JP6352118B2 - Sampling device - Google Patents

Description

  The present invention relates to a sampling device that collects a sample for sampling, and more particularly to a sampling device that enables rice grains to be packed in a bag to be reliably collected as a sample for grade inspection.

  Conventionally, rice grains are packed and distributed in a bag-like body called a flexible container bag in order to pack and transport rice grains and the like. As an apparatus for bagging grains in such a flexible container bag, the present applicant has proposed a grain processing apparatus in Patent Document 1 and the like. The grain processing apparatus includes a supply hopper that stores grains (sized) by a sorter and the like, a cereal cylinder that incorporates a cerealing means for cerealing grains in the supply hopper, A flexible container bag comprising: a discharge pipe for dropping and supplying the grains to be harvested by the cerealing means into the flexible container bag; and a measuring instrument for measuring the weight of the grains to be fed into the flexible container bag. When the weight of the grain supplied inside reaches a preset weight, the rice can be packed into the flexible container bag for each preset weight by stopping the supply of the grain from the discharge pipe It is configured as follows.

JP 2014-105080 A

  By the way, it is obliged for the produced rice grains to undergo a quality inspection in order to clarify which grade the rice grains are. Conventionally, in the case of collecting rice husks inside this kind of bagged rice grains as a sample for inspection, rice grains that have been packed by piercing a thin pointed tubular instrument from the outside of a flexible container bag A portion of the sample was taken as a sample and examined to determine the grade of the packed rice grains. For this reason, when collecting the sample for the sample, it is necessary to make a hole in the flexible container bag, and not only there is a risk that rice grains spill out from the hole in the flexible container bag, but also the flexible container bag There is also a problem in terms of hygiene because there is a possibility that pests, germs and the like may enter from the hole.

  For this reason, when bagging a predetermined amount of rice grains using the granule processing apparatus shown in Patent Document 1, a small amount of sample product is separately packed in a container or the like separately from the bagging step, and this is small. It is also conceivable to inspect the grade of rice grains packed in a bag by inspecting this small sample by packing it in a bag and tying it with a flexible container bag. However, in such a method, not only the process for collecting a sample to be a sample in a process different from the bagging process is increased, but it is necessary to temporarily stop the bagging process, which reduces the work efficiency. Invite. Furthermore, because there is no guarantee that the rice grains subdivided as a sample of rice grains packed in a flexible container bag is the same as the rice grains packed in a flexible container bag, for example, rice grains in a small bag collected as a sample, Since there is no doubt that there is fraud such as switching to a higher-grade rice grain than the bagged rice grain, when bagging rice grains, a part of the rice grains to be bagged is reliably collected as a sample sample A method was desired.

  Therefore, the present invention has been made paying attention to the above-mentioned problem, and it is possible to collect a sample for a sample in parallel with the bag filling process, and the bag filling process and the collection of the sample for a sample are performed in parallel. It is an object of the present invention to provide a sampling device in which rice grains that are processed in the bagging process and that are packed in the bagging process are reliably collected as samples.

  The sampling device of the present invention includes a supply pipe branched from a flow path of a sampling object and supplied to the sampling device, a plurality of sample containers for filling a sampling sample supplied from the supply pipe, and the sample A turntable for placing the container in a positioning state, a cam plate for intermittently rotating the turntable to sequentially convey the sample container to a standby position below the supply pipe, and a cam for rotating the cam plate A first operating piece that engages the turntable with the cam plate and intermittently rotates the turntable at equal intervals, and controls the supply of the sampling sample to the supply pipe. And a second operating piece that is engaged with the opening / closing means to fill the sample container with a predetermined amount of sample.

  In the sampling device of the present invention, a receiving cam having engagement arms corresponding to the number of sample containers is fixed to the turntable, and the first operating piece and the engagement arms are rotated by rotation of the cam plate. And the turntable is intermittently rotated.

  In addition, the sampling device of the present invention includes a switching lever that is swingably supported as the opening / closing means of the supply pipe, and is provided with a stopper that defines the position of the switching lever, and at one end of the switching lever held by the stopper. By engaging the second working piece, tilting the switching lever and pushing down the wire connected to the other end of the switching lever, the supply path of the sampling sample to the supply pipe is opened to enter the sample container. The sample is filled, and the switching lever is engaged with a stopper when the switching lever and the second operating piece are disengaged.

  In the sampling device of the present invention, the sampling device is attached to a grain processing device for bagging the kernel, and a part of the kernel to be bagged is filled in the sample container as a sample. Features.

  Further, the sampling device of the present invention comprises a measuring instrument for measuring the weight of the grain packed in the bag as the grain processing device, and presets the weight of the grain filled in the bag by this measuring instrument, A cam configured to stop the supply of the grain from the grain processing device to the bag on the measuring device when the set weight is reached, and to rotate the cam plate of the sampling device by a signal from the measuring device A first switch for controlling the drive means to start and stopping the cam drive means during the grain sampling step, a timer means for setting a stop time of the cam drive means, and a setting by the timer means After the lapse of the stop time of the cam drive means, the rotation of the cam drive means is resumed, and the turntable is intermittently engaged by the engagement of the first operating piece and the engagement arm. A second switch for stopping the cam driving means after the rotation is provided, and the cam plate is provided with a switch operation piece that engages with the first switch and the second switch. To do.

  In the sampling device of the present invention, the switching lever and the second operating piece are engaged when the first switch and the switch operating piece are engaged, and the switching is performed within the set time of the timer means. By pushing down the wire connected to the lever, the sample container is filled with a fixed amount of grain, and after the filling of the sample container with the grain is completed, the cam driving means rotates again and the switching lever and The engagement with the second operating piece is released, and the turntable is intermittently rotated by the engagement of the first operating piece and the engaging arm in conjunction with the rotation of the cam plate. Thereafter, the cam drive unit is controlled to be stopped by the engagement between the second switch and the switch operation piece.

  According to the sampling device of the present invention, a sampling sample can be reliably filled with a certain amount of a sample for sampling branched from the flow path of the sampling object, and the sampling operation can be automated.

  Moreover, a sampling apparatus is attached to the grain processing apparatus, and the sample for the sample can be collected in parallel with the bagging process by the grain processing apparatus. Furthermore, the sample for the sample can be collected very efficiently without inserting the instrument into the flexible container bag and collecting the grain for the sample as in the prior art, and in parallel with the bagging process of the grain processing apparatus. Thus, it is possible to improve the efficiency of the bagging operation that enables the sample for the sample to be collected. Moreover, by collecting the sample for the sample in parallel with the bagging process of the grain processing device, the same kind of the grain as the bag to be packed can be reliably collected as a sample for the sample. And a sample apparatus with high reliability can be provided.

It is a perspective view which shows the sampling device which shows 1st Example of this invention. It is a top view of the turntable which shows 1st Example of this invention. It is the schematic explanatory drawing which looked at the sampling apparatus which shows 1st Example of this invention from the front direction. It is a perspective view which shows the engagement state of the cam board and receiving cam which show 1st Example of this invention. It is a schematic explanatory drawing of the grain processing apparatus which shows 1st Example of this invention. It is a schematic explanatory drawing of the sampling apparatus which shows 2nd Example of this invention.

  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

  In addition, in a present Example, the case where it applies to the sampling apparatus attached to a grain processing apparatus is demonstrated as an example. Although the structure of this grain processing apparatus is not specifically limited, For example, the grain processing apparatus 100 shown to Unexamined-Japanese-Patent No. 2014-105080 (patent document 1) which the applicant of this application applied for by itself is mentioned as an example. A case where the sampling device 1 is attached will be described as an example. Although detailed description of the grain processing apparatus 100 is omitted here, as shown in FIG. 5, the grain processing apparatus 100 includes a bowl-shaped milling cylinder 103 having a built-in milling means 101, and a sorter. Supply hopper 104 provided at the lower part of the cereal barrel 103 to receive the grains discharged from the etc., a storage hopper 105 provided on one side of the cereal barrel 103, It is provided with the discharge pipe 106 which is provided in the upper part and discharges the grain whipped by the whipping means 101 to the flexible container bag H.

  Further, the discharge pipe 106 is branched into bifurcated pipes 107 and 108, one branch pipe 107 sends the grain to the flexible container bag H, and the other branch pipe 108 is the storage hopper. The kernel is sent to 105. Further, a switching shutter 110 is built in the discharge pipe 106 for switching the cerealed grain to the pipe line 107 or 108, and a signal from the measuring device 115 for measuring the weight of the grain in the flexible container bag H is provided. Thus, when a predetermined amount (for example, 1t) is reached, the branch conduit 107 is closed by the switching shutter 110 and the branch conduit 108 is opened.

  As shown in FIG. 1, the sampling apparatus 1 according to the present invention includes a turntable 3 on which a plurality of sample containers 2 (six in this embodiment) are placed. The cam plate 4 is controlled to rotate intermittently by an electric motor 6 as cam driving means for rotationally driving.

  The sample container 2 is, for example, a cup-shaped container, and the turntable 3 is formed with a recess 7 for positioning the sample container 2 as shown in FIG. 2, and the sample container 2 is formed on the turntable 3 by the recess 7. On the other hand, a supply pipe 9 is arranged so as to be aligned in an annular shape at regular intervals and to supply a sample (rice husk) facing a part of the positioned sample containers 2.

  The turntable 3 is rotatably supported on the upper surface of a box-shaped casing 8 by a shaft 3a. The back surface of the turntable 3 has a plurality of (in the present embodiment, corresponding to the sample containers 2). A receiving cam 11 in which six (6) radial engaging arms 10 are arranged at equal intervals is fixed.

  As shown in FIG. 3, the cam plate 4 and an electric motor 6 that drives the cam plate 4 are housed in the casing 8, and the cam plate 4 is disposed horizontally on the upper surface of the casing 8. It is fixed to a drive shaft (not shown) of the electric motor 6 so as to be orthogonal to the turntable 3. The cam plate 4 has a disk shape as a whole, and is integrally formed so that the first operating piece 12 extends outward from the outer peripheral surface thereof. Further, a second operating piece 13 that protrudes in the axial direction of the electric motor 6 is integrally formed on the flat plate portion of the cam plate 4 along the outer peripheral edge thereof. Then, in conjunction with the rotation of the cam plate 4 by the electric motor 6, the first operating piece 12 engages with the engagement arm 10 of the receiving cam 11 to rotationally drive the turntable 3, and the second The operating piece 13 engages with a switching lever 15 which is an opening / closing means of the supply pipe 9 and pushes down the wire 20 connected to the switching lever 15.

  The switching lever 15 is pivotally supported by the casing 8, the wire 20 is connected to one end of the switching lever 15, and the other end side of the switching lever 15 is engaged with the second operating piece 13. It is held by the stopper 17 in a substantially horizontal state. One end of the switching lever 15 is connected to a return spring 16 that urges the switching lever 15 in one direction (clockwise). The switching lever 15 is a stopper against the urging force of the spring 16. 17 is held. The wire 20 is connected to an opening / closing mechanism (not shown) that opens and closes a flow path of rice grains to be packed in the grain processing apparatus 100, and the second operating piece 13 and a switching lever are interlocked with the rotation of the cam plate 4. 15, when the switching lever 15 rotates and pushes down the wire 20, a part of the flow path of the grain processing device 100 is opened, and a part of the rice grain to be packed is supplied to the supply pipe 9. The rice grains serving as the sample for the sample are supplied into the sample container 2 from the supply pipe 9. In addition, from the viewpoint of collecting a part of the grain filled in the flexible container bag H as a sample, the flow path of the grain opened and closed by the switching lever 15 should be a flow path on the branch pipe line 107 side. Although desirable, the configuration may be such that the flow path on the side of the branch pipe 108 returning to the storage hopper 105 is controlled by the switching lever 15.

  In the present embodiment configured as described above, rice grains are filled in the flexible container bag H by the grain processing device 100, and the cam plate 4 of the sampling device 1 is rotated clockwise by the electric motor 6 in parallel with the bagging process. First, the second operating piece 13 comes into contact with the switching lever 15 by the rotation of the cam plate 4. At this time, one of the sample containers 2 on the turntable 3 is located at the lower part of the supply pipe 9 (standby position). In this state, the second operating piece 13 and the switching lever 15 are engaged, and the switching lever 15 is rotated counterclockwise by the second operating piece 13 in conjunction with the rotation of the cam plate 4 so that the switching lever 15 is moved. Tilt to push down the wire 20. Thereby, a part of the rice grain flow path in the grain processing apparatus 100 is opened by an opening / closing mechanism (not shown) assembled in the grain processing apparatus 100, and the supply pipe 9 branched from the flow path is bagged. A part of the rice cereal is supplied as a sample, which is filled in the sample container 2 arranged at the standby position.

  The supply of the sample rice grains from the supply pipe 9 continues while the second operating piece 13 is engaged with the switching lever 15, and the second operating piece 13 is rotated with the rotation of the cam plate 4. Is removed from the switching lever 15, the switching lever 15 is rotated by the return spring 16. Thereby, the flow path of the rice grain in the grain processing apparatus 100 is closed via the wire 20, the supply of the sample grain into the sample container 2 is stopped, and a certain amount of rice husk is filled in the sample container 2. Will be. In this way, the rice cereal filled in the flexible container bag H in the sample container 2 is collected as a sample for the sample and filled in the sample container 2. Thereafter, the first working piece 12 is engaged with the engagement arm 10 of the receiving cam 11 by the rotation of the cam plate 4 and the turntable 3 is rotated so that the next sample container 2 reaches the standby position below the supply pipe 9. It is rotated and conveyed. Thereafter, the same processing is repeated in conjunction with the rotation of the cam plate 4 to repeatedly fill the sample container 2 with rice cereal and transport the next sample container 2 to the standby position after filling, and the grain processing device In parallel with the bagging process by 100, the sample for sample can be collected.

  As described above, in the present embodiment, the sampling device 1 attached to the grain processing apparatus 100 fills the sample container 2 with the sample grain in parallel with the bagging process of the grain processing apparatus 100, and If it is added together with the flexible container bag H as a sample for the sample of rice grains to be packaged, it can be used for the sample extremely efficiently without inserting the instrument into the flexible container bag H and collecting the rice grains for the sample as before. A sample can be taken. Moreover, since the sample sample is collected in parallel with the bag packing process of the grain processing apparatus 100, an inefficient operation of stopping the bag packing process of the grain processing apparatus 100 and collecting the sample is unnecessary. Efficient bagging work is also possible.

  In the present embodiment, in the grain processing apparatus 100, the electric motor 6 is controlled to be activated by a signal from the measuring instrument 115 that measures the weight of the grain filled in the flexible container bag H.

  The first switch 120 for stopping the electric motor 6 when filling the sample container 2 with the grain, the timer means 121 for setting the stop time of the electric motor 6, and the grain for the sample container 2 , And then the second switch 125 for stopping the electric motor 6 after completion of a series of sampling steps for rotating and transporting the next empty sample container 2 to the standby position, and the first switch 120 and the second switch A switch operating piece 126 is provided on the cam plate 4 so as to engage with the switch 125.

  In the present embodiment configured as described above, the electric motor 6 is stopped in a state in which the second switch 125 and the switch operation piece 126 provided on the cam plate 4 are engaged. The engagement position between the switch 125 and the switch operation piece 126 is the start position. And the signal which starts the electric motor 6 is output from the measuring instrument 115 at the timing preset in the bagging process of the grain processing apparatus 100, and the electric motor 6 starts. As a result, first, the cam plate 4 rotates and the engagement between the second switch 125 and the switch operating piece 126 is released, and the switching lever 15 and the second switch are interlocked with the rotation of the cam plate 4. The operating piece 13 is engaged. The first switch 120 and the switch operating piece 126 are engaged with each other when the switching lever 15 is inclined by the engagement of the switching lever 15 and the second operating piece 13 and the wire 20 is pushed down. The electric motor 6 stops while the wire 20 connected to is pressed down. Thereby, a part of the rice grain flow path in the grain processing apparatus 100 is opened, and a part of the rice grain packed in the supply pipe 9 branched from the flow path is supplied as a sample, and the electric motor 6 is stopped. The rice grains are filled into the sample container 2 at the standby position. The stop time of the electric motor 6 is set by the timer means 121, and the stop time of the electric motor 6 is set so that the electric motor 6 rotates again when the sample container 2 is filled with predetermined rice grains.

  When the stop time of the electric motor 6 set by the timer means 121 elapses, the electric motor 6 rotates again, and first, the engagement between the switching lever 15 and the second operating piece 13 is released. . Thereby, supply of the rice grain into the sample container 2 is also stopped. Thereafter, the rotation of the cam plate 4 causes the first operating piece 12 of the cam plate 4 and the engagement arm 10 to engage to rotate the turntable 3 intermittently. 2 is rotated and conveyed to the standby position.

  Thus, when a series of sample processes of filling the rice container into the sample container 2 and rotating and transporting the next empty sample container 2 to the standby position is completed, the cam plate 4 is linked with the rotation of the cam plate 4. The switch operation piece 126 to be formed is engaged with the second switch 125, and the electric motor 6 is stopped again at the start position. Then, the electric motor 6 is activated by the signal from the measuring instrument 115 at the timing when the bagging process of the grain processing device 100 is completed and the flexible container bag H on the measuring instrument 115 is replaced and the bagging process is started again. Thereafter, the sampling process is repeated.

  As described above, in the present embodiment, the electric motor 6 is rotated by a signal from the measuring instrument 115 at the timing of the bagging process of the grain processing apparatus 100, and the sampling process is started. That is, in the said Example, the rotational speed of the electric motor 6 is set according to the bagging process of the grain processing apparatus 100, or the flexible container on the measuring instrument 115 is completed after the bagging process of the grain processing apparatus 100 is completed. When replacing the bag H, the bagging process and the sampling process of the grain processing apparatus 100 can be synchronized by rotating the electric motor 6 by a manual operation. By controlling the electric motor 6 to rotate according to the signal, it is possible to reliably sample rice grains to be packed at the timing of the bagging process of the grain processing apparatus 100, and to automate the sampling process. .

  Further, the first switch 120 and the switch operating piece 126 are engaged at the timing when the switching lever 15 and the second operating piece 13 are engaged and the sample container 2 is filled from the supply pipe 9, and the timer means By controlling so that the electric motor 6 is stopped during the time set to 121, the sample container 2 can be filled with a fixed amount of grain, and the amount of grain to be filled in the sample container 2 Also, the time during which the electric motor 6 is stopped by the timer means 121 can be arbitrarily set.

  As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to each said Example, A various deformation | transformation implementation is possible. For example, in the above-described embodiment, grains such as rice grains are targeted for sampling, but the present invention can also be applied to sampling devices such as various foods and processed foods, and the sampling objects are not particularly limited. Further, the configuration of details such as the shape of the cam plate or the receiving cam including the engagement of each operating piece is not limited to the above embodiment. In each of the above embodiments, the spring 16 is provided as a means for returning the switching lever 15. However, the switching lever 15 may be returned by a torsion spring, the weight balance of the switching lever 15, or the like. If a spring mechanism that automatically returns in the open / close mechanism (not shown) on the side of the grain processing apparatus 100 that opens and closes the flow path of the rice grain via the wire 20 is used, the pulling force of the switching lever 15 is applied via the wire 20. Therefore, since the spring 16 connected to the switching lever 15 is not necessary, the spring 16 is not necessarily required.

DESCRIPTION OF SYMBOLS 1 Sampling apparatus 2 Sample container 3 Turntable 4 Cam board 6 Electric motor (cam drive means)
9 Supply pipe 10 Engagement arm 11 Receiving cam 12 First operating piece 13 Second operating piece 15 Switching lever (opening / closing means)
20 Wire 100 Grain processing device 115 Meter 120 First switch 121 Timer means 125 Second switch 126 Switch operation piece

Claims (6)

  A supply pipe branched from the sampling object flow path and supplied to the sampling device, a plurality of sample containers for filling the sampling sample supplied from the supply pipe, and the sample containers placed in a positioned state A turntable, a cam plate that intermittently rotates the turntable to sequentially convey the sample containers to a standby position below the supply pipe, and a cam drive means that rotates the cam plate, A first operating piece that engages with the turntable on the cam plate and rotates the turntable intermittently at equal intervals; and an opening / closing means for controlling the supply of the sampling sample to the supply pipe. A sampling device characterized in that a second working piece for filling a fixed amount of sample in the sample container is formed.   A receiving cam having an engagement arm corresponding to the number of the sample containers is fixed to the turntable, and the first operating piece and the engagement arm are engaged with each other by rotating the cam plate. The sampling apparatus according to claim 1, wherein the sampling apparatus is intermittently rotated.   A switching lever supported swingably as the opening / closing means of the supply pipe is provided, and a stopper for defining the position of the switching lever is provided, and the second operating piece is engaged with one end of the switching lever held by the stopper The switching lever is tilted to push down the wire connected to the other end of the switching lever, thereby opening the supply path of the sampling sample to the supply tube and filling the sample container with the sample. The sampling device according to claim 1, wherein the switching lever is engaged with a stopper when the engagement between the first operating piece and the second operating piece is released.   4. The sampling device according to claim 1, wherein the sampling device is attached to a grain processing device for bagging the grain, and a part of the grain to be bagged is filled in the sample container as a sample. The sampling device according to any one of the above. The grain processing device is provided with a measuring instrument for measuring the weight of the grain to be packed in the bag, the weight of the grain to be filled in the bag by this measuring instrument is set in advance, and when the set weight is reached, the grain Configured to stop the supply of grain from the processing device to the bag on the meter,
A first switch for controlling the cam driving means for rotating the cam plate of the sampling device to be activated by a signal from the measuring instrument and stopping the cam driving means during the grain sampling step, and the cam Timer means for setting a stop time of the drive means, and after the stop time of the cam drive means set by the timer means has elapsed, the rotation of the cam drive means is resumed, and the first operating piece and the engagement arm A second switch for stopping the cam driving means after intermittently rotating the turntable by engagement with the cam plate, and the cam plate being associated with the first switch and the second switch. 5. The sampling apparatus according to claim 4, further comprising a switch operating piece for matching.   The switching lever and the second operating piece are engaged when the first switch and the switch operating piece are engaged, and the wire connected to the switching lever is pushed down within the set time of the timer means. After the sample container is filled with a fixed amount of grain, and the filling of the grain into the sample container is completed, the cam driving means rotates again to engage the switching lever and the second operating piece. And the second switch and the switch after the turntable is intermittently rotated by the engagement of the first operating piece and the engagement arm in conjunction with the rotation of the cam plate. The sampling apparatus according to claim 5, wherein the cam driving unit is controlled to be stopped by engagement with an operating piece.

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