KR20170019342A - Food processing device - Google Patents

Abstract

A problem to be solved is to eliminate the bias in the processing basket of the food processing apparatus.
The outer water tank 14 contacting the outside of the water tank 13 is provided and a first water flow passage 55 for passing the water flow from the outer water tank 14 in the vicinity of the water surface is formed in the partition wall 56 A second water passage opening 42 through which the water flow can be introduced from the first water passage opening 55 is formed in the treatment basket 12 and a rotation aberration 73 is formed in the outside water passage 14 in the partition wall And a rectifying part 74 for rectifying the upward flow of water generated by the rotational aberration 73 to the first water flow passage 55 is covered.

Description

[0001] FOOD PROCESSING DEVICE [0002]

The present invention relates to a process such as cleaning, heating, cooling, defrosting, and the like of an object to be treated, and a food processing apparatus for carrying the object.

Conventionally, as a device for cleaning food, for example, there is an apparatus as shown in Patent Document 1 below. This accommodates a treatment basket having an open upper surface in a water tank whose upper surface is opened, and supports the treatment basket in the water tank. Thereafter, a drive device is provided for lifting the treatment basket to the outside of the water tank and rotating the open basket so that the open side of the treatment basket is inclined in one direction. In this apparatus, an air blowing device is provided at the bottom of a water tank, and air is blown out from the blowing device, whereby the food in the processing basket is cleaned and the exclusion adhered to the food can be separated.

However, in the apparatus shown in Patent Document 1, most of the excluded water separated by using the above-described air blowing apparatus is sent out from the groove portion to the outside, but some of the waste comes into contact with the food again. As a result, there is a fear that the exudates and the food adhere to each other and the cleaning becomes insufficient.

On the other hand, an apparatus shown in Patent Document 2 below has been proposed. The composition is as follows. A chute is provided on one side edge of the processing basket, a side edge opening is formed on the other side edge, and a water dispensing apparatus is provided at a predetermined position of the water tank. A stepped portion is formed at the bottom of the processing basket and the stepped surface of the stepped portion is disposed so as to face the direction of receiving the water flow generated by the water delivery device. Further, a fulcrum pin serving as a rotational center of the tilting of the processing basket is provided, and a supporting plate is provided at a position higher than the fulcrum of the fulcrum. By disposing the pivoting arm having one end fixed to the drive unit along both end faces of the processing basket and pivotally connecting the fulcrum pin at the support portion near the tip end and forming a required vertical distance between the tip end of the arm and the support plate, The excreted water can be efficiently separated from the food.

Apart from these, there is also a method of cleaning the food by jetting a water stream from the jetting nozzle.

Patent Document 1: JP-A-11-266800 Patent Document 2: JP-A-2009-11268

However, the water dispensing apparatus shown in Patent Document 2 is of a screw type, and is provided solely at the center of one side wall of the water tank. Since the rotational water flow generated from the water delivery device inevitably deviates in the up, down, left, and right directions, if the food to be cleaned is too much, the cleaning does not proceed uniformly, and there is a fear that the cleaning effect is biased. When two screw-type water delivery devices are mounted side by side and driven to rotate in opposite directions, the water flow in the water tank as a whole rotates in a symmetrical manner, so that there is no bias, and this problem is solved. However, when two water dispensing apparatuses are installed, the facilities are complicated, and the maintenance after use takes time, and the time required for the food processing operation is substantially increased. In addition, since the facility cost and the operation cost are extra, the cost is greatly increased as compared with the food processing apparatus having one water dispensing apparatus.

Further, in the configuration in which the spraying nozzle is used in the water dispensing apparatus, if the consumption amount of water is suppressed and circulated, the piping structure becomes complicated. Therefore, the waste contained in the water to be circulated, the oil or the like easily clogs the nozzle and sticks to the pipe, and there is a problem in the maintenance property.

SUMMARY OF THE INVENTION Accordingly, the present invention has an object of eliminating the bias of the treatment by the water flow, with a structure that facilitates maintenance after use without increasing the number of mountings of the drive device.

In the present invention, a processing basket in which an upper surface is opened is housed in a water tank in which an upper surface is opened, the processing basket is supported in the water tank, and the processing basket is lifted to the outside of the water tank, And a drive unit for rotating the drive unit so that the drive unit is rotated so that the drive unit is rotated,

And an external water tank in contact with the water tank,

Wherein the partition wall separating the water tank and the outer water tank is provided with a first water flow passage capable of passing water flow from the outer water tank at a position lower than the water level of the water tank at the time of food processing and being larger than half of the deepest depth of the water tank, A through-hole is formed,

The treatment basket is provided with a second water passage opening capable of introducing a water flow from the first water passage opening at a position facing the first water passage opening when the water passage opening is accommodated in the water tank, Water can enter and leave the interior of the building,

The water tank is provided with a rotational aberration for generating the water flow so that its rotational axis lies in the horizontal direction along the partition wall and rectifies (rectifies) the upward water flow generated by the rotational aberration to the first water flow passage And the rectifying section is disposed so as to cover the rotation aberration.

In the food processing apparatus according to the present invention, the water flow in the tangential direction generated by the rotational aberration is introduced into the water tank by the direction of the rectifying section. Therefore, it is not necessary to use a propeller type in which twisting is applied to the stirring blade as the rotational aberration, and the shape of the stirring blade (runner) can be made uniform in the axial direction to prevent the water stream from being biased. In addition, since the rotating force of the stirring blades of the rotational aberration can be made into the water stream as it is, strong water flow can be generated. In addition, when the above-mentioned rectifying part is dismantled, either of the rectifying part and the rotational aberration can be easily cleaned, so that the maintenance property is higher than that of a piping structure that is easily closed.

The configuration of the rectifying unit may be, for example, as follows. A front surface plate covering the partition wall side of the rotational aberration, a rear surface plate covering the opposite side of the front surface plate, a cross section arc portion extending from the top surface of the rear surface plate to the front plate side by a curved surface having an arc- A throttle portion that covers the upper side of the front plate side, and a slit-shaped air outlet formed at the end of the throttle portion. Accordingly, the upward flow of water can be efficiently changed, and it is possible to pass through the first flow passage through the blow-out port and into the process basket. Further, in this shape, the rectifying section can be mounted only by covering the rotational aberration from above.

It is preferable that the above-mentioned rotational aberration has a sufficient length in the axial direction toward the horizontal direction so as not to bias the water flow as much as possible. do. The rectifying section for rectifying the water flow so as to supply the water flow generated by the rotation aberration to the processing basket in the water tank without being biased as much as possible is provided with the rectifying section for rectifying the water flow, It is preferable that both of the water flow passages have a horizontal length substantially equal to a horizontal length of the stirring blade of the rotational aberration. Therefore, the shape of these openings may be a horizontally long slit shape so as to cover the whole area while maintaining the momentum of the water flow.

The above-mentioned rotational aberration is obtained by raising a shaft portion on which no runner is provided on both ends near the both ends to the sliding bearing so that the rotational aberration is fixed so as not to be displaced in the axial direction, and also, between the receiving tool and the restraining tool, By sliding, it can be rotated.

It is preferable that the water to be sent out by the rotation aber flows into the rotation aberration from a plurality of directions other than the direction in which the rectifying section feeds. Concretely, there are both ends in the axial direction, the front-back direction and the lower side with respect to the water tank, and it is particularly preferable to flow in from all these directions. If the inflow of water is from both ends in the axial direction, water may not reach the central portion in the axial direction, and the water flow may be biased. If the water that has entered the rectification section from the lower side or from the front side to the rear side is directly directed upward by the rotational motion of the rotational aberration, the water flow is less likely to be blocked unnecessarily and the water pressure can be easily maintained. Further, since water is supplied over the entire axial direction of the rotational aberration, even when the first water passage opening and the second water passage opening are made as wide as possible in the horizontal direction, water can be stably supplied .

In the configuration in which water is supplied from the lower side of the rotation aberration, for example, a water gap is formed between the bottom surface of the outer tank and the lowermost end of the rotation aberration, And water can be sucked up by the aberration to be supplied. It is preferable that water is efficiently supplied to the rotation aberration when the interval from the gap to the side rotating upward in the rotational aberration is opened. Further, in this case, by disposing a lower plate between the bottom surface and the rotational aberration, and not only opening the lower front surface of the rotational aberration but cutting only the portion receiving the upward flow of water, waste caused by the downward flow of water can be suppressed have.

In addition, in the structure in which water is supplied from before and after the rotational aberration, an inlet of water is formed in the rectifying section. Water can be efficiently supplied by opening the lower side of the axial height of the rotational aberration and allowing the water to flow from the periphery toward the rotational aberration.

Wherein the rotational aberration is such that a sliding surface of the rotational axis of the rotational aberration is raised on a sliding bearing on the upper side attached to a fixing table having a height such as to generate the gap between the rotational axis and the bottom surface of the outer tank, . With this configuration, the rotation aberration can be disassembled together with the rectification section to easily clean the external water tank and to perform maintenance. In addition, if the sliding bearing is fixed on the lower plate, the fixing hole is formed in the lower plate, and the fixing hole protruding upward from the fixing plate is installed so as to penetrate through the fixing hole, It is possible to disassemble the lower plate after use and easily clean the plate to the bottom of the outer tank while preventing the shift in the front and rear left and right directions by the fixing hole and the protruding pile.

Further, in the form of supplying water from both ends in the axial direction of the rotational aberration, a part of the axial direction of the rectifying section is opened.

It is preferable that the installation position of the rotation aberration is provided at a position higher than the bottom of the processing basket and the water tank, and close to the water surface. If the distance from the rotational aberration to the first water flow passage is excessively long, the momentum of the water flow tends to be damped. In addition, the rectifying portion to which the upward flow of water is directed is curved along the arc when the upward flow is directed to the first flow passage in the horizontal direction by the curved surface portion having an arc-shaped cross section, Is suppressed to a minimum.

The water supplied by the rotational aberration can be supplied not only from the outside but also the water overflowed from the treatment basket can be circulated in the entire food processing apparatus by receiving the water from the outside tank. When the rotational aberration is activated, a pressure difference is generated, and the water level in the treatment basket and the water tank to which water is supplied becomes higher than the water level in the external water tank. Therefore, the water is returned from the groove portion to the outer tank at a height at which sufficient cleaning is possible in the treatment basket.

It is necessary that the capacity of the external water tank is sufficient to supply water to the rotation aberration even if the water level is sucked up by the water tank by the water pressure difference at the time of driving the rotation aberration and the water level of the external water tank is lowered. Therefore, the depth to the bottom of the outer tank is shallow, and if the position of the rotational aberration is excessively high, the supply of water may be hindered. In addition, there is a fear that the volume of the external water tank is excessively large, and the supply of water is hindered as well.

On the other hand, it is preferable that a net for filtering out the excreted water is provided below the gutter overflowing from the treatment basin, and the water passing through the net falls down to the side of receiving the water of the rotational aberration. With the progress of circulation of the food processing apparatus as a whole, it is possible to collect and collect exclusions generated in the entire apparatus from the net. The wall is hooked to the edge of the wall of the outer tank and the edge of the partition wall, and the net portion is deployed therebetween.

As a mechanism for rotating the rotational aberration, a manual disc having a permanent magnet attached to a surface facing the wall surface is attached at one end in the axial direction of the rotational aberration toward the wall surface of the outer tank. A slight clearance is formed between the passive disk and the wall surface of the external water tank, and no hole is formed in the wall surface of the external water tank. In addition, a motor is attached to the outside of the outer tank facing the manual disk with the outer wall of the other water tank interposed therebetween, and a movable disk having a permanent magnet attached to the surface facing the wall similarly is rotated by the motor . This movable disc also forms a slight clearance between the outside and the wall surface, and is disposed at a position facing the manual disc with the outer wall therebetween. That is, although the movable disc and the manual disc are attracted to each other, they are attached so as to be rotatable in the place so as not to approach the counterpart on the opposite side of the wall. When the movable disk is rotated by the motor, the manual disk is rotated by the magnetic force between the permanent magnets. By rotating the manual disk, the rotating aberration itself rotates to generate water flow. Particularly, since mechanical devices are simplified, they are easy to clean, and there is no need to drill a hole in a wall surface, so that watertightness can be easily maintained.

Once the process is completed, the processing basket is lifted once the rotation of the rotation aberration is stopped. When the treatment basket is lifted and the second water flow passage is displaced, there is a fear that the water flow will collide against the wall surface of the treatment basket and scatter. The object to be processed is moved from the processing basket to the next step, and the processing basket is stored in the water tank as it is, and then the rotation aberration is restarted.

The food processing apparatus may be used alone or in a plurality of units. In the case of connecting the apparatus, the processing basket of one food processing apparatus may be rotated so that the processing basket is disposed in a processing basket of another food processing apparatus. In this case, the adjacent food processing apparatuses and the separated food processing apparatuses may be connected to each other through a water channel, and the water channel may be closed by a shutter or the like. Accordingly, when performing a multistage process with a plurality of connected food processing apparatuses, new water is supplied to the water tank of the final process side (upstream side) or the external water tank, and the final quality of the final cleaning or final treatment . When the rotation aberration is stopped at the time when the processing in any one of the units is terminated, the pressure difference between the water tank and the external water tank is eliminated, the water level is averaged, and the water level of the external water tank rises. At this timing, if a water channel shutter leading to the food processing apparatus on the upstream side (the downstream side of the water flow) is opened, the water flows into the external water tank of the downstream side food processing apparatus. At this time, if the rotation aberration of the food processing device on the downstream side is in operation, the water level of the external water tank on the downstream side is lowered, so that water is easily transferred. When the water is sufficiently transferred to the external water tank of the downstream side food processing apparatus, the shutter is closed. If the food processing apparatus on the downstream side that receives new water from the upstream side has stopped the processing in that stage, if the food processing apparatus is further downstream, the rotation aberration is similarly stopped to raise the water level of the external water tank Thereafter, the shutter connected to the further downstream food processing apparatus is opened. By repeating this, it is possible to maintain the purity of water used in the treatment of a series of apparatuses while using water from the upstream side to the downstream side.

When the outer tank of the plurality of food processing apparatuses is connected by the water channel, the outer tank may have a sufficient length in a direction connecting the processing baskets so as to be easily connected by the water channel . Specifically, it is sufficient that the external water tank is not only a part for installing the rotation aberration, but also one or both sides of the water tank.

Further, when a plurality of the food processing apparatuses are used, the water channels may be connected by a separate connection method. Concretely, among the three or more series of food processing apparatuses that continuously perform the processing, the food processing apparatuses separated by one or more units are connected to each of the outer water supply units by the bypass channel so that the bypass channel is not connected It is possible to perform treatment with an aqueous solution which is different from that of the food processing apparatuses before and after. For example, of the three food processing apparatuses successively arranged so that they can be sequentially fed to the next food processing apparatus after the treatment, when performing the avalanche cleaning at the first level, the sterilization processing at the second level, and the rinsing at the third level, The water after the water is subjected to the avalanche cleaning can be fed through the bypass channel in the first stage and the treatment solution such as the hypochlorous acid water or hot water can be used independently in the second stage.

Since the flow of water is widely fed by the rotation aberration, the flow in the processing basket is also free from deviations, and the food to be processed can be processed and cleaned without a gap. Further, since the rectifying section and the rotational aberration can be disassembled, it is easy to perform maintenance such as cleaning.

Examples of the treatments that can be performed by the food processing apparatus according to the present invention include not only cleaning of food but also boiling treatment with a chemical liquid or boiling treatment with high temperature water or sterilization treatment. In these treatments, similarly, unevenness in the finish of the food to be treated is not easily caused by the water current which has been eliminated from the bias. Further, it is also possible to perform cooling treatment by cold water or thawing treatment.

1 is a side sectional view showing an example of a food processing apparatus according to an embodiment of the present invention.
Fig. 2 is a plan view of Fig. 1. Fig.
3 is a front cross-sectional view taken along line III-III of Fig. 1 from the attachment direction of the rotational aberration.
4 is an exploded perspective view of a portion to which the rotational aberration and the rectifying section are attached.
Fig. 5 is an enlarged view of a portion for restraining lifting of the rectifying portion. Fig.
Fig. 6 is a side sectional view of the embodiment in which three food processing apparatuses are connected. Fig.
Fig. 7 is a plan view of Fig. 5. Fig.
Fig. 8 is a perspective view of Fig. 5. Fig.
Figs. 9 (a) to 9 (d) are conceptual diagrams for sequentially shifting the water in the connected food processing apparatus of Fig. 6. Fig.
10 is a plan view of an embodiment in which the first and last apparatuses of the three food processing apparatuses are connected.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

The food processing apparatus 11 according to the embodiment of the present invention is shown in a side sectional view in Fig. 1, a plan view in Fig. 2, and a front sectional view in Fig. The treatment baskets 12 whose upper surfaces are opened are housed and supported in the water tank 13 whose upper surface is opened. And a drive device 20 for lifting the treatment basket 12 to the outside of the water tank 13 and turning the treatment basket 12 so that the open side of the treatment basket 12 is tilted in one direction.

The treatment basket 12 is a basket for putting a treatment object 31 made of various foods, food processing products, etc., and washing, warming or sterilizing the same. This baskets 12, like the bottom wall portion 47, are formed by a mesh-like shape or have a plurality of holes (see Fig. 2). Accordingly, in the treatment, not only the water can flow into and out of the treatment basket 12 but also the water can be blocked by raising it from the water tank 13 after the treatment.

The treatment baskets 12 are provided with shoots 41 at the end edges 40 on the lower side at the time of its inclination. As shown in Fig. 2, the tip of the shoot 41 is narrowed. This chute 41 makes it easy to move the object 31 in the processing basket 12 to the next process such as the adjoining food processing apparatus 11 or the like. The width of the chute 41 on the side of the processing basket 12 is set so that the width of the processing target 31 when the processing object 31 in the processing basket 12 is moved by tilting the processing basket 12 As shown in Fig. 2, it is preferable to make the length of the end edge 40 equal to the width of the chute 41. As shown in Fig. The length from the end edge 40 of the chute 41 to the treatment basket 12 to the tip of the chute 41 is set so that the treatment object 31 can be sufficiently conveyed out of the treatment basket 12 And it is preferable that the food processing apparatus 11 has a length that can be sent to the next process such as the adjacent food processing apparatus 11 when a plurality of food processing apparatuses 11 are connected.

In the treatment basket 12, fulcrum pins 43 serving as rotation centers at the time of tilted rotation are provided at positions outside of both sides of the treatment basket 12 where they can balance the weight. By supporting the two fulcrum pins 43, the processing basket 12 can be kept in a state in which its opening face is directed upward. Further, a support plate 44 is provided at a position higher than the fulcrum pins 43 on both sides of the processing basket 12 in the outward direction. The support plate 44 is used when the processing basket 12 is tilted as described later. It is sufficient that the support plate 44 is provided only in the vicinity of the position where the fulcrum pins 43 on both end faces of the processing basket 12 are installed.

The drive unit 20 for rotating the processing basket 12 may be of the following type. A cylinder 25 such as a hydraulic cylinder is connected to the rotary hook 24 and the rotary hook 24 is pressed to rotate the rotary shaft 21. [ The rotary shaft 21 is rotatable relative to the bearing 22 fixed to the water tray 13 or the outer tank 14. [ A pivot arm 26 is attached near both ends of the pivot shaft 21. The pivot arm 26 is disposed on each side of the water tank 13 and the external water tank 14, one on each side. Each of the pivoting arms 26 has its root fixed to the pivot 21. On the other hand, a concave support portion 27 is provided in the vicinity of the front end portion of the pivot arm 26, and a fulcrum pin 43 is rotatably supported by the support portion 27. [ The pivot arm 26 is not a straight line but has an arm bend 28 whose arm is bent in the middle. Further, the pivot arm 26 has an arm tip end 29 that extends further beyond the support portion 27.

In the embodiment shown in Fig. 1, the support portion 27 is formed by an elongated hole cut obliquely from the upper end side in the vicinity of the front end of the pivotal arm 26. This makes it easier to insert the fulcrum pin (43) into the pivotal arm (26). When the pivot arm 26 is rotatable with respect to the fulcrum pin 43, only the fulcrum pin 43 may be provided, which is not connected to the outside. In that case, however, the treatment basket 12 is dismantled and maintenance becomes difficult. Although not shown in the drawing, in the case of forming an elongated hole cut from the outside, a circular round portion having a radius of curvature larger than the diameter in the middle of the long hole is formed in the vicinity of the cut- Can be formed. This makes it possible to prevent the fulcrum pin (43) from deviating from the pivotal arm (26) when the processing basket (12) is tilted.

The surface of the treatment basket 12 opposite to the chute 41 (the surface of the introduction side end edge 49) is provided with a plurality of projections 71a and 71b which are close to a standard water surface height A A second water passage opening 42 for introducing a water flow generated from the later-described rotational aberration 73 is opened. The second water passage opening 42 is of a slit shape and has a horizontal length close to both side walls of the processing basket 12 and may be slightly larger than the outlet 95 of the rectifying section 74 described later.

A curved surface portion 48 having an arc-shaped cross section is formed in the processing basket 12 from the bottom surface net portion 47 toward the chute 41. The object to be treated 31 can be efficiently dropped toward the chute 41 after the processing of the object 31 is finished and the water flow introduced from the second water flow passage 42 is directed toward the bottom portion So that the treatment object 31 can be effectively circulated in the treatment basket 12. [0064] As shown in Fig.

A drain port (52) is formed at the bottom of the water tank (13). The valve is closed at the time of use, but it is possible to drain the valve by opening the valve appropriately at the time of use or replacement of water. Although not shown in the figure, the water level is higher than the standard water level A of the external water tank 14, which will be described later, so as to discharge as much water as possible when water is properly supplied and exceeds the standard water level A, It is also possible to form an upper drain hole.

The water tank 13 containing the treatment basket 12 needs to be a shape capable of storing the treatment basket 12. In the embodiment shown in Figs. 1 to 3, the water tank 13 has a semi-cylindrical shape, and the treatment basket 12 has a shape along the inner wall of the water tank 13.

An external water tank 14 is provided in the outer periphery of the water tank 13 so as to surround the water tank 13 so as to surround three directions of the treatment basket 12 excluding the side where the chute 41 is present. The external water tank 14 is for recovering the water overflowing from the processing basket 12 and feeding it to the rotation aberration 73 described later.

The partition wall 56 between the water tank 13 and the outer tank 14 located on the opposite side of the chute 41 is provided with a partition wall 56 at a position corresponding to the second water passage opening 42 of the processing basket 12, A slit-shaped first flow passage 55 for passing the water flow is formed. Here, the outlet 95 of the rectifying part 74 described later is inserted. The position of the first water flow passage 55 is set to be lower than the water level B of the water tank 13 at the time of food processing (during rotation of the rotation aberration 73) It is preferable that the position is closer to the water surface. This is because, in order to appropriately treat the object 31 to be treated which has a specific gravity smaller than that of water, it is required to cause strong water flow near the water surface.

A front trough 45 for dropping water overflowing from the processing basket 12 into the outer tank 14 is provided at the inlet side end edge 49 on the side opposite to the chute 41 of the processing basket 12. [ The front trough 45 is placed on the front edge portion 53 which is the upper end of the partition wall 56 partitioning the water tray 13 and the outer water tank 14. A side trough (not shown) for dropping the water overflowing from the treatment baskets 12 toward both sides of the outer tank 14 is provided at the upper end edge of both sides of the treatment baskets 12 on the side closer to the front trenches 45 than the support plate 44 46, and 46 are installed. These side troughs 46 and 46 are placed on the side edge portions 54 and 54 which are the upper ends of the side partition walls 57 which are side walls on the side between the water tray 13 and the outer tank 14. [

The outer water tank 14 is provided with side buffers 62 and 62 which have turned along the side partition wall 57 of the water tank 13 and three side water buffers 62 and 62 of the aberration area 63 along the partition wall 56 of the water tank 13. [ And encloses the water tank 13 from the room. In the aberration area 63 in contact with the partition wall 56, a rotational aberration 73 for generating a water flow and a generated water flow are introduced into the first water passage opening 55 and the second water passage opening 42 Is provided on the downstream side of the rectifying section 74. Fig. 4 shows the shapes of the rotation aberration 73 and the rectifying portion 74 and their mounting portions.

First, fixing tables 71 and 71 for raising the ground surface of the rotational aberration 73 from the bottom surface are provided near both ends of the aberration area 63. [ The rotation aberration 73 is arranged by the fixing table 71 so as to have a gap with the bottom surface of the aberration area 63. Through this gap, water flows in from the lower side over the entire axial direction of the rotation aberration 73. On each fixing table 71, protruding piles 75, 75 protruding upward are provided.

A lower plate 72 is provided so as to extend between the fixing members 71, 71. A fixing hole 76 is formed in the vicinity of both ends of the lower plate 72 and the lower plate 72 is fixed by inserting the projecting pile 75 of the fixing plate 71 into the fixing hole 76 . At both ends of the lower plate 72, a sliding bearing 77 is provided toward the upper side. It is composed of a semi-cylindrical receiving part facing upward and a fixing column, and accommodates the rotating shaft 83 of the rotational aberration 73 therebetween.

A lower rectifying plate 78 extending toward the bottom surface of the outer tank 14 is provided on the lower side of the lower plate 72 on the side of the partition wall 56 with a length substantially equal to the axial length of the rotational aberration 73 ) Is installed. When the downward flow regulating plate 78 is present, water does not flow into the lower part of the rotation aberration 73 from the partition wall 56 side. At the same time, the water flow generated by the rotation aberration 73 does not flow into the side of the partition wall 56 from the lower side. As a result, the water tends to flow from the front intake port 100 of the rectifying section 74, which will be described later, toward the rotation aberration 73, and the momentum of the generated water flow can be stabilized.

In addition, the lower plate 72 is formed with a lower plate cut-out portion 79 that is cut away and away from the partition wall 56. More specifically, it is preferable that a portion farther than the axial center of the rotary shaft 83 accommodated by the slide bearing 77 is cut off, and the plate remains on the side closer to the axial center. The remaining plate prevents the downward flow of water caused by the rotation of the rotational aberration 73 and prevents the rotational aberration 73 from being generated from the gap below the fixing table 71 through the lower plate cutout 79. [ So that water flow can be efficiently generated.

The rotational aberration 73 has a rotational axis 83 that is longer than the horizontal length of the first water flow passage 55 and has a runner (stirrer) for generating a water flow along the rotational axis 83. In the embodiment shown in Fig. 4, an annular portion 81 which is widened in the diametrical direction is provided near both ends of the rotary shaft 83. Fig. The annular portion 81 is connected to the rotating shaft 83 by a plurality of arm portions 84 and the portion where the arm portion 84 is not provided is connected between the rotating shaft 83 and the annular portion 81 As shown in FIG. A plurality of arc-shaped blades 82 extending in the axial direction of the annular portion 81 and extending to the other annular portion 81 and having an arc-shaped cross section perpendicular to the axis are provided in the circumferential direction. This becomes the runner. The arc-shaped vanes 82 are also formed so as not to directly contact the rotary shaft 83 but to generate a gap with the rotary shaft 83. The recessed surface of the arc-shaped vane 82 has a concave surface facing the rotation direction of the rotation aberration 73, and arranged so as to efficiently receive and dispense water. That is, when the arc-shaped vanes 82 are rotated upward, the concave side faces the processing basket 12.

The annular portion 81 is not only provided at both ends, but may also be installed in the axial direction. By providing the annular portion 81 in the middle of the axial direction, the stability of the arc-shaped vane 82 is increased. However, even if the number of the annular portions 81 is excessively large, the force of the water flow is reduced, so that the number of the annular portions 81 other than the both ends may be one or two.

Further, the shape of this runner is not particularly limited as long as it can efficiently generate a flow of water. For example, unlike the embodiment shown in the drawings, the runner may be formed to extend in the radial direction without generating a clearance from the rotary shaft 83. In this configuration, the rotating force of the rotating shaft 83 can easily flow into the water flow.

The rotating shaft 83 passing through the rotational aberration 73 is provided with a sliding surface 77 sandwiched between the flange portions 85 and 85 which are provided in the vicinities of both ends to secure a width capable of holding the sliding bearing 77 in the axial direction 86). And this sliding surface 86 comes into contact with the sliding bearing 77 described above. A manual disc 87 is provided at one end of the rotary shaft 83, which is provided with a permanent magnet and rotatably driven by a magnetic force from the outside.

A rectifying section 74 for controlling the direction of the water flow generated by the rotation aberration 73 is provided from the upper side of the rotation aberration 73. The rectifying section 74 has a front plate 92 covering the side of the partition wall 56 and a rear plate 91 covering the side of the outer wall 65 of the rotational aberration 73. The upper side of the back plate 91 is composed of a circular arc section 93 having an arc-shaped cross section in the axial direction and bent toward the front plate 92 side. On the other hand, the front plate 92 is perforated with at least half of the front plate 92 as a front intake port 100, as described later. The upper surface of the front plate 92 is bent toward the rear plate 91 and is folded back toward the partition wall 56 from the upper side so that a throttle portion 94 is provided between the rear plate 91 and the rear plate 91 . The throttle portion 94 covers half of the entire upper side of the rotational aberration 73 on the side of the partition wall 56. [ It is preferable that the curved surface of the throttle portion 94 does not strike the rotational aberration 73 and that as close as possible to the circumference of the rotational aberration 73 is as efficient as the flow of water. The end of the throttle portion 94 is aligned in the same direction as the end of the cross-section arc portion 93, and a transverse slit-like outlet 95 is formed therebetween. The air outlet 95 is inserted into the first water flow passage 55 of the water tank 13 described above. The water stream generated by the rotational aberration 73 passes through the first water flow passage 55 via the air outlet 95 and flows therefrom to the second water flow passage 42 of the treatment basket 12 Water flow is released.

An upper compression inhibiting portion 97 is provided on the upper side of the tip end of the air outlet 95 so as to be a tab for pressing the partition wall 56 of the water tank 13 to fix the rectifying portion 74. A hole for allowing the rotation shaft 83 to pass therethrough is formed at both ends in the axial direction of the rectifying part 74. Even if the side introduction port 96 is formed so as to sufficiently supply the water to the rotation aberration 73, good.

A lower latching portion 98 is provided below the side inlet 96 so as to prevent the rectifying portion 74 from being displaced in the frontal direction by being hooked on the lower plate 72.

The rectifying part 74 is formed within a range in which a hole for increasing water to be supplied to the rotating aberration 73 contained therein or a cut-off water receiving part can maintain the rectifying function of the rectifying part 74.

The front plate 92 on the side of the water tank 13 of the rectifying section 74 is provided with a front intake port 100 for receiving water from the partition wall 56 side by the rotational aberration 73. The height of the front intake port 100 ranges from slightly above the rotational axis 83 of the rotational aberration 73 to the vicinity of the lower end. The lateral width of the front intake port 100 is approximately equal to the axial length of the arched blades 82 of the rotational aberration 73. [ Accordingly, water can be received almost all over the axial direction. On the side of the partition wall 56, the rotation of the rotation aberration 73 is directed downward. Even if this rotation is opened, the merit of securing the supply amount becomes larger than the water flow is weakened.

On the other hand, a rear take-off part 101 for receiving water from the side of the outer wall 65 by the rotational aberration 73 is provided on the back plate 91 in such a manner as to cut from the lower side. The rear intake portion 101 is composed of a central intake portion 102 provided in the axial center portion and a lower intake portion 103 arranged in the axial direction. The central intake portion 102 cuts in from the lower side to a height near the rotary shaft 83 and exerts an effect of assisting the water supply to the axially central portion which is difficult for water to reach. However, if the central intake portion 102 is too wide in the axial direction, the water flow in the upward direction of the portion is likely to be diffused, so that it is desirable to suppress the axial length. Since the downstream rear intake portion 103 spreads almost entirely in the axial direction but the upward flow of water does not reach the rectifying portion 74 but diffuses as far as the height of the rotary shaft 83 reaches the height of the rotary shaft 83, 83 to a height of about -45 degrees.

By supplying water to the rotational aberration 73 from the front intake port 100, the rear intake port 101 and the side inlet port 96, water can be supplied even if the aberration is rotated at a sufficiently high speed. Particularly, when the object to be treated 31 requires heavy and strong water flow, the size of the part to be taken out may be increased.

With this configuration, after the use, the rectifying section 74, the rotational aberration 73, and the lower plate 72 are dismantled in order and can be easily cleaned. Further, there is no part formed in a tubular shape, and it is not blocked well in the first place. The fixing table 71 may be completely fixed to the bottom surface or may be disassembled.

On the other hand, on the outer side of the side wall 61 of the outer tank 14, a permanent magnet attracting each other by the magnetic force to the manual disc 87 is provided at a position opposed to the manual disc 87 of the rotational aberration 73. [ And a motor 66 for rotating the movable disk 67 are attached. The rotational direction of the rotational aberration 73 by this causes the back plate 91 side to be upward and the front plate 92 side to be downward. Since the downward flow is stopped by the uncut portion of the lower plate 72, the occurrence of extra water flow can be suppressed. The water supplied upward from the gap through the lower plate cutout 79 becomes strong streamflow by the upward rotation of the rotational aberration 73 and the loss is suppressed by the cross- And is sent to the air outlet 95 so that a strong water flow is generated so as to cover the whole area near the water surface of the processing basket 12. [ The water flow is directed downward against the curved surface portion 48 provided below the chute 41 of the processing basket 12 and the processing object 31 is processed efficiently while being rotated in the processing basket 12 .

During the rotation of the rotation aberration 73, a pressure difference due to the water flow is generated, so that the water level of the external water tank 14 is lowered while the water level in the water tank 13 and the treatment basket 12 is increased. It is desirable to secure a certain volume of the external water tank 14 to the water tank 13 in order to suppress the water level difference generated at this time, and this can be ensured by the capacity of the side buffer 62. The water level in the processing basket 12 rises and the portion over the front trough 45 and the side trough 46 flows into the outer tank 14 and flows again from the rotational aberration 73 to flow.

It is desirable that the excluded substances 32 such as trash, food waste, and oil separated from the object to be treated 31 and the object to be treated 31 do not get caught in the rotational aberration 73 during this circulation. The front trough mesh 35 for receiving the water 32 and the like included in the water falling from the front trench 45 to the rectifying portion 74 is connected to the upper compression inhibiting portion 97 of the rectifying portion 74, And a front engaging portion 64, which is a step formed on the wall of the outer periphery opposite to this. The front edge portion 53, which is the upper end of the partition wall 56, protrudes toward the outer tub 14 side. The force of the rectifying portion 74 lifted by the water stream is transmitted to the protruding portion of the front edge portion 53 through the front trough net 35 by pushing the front trough nets 35 under the protruded portions . An enlarged view of this portion from the axial direction is shown in Fig.

A side trough net 36 for receiving the water 32 contained in the water falling from the side trenches 46 to the sidebuffs 62 is provided on the side wall of the side wall 61 and the side edge portion 54. [0064] The side trough net 36 may be omitted in the case where almost no exclusion 32 is generated, such as a sterilization treatment, a heating treatment, a thawing treatment, a cooling treatment, or the like. However, since the front gutter net 35 also serves as an upward pressing of the rectifying part 74, it is preferable to attach the same shape parts even when the excluded water 32 does not occur.

The object 31 to be treated by the food processing apparatus according to the present invention is not particularly limited and may be selected from agricultural products such as meat products such as meat, fish, shellfish and shellfish, vegetables, cereals, fruits and legumes, An intermediate processed product obtained by cutting a fish product or the like, cooking, and the like, and a food processing product.

Examples of the excluded water 32 include lignocellulosic material such as oil, hair, lye produced in the warming treatment, food waste such as a subject to be treated or scrap, gravel, papers, insects, straw and the like.

The food processing apparatus (11) according to the present invention is characterized in that, when the object to be treated or the like is added during cleaning, warming treatment or sterilization treatment, processing of the seasoning object is also performed simultaneously with cleaning, . In addition, the cleaning treatment, the warming treatment, and the sterilization treatment can be performed at the same time by heating or adding a bactericide at the time of cleaning.

Further, the cover may be attached to the upper or upper side of the opening face of the water tray 13, for example, when the water temperature in the water tray is heated by boiling water or the like.

The basic procedure when using the food processing apparatus 11 according to the present invention is as follows. First, the object 31 to be treated such as cleaning or warming is placed in a processing basket 12 accommodated in a water tank 13. The water in the outer tank 14 is sucked into the rotation aberration 73 and flows through the first water flow passage 55 and the second water flow passage 42 from the air outlet 95, And becomes a water stream circulating in the processing basket 12. [ By this water flow, the object to be treated 31 is subjected to treatment such as cleaning. When the processing object 31 is processed over a certain period of time, when the driving unit 20 is driven to rotate the swing arm 26 upward, at first, the inclined portion 30 at the tip of the swing arm 26 Until the contact with the support plate 44, the treatment basket 12 moves upward and downward while maintaining the balance, without rotating motion such that the open side thereof inclines in one direction. At this time, since the water drops from the bottom surface net 47 into the water tank 13, the water attached to the object 31 can be dropped. Further, by oscillating the pivoting arm 26, the water can be further shaken down. Thereafter, the processing basket 12 having the pivot arm 26 and the pivot pin 43 rotatably connected is pivoted. In Fig. 1, the object 41 is pushed to the left in the drawing, Falls. When the dropping is completed, the pivoting arm 26 is returned and the processing basket 12 is stored in the water tank 13 as it is. Thereafter, similarly, the treatment object 31 can be introduced and the treatment can be continued.

When the water is contaminated by repeating the treatment, the water is supplied to the water tank 13 or the external water tank 14 successively to perform the treatment. When the water after use is overflowed from the external water tank 14 or discharged from the drain port 52 after the end of the treatment, the treatment can be continued while replacing the water.

The food processing apparatus 11 according to the present invention may be used while the rotation aberration 73 is constantly rotated. After the processing, the processing basket 12 is lifted by the drive unit 20, The rotation aberration 73 may be stopped when the shutter 31 is taken out. When the rotation aberration 73 is stopped, the water levels of the external water tank 14 and the water tank 13 are averaged.

By adjusting the angle and length of the runner such as the arc-shaped blade 82 of the rotating aberration 73 used and the rotational speed of the motor 66, the object to be processed 31 is piled up and stirred, The exclusion 32 attached to the object to be treated 31 can be separated from the object 31 to be treated. Particularly, in the food processing apparatus 11 according to the present invention, since the air outlet 95 is located near the water surface and the water flow is concentrated near the water surface, a high cleaning effect is obtained for a material which is light in weight, I will exert.

On the other hand, in the case where the food processing apparatus 11 according to the present invention is mainly used for sterilization and heat treatment other than cleaning, the front trough trenching network 35 and the side trough netting 36 may be omitted. In this case, the upper end of the rectifying part 74 can be directly suppressed to the front edge part 53. [

The object to be treated which is supplied to the processing basket 12 in the water tank 13 can be subjected to the warming treatment by supplying hot water or steam to the water tank 13 and raising the temperature of the water in the water tank 13. [ The warming treatment refers to a treatment for applying heat to water to be treated through water, and includes, for example, a treatment to cook, boil or bake an object to be treated. In the case of warming treatment, water in the water tank 13 can be stirred, convection of water can be promoted, temperature unevenness can be eliminated, and the object to be treated can be heated uniformly. As a means for supplying the hot water in order to raise the temperature in the water tank 13, hot water or steam is directly supplied from a water supply port (not shown) formed in the water tank 13.

In addition, by adding a disinfectant to the water tank 13 and dissolving or dispersing the disinfectant, the object to be treated supplied to the treatment basket 12 in the water tank 13 can be sterilized. Examples of the bactericides include sodium hypochlorite, calcined calcium fortified with shell, and the like. In the case of sterilizing treatment, water in the water tank 13 can be stirred to promote the convection of water, thereby further increasing the chance of contact between the object 31 and the sterilizing agent, thereby more effectively sterilizing the object to be treated .

The food processing apparatuses according to the present invention may be used singly, but a plurality of food processing apparatuses 11 may be used side by side as shown in Figs. In this configuration, after the first food processing apparatus 11a finishes processing, the place from the processing basket 12a through the chute 41a is set as the processing basket 12b of the next food processing apparatus 11b . Likewise, the place from the processing basket 12b through the chute 41b becomes the processing basket 12c of the next food processing apparatus 11c. Likewise, each component of the first food processing apparatus 11a will be described by adding the suffix " a " and the second component of the second food processing apparatus 11b with the suffix " b ".

When a plurality of food processing apparatuses 11a, 11b and 11c are connected and used, water channels 200a, 200b, ... connecting the external water tanks 14a, 14b, 14c, By providing the shutters 201a, 201b,... That can close the water channel, the water to be used can be sequentially transferred from the upstream side to the downstream side, and stepwise cleaning can be performed.

9 (a) to 9 (d), taking a form in which the water level and the water fluctuation at that time are connected to the three food processing apparatuses 11a, 11b, and 11c. First, in the basic form, the rotation aberrations 73a, 73b and 73c are rotated, and a water level difference is generated between the respective water tanks 13 and 14. The water level B of the water tank 13 at the time of rotation is high and the water level C of the external water tank 14 is low with respect to the standard water level A at the time of non-rotation. The introduction of the object to be treated 31 is carried out in the processing basket 12a of the food processing apparatus 11a at the initial stage and the newly supplied water is supplied to the external tank 14c of the final stage food processing apparatus 11c (Water supply port 51c). This state is shown in Fig. 9 (a).

When the processing in the food processing apparatus 11a is finished and the rotation aberration 73c is stopped at the time of discharging the processing object 31, the inside / outside water level difference of the food processing apparatus 11c disappears and becomes uniform. Since additional water is already introduced at this stage, the level of the homogenized water is higher than the standard water level A (water level (E)). The height of the bottom surface of the water channel 200b is lower than the elevated water level E so that when the shutter 201b for closing the water channel 200b is opened, (Fig. 9 (b)). The water level C of the external water tank 14b is low and water is unilaterally discharged from the water channel 200b because the rotational aberration 73b is rotating and the difference between the internal and external water levels is generated in the food processing apparatus 11b. ≪ / RTI > When enough water has been introduced into the food processing apparatus 11b, the shutter 201b is closed, the rotation aberration 73c is restarted, and the processing is continued.

The same thing can be performed in the food processing apparatus 11b. The internal water level rises as much as the water newly introduced into the food processing apparatus 11b and is averaged to a water level higher than the standard water level B when the rotation aberration 73b is stopped. 9 (c), when the shutter 200a of the water channel 200a is opened, the outside water tank 14a of the food processing apparatus 11a is moved from the external water tank 14b of the food processing apparatus 11b, Water flows in unilaterally. When enough water has been introduced into the food processing apparatus 11a, the shutter 201a is closed and the rotation aberration 73b is restarted to continue the processing. As a result, the water contained in the food processing apparatus 11a becomes excessively discharged from the drain port 52a as appropriate (Fig. 9 (d)).

By the above procedure, the food processing apparatus 11c on the upstream side can perform treatment with cleaner water, and can sequentially introduce the used water into the downstream side food processing apparatuses 11b, 11a. The processing such as stepwise cleaning can be performed by putting the object 31 to be processed from the food processing apparatus 11a.

The connection by the water channel 200 is not connected to the adjacent food processing apparatus 11 but is connected to three or more continuous food processing apparatuses 11a, 11b, 11c, Or may be a bypass channel 202 connecting between the food processing apparatus and one or more food processing apparatuses. Fig. 10 shows a plan view of an embodiment in this form. Similarly, the shutter 203 is provided in the bypass channel 202 as well. The food processing apparatuses 11a and 11c use the same water continuously to perform the rinsing in the food processing apparatus 11c and to supply the used water through the bypass water channel 202 In the food processing apparatus 11a, the food processing apparatus 11b passing through the object 31 in the middle performs sterilization, performs sterilization with hypochlorous acid water or the like, performs seasoning with the seasoning aqueous solution, Such as boiling treatment in boiling water, can be intervened.

11, 11a, 11b, 11c: food processing apparatus
12, 12a, 12b, 12c: processing basket
13, 13a, 13b, 13c:
14, 14a, 14b and 14c:
<Body>
20: drive device 21:
22: bearing 24: rotating hook
25: cylinder 26: pivot arm
27: support part 28: arm bend part
29: arm tip portion 30: inclined portion
31: object to be treated 32: exclusion water
35: front gutter net 36: side gutter net
<Processing basket>
40: end edge 41: chute
42: second water passage opening 43: fulcrum pin
44: support plate 45: front trough
46: side trough 47: bottom surface net
48: curved portion 49: leading side end edge
<Tank>
51: water supply port 52: drainage port
53: front edge portion 54: side edge portion
55: first water passage hole 56: partition wall
57: Side compartment wall
<External tank>
61: side wall 62: side buffer
63: aberration region 64:
65: outer wall 66: motor
67: movable disk
<Around aquariums>
71: fixing table 72: lower plate
73: Rotational aberration 74:
75: protruding pile 76: fixing hole
77: Sliding bearing 78: Downstream rectifying plate
79: Lower plate incision
<Rotational aberration>
81: annular portion 82: arched wing
83: rotating shaft 84:
85: flange portion 86: sliding surface
87: Manual disc
<Rectification part>
91: back plate 92: front plate
93: cross-section arc portion 94: throttle portion
95: outlet 96: side inlet
97: upper pressing force inhibition portion 98: lower locking portion
100: front intake port 101: rear intake port
102: central intake part 103: lower rear intake part
200a, 200b: Water channels 201a, 201b, 203: Shutter
202: bypass waterway A: standard water level
B: Water tank level C: External tank level
E: Water level rise from standard

Claims (7)

A processing basket in which an upper surface is opened is housed in a water tank in which an upper surface is opened, the processing basket is supported in the water tank, the tank is lifted up to the outside of the water tank, A food processing apparatus comprising:
And an external water tank in contact with the water tank,
The partition wall separating the water tank and the outer water tank is provided with a water supply passage for allowing the water flow from the outer water tank to pass through the partition wall at a position lower than the water level of the water tank at the time of food processing and at a position higher than half the depth of the deepest portion The first water passage opening is formed,
The treatment basket is provided with a second water passage opening capable of introducing a water flow from the first water passage opening at a position facing the first water passage opening when the water passage opening is accommodated in the water tank, Water can enter and leave the interior of the building,
And a rectifying section for rectifying the upward flow of water generated by the rotational aberration to the first water flow passage is disposed in the outer water tank so that the rotational aberration for generating the water flow lies horizontally along the partition wall, And is mounted on a rotating aberration. The method according to claim 1,
Wherein the rectifying section includes a front plate that covers the side of the partition wall of the rotational aberration, a back plate that covers the opposite side of the partition plate, a cross-sectional arc portion that extends from the top side of the back plate to the front plate side, A throttle portion that covers an upper side of the front plate side of the rotational aberration, and a slit-shaped air outlet formed at the end of the throttle portion and the cross-section arc portion. 3. The method according to claim 1 or 2,
The rotation aberration is arranged between the bottom surface of the outer tank and the rotational aberration such that a gap capable of supplying water to the rotational aberration is generated and a distance from the gap to a side rotating upward in the rotational aberration Lt; / RTI &gt; The method of claim 3,
Wherein the slidable surface of the rotary shaft of the rotational aberration is raised on a sliding bearing which is attached to a fixing table having a height for generating the gap between the sliding surface and the bottom surface of the outer tank. 5. The method according to any one of claims 2 to 4,
Wherein the rectifying section has a take-in section capable of supplying water to the rotation aberration used in the inside of the front plate, the back plate, or both. 6. The method according to any one of claims 1 to 5,
Wherein one end of the rotational aberration is made of a manual disc having a permanent magnet on an end side thereof and the outer side of the water tank A movable disk provided with a permanent magnet, and a motor for rotating the movable disk,
And the rotation of the motor is transmitted to the rotation aber through the magnetic force between the movable disk and the manual disk to rotate. The food processing apparatus according to any one of claims 1 to 6, wherein a plurality of the processing apparatuses of the one food processing apparatus are rotated by rotating the processing basket of one food processing apparatus, Wherein the food processing apparatus is provided with a shutter that can be connected to the external tanks between the food processing apparatuses by a water channel and to close the water channel.

Images