JP4285990B2 - Pachinko machine outer frame fixing structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an outer frame fixing structure of a pachinko machine for installing each pachinko machine on an island where a plurality of pachinko machines are arranged side by side.
[0002]
[Prior art]
When installing a pachinko machine on a pachinko machine island, a method of fixing each pachinko machine with a nail or a screw is generally used. Specifically, for example, when replacing a pachinko machine with a new model, remove the old model used until then from the island, and place the lower front edge of the outer frame of the new model in place, After nailing and fixing in two places on the lower plate of the outer frame, a gauge is applied across the upper front edge of the fixed part of the island and the front edge of the upper plate of the outer frame, and a predetermined twist angle with respect to the island The outer frame is held, and the two steps of the upper plate of the outer frame are fixed by nailing upwards, and then attached to the outer frame to which the front frame is fixed.
[0003]
However, such a method of installing by using a nail or a screw or the like for each unit has a disadvantage that it requires a lot of time for installation work because of poor work efficiency and skill. . Also, once the pachinko machine was installed, it was difficult to remove the nails that had been struck, so it took more time to replace the pachinko machine with a new model.
[0004]
Therefore, in order to solve this drawback, an invention relating to a gaming machine fastening device in which an outer frame fixing device using a clamp mechanism is provided on the island side, and a clamp device provided on the upper side is provided with a twist adjustment mechanism is disclosed. (For example, refer to Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent No. 2528046 (page 3-4)
[0006]
[Problems to be solved by the invention]
By the way, the invention relating to the conventional gaming machine fastening device described above has the advantage that when removing the outer frame from the island, a nail is not used as a fixing means, so that a nail extraction operation is not required. In addition, when the outer frame is mounted on the island, there is an advantage that a nail driving operation is not required because a nail is not used, and there is an advantage that a final adjustment accuracy can be increased by a skein adjustment mechanism. Further, in any case, there is an advantage that a skilled skill is not required and equipment such as an air compressor for nailing is not required.
[0007]
However, since the conventional gaming machine fastening device described above uses screws, both the case where the outer frame is removed from the island and the case where the outer frame is attached to the island are accompanied by screw tightening work. This required a lot of time and was not sufficiently improved in terms of improving work efficiency.
[0008]
In recent years, so-called first-type pachinko machines have become mainstream, and the number of first-type pachinko machines installed in the pachinko hall is also large. In the case of the first kind of pachinko machine, the game ball directly wins the symbol start winning opening from the game board surface on the left side of the symbol start winning opening, and a winning / losing lottery is performed for each win. The so-called two types of winnings at the symbol start winning opening are not directly connected to the jackpot, but greatly influenced by the angle of the inclined surface in the accessory, and the movement of the game ball in the accessory is directly connected to the jackpot. Compared to the three types of pachinko machines, there is no significant difference in the number of game balls acquired by a player without precisely adjusting the twist angle of the entire pachinko machine. Accordingly, more efficient installation means are required in the installation work of the pachinko machine.
[0009]
Therefore, the present invention has been made in view of the above problems, and pachinko that can greatly improve the work efficiency when a pachinko machine (outer frame of the pachinko machine) is attached to the island and removed from the island. The purpose is to provide an outer frame fixing structure of the machine.
[0010]
[Means for Solving the Problems]
  In order to solve the above problems, the invention of the outer frame fixing structure of the pachinko machine according to claim 1 is the outer frame fixing of the pachinko machine for installing each pachinko machine on a so-called island where a plurality of pachinko machines are arranged side by side. In structure
  An upper plate and a lower plate of the outer frame of the pachinko machine are provided with a main body, an operation lever, a rotation shaft of the operation lever, and a shaft guide hole having a long hole shape formed in the main body with which the shaft is engaged. A lever-type nail driving mechanism comprising a nail attached to the operation lever,
  A part of the nail is arranged in a state of protruding from the bottom of the main body to the outside outside,
  Nail guide holes for guiding the moving direction of the nail formed in the plate thickness direction are formed on the upper plate and the lower plate of the outer frame,
  The lever-type nail driving mechanism prior to the rotation operation of the operation lever for fixing the outer frame to the island has the outer frame in a state in which a part of the nail that protrudes to the lower outside is inserted into the nail guide hole. Attached to the upper and lower plates,
  By rotating the operation lever, the rotation shaft moves from one end of the hole to the other end along the elongated hole-shaped shaft guide hole, and the operation lever is centered on the rotation shaft. Rotate approximately 180 °It is characterized by this.
[0011]
The outer frame of the pachinko machine to be installed is placed at a predetermined position on the island, and the operation lever of the lever-type nailing mechanism attached to the upper and lower plates of the outer frame is rotated. As the operation lever rotates, the nail attached to the operation lever protrudes, penetrates the upper plate or the lower plate and is press-fitted into the plate constituting the island (hereinafter also referred to as fitting), and the outer frame is It is fixed at a predetermined position (hereinafter also referred to as installation).
[0012]
By means of levers attached to the installed equipment, the rod is projected outside the equipment, and the means for fixing the equipment by press-fitting the projected rod into the fixing part (device for driving nails by lever-type fastening), for example, When a device equipped with a device that drives the nail by lever-type fastening is placed on the fixed part and the lever (rod) is protruded by operating the lever of the device, the fastener is fixed if the material of the fixed part is hard There is a problem that the device is not press-fitted into the unit and the device is lifted from the upper surface of the table. Therefore, the lever-type fixing method in such a configuration needs to satisfy the requirements that the device is sufficiently heavy and the nail is thin.
[0013]
However, in the case of a configuration like an island where the pachinko machine of the present application is installed, the island fixed part exists on both the upper and lower sides of the outer frame, and the outer frame is sandwiched between the island fixed parts, When operating the lever provided on the outer frame and projecting the rod outward in the vertical direction of the outer frame, for example, when pressing the rod into the lower fixing part of the island, the upper plate of the outer frame is the upper fixing part of the island The outer frame (corresponding to the installation device described above) is securely fixed to the island by the rod according to the lever force generated by lever operation.
[0015]
A nail that protrudes as the operating lever rotates by inserting a part of the nail attached to the operating lever into the nail guide holes in the thickness direction formed on the upper and lower plates of the outer frame. Is pressed into the fixed portion of the island from the upper plate of the outer frame or into the fixed portion of the island from the lower plate in an appropriate direction.
[0016]
  Claims2The invention of the outer frame fixing structure of the pachinko machine according to claim1In the described invention, the lever-type nail driving mechanism is integrally formed with an L-shaped metal fitting for connecting the upper plate and the side plate or the lower plate and the side plate of the outer frame. By integrally molding with the L-shaped bracket, the main body of the lever-type nailing mechanism can be easily and reliably attached to the upper plate or the lower plate of the outer frame.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an outer frame fixing structure for a pachinko machine according to the present invention will be described with reference to the accompanying drawings.
1 and 2 show one form of the outer frame of a pachinko machine having an outer frame fixing structure.
As shown in FIG. 1, the outer frame 1 of the pachinko machine is a wooden frame made of, for example, para rubber material, which includes left and right side plates 2, 3, an upper plate 4, and a lower plate 5. The plate 4 or the lower plate 5 and the side plate 3 and the upper plate 4 or the lower plate 5 are connected and reinforced by an L-shaped metal fitting (also referred to as an L-shaped reinforcing metal fitting) 6.
[0018]
On the inner surfaces 7 and 8 of the upper plate 4 and the lower plate 5, there are lever-type nailing mechanisms 10a to 10d (hereinafter also referred to as the lever-type nailing mechanism 10 when referring to the entire lever-type nailing mechanisms 10a to 10d). Is provided. The lever-type nail driving mechanism 10 projects a nail by rotating an operation lever, and presses the projected nail into the island from the upper plate 4 or the lower plate 5. The outer frame 1 shown in FIG. 1 is the one before being installed on the island (hereinafter also referred to as “attached”), and the operation levers 12a to 12d of the respective lever type nailing mechanisms 10a to 10d are within the rotation operation range. A state of being disposed at one end is shown (hereinafter, when the whole of the operation lever nails 12a to 12d is referred to as the operation lever 12). Further, the nails 11a to 11d of the respective lever-type nail driving mechanisms 10a to 10d are in a state in which the tip portions are inserted into the upper plate 4, and are still upward from the upper surface of the upper plate 4 (the upper outside of the outer frame 1). ) (Hereinafter simply referred to as the nail 10 when referring to the entire nail 10a to 10d). When the operation lever 12 is rotated from this state, the nail 11 protrudes along with the rotation and is press-fitted into the island (details will be described later).
[0019]
As shown in FIG. 2, in the outer frame 1, the upper surface of the upper plate 4 and the lower surface of the lower plate 5 are islands 20 (hereinafter also referred to as island fixing portions 20. In FIG. It is installed so as to be close to or abutting. The operation levers 12 attached to the inner surfaces 7 and 8 of the upper plate 4 and the lower plate 5 are rotated in the directions shown by arrows 13a to 13d in FIG. 2 from the respective positions shown in FIG. Rotation is performed up to one end opposite to one end (hereinafter, when referring to the entire arrows 13a to 13d, they are also simply referred to as arrows 13). As the operating lever 12 is rotated in the direction of the arrow 13, the nail 11 penetrates the upper plate 4 or the lower plate 5 and protrudes from the upper surface of the upper plate 4 or the lower surface of the lower plate 5 to fix the island. Proceed in the direction of the part 20 and press fit into the fixed part 20 of the island. Each lever-type nail driving mechanism 10a to 10d shows a state in which the nail 11a to 11d protrudes to the maximum length, and the nail 10 is press-fitted into the fixed portion 20 of the island (more details will be described later). .
[0020]
Here, the structure of the island to which the outer frame is attached will be described with reference to FIG. The island shown in the figure has the same structure as a conventional general island, and the island body 30 is attached to a plurality of support frames 31 fixed to the floor surface of the pachinko hall, and a lower portion of the support frame 31. A base 32 and an upper mounting portion 33 provided from the upper part of the support frame 31 to the upper part of the other support frame 31 are provided. A lower support plate 36 for supporting the outer frame 34 (pachinko machine 35) from below is fixed on the upper side of the base 32, and the outer frame 34 (pachinko machine 35) is mounted on the lower side of the upper mounting portion 33 from above. An upper support plate 37 for supporting is fixed. Each outer frame 34 is placed at a predetermined position of an opening 38 formed in the island main body 30, and an outer frame fixing means (for example, an island fixing portion 20 shown in FIG. 2) is attached to the lower support plate 36 and the upper support plate 37. , Having the lever-type nailing mechanism shown in FIGS.
[0021]
4 (a) to 4 (c) show an embodiment of a lever-type nail driving mechanism.
The lever-type nail driving mechanism shown in FIG. 4A represents the operation state of FIG. 2 in which the nail protrudes to the maximum length by rotating the operation lever.
[0022]
4A to 4C, the lever-type nail driving mechanism 10 includes a main body 15 having a U-shaped cross section, an operation lever 12 attached to the main body 15, and a nail 11 attached to the operation lever 12. It is roughly composed. The main body 15 is formed with a long hole-shaped lever shaft guide hole 17 with which the rotary shaft 16 of the operation lever 12 is engaged. Further, on the bottom surface 28 of the main body 15, a nail hole 19 into which the nail 11 attached to the operation lever 12 is inserted and a lever-type nail driving mechanism 10 are attached to the upper plate 4 or the lower plate 5 of the outer frame 1. A screw hole 21 is formed.
[0023]
The operation lever 12 has a rotation shaft hole 22 into which the rotation shaft 16 of the operation lever 12 is inserted, and a connection shaft hole 23 into which the connection shaft 18 is inserted to attach the nail 11 to the operation lever 12. Yes. The nail 11 has a connecting shaft hole 24 into which the connecting shaft 18 is inserted. The rotating shaft 16 is inserted from one lever shaft guide hole 17 and is inserted into the other lever shaft guide hole 17 through the two rotating shaft holes 22, 22. For example, an E-ring 25 is attached to prevent the omission. The connecting shaft 18 is inserted from one connecting shaft hole 23 of the operating lever 12, passes through the connecting shaft hole 24 of the nail 11, and is inserted into the other connecting shaft hole 23 of the operating lever 12. In order to prevent the connecting shaft 18 from coming off, for example, an E-ring 26 is attached.
[0024]
With this configuration, when the operation lever 12 is rotated, the operation lever 12 rotates around the rotation shaft 16, and the rotation shaft 16 is in the shape of a long hole engaged with the rotation of the operation lever 12. It moves along the lever shaft guide hole 17. Further, the nail 11 attached to the operation lever 12 is inserted into the nail hole 19 and a nail guide hole 27 (described later) formed in the upper plate 4 or the lower plate 5 (not shown). Along with the rotation, it rotates around the connecting shaft 18. Therefore, the nail 11 is maintained in a substantially vertical direction, and is protruded to the outside of the lever-type nail driving mechanism 10 (downward in FIGS. 4A and 4C) by the lever action of the operation lever 12.
[0025]
A lever-type nail driving mechanism 10 'shown in FIG. 5 is shown in FIG. 4 (a) in an L-shaped reinforcing bracket 6 (see FIG. 1) for connecting and reinforcing the side plates 2, 3 and the upper plate 4 or the lower plate 5. The lever-type nail driving mechanism 10 is integrally molded. The lever-type nail driving mechanism 10 shown in FIG. 4A is the same as the L-shaped reinforcing metal fitting 6 except that it is integrally formed with the L-shaped reinforcing bracket 6 and the screw hole 21 of the main body 15 shown in FIG. Have the same structure. Therefore, the same part number is attached | subjected about the same member.
[0026]
By adopting such a configuration, it is only necessary to attach the L-shaped reinforcing metal fitting 6 to the outer frame 1, and it is possible to eliminate an individual screwing attachment work and improve work efficiency. Other functions and effects are the same as those of the lever-type nail driving mechanism shown in FIG.
[0027]
6 is fixed to the upper plate 4 or the lower plate 5 of the outer frame 1 by screws, similarly to the lever-type nailing mechanism 10 shown in FIG. A main body 15 ′ of the lever-type nail driving mechanism 10 ″ has a thin plate shape, and a screw hole 21 ′ for fixing to the upper plate 4 or the lower plate 5 is formed. In addition, a support column 30 is upright and a control lever 12 ′ is attached to the support column 30 at a substantially central portion of the main body 15 ′. The operation lever 12 'is rotated about the fulcrum 31, and a nail 11' attached to the operation lever 12 'along with the rotation of the operation lever 12' is formed in a nail hole 19 'formed in the main body 15' and not shown. It is guided in a nail guide hole 27 (described later) formed in the upper plate 4 or the lower plate 5 and moves up and down. The operating lever 12 'has a shape bent in a "<" shape at the position of the fulcrum 31, and the operating portion (the vicinity of the end opposite to the end where the nail 11' is attached) is the main body. When arranged substantially parallel to 15 ′ (at the position indicated by the solid line in FIG. 6), the nail 11 ′ moves upward and protrudes downward from the main body 15 ′. Is in a short state.
[0028]
When the operation lever 12 ′ disposed substantially parallel to the main body 15 ′ is rotated in the direction of the arrow P, the nail 11 ′ moves downward as the operation lever 12 ′ rotates. When the operation lever 12 ′ is rotated approximately 90 ° in the direction of the arrow P (the position indicated by the dotted line in FIG. 6), the nail 11 ′ is lowered from the position indicated by the solid line (the position moved upward). It will be in the state which moved to the direction and reached the position of the substantially lowest point. Further, a long hole-shaped nail end guide hole 32 is formed at the end of the operation lever 12 'engaged with the nail 11'. As the operating lever 12 'rotates, the end of the nail 11' moves along the nail end guide hole 32. By this movement, the nail 11 'is held in a substantially vertical state, and is precisely within the island. It is press-fitted into. Therefore, according to the lever-type nail driving mechanism 10 "according to this embodiment, the outer frame 1 is securely fixed to the island only by being attached to the upper plate 4 or the lower plate 5 and rotating the operation lever 12 'by approximately 90 degrees. be able to.
[0029]
Furthermore, as another form of the lever-type nail driving mechanism, although not shown in the figure, in the lever-type nail driving mechanism 10 "shown in FIG. 6, an arc-shaped nail centered on the fulcrum 31 at the end of the operation lever 12 '. 11 "is fixedly provided (hereinafter also referred to as a nail integrated type). The left and right side plates 2, 3, the upper plate 4 and the lower plate 5 of the outer frame 1 are formed of a U-shaped metal plate and are connected with their open sides facing inward to form a metal outer frame. A support column 30 and a nail hole 19 'are provided directly on the bottom surfaces of the upper plate 4 and the lower plate 5, and the nail integrated type operation lever 12' is attached. In the case of the lever-type nail driving mechanism having such a configuration, the nail 11 "can be properly oriented without a guide by a nail hole 19 'and a nail guide hole 27 (described later) formed in the upper plate 4 or the lower plate 5. Can be press-fitted into.
[0030]
FIGS. 7 to 12 show the state of each member when the outer frame 1 is attached to the island 20 by the lever-type nail driving mechanism 10 in each rotation operation stage of the operation lever 12. Considering the ease of viewing the drawing, the case where the lever type nailing mechanism 10 shown in FIG. 4 is used will be described. Further, this corresponds to the direction and movement of the lever-type nail driving mechanism 10c arranged in the lower right of FIGS.
[0031]
The lever-type nail driving mechanism 10 shown in FIG. 7 shows a state where it is only screwed to the lower plate 5, that is, a state where the operation lever 12 for attaching the outer frame 1 to the island has not yet been rotated. (Corresponding to the state of the operation lever shown in FIG. 1). The operation lever 12 is disposed at the left end of the rotation operation range (the end of the operation lever 12 is in contact with the upper surface of the lower plate 5), and the nail 11 protruding downward from the main body 15 is provided. The portion is inserted into a nail guide hole 27 formed in the lower plate 5. The tip of the nail 11 is disposed in the nail guide hole 27 and does not protrude downward from the lower surface of the lower plate 5. The rotary shaft 16 is engaged at a position slightly shifted to the left from the center of the lever shaft guide hole 17. If a stopper mechanism for holding the operation lever 12 in this state is provided, the tip of the nail 11 protrudes from the lower surface of the lower plate 5 when the outer frame 1 before being fixed to the island is moved (transported). Safety can be secured without doing.
[0032]
The lever-type nail driving mechanism 10 shown in FIG. 8 shows a state in which the operation lever 12 shown in FIG. 7 is rotated in the arrow Q direction. The operation lever 12 rotates about the rotation shaft 16 and moves to the left along the lever shaft guide hole 17. As the operation lever 12 rotates, the nail 11 attached to the operation lever 12 via the connecting shaft 18 is pressed downward, protrudes from the lower surface of the lower plate 5, and is pressed into the island 20.
[0033]
The lever-type nail driving mechanism 10 shown in FIG. 9 shows a state in which the operation lever 12 is further rotated in the arrow Q direction from the position of the operation lever 12 shown in FIG. The operation lever 12 rotates around the rotation shaft 16 and further moves along the lever shaft guide hole 17 and reaches the left end portion of the lever shaft guide hole 17. As the operation lever 12 rotates, the nail 11 further protrudes from the lower surface of the lower plate 5 and is pressed into the island 20.
[0034]
In the lever-type nail driving mechanism 10 shown in FIG. 10, the operation lever 12 is further rotated in the direction of arrow Q from the position shown in FIG. 9, and in the lever-type nail driving mechanism 10 shown in FIG. The state further rotated from the position shown in the arrow Q direction is shown. The operation lever 12 rotates about the rotation shaft 16 and moves to the right along the lever shaft guide hole 17 from the state where it reaches the left end in FIG. As the operation lever 12 rotates, the nail 11 further protrudes from the lower surface of the lower plate 5 and is press-fitted into the island 20.
[0035]
The lever-type nail driving mechanism 10 shown in FIG. 12 is in a state in which the operation lever 12 is further rotated in the arrow Q direction from the position shown in FIG. 11 and arranged at the right end of the rotation operation range, that is, the outer frame 1. This shows a state in which the rotation operation of the operation lever 12 for attaching to the island is completed (corresponding to the state of the operation lever shown in FIG. 2). The end of the operation lever 12 is in contact with the upper surface of the lower plate 5, and is rotated by approximately 180 ° from the state of the operation lever 12 shown in FIG. The operation lever 12 rotates around the rotation shaft 16 and further moves along the lever shaft guide hole 17 and reaches the right end portion of the lever shaft guide hole 17. As the operation lever 12 rotates, the nail 11 pressed downward reaches the lowest position, and further protrudes from the lower surface of the lower plate 5 and is press-fitted into the island 20. At this time, the length of the nail press-fitted into the island is preferably 20 mm or more.
[0036]
Each member constituting the lever type nail driving mechanism 10, 10 ′ operates as described above in accordance with the rotation operation of the operation lever 12, so that the lever type nail mechanism 10, 10 ′ is used as the upper plate 4 or the lower plate. 5 (in the case of lever-type nail driving mechanism 10 ', the L-shaped reinforcing bracket 6 is attached to the outer frame 1), and the outer frame 1 is securely attached to the island only by rotating the operating lever 12 by approximately 180 °. The working efficiency can be greatly improved.
[0037]
As shown in FIGS. 1 and 2, a plurality (for example, four) of lever-type nail driving mechanisms 10, 10 ′, and 10 ″ are attached to the outer frame 1, for example, FIG. In the case of the lever type nailing mechanisms 10a to 10d shown in Fig. 2, the lever type nailing mechanisms 10a to 10d are rotated in the following order.
[0038]
The outer frame 1 is placed on the island (opening 38 shown in FIG. 3), and the lower plate 5 is placed at a predetermined mounting position. In this state, the operation levers 12c and 12d of the lever-type nail driving mechanisms 10c and 10d are rotated halfway (for example, to the position of the operation lever 12 shown in FIG. 9), and a part of the nail 11c and 11d is protruded to lower the lower plate. Only 5 is temporarily fixed to the island 20 (corresponding to the lower support plate 36 in FIG. 3). In this temporarily fixed state, the twisted inclination of the outer frame 1 with respect to the vertical direction is adjusted. When the operation levers 12c and 12d are operated and a part of the nail 11c and 11d is press-fitted into the island 20, the entire outer frame 1 is pushed upward, and the upper plate 4 of the outer frame 1 is moved to the island 20 (in FIG. 3). The upper part of the outer frame 1 is in a stable state because the frictional force is acting on the upper surface of the upper plate 4 and is in a stable state. It can be carried out. Then, after adjusting the skein inclination, the operation levers 12a and 12b are rotated to fix the upper plate 4 to the island 20, and the operation levers 12c and 12d are in the final rotation operation state (the lever-type nailing mechanisms 10c and 10d in FIG. 2). Rotate to the state of By this operation procedure, the outer frame 1 can be quickly and reliably attached to the island 20, and the working efficiency can be greatly improved.
[0039]
Further, when the outer frame 1 attached to the island 20 is removed, the operation levers 12 and 12 ′ may be rotated in the direction opposite to that when the outer frame 1 is attached. For example, in the rotation operation of the operation lever 12 shown in FIGS. 7 to 12, the operation lever 12 operated to the position of FIG. 12 is rotated in the direction opposite to the arrow Q to the position of the operation lever 12 shown in FIG. By rotating, the nail 11 of the lever-type nail driving mechanism 10 can be removed from the island 20 and the outer frame 1 can be removed from the island. That is, the outer frame 1 can be easily detached from the island by simply rotating the operation lever 12 by about 180 °, and the working efficiency can be greatly improved.
[0040]
Also, when removing the outer frame 1 from the island, the removal operation only rotates the operation lever 12 of the lever-type nail driving mechanism 10 as described above, so that the pachinko machine body (game machine frame, glass frame set, Open the pachinko machine body with the integrated pan set) attached to the outer frame 1 (open the so-called front frame), and operate the operation lever 12 from the front side of the pachinko machine to move the outer frame 1 to the island. Can be easily removed, and the working efficiency can be greatly improved.
[0041]
【The invention's effect】
According to the outer frame fixing structure of the pachinko machine according to the first aspect of the present invention, the nail is protruded by rotating the operation lever of the lever-type nail driving mechanism provided on the upper plate or the lower plate of the outer frame. Since the nail can be press-fitted into the fixed portion of the island, the outer frame can be easily and reliably installed on the island, and the work efficiency can be greatly improved.
[0042]
  Also,The lever-type nailing mechanism attached to the upper or lower plate of the outer frame protrudes downward from the bottom surface of the lever-type nailing mechanism body before the operation of the operation lever for fixing the outer frame to the island. Since a part of the nail is inserted into the nail guide hole on the upper or lower plate, the protruding nail as the operating lever rotates can be properly guided toward the island, and the island The outer frame can be securely installed on the island by press-fitting.
[0043]
  Claims related to the present invention2According to the outer frame fixing structure of the pachinko machine, the lever type nailing mechanism is integrally formed with the L-shaped reinforcing bracket, so the lever type nailing mechanism is individually screwed onto the upper or lower plate of the outer frame. The work of stopping can be eliminated, and the work efficiency when attaching the outer frame to the island can be greatly improved.
[Brief description of the drawings]
FIG. 1 is a rear view showing an embodiment of an outer frame of a pachinko machine having an outer frame fixing structure.
FIG. 2 is a diagram showing a state where the outer frame shown in FIG. 1 is attached to an island.
FIG. 3 is a diagram showing a structure of an island to which an outer frame is attached.
FIG. 4 (a) is an overall perspective view showing one embodiment of a lever-type nail driving mechanism.
(B) is a perspective view showing an operation lever and a nail which constitute a lever type nailing mechanism.
(C) is a figure when (a) is seen from the arrow S direction.
FIG. 5 is an overall perspective view showing another embodiment of a lever-type nail driving mechanism.
FIG. 6 is a view showing another embodiment of a lever-type nail driving mechanism.
FIG. 7 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
FIG. 8 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
FIG. 9 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
FIG. 10 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
FIG. 11 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
FIG. 12 is a diagram illustrating a state of each member in one stage of a rotation operation of the operation lever.
[Explanation of symbols]
1 outer frame
2, 3 side plate
4 Upper plate
5 Lower plate
6 L-shaped bracket
10 Lever type nailing mechanism
11 Nails
12 Operation lever
15 body
16 Rotating shaft
17 Lever shaft guide hole
18 Connecting shaft
19 Nail hole
20 islands (fixed part of the island)
22 Rotating shaft hole

Claims (2)

In the outer frame fixing structure of the pachinko machine for installing each pachinko machine on the so-called island where a plurality of pachinko machines are arranged side by side,
An upper plate and a lower plate of the outer frame of the pachinko machine are provided with a main body, an operation lever, a rotation shaft of the operation lever, and a shaft guide hole having a long hole shape formed in the main body with which the shaft is engaged. A lever-type nail driving mechanism comprising a nail attached to the operation lever,
A part of the nail is arranged in a state of protruding from the bottom of the main body to the outside outside,
Nail guide holes for guiding the moving direction of the nail formed in the plate thickness direction are formed on the upper plate and the lower plate of the outer frame,
The lever-type nail driving mechanism prior to the rotation operation of the operation lever for fixing the outer frame to the island has the outer frame in a state in which a part of the nail that protrudes to the lower outside is inserted into the nail guide hole. Attached to the upper and lower plates,
By rotating the operation lever, the rotation shaft moves from one end of the hole to the other end along the elongated hole-shaped shaft guide hole, and the operation lever is centered on the rotation shaft. An outer frame fixing structure of a pachinko machine that is rotated by approximately 180 ° . 2. The outside of the pachinko machine according to claim 1, wherein the lever-type nailing mechanism is integrally formed with an L-shaped metal fitting that connects the upper plate and the side plate or the lower plate and the side plate of the outer frame. Frame fixing structure.

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