TWM578074U - Fish fingerling counting tray - Google Patents

Abstract

The present invention is a seedling computing disk comprising a groove and a plurality of partitions disposed at a groove bottom of the groove, the plurality of partitions spacing the groove into a plurality of water channels, the water channels being mutually Connected to each other. The seedling calculation tray of the present invention is a storage tray for calculating the number of seedlings (such as shrimp or fry), and when the water containing the plurality of seedlings is placed in the seedling calculation tray, the seedlings move toward the outer side of the seedling calculation tray based on the biological characteristics. The seedling calculation tray has a partitioning member for restricting the moving direction of the seedling, which can restrict part of the seedling movement, so that the seedlings can be evenly distributed in the seedling calculation tray, and the seedlings are overlapped and densely gathered in the same position for easy observation. The overall activity, quality or number of seedlings of the seedlings.

Description

Seedling calculation disk

The present invention relates to a seedling calculation disk, and more particularly to a seedling calculation disk for calculating the number of shrimp or fry.

In terms of the calculated number of fry or shrimp, most of the current calculations rely on manual calculations. The whole process is to concentrate all the fry or shrimps first, and then distribute them evenly to the multiple barrel collection containers in a visual manner. The buyer sells the collection container of the plurality of barrels randomly, and then submits it by manual visual calculation. After the average number of fry or shrimp in the collection container of the next barrel, multiplied by the total number of barrels. After that, it is the number of all fry or shrimp. However, the number of fry or shrimps mentioned above is mostly tens or hundreds of thousands. However, the above-mentioned manual calculation method is not only time-consuming, but also fatigued for a long time to affect the accuracy.

In the prior art, there is a method of counting by image capturing. The disadvantage of image calculation is that when a plurality of fry or shrimps swim in the collecting container, they may cause fry or shrimp seedlings due to the angle of image capturing. The occurrence of overlap in the captured image occurs. If the fry or the shrimp seedlings overlap too much, it will cause the difference between the actual quantity and the calculated quantity to be excessive. Therefore, the simple image calculation method will cause a large error. The situation occurs, and the actual quantity is further corrected by means of various image acquisitions and correction calculations. The above calculation method for calculating the number of fry and shrimp by using images is quite complicated, and it requires a lot of manpower and time cost to improve the image calculation system, etc., and the actual benefits are not high.

The present invention provides a seedling computing tray which is modified in the prior art because fry or shrimp are susceptible to the lateral movement of the seedlings due to biological characteristics, which results in the above-mentioned fry or shrimp intensive concentration on the peripheral side of the seedling calculation tray, and There is an overlap between the fry or the shrimp, which increases the difficulty of the calculation, and it is also prone to excessive calculation errors.

The present invention provides a seedling computing disk comprising: a groove and a plurality of partitions disposed at a groove bottom of the groove, the plurality of partitions spacing the groove into a plurality of water channels, the water channels Connect to each other.

According to an embodiment of the present invention, the groove bottom of the groove is square or circular in shape.

According to an embodiment of the present invention, the plurality of spacers are radially arranged or/and misaligned.

According to an embodiment of the present invention, the above further includes a plurality of water holes that penetrate the groove walls of the grooves.

According to an embodiment of the present invention, the height of the bottom of the groove to the lowest point of the orifice of the water holes is lower than or equal to the height of the plurality of partitions.

According to an embodiment of the present invention, the height of the groove wall of the groove is lower than or equal to the height of the plurality of partitions.

According to an embodiment of the present invention, the groove is for accommodating water containing a plurality of seedlings, and the height of the groove wall or/and the height of the plurality of partitions are set according to the size of each seedling.

According to an embodiment of the present invention, the heights of the plurality of partition members are adjusted according to the height of the seedlings.

According to an embodiment of the present invention, the water channels of the plurality of water channels have the same width.

According to an embodiment of the present invention, the groove is for accommodating water containing a plurality of seedlings, and the water channel width of the water channels is set according to the size of each seedling.

According to an embodiment of the present invention, the water channel widths of the plurality of water channels are adjusted according to the length or width of the seedlings.

According to an embodiment of the present invention, the groove is for accommodating water containing a plurality of seedlings, and the seedlings are shrimp or fry.

The present invention improves the shortcomings of the prior art, and provides a seedling calculation disk for assisting in calculating the number of fish fry or shrimp seedlings, and the seedling calculation disk can evenly distribute the fry or shrimp seedlings in the disk into the seedling calculation disk. Avoid overlapping or densely gathering of fry or shrimp in the same location to facilitate accurate calculation of the number of fry or shrimp and observe the activity and quality of the fry or shrimp.

In order to further understand and understand the features of the present invention and the effects achieved, only the examples and detailed descriptions are provided, as illustrated below:

Please refer to FIG. 1, which is a schematic diagram of a seedling calculation disk of a first embodiment of the present invention. As shown, the present invention provides a seedling calculation tray 1 for counting the number of seedlings in water containing a plurality of seedlings, wherein the seedlings include shrimp or fry. A seedling calculation disk 1 of the present embodiment includes a groove 11 and a partition member 13.

Please refer to FIG. 2 and FIG. 3 together, which is a schematic cross-sectional view of the seedling calculation disk of the first embodiment of the present invention and an enlarged view of the A area of FIG. As shown in the figure, in the present embodiment, the groove bottom of the groove 11 of the seedling calculation disk 1 has a square shape or a circular shape, and the groove bottom is a flat surface. A plurality of partitioning members 13 are disposed at the bottom of the groove of the groove 11. The partitioning members 13 divide the grooves 11 into a plurality of water channels 110, and the water channels 110 communicate with each other, wherein the plurality of water channels of the seedling counting disk 1 The greater the number of 110, the greater the number of seedlings that can be accommodated. The partitioning members 13 are arranged radially or/and misaligned. The arrangement of the partitioning members 13 is preferably arranged in a misaligned manner, which can minimize the speed at which the seedlings cannot easily move outward and the speed at which the seedlings move. The purpose of the 13 is to limit the movement of the seedlings. Therefore, the user can adjust the layout of the partitioning member 13 according to the requirements, and the case is not limited.

Moreover, the width w of the water channels 110 is the distance between the plurality of partition members 13. The width w of the water channels 110 is adjusted according to the size of the fry or the shrimp, wherein the length of the fry or the shrimp is usually Between 2.5mm and 7.5mm, and the width of the fry and the shrimp are usually between 0.5mm and 1.5mm. The actual values provided above are not limited by the width of the water channels 110. The water channel width of the water channels 110 the same. The above-mentioned user can use the length or width of the actual seedlings (such as shrimp or fry, etc.) as the reference for setting the width w of the water channel 110, so that the width w of the water channel 110 can only accommodate a small amount of seedlings, thereby limiting each piece. The seedlings of the water channel 110 are arranged to facilitate the counting of the number of seedlings.

In addition, the partition members 13 are sheet-like walls, and the height h of the partition members 13 is adjusted according to the size of the fry or the shrimp, wherein the length of the fry or the shrimp is usually between 2.5 mm and 7.5 mm. The width of the fry and the shrimp are usually between 0.5 mm and 1.5 mm, but the actual values provided above are not limited as the height of the partitions 13. The height h of the partition member 13 is affected by the height of the side wall around the groove 11 of the seedling calculating disk 1, and in one embodiment (not shown), when the groove 11 of the seedling calculating disk 1 is filled with a plurality of seedlings When water is used, the height of the water level in the groove 11 is limited to the height of the groove wall around the seedling calculation disk 1, that is, the water level is higher than the height of the groove wall around the seedling calculation disk 1, and the excess water is caused by the groove wall top of the groove 11. The outer overflow, such that the height of the water level is limited to be equal to or lower than the height of the groove wall of the groove 11, in other words, the height of the groove wall of the groove 11 is also adjusted according to the size of the fry or the shrimp. The user can use the height of the actual seedling (such as shrimp or fry, etc.) as the reference for the water level setting (ie, the height of the groove wall of the groove 11 or / and the height h of the partition 13), so that the water level can only be just accommodated. The height of a seedling makes it impossible for the seedlings to overlap the same position up and down, so that the plurality of seedlings are located at the same level, which facilitates the counting of the number of seedlings.

As described above, the groove wall height of the groove 11 is equal to or lower than the level of the highest point of the partition member 13, and avoiding that when the water level is higher than the partition member 13, the seedlings can move above the partition member 13, which causes The partition 13 loses the effect of restricting the movement of the seedlings.

In another embodiment (as shown in FIGS. 1 to 3), the seedling computing disk 1 further includes a plurality of water holes 15 extending through the groove walls of the grooves 11. The water holes 15 are located in the groove wall around the groove 11, and the horizontal height H of the groove bottom of the groove 11 to the lowest point of the holes of the water holes 15 is lower than or equal to the highest point of the plurality of partitions 13. The level h. When the water containing the plurality of seedlings is filled in the groove 11 of the seedling calculation tray 1, the water level in the groove 11 is limited to the lowest point of the orifices of the water holes 15 in the groove wall around the seedling calculation disk 1. The horizontal height H, that is, when the water level is higher than the lowest point of the orifices of the water holes 15, the excess water will overflow outward from the orifices of the water holes 15, so that the height of the water level is limited to be equal to or lower than the height The level of the lowest point of the orifice of some of the water holes 15. As in the previous embodiment, the user can use the size of the actual seedlings (such as shrimp or fry, etc.) as the reference for the water level setting (ie, the level of the lowest point of the holes of the water holes 15), which is the same as the previous one. The height of the groove wall of the groove 11 of the embodiment is not described again.

As described above, the horizontal height H of the groove bottom of the groove 11 to the lowest point of the orifices of the water holes 15 is lower than or equal to the horizontal height h of the highest point of the plurality of separators 13, and the effect is the same as the purpose. The spacer 13 in the previous embodiment has a height h, and therefore will not be described again.

Please refer to FIG. 4 , which is a schematic diagram of the measurement of the seedling calculation disk of the first embodiment of the present invention. As shown in the figure, in the present embodiment, the user places water containing a plurality of seedlings 2 (indicated with filled dots in the drawing) in the groove 11, and calculates the center of the disk 1 from the seedlings. At the beginning of the placement, the seedlings 2 are moved toward the outer side of the seedling calculation tray 1 based on the biological characteristics, and the partition member 13 serves as a restricting structure for restricting the movement of the seedlings 2 to the outer direction, and at the same time, the width w of the water passage 110 and the height of the water level are limited, thereby being able to avoid The seedlings 2 are overlapped or densely clustered in the same position, so that a plurality of seedlings 2 can be evenly distributed in the seedling computing tray 1. In this case, whether the user observes the naked eye or the image capturing technique through the machine Both can easily calculate the number of seedlings 2. Further, since the seedling calculation disk 1 limits the range of activity of the seedling 2, the seedling 2 can distinguish the individual monomers more clearly, and the user can conveniently observe the activity and growth of the seedling 2 to discriminate the seedling 2 quality.

As described above, in the calculation of the image capture of the embodiment, the light is further irradiated into the seedling calculation disk 1 by using light having a high light intensity, wherein the light of the light is preferably the ultraviolet light. The activity of irradiating seedlings with the intense light of ultraviolet light is higher. In the above manner, the image system can better analyze the situation of the seedlings by dynamic analysis when performing image capture counting.

This embodiment improves the shortcomings of the prior art. In the prior art, there are too many cases of seedling overlap, which may result in an excessive difference between the actual quantity and the calculated quantity, not to mention the transaction of hundreds of thousands of seedlings. The situation of unfairness is even more serious. Therefore, the present invention provides a seedling calculation disk 1 comprising a groove 11 and the plurality of partition members 13, the biological characteristics of which cause the seedlings 2 to move to the outside of the seedling calculation disk 1, and the partition member 13 as a restriction seedling 2 to move outward The structure is such that the seedlings 2 are evenly distributed in the seedling calculation tray 1. Furthermore, by limiting the width w of the water channel 110 in the seedling 1 and the height of the water level, it is possible to prevent the seedlings 2 from overlapping and densely gathering in the same position, so that the user can calculate the number of seedlings and observe the quality of the seedlings.

Please refer to FIG. 5 and FIG. 6 , which are schematic cross-sectional views of the seedling calculation disk of the second embodiment of the present invention and an enlarged view of the B area of FIG. 5 . As shown in the figure, the difference between this embodiment and the first embodiment lies in the groove bottom of the groove 11 of the seedling abacus 1. In this embodiment, the partitioning members 13 divide the grooves 11 into the plurality of water channels 110, and each of the water channels 110 has a corresponding concave groove bottom, so as to change the depth of each water channel 110, in other words, increase The height of the seedlings is accommodated. The height h of the partition member 13 can be lowered by the user, so that the user can adjust the height h of the partition member 13 or the depth of the bottom of the groove to match the size of the seedling, which is not limited in this embodiment.

Please refer to FIG. 7, which is a schematic diagram of the arrangement of the separators of the seedling computing disk of the third embodiment of the present invention. As shown in the figure, the difference between the present embodiment and the first embodiment lies in the arrangement of the spacers 13. In this embodiment, the width w of the water channel 110 of the partitioning member 13 is wider, and the arrangement of the partitioning members 13 is relatively simple. The user can adjust the arrangement of the partitioning members 13 according to requirements, and is not limited thereto.

In summary, the present invention provides a seedling calculation disk comprising a groove and a plurality of partitions disposed on a groove bottom of the groove, the plurality of partitions dividing the groove into a plurality of water channels. The waterways are connected to each other. The seedling calculation tray of the present invention is a storage tray for calculating the number of seedlings. When the water containing the plurality of seedlings is placed in the seedling calculation tray, the seedlings are moved toward the outer side of the seedling calculation tray based on the biological characteristics, and the partitions serve as the limiting seedlings. The restriction structure moving to the outside direction, while passing through the restriction of the water channel width and the water level height, can prevent the seedlings from overlapping or densely gathering in the same position, so that a plurality of seedlings can be evenly distributed in the seedling calculation disk, and the user can have the naked eye. Observe or use the machine's image capture technology to easily calculate the number of seedlings. Furthermore, because the seedling calculation disk limits the range of activity of the seedlings, so that the seedlings can distinguish the individual monomers more clearly, the user can conveniently observe the activity and growth of the seedlings to judge the overall quality of the seedlings.

1‧‧‧ seedling calculation disk

11‧‧‧ Groove

110‧‧‧ watercourse

13‧‧‧Parts

15‧‧‧ water hole

2‧‧‧ seedlings

A, B‧‧‧ area

w‧‧‧Width

h, H‧‧‧ height

Figure 1 is a perspective view showing a seedling calculation disk of a first embodiment of the present invention;  Figure 2 is a schematic cross-sectional view showing a seedling calculation disk of the first embodiment of the present invention;  Figure 3: is an enlarged view of the area A of Figure 2;  Figure 4 is a schematic view showing the measurement of the seedling calculation disk of the first embodiment of the present invention;  Figure 5 is a schematic cross-sectional view showing a seedling calculation disk of a second embodiment of the present invention;  Figure 6: is an enlarged view of the B area of Figure 5;  Fig. 7 is a schematic view showing the arrangement of separators of the seedling calculation disk of the third embodiment of the present invention.  

Claims (12)

A seedling calculation disk comprising: a groove and a plurality of partition members, wherein the partition members are disposed at a groove bottom of the groove, and the plurality of partition members divide the groove into a plurality of water channels, the water channels Connect to each other. The seedling calculation disk according to Item 1, wherein the groove bottom has a square shape or a circular shape. The seedling calculation tray of claim 1, wherein the plurality of spacers are radially arranged or/and misaligned. The seedling calculation disk of claim 1, further comprising a plurality of water holes, the water holes penetrating through the groove wall of the groove. The seedling calculation disk according to Item 4, wherein the height of the bottom of the groove from the bottom of the groove to the lowest point of the holes of the water holes is equal to or lower than the height of the plurality of partitions. The seedling calculation disk of claim 1, wherein the groove wall height of the groove is equal to or lower than the height of the plurality of partitions. The seedling calculation tray according to Item 5 or 6, wherein the groove is for accommodating a water containing a plurality of seedlings, and the height of the groove wall of the groove or/and the height of the plurality of partitions is per The size of the seedling is set. The seedling calculation tray of claim 7, wherein the height of the plurality of partitions is adjusted according to the height of the seedling. The seedling calculation disk of claim 1, wherein the water channels of the water channels have the same width. The seedling calculation tray according to Item 1, wherein the groove is for accommodating a water containing a plurality of seedlings, and the water channel width of the water channels is set according to the size of each of the seedlings. The seedling calculation tray of claim 10, wherein the water channel width of the water channels is adjusted according to the length or width of the seedlings. The seedling calculation tray according to Item 1, wherein the groove is for accommodating a water containing a plurality of seedlings, and the seedlings are shrimp or fry.