CN104913561A - Ice dispensing apparatus - Google Patents

Abstract

The invention provides an ice dispensing apparatus which can cut ice blocks of specified sizes stored in an ice storing portion into specified amount and discharge. The ice dispensing apparatus comprises a disk (6) which can be rotatablely configured on the bottom of a bottom cylinder (50) for storing ice blocks and be driven by an electromotor (M), and is provided with a plurality of buckets (63) at intervals in the peripheral direction; a separation part (7) located on the upper part of the disk (6) and covering a discharge port (50a); and a gate part (70) allowing only stacking one ice block with a specified size on an upper area of the ice accepted in the buckets (63) which is guided to the discharge port (50a) through the rotation of the disk (6), and preventing stacking an ice block with an exceeded specified size on an upper area of the ice accepted in the buckets (63), and supplying the ice blocks with specified sizes in a ration mode through only stacking one ice block with a specified size on the upper area of the ice accepted in the buckets (63).

Description

Ice feedway

Technical field

The present invention relates to by the ice stored in ice storage portion by regulation component cutting and the ice feedway spued from outlet.

Background technology

Known ice automatic vending machine has this ice feedway.This ice automatic vending machine has the ice storage portion of the ice cube of storage prescribed level in body interior, operating when discharging button after the platform being arranged at main body placed cup, is be discharged to the ice cube cutting of storing in ice storage portion in cup via outlet after ormal weight with ice feedway again.As this existing ice feedway, there will be a known following ice feedway: the disk that pivoting leaf sheet is set in the inside in the ice storage portion of bottomed cylindrical, using the incorporating section as storage ice cube, the space that divides with rotating vane, and make rotating vane (incorporating section) mobile by the rotation of disk and guide to the outlet of the bottom being arranged at reservoir, on the other hand, the cutter that the ice cube given prominence to upward from incorporating section carrying out the movement of subtend outlet in the top being disposed in disk carries out cutting is set, spue (such as from outlet again after the amount of the ice received in this incorporating section is adjusted to ormal weight, patent document 1).

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2013-117352 publication

Summary of the invention

The problem that invention will solve

Invent disclosed in above-mentioned patent document 1, ice cube is received as incorporating section in the space divided with the rotating vane of disk, and, cut with cutter the ice cube given prominence to upward from this incorporating section and the amount of the ice received in incorporating section be adjusted to ormal weight, namely, the incorporating section of the ice cube divided by the rotating vane of disk is configured to bucket, thus can suppress the inequality of the component of the ice spued from outlet, and this point is outstanding.But, bucket refers to the container of a certain amount of cylindrical shape of the objects such as metering granular etc., a certain amount of (component) is determined by the volume of container (bucket), be removed and component is fixed when exceeding the volume that can hold in container (bucket), invent the definition of also continuing to use above-mentioned bucket disclosed in patent document 1, the ice cube cutter be configured to exceeding the volume that can hold in bucket cuts.Like this, when the ice cube exceeding the volume that can hold in bucket is cut, to be cut and the ice cube that the ice remained in bucket becomes the size outside regulation is sometimes spued.In addition, the borneol remained in ice storage portion about cut device cutting, although lay net in the bottom in ice storage portion can remove, have ice cube at the periphery of cutter, so above-mentioned borneol may be combined with other ice cubes and produce the ice cube of the size outside specifying.

So the present invention completes in view of the above problems, its object is to solve above-mentioned problem, providing a kind of can be the component the ice feedway spued that specify by the ice cutting of the prescribed level of storing in ice storage portion.

In order to reach above-mentioned purpose, inventors have carried out various research, found that, if the component received in bucket is not decided to be the volume that can hold in bucket, but make the ice cube of prescribed level with the upper area of the ice received in bucket only the mode component be accommodated in bucket of stacking be quantitative, and cutting mechanism is set, this cutting mechanism allows the ice cube of the upper area of the ice received in a bucket only stacking prescribed level, and stop the ice cube of the stacking prescribed level more than of upper area of the ice received in bucket, then can maintain the function of bucket, and without the need to cutting the ice cube of storage.

Therefore, the feature of the invention of technical scheme 1 is, comprising: ice storage portion, and it has the outlet having the bottom opening of round-ended cylinder body of the ice cube in storage prescribed level; Disk, it is rotatably disposed in above-mentionedly has the bottom of round-ended cylinder body and is driven by motor, and have equally spaced be arranged on from pivot with above-mentioned outlet in same radius circumferentially and multiple buckets of up/down perforation; Partition member, it is positioned at the top of above-mentioned disk, stops above-mentioned outlet to be communicated with there being the inside of round-ended cylinder body; With cutting mechanism, the ice cube of its upper area allowing to be directed in the rotation by above-mentioned disk the ice received in the bucket of above-mentioned outlet only stacking prescribed level, and stop the stacking ice cube more than a prescribed level of upper area of the ice received in bucket.

In addition, the feature of the invention of technical scheme 2 is, in the ice feedway described in technical scheme 1, cutting mechanism is made up of door part, this door part is to traverse through the rotation of disk and the mode being directed to the motion track of the bucket of outlet configures, and the opening of the ice cube of the stacking prescribed level of the upper area in the position that the motion track with above-mentioned bucket intersects with the ice only allowing to receive in bucket.

In addition, the feature of the invention of technical scheme 3 is, in the ice feedway as described in technical scheme 1, ice storage portion is frozen device cooling.

The effect of invention

According to the invention of technical scheme 1 of the present invention, comprising: ice storage portion, it has the outlet having the bottom opening of round-ended cylinder body of the ice cube in storage prescribed level; Disk, it is rotatably disposed in above-mentionedly has the bottom of round-ended cylinder body and is driven by motor, and have equally spaced be arranged on from pivot with above-mentioned outlet in same radius circumferentially and multiple buckets of up/down perforation; Partition member, it is positioned at the top of above-mentioned disk, stops above-mentioned outlet to be communicated with there being the inside of round-ended cylinder body; With cutting mechanism, the ice cube of its upper area allowing to be directed in the rotation by above-mentioned disk the ice received in the bucket of above-mentioned outlet only stacking prescribed level, and stop the ice cube of the stacking prescribed level more than of upper area of the ice received in bucket, the ice cube that the upper area of ice received in bucket of the ice cube of prescribed level is stacking more than ground thus can not be stoped mobile by the wall etc. struggled against, even if therefore the ice cube of overage be split mechanism stop pass through, also can move having the inside of round-ended cylinder body.Thus, following effect can be realized: even if the upper area of the ice stoping the ice cube of overage to be received in bucket is stacking, ice cube also can not be cut, and make to become quantitative with the component that the mode of the upper area of ice received in the container of the bucket only ice cube of a stacking prescribed level is stacking, thus can for the ice of specified rate.

In addition, according to the invention of technical scheme 2 of the present invention, in the ice feedway described in technical scheme 1, cutting mechanism is made up of door part, this door part is to traverse through the rotation of disk and the mode being directed to the motion track of the bucket of outlet configures, and the opening of the ice cube of the stacking prescribed level of the upper area in the position that the motion track with above-mentioned bucket intersects with the ice only allowing to receive in bucket, thus can by simple structure without the need to exceeding the ice cube cutting of the overage of the component received in bucket with cutting ice cube.

In addition, according to the invention of technical scheme 3 of the present invention, in the ice feedway described in technical scheme 1, ice storage portion is frozen device cooling, thus can prevent from storing in ice storage portion ice melting, and stably maintain the solid state of ice cube.

Accompanying drawing explanation

Fig. 1 is the stereogram of the ice feedway of embodiments of the present invention.

Fig. 2 is the back view unloading the state after backboard from the ice feedway of Fig. 1.

Fig. 3 is the sectional view of the major part of the ice feedway representing Fig. 2.

Fig. 4 represents the disk of Fig. 3, partition member and door part, and (a) is its stereogram, and (b) is the plane of (a), and (c) is the B-B sectional view of (b).

Symbol description

1 ... machine cabinet body, 2 ... lid, 3 ... door, 5 ... ice storage portion, 6 ... disk, 7 ... partition member, 8 ... slideway, 9 ... shutter parts, 10 ... refrigerating plant, 50 ... there is round-ended cylinder body, 50a ... outlet, 51d ... discharge opening, 62 ... reception hole, 63 ... bucket, 70 ... door part, 70a ... opening, M ... motor.

Detailed description of the invention

Below, the ice feedway for embodiments of the present invention is described with reference to accompanying drawing.

In Fig. 1,1 is machine cabinet body, and 2 is lids, and 3 is doors.Main body rack 1 comprises left side plate 1a, the 1b of steel plate, backboard 1c, front surface panel 1d and forms the pedestal 1e of bottom surface, make left side plate 1a, 1b, backboard 1c, front surface panel 1d the flange being arranged on respective clinch overlap respectively and be bolted, and the lower end of left side plate 1a, 1b and backboard 1c is bolted on the pedestal 1c of rectangle respectively, be formed as the box-shaped of a part of opening of upper surface and front surface.The pin 4 that can carry out adjusting to make machine cabinet body 1 maintenance level is provided with in each bight of the bottom of said base 1c.The ice storage portion 5 of storage ice cube described later is installed in the inside of above-mentioned machine cabinet body 1 and freezing refrigerating plant 10 etc. is carried out to ice storage portion 5.

Above-mentioned lid 2 is parts of the opening of the upper surface of closed above-mentioned machine cabinet body 1, comprises the fixed part 21 on the outer container 51 being fixed on ice storage portion 5 described later and openedly and closedly can be arranged on the cap 22 on this fixed part 21 by hinge 23.Fixation portions 21 and cap 22 are formed as injecting the stoste of polyurethane and the heat insulating panel of foaming and molding to the inside of the exterior contour of steel plate respectively.

Above-mentioned door 3 is parts of the opening of the front surface of closed machine cabinet body 1, can be openedly and closedly arranged on the side plate 1a of the side of machine cabinet body 1 by hinge (not shown).The operation display part 31 having and discharge button, open the shutter open button of shutter 9 described later etc. is provided with in the upper area of above-mentioned door 3.In addition, form conveying end 32 in the substantially central portion of door 3, be provided with the conveying end door 33 making this conveying end 32 opening and closing.

In the upper area of the inside of above-mentioned machine cabinet body 1, be equipped with ice storage portion 5, in lower area, be equipped with the compressor 10a as condensing unit, condenser 10b, the 10b with fan of forming refrigerating plant 10.That above-mentioned ice storage portion 5 has a stainless steel being formed as bottomed cylindrical and store the ice cube of prescribed level have round-ended cylinder body 50, have round-ended cylinder body 50 ground to be provided with outer container 51 around this.Outer container 51 makes the perisporium 51a of iron plate, roof 51b and diapire 51c fix respectively by bolt, on roof 51b with have the upper opening of round-ended cylinder body 50 to be provided with opening 620 accordingly.Have between round-ended cylinder body 50 and outer container 51 above-mentioned, first arrange shield 65 described later and slideway 8 to arrange again and inject the stoste of polyurethane and the heat-barrier material of foaming and molding to form heat insulation structural (figure deletes heat-barrier material to make the structure of each parts should be readily appreciated that).Above-mentioned ice storage portion 5 by being arranged on by above-mentioned outer container 51 on the base (not shown) of コ font fixing on the pedestal 1e of machine cabinet body 1, and is arranged on the inside of machine cabinet body 1.Then, on the outer container 51 of the inside of machine cabinet body 1 installation, lid 2 is installed.In addition, as shown in Figure 2, in the roof 51b of outer container 51, be embedded with magnet Mg, when being configured to close lid 2 (cap 22), cap 22 is attracted by magnet Mg and is adjacent to roof 51b.In addition, having the bottom perforated of round-ended cylinder body 50 to form outlet 50a, and perforation form discharge opening 51d on the diapire 51c of outer container 51.

The compressor 10a of formation refrigerating plant 10, condenser 10b, the 10b with fan that lower area in the inside of above-mentioned machine cabinet body 1 arranges, be fixedly mounted on the pedestal 1e of machine cabinet body 1.In addition, pipe arrangement between the export pipeline of compressor 10a and the entrance pipe of condenser 10b, 10b of being directly connected is connected, on the other hand, between the export pipeline and the entrance pipe of compressor 10a of condenser 10b, 10b of directly connecting, pipe arrangement is connected with the evaporation pipeline 10c had on round-ended cylinder body 50 being wound on ice storage portion 5.In addition, between the export pipeline and evaporation pipeline 10c of condenser 82,28, not shown pressure-reducing valve is provided with.

There iing the bottom of round-ended cylinder body 50, as shown in Figure 3, be provided with the disk 6 be made up of plectane portion 6a and cylindrical portion 6b.This disk 6 is fixed with the central shaft 61 at the center by plectane portion 6a.Above-mentioned central shaft 61 extends in the mode of the diapire 51c of the bottom and outer container 51 that are through with round-ended cylinder body 50.The bottom of the central shaft 61 of above-mentioned disk 6 is combined with the output shaft of reduction gear M1 of the output shaft being attached to motor M by shaft joint CP.In addition, the mixing component 67 with stirring rod 66 is linked with on the top of above-mentioned central shaft 61.The through above-mentioned central shaft 61 having the bottom of round-ended cylinder body 50 and a diapire 51c of outer container 51 around, by across the cylindrical shape arranged with having the diapire 51c of the bottom of round-ended cylinder body 50 and outer container 51 shield 65 around.Sealed by not shown O type ring between the inwall of slideway 8 and the outer wall of central shaft 61.

At the plectane portion 6a of above-mentioned disk 6, as shown in Figure 4, equally spaced perforation forms multiple reception hole 62 in a circumferential direction, and form 6 with the Spaced perforations of 60 degree in present embodiment, each reception hole 62 has center at the circle of same radius from the central shaft 61 of disk 6.Above-mentioned multiple reception hole 62 be positioned in same radius at the above-mentioned outlet 50a having the bottom perforated of round-ended cylinder body 50 to be formed, be formed as identical with the diameter of outlet 50a or less than its diameter.Be equipped in above-mentioned multiple reception hole 62 and be made up of the utensil of cylindrical shape and be accommodated with the bucket 63 of the ice of storage in round-ended cylinder body 50.The columned upper end of this bucket 63 and the periphery of reception hole 62 are installed, and columned lower end extends to and with having between the bottom of round-ended cylinder body 50 residual clearance a little close position.In addition, protuberance 64 outstanding upward between adjacent reception hole 62 is formed with at the plectane portion 6a of above-mentioned disk 6.This protuberance 64 circle less of the opening 70a of door part 70 described later, the size to the upper end of opening 70a is defined as the ice cube being less than a prescribed level.

In addition, the disk 6 having the bottom of round-ended cylinder body 50 to arrange upper side, with the partition member 7 being equipped with crescent shape at the position that the upper area of the outlet 50a having the bottom perforated of round-ended cylinder body 50 to arrange is suitable.This partition member 7 prevents the above-mentioned outlet 50a when above-mentioned outlet 50a and the bucket 63 being arranged on disk 6 are overlapping to be in the vertical direction communicated with there being the inside of round-ended cylinder body 50 by this bucket 63.The size of this partition member 7, to prevent when above-mentioned outlet 50a and the bucket 63 being arranged on disk 6 are overlapping in the vertical direction by this bucket 63 and the mode having the inside of round-ended cylinder body 50 to be communicated with, be formed as at least covering the upper area of outlet 50a and to connect the line segment at the both ends of the periphery of arc-shaped shorter than the diameter of disk 6, namely little than the semicircle of disk 6.Above-mentioned partition member 7 makes the installation sheet 71,72,73 formed at 3 places of the periphery of arc-shaped be bolted on the perisporium of round-ended cylinder body 50, arranges in the mode of the central shaft 61 side step-down of disk 6.

Bending (the 6a side, plectane portion of disk 6) door part 70 of extending downwards is provided with in the position suitable with the line segment of crescent shape of above-mentioned partition member 7.This door part 70 forms the cutting mechanism described in technical scheme 1.Above-mentioned door part 70 is by the rotation (direction of the arrow shown in (a) of Fig. 4) of disk 6, the bucket 63 of movement enters the side (hereinafter also referred to entrance side) of the below of door part 7, to form the opening 70a of concavity with the bucket 63 of movement in the position that above-below direction is overlapping.The length of this opening 70a is defined as the diameter being less than bucket 63, and about the degree of depth, the size L ((c) with reference to figure 4) from the plectane portion 6a of disk 6 is defined as the size slightly larger than the maximum gauge (being cornerwise length when ice cube is made up of hexahedron) of ice cube.In addition, at the bucket 63 of movement from the side out, below (hereinafter also referred to outlet side) of door part 70, the otch 70b retaining center side and excise significantly is formed with.In addition, there is between the lower end of door part 70 and the plectane portion 6a of disk 6 gap of the size being less than ice cube.

Return Fig. 3, between the discharge opening 51d that the outlet 50a having the bottom perforated in round-ended cylinder portion 50 to be formed and boring a hole on the diapire 51c of outer container 51 is formed, be provided with cylindric slideway 8.This slideway 8 is stainless steels, is installed as upper end and is bonded on the periphery wall having the flange that the periphery of the outlet 50a of round-ended cylinder body 50 is formed, and lower end is adjacent to the internal perisporium of the rubber blanket P be arranged on the discharge opening 51d of outer container 51 on the other hand.In addition, above-mentioned slideway 8 is being had the stoste of injecting polyurethane between round-ended cylinder body 50 and outer container 51 and the heat-barrier material that foaming and molding is formed firmly fixes.

At the position of the discharge opening 51d of above-mentioned outer container 51, be provided with the thicker shutter parts 9 making this discharge opening 51d opening and closing.These shutter parts 9 are rotated to the direction of hollow arrow centered by axle 91 by not shown motor, are mounted to closing the position (state of Fig. 3) of discharge opening 51d in the mode of blocking and opening discharge opening 51d and be move between the sagging position of fulcrum with axle 91.In addition, these shutter parts 9 form heat insulation structural at inner filling with insulation material (polyurethane resin), are adjacent to rubber blanket P when closing discharge opening 51d in the mode of blocking.In addition, in Fig. 3, S is the platform of the laid inside at the upper conveying end 32 formed of door 3 (with reference to figure 1), and C represents the cup C be placed on platform S.On above-mentioned S, perforation is formed with multiple osculum.

The action of the ice feedway of this structure is as described below.First, when making the power switch of ice feedway connect, refrigerating plant 10 starts running.Because refrigerating plant 10 starts running, compressor 10a opens and compresses gas refrigerant and become the gas refrigerant of HTHP, the gas refrigerant of above-mentioned HTHP is made to cool the liquid refrigerant becoming HTHP with condenser 10b, 10b, after the pressure making the liquid refrigerant of this HTHP become certain by pressure-reducing valve, liquid refrigerant is by when there being the evaporation pipeline 10c reeled around round-ended cylinder body 50, evaporate from around extract heat and become gas refrigerant, by such process, round-ended cylinder body 50 is cooled.Above-mentioned refrigerating plant 10 carries out running and controls, and cools after becoming set point of temperature (such as subzero 10 degree), made round-ended cylinder body 50 maintain set point of temperature to have made round-ended cylinder body 50.From refrigerating plant 10 operates after the stipulated time, that is, after having round-ended cylinder body 50 to be cooled to set point of temperature, open the lid 2 shown in Fig. 1 and drop into ice cube to there being round-ended cylinder body 50.When dropping into ice cube to there being round-ended cylinder body 50, ice is incorporated in and is arranged in the bucket 63 of disk 6.

Herein, the surplus of the ice cube of storage in the ice storage portion 5 of this ice feedway, by not shown control, by to detect the amount deducting discharge in the full capacity having round-ended cylinder body 5 to drop into, whenever operating discharge button, from the counter being preset as the numerical value being equivalent to full capacity, deduct " 1 " obtain.The default of above-mentioned counter is undertaken by operating reset switch after input ice cube has made round-ended cylinder body 50 be full of.Therefore, have on the inwall of round-ended cylinder body 50 with the mark (word such as the line extended in the horizontal direction and " so far ") representing full capacity above-mentioned.

So, based on above-mentioned mark to above-mentioned have round-ended cylinder body 50 to drop into ice cube after operate reset switch again.In above-mentioned counter, preset the numerical value of regulation thus, the supply of ice cube can be carried out, the shutter open button of the operation display part 31 that door 3 is arranged can be operated in.When operating the shutter open button of aforesaid operations display part 31, the motor of driven opening/closing device parts 9 is driven.Shutter parts 9 make the outlet 5d arranged at outer container 51 open thus, therefore open conveying end door 33 and cup C are placed on the discharge button operating aforesaid operations display part 31 after on platform S again, wait for the supply of ice.

When operating above-mentioned discharge button, motor M starts and makes disk 6 rotate 60 degree to the direction of the arrow of (a) of Fig. 4 via reduction gear M1.While above-mentioned disk 6 rotates, the mixing component 64 with stirring rod 63 also rotates, and therefore has the ice of storage in round-ended cylinder body 50 also rotate and be stirred.By the rotation of disk 6, when bucket 63 arrives the entrance side of door part 70, the ice cube collided with the plate face of door part 70, because door part 70 configures, so move along the plate of door part 70 towards center side relative to the moving direction of bucket 63 with tilting (center side of door part 70 is obtuse angle).On the other hand, be positioned at the ice cube at the position of the opening 70a of the concavity of the entrance side being arranged on door part 70, because the size L of this opening 70a from the plectane portion 6a of disk 6 ((c) with reference to figure 4) is defined as the size slightly larger than the maximum gauge (being cornerwise length when ice cube is made up of hexahedron) of ice cube, so bucket 63 is by becoming the stacked on top of the ice of storage in bucket 63 state of at least one ice during door part 70, and the below of partition member 7 is entered by above-mentioned opening 70a, on the other hand, about above bucket 63 more than the ice cube of, because can not be stoped mobile by the wall of bucket 63 etc., so cross the center side that door part 70 moves back top to partition member 7 or door part 70.Thus ice cube can not be stopped moving and cut.In addition, be located at the ice cube of the vicinity of the protuberance 64 outstanding upward formed between adjacent bucket 63 (reception hole 62), when this protuberance 64 passes through the opening 70a of door part 70, because above-mentioned protuberance 64 makes the space of opening 70a narrow ice cube by being prevented from, keep out of the way along door part 70.Become following state thus: enter between the bucket 63 of the below of partition member 7 and bucket 63 subsequently and there is not ice, only above the bucket 63 of below entering partition member 7, ice is incorporated in bucket 63 in a stacked fashion.In the present invention, the component making the ice received at the stacked on top of bucket 63 is as described above quantitative.

When being moved to position (state shown in (b) of Fig. 4) completely overlapping in the vertical direction at the outlet 50a having the bottom perforated of round-ended cylinder body 50 to be formed by the bucket 63 rotating into the below of partition member 7 of disk 6, motor M (disk 6) stops.Thus in bucket 63, the ice of storage is discharged in slideway 8 from the outlet 50a having the bottom perforated of round-ended cylinder body 50 to be formed, and discharges in cup C via the outlet 5d arranged at outer container 51.Then, when cup C is removed from platform S, the motor of driven opening/closing device parts 9 is reversed and drives and block outlet 5d with shutter parts 9, terminate the discharging operation of ice.When above-mentioned ice raft goes out, deduct " 1 " in the counter arranged from control part, first stop the supply of ice when above-mentioned counter becomes setting, then the prompting that gives the alarm drops into ice cube.

Moreover when ice feedway is arranged at first, the part being arranged on the bucket 63 of disk 6 is blocked by partition member 7, therefore there is in bucket 63 possibility of not receiving fully the ice cube having round-ended cylinder body 50 to drop into.So, when arranging at first, the discharging operation of multiple exercise ice.In addition, also motor M can be started when the power supply of ice feedway is connected, become a bucket 63 rotate to the state having the outlet 50a of round-ended cylinder body 50 nonoverlapping position (to rotating the position after 30 degree clockwise or counterclockwise from the position shown in (b) of Fig. 4) in the vertical direction, only when the discharging operation of first ice, carry out control and make disk 6 90-degree rotation.

As mentioned above, ice feedway according to the present embodiment, it comprises: ice storage portion 5, and it has the outlet 50a having the bottom opening of round-ended cylinder body 50 of the ice cube in storage prescribed level, disk 6, it is rotatably disposed in above-mentionedly has the bottom of round-ended cylinder body 50 and is driven by motor M, and have equally spaced be arranged on from pivot with above-mentioned outlet 50a in same radius circumferentially and multiple buckets 63 of up/down perforation, partition member 7, it is positioned at the top of above-mentioned disk 6, stops above-mentioned outlet 50a to be communicated with there being the inside of round-ended cylinder body 50, with cutting mechanism (door part 70), the ice cube of its upper area allowing to be directed in the bucket 63 of above-mentioned outlet 50a the ice of storage in the rotation by above-mentioned disk 6 only stacking prescribed level, and stop the ice cube of the stacking prescribed level more than of upper area of the ice of storage in bucket 63, the ice cube that the upper area of ice received in bucket 63 of the ice cube of prescribed level is stacking more than ground thus can not be stoped mobile by the wall of bucket 63 etc., even if therefore the ice cube of overage be split mechanism's (gate cell 70) stop pass through, also can move having the inside of round-ended cylinder body.Thus, following effect can be realized: even if the upper area of the ice stoping the ice cube of overage to be received in bucket 63 is stacking, ice cube also can not be cut, and the upper area of the ice making the ice cube of prescribed level receive in the container of bucket 63 is quantitative with the component that the only mode of stacking is stacking, thus can for the ice of specified rate.

In addition, in above-mentioned embodiment, describe the situation that door part 70 forms as one with partition member 7, but also partition member 7 can be formed as different parts, in addition, door part 70, except the fixed parts recorded in embodiment, also can adopt the movable parts such as shutter, is not limited to the structure of embodiment.

Claims (3)

1. an ice feedway, is characterized in that, comprising:

Ice storage portion, it has the outlet having the bottom opening of round-ended cylinder body of the ice cube in storage prescribed level;

Disk, its be rotatably disposed in described in have the bottom of round-ended cylinder body and driven by motor, and have equally spaced be arranged on from pivot with described outlet in same radius circumferentially and multiple buckets of up/down perforation;

Partition member, it is positioned at the top of described disk, stops described outlet to be communicated with there being the inside of round-ended cylinder body; With

Cutting mechanism, the ice cube of its upper area allowing to be directed in the rotation by described disk the ice received in the bucket of described outlet only stacking prescribed level, and stop the ice cube of the stacking prescribed level more than of upper area of the ice received in bucket.

2. ice feedway as claimed in claim 1, is characterized in that:

Cutting mechanism is made up of door part, this door part is to traverse through the rotation of disk and the mode being directed to the motion track of the bucket of outlet configures, and the opening of the ice cube of the stacking prescribed level of the upper area in the position that the motion track with described bucket intersects with the ice only allowing to receive in bucket.

3. ice feedway as claimed in claim 1, is characterized in that:

Ice storage portion is frozen device cooling.