JP2020034254A - Moisture measuring device, and grain dryer - Google Patents

Abstract

To provide a moisture measuring device that enables a worker to easily carry out a change-over operation when the size of grain changes due to changing of the kind of grain whose moisture is to be measured, and a grain dryer.SOLUTION: According to an embodiment of the present invention, each of holding openings 43a of a plurality of grain moving plates 43 is made to have a mutually different size according to the size of grain to be held thereby, and travels first above a mutually different communication hole 42a1 or 42b1, when performing a specified action. Thereby, grain charged into a hopper 41 can be fed to a corresponding moisture measuring section 31 by only changing a grain moving plate 43, in the event of changing the size of grain whose moisture content is to be measured, and hence the number of parts can be decreased and incorrect setting can be prevented upon measuring grain moisture.SELECTED DRAWING: Figure 10

Description

  TECHNICAL FIELD The present invention relates to a moisture measuring device and a grain dryer for measuring moisture contained in grains.

  Conventionally, as this type of moisture measurement device, for example, provided in a grain dryer for drying the grain, in order to check the degree of drying of the grain, included in some grains of the stored grain A device that measures moisture is known (for example, see Patent Document 1).

  The moisture measuring device includes a moisture measuring mechanism including a pair of rollers and a measuring unit that measures electric resistance between the pair of rollers. The moisture measuring device, in the moisture measuring mechanism, by crushing the kernel between the outer peripheral surfaces of the paired rollers, by measuring the electrical resistance between the pair of rollers by the measuring unit, to the crushed kernels The moisture content is measured electrically.

  In the moisture measuring device, since the moisture contained in the grain is measured by sandwiching and crushing the grain between the outer peripheral surfaces of the paired rollers, the size of the grain is measured according to the size of the grain to be measured. It is necessary to set the interval between the outer peripheral surfaces of the rollers that satisfy the condition (1). Therefore, for example, when measuring the moisture contained in small grains such as paddy and wheat, the distance between the outer peripheral surfaces of the paired rollers is set to be small, and the moisture contained in large grains such as soybean and corn is measured. When measuring, it is necessary to set a large interval between rollers forming a pair.

  In the moisture measuring device, a hopper into which grains for measuring moisture are put, a plurality of moisture measuring units in which intervals between rollers forming pairs according to the size of the grains for measuring moisture are different from each other; And a plurality of communication passages that communicate with each of the moisture measurement units and supply the kernels supplied to the hopper to the respective moisture measurement units, and other than the end of one of the plurality of communication passages. A communication path closing member for closing the end of the communication path, and a holding opening for holding the kernel, wherein the kernel held in the holding opening by rotating in the hopper is connected to the end of one communication path. And a grain moving plate for moving the grain. The moisture measuring device can measure moisture of a plurality of types of grains having different grain sizes.

JP 2014-169885 A

  In the moisture measuring device, when the size of the grain changes due to a change in the type of the grain whose moisture is to be measured, the work of switching the communication path to be closed by the communication path closing member and the size according to the size of the grain And a switching operation for switching to the grain moving plate having the holding opening.

  An object of the present invention is to provide a moisture measuring device and a grain dryer that can easily perform a switching operation even when the size of a grain changes due to a change in the type of grain whose moisture is measured. It is in.

  The moisture measuring device of the present invention is a moisture measuring device provided with a plurality of moisture measuring units for measuring moisture contained in grains of mutually different sizes, in order to achieve the above object, and measures moisture. A hopper into which the grains are put, and a plurality of communication paths communicating the hopper and each of the plurality of moisture measuring units are provided, and a communication member that supplies the grains put into the hopper to the respective moisture measuring units, Each is detachably provided to the hopper, and is formed in a plate shape provided with a holding opening for holding the grains put into the hopper, and is held in the holding opening by performing a predetermined operation in the hopper. And a plurality of grain moving members for moving the grain, wherein a plurality of communication holes are provided on an inner surface of the hopper, the plurality of communication holes respectively communicating the plurality of communication passages with a space in the hopper, and a plurality of grains are provided. Each holding aperture of the rotary members, depending on the size of the grain to be held are formed in different sizes, initially passes over different communication hole when a predetermined operation.

  Thereby, when changing the size of the grain for measuring the moisture contained therein, the grain input to the hopper is supplied to the corresponding moisture measuring unit by changing only the grain moving member.

  According to the moisture measuring device of the present invention, when changing the size of the grain for measuring the moisture contained therein, by changing only the grain moving member, the moisture measurement corresponding to the grain put into the hopper is performed. Since it can be supplied to the section, the number of parts can be reduced, and erroneous setting when measuring the water content of the grain can be prevented.

It is a schematic structure figure of a grain dryer showing one embodiment of the present invention. It is a whole perspective view of a moisture measuring device. It is a side sectional view of a moisture measuring device. It is a front sectional view of a moisture measuring device. It is a figure explaining a plurality of moisture measuring units. It is a front view of a hopper. It is a front view of a 1st grain movement board. It is a front view of a 2nd grain movement board. It is a figure explaining operation which moves a small grain to the 1st communication hole. It is a figure explaining operation which moves a large grain to the 2nd communication hole.

  1 to 10 show an embodiment of the present invention.

  As shown in FIG. 1, the grain dryer 1 of the present invention includes a storage unit 2 for storing grains, a drying unit 3 for drying grains, and a collection unit for collecting grains descending from the drying unit 3. There is provided a cereal part 4 and a fried part 5 for returning the cereals collected in the cereal collecting part 4 to the storage part 2.

  The storage unit 2 is located on the upper side and stores grains.

  The drying unit 3 is provided below the storage unit 2, and heats the cereal that descends from the storage unit 2 by a circulating operation, for example, with far infrared rays or hot air to reduce moisture contained in the cereal.

  The grain collecting section 4 is provided below the drying section 3, and collects grains falling from the drying section 3 by a circulation operation.

  The frying unit 5 is provided so as to extend in the vertical direction on the side surfaces of the storage unit 2, the drying unit 3, and the grain collecting unit 4, and conveys the grains collected in the grain collecting unit 4 upward. Release to the top. In addition, an input port 6 for inputting cereals to be dried by the cereal dryer 1 is provided at a lower portion of the fry unit 5. The cereal introduced from the inlet 6 is transported upward by the frying unit 5 and discharged to the upper part of the storage unit 2. Further, an unloading unit for unloading the grains contained therein is provided at an upper portion of the unloading unit 5.

  The grain dryer 1 configured as described above circulates grains in the order of the storage unit 2, the drying unit 3, the grain collection unit 4, and the fried grain unit 5.

  As shown in FIG. 1, the moisture measuring device 10 of the present invention is provided on the lower side of the fried unit 5. The moisture measuring device 10 measures the moisture contained in a part of the grain transported upward in the frying unit 5 at predetermined time intervals. During the drying operation of the grain, the grain dryer 1 detects that the moisture of the grain measured by the moisture measuring device 10 has reached the set moisture content or moisture percentage, and the drying unit 3 and the grain collecting unit 4 and the operation of the frying unit 5 can be stopped.

  As shown in FIGS. 2 to 4, the moisture measuring device 10 is provided in the housing 20 so as to protrude from a side surface of the frying unit 5, and is provided in the housing 20 to measure moisture contained in the grain. And a grain supply mechanism 40 for supplying grains to the moisture measurement mechanism 30.

  As shown in FIG. 2, the housing 20 has a box-like shape extending in the vertical direction. As shown in FIG. 3, the housing 20 is attached to a side wall of the fried portion 5 with the first side surface 21 facing the fried portion 5. The bottom surface 22 of the housing 20 is inclined downward from the second side surface 23 facing the first side surface 21 toward the first side surface 21. The third side surface 24 adjacent to the first side surface 21 of the housing 20 is provided with a viewing window 24a for making the inside of the housing 20 visible from the outside. As shown in FIG. 4, the interior of the housing 20 is divided into a first space 20 a on the third side surface 24 side and a second space 20 b on the fourth side surface 25 side facing the third side surface 24 by a partition wall 26. It is partitioned. An intake 21a for taking in grains is provided at an upper portion of the first side surface 21 of the housing 20 on the first space 20a side. Further, a discharge port 21b for discharging a grain whose moisture has been measured by the moisture measurement mechanism 30 is provided in a lower portion of the first side surface 21 of the housing 20 on the first space 20a side.

  The moisture measuring mechanism 30 is provided for each grain size for measuring moisture, and includes a plurality of moisture measuring units 31 for crushing the grain and an electric motor 32 as a power source for driving the plurality of moisture measuring units 31. And a driving force transmission mechanism 33 for transmitting the driving force of the electric motor 32 to the plurality of moisture measuring units 31.

The plurality of moisture measuring units 31 are driven by a first rotating shaft 31 a receiving a driving force of the electric motor 32.
And a second rotation shaft 31b, a first roller 31c supported by the first rotation shaft 31a, a second roller 31d and a third roller 31e supported by the second rotation shaft 31b, a first roller 31c and a second roller 31c. It has a measuring unit 31f for measuring electric resistance between the roller 31d or between the first roller 31c and the third roller 31e.

  The first rotation shaft 31a and the second rotation shaft 31b are each made of metal, and are arranged in the first space 20a such that their respective central axes are arranged in parallel in the horizontal direction. One end of each of the first rotation shaft 31a and the second rotation shaft 31b is rotatably supported by the partition wall 26.

  The first roller 31c is a metal cylindrical member fixed to the outer peripheral portion of the first rotation shaft 31a. The outer peripheral portion of the first roller 31c is subjected to, for example, a roll-type knurling process such as a stitch. In the vicinity of the first roller 31c, a rotating brush 31c1 and a scraper 31c2 for removing shards of grain attached to the outer peripheral surface of the first roller 31c are provided.

  The second roller 31d is a metal cylindrical member fixed to the outer peripheral portion of the second rotation shaft 31b. The axial dimension of the second roller 31d is substantially half the axial dimension of the first roller 31c. As shown in FIG. 5, a groove 31d1 is formed in the outer peripheral portion of the second roller 31d by, for example, rolling knurling such as beveling or flattening. The groove 31d1 is formed to a depth dimension that can crush small grains such as paddy and wheat between the outer peripheral portion of the first roller 31c and the outer peripheral portion of the second roller 31d.

  The third roller 31e is a metal cylindrical member fixed to the outer periphery of the second rotating shaft 31b. The axial dimension of the third roller 31e is substantially half the axial dimension of the first roller 31c, and is substantially the same as the axial dimension of the second roller 31d. As shown in FIG. 5, a groove 31e1 is formed on the outer peripheral portion of the third roller 31e by, for example, cutting knurling such as beveling or flattening. The groove 31e1 has a greater depth than the groove 31d1 of the second roller 31d, capable of crushing large grains such as soybeans and corn between the outer peripheral portion of the first roller 31c and the outer peripheral portion of the third roller 31e. It is formed in the size.

  As shown in FIG. 5, the second roller 31d and the third roller 31e are arranged in the axial direction of the second rotation shaft 31b. In the present embodiment, the plurality of moisture measuring units 31 constitute a first moisture measuring unit 31A between the outer peripheral portion of the first roller 31c and the outer peripheral portion of the second roller 31d, and the outer peripheral portion of the first roller 31c and the third roller 31c. A portion between the outer peripheral portion of 31e and the outer peripheral portion is defined as a second moisture measuring portion 31B.

  Further, near the second roller 31d and the third roller 31e, a fixed brush 31d2 and a scraper 31d3 for removing shards of grain attached to the outer peripheral surface of the first roller 31c are provided.

  Further, each of the plurality of moisture measuring units 31 has a foreign matter removing structure for removing foreign matter when a foreign matter such as a stone or a metal piece different from a grain is supplied. The foreign matter removing structure includes a part of the outer periphery of the first roller 31c, a part of the outer periphery of the second roller 31d and the third roller 31e, or the outer periphery of the first roller 31c, the second roller 31d, and the third roller 31e. It is formed by performing a so-called D-cut process in which a part of the portion is cut out so as to be flat.

  In the plurality of moisture measuring units 31, when foreign matter is supplied in a state where the first rotating shaft 31a and the second rotating shaft 31b are driven to measure the moisture of the grain, the foreign matter is supplied to the rollers 31c, 31d, and 31e. The rotation of the first rotation shaft 31a and the second rotation shaft 31b is restricted by being engaged. The plurality of moisture measuring units 31 detect a state in which the rotation of the first rotation shaft 31a and the second rotation shaft 31b is restricted, and rotate the first rotation shaft 31a and the second rotation shaft 31b when measuring moisture. The first rotation shaft 31a and the second rotation shaft 31b are rotated in a direction opposite to the direction. As a result, the foreign matter put into the moisture measuring unit 31 is removed from the gap formed by the D-cut between the first roller 31c and the second roller 31d or between the first roller 31c and the third roller 31e. Is dropped and removed from the moisture measuring section 31.

  The measurement unit 31f measures an electrical resistance between a first measurement point 31f1 connected to the first rotation axis 31a and a second measurement point 31f2 connected to the second rotation axis 31b. The measuring unit 31f is configured such that the first measurement point 31f1 and the second measurement point 31f1 are separated between the first roller 31c and the second roller 31d, or between the first roller 31c and the third roller 31e. An electric circuit is formed between the two measurement points 31f2. The measuring unit 31f measures the moisture content or the moisture content contained in the grain by detecting the resistance value of the electrical resistance between the first measurement point 31f1 and the second measurement point 31f2.

  The electric motor 32 is provided above the first space 20a and is fixed to the partition wall 26, as shown in FIGS.

  The driving force transmission mechanism 33 includes a plurality of gears, and has a first rotating shaft 31a and a second rotating shaft 31b connected together with the rotating shaft of the electric motor 32 connected thereto. The driving force transmission mechanism 33 is provided in the second space 20b and is fixed to the partition wall 26.

  As shown in FIG. 3, the grain supply mechanism 40 is formed with a hopper 41 into which the grain is put, and a plurality of communication paths 42 a and 42 b communicating the inside of the hopper 41 and each of the plurality of moisture measuring units 31. A communication member 42 and a grain moving plate 43 as a plurality of grain moving members for moving the grains put into the hopper 41 to a predetermined communication path in the hopper 41 are provided.

  The hopper 41 is provided at the upper part of the housing 20 on the side of the frying unit 5. The hopper 41 has a cylindrical shape with one end closed and the other end open. A part of the hopper 41 protrudes toward the frying unit 5 via the inlet 21a, and one end of the cylindrical shape is directed obliquely downward. The opening on the other end side of the hopper 41 faces obliquely upward in the fried portion 5. The hopper 41 is provided with a closing plate 41a that closes a part of the opening on the other end side in order to suppress the amount of grains that enter the hopper 41 from the frying unit 5.

  The communication member 42 is a member in which a passage communicating between one end of the hopper 41 and the upper part of the plurality of moisture measuring units 31 is formed. Specifically, a first communication path 42a that connects the hopper 41 and the first moisture measuring unit 31A is formed on the right side when viewed from the first side surface 21 side of the housing 20, and the hopper 41 and the second moisture measuring unit are formed on the left side. A second communication passage 42b communicating with the base 31B is formed. Further, an end of the communication member 42 on the hopper 41 side is connected to an upper side of one end surface of the hopper 41, and as shown in FIG. The first communication hole 42a1 is formed, and the second communication hole 42b1 of the second communication passage 42b is formed on the left side of the first communication hole 42a1. On one end surface of the hopper 41, the second communication hole 42b1 is opened to a radially inner side than the radial arrangement of the first communication hole 42a1.

  As shown in FIGS. 7 and 8, the plurality of grain moving plates 43 are formed of a disk-shaped member having an outer diameter substantially the same as the inner diameter of one end of the hopper 41, and centered on a radial center portion. It is rotatably supported on the hopper 41 in a detachable manner. The grain moving plate 43 is rotatable forward and backward by transmitting the power of the electric motor 32. The grain moving plate 43 is provided with a holding opening 43a for holding the grains put into the hopper 41 and for moving the grains along one end face in the hopper 41 by a rotation operation. The holding opening 43a is formed by cutting out the outer peripheral portion of the grain moving plate 43 or piercing a predetermined position in the radial direction. The size and position of the holding opening 43a of the grain moving plate 43 are determined according to the size of the grain to be moved and the positions of the communication holes 42a1 and 42b1 on one end surface in the hopper 41. The holding opening 43a is formed in a size that holds one grain.

  In the present embodiment, the grain moving plate 43 includes a first grain moving plate 43-1 for moving small grains such as paddy and wheat to the first communication hole 42a1, and a large grain such as soybean and corn. A second grain moving plate 43-2 for moving the grains to the second communication hole 42b1 is used. The first grain moving plate 43-1 and the second grain moving plate 43-2 are replaced with respect to the hopper 41 according to the size of the grain for measuring the contained moisture.

  The first grain moving plate 43-1 has a holding opening 43a formed by cutting out the outer peripheral portion. The first grain moving plate 43-1 has a plurality of holding openings 43a formed at predetermined intervals in the circumferential direction.

  The second grain moving plate 43-2 has a holding opening 43a formed radially inward of the holding opening 43a of the first grain moving plate 43-1. The second grain moving plate 43-2 has one holding opening 43a formed in the circumferential direction. The holding opening 43a of the second grain moving plate 43-2 is an opening larger than the holding opening 43a of the first grain moving plate 43-1.

  In the moisture measuring device 10 configured as described above, when performing the operation of drying the grain by the grain dryer 1, the grain moving plate 43 is attached to the hopper 41 in accordance with the type of the grain to be dried. When the grains to be dried are small grains such as paddy and wheat, the first grain moving plate 43-1 is attached to the hopper 41. If the cereal to be dried is a large grain such as soybean or corn, the second grain moving plate 43-2 is attached to the hopper 41.

  During the drying operation of the grain by the grain dryer 1, in the moisture measuring device 10, the grain moving plate 43 is rotated and the moisture measuring mechanism 30 is driven in a state where the grain is loaded into the hopper 41. , Measure the moisture contained in the grain.

  When the grain moving plate 43 is rotated counterclockwise in the hopper 41 into which the grains are loaded, the holding opening 43a of the grain moving plate 43 passes below the hopper 41, and One grain is held in the holding opening 43a.

  One grain held in the holding opening 43 a moves upward along one end surface in the hopper 41 by rotation of the grain moving plate 43. When the position of the holding opening 43a matches the position of the communication holes 42a1 and 42b1 on one end surface of the hopper 41, the kernel held in the holding opening 43a moving along one end surface in the hopper 41 , 42b, and is supplied to the moisture measuring mechanism 30, and one of the moisture measuring units 31A, 31B measures the moisture.

  Here, when the first grain moving plate 43-1 is mounted in the hopper 41, since the holding opening 43a is provided in the outer peripheral portion, the holding opening 43a is rotated counterclockwise from the lower side in the hopper 41. When it moves, it first passes over the first communication hole 42a1, as shown in FIG. Therefore, the grain S held in the holding opening 43a is supplied to the first moisture measuring unit 31A through the first communication passage 42a through the first communication hole 42a1. The moisture contained in the grain S supplied to the first moisture measuring unit 31A is measured by measuring the electrical resistance in a state where the grain S is crushed between the first roller 31c and the second roller 31d. The grain S crushed between the first roller 31c and the second roller 31d is discharged out of the housing 20 from the discharge port 21b.

  When the second grain moving plate 43-2 is mounted in the hopper 41, the holding opening 43a is provided radially inside the holding opening 43a of the first grain moving plate 43-1. Therefore, when the hopper 41 moves counterclockwise from below in the hopper 41, it first passes over the second communication hole 42b1, as shown in FIG. Therefore, the grain L held in the holding opening 43a is supplied to the second moisture measuring unit 31B through the first communication passage 42b through the second communication hole 42b1. The moisture contained in the grain L supplied to the second moisture measuring unit 31B is measured by measuring the electrical resistance in a state where the grain L is crushed between the first roller 31c and the third roller 31e. The grain L crushed between the first roller 31c and the third roller 31e is discharged out of the housing 20 through the discharge port 21b.

  As described above, according to the moisture measurement device of the present embodiment, the holding openings 43a of the plurality of grain moving plates 43 are formed to have different sizes depending on the size of the grain to be held, and have a predetermined size. At the time of operation, it first passes over different communication holes 42a1 and 42b1.

  Thereby, when changing the size of the grain for measuring the moisture contained therein, by changing only the grain moving plate 43, the grain supplied to the hopper 41 is supplied to the corresponding moisture measuring unit 31. Therefore, it is possible to reduce the number of parts, and to prevent erroneous setting when measuring the moisture of the grain.

  The plurality of grain moving plates 43 are each formed in a disk shape, and perform a rotating operation about a radial center portion in the hopper 41 as a predetermined operation, and are different from each other in radial directions. The plurality of communication holes 42a1 and 42b1 are provided at positions corresponding to the respective holding openings 43a of the plurality of grain moving plates 43, respectively.

  This makes it possible to move the grains in the hopper toward the communication holes 42a1 and 42b1 by the grain moving plate 43 that performs the rotating operation, so that a large operation space during the operation of the grain moving plate 43 is obtained. Since it is not necessary, the size of the device can be reduced.

  In addition, the plurality of moisture measuring units 31 have rollers 31c, 31d, and 31e, respectively, which make pairs for crushing grains.

  This makes it possible to change the size of the grain whose water content is to be measured by using a roller having a different outer peripheral shape, thereby facilitating setting change.

  In the above-described embodiment, the grain moving plate 43 that moves the grain put into the hopper 41 by the rotation operation is shown, but the present invention is not limited to this. A grain moving plate that can reciprocate in a predetermined direction in the hopper may be used as long as the grains put in the hopper 41 can be moved.

  Further, in the above-described embodiment, the plurality of moisture measuring units 31 are configured by the first roller 31c and the second roller 31d and the first roller 31c and the third roller 31e, respectively, but are not limited thereto. It is not something that can be done. It is not limited to a moisture measuring section having a pair of rollers as long as the member for measuring moisture is changed according to the size of the grain.

  Further, in the above-described embodiment, the moisture of two types of grains is measured by the two moisture measuring units 31A and 31B, the two communication paths 42a and 42b, and the two grain moving plates 43-1 and 43-2. Although it was shown that it did, it is not limited to this. By providing three or more moisture measuring units, three or more communication paths, and three or more grain moving plates, it is possible to measure moisture of grains of three or more kinds of sizes.

  DESCRIPTION OF SYMBOLS 1 ... Grain dryer, 10 ... Moisture measuring device, 31 ... Moisture measuring unit, 31A ... 1st moisture measuring unit, 31B ... 2nd moisture measuring unit, 41 ... Hopper, 42 ... Communication member, 42a ... 1st communication passage, 42a1 first communication hole, 42b second communication passage, 42b1 second communication hole, 43 kernel moving plate, 43a holding opening, 43-1 first grain moving plate, 43-2 second Grain moving plate.

Claims (4)

Moisture measurement device comprising a plurality of moisture measurement units for measuring the moisture contained in grains of different sizes from each other,
A hopper into which grains for measuring moisture are put,
A plurality of communication passages that communicate the hopper and each of the plurality of moisture measurement units are provided, and a communication member that supplies kernels supplied to the hopper to the respective moisture measurement units,
Each is detachably provided to the hopper, and is formed in a plate-like shape having a holding opening for holding grains put into the hopper, and is held in the holding opening by performing a predetermined operation in the hopper. A plurality of grain moving members for moving the grain,
On the inner surface of the hopper, there are provided a plurality of communication holes for communicating the plurality of communication passages with the space in the hopper, respectively.
A moisture measuring device in which the holding openings of the plurality of grain moving members are formed in different sizes according to the size of the grains to be held, and first pass over different communication holes during a predetermined operation. Each of the plurality of grain moving members is formed in a disk shape, and performs a rotating operation about a radial center portion in the hopper as a predetermined operation, and holding openings are provided at different positions in the radial direction from each other. Formed,
The moisture measuring device according to claim 1, wherein the plurality of communication holes are provided at positions corresponding to the respective holding openings of the plurality of grain moving members. The moisture measuring device according to claim 1, wherein the plurality of moisture measuring units each include a pair of rollers for crushing a grain. A grain dryer for containing and drying the grains,
A moisture measuring device according to any one of claims 1 to 3,
A grain dryer that measures the moisture contained in grains stored by a moisture meter.

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