 is fitted together to the driven gear 52 that relatively can not rotate around drum rotating axle core X is installed.In addition, also can by one-body molded with cylinder fulcrum 25R for driven gear 52 be same parts.

This driven gear 52 engages with cylinder drive gear 16 from upper side when cylinder fulcrum 25L, 25R are imported bearing portion 26, and power can be delivered to this driven gear 52 from cylinder drive gear.By rotary power is passed to driven gear 52 from cylinder drive gear 16, thus can around drum rotating axle core X rotary actuation mixing drum 3.

If make described barrel drive motors 7 rotate forward, then the rotary power of this barrel drive motors 7 is delivered to driven gear 52 from cylinder drive gear 16, thus mixing drum 3 is driven in rotation to the rear veer (direction) in Fig. 7 shown in arrow R direction.In addition, if make barrel drive motors 7 reverse, then the rotary power of this barrel drive motors 7 is delivered to driven gear 52 from cylinder drive gear 16, thus mixing drum 3 in Fig. 7 shown in arrow F direction before veer (other direction) be driven in rotation.

As shown in Figure 1, Lock Part 71 by resin forming, and arranges pair of right and left in flange part 49 front portion of drum cover 47.As shown in Figure 8, Lock Part 71 has: Lock Part main body 87; And from this Lock Part main body 87 bottom in the lateral direction foreign side give prominence to the guide 88 of formation.

Lock Part main body 87 has pivot and props up shaft sleeve part 90 on top, described pivot props up shaft sleeve part 90 and is formed with the pin-and-hole 89 with left and right directions axle core.Be formed from the recessed recess 91 of rear side in the rear side of the middle part up and down of Lock Part main body 87, be formed with the portion of being locked and fastened 92 in the bottom of this recess 91.

The 88a side, the back side of guide 88 is formed as flat condition, and this flat is latch-release spigot surface.Corner part 88d between the upper surface 88b of guide 88 and front surface 88c is formed as arc-shaped.

The left and right sides of flange part 49 front portion of drum cover 47 is provided with Lock Part installation portion 95.On each Lock Part installation portion 95, be provided with pair of right and left pin sleeve 97 at spaced intervals at left and right directions, pair of right and left pin sleeve 97 is formed with the pin-and-hole 96 with left and right directions axle core.The pivot being configured with Lock Part 71 between this pin sleeve 97 props up axle sleeve 90, and Lock Part 71 props up the pivot backing pin 98 of the pin-and-hole 89,96 of the pin sleeve 97 of axle sleeve 90 and left and right by this pivot through and pivot props up into around Y-axis rotatable.

In addition, in the left and right sides of flange part 48 front portion of cylinder body 46, be provided with and the portion that is locked and fastened 92 of Lock Part 71 locking latch for printed circuit 99 freely.This locking latch for printed circuit 99 is made up of the cylinder part of the axle core with left and right directions.Locking latch for printed circuit installation portion 100 is provided with in the left and right sides of flange part 48 front portion of cylinder body 46, on this locking latch for printed circuit installation portion 100, be provided with pair of right and left pin sleeve 102 at spaced intervals at left and right directions, this pair of right and left pin sleeve 102 is formed with the pin-and-hole 101 of the axle core with left and right directions.Between this left and right pins axle sleeve 102, be configured with described locking latch for printed circuit 99, locking latch for printed circuit 99 is rotatably supported around axle core by the pin-and-hole 101 of these left and right pins axle sleeves 102 through and the mount pin 103 of locking latch for printed circuit 99.

By being engaged from front side with locking latch for printed circuit 99 in the portion that is locked and fastened 92 of described Lock Part 71, Lock Part 71 is just lock-out state, and drum cover 47 is locked into the closure state sealed by the upper opening of cylinder body 46.In addition, by making Lock Part 71 forcibly around pivot backing pin 98 forwards side oscillation, thus Lock Part 71 produces elastic deformation, and the portion 92 that is locked and fastened goes out of lock latch for printed circuit 99, becomes latch-release state.In addition, when being locked by Lock Part 71 on the contrary, by making Lock Part 71 forcibly swing rearward around pivot backing pin 98, thus Lock Part 71 produces elastic deformation, be locked and fastened portion 92 with locking latch for printed circuit 99 engage, Lock Part 71 becomes lock-out state.

As shown in Figure 1, Figure 2 and shown in Fig. 4, mechanical framework 2 is provided with: the latch-release parts 104 that the locking of Lock Part 71 is automatically terminated; And the drum cover limiting part 105 drum cover 47 limited to cylinder body 46 side oscillation when discharging vinegar meal.These latch-release parts 104 and drum cover limiting part 105 are configured on the above-below direction middle part of the front portion of the opposite face of left and right each body side frame 5L, 5R of mechanical framework 2.

As shown in FIG. 9 and 10, these latch-release parts 104 are formed as tubular respectively with drum cover limiting part 105, on each body side frame 5L, 5R, are provided with latch-release parts 104, above have two drum cover limiting parts 105.In addition, Fig. 9 and Figure 10 represents the right side of the configuration section of latch-release parts 104 and drum cover limiting part 105.

In addition, these latch-release parts 104 and drum cover limiting part 105 are located on tilting member 106, and described tilting member 106 configures with the outer surface (face of the opposite side of left and right sides framework 5L, 5R) of the madial wall 23,13 of each body side frame 5L, 5R is close.This tilting member 106 by front and back width along with upward and expansion triangular plate form.

Be provided with a pair, front and back installation shaft 107F, the 107R of square standing shape in the lateral direction on the top of this tilting member 106, be fixed with the swing fulcrum 108 of this tilting member 106 through in the lateral direction in the bottom of tilting member 106.Latch-release parts 104 around axle center rotatably by the outer installation shaft 107F being bearing in front side, the drum cover limiting part 105 of upside around axle center rotatably by the outer installation shaft 107R being bearing in rear side.Downside drum cover limiting part 105 around axle center rotatably by the outer left and right directions inward side being bearing in described swing fulcrum 108.

In addition, latch-release parts 104 are positioned at the position of close left and right directions side compared to upper and lower drum cover limiting part 105.These latch-release parts 104, when mixing drum 3 forwards direction F rotates, can abut with the latch-release spigot surface 88a of Lock Part 71.In addition, upper and lower drum cover limiting part 105, when mixing drum 3 forwards direction F rotates, can abut with the lower face side of stretching out holding section 50 described in the flange part of drum cover 47.Therefore, Lock Part 71, the locking latch for printed circuit 99 engaged with this Lock Part 71, latch-release parts 104 form switching mechanism, the purposes of this switching mechanism is, when turning after mixing drum 3, the rotation of the direction (time) keeps the locking of drum cover (lid) 47, and the rotation of the other direction (time) can be removed the locking of drum cover 47 and open it when mixing drum 3 forward.

The madial wall 23,13 of swing fulcrum 108 through body side frame 5L, 5R, rotatably be supported in the madial wall 23,13 of this body side frame 5L, 5R by bearing 110 around the axle center of left and right directions and support on stay 109, described supporting stay 109 is configured in body side frame 5L, 5R inside and is fixed on the madial wall 23,13 of body side frame 5L, 5R.Thus, tilting member 106 is supported freely around swing fulcrum 108 swing.

On the top of described tilting member 106, be formed with the gathering sill 111 of the arc-shaped centered by the axle center of swing fulcrum 108 along the longitudinal direction, in this gathering sill 111, insert the banking pin 112 be fixed on the madial wall 23,13 of body side frame 5L, 5R.Banking pin 112 can relative movement in gathering sill 111, is abutted with banking pin 112 by the end of gathering sill 111, thus the swing of restriction tilting member 106.

Between the described bearing 110 of swing fulcrum 108, be equipped with spring hooking member 113, the front of extension spring 114 is hooked on the top of this spring hooking member 113.The rear end side of extension spring 114 is hooked in the spring hooking member 115 of the madial wall 23,13 being fixed on body side frame 5L, 5R.Tilting member 106 is subject to the force of this extension spring 114 and is pulled to rear.Abutted with banking pin 112 by the front end of described gathering sill 111, thus the swing of the rear of tilting member 106 is limited.

As shown in FIG. 11 and 12, the side cross-section shape of the inner space of mixing drum 3 is formed as from left and right end side to another side is roughly the same shape.

In addition, the main part of cylinder body 46 has: the sidewall 116 of left and right, is linearity when the upper limb 116a side of described sidewall 116 is seen; And to the perisporium 117 connected between the edge beyond the upper limb 116a of this left and right sidewall 116.

Front corner part 117c between the anterior 117a of the perisporium 117 of cylinder body 46 and bottom 117b and and the rear portion 117d of this perisporium 117 and bottom 117b between rear corner part 117e be formed as the bending that protrudes outward.The bottom 117b of the perisporium 117 of cylinder body 46 being formed when overlooking is the bottom opening 118 of rectangle.

Part before and after the front corner part 117c of the perisporium 117 of the cylinder body 46 and rear veer R of this front corner part 117c, the foreign side of the circular arc V connected to the bottom 117b (bottom of cylinder body 46) of the perisporium 117 centered by drum rotating axle core X and with cylinder body 46 bloats, and this part is the bellying 119F of the leading side of rear veer R being located at cylinder body 46.

In addition, part before and after the rear corner part 117e of the perisporium 117 of the cylinder body 46 and rear veer R of this rear corner part 117e, to bloating with the foreign side of the circular arc V of the inner surface bottom connection of the perisporium 117 of cylinder body 46 centered by the drum rotating axle core X, this part is the bellying 119R of row side after the rear veer R being located at cylinder body 46.

The main part of drum cover 47 has: the sidewall 120 of left and right, is linearity when the lower edge 120a side of the sidewall 120 of described left and right is seen; And to the perisporium 121 connected between the edge beyond the upper limb 120a of this left and right sidewall 120.

The top 121a of the perisporium 121 of drum cover 47 is formed as the bending protruded outward to posterior end.This sweep 122F bloats to the foreign side of the circular arc W connected centered by drum rotating axle core X and with the inner surface top (the top 121a inner surface of perisporium 121) of drum cover 47, and this sweep 122F is the bellying of the leading side of rear veer R being located at drum cover 47.In addition, the top 121a of the perisporium 121 of drum cover 47 is formed as to front lower end the bending that protrudes outward.This sweep 122R bloats to the foreign side of the circular arc W connected centered by drum rotating axle core X and with the inner surface top of drum cover 47, and this sweep 122R is the bellying of row side after the rear veer R being located at drum cover 47.In addition, in legend, the circular arc V connected with the bottom 117b of the perisporium 117 of the cylinder body 46 and circular arc W connected with the top 121a inner surface of the perisporium 121 of drum cover 47, be not both the circular arc of same radius, had may also be the circular arc of same radius.

The inner surface 123 (inner surface of cylinder body 46 is anterior) of the anterior 117a of the perisporium 117 of cylinder body 46, is formed as launching gradually from the upper open face 124 of the bottom 117b side direction cylinder body 46 of the perisporium 117 of cylinder body 46.

The inner surface 123 of the anterior 117a of the perisporium 117 of this cylinder body 46 is the vinegar meal bearing-surface (food materials bearing-surface) of supporting vinegar meal when discharge vinegar meal described later.

In addition, the inner surface 125 (the inner surface rear portion of cylinder body 46) of the rear portion 117d of the perisporium 117 of cylinder body 46 is formed as shape roughly orthogonal with the upper open face 124 of this cylinder body 46.

In the left and right directions of the cylinder fulcrum 25R on right side, side is communicated with the inner space of cylinder body 46.In addition, the outer side of left and right directions of the cylinder fulcrum 25R on the right side of this is also relative close to configuring with the described air vent 28 on the body side frame 5R being located at right side.As mentioned above, because air vent 28 is connected with the air supply part 12 of described air-supply arrangement 8, so be supplied to mixing drum 3 inside from the cooling-air etc. of air-supply arrangement 8 by the cylinder fulcrum 25R on right side.

In addition, as shown in figure 12, the cylinder fulcrum 25L in left side is provided with cover member 196, this cover member 196 prevents meal from invading in this cylinder fulcrum 25L.This cover member 196 has: cap body 197, the opening of side in the left and right directions of the cylinder fulcrum 25L on the left of this cap body 197 covers; And fitting portion 198, this fitting portion 198 is embedded in the cylinder fulcrum 25L in left side.Cap body 197 is formed as dome-shaped (hemispherical), is formed with multiple little opening and has aeration.

This cover member 196 inserts the cylinder fulcrum 25L in left side from left and right directions outward side, and fitting portion 198 abuts with the end 199 of side in the left and right directions of the cylinder fulcrum 25L in left side, and interior side is mobile in the lateral direction to limit this cover member 196 thus.In addition, cover member 196 rotates integrally with the cylinder fulcrum 25L in left side.

Because the cap body 197 of this cover member 196 is formed as dome-shaped, so meal is difficult to be attached in cap body 197, in addition, even if be loaded with meal in cap body 197, rotated together with mixing drum 3 by cover member 196, this meal will peel off from cap body 197.

As shown in figure 13, cylinder body 46 and drum cover 47 are separately installed with mixing component 201,202.As shown in figure 11, these mixing components 201,202 are respectively equipped with front and back a pair, are configured in toe lateral and the rear portion side of cylinder body 46 and drum cover 47.

Be installed on the main body side mixing component 201 of cylinder body 46, as shown in Figure 11, Figure 13, comprise: stirring rod 203 on the downside of the main body of left and right directions, on the downside of this main body, stirring rod 203 is configured at the bottom of cylinder body 46, and left and right is across this cylinder body 46; And the excellent support unit 204 of left and right, this excellent support unit 204 is configured at the left and right sides of stirring rod 203 on the downside of this main body, is fixed this stirring rod 203.These stirring rod 203 and excellent support unit 204 are metal.

Stirring rod 203 on the downside of main body, in the present embodiment, is provided with 2 (also can be 1, also can be provided with more than 3) in the vertical direction at spaced intervals.

Rod support unit 204 is made up of parts longer in the vertical direction, and its length is formed as upper end from cylinder body 46 until diapire 117b.This excellent support unit 204 is arranged on mounting groove 205, and this mounting groove 205 is formed on the sidewall 116 of cylinder body 46.

Be formed at the mounting groove 205 of the sidewall 116 of cylinder body 46, be formed to bottom 117b from the upper open face 124 of cylinder body 46, excellent support unit 130 inserts mounting groove 205 from upper open face 124 side of cylinder body 46.

The lid side mixing component 202 being installed on drum cover 47 comprises: the lid side stirring rod 211 of left and right directions, and this lid side stirring rod about 211 is across drum cover 47; The excellent support unit 212 of left and right, this excellent support unit 212 is configured at the left and right sides of this lid side stirring rod 211, is fixed this stirring rod 211; Support bar 213, from left and right, each excellent support unit 212 is fixed downwards this support bar 213 standing shape; And stirring rod 214 on the upside of main body, on the upside of this main body, stirring rod 214 is arranged between the cramp bar 213 of left and right.On the upside of these stirring rod 211, excellent support unit 212, cramp bar 213 and main body, stirring rod 214 is metal.

Lid side stirring rod 211, in the present embodiment, is provided with 2 (also can be 1, also can be provided with more than 3) in the vertical direction at spaced intervals.In addition, a side of lid side stirring rod 211 is configured at the top of drum cover 47, and the opposing party is configured at the bottom of drum cover 47.

The excellent support unit 212 of left and right is made up of parts longer in the vertical direction, its length be formed as lower end from drum cover 47 until perisporium 121 top 121a near.This excellent support unit 212 is arranged on mounting groove 215, and this mounting groove 215 is formed on the sidewall 120 of drum cover 47.Be formed at the mounting groove 215 of the sidewall 120 of drum cover 47, formed from the lower openings face 133 of drum cover 47 to top, excellent support unit 212 inserts mounting groove 215 from the side, lower openings face 133 of drum cover 47.

Stirring rod 214 on the upside of main body, is provided with 2 (also can be 1, also can be provided with more than 3) in the vertical direction at spaced intervals.On the upside of the main body of upside, the top of left and right cramp bar 213 is connected by stirring rod 214, and on the upside of the main body of downside, the bottom of left and right cramp bar 213 is connected by stirring rod 214.In addition, on the upside of left and right cramp bar 213 and the main body of downside, stirring rod 214 is bent by 1 bar and is formed.

Described cramp bar 213 becomes and inserts shape in cylinder body 46 under the state of closed drum lid 47, and near the left and right directions inward side of each excellent support unit 204 being positioned at the main body side mixing component 201 of fore-and-aft direction same side.Therefore, under the state of closed drum lid 47, the top of stirring rod 214 between the rod support unit 204 of the left and right of main body side mixing component 201 on the upside of main body.In addition, under the state of closed drum lid 47, on the upside of main body, stirring rod 214 is positioned at before and after the top of cylinder body 46.

In addition, under the state of closed drum lid 47, the excellent support unit 204 being positioned at the main body side mixing component 201 of same side in the longitudinal direction forms in the vertical direction with the excellent support unit 212 of lid side mixing component 202 and docks shape, be positioned at stirring rod 214 on the upside of the lid side stirring rod 211 of same side, main body in the longitudinal direction, and stirring rod 203 arrangement spaced apart on above-below direction (in Figure 11 direction shown by arrow Z) on the downside of main body.

Said structure also can be configured to: each excellent support unit 204 splitting main body side mixing component 201 up and down, stirring rod on the upside of main body 214 is fixed on the parts on the top forming this divided excellent support unit 204, stirring rod on the downside of main body 203 is fixed on the parts of the bottom forming this divided excellent support unit 204, by taking off the parts on the top forming excellent support unit 204 from cylinder body 46, thus stirring rod 214 on the upside of main body is kept out of the way cylinder body 46 from the allocation position in cylinder body 46.Thereby, it is possible to make stirring rod 214 on the upside of main body keep out of the way from the surrounding of the top oral area 124 of cylinder body 46.

In addition, as shown in figure 12, the inside of the cylinder fulcrum 25R on right side is communicated with the inner space of cylinder body 46, and the outer side of the left and right directions of cylinder fulcrum 25R on the right side of this and the air vent 28 be located on the body side frame 5R on right side are close to configuring.Therefore, the cooling-air etc. from air-supply arrangement 8 is supplied to mixing drum 3 inside by the inside of the cylinder fulcrum 25R on right side.That is, cylinder fulcrum 25R is formed with internally space and imports the introduction part 157 of cooling-air.In other words, be provided with internally space in a side side of mixing drum 3 and import the introduction part of cooling-air.

In addition, the inside of the cylinder fulcrum 25L in left side is communicated with the inner space of cylinder body 46, and the outer side of the left and right directions of cylinder fulcrum 25L on the left of this is also relative close to configuring with the steam vent 29 on the body side frame 5L being located at left side.Therefore, the cooling-air etc. being supplied to mixing drum 3 inside is discharged from mixing drum 3 by the cylinder fulcrum 25L in left side.

As shown in figure 12, in the inside of the cylinder fulcrum 25R on right side, that is, introduction part 157 is provided with the wind direction set parts 176 set the wind direction of cooling-air.This wind direction set parts 176, as shown in Figure 12,16, has the insertion part 177 being embedded in introduction part 157.

Insertion part 177 has the article body 179 of tubular, and this article body 179 has the axle core of left and right directions.The axle core of this article body 179 is consistent with drum rotating axle core X (the axle core of the cylinder fulcrum 25R on right side).

The air intake vent 192 that the cooling-air that the left and right directions inward side of article body 179 is formed with introduction part 157 enters.Be provided with the separating part 178 separated by the cooling-air importing air intake vent 192 in the inside of article body 179, and be provided with the wind-guiding face 183 that separated cooling-air is led.

Specifically, the perisporium of article body 179 is caved in the inside, thus form the guide wall 182 of radial a pair, this guide wall 182 is formed as with article body 179 that pars intermedia is close in the lateral direction from left and right directions both ends, and the bending shifted to axle core side, using the inner surface of this guide wall 182 as wind-guiding face 183.In addition, separating part 178 is set to the central portion between the guide wall 182 of a pair.Specifically, separating part 178 is arranged from radial one end of article body 179 with extending to the other end, and arranges with extending to the other end from left and right directions one end of article body 179, is divided into two by the circulation flow path of the cooling-air between guide wall 182.In addition, the left and right directions outward side of separating part 178 is formed as its wall flat dull and stereotyped wall 190 relative with wind-guiding face 183, and the left and right directions inward side of separating part 178 is two forked two fork walls 191 of the inward side V shape ground branch in the lateral direction from the left and right directions foreign side end of dull and stereotyped wall 190.Wall portion (the 1st wall portion) 191a of one side of two fork walls 191 of this separating part 178 and wall portion (the 2nd wall portion) 191b of the opposing party is formed along relative wind-guiding face 183 bending respectively.

The left and right directions outward side of article body 179 is formed as air outlet 193.In detail, between the left and right directions inward side and the left and right directions inward side in wind-guiding face 183 of the 1st wall portion 191a, be formed with the 1st air outlet 193a, between the left and right directions inward side and the left and right directions inward side in wind-guiding face 183 of the 2nd wall portion 191b, be formed with the 2nd air outlet 193b.

Therefore, the cooling-air importing air intake vent 192 is divided into 2 parts by separating part 178, part cooling-air is led by wind-guiding face 183 and the 1st wall portion 191a, thus wind direction becomes the incline direction that the footpath to article body 179 is shifted outward, and blows to inner space from the 1st air outlet 193a.In addition, another part cooling-air is led by wind-guiding face 183 and the 2nd wall portion 191b, and wind direction becomes the incline direction that the footpath to article body 179 is shifted outward, and blows to inner space from the 2nd air outlet 193b.Although wind direction set parts 176 is relative with cover member 196, but because the 1st air outlet 193a and the 2nd air outlet 193b separates in the longitudinal direction, so cooling-air can not be discharged directly to cover member 196, namely, can not be direct towards cover member 196 from wind direction set parts 176, therefore, it is possible to prevent the meal etc. dispersed due to cooling-air to be attached on cover member 196.

In addition, spline groove 180 is formed with at the outer peripheral face of article body 179 by a pair ridge 185 arranged along drum rotating axle core X-direction (left and right directions).The left and right end of this spline groove 180 is the open shape opened in the lateral direction.In addition, this spline groove 180 is chimeric with spline ridge 181, and described spline ridge 181 is arranged at along drum rotating axle core X-direction on the inner peripheral surface of the cylinder fulcrum 25R on right side.Thus, wind direction set parts 176 and mixing drum 3 rotate integrally.That is, with rotate together with mixing drum 3 mode wind direction set parts 176 is installed.

Be provided with ribs 186 and annular support portion 187 at the outer peripheral face of article body 179, this ribs 186 and annular support portion 187 abut with the inner peripheral surface of the cylinder fulcrum 25R on right side and support wind direction set parts 176.

Supporting rib 186 is formed along left and right directions, and spaced apartly in the circumference of article body 179 is provided with multiple (in present embodiment being 3).Be provided with restriction projection 188 in the left and right directions outer end of each supporting rib 186, described restriction projection 188 gives wind direction set parts 176 anti-avulsion resistance.

Side in the left and right directions that annular support portion 187 is located at article body 179, this annular support portion 187 is by abutting with the stage portion 189 of ring-type thus limiting wind direction set parts 176 inward side (private side of mixing drum 3) movement in the lateral direction, and the stage portion 189 of described ring-type is located at the left and right directions inward side in the cylinder fulcrum 25R on right side.Therefore, wind direction set parts 176 is embedded in the cylinder fulcrum 25R on right side from left and right directions outward side.In addition, annular support portion and described spline groove 180 are reported to the leadship after accomplishing a task, and at this partial interruption of reporting to the leadship after accomplishing a task.

The direction of the cooling-air blown out from above-mentioned 1st air outlet 193a and the 2nd air outlet 193b is towards vinegar meal (food materials), described vinegar meal, falls while be stirred parts 201,202 stirring in the inside of mixing drum 3 (cylinder body 46).

Relation between the direction of the cooling-air blown out from the 1st air outlet 193a and the 2nd air outlet 193b and vinegar meal is described.

As shown in Figure 17 (a), in the inside of cylinder body 46, mixing component (main body side mixing component 201, lid side mixing component 202) vertically direction time, vinegar meal C (C1) is positioned at, lower inner surface (the vinegar meal bearing-surface) 123a of such as relative with drum cover 47 cylinder body 46.Along with cylinder body 46 repeats to rotate, vinegar meal C (C1) produces viscosity, and becomes the state being easily stirred rod 201,202 and lifting.So, when vinegar meal C1 produces viscosity, if make cylinder body 46 rotate from the state shown in Figure 17 (a), then the vinegar meal C1 of the lower inner surface of cylinder body 46 is lifted by the stirring rod of main body side (on the upside of downside stirring rod 203, main body stirring rod 214), thus as Suo Shi Figure 17 (b), be positioned at the top of the stirring rod (on the upside of downside stirring rod 203, main body stirring rod 214) of main body side.

That is, become the position close to horizontal direction at the orientation Z of the stirring rod (on the upside of downside stirring rod 203, main body stirring rod 214) of main body side, vinegar meal C1 becomes block and is lifted.In other words, in the position that the arrangement imaginary line L connecting stirring rod 203,214 is consistent with the line of horizontal direction, vinegar meal C1 is lifted.In this condition, the direction of the cooling-air of the 2nd air outlet 193b, towards Y1 direction (oblique upper), contacts with the vinegar meal C1 lifted by the stirring rod of main body side.That is, in the state of Figure 17 (b), the 2nd air outlet 193b makes the direction of the cooling-air of importing introduction part towards the vinegar meal C1 lifted by the stirring rod of main body side (on the upside of downside stirring rod 203, main body stirring rod 214).

Here, the shape of the vinegar meal C1 lifted by the stirring rod of main body side (on the upside of downside stirring rod 203, main body stirring rod 214) is disintegrated gradually.Then, between the stirring rod of vinegar meal C1 by main body side, fall on lower inner surface (the vinegar meal bearing-surface) 123b of the cylinder body 46 of the top of pin joint portion 70.The direction of the cooling-air of the 1st air outlet 193a, towards Y2 direction (tiltedly below), contacts with the vinegar meal C2 dropped between the stirring rod from main body side on vinegar meal bearing-surface 123b.That is, in the state of Figure 17 (b), the 1st air outlet 193a of the opposition side of the 2nd air outlet 193b makes the direction of the cooling-air of importing introduction part towards the vinegar meal C2 fallen between the stirring rod from main body side.

Therefore, 2nd air outlet 193b blows cooling-air to the vinegar meal C1 lifted by the stirring rod of main body side (on the upside of downside stirring rod 203, main body stirring rod 214), and the 1st air outlet 193a blows cooling air to the vinegar meal C2 fallen between the stirring rod (on the upside of downside stirring rod 203, main body stirring rod 214) from main body side.

In addition, cylinder body 46 continues to rotate, and becomes the state of Figure 17 (d) via Figure 17 (c), and in this case, the vinegar meal C2 fallen is due to also toughness, and on the upside of the stirring rod 211 of tegmentum side and main body, stirring rod 214 is lifted again.Under the state of Figure 17 (d), compared with Figure 17 (b), the direction contrary (direction of the wind of the 1st air outlet 193a and the 2nd air outlet 193b differs from 180 degree) of the 1st air outlet 193a and the 2nd air outlet 193b, 1st air outlet 193a blows cooling-air to the vinegar meal C2 that stirring rod 214 on the upside of the stirring rod 211 of tegmentum side and main body is lifted, and the 2nd air outlet 193b blows cooling air to the vinegar meal C3 fallen between stirring rod 214 on the upside of the stirring rod 211 and main body of lid side.

According to above content, vinegar mixer 1 has wind direction set parts 176, this wind direction set parts 176 is the vinegar meal wind-guiding that lifted by multiple stirring rod 203,211,214 to the rotation with mixing drum 3, and to the rotation with mixing drum 3 by between each stirring rod 203,211,214 and the vinegar meal wind-guiding fallen.And wind direction set parts 176 has air outlet (the 1st air outlet 193a, the 2nd air outlet 193b), this air outlet, when each stirring rod 203,214 is for lifting the posture of vinegar meal, blows cooling-air upward, and blowing cooling-air downwards.Therefore, it is possible to cooled being stirred the vinegar meal that rod lifts by cooling-air expeditiously, and expeditiously to just cooling from the vinegar meal fallen that scatters between stirring rod.In addition, the vinegar meal be lifted can little by little be disintegrated at cocked position and little by little fall, but can contact the place disintegrated, so cooling-air also can contact the inside of vinegar meal due to cooling-air.In addition, because the vinegar meal fallen is piled up at leisure at lowering position, so cooling-air also can contact the vinegar meal in lowering position is piled up gradually.

Figure 18 represents the control system block diagram of vinegar meal mixer 1.

Next, in detail the control of vinegar mixer is described.

As shown in figure 18, control device 9 is connected with: the 1st checkout gear 40 detected the presence or absence of food materials containing box 39, the 2nd checkout gear 45 detected the position of rotation of mixing drum 3 and guidance panel 20.In addition, control device 9 is connected with barrel drive motors 7 and pressure fan 10.This control device 9, according to coming the signal of self-test device (the 1st checkout gear 40, the 2nd checkout gear 45), the setting value using guidance panel 20 to set and control sequence etc., comes index drum drive motor 7 and pressure fan 10.

As shown in Figure 2, the 1st checkout gear 40 is located on the rear portion of underframe 4.1st checkout gear 40 has swing tilting member 43 freely, and this tilting member 43 is subject to the force forwards of spring.When the rear surface of food materials containing box 39 abuts with this tilting member 43, tilting member 43 just rearward swings, and utilizes this swing and detects food materials containing box 39, represents and has detected that the signalization of food materials containing box 39 is transfused to control device 9.

As shown in Figure 7, the purposes of the 2nd checkout gear 45 is that utilize the position of rotation being detected mixing drum 3 by the position of rotation of driven wheel 52, the 2nd checkout gear 45 has: be located at by the detected body (such as magnet) 53 on driven wheel 52; And be located at right side parts of bearings 15R on and two test sections (such as sense switch) 54,55 that detected body 53 is detected.In detail, two sense switches 54,55 configure at spaced intervals at the circumferencial direction centered by drum rotating axle core X, the position of the sense switch 54 of one side is set in the original position (initial position) of mixing drum 3, and the position of the sense switch 55 of the opposing party is set in the described later maximum discharge posture of mixing drum 3.Below, the sense switch 54 of a side is called " initial sense switch 54 ", the sense switch 55 of the opposing party is called " discharge sense switch ".

Therefore, when detected body 53 arrives initial sense switch 54, this initial sense switch 54 becomes on-state, detects that mixing drum 3 is in original position, will represent that mixing drum 3 is in signal (initial signal) input control device 9 of original position.In addition, when detected body 53 arrives discharge sense switch 55, this discharge sense switch 55 becomes on-state, detect that mixing drum 3 is in and discharge recovery (maximum discharge posture), and will represent that mixing drum 3 is in the discharge signal input control device 9 of discharging recovery (maximum discharge posture).

As shown in Figures 1 and 2, guidance panel 20 is located on the upper surface side front portion of the body side frame 5R on right side.As shown in Figure 7, guidance panel 20 is provided with: firing switch 230, shutdown switch 231, starting back switch 232, waste cock 233, air-supply switch 234, forward switch 235 and after turn on pass 236.

Firing switch 230, mainly makes the switch that the action based on the control sequence preset starts, and shutdown switch 231 is switches that the action carrying out the vinegar mixer 1 of action by control sequence is stopped.In addition, starting back switch 232 is the switches for making mixing drum 3 be positioned at original position, and waste cock 233 is the switches for making mixing drum 3 be positioned at drain position.Air-supply switch 234 is the switches for air-supply in mixing drum 3.Forward switch 235 is the switches for making mixing drum 3 carry out forward, after turn on pass 236 be for make mixing drum 3 carry out after turn switch.

Guidance panel 20 is provided with the situation display part 240 of the running-active status of display vinegar mixer 1.As running-active status, this situation display part 240 indication example as in vinegar mixer 1 perform current process be multiple process (such as stir process, simmer process and cooling processing) in which process, show the remaining time etc. to release.In addition, in situation display part 240, the running-active status of display is not limited to above-mentioned content.

In addition, guidance panel 20 is provided with the configuration part 241 for carrying out various setting.This configuration part 241 has: program setting portion 242, and described program setting portion 242 sets the regulation control sequence that will perform be stored in advance in multiple control sequences of control device 9; Air supply pattern configuration part 243, described air supply pattern configuration part 243 sets air-supply condition during this air-supply process in the air-supply process performed by control sequence; To the air quantity configuration part 244 that air quantity during air-supply process sets; And the setting in each configuration part (program setting portion 242, air supply pattern configuration part 243 and air quantity configuration part 244) is indicated to the input interface 245 of (input).

In detail, program setting portion 242 comprises: the 1st select button 242a selected this program setting portion 242; And the 1st display part 242b of the numbering of display and control order.Therefore, after selection the 1st select button 242a, by pressing as input interface 245+button or-button, thus the control sequence corresponding with the numbering shown by the 1st display part 242b can be set.

In addition, air supply pattern configuration part 243 comprises: the 2nd select button 243a selected air-supply condition; And the 2nd display part 243b of the numbering of display air-supply condition.Therefore, after selection the 2nd select button 243a, by pressing+button or-button, thus the air-supply condition corresponding with the numbering shown by the 2nd display part 243b can be set.

In addition, air quantity configuration part 244 comprises: the 3rd select button 244a selected this air quantity configuration part 244; And the 3rd display part 244b of the numbering of display air quantity.Therefore, after selection the 3rd select button 244a, by pressing+button or-button, thus the air quantity corresponding with the numbering shown by the 3rd display part 244b can be set.

Figure 19 is the schematic view representing the control that each process of vinegar mixer 1 and control device 9 carry out.

Connecting the main switch of vinegar mixer 1, under the state that electric power is supplied in this vinegar mixer 1, barrel drive motors 7 and pressure fan 10 just shut down, and control device 9 is input holding states that wait is carried out from the various switches of guidance panel 20 inputting.Under input holding state, when pressing firing switch 230 (S1, yes), control device 9 reads in from this control device 9 control sequence set by program setting portion 242, enters the sequential processes of regulation.In sequential processes, control device 9 makes mixing drum 3 rotate by making barrel drive motors 7 action thus performs the stir process (S2: stir process) being mixed into by vinegar and (stirring meal) in meal.In stir process (stir process), control device 9 exports the signal that barrel drive motors 7 is rotated forward, and the mixing drum 3 direction R that turns round is rotated.After due to mixing drum 3 turn, during the dead ahead of vinegar incorporating section 136 by cylinder fulcrum 25L, 25R, this liquid discharge portion 139 is opened, and starts to discharge vinegar from this liquid discharge portion 139.Then, liquid container 138 inside vinegar 152 shower shape fall and be supplied in this meal.As shown in figure 20, control device 9 performs the different stir process (stir process A, stir process B, stir process C) of the rotary speed of multiple stable state.Such as, the stir process A that the rotary speed of stable state that control device 9 performs is the fastest, then performs the rotary speed stir process B faster of stable state, finally performs the stir process C that the rotary speed of stable state is the slowest.

In addition, carry out in the situation rotated at the mixing drum 3 direction R that turns round, namely in stir process, as shown in Figure 21 (a), the drum cover limiting part 105 of downside is not interfered with the holding section 50 of stretching out of the flange part 49 of drum cover 47, but the drum cover limiting part 105 of upside is interfered with the holding section 50 of stretching out of the flange part 49 of drum cover 47.When mixing drum 3 turn round direction R rotate and stretch out holding section 50 abut with the drum cover limiting part 105 of upside time, drum cover limiting part 105 is extended holding section 50 and pushes, and the top of tilting member 106 is around swing fulcrum 108 forwards side oscillation.Thus, the drum cover limiting part 105 of upside is kept out of the way (the drum cover limiting part 105 of upside is kept out of the way from the interference region 143 stretching out holding section 50 with drum cover 47) automatically from the holding section 50 of stretching out of drum cover 47.

In addition, when mixing drum 3 turns round direction R rotation, as shown in Figure 21 (b), latch-release parts 104 are interfered with the guide 88 of Lock Part 71.When mixing drum 3 turn round direction R rotate and Lock Part 71 abut with latch-release parts 104 time, latch-release parts 104 are locked parts 71 and push, and the top of tilting member 106 is around swing fulcrum 108 forwards side oscillation.Thus, latch-release parts 104 are kept out of the way (latch-release parts 104 are kept out of the way from the interference region 144 with Lock Part 71) automatically from Lock Part 71.

Be made up of described tilting member 106, gathering sill 111 and banking pin 112 etc. and keep out of the way component, described component of keeping out of the way makes drum cover limiting part 105 keep out of the way from drum cover 47 and latch-release parts 104 are kept out of the way (drum cover limiting part 105 is kept out of the way from the interference region 143 with drum cover 47, and latch-release parts 104 are kept out of the way from the interference region 144 with Lock Part 71) from Lock Part 71.

In addition, when stretching out that the drum cover limiting part 105 of holding section 50 from upside departs from, Lock Part 71 departs from from latch-release parts 104, tilting member 106 (drum cover limiting part 105 and latch-release parts 104) is just returned to original position.

Then, after stir process, control device 9 perform boiling carried out to meal simmer process (S3: simmer process).Specifically, control device 9, under the state making air-supply arrangement 8 stop, exporting the signal that barrel drive motors 7 interval is rotated forward.

After simmering process, the cooling processing (S4: cooling processing) that execution makes pressure fan 10 action and cooled by vinegar meal.Specifically, control device 9, first read in the cooling condition (air quantity, drum rotation speed and drum rotating interval etc.) being pre-stored within control device 9, send the instruction (cooling instruction) of cooling air (air) to reach read in air quantity to air-supply arrangement 8 (wind pushing motor 160) output.In addition, cool control part 9 export barrel drive motors 7 is rotated forward instruction (rotate instruction) to reach drum rotation speed and drum rotating interval.

Specifically, in the stage of cooling processing, vinegar meal is due to the stirring of the rotation with main body cylinder 46, and vinegar meal can produce viscosity, thus vinegar meal becomes the state being easily stirred parts (stirring rod) and lifting as Suo Shi Figure 17 (b), Figure 17 (d).When stirring rod 203,211,214 is towards state (arrangement imaginary line L approximate horizontal) of general horizontal direction, that is, when mixing drum 3 (cylinder body 46) is in cocked position, control device 9 makes drum rotation speed temporarily stop.As shown in Figure 20 (a), become moment P1, P2, P3 of cocked position at mixing drum 3 (cylinder body 46), control device 9 temporarily stops the instruction (rotating forward instruction) that barrel drive motors 7 is rotated forward.

Like this, when mixing drum 3 becomes cocked position (stirring rod 203,211,214 is towards the state of general horizontal direction), if stop this mixing drum, then these be stirred the vinegar meals that lift of rod 203,211,214 gradually shape disintegrate, easily dispersion and falling.Therefore, it is possible to cooled the vinegar meal being in cocked position or lowering position expeditiously by wind direction set parts 176.Namely, mixing component be vinegar meal lift posture time, the rotation of temporary transient stopping mixing drum 3, thus be stirred vinegar meal that parts lift gradually shape disintegrate and the lowering time that falls can be guaranteed, can cool the vinegar meal being in cocked position or lowering position expeditiously.

In addition, also can the anglec of rotation of the mixing drum 3 when becoming cocked position be stored in control device 9 in advance, the rotating forward of barrel drive motors 7 is stopped when becoming this anglec of rotation, also can obtain from assigned position (such as according to rotary speed, original position) to time of advent of cocked position, when consistent with the time of advent by rear elapsed time from assigned position, stop the rotating forward of barrel drive motors 7, be not limited to detection cocked position.

Here, vinegar meal along with stirring (smashing) toughness gradually.Therefore, as shown in Figure 20 (a), control device 9, in cooling processing, increases the dwell time (T1, T2, T3) at cocked position gradually.That is, control device 9 is in cooling processing, and be that the 1st dwell time T1 when stopping at first is the shortest, the 2nd dwell time T2 when next stopping is longer than the 1st dwell time, then the 3rd dwell time T3 when next stopping is the longest.That is, the dwell time of the mixing drum 3 during to be vinegar meal lift posture that control device 9 increases mixing component (stirring rod) gradually.Thus, even if vinegar meal becomes toughness gradually, because dwell time increases gradually, so the sticking vinegar meal of tool also can be made reliably to fall.

In addition, in the above-described embodiment, when mixing drum 3 is in cocked position, this mixing drum 3 is stopped, also can replace, be cocked position at mixing drum 3, namely, when what mixing component (stirring rod) was vinegar meal lifts posture, make the rotary speed of mixing drum 3 than mixing component (stirring rod) to be vinegar meal non-lift posture time the rotary speed of mixing drum 3 little.

As shown in Figure 20 (b), from moment P4, P5, P6 of becoming cocked position, make the drum rotation speed slack-off stipulated time.That is, control device 9 makes the drum rotation speed in the stipulated time after becoming cocked position (several seconds) slower than the drum rotation speed before non-cocked position.Thus, owing to becoming in the stipulated time after cocked position the drum rotation speed that slows down, so vinegar meal easily falls.As mentioned above, because vinegar meal is along with stirring (smashing) and have viscosity gradually, so control device 9 makes the reduced value of the drum rotation speed after cocked position larger than the reduced value of last drum rotation speed.Such as, the drum rotation speed of moment P4 is set to " the 1st speed ", the drum rotation speed of moment P5 is set to " the 2nd speed ", when the drum rotation speed of moment P6 being set to " the 3rd speed ", 3rd speed is minimum, and then the 2nd speed is less, and the 1st speed is maximum.That is, the reduced value of the revolution 3 of mixing drum during posture that what control device 9 made mixing component (stirring rod) be vinegar meal lift periodically increases gradually.Thus, even if vinegar meal becomes toughness gradually, because the reduced value of drum rotation speed periodically increases gradually, so the sticking vinegar meal of tool also can be made reliably to fall.

Next, the cooling processing of finishing control device 9, performs and discharges process.

First, in discharge process, control device 9 judges whether underframe 4 is provided with food materials containing box 39.That is, whether control device 9 is transfused to control device 9 to the signalization from the 1st checkout gear 40 and judges.

Next, whether control device 9 pairs of mixing drums 3 are in original position and judge.That is, whether control device 9 is transfused to control device 9 to the initial signal from the 2nd checkout gear 40 and judges.When mixing drum 3 is in original position, control device 9 exports the instruction of reversion to barrel drive motors 7, makes mixing drum 3 forward.

In addition, discharge in process, when mixing drum 3 is not original position, control device 9 enters starting back process.Such as, in starting back process, control device 9 pairs of barrel drive motors 7 export the instruction rotated forward, and turn after making mixing drum 3, in this control device 9, input the moment (mixing drum 3 becomes the moment of original position) of initial signal, stop the instruction of the rotating forward of barrel drive motors 7.In the above example, automatically make mixing drum 3 be returned to original position, also can manually make mixing drum 3 be returned to original position.In this case, control device 9 permit starting back switch 232 or after turn on the input of pass 236.And, control device 9 is when starting back switch 232 is pressed, as described above mixing drum 3 is returned to original position, when after turn on pass 236 be pressed, after turn on and when pass 236 is pressed, the instruction that rotates forward exported to barrel drive motors 7 and make mixing drum 3 after turn, when initial signal input control device 9, stop the instruction of the rotating forward for barrel drive motors 7.

In discharge process, when mixing drum 3 rotates from the original position forwards direction F shown in Figure 22 (a), Lock Part 71 just engages with latch-release parts 104, and as shown in Figure 22 (b), the locking of Lock Part 71 is removed.Now in detail the releasing that automatically locks of this Lock Part 71 is described, as shown in Figure 23 (a), under the state that mixing drum 3 is positioned at original position, the guide 88 of Lock Part 71 is positioned at the top of latch-release parts 104, now, the latch-release spigot surface 88a of guide 88 is skewed towards front oblique below.

When mixing drum 3 rotates from this original position forwards direction F, then as shown in Figure 23 (b), Lock Part 71 moves downwards, and the lower end side of latch-release spigot surface 88a abuts from top with latch-release parts 104.In addition, when mixing drum 3 forwards direction F rotates, then as shown in Figure 23 (c), (d), Lock Part 71 moves downwards relative to latch-release parts 104, and Lock Part 71 is locked thus removes parts 104 forcibly forwards side promotion.Therefore, Lock Part 71 swings around pivot backing pin 98, and the portion 92 that is locked and fastened goes out of lock latch for printed circuit 99, and the locking of Lock Part 71 is removed.Now, latch-release parts 104 are done upward relatively to roll on latch-release spigot surface 88a.Then, rotated by mixing drum 3 forwards direction F, the latch-release spigot surface 88a (guide 88) of parts 71 thus latch-release parts 104 go out of lock.

Removed in the locking of Lock Part 71, after latch-release parts 104 go out of lock and remove spigot surface 88a, if mixing drum 3 further forwards direction F rotates, then as shown in Figure 24 (a), the lower surface front of stretching out holding section 50 of the flange part 49 of drum cover 47 abuts from top with the drum cover limiting part 105 of upside, thus restriction drum cover 47 is to the wobbling action of cylinder body 46 side.

If cylinder body 46 rotates from this state further forwards direction F, then as shown in Figure 24 (b), stretch out holding section 50 to abut with the drum cover limiting part 105 of downside, restriction drum cover 47 to the swing of cylinder body 46 side, and cylinder body 46 become its upper open face 124 towards downside and this upper open face 124 for discharging posture along with the skewed food materials of downward and rearward advancing.In addition, control device 9, to whether having the discharge signal input control device 9 from the 2nd checkout gear 40 to judge, when detecting the discharge signal representing the maximum discharge posture of food materials, then stops the instruction of the reversion for barrel drive motors 7.

As mentioned above, because the upper open face 124 of cylinder body 46 starts towards downside, therefore, when cylinder body 46 becomes food materials discharge posture, the vinegar meal in cylinder body 46 falls discharge to food materials containing box 39 at leisure by naturally falling, thus falls discharge to food materials containing box 39.

In addition, in discharge process, control device 9 is forwarded to stopping forward from mixing drum 3, namely, mixing drum 3 (cylinder body 46) is discharged during starting position discharges recovery (the maximum discharge posture of food materials) to food materials from original position to food materials, and control device 9 makes forward temporarily stop the several seconds.That is, the state that control device 9 makes cylinder body 46 stop at food materials discharge posture keeps the several seconds.Like this, if discharge starting position at cylinder body 46 from food materials to discharge during recovery to becoming food materials, cylinder body 46 is temporarily made to stop, vinegar meal then in cylinder body 46 just can be disintegrated in this cylinder body 46, and naturally fall to food materials containing box 39, so vinegar meal can be discharged with the state of scattering loosening.

In addition, all the elements of current disclosed embodiment just illustrate, and should not think restrictive.Scope of the present invention is not above-mentioned explanation, and is represented by claims, and expects to comprise the implication that is equal to claims and all changes within the scope of it.

Although in the above-described embodiment, suppressing water droplet to be attached on this mixing drum 3 when stirring by being delivered to by gentle breeze in mixing drum 3, also when not stirring, such as, when simmering process, gentle breeze can be imported in mixing drum 3.In addition, above-mentioned vinegar mixer has carried out simmering process, but also can not simmer process.

In addition, in the above-described embodiment, the vinegar mixer that food materials are vinegar and meal is illustrated, but is not limited thereto, food materials may also be " vinegar ", food materials beyond " meal ".

In addition, in the above-described embodiment, cocked position is the state (arrangement imaginary line L approximate horizontal) of stirring rod 203,211,214 towards horizontal direction, but the state that also stirring rod 203,211,214 can be tilted a little is as cocked position.Such as, also can by the tilt angle theta of stirring rod 203,211,214 relative to horizontal direction, that is, arrange imaginary line L and the angle of trunnion axis be-20 spend extremely+20 positions when spending as cocked position.

In addition, cooling-air can be transported to and be stirred the rod food materials lifted and both the food materials fallen above by wind direction set parts 176, is not limited to above-mentioned shape.

Claims (10)

1. a food materials mixer, has: mixing drum, and described mixing drum is rotatably supported on mechanical framework, and receives food materials; Mixing component, described mixing component is located in described mixing drum, and stirs described food materials; Introduction part, cooling-air imports in described mixing drum by described introduction part; And control device, described control device controls the rotation of described mixing drum, when described mixing drum rotates, described food materials mixer lifts food materials by described mixing component, and food materials are fallen, thus mixes various food, the feature of this food materials mixer is

When being cooled food materials by described cooling-air, described control device make described mixing component be food materials lift posture time the rotation of described mixing drum stop.

2. food materials mixer according to claim 1, is characterized in that, described control device make described mixing component be food materials lift posture time the dwell time of described mixing drum increase gradually.

3. a food materials mixer, has: mixing drum, and described mixing drum is rotatably supported on mechanical framework, and receives food materials; Mixing component, described mixing component is located in described mixing drum, and stirs described food materials; Introduction part, cooling-air imports in described mixing drum by described introduction part; And control device, described control device controls the rotation of described mixing drum, when described mixing drum rotates, described food materials mixer lifts food materials by described mixing component, and food materials are fallen, thus mixes various food, the feature of this food materials mixer is

When being cooled food materials by described cooling-air, described control device make described mixing component be food materials lift posture time described mixing drum rotary speed than described mixing component be food materials non-lift posture time the rotary speed of described mixing drum slow.

4. food materials mixer according to claim 3, is characterized in that, described control device make described mixing component be food materials lift posture time the reduced value of revolution of described mixing drum increase gradually.

5. the food materials mixer according to any one in Claims 1-4, it is characterized in that, have wind direction set parts, described wind direction set parts will import inner cooling-air to the described food materials guiding be lifted from described mixing drum, and to the food materials guiding fallen.

6. the food materials mixer according to any one in Claims 1-4, is characterized in that, described mixing drum has: opening and closing lid freely, and described lid carries out food materials picking and placeing for this mixing drum; And switching mechanism, described switching mechanism keeps the locking of described lid when this mixing drum rotates to a direction, and remove the locking of described lid when mixing drum rotates to other direction thus described lid can be opened, described mixing drum is configured to, when described mixing drum rotates to other direction, the food materials bearing-surface of this mixing drum tilts gradually relative to horizontal direction and discharges food materials

At described mixing drum from the discharge starting position of food materials until during discharging recovery, described control device makes the rotation of this mixing drum stop.

7. the food materials mixer according to any one in Claims 1-4, it is characterized in that, described mixing component has multiple stirring rod, across the inner space of described mixing drum about described multiple stirring rod, and rotate together with described mixing drum, the described introduction part importing cooling-air to described inner space is provided with in a side side of described mixing drum

This food materials mixer has wind direction set parts, the cooling-air importing described introduction part is led to the rotation with described mixing drum by the food materials that described multiple stirring rod is lifted by described wind direction set parts, and to the food materials guiding by falling between each described stirring rod.

8. food materials mixer according to claim 7, it is characterized in that, described introduction part is formed in the cylinder fulcrum of the tubular of the rotating shaft core as described mixing drum, and described wind direction set parts is arranged in described cylinder fulcrum to rotate together with described mixing drum.

9. food materials mixer according to claim 7, it is characterized in that, described wind direction set parts has air outlet, and described air outlet is when each described stirring rod is the posture lifting described food materials, blow described cooling-air upward, and blow described cooling-air downwards.

10. food materials mixer according to claim 7, it is characterized in that, described wind direction set parts has air intake vent, the cooling-air importing described introduction part enters described air intake vent, described wind direction set parts has separating part, and the cooling-air entering described air intake vent is divided into the cooling-air blown to described top and the cooling-air blown to described below by described separating part.