JP2016032463A - Vegetable or fruit corer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a cutter from being excessively piercing a tomato and making the jelly part of the tomato spilled out.SOLUTION: The locus drawn by the tip of the cutter edge is a straight line, whose starting points are piercing starting positions S1, S2 and the end points are reaching positions G1, G2. With the reaching positions G1, G2 qualitatively defined, they are inside a tomato 1 and are on the placenta part 4 side from the jelly part 5. Line symmetrical about the piercing starting position S1 is the piercing starting position S2, and the axis of symmetry is the central axis C1 of the tomato. With the piercing positions S1, S2 qualitatively defined, they are on radially outer sides E, E' from the calyx recess part 7a at the apex.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vegetable or fruit core cutting apparatus and a cored vegetable manufacturing method, and more specifically tomato core cutting apparatus and a cored tomato manufacturing method.

  Patent Document 1 discloses a conventional core cutting device. It is the vegetable core that the device cuts. Examples of vegetables are onions, lettuce, cabbage, Chinese cabbage, garlic and the like. All of these vegetables are relatively hard.

  The apparatus is constituted by a fixing means and a pair of blades. The function of the fixing means is to fix the vegetables. The installation place of the pair of blades is obliquely above or obliquely below the fixing means. The pair of blades alternately move in a straight line, and it is the vegetable core that is cut by this.

Japanese Patent No. 3013134

  The challenge is vegetable damage at the time of resection. Due to vegetable damage, the commercial value of vegetables is reduced. The problem is remarkable when the vegetable is tomato. In other words, the blade is pierced excessively and the tomato placenta growth part (jelly part) leaks out.

  The device according to the present invention excises a core of vegetables or fruits (hereinafter referred to as vegetables or the like). Examples of such vegetables are tomatoes and strawberries. The apparatus is composed of a seat plate and a cutting edge. A hole is formed in the seat plate, and vegetables or the like are placed in the hole. It is vegetables etc. which were put in the said hole that the said blade edge reciprocates linearly. There are at least two positions at which the cutting edge first pierces (hereinafter referred to as “piercing start position”). The one that is symmetric with one of the piercing start positions is the other of the piercing start positions, and the axis of symmetry is the central axis of the hole. The position where the cutting edge stops in the forward path (hereinafter referred to as “arrival position”) is a predetermined position. The reaching position is within a circle having a radius of 3 to 5 millimeters from the central axis. When vegetables etc. are tomatoes, the said reach | attainment position is the inside of a tomato, and the placenta part side rather than the placenta growth part.

  It is the 1st piercing process and the 2nd piercing process that comprise the manufacturing method of the centering tomato which concerns on this invention. In the first piercing step, the blade is pierced, and the position where the blade pierces first (hereinafter referred to as “first piercing start position”) is the tomato epidermis. The position where the cutting edge reaches (hereinafter referred to as “first arrival position”) is inside the tomato and is closer to the placenta portion than the placenta proliferating portion. It is the blade tip that is pierced in the second piercing step, and the position where the blade tip first pierces (hereinafter referred to as “second piercing start position”) is the tomato skin. The first piercing start position is symmetrical with the second piercing start position, and the axis of symmetry is the central axis of the tomato. The position where the cutting edge reaches (hereinafter referred to as “second arrival position”) is inside the tomato and is closer to the placenta portion than the placenta proliferating portion.

  According to the present invention, the cutting edge is controlled, and the reaching position is within a circle having a radius of 3 to 5 millimeters from the central axis. That is, since vegetables or fruits are not excessively stabbed, vegetables or fruits are not damaged. In particular, when the vegetable is a tomato, the reaching position is inside the tomato and is closer to the placenta portion than the placenta proliferative portion. That is, since the tomato is not pierced excessively, the placenta growth part (jelly part) does not leak.

Cross section of tomato Perspective view of apparatus according to the present embodiment An enlarged perspective view of a seat plate according to the present embodiment Enlarged side sectional view of the excised part according to the present embodiment Side view of the blade according to the present embodiment Front view of the blade according to the present embodiment (A) Top view of the cutter according to the present embodiment, (b) Top view of the cutter according to the comparative example External view of tomato after excision according to this embodiment External view of tomato after excision according to comparative example

  FIG. 1 shows a cross-sectional view of a tomato. The tomato 1 is composed of a core 2, a cocoon 3, a placenta part 4, a placenta growth part (hereinafter referred to as “jelly part”) 5, a pulp part 6, and an epidermis 7. In the present embodiment, the locus drawn by the tip of the blade edge is a straight line, the starting points are the piercing start positions S1 and S2, and the end points are the arrival positions G1 and G2. When the arrival positions G1 and G2 are qualitatively defined, they are inside the tomato 1 and are closer to the placenta portion 4 than the jelly portion 5. When the arrival positions G1 and G2 are quantitatively defined, they are within a circle having a radius of 3 to 5 millimeters from the central axis. The puncture start position S2 is symmetrical with the puncture start position S1, and its axis of symmetry is the central axis C1 of the tomato. When the puncture start positions S1 and S2 are defined qualitatively, they are radiation outwards E and E ′ rather than the fall part 7a. The fall part 7a is the part which is the epidermis 7, and is hidden behind the heel 3 and is darkened. It is soil fungus that inhabits the fall part 7a. It is the quality deterioration of tomato 1 that the soil fungi cause. When the piercing start positions S1 and S2 are quantitatively defined, they are within a circle having a radius of 5 to 10 millimeters from the central axis X1.

  FIG. 2 shows a perspective view of the device 10 according to the present embodiment. It is the core 2 that the device 10 excises. When the core 2 is removed, the heel 3 is also removed. The apparatus 10 includes a transport unit 20, a cutting unit 30, a driving unit 40, and a guide unit 50. The conveyance unit 20 is provided below the cutting unit 30. The drive unit 40 is provided above the excision unit 30. The guide part 50 is provided on the side of the excision part 30. In order to describe the device 10, the contents of this specification are incorporated by reference into Japanese Patent No. 3013134. The dimension of the device 10 in the X-axis direction is 400 mm. The dimension of the apparatus 10 in the Y-axis direction is 1620 mm. The dimension of the apparatus 10 in the Z-axis direction is 1850 mm.

  The transport unit 20 intermittently transports the tomato 1, and the transport direction Y is as shown in FIG. It is the seat plate 21 and the buffer material 22 that constitute the transport unit 20. Although the drive source of the conveyance part 20 is not shown in figure, it will be a belt conveyor, if illustrated. The belt conveyor is configured by a motor, a belt, and the like.

  FIG. 3 shows an enlarged perspective view of the seat plate 21. The material of the seat plate 21 is a metal, for example, stainless steel. What is formed in the seat plate 21 is a hole 21a. It is the bottom portion 7b of the tomato 1 that fits into the hole 21a. It is the central axis C1 of the fitted tomato 1 that completely or substantially coincides with the central axis C2 of the hole 21a. The Z axis is parallel to the central axis C2 of the hole 21a.

  What is dispersed by the buffer material 22 is an external force applied to the tomato 1. The buffer material 22 is an elastic body, and is exemplified by rubber and urethane. More preferably, the rubber is raw rubber. The cushioning material is provided on the surface 21b of the seat plate 21 and around the hole 21a. The tomato 1 is placed on the surface 21b side.

  FIG. 4 shows an enlarged side sectional view of the excision 30. It is the core 2 of the tomato 1 that is cut by the cutting unit 30. When the core 2 is removed, the heel 3 is also removed. The cutting part 30 is constituted by a frame body 31, a buffer material 32, a cylinder 33 and a blade 34.

  The frame body 31 pressurizes the falling portion 7a of the tomato 1 and its periphery. The material of the frame 31 is a metal, for example, stainless steel. The cross-sectional shape of the frame 31 is a hexagon and is a combination of an isosceles trapezoid and a rectangle. The frame 31 has an upper base 31a and a lower base 31b. The upper base 31a is fixed to the drive unit 40. A hole 31c is formed in the lower bottom 31b. It is the fall part 7a and its periphery that fits into the hole 31c.

  What is dispersed by the buffer material 32 is an external force applied to the tomato 1. The buffer material 32 is an elastic body, and is exemplified by rubber and urethane. More preferably, the rubber is raw rubber. The buffer material 32 is provided on the lower surface 31d of the lower bottom 31b and around the hole 31c.

  It is the blade 34 that the cylinder 33 moves. Although the drive source of the cylinder 33 is not questioned, for example, it is air pressure. When the driving source is air pressure, the cylinder 33 is exemplified as an air cylinder. The cylinders 33 are provided on the inner right side and the inner left side of the frame body 31. The factor that determines the installation angle of the cylinder 33 is the type of vegetable or fruit. When the vegetables are tomatoes, the angle θ1 formed by the cylinder 33 is 145 degrees with respect to the upper base 31a. In other words, the incident angle θ2 of the blade 34 is 35 degrees with respect to the lower base 31b.

  The blade 34 cuts the core 2 of the tomato 1. The blade 34 is constituted by a blade edge 34a and a handle 34b. The material of the blade 34 is a metal, for example, stainless steel. The blade 34 is provided at the tip of the cylinder 33. The pair of blades 34 face each other and reciprocate alternately.

  FIG. 5 shows a side view of the blade 34 according to the present embodiment. FIG. 6 shows a front view of the cutter 34 according to the present embodiment. As described above, the blade 34 is constituted by the blade edge 34a, the handle 34b, and the spine 34c. The cutting edge 34a is constituted by a front end 34d and a terminal end 34e. The contrast between the two will be described later. The shape of the blade edge 34a is U-shaped when viewed from the front.

  The drive unit 40 is moved by the cutting unit 30, whereby the cutting unit 30 moves up and down. The drive unit 40 is a component that reciprocates linearly. For example, the drive unit 40 is a cylinder. The drive source is not questioned and manual operation is not excluded. Examples of the drive source include a motor and air pressure.

  The guide unit 50 guides the excision unit 30. The guide portion 50 is composed of four guide rails 51. The material of the guide rail 51 is not limited, but is exemplified by stainless steel. The guide rails 51 are provided at the four corners of the frame body 31. Parallel to the installation direction of each guide rail 51 is the vertical movement (Z-axis) direction of the drive unit 40.

  It is the manufacturing method of the centering tomato that the apparatus 10 operates to realize. Needless to say, means other than the apparatus 10 may be used as a means for realizing the manufacturing method of the cored tomato. This manufacturing method mainly includes a first piercing step and a second piercing step.

  In the first piercing step, it is the cutting edge 34a that pierces the tomato. The blade tip 34a is first pierced by the epidermis 7 of the tomato 1, and is at a position radially outward E from the fallen portion 7a (first piercing start position S1). The blade edge 34a reaches inside the tomato 1 and is closer to the placenta portion 4 than the jelly portion 5 (first arrival position G1).

  In the second piercing step, it is the cutting edge 34a that pierces the tomato 1. The blade tip 34a is first pierced at a position radially outward E ′ from the falling portion 7a (second piercing start position S2). The first puncture start position S1 is symmetrical with the second puncture start position S2, and the axis of symmetry is the central axis C1 of the tomato 7. The center axis C2 of the hole 21a coincides with or substantially coincides with the center axis C1. The blade edge 34a reaches the inside of the tomato 1 and is closer to the placenta portion 4 than the jelly portion 5 (second arrival position G2).

  FIG. 7 shows the relationship between the size of the blade 34 and the shape of the blade edge 34a. In the present embodiment (see FIG. 7A) and the comparative example (see FIG. 7B), the overall length L1 of the blade 34 is 60 mm, the height H of the blade 34 is 16 mm, and the width R of the blade 34. Is 25 mm. The calculation formula of L2 is L2 = H / tanφ. Here, φ is an angle formed by the blade edge 34a with respect to the spine 34c in a side view. As the formed angle φ increases, the length of L2 decreases.

  Table 1 shows the relationship between the dimensions of the blade 34, the shape of the blade edge 34a in a top view, and the presence or absence of jelly leakage. According to this comparison result, the condition that the jelly does not leak is that L2 is relatively short. If L2 is relatively short, the length of the blade edge 34a is also relatively short. That is, if the length of the blade edge 34a is relatively short, the handle 34b is also pierced relatively quickly. The following is inferred from this result. What the handle 34b comes into contact with is a frictional force with the tomato 1. Due to this frictional force, the blade edge 34a is decelerated. That is, the kinetic energy of the blade edge 34 a is lost, and the position where the blade edge 34 a reaches is closer to the placenta portion 4 than the jelly portion 5.

  Table 2 shows the relationship between tomato weight, tomato diameter r1, core diameter r2 and core depth h in the same variety. This variety is R1 (trade names “Kokumi Tomato Round” and “Kokumi” are registered trademarks). According to Table 2, in this variety, the variation in the diameter r1 of the tomato is about 2.4 millimeters. Further, the variation of the core diameter r2 is about 0.7 millimeters. Further, the variation of the core depth h is about 0.90 mm. That is, in the same kind, even if the value of L2 is constant, the jelly part 5 does not leak. In the case of this product type, the reaching positions G1 and G2 are within a circle having a radius of 3 to 5 millimeters from the central axis C1. The piercing start positions S1 and S2 are within a circle having a radius of 5 to 10 millimeters from the central axis C1. If the said dimension is employ | adopted, even if the tomato 1 is a bigger thing than this kind, the jelly part 5 does not leak. This is because the width of the placenta portion 4 increases as the diameter of the tomato 1 increases.

  FIG. 8 shows an external view of the tomato 1 after excision according to the present embodiment. According to the present embodiment, the reaching positions G <b> 1 and G <b> 2 of the blade edge 34 a are inside the tomato 1 and are closer to the placenta portion 4 than the jelly portion 5. That is, since the jelly part 5 is not damaged, the jelly does not leak out.

  Table 3 shows a comparison table with the present embodiment and the comparative example. It is the cut surface 8 that constitutes the tomato 1 after excision according to the present embodiment. The cut surface 8 is formed around the cut ridge 3. In the present embodiment, the periphery of the excised ridge 3 corresponds to the periphery of the excised core 2. The cut surface 8 is smooth. The cut surface 8 is smooth because the movement of the blade 34 is linear (linear type). Since the cut surface 8 is smooth, the degree of tissue collapse on the cut surface 8 is small. Since the degree of collapse of the tissue is small, the amount of drip generated is also reduced. When the amount of drip generated is small, the cut surface 8 hardly deteriorates.

  The tomato 1 after excision is preferably packed in a container or a bag. The purpose of container or bagging is to distribute. The tomato 1 packed in a container or a bag is preferably immersed. The purpose of the immersion is to maintain the shape of the tomato 1 after excision. An example of the liquid used for immersion is an aqueous calcium solution.

  FIG. 9 shows an external view of the tomato 51 after excision according to the comparative example. The cut surface 58 constitutes the tomato 51. The cut surface 58 is rough. The reason why the cutting surface 58 is rough is that the blade is rotating at the time of cutting (rotary type). Since the cut surface 58 is rough, the degree of tissue collapse at the cut surface 58 is large. Since the degree of collapse of the tissue is large, the amount of the drip 59 is also increased. When the amount of the drip 59 is large, the cut surface 58 is deteriorated.

  According to the present embodiment, the reaching positions G1 and G2 are within a circle having a radius of 3 to 5 millimeters from the central axis C1. That is, even if the tomato 1 is relatively small, the jelly does not leak out.

  According to the present embodiment, the puncture start positions S1 and S2 are the epidermis 7 of the tomato 1 and are radially outward E and E ′ from the fallen portion 7a. That is, since the soil fungus hardly adheres to the blade edge 34a, the quality of the tomato 1 is maintained.

  According to the present embodiment, the piercing start positions S1 and S2 are within a circle having a radius of 5 to 10 millimeters from the central axis C1. That is, even the relatively small tomato 1 maintains its quality.

  According to the present embodiment, the cutting edge 34a is first pierced at least at the piercing start positions S1 and S2, and the timings thereof are different from each other. That is, since the pair of cutting edges 34a are alternately inserted, the cutting edges 34a do not collide.

  According to the present embodiment, the buffer material 22 is installed around the hole 21a. That is, the force to the tomato 1 is dispersed and the tomato 1 is hardly damaged.

  According to the present embodiment, the installation location of the cushioning material 32 is around the hole 31a. That is, the force to the tomato 1 is dispersed and the tomato 1 is hardly damaged.

  According to the present embodiment, the movement of the blade 34 is linear. The cut surface 8 is smooth. That is, the cut surface 8 of the tomato 1 hardly deteriorates.

  As described above, the effect exhibited by the present embodiment is prevention of jelly leakage. The specific effects of preventing jelly leakage are (1) good appearance of tomato 1, (2) difficulty of breeding bacteria, (3) tomato 1 is difficult to collapse during heat sterilization, (4 ) Tomato 1 is difficult to collapse during transportation, and / or (5) The cutting edge 34a is hard to dull.

  The method of controlling the reaching position of the blade edge 34a is not limited to the above. What further constitutes an apparatus according to another embodiment is a sensor, a motor and a control circuit. The sensor detects the amount of drip. If the amount of drip is greater than or equal to a predetermined value, jelly is leaking with a high probability. The sensor installation position is above the cylinder 33. The sensor is embodied by an image sensor, an optical sensor, or the like. The motor drives the cylinder 33, and the driving direction is the X-axis direction. The control circuit controls the drive amount of the motor. The detection value of the sensor is referred to during the control. That is, the detection value of the sensor is fed back and the cylinder 33 is positioned. It is the arrival positions G1 and G2 that are determined by the control.

  The industrially applicable fields of the present invention are the tomato prepared food business and the tomato seasoning business.

1 tomato 2 core 4 placenta part 5 placenta growth part (jelly part)
7a Falling part 10 Device 21 Seat plate 21a Hole 22 Cushioning material 34a Cutting edge 34b Handle

Claims (21)

A device,
The device cuts the tomato core,
The apparatus is composed of a seat plate and a cutting edge,
What is formed on the seat plate is a hole, and what is placed in the hole is a tomato,
The blade tip reciprocates linearly and pierces the tomato placed in the hole,
There are at least two positions at which the blade edge is initially pierced (hereinafter referred to as “piercing start position”),
Axisymmetric with one of the piercing start positions is the other of the piercing start positions, and the axis of symmetry is the central axis of the hole,
The position at which the cutting edge arrives (hereinafter referred to as “arrival position”) is inside the tomato and is closer to the placenta part than the placenta growth part. The apparatus of claim 1.
The reaching position is within a circle having a radius of 3 to 5 millimeters from the central axis. The apparatus of claim 1 or 2,
The piercing start position is a tomato epidermis that is radially outward from the fallen portion. The apparatus of claim 3.
The piercing start position is within a circle having a radius of 5 to 10 millimeters from the central axis. The device according to any one of claims 1 to 4,
What further constitutes the device is a handle,
The handle comes into contact with the tomato, whereby the reaching position is on the side of the placenta portion with respect to the placenta proliferating portion. The device according to any one of claims 1 to 5,
The blade tip is first pierced at least at the two piercing start positions, and the timings thereof are different from each other. The apparatus according to any one of claims 1 to 6,
What further constitutes the device is a cushioning material,
The buffer material is installed on the surface of the seat plate, where tomatoes are placed, and around the hole. A device,
The device cuts out a vegetable or fruit core,
The apparatus is composed of a seat plate and a cutting edge,
What is formed in the seat plate is a hole, and what is placed in the hole is a vegetable or fruit,
It is the vegetable or fruit placed in the hole that the blade edge reciprocates linearly,
There are at least two positions at which the blade edge is initially pierced (hereinafter referred to as “piercing start position”),
Axisymmetric with one of the piercing start positions is the other of the piercing start positions, and the axis of symmetry is the central axis of the hole,
The position where the cutting edge stops in the forward path is within a circle having a radius of 3 to 5 millimeters from the central axis. The apparatus of claim 8.
The piercing start position is within a circle having a radius of 5 to 10 millimeters from the central axis. The apparatus of claim 8 or 9,
What further constitutes the device is a handle,
The handle comes into contact with vegetables or fruits placed in the hole, whereby the reach position is on the side of the placenta portion with respect to the placenta growth part. The apparatus according to any one of claims 8 to 10,
The blade tip is first pierced at least at the two piercing start positions, and the timings thereof are different from each other. The apparatus according to any one of claims 8 to 11,
What further constitutes the device is a cushioning material,
The buffer material is installed on the surface of the seat plate, where vegetables or fruits are placed, and around the hole. It is the manufacturing method of the centering tomato, and the manufacturing method is constituted by the following (1) and (2),
(1) First piercing step The piercing step is the cutting edge,
The position at which the cutting edge first pierces (hereinafter referred to as “first piercing start position”) is the epidermis of tomato,
The position at which the cutting edge reaches (hereinafter referred to as “first arrival position”) is inside the tomato and is closer to the placenta part than the placenta growth part,
(2) Second piercing step The piercing step is the blade tip,
The position at which the cutting edge first pierces (hereinafter referred to as “second piercing start position”) is the epidermis of tomato,
Axisymmetric to the second puncture start position is the first puncture start position, the axis of symmetry is the central axis of the tomato,
The position where the cutting edge reaches (hereinafter referred to as “second arrival position”) is inside the tomato and is closer to the placenta portion than the placenta proliferating portion. In the manufacturing method of Claim 13,
The first reaching position and the second reaching position are each within a circle having a radius of 3 to 5 millimeters from the central axis. In the manufacturing method of Claim 13 or 14,
Each of the first puncture start position and the second puncture start position is radially outward from the fall portion. In the manufacturing method of Claim 15,
The first piercing start position and the second piercing start position are each within a circle having a radius of 5 to 10 millimeters from the central axis. In the manufacturing method in any one of Claims 13 thru | or 16,
The second piercing step is performed after the first piercing step. Tomatoes,
The tomato constitutes the cut surface,
The cut surface is formed around the cut ridge, from which the jelly portion does not leak. The tomato of claim 18,
The cut surface is smooth. The tomato according to claim 18 or 19, wherein the tomato is packed in a container or a bag. 21. The tomato of claim 20, wherein the tomato is immersed.