JP3788002B2 - Pachinko ball passage sorting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sorting device for pachinko ball passages.
[0002]
[Prior art]
In general pachinko parlors, ball counters used by customers are arranged at important points in the store. On the other hand, recently, there is a proposal to attach a ball counter to each pachinko machine. As an example, as shown in FIG. 1, a counter for each table 3 is installed at a counter portion below the lower plate 2 of each pachinko machine 1. The counter for each table 3 includes a receiving tray 5 that receives a pachinko ball falling from below a ball discharge port (shutter) 2 a provided in the lower plate 2, and a counting unit 6 that counts pachinko balls stored in the receiving tray 5. It has. The counting unit 6 is set in a table sand 4 provided between adjacent pachinko machines 1.
[0003]
In this way, the downstream side of the counter for each table 3 is inserted and fixed below the table sand 4. And the counting sensor is mounted in the part inserted in the base sand 4, and it counts the number of the pachinko balls discharged | emitted to the base sand 4 side. Then, after the counted balls are taken into a platform mechanism called a platform sand 4, the pachinko balls are routed through this platform between the “islands” (paths through which the pachinko balls flow). Returned to This counter for each table (ball counter for each pachinko machine) is designed in accordance with the form of each pachinko machine 1.
[0004]
That is, the customer handles the counters while playing, and automatically counts a large number of balls at the time of big hit, and returns the pachinko balls to the internal mechanism of the pachinko machine. More specifically, the pachinko balls are configured to return to an island formed by arranging a plurality of pachinko machines.
[0005]
As a result, the pachinko balls are recirculated into the island, so that they can be used as hit balls (prize balls) or the like supplied directly to each pachinko machine constituting the island. The counted balls are managed as electronic information, and a pachinko ball is again issued to the customer or a ball deposit certificate (IC card or the like) for exchanging prizes is issued according to the customer's request.
[0006]
In addition, it is not necessary to bring a dollar box in the case of a big hit, and since the lower plate becomes full after the dollar box is brought up, the hit balls are not discharged, and the big hit There is no longer a situation where rights are lost.
[0007]
The above-described apparatus configuration will be described in more detail. The receiving tray 5 is disposed below the ball discharge port of the lower plate of the pachinko machine, and the counting unit 6 is coupled to an internal mechanism between the pachinko machines. Two slits 5 a extending in a strip shape are formed on the bottom surface of the tray 5, and the pachinko balls supplied into the tray 5 are guided by the slit 5 a and are sent in the counting unit 6 in two rows. A partition wall 5b is erected between the slits 5a on the outlet side of the tray 5 so as to be surely separated into two rows, and a movable guide 5c is provided above the discharge side so that the pachinko balls are vertically To be sent to the counting unit 6 side by side.
[0008]
As described above, the pachinko balls accommodated in the tray 5 flow to the counting unit 6 while being gradually aligned according to the inclined ball passage 7. There are two rows of ball passages 7 of the counting unit 6, and each ball passage 7 is completely aligned in one row and the pachinko balls move. A ball sensor 8 for counting is incorporated in each of the two ball passages 7. The pachinko ball sorting process described above will be specifically illustrated and described as shown in FIGS. Normally, the pachinko ball 8a that has moved along the slit 5a as described above passes through each ball passage 7 partitioned by the partition wall 5b as it is, and then reaches the counting unit 6. On the other hand, some pachinko balls are not sorted into any of the ball passages 7 smoothly from the beginning, but temporarily move on the partition wall 5b like a pachinko ball indicated by reference numeral 8b in the drawing. Then, since the partition wall 5b is relatively uphill with respect to the lower surface of the ball passage 7, the pachinko ball 8b ascends the uphill. Then, the pachinko ball 8b is separated from the ball passage 7, and as a rule, comes into contact with the upper surface of the partition wall 5b and the pachinko ball 8a on the downstream side, so that it can move in the lateral direction of the traveling direction. Therefore, from the relationship of the balance of the center of gravity, it finally falls into one of the ball passages 7 and thereafter moves on the ball passage 7.
[0009]
[Problems to be solved by the invention]
However, the conventional apparatus described above has the following problems. That is, if the upper surface of the partition wall 5b is an uphill with respect to the ground, it does not run up and move on the partition wall 5b, and from other pachinko balls 8a located rearward in the traveling direction. Will receive. That is, since the ball passage 7 is formed in a downward inclined shape, the ball passage 7 moves forward while moving downward in the ball passage 7. Therefore, the pachinko ball 8b located immediately before it is moved while being pushed up on the partition wall 5b. Therefore, the conveying force applied to the pachinko ball 8b is increased, and it surely reaches the upper surface of the partition wall 5b and is dropped into one of the ball passages 7.
[0010]
Furthermore, the drop position to the ball passage 7 falls when the partition wall 5b is raised to a certain height. Therefore, in order to shorten the distance of the ball passage 7, as shown by a two-dot chain line in FIG. 4, the inclination angle on the upstream side of the partition wall 5b is made steep, and the pachinko balls 8b are moved up and down at once to sort. Get better.
[0011]
When the upstream inclined surface of the partition wall 5b is made steep, a force to push up the pachinko ball 8b is required, so the inclination angle of the ball passage 7 is increased, and the pachinko ball 8b generated by the pachinko ball 8a is pushed up. It is necessary to increase the force and conveying force. However, since the distance of the lower space of the lower plate 2 is fixed (although it varies depending on the pachinko machine, it is within a certain width that is not so wide), the inclination angle may not be large. And if the inclination angle of the ball passage 7 is small, the force to push the pachinko ball 8b becomes weak. Therefore, if the angle of the inclined surface on the upstream side of the partition wall 5b is made sharp as described above, the pachinko ball 8b does not lift up. Cause clogging. Accordingly, the angle of the inclined surface of the partition wall 5b cannot be increased so much, and the distance necessary for sorting and aligning the pachinko balls is required to be long, and in addition to such a long movement distance, the ball path 7 Since it becomes a gentle slope, it takes time to align it, coupled with the slow movement speed.
[0012]
Further, as apparent from FIG. 2, the pocket portion 5a immediately below the lower plate 2 has a relatively wide area, and by narrowing it toward the downstream side, the pachinko balls are continuously conveyed on the downstream side, In this case, a relatively large amount of pachinko balls are present in the pocket portion 5a. In such a case, as shown in FIG. 5 and FIG. The pachinko balls are in a state where they overlap each other. If the pachinko balls are passed as they are overlapped as they are, it will cause clogging of the balls. Therefore, as shown in the figure, a movable guide 5c is provided to prevent the pachinko balls located on the upper side from flowing into the ball passage 7. That is, when the upper pachinko ball 8c comes into contact with the movable guide 5c, the brake is applied. Therefore, the preceding lower pachinko ball 8d advances into the ball passage 7 first, and then the upper pachinko ball 8c is moved by its own weight. As a result, the ball passes through the ball passage 7 in a state of falling down and aligned in a row. At this time, the movable guide 5c rotates forward and backward as indicated by a double-pointed arrow in the drawing to suppress clogging at that location.
[0013]
Thus, in order to advance in the ball passage 7 in one row, the movable guide 5c capable of forward and reverse rotation is required as an alignment mechanism, resulting in an increase in the number of parts and an increase in the size of the apparatus.
[0014]
The present invention has been made in view of the above-described background, and the object of the present invention is to solve the above-described problem, reliably perform ball sorting at a short distance, and move within a predetermined ball path, It is another object of the present invention to provide a pachinko ball path sorting device that can reduce the size of the entire device and reduce the number of parts, and can suppress the occurrence of clogging as much as possible.
[0015]
[Means for Solving the Problems]
To achieve the above object, the first invention, are separated by the partition walls, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by a ball passage of a plurality of rows inclined downwardly, each Each ball passage is set so that the pachinko balls are moved in a line in the front-rear direction, and an inclined surface that is an uphill relative to the ball passage is provided on the upstream side of the partition wall. In the upper surface of the partition wall, a sorting part having a notch part formed of an uphill slope is formed again by forming a slope that becomes a downward slope toward the bottom surface of the ball path along the moving direction of the pachinko balls. together, the inclination angle of the slope the downhill of the sorting unit is set larger than the inclination angle of the ball passage, the pachinko balls to move over the inclined surface using the slope as a downhill of the sorting unit To accelerate dropped, and configured to be sorted into one of the ball passages partitioned by the partition wall (claim 1).
[0016]
With this configuration, pachinko balls that have moved on the partition walls fall and move along the slope of the sorting section, so they move away from the pachinko balls that follow and smoothly flow into one of the ball paths. Sorted.
[0017]
In the second invention, they are separated by the partition walls, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by a ball passage of a plurality of rows inclined downwardly, the respective balls passages, each pachinko balls The partition wall is set to be moved in a line in the front-rear direction, and the partition wall has a height that allows passage of pachinko balls that move at least two above and below the ball path. In addition, a sorting part having a notch part is provided on a part of the upper surface of the partition wall, and the notch part allows the pachinko balls that are overlaid to move to either the right or left ball path, and the ball path The lower pachinko ball moving on the bottom surface of the ball is not allowed to move to another ball passage (claim 2).
[0018]
When taking such a configuration, the pachinko ball that has moved in a state where it is overlapped vertically, when it reaches the position of the notch part, the upper pachinko ball flows into the notch part side, so it moves to the adjacent ball path side, Alternatively, even if it returns to the original ball path, the pachinko ball that has moved down is moving straight as it is, so that there is a time difference and it smoothly flows down toward the bottom of the ball path. Thereby, the state which overlapped up and down is eliminated, and it can move in the alignment state where the ball path was arranged in a line.
[0019]
In yet a third aspect of the invention, separated by arranged partition walls parallel a plurality, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by three or more rows of balls passageway which is inclined downwardly,
Each ball passage is set so that the pachinko balls are moved in a line in the front-rear direction,
The partition wall has a height that allows passage of at least two pachinko balls moving on the ball path in an overlapping manner, and a sorting portion having a notch in a part of the upper surface of the partition wall. Provided,
The notch allows the pachinko balls that are overlaid to move to either the left or right ball path, and allows the lower pachinko balls that move on the bottom surface of the ball path to move to another ball path. Set it not to allow,
And the formation position of the said notch part provided in each said partition wall was comprised so that it might shift back and forth along the moving direction of a pachinko ball with an adjacent partition wall (Claim 3).
[0020]
In such a configuration, the basic principle is that pachinko balls are aligned in the same manner as in the second aspect of the invention described above, and since the notches are faced back and forth, they are not sorted well at the first notch. Even in the case where the ball does not fall on the bottom surface of the ball passage, the second sorting process is performed by the notch provided in the opposite partition wall, so that the alignment can be performed more reliably.
[0021]
Further, on the premise of the second and third aspects of the invention, it is preferable that a protrusion that contacts only the pachinko ball that is superposed on the wall is provided on the wall facing the notch. In other words, the pachinko balls that are overlaid by the protrusions receive a force that moves toward the notch, so that the sorting process described above can be performed more reliably.
[0022]
Furthermore, on the premise of each of the above-described inventions, the ball passage is a ball passage plate that receives a pachinko ball, and the partition wall and the side wall that are located on both sides of the ball passage plate and suppress lateral movement of the pachinko ball. In addition, a gap is formed between the ball passage plate and the partition wall and the side wall, foreign matter can be dropped through the gap, and the lower end positions of the partition wall and the side wall are set to the ball. It is preferable to provide a portion located above the upper end of the passage plate because foreign matter can be discharged and clogging can be prevented.
[0023]
It should be noted that claims 1 to 3 (first to third inventions) described as independent claims both move vertically by providing a cut on the upper surface of the partition wall (in the first invention, the partition Of the pachinko balls that move while being pushed by the lower pachinko balls on the wall), the upper pachinko balls are dropped and moved so as to contact the bottom of the ball path, and sorted and aligned In common.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
7 and 8 show an example of an apparatus in which the present invention is implemented. As shown in the figure, a pachinko ball 20 falling from the lower plate 10 is received by the receiving plate 12, having a wide receiving plate 12 opened upward at the lower side of the lower plate 10 of the pachinko base. A counting portion 14 formed continuously downstream of the tray 12 is inserted and fixed in the table sand 15. Then, two ball passages 16 following the counting unit 14 are provided from the downstream side of the tray 12, and a counting sensor 17 is provided at a predetermined position of the ball passage 16 in the counting unit 14. A pachinko ball passing 16 is detected and the number of balls passed is counted.
[0025]
The pachinko ball passage sorting apparatus according to the present invention is incorporated in the ball passage 16 described above. That is, the ball passage 16 is formed by the both side walls 12a on the downstream side of the tray 12 and the partition wall 18 disposed therebetween. As shown in FIGS. 9 and 10, the ball passage 16 is formed in a downwardly inclined shape (downstream side becomes lower) so that the pachinko ball 20a that has entered the ball passage 16 moves smoothly downstream. I have to.
[0026]
The upstream end of the partition wall 18 is provided with an inclined portion 18a, and the pachinko ball 20b that has entered so as to straddle the two ball passages 16 is raised along the partition wall 18 as it is downstream. The pachinko ball is prevented from clogging at the upstream end of the partition wall 18. Such a configuration is the same as the conventional one. Of course, the conveying force of the pachinko ball 20b that moves upward along the partition wall 18 is received from the pachinko ball 20a that moves through the ball passage 16 that follows the pachinko ball 20b. In this embodiment, the upper surface of the partition wall 18 is actually horizontal with respect to the ground (the upper surface of the tray) (the inclination angle of the ball passage 16 is small and the conveying force received from the pachinko ball 20a is small). However, since the ball passage 16 is inclined downward, the inclined surface rises relative to the ball passage 16. Of course, you may make it raise with respect to the ground.
[0027]
Here, in the present invention, a part of the upper surface of the partition wall 18 is cut out to provide the first sorting portion 21. In this embodiment, the first sorting unit 21 is formed by providing a downhill slope 21a in the middle of the uphill slope 18a. Moreover, the inclination angle θ1 is larger than the inclination angle θ2 of the ball passage 16. In the present invention, it is not necessary to provide the sorting part 21 in the middle of the inclined part 18a as described above, and it may be provided on the downstream side of the inclined part 18a.
[0028]
With such a configuration, when the pachinko ball 20b that has been pushed by the pachinko ball 20a and moved along the upper surface of the partition wall 18 reaches the first sorting portion 21 having a downwardly inclined surface, it follows its own weight along the inclined surface. Move down. In other words, the pachinko ball 20b did not have the transport force to move by itself before reaching the first sorting unit 21, but the pachinko ball 20b was transported from the rear pachinko ball 20a by dropping at the first sorting unit 21. It is possible to move forward without receiving force. In addition, in the present embodiment, since the inclination angle θ1 of the first sorting unit 21 is larger than the inclination angle θ2 of the ball passage 16, the pachinko ball 20b is accelerated and moved, and thus becomes faster than the moving speed of the pachinko ball 20a. Go ahead and leave. And it sorts into the ball path 16 on either side by the momentum accompanying the downward movement.
[0029]
After sorting in this manner, the ball proceeds along the ball path 16 in the same manner as the pachinko ball 20a that has entered the ball path 16 from the beginning, and reaches the counting unit 14 to be counted. And in this form, since the 1st sorting part 21 was provided, since it can sort reliably with a short distance and can arrange a pachinko ball, as shown in Drawing 7 and Drawing 8, compared with the past. The ball path can be shortened. Of course, the present invention can also be applied to a ball passage having the same length as the conventional one (see, for example, FIGS. 2, 11, and 12).
[0030]
11 and 12 show another structure to which the present invention is applied. That is, the structure shown in the figure is relatively similar to the conventional one, and the downstream side of the tray 12 is gradually narrowed to reach the ball passage 16. The ball passage 16 includes a relatively long straight portion that continues from the tray 12 and a portion that curves to change the traveling direction by about 90 degrees. As is clear from FIG. 12, the straight portion of the ball passage 16 is inclined downward at a predetermined angle.
[0031]
As shown in FIG. 13, the partition wall 18 in this embodiment is the same as that in the first embodiment described above in that an inclined portion 18a is provided on the upstream side. And the V-shaped notch part 23 is formed in the upper surface of an intermediate point. The lower end of the notch 23 does not reach the bottom surface of the ball passage 16 as in the first embodiment. Therefore, the lower pachinko ball advances straight without being affected by the notch 23.
[0032]
As a feature of the present embodiment, the protruding portion 26 is provided on the side wall 25 facing the partition wall 18 provided with the notch portion 23. The protrusions 26 do not contact pachinko balls that are lined up in a row in the ball passage 16, and the pachinko balls that have moved in the ball passage 16 so as to overlap each other are only pachinko balls 20 c located on the upper side thereof. It is formed at a position where it comes into contact with the protrusion 26 (the pachinko ball 20d that has moved below does not come into contact). The notch 23 and the protrusion 26 constitute a second sorting unit.
[0033]
With such a configuration, as shown in FIG. 11, the pachinko ball 20b moving along the partition wall 18 is moved to the left or right ball passage 16 while moving the inclined portion 18a as in the conventional case. Sorted.
[0034]
In this embodiment, as shown in FIGS. 13 and 14, when the pachinko balls have moved up and down on one ball passage 16, they overlap as shown in FIG. 16. Only the pachinko ball 20c is hitting the projection 26, and its path can be changed to the inside (partition wall 18 side). And since the notch part 23 is provided in the position where the projection part 26 was formed, the pachinko ball 20c whose course has been changed flows into the ball path 16 on the opposite side through the notch part 23, or a partition wall. It hits 18 and returns to the original ball passage 16 again.
[0035]
On the other hand, among the pachinko balls that overlap vertically, the lower pachinko ball 20d does not hit the projection 26, and thus moves through the ball passage 16 as it is. Therefore, even if the upper pachinko ball 20 c returns to the original ball passage 16 again, there is a time difference from the lower pachinko ball 20 d, so that the delayed pachinko ball 20 c flows down so as to contact the bottom surface of the ball passage 16. . Thereby, the state which moves up and down can be eliminated, and it can be moved in an aligned state. That is, conventionally, a movable guide for alignment has been provided, but in this embodiment, the partition wall is provided with a notch 23 and a projection 26 so as to move vertically and move, It is possible to prevent clogging.
[0036]
By providing the projections 26 in this way, the pachinko balls 20c can be surely entered once into the cutouts 23 and the sorting process can be performed smoothly. However, the present invention is not limited to this, and the projections It is not necessary to provide a part. That is, even if there is no protrusion, the pachinko ball 20c flowing on the upper side comes into contact with only one side wall 25 of both sides in the advancing direction when the cutout portion 23 is formed, and the opposite cutout portion 23 is partitioned. This is because there is no wall 18 and the movement to the notch 23 side is attempted.
[0037]
17 and 18 show a third embodiment of the present invention. As shown in the figure, in this embodiment, unlike the above-described embodiments, three ball paths 16 are provided. Accordingly, two partition walls 18 are provided. In this embodiment, each partition wall 18 is provided with notches 30a and 30b. And the position which provides each notch part 30a, 30b is shifted in the advancing direction.
[0038]
In such a configuration, as shown in FIG. 19, the upper pachinko balls of the pachinko balls moving in the state of overlapping each ball passage 16 by vertically shifting the notch portions 30a and 30b are notched portions. When it reaches the position of 30a, 30b, as in the second embodiment, it tends to move diagonally forward and downward toward the notches 30a, 30b. By the way, when the upper pachinko ball 20e moving in the middle passage as shown in the drawing tries to flow into the adjacent ball passage (passage A) 16 by the sorting effect of the notch 30a, the adjacent ball passage (passage A) ) 16 also includes a pachinko ball 20f that is vertically overlapped, and when the pachinko ball 20f is moved by the partition wall 18 (notch 30a) side, the pachinko ball 20e is moved by a ball path (passage) A) Movement to the 16 side is prevented. However, even in the pachinko ball 20e in which such movement is prevented, in this embodiment, the notches 30a and 30b are formed to be shifted back and forth, so that the notch 30b formed on the opposite partition wall 18 causes the opposite side The ball passage (passage C) 18 or the original central ball passage (passage B) 18 is sorted. Thereby, even if it is a ball passage of three or more rows, sorting and alignment processing can be performed smoothly.
[0039]
Further, although not specifically shown, it is needless to say that a protrusion may be provided on the wall surface facing the notches 30a and 30b, as in the second embodiment.
[0040]
By the way, the ball passage 16 has a ball passage plate 40 disposed between the side wall 25 and the partition wall 18 as shown in FIG. 20, for example, and the ball passage plate 40 supports the lower surface of the pachinko ball 20 to prevent the ball passage 16 from falling. The side wall 25 and the partition wall 18 are in contact with both sides to prevent lateral movement. A predetermined gap 41 is provided between the side wall 25, the partition wall 18, and the ball passage plate 40. As a result, even if a foreign object (for example, a coin) 42 enters the ball passage 16, it falls downward from the gap 41 as shown in FIG.
[0041]
As shown in FIG. 21 described above, the foreign matter 42 that is not in contact with the partition wall 18 or has completely entered the installation position of the partition wall 18 is guided by the partition wall 18 and the side wall 25 to be dropped and discharged from the gap 41. be able to. However, as shown in FIG. 22, for example, when a foreign substance 42 such as a coin is caught at the position of the inclined surface 18a of the partition wall 18, the inclined surface 18a of the partition wall 18 and the edge of the ball passage plate 40 are caught by the foreign object 42. The edge of the foreign matter 42 may be caught on the side wall 25, and the foreign matter 42 cannot be dropped or removed from the gap 41.
[0042]
Therefore, in the fourth embodiment according to the present invention, as shown in FIG. 23, the lower surface side of the partition wall 18 is removed to provide a notch 45. The lower end 18 b of the partition wall 18 is set to be positioned above the upper end of the ball passage plate 40. Similarly, the corresponding lower surface of the side wall 25 is also provided with a notch 45, and its lower end 25 a is set to be positioned above the upper end of the ball passage plate 40. With this configuration, as shown in FIG. 24, the portion where the foreign matter 42 comes into contact with the partition wall 18 and the side wall 25 is reduced, and the foreign matter 42 can be dropped and discharged downward through the notch 45. Clogging in the ball passage 16 can be suppressed as much as possible. The configuration of the fourth embodiment can be applied to each of the above-described embodiments. The pachinko ball 20 can move on the ball passage 16 as usual.
[0043]
【The invention's effect】
As described above, in the pachinko ball passage sorting apparatus according to the present invention, since the sorting portion formed by cutting is provided at a predetermined position on the upper surface of the partition wall, the pachinko balls that move in a state of floating from the bottom surface of the ball passage are It is dropped and moved downward, and comes into contact with the bottom of the ball passage. Therefore, it is possible to reliably sort balls at short distances and move them in a line in a predetermined ball path. Also, the entire device can be reduced in size and the number of parts can be reduced. Can be suppressed as much as possible. And if it makes it like Claim 5, generation | occurrence | production of the clogging by a foreign material can also be suppressed.
[Brief description of the drawings]
FIG. 1 is a diagram showing a conventional example.
FIG. 2 is a diagram showing a conventional example.
FIG. 3 is a diagram showing a conventional example.
FIG. 4 is a diagram showing a conventional example.
FIG. 5 is a diagram illustrating a conventional example.
FIG. 6 is a diagram showing a conventional example.
FIG. 7 is a plan view showing an example of a device structure to which the present invention is applied.
FIG. 8 is a side view showing an example of a device structure to which the present invention is applied.
FIG. 9 is a plan view showing the first embodiment of the present invention.
FIG. 10 is a front view showing the first embodiment of the present invention.
FIG. 11 is a plan view showing another example of a device structure to which the present invention is applied.
FIG. 12 is a side view showing another example of a device structure to which the present invention is applied.
FIG. 13 is a plan view showing a second embodiment of the present invention.
FIG. 14 is a front view showing a second embodiment of the present invention.
FIG. 15 is a diagram for explaining the operation of the second exemplary embodiment of the present invention.
FIG. 16 is a diagram for explaining the operation of the second exemplary embodiment of the present invention.
FIG. 17 is a plan view showing a third embodiment of the present invention.
FIG. 18 is a front view showing a third embodiment of the present invention.
FIG. 19 is a diagram for explaining the operation of the third exemplary embodiment of the present invention.
FIG. 20 is a diagram illustrating the structure of a ball passage portion.
FIG. 21 is a diagram illustrating a foreign matter discharge mechanism provided in the ball passage portion.
22 is a diagram illustrating a problem of the foreign matter discharge mechanism of FIG. 21. FIG.
FIG. 23 is a front view showing a fourth embodiment of the present invention.
FIG. 24 is a diagram showing a fourth embodiment of the present invention.
[Explanation of symbols]
16 Ball passage 18 Partition wall 18a Inclined portion 18b Lower end 20 Pachinko ball 21 First sorting portion 21a Slope 23 Notch 25 Side wall 25a Lower end 26 Projection 30a, 30b Notch 40 Ball passage plate 41 Gap

Claims (5)

Are separated by the partition walls, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by a ball passage of a plurality of rows inclined downwards,
Each ball passage is set so that the pachinko balls are moved in a line in the front-rear direction,
Provide an inclined surface that is an uphill relative to the ball passage on the upstream side of the partition wall,
In the predetermined position on the upper surface of the partition wall, a slope that becomes a downhill toward the bottom surface of the ball passage along the moving direction of the pachinko ball is formed, and a sorting portion that has a notch portion that is an uphill slope again from there is provided. , Set the inclination angle of the slope that becomes the downhill of the sorting section larger than the inclination angle of the ball passage,
The pachinko ball that moves on the inclined surface is accelerated and dropped using the slope that is the downhill of the sorting section, and is sorted into one of the ball paths partitioned by the partition wall. Characteristic pachinko ball passage sorting device. Are separated by the partition walls, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by a ball passage of a plurality of rows inclined downwards,
Each ball passage is set so that the pachinko balls are moved in a line in the front-rear direction,
The partition wall has a height that allows passage of at least two pachinko balls moving on the ball path in an overlapping manner, and a sorting portion having a notch in a part of the upper surface of the partition wall. Provided,
The notch allows the pachinko balls that are overlaid to move to either the left or right ball path, and allows the lower pachinko balls that move on the bottom surface of the ball path to move to another ball path. A pachinko ball passage sorting apparatus, which is set not to allow. Separated by arranged partition walls parallel a plurality, in the sorting apparatus of the pachinko ball passage for moving to align the pachinko balls by three or more rows of balls passageway which is inclined downwardly,
Each ball passage is set so that the pachinko balls are moved in a line in the front-rear direction,
The partition wall has a height that allows passage of at least two pachinko balls moving on the ball path in an overlapping manner, and a sorting portion having a notch in a part of the upper surface of the partition wall. Provided,
The notch allows the pachinko balls that are overlaid to move to either the left or right ball path, and allows the lower pachinko balls that move on the bottom surface of the ball path to move to another ball path. Set it not to allow,
And the formation position of the said notch provided in each said partition wall was shifted back and forth along the moving direction of the pachinko ball with the adjacent partition wall, The sorting apparatus of the pachinko ball path characterized by the above-mentioned. The pachinko ball path sorting device according to claim 2 or 3 , wherein a protrusion that contacts only the pachinko ball overlapping the upper surface is provided on a wall surface facing the notch. The ball passage is provided with a ball passage plate that receives a pachinko ball, the partition wall and the side wall that are located on both sides of the ball passage plate and suppress lateral movement of the pachinko ball, and the ball passage plate and the A gap is formed between the partition wall and the side wall, and foreign matter can be dropped through the gap,
And the part which located the lower end position of the said partition wall and the said side wall above the upper end of the said ball path board was provided, The pachinko ball path of any one of Claims 1-4 characterized by the above-mentioned. Sorting device.

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