JP4881133B2 - Game ball replenishment bowl - Google Patents

Description

  The present invention relates to a replenishment rod for replenishing game balls to a game machine such as a pachinko machine, a ball lending machine for supplying game balls to a player, or the like.

  A gaming machine represented by a pachinko machine has conventionally been arranged in a plurality along the longitudinal direction of a rectangular parallelepiped gaming machine installation island (hereinafter sometimes abbreviated as “game island”). It is common. In addition, on a gaming island, a ball lending machine is usually arranged between gaming machines adjacent to each other. The game balls lent out from the ball lending machine are sent to the game machine mechanically or manually by the player and used for the game. In addition, the used game balls discharged from each gaming machine are collected in a lower tank arranged at the lower part of the game island, cleaned or polished as necessary, and arranged above the game island by a lifting device. It is lifted to the tank. On the other hand, a plurality of curtain plates that can be opened and closed are provided in the upper part of the game island, and a supply rod having a predetermined gradient in the longitudinal direction of the game island is generally built in the inside. The game balls released from the ball tank roll on the supply basket, and are supplied to each game machine or ball lending machine through a distribution device called a chute having a lead-out path.

  As illustrated in Patent Document 1 below, the replenishment rod is generally composed of an aluminum square rod having a flat bottom surface portion that is rectangular in plan view and a side surface portion that rises to the left and right of the bottom surface portion, and the upper surface is open. It is used. On the other hand, in recent years, in order to improve the installation density of gaming machines and to realize original layouts for each amusement hall, a gaming island in which gaming machines can be arranged side by side in a curved shape or a bent shape has been proposed. (See Patent Documents 2 and 3 below). When supplying gaming balls to gaming machines or ball lending machines arranged in a curved or bent shape, the shape of the supply cage installed above the gaming island is also limited by the installation space. From the standpoint of not excessively extending the lead-out path from the distribution device to the gaming machine, it is necessary to have a curved shape or a bent shape according to the game island.

  According to the invention relating to the game medium transport device described in Patent Document 3, a linear transport mechanism for transporting game media in a substantially horizontal and linear direction, and a relay transport that changes the transport direction of the game media on a substantially horizontal plane. By having the mechanism, it is possible to bend the game medium transport direction into a curved shape or a bent shape.

Japanese Patent Publication No. 07-87876 JP-A-10-71262 JP 2001-232039 A

  However, since the game medium transport device described in Patent Document 3 is assumed to be a disc-shaped medal as the game medium (see Patent Document 3: Paragraph [0002]), the conveyor belt type of the conveyor belt that rotates is used. When a so-called bobbin system is used to transport medals by linear transport and relay transport using the centrifugal force of the rotating plate as a power source, when transporting game balls such as pachinko balls using the device, Since the static frictional force with the conveyor belt and rotating plate is negligibly small, it is difficult to perform linear conveyance with the conveyor belt and relay conveyance with the rotation of the rotating plate. The ball cannot be supplied stably. In addition, the above-described game medium transport device has a large number of parts as apparent at a glance, and a large number of driving parts for mechanical parts. Therefore, the manufacturing cost and maintenance workability are inferior, and the failure rate is high. Become.

  On the other hand, the applicant of the present application forms a bowl shape formed according to various shapes of the game island such as a curved shape and a bent shape, and gives a downward gradient in both the longitudinal direction and the width direction of the bottom surface, thereby providing an upstream A replenishment bowl that can efficiently replenish game balls and ball lending machines installed at any position without distinguishing between the side / downstream side and the inside / outside of the curved or bent shape Have already filed applications (Japanese Patent Application No. 2006-190038). The replenishment rod according to the invention uses only gravity as the driving force of the game ball that rolls on the bottom surface, and is characterized by a small number of parts and a low failure rate. Fine adjustment by the height adjustment means is indispensable to give an appropriate gradient to the supply rolling surface in the longitudinal direction and the width direction, especially the width direction where the angular accuracy is required. There was a problem that the installation work was not always easy.

  The invention of the present application made in such a situation is an improvement of the invention of the supply basket according to the above-mentioned application, that is, among the supply rolling surface of the game ball at the time of installation at the game store or at the time of installation adjustment after maintenance, etc. In particular, it is an object of the present invention to provide a replenishing rod that allows an operator to easily and accurately realize a downward inclination angle to be given in the width direction. Other objects of the present invention will become apparent from the following description.

According to the present invention, a mounting frame on which a mounting surface having a predetermined downward inclination is formed in advance and a scissor member having a supply rolling surface for a game ball are provided separately, so that the scissors member is provided on the mounting surface. The predetermined inclination angle is easily provided in the width direction with respect to the supply rolling surface only by being placed.
That is, for each replenishment rod according to the above-mentioned application in which it is necessary to individually adjust the inclination angle in the width direction of the supply rolling surface of the rod member by the height adjusting means every time of installation or re-installation, the present invention While the main error factors of the corners are both small (I) the processing accuracy of the mounting frame and the cage member itself, and (II) the mounting accuracy of the game island and the mounting frame, This is based on the technical idea of making the assembly workability and the reproducibility of the inclination angle very good.

That is, the present invention
(1) A replenishment rod that is provided on a gaming island in which one or a plurality of gaming machines are bent side by side for each unit and supplies gaming balls to the gaming machines,
A plurality of mounting frames each having a mounting surface in which a downward slope toward the gaming machine is formed in the width direction are connected to each other in the longitudinal direction, and are provided on the gaming island with a gradient in the longitudinal direction. a plurality of trough members comprises a supply roll surface for rolling the balls is connected is placed respectively on the mounting surface, the plan view shape of the supply rolling contact surface has to name a curved or bent shape,
Of the plurality of mounting frames that are continuously provided, the downward slope of the mounting surface provided in the mounting frame provided on the most downstream side is the bottom inclination of the mounting surface provided on the mounting frame provided on the most upstream side. A replenishment jar characterized by being steeper than a downward slope ;
(2) The replenishment rod according to (1) above, wherein the placement frame is provided with two placement surfaces each having a downward slope directed toward both sides in the width direction;
(3) Of the two placement surfaces, the replenishment rod according to (2), wherein the downward inclination of the curved or bent inner placement surface is steeper than the downward inclination of the outer placement surface. ;
(4) From the above (1), the saddle member has the supply rolling surface, a bottom surface parallel to the supply rolling surface, and a side surface in which an opening for supplying the game ball toward the gaming machine is formed. 3 ) the replenishment pot according to any one of the above;
( 5 ) A terminal guide member for guiding the rolling game ball toward the opening is provided on the supply rolling surface of the saddle member provided on the most downstream side of the connected saddle members. The replenishment pad according to ( 4) above;
( 6 ) The replenishment rod according to any one of (1) to ( 5 ), further including a base that gives the longitudinal gradient to the mounting frame;
( 7 ) The replenishment rod according to any one of the above (1) to ( 6 ), wherein a descending step toward the downstream side is provided in the connecting portion of the supply rolling surface to which the rod member is coupled;
Is the gist.

In the present invention, as a more specific embodiment,
( 8 ) The mounting frame has a linear center line shape in the longitudinal direction, and is bent in the longitudinal direction and continuously provided, (1) to ( 7 ) above Supply kite;
( 9 ) The mounting frame provided on the upstream side in the longitudinal direction is formed thicker than the mounting frame provided on the downstream side, according to any one of (1) to ( 8 ), Replenishment pot as described;
The above-described problems can be achieved and the object of the present invention can be achieved.

  The replenishment rod according to the present invention has a game island (hereinafter referred to as “R island”) formed in an arc shape, a polygonal shape, or the like by changing the planar view shape of the supply rolling surface for rolling the game ball into a curved or bent shape. According to the shape of the game ball, a game ball can be freely bent and supplied to a game machine or a ball lending machine. At this time, in order to appropriately maintain the rolling property and supply efficiency of the game ball by appropriately canceling the centrifugal force acting on the game ball at the curved portion and the bent portion of the replenishing bowl, the supply rolling surface has a widthwise direction. In the present invention, it is necessary to provide a downward inclination with high accuracy, and in the present invention, a saddle member provided with a supply rolling surface and a mounting frame on which this is mounted are produced as separate bodies, and this is combined to form a structure. Is realized.

  In other words, the mounting frame and the eaves member are separated from each other, thereby simplifying the respective shapes, increasing the accuracy of the processing dimensions to the factory level, and providing the eaves member on the mounting surface of the installation frame. A desired downward inclination can be given to a supply rolling surface only by mounting. Therefore, at the initial assembly (setup) of the game island at the amusement store, the supply rolling surface of the supply rolling surface can be obtained simply by assembling the game island and the bottom surface of the mounting frame at a required horizontal angle, for example, using a level. A downward inclination angle can be given easily and with high accuracy in the width direction.

  Similarly, in the case of maintenance work such as cleaning the supply rolling surface of the saddle member and changing the pitch between the tables in accordance with the layout change of the gaming machine, the removed saddle member is simply placed on the placement frame again. Therefore, since the inclination angle can be reproduced easily and accurately, the workability is excellent.

  In addition, the mounting frame and the eaves member are divided in the longitudinal direction and configured to be short, so that each is excellent in portability and processing accuracy as compared with the case where each is manufactured as a single long member. The layout of the gaming machine can be improved by changing the number of connections and the bending angle according to the installation pattern of the ball lending machine.

Hereinafter, the best mode for carrying out the present invention will be described more specifically with reference to the drawings. FIG. 1 is a front view of an amusement island 10 in which a supply rod 20 according to the present invention is installed above. The longitudinal direction of the amusement island 10 and the supply basket 20 is indicated by arrows in the figure. Note that the support structure characteristic of the present invention for mounting and fixing the replenishment rod 20 on the game island 10 with high angular accuracy is not shown in the figure.
Note that the gaming machine installed on the game island 10 is a device in which a player plays a game using a game medium, and in particular, uses a sphere (game ball) as a game medium. Specifically, a pachinko machine, a slot machine using a pachinko ball (so-called parrot), an arrangement ball, and the like are exemplified. Hereinafter, the present invention will be described by taking a pachinko machine as a gaming machine and a pachinko ball as a gaming medium.

<About the basic structure of amusement island and supply method of pachinko balls>
First, the basic configuration of the game island 10 including the replenishment basket 20 and a general method for supplying pachinko balls in a circulating manner using the same will be briefly described below.
The replenishing rod 20 includes a supply rolling surface 24 on which the pachinko balls roll and a side surface 22 that prevents the pachinko balls from falling. Since the supply rolling surface 24 is required to be cleaned or when the pachinko ball is clogged in the bag, the supply rod 20 is opened upward, and the side surface 22 of the supply rolling surface 24 is removed. Although it is common to use a U-shaped cross-section standing on both sides in the width direction, for example, a wall surface of a game shop can be used as one side surface and the side surface 22 on the wall surface side can be omitted.
In addition, in order to prevent dust and dirt from adhering to the supply rolling surface 24 of the replenishing rod 20, a lid formed separately may be optionally provided.
When supplying a large number of pachinko balls stored in the ball tank 110 to the pachinko machine 100 or a ball lending machine (hereinafter sometimes referred to as “pachinko machine 100” or “pachinko machine 100 etc.”), the ball tank 110 is first used. Pachinko balls are supplied to the replenishment basket 20. As shown in the drawing, the supply roller 20 has a predetermined gradient θ in the longitudinal direction so that the pachinko balls delivered from the ball tank 110 can roll down. In the present invention in which the supply rolling surface 24 is curved or bent, the gradient of the supply rolling surface 24 is an angle formed by the longitudinal center line of the supply rolling surface 24 and the horizontal plane, The angle between the normal direction of the moving surface 24 and the vertical direction shall be said. Such a gradient may be uniform in the longitudinal direction of the supply rolling surface 24 or may be different depending on the location. That is, the upstream gradient close to the sphere tank 110 is increased to accelerate the pachinko sphere quickly, and conversely, the downstream gradient is made larger than the upstream side so that the pachinko sphere stays at a position far from the sphere tank 110. It is also possible to provide a rolling speed sufficient to prevent the above.

An opening (see FIG. 2) is intermittently formed on the side surface 22 of the replenishing rod 20 along the longitudinal direction corresponding to the pachinko machine 100 and the like, and a chute 111 is attached correspondingly. Yes. Pachinko balls discharged from the replenishment basket 20 to the chute 111 are supplied to the pachinko machine 100 and the like via the lead-out path 112. The pachinko balls supplied to the pachinko machine 100 or supplied to the player through the ball lending machine and used for the game are counted in an out tank (not shown) of the pachinko machine 100 when the use is finished, It is discharged from the back to the game island 10. The discharged pachinko balls are collected in the lower tank 114 via the discharge basket 13. The pachinko balls stored in the lower tank 114 are polished or cleaned as necessary, transported to the upper ball tank 110 by the lifting device 115, and supplied again to the pachinko machine 100 and the like through the replenishment rod 20.
In the game island 10, it is common to cover this from the outside with a curtain (not shown) in order to prevent contamination of the supply basket 20 and access to the rolling pachinko ball from the outside. . The amusement island 10 is erected from a base plate 117 corresponding to the lower surface of the amusement island 10 and the base plate 117, in addition to the saddle plate 116 on which the pachinko machine 100 and the like or a pachinko ball storage box (commonly called a dollar box) is placed. A box-shaped cabinet made of a waist plate 118 that supports the gutter plate 116 is provided at the lower part thereof.

2 is an upper perspective view schematically showing the replenishing rod 20 according to the first embodiment of the present invention, and FIG. 3 is a partially enlarged view of the chute 111 and the outlet path 112 connected to the replenishing rod 20. Are shown together. In FIG. 2, in addition to the pachinko machine 100 (with a diagonal line on the back side), the width direction and the longitudinal direction of the replenishing basket 20 are indicated by double-sided arrows.
The replenishing rod 20 is provided with openings 27 at predetermined intervals on the side surfaces 22 erected on both sides of the elongated supply rolling surface 24 along the longitudinal direction. 112 is attached. The intervals between the openings 27 adjacent to each other in the longitudinal direction and the chutes 111 correspond to the pitch between the bases of the pachinko machine 100 and the like arranged side by side along the replenishing rod 20. Also, in the same figure, a ball tank 110 (see FIG. 1) is connected to the front (base end) side of the replenishing basket 20 that opens, and the pachinko balls are continuously supplied. Further, the rear side of the figure corresponds to the front end side of the replenishing rod 20, and the flow path is closed by the end wall 35 at the end thereof. In addition, you may provide the termination | terminus guide member (refer FIG. 6) mentioned later in the front-end | tip part of the replenishing rod 20. FIG.

The replenishing rod 20 is bent in the longitudinal direction, and the shape in plan view is curved or bent. Specifically, the bending shape of the replenishing rod 20 may be an arcuate curved shape, a polygonal bent shape, or a combination of both. In addition, the supply basket 20 may be branched into two or more in the middle of the longitudinal direction. In this case, the pachinko ball is supplied to the pachinko machine 100 arranged according to various layouts of the amusement store and various shapes of the R island. Can do.
The supply rolling surface 24 of the replenishing rod 20 illustrated in the figure has a bent shape having nine sides in the longitudinal direction that are continuous with each other at a bending angle of 5 to 10 ° in a plan view shape. As shown in the figure, the right side corresponds to the inner direction of the bent shape (hereinafter, the inner direction of the curved or bent shape may be referred to as “inner R side”), and the opposite side is referred to as the outer direction (hereinafter referred to as “outer R side”). There are things.) The line-of-sight direction of the player facing the game board of the pachinko machine 100 arranged on the inner R side is dispersed in a radial direction from the inside to the outside of the bent shape. Conversely, the line-of-sight direction of the player facing the game board of the pachinko machine 100 arranged on the outer R side converges on the inside of the bent shape. In the following description according to the embodiment of the present invention, the bent planar view shape of the replenishing rod 20 may be read as a curved shape.

  Each of the nine bent sides shown in the figure corresponds to the pitch between the pachinko machines 100. According to the supply rod 20 having the supply rolling surface 24 having such a bent shape, the sides are arranged in parallel in an arc shape. In addition, pachinko balls can be simultaneously supplied to nine pachinko machines 100. It should be noted that a plurality of pachinko machines 100 can be arranged in a straight line and set as a unit, and can be bent and installed on the game island 10 for each adjacent unit. Further, the shape of the supply rolling surface 24 may be formed in a curved arc shape having a predetermined width, and the bent corner portion may be excluded.

  The replenishment rod 20 according to the present invention gives a longitudinal gradient θ and an inclination angle in the width direction (an inclination angle φ described later) to the supply rolling surface 24 on which the pachinko balls roll down, Regardless of the inner R side / outer R side or the upstream side / downstream side of the replenishing basket 20, the pachinko balls can be supplied equally and sufficiently to the plurality of pachinko machines 100 and the like arranged. When supplying pachinko balls to the pachinko machine 100 or the like installed on the R island, the inclination angle φ in the width direction of the supply rolling surface 24 is more uniform and stable than the gradient θ in the longitudinal direction. The required angular accuracy is high because of the high sensitivity to the supply.

<Characteristic configuration of the present invention>
In the replenishing rod 20 according to the present invention, the rod members 30 each having a supply rolling surface 24 for rolling a pachinko ball are integrally connected in the longitudinal direction, and the planar shape of the supply rolling surface 24 is curved or bent. The second feature is that the flange member 30 is mounted on a mounting frame 40 including a mounting surface 41 formed with a downward slope in the width direction. Is.

  FIG. 4 is a schematic view showing a cross section (longitudinal section) of the replenishing rod 20 according to the present embodiment cut by a plane orthogonal to the longitudinal direction. As indicated by the arrows, the right side of the figure is the inner R side and corresponds to that of FIG. The chute 111 (see FIGS. 1 to 3) provided on the side surface 22 is not shown. The vertical cross-sectional shape of the mounting frame 40 has a mountain shape whose center is convex upward. On the other hand, the longitudinal cross-sections of the eave members 30 provided side by side in the width direction each have a supply rolling surface 24 as an upper surface, and a bottom surface that is mounted and fixed directly on the mounting surface 41 of the mounting frame 40 or via a spacer. 31 and the side surface 22 form a substantially U-shape with an upper opening. The bottom surface 31 and the supply rolling surface 24 are parallel except for a steeply inclined portion (not shown in FIG. 4; see FIG. 7) described later.

As shown in FIG. 4, the supply rolling surface 24 of the replenishing rod 20 of the present invention is provided with a downward slope (inclination angle φ) toward the outer side surface in the width direction where the opening 27 is provided. It is characterized by that. That is, the supply rolling surface 24 illustrated in the figure is inclined such that the inclination angle φ is lowered on both sides in the width direction so that the pachinko balls 80 can be simultaneously supplied to the pachinko machines 100 provided on both the inner R side and the outer R side. Therefore, the central part in the width direction protrudes highest, and from there, it forms a downward slope toward both side surfaces. A side surface located on the inner R side 22a, an opening provided to 27a, respectively denoted a downward inclination angle phi ₁ and towards the inside, also provided a side positioned outside R side 22b, in this an opening 27b, a downward slope angle towards the inside shall be denoted as phi _2.

  By having such a supply rolling surface 24, a gravity component so that the pachinko ball 80 rolling down in the longitudinal direction of the replenishment rod 20 rolls from the center to both side surfaces in the width direction of the replenishment rod 20. Is loaded. Thereby, the pachinko ball 80 can be efficiently supplied to the pachinko machine 100 or the like through the opening 27 (a, b) with a small number of members without providing a special mechanism or device on the replenishing rod 20. .

<About the effect of tilt angle>
Here, the operation of the inclination angles φ ₁ and φ ₂ will be described below.
Since the centrifugal force acts on the pachinko ball 80 that rolls down the bent portion on the inner R side from the inside to the outside of the bent shape, the supply rolling surface 24 is formed flat in the width direction with respect to the horizontal plane. In such a case, introduction of the pachinko sphere into the opening 27a is prevented. According to the supplying trough 20 of the present invention which, toward the inside from the outside of the bent shape for the inner R side, that is, the inclination angle phi ₁ to the supply rolling contact surface 24 toward the side surface 22a from the center in the width direction given Therefore, the gravity acceleration component is given to the pachinko ball 80 in the direction to be introduced into the opening 27a, and the effect of the centrifugal force is offset, so that the replenishment efficiency of the pachinko ball 80 can be sufficiently maintained. it can.

On the other hand, since a centrifugal force acts on the pachinko ball 80 that rolls down the bent portion on the outer R side so as to be pressed against the outer side surface of the bent shape, the vertical drag and dynamic friction between the pachinko ball 80 and the side surface 22b are applied. The problem is that power increases. That is, if the supply rolling surface 24 of the replenishing rod 20 is formed horizontally in the width direction, a force toward the inside of the supply rolling surface is applied after the pachinko ball 80 collides with the side surface 22b. There is a possibility that the rolling property of the pachinko sphere 80 in the vicinity of the side surface 22b is inhibited by the collision with the pachinko sphere 80 and a stagnation region of the pachinko sphere 80 called a bridge is formed. from the inside in the width direction with respect to the surface 24 on the outside, i.e. inhibition from the central portion in the width direction by the inclination angle phi ₂ is provided toward the side surface 22b, if the rolling resistance of the pachinko ball 80 temporarily When the formed area is formed, the discharge to the opening 27b is promoted, the bridge is eliminated in the opening 27b, and the supply efficiency of the pachinko balls 80 to the pachinko machine or the like is increased. It is possible to equity.

Specifically, in the replenishing basket 20 according to the present embodiment, the pachinko balls 80 rolling down on the supply rolling surface 24 are formed on the side surface 22 (22a, 22b) having the opening 27 (27a, 27b). Since a gravitational load is always received in the direction of pressing, the lead-out from the opening 27 to the outside of the replenishing rod 20 is facilitated. This is because the supply rolling surface 24 is provided with an inclination angle φ (φ ₁ , φ ₂ ) in the width direction, so that the vertical drag acting on the pachinko sphere 80 faces the side 22 from the vertically upward direction, and the pachinko sphere This is due to the fact that gravity acting on 80 (Fig .: vector G) has a component (Fig .: vector T) toward the side surface 22.

  Accordingly, the pachinko ball 80 flowing down in the vicinity of the side surface 22 in the longitudinal direction of the replenishing rod 20 is not led out from the opening 27 but passes through it, or a bridge is formed in the vicinity of the opening 27 to form the pachinko ball 80. The possibility that the fluidity of the liquid is lowered is avoided.

In the present invention, it is also preferable to make the inner downward inclination angle φ ₁ and the outer downward inclination angle φ ₂ different from each other in a curved or bent shape. That is, the inclination angles φ ₁ and φ ₂ may be appropriately increased or decreased according to the curvature of the curved shape, the bending angle of the bent shape, or the difference in the number of pachinko machines arranged side by side inside and outside, respectively. . When the number of pachinko machines or the like arranged in parallel is equal, it is preferable to make the inclination angle larger than the outside for the inside where the influence of the centrifugal force on the pachinko ball 80 is larger. Specifically, φ _{1 is set} to φ _2. More than 0.5 to 1.0% (= arc tan (5/1000) ° to arc tan (10/1000) °), the inner R side where the chute is sparse by centrifugal force, The pachinko ball 80 is balanced against an equal number of gaming machines arranged side by side on both sides of the R island against any of the outer R side where the game ball is pressed against the side and the rolling performance is inhibited. It is possible to supply.

<About saddle members>
The eaves member 30 is a member constituting a flow path on which the pachinko ball 80 rolls smoothly, and at least the supply rolling surface 24 is required to have high flatness, smoothness and durability. The material of the eaves member 30 is not particularly limited, but the supply rolling surface 24 may be made of a metal material such as stainless steel (SUS) in order to provide good rolling properties and wear resistance. On the other hand, the side surface 22 is manufactured integrally with the supply rolling surface 24 and can be separated from the bottom member provided with the supply rolling surface 24 by being molded as a separate plate made of a resin material as will be described later. They may be combined (see FIG. 7). The shape of the flange member 30 in plan view can be a rectangular shape, an arc shape, a dogleg shape, an S shape, or a combination thereof. Also, in each case, if necessary, the end in the longitudinal direction is adjusted so that the overall shape of the replenishing rod 20 becomes a desired curved or bent shape by continuously connecting with other flange members 30 adjacent in the longitudinal direction. It is good to cut it diagonally and angle it. When the replenishing rod 20 has a bent shape having straight portions and bent portions alternately, the rod member 30 having the supply rolling surface 24 formed in a rectangular shape in plan view is a straight portion, and the inner path length is the outer path length. Other saddle members 30 having a shorter triangular or trapezoidal supply rolling surface 24 may be used as the bent portions. As shown in FIGS. 2 and 3, in the replenishing rod 20 according to the present embodiment, a plurality of rod members 30 connected in the longitudinal direction are used as a common part. An eaves member 30 having a rectangular supply rolling surface 24 having a length corresponding to the pitch between pachinko machines 100 is used by obliquely machining the end in the longitudinal direction.

  On the other hand, the bottom surface 31 of the flange member 30 and the supply rolling surface 24 are formed in parallel except for a steeply inclined portion described later, that is, the inclination angle in the width direction applied to the supply rolling surface 24 is the flange member 30. The angle is not defined between the bottom surface 31 and the supply rolling surface 24, but is defined by the inclination angle of the mounting surface 41 of the mounting frame 40. As a result, in producing the eaves member 30 from a metal material such as SUS, it is not necessary to give a precise inclination angle in the width direction, so that the supply rolling surface 24 and the bottom surface 31 are made parallel by drawing or the like. A smooth supply rolling surface 24 can be obtained easily and accurately.

  In the present invention, as long as the inclination angle φ can be accurately given in the width direction of the supply rolling surface 24, it is not essential that the supply rolling surface 24 and the bottom surface 31 be parallel. A predetermined inclination may be provided between the two. In this case, the sum of the inclination angle of the mounting surface 41 of the mounting frame 40 and the inclination angle between the supply rolling surface 24 and the bottom surface 31 is the downward inclination angle in the width direction of the supply rolling surface 24 with respect to the horizontal plane. φ. Regardless of whether the supply rolling surface 24 and the bottom surface 31 are flat or given a predetermined inclination angle φ, each reed provided on the inner R side and the outer R side and on the upstream side and the downstream side of the replenishing rod 20 is provided. By using the member 30 as a common component, in addition to cost merit by reducing the number of component types, the workability is improved by preventing the operator from confusing, and the eaves member 30 provided at a position that is easily worn by pachinko balls is, for example, 1 It is also possible to extend the durable life of the entire replenishment rod 20 by replacing it with another rod member 30 every year or every few years.

  The side surface 22 and the opening 27 provided in the heel member 30 can take various modes depending on the pattern of the pachinko machine 100 and the like installed on the game island 10. For example, when the pachinko machine 100 or the like is installed only on one of the inner R side and the outer R side of the replenishing basket 20, an inclination angle φ that falls only on the one side is given to the supply rolling surface 24, and the direction Since it is only necessary to form the opening 27 only on the side surface 22, it is not necessary to arrange the two flange members 30 side by side in the width direction as shown in FIG. 4.

On the other hand, when the pachinko machine 100 and the like are arranged side by side on both the inner R side and the outer R side of the replenishing basket 20, as shown in FIG. 4, the plan view shape is curved or bent in the longitudinal direction. Two sets of hook members 30 connected to each other are prepared. One of the hook members 30 is provided with an opening 27 of the side 22 on the inner R side, and the other hook member 30 is provided with an opening of the side 22 on the outer R side. A portion 27 may be provided. By combining the two types of replenishing rods 20 in this way, pachinko balls can be simultaneously supplied to a pachinko machine or the like that is arranged side by side on the inside and outside of the curved or bent shape. Further, in this case, a separation wall 32 may be erected between the two saddle members 30 as shown in FIG. As a result, there is no traffic between the inner R side and the outer R side of the pachinko ball 80 rolling on the replenishing basket 20, and the pachinko ball 80 is supplied independently on both sides of the separation wall 32. The pachinko ball 80 rolling on the inner R side can be prevented from moving to the outer R side due to the action of centrifugal force, and the replenishment efficiency can be maintained between the inside and the outside of the separation wall 32. In addition, according to the method in which the inner R-side flange member 30 and the outer R-side flange member 30 are individually manufactured and placed on the placement surface 41 of the placement frame 40 as in the present embodiment, the above-described method is used. As described above, it is easy to increase the angle accuracy of the supply rolling surface 24.
However, in the present invention, in addition to this, as a mode in which the replenishing reed 20 is configured by connecting the reed members 30 having the supply rolling surface 24 whose upper portion protrudes upward in the width direction and curved in a mountain shape, only in the longitudinal direction. Good

  As long as the pachinko ball 80 can be smoothly led out from the replenishing basket 20 toward the pachinko machine or the like, the size and arrangement position of the opening 27 provided on the side surface 22 are not particularly limited, and are provided only on the side surface 22. In addition to the above, it may be formed across the side surface 22 and the supply rolling surface 24. However, even when the arrangement interval of a pachinko machine or the like is changed at a game store, for example, the opening of the pachinko ball can be easily restarted by adjusting or exchanging only the side surface 22 of the replenishment basket 20. It is also preferable that the portion 27 is formed only on the side surface 22 and that the side surface 22 and the supply rolling surface 24 are detachable (see FIG. 7).

<About the mounting frame>
The mounting frame 40 is a member provided with a mounting surface 41 for accurately providing the supply rolling surface 24 with an inclination angle φ by mounting the collar member 30, and the planar view shape thereof is the shape of the collar member 30. Depending on the shape, a rectangular shape, an arc shape, a dogleg shape, an S shape, or a combination thereof is basically used.
FIG. 5 is a perspective view of the mounting frame 40 according to the present embodiment that can supply the pachinko balls 80 to both the inner R side and the outer R side of the gaming island 10 bent in the longitudinal direction. A plurality of mounting frames 40 are connected to each other in the longitudinal direction indicated by an arrow in the drawing, and constitute the replenishing rod 20 together with the rod member 30. The mounting frame 40 shown in the figure has a substantially rectangular shape in which the corner portion on the inner R side indicated by a two-dot chain line in the drawing is obliquely cut on at least one side of the end in the longitudinal direction, and the same plan view It is formed so as to form a bent shape as a whole by being connected to another mounting frame 40 having a shape.

Fixing portions 42 are formed at the four corners of the mounting frame 40 so as to protrude laterally from the mounting surface 41. A through hole 43 is formed in the fixing portion 42, and is used for fixing the girder 11 (see FIG. 3) and the mounting frame 40 with screws through a base 50 described later. Further, the mounting frame 40 is provided with another through hole 44 for fixing the flange member 30 and the mounting surface 41. Regarding the replenishment rod 20 according to the present embodiment in which the base 50 is interposed between the mounting frame 40 and the beam 11, the positional accuracy of the rod member 30 with respect to the beam 11 is the dimensional accuracy of the base 50 and the beam 11. As the sum of the mounting accuracy of the base 50 to the base, the dimensional accuracy of the mounting frame 40, the mounting accuracy of the mounting frame 40 to the base 50, the dimensional accuracy of the flange member 30 and the mounting accuracy of the flange member 30 to the mounting frame 40 It is prescribed. Therefore, the mounting frame 40 and the base 50 are positioned and fixed by the through-holes 43 of the fixing portion 42, and the mounting frame 40 and the eaves member 30 are positioned and fixed by the through-holes 44. Combined with the high dimensional accuracy of the base 50, the mounting frame 40, and the flange member 30, the angular accuracy in the width direction and the longitudinal direction of the supply rolling surface 24 can be increased.
Since the mounting frame 40 is not in direct contact with the pachinko ball 80 and there is no risk of member wear, it is preferable that the mounting frame 40 be obtained by cutting wood from the viewpoint of compressive strength, workability, and cost.

  The mounting frame 40 provided continuously in the longitudinal direction may be joined by bringing both ends in the longitudinal direction into contact with each other, or may be disposed with a predetermined gap. Since the eaves member 30 placed on the placement frame 40 is made of a metal material such as SUS and has a predetermined rigidity, even if there is a gap in the connecting portion between the placement frames 40, the supply rolling surface 24 in the gap. This is because no significant deflection occurs.

Further, the downward inclination angle φ in the width direction of the supply rolling surface 24 may be different between the upstream side and the downstream side of the supply rod 20. In particular, regarding the mounting frame 40 provided on the downstream side among the plurality of mounting frames 40 provided in series, the downward inclination angle of the mounting surface 41 is set to the mounting of the mounting frame 40 positioned on the upstream side. It may be provided steeper than the downward inclination angle of the mounting surface 41.
On the downstream side, where the number density of the pachinko spheres 80 is increased and the rolling performance thereof may be reduced, the centrifugal force acting on the pachinko spheres 80 is reduced as the rolling speed is lowered, so that the outer R side in particular. Then, since the pressing force to the side surface 22 is reduced and the efficiency of introduction to the chute 111 is also reduced, there is a possibility that supply shortage to the pachinko machine 100 or the like may occur. By making the inclination angle φ steep, the supply efficiency can be equalized between upstream and downstream.

<About the supply rolling surface>
Since the collar member 30 is mounted on the mounting frame 40 and connected in the longitudinal direction, the supply rolling surface 24 of each collar member 30 is also connected in the longitudinal direction of the replenishment basket 20 to form a curved or bent shape. A rolling path of the pachinko sphere 80 is formed. At this time, the connecting portion between the supply rolling surfaces 24 may be provided with a descending step toward the downstream side of the replenishing rod 20 in addition to the case where the connecting portions are smoothly joined.
That is, when connecting the eaves member 30 in the longitudinal direction, the adjacent supply rolling surfaces 24 are discontinuous in the height direction so as to descend in a descending step shape, so that the pachinko ball is passed every time the descending step is passed. The momentary acceleration of gravity acts on 80, and the rolling property can be increased each time. Also, if it is attempted to smoothly connect the supply rolling surfaces, the upstream end of the supply rolling surface 24 located on the downstream side due to processing and assembly tolerances, or due to long-term use or temperature change If the part is lifted and protrudes, there is a possibility that the resistance of the pachinko ball 80 is prevented from rolling. Therefore, it is preferable to gradually lower the supply rolling surface 24 in a descending step shape so that the rolling of the pachinko ball 80 is not hindered while making the supply rolling surface 24 discontinuous. Further, by setting the height of the descending step on the supply rolling surface 24 from 0.1 mm to 2 mm, the above effect can be fully enjoyed while eliminating the jumping of the pachinko ball 80.

Various methods can be employed in forming the descending step on the supply rolling surface 24. In the replenishing rod 20 according to the present embodiment, this is realized by forming the mounting frame 40 provided on the upstream side in the longitudinal direction to be thicker than the mounting frame 40 provided on the downstream side. That is, the height H (see FIG. 5) from the bottom surface 45 to the mounting surface 41 of the mounting frame 40 provided continuously in the longitudinal direction of the supply rod 20 is gradually reduced from the upstream side to the downstream side of the supply rod 20. By doing so, a descending staircase is formed on the supply rolling surface 24 of the eaves member 30 placed thereon.
In addition, a method of gradually reducing the thickness from the bottom surface 31 of the gutter member 30 to the supply rolling surface 24 in the same manner from the upstream side to the downstream side of the replenishing gutter 20, and the thickness of the base 50 described later. Similarly, it is possible to adopt a method of gradually reducing the thickness, or a combination thereof. When the base 50 is gradually thinned, (1) the bases 50 are respectively disposed at both ends in the longitudinal direction of one saddle member 30, and the downstream of the joints between the saddle members 30 is adjacent to each other. The base 50 on the side is made thinner, (2) the base 50 is provided at the center in the longitudinal direction of the saddle member 30, or (3) the joint between the saddle members 30 as in the present embodiment Can be held by one base 50, a method of providing a step in a portion of the upper surface 51 of the base 50 located at the joint can be employed.

  As described above, the replenishing rod 20 according to the present embodiment defines the accuracy of the inclination angle φ in the width direction applied to the supply rolling surface 24 by the angle accuracy of the mounting surface 41 of the mounting frame 40, With respect to the eaves member 30, the bottom surface 31 and the supply rolling surface 24 are formed in parallel to facilitate the high precision of the supply rolling surface 24 with high sensitivity to the good rolling performance of the pachinko ball 80. Yes. Further, the supply frame 20 can be formed on the supply rolling surface 24 simply by forming the curved shape or the bent shape of the replenishing rod 20 by the mounting frame 40 continuously provided in the longitudinal direction, and detachably mounting the rod member 30 on the mounting surface 41. Is given.

<About the base>
The mounting frame 40 is preferably installed on the girder 11 of the game island 10 through the base 50 as shown in FIG. The girder 11 is installed in the longitudinal direction of the game island 10 for each or a plurality of pachinko machines 100, and the base 50, the mounting frame 40, the eaves member 30, and the rolling pachinko that are provided thereon. It is a member that transmits the load of the sphere to the waist plate 118 or the base plate 117 (see FIG. 1). The height of the upper surface of the girder 11 has a downward slope θ (see FIG. 1) along the longitudinal direction of the replenishing rod 20 from the upstream side where the ball tank 110 is provided to the downstream side where the terminal pachinko machine 100 is provided. Therefore, it becomes low.

At this time, the upper surface of the girder 11 is easily formed when the game island 10 is installed in the game hall by forming the upper surface of the girder 11 horizontally and accurately positioning the height position by a known means such as a spacer or a push screw. The position can be realized as designed.
The base 50 placed on the girder 11 has a wedge shape as viewed from the side facing the pachinko machine 100, and the angle formed between the upper surface 51 and the horizontal plane is the gradient θ in the longitudinal direction of the supply rod 20. ing. By producing the base 50 by cutting the wood, the thickness and the downward gradient θ of the upper surface 51 can be made highly accurate at the factory level. Therefore, a plurality of bases 50 mounted for each digit 11 are provided. By connecting the upper surface 51 in the longitudinal direction of the replenishing rod 20, a downward gradient θ to be given to the supply rolling surface 24 is formed.

As described above, by providing the base 50 that gives the downward rolling gradient θ in the longitudinal direction to the supply rolling surface 24 of the replenishing rod 20 as a separate body from the rod member 30 and the mounting frame 40, the angular accuracy of the gradient θ is based on. On the other hand, the angle accuracy of the inclination angle φ in the width direction is controlled by the angle accuracy of the mounting surface 41 of the mounting frame 40.
As a result, the horizontal plane accuracy of the girder 11, the accuracy of the gradient of the upper surface 51 of the base 50, the accuracy of the inclination angle in the width direction of the mounting surface 41 of the mounting frame 40, and the supply rotation to the bottom surface 31 of the eaves member 30. By increasing the plane accuracy of the moving surface 24 independently of each other, the desired gradient θ and the inclination angle φ can be set on the supply rolling surface 24 of the assembled replenishing rod 20 at a high accuracy level, easily and at low cost. Can be given by processing.
Further, when it is desired to change either the gradient θ or the inclination angle φ of the supply rolling surface 24, it is sufficient to replace either the base 50 or the mounting frame 40, and the layout can be easily changed or adjusted. .

  In the replenishing rod 20 according to the present invention, the base 50 is not provided, and the upper surface of the girder 11 is formed in a downward slope so that the supply rolling surface 24 is given a longitudinal gradient θ. it can. In this case, the mounting frame 40 can be assembled to the beam 11 directly or via a spacer using the through-hole 43 formed in the fixing portion 42.

<Terminal guide member>
FIG. 6 is an upper perspective view of the end guide member 33 provided at the most downstream position of the supply rolling surface 24 on which the end wall 35 is erected and the replenishment rod 20 including the end guide member 33. The end guide member 33 is a member for efficiently leading the pachinko ball 80 that has flowed down the supply rolling surface 24 and reached the most downstream position to the chute 111 through the opening 27. The shape and arrangement position are not particularly limited, but as shown in the figure, the downstream end of the opening 27 provided at the most downstream position of the replenishing rod 20 and the central portion in the width direction of the supply rolling surface 24. It is advisable to provide the terminal guide member 33 in the shape of a wall that connects the position slightly upstream to the diagonal. As a result, the pachinko ball 80 that has been rolling down the widthwise center of the supply rolling surface 24 also has a small (acute) bending angle with respect to the longitudinal direction of the supply rolling surface 24 and is located at the most downstream position. Since it is smoothly guided to the opening 27, the rolling performance of the pachinko sphere 80 is not greatly impaired in the vicinity of the opening 27.
As a result, the pachinko ball 80 that has been rolling down is efficiently introduced into the opening 27 at the most downstream position, so that a large amount of the pachinko ball 80 that has reached the end wall 35 forms a bridge to form the replenishment rod 20. There is no ball clogging. That is, by providing the terminal guide member 33 on the supply rolling surface 24, the pachinko balls 80 having a reduced rolling speed can be supplied to the opening 27 at the most downstream position of the replenishing rod 20 at an appropriate number density. it can.

  Fig.7 (a) is a longitudinal cross-sectional view of the replenishment basket 20 concerning 2nd embodiment of this invention. In the replenishing rod 20 according to the present embodiment, in the vicinity of the side surface 22 where the opening 27 is formed, the downward inclination angle of the supply rolling surface 24 is compared to other regions in the width direction (other than the vicinity of the side surface 22). It is characterized by being more steep. The steeply inclined portion 25 is surrounded by a one-dot chain line X in the same drawing, and an enlarged view thereof is shown in FIG.

  Here, the error of the mounting angle when the replenishment rod 20 is installed on the game island 10 is about 0.2 to 0.5% with respect to the inclination angle φ in the width direction (that is, the unit length of the replenishment rod 20 in the width direction). In general, the height error per unit is about 2/1000 to 5/1000). Even when such an installation error occurs in the direction of reducing (decreasing) the inclination angle φ, In order to prevent the gravitational acceleration component in the width direction applied to the pachinko ball 80 from becoming insufficient, an inclination angle corresponding to the attachment error may be given in advance as the steep inclination portion 25 as in the present embodiment.

  That is, for example, when the inclination angle φ of the supply rolling surface 24 necessary for supplying sufficient pachinko balls 80 to the pachinko machine 100 is 2%, the inclination angle (φ ′) at the steeply inclined portion 25 is set to 2.5. Even if the inclination angle φ is reduced by a maximum of 0.5% due to the mounting error, a sufficient inclination angle (2%) is provided in the vicinity of the side surface 22 that has the greatest influence on the rolling performance of the pachinko ball 80. Can be maintained. Note that the inclination angle φ ′ in the steeply inclined portion 25 means the average of the inclination angles of the supply rolling surface 24 within the width of the steeply inclined portion 25.

  In other words, in the replenishing rod 20 of the present invention having the opening 27 on the side surface 22 on the distal end side in the width direction, the average inclination angle from the proximal end side to the distal end side in the width direction with respect to the longitudinal section passing through the opening portion 27. By configuring so that φ and the inclination angle φ ′ in the vicinity of the side surface 22 have a relationship of φ <φ ′, the replenishment efficiency of the pachinko sphere 80 can be improved even when an attachment error occurs in the inclination angle. A sufficient inclination angle is maintained in the vicinity of the dominant side surface, and the pachinko ball 80 can be suitably supplied to the pachinko machine 100 and the like. In the present invention, the expression “inclination angle” means the average inclination angle φ unless otherwise specified.

  The width of the steeply inclined portion 25 is preferably not less than the radius of the pachinko sphere 80 and not more than several times the diameter, preferably 1 to 2 times the diameter. If the width of the steeply inclined portion 25 is less than the radius of the pachinko sphere 80, the above effect cannot be enjoyed except for the location where the opening 27 is formed. Further, by setting the width of the steeply inclined portion 25 to a diameter equivalent to or twice the diameter of the pachinko sphere 80, a component toward the side surface 22 and a component flowing down in the longitudinal direction of the gravitational acceleration loaded on the pachinko sphere 80 are obtained. The pachinko balls 80 can be supplied more uniformly to a plurality of pachinko machines and the like that are well balanced and arranged in the longitudinal direction of the replenishing basket 20. Further, when the steeply inclined portion 25 having a width exceeding twice the diameter of the pachinko ball 80 is formed, the region provided in parallel to the bottom surface 31 of the supply rolling surface 24 is reduced, so that the processing cost and processing accuracy are reduced. There is a risk of doing.

Further, the replenishing rod 20 according to the present embodiment shown in FIG. 7 includes a supply rolling surface 24 configured by arranging a bottom plate 21a having a bottom surface 31a and a bottom plate 21b having a bottom surface 31b in the width direction, and a bottom plate 21a. , 21b, side surfaces 22a, 22b, which are detachably fitted in fitting grooves provided on both outer sides, and separation walls 32a, 32b, which are also detachably fitted on both inner sides, respectively, and a bottom plate Two sets of eaves members 30 in which steeply inclined portions 25 are formed in the vicinity of the side surfaces 22a and 22b are arranged in parallel on the mounting surface 41 of the mounting frame 40 on both outer sides of 21a and 21b. To do. Further, except for the steeply inclined portion 25, the supply rolling surface 24 is formed in parallel with the bottom surface 31a of the bottom plate 21a or 31b of the bottom plate 21b. At this time, the bottom plate 21a and the bottom plate 21b are joined so as to be bendable at the central portion so that the inclination angle φ of the supply rolling surface 24 can be independently adjusted between the inside and the outside of the bent shape, or as shown in the figure. It may be provided side by side with a predetermined clearance. A downward inclination angle phi ₁ of the inner R side of the bent shape and downwardly inclined angle phi ₂ of the outer R side is different from each other and individually adjustable, relatively large influence of centrifugal force particularly loaded on pachinko ball 80 by further increasing the inclination angle phi ₁ of the inner R side, flexibly to correspond to the difference in the number of pachinko machine 100 or the like which is the size and the installation of the bending angle of the supply trough 20, the balance on both sides of the supply gutter 20 Pachinko balls 80 can be supplied well.
Also, as shown in the figure, by providing the side surfaces 22a and 22b so as to be detachable from the bottom plates 21a and 21b, only the side surfaces can be removed when the side surfaces 22a and 22b are soiled, and a pachinko machine installed on the game island 10 Even when the layout of 100 or the like is changed, the entire replenishment rod 20 including the supply rolling surface 24 can be replaced with another side surface in which the positions where the openings 27 and the chute 111 (see FIG. 3) are changed. This can be suitably dealt with without exchanging.

In the replenishing rod 20 according to the present invention, the supply rolling surface 24 and the side surface 22 (22a, 22b) can be connected by various methods such as bonding and bracket fastening as well as a fitting method as shown in the figure.
Further, in the longitudinal direction of the side surface 22 and the separation wall 32 (32a, 32b) according to the present embodiment, a plurality of protrusions 221 projecting in a streak shape toward the inner side of the replenishing rod 20 are provided. As shown in FIG. 7 (b), the lowermost protrusion 221a abuts against the bottom plate 21a, thereby supporting the side surface 22a fitted to the side surface mounting groove 222. The protrusions 221b at the second stage make point contact with the pachinko balls 80 in the vertical cross section shown in the figure, thereby reducing the friction between the side surface 22 and the pachinko balls 80. That is, when the side surface 22a is not provided with a projection in advance, when the replenishing rod 20 is repeatedly used, a concave surface (concave groove) is formed inside the side surface 22a due to wear due to contact with the pachinko ball 80. Thereafter, the side surface 22a and the pachinko ball 80 come into surface contact with each other, and there is a possibility that the dynamic frictional force between them increases and the fluidity of the pachinko ball 80 is lowered. By projecting, as long as this remains, the side surface 22a and the pachinko ball 80 can maintain the above point contact state. By providing a protrusion on the side surface 22b and the separation wall 32, the above effect can be obtained.

  The protrusion 221 b is provided at a height that makes contact with the pachinko ball 80 at a position lower than the center of gravity of the pachinko ball 80. For this reason, the pachinko ball 80 that is pressed against the side surface 22 and flows down in the longitudinal direction (the front-rear direction in the drawing) rotates around a rotation axis that is inclined obliquely toward the side surface 22 as shown in FIG. However, it will roll downstream. By such an oblique rotation, the pachinko ball 80 approaching the opening 27 is likely to be caught inside the opening. Even if such oblique rotation occurs, the protrusion 221b contacts the pachinko ball 80 at a position lower than the center of gravity of the pachinko ball 80, so that the drag force from the protrusion 221b is applied to the pachinko ball 80 in a direction to push it upward obliquely. Works. Therefore, according to the replenishing rod 20 according to the present embodiment, even if the pachinko ball 80 is pressed against the side surface 22 by the action of the inclination angles (φ and φ ′) of the supply rolling surface 24, the supply rolling surface 20 and the supply rolling surface 20 are supplied. The pachinko ball 80 is not sandwiched between the surface 24 and the rolling property thereof is not insufficient.

  The material of the side surface 22 and the separation wall 32 is not particularly limited, but a metal material such as SUS is preferably used from the viewpoint of durability and low friction. On the other hand, from the viewpoint that it is easy to form the protruding portion 221 that swells, and that the opening 27 can be cut and formed at an appropriate position according to the layout of the pachinko machine 100 and the like installed, It can be said that molding is also preferable. In addition, the dynamic frictional force between the pachinko ball 80 generally made of steel and the protruding portion 221b is generated to a predetermined magnitude, so that the oblique rotation can be appropriately generated. Thus, it is preferable to form the side surface 22 from a resin material having a relatively large dynamic friction coefficient.

  As shown in FIG. 7B, the supply rod 20 according to the present invention may have a supply rolling surface 24 formed by laminating a protective layer 26 on the surface of the bottom plate 21 (21a, b). The protective layer 26 is preferably higher in hardness than the base material of the bottom plate 21 and has a low dynamic friction coefficient with respect to the pachinko sphere 80 and provides good rolling properties. The rolling property of the pachinko sphere 80 can be improved by coating the protective layer 26 on at least a region in contact with the pachinko sphere 80 on the upper surface of the bottom plate 21. By making the hardness of the protective layer 26 higher than that of the base material of the bottom plate 21, wear of the supply rolling surface 24 due to the pachinko balls 80 can be suppressed, and unevenness occurs even after long-term use, resulting in poor rolling properties. There is nothing to do. In particular, it is preferable to increase the Rockwell hardness of the protective layer 26 in order to suitably achieve such a purpose. Specifically, the Rockwell hardness of the protective layer 26 is preferably higher than the hardness (HRC 56-60) of the surface of the pachinko sphere 80.

  Further, by making the coefficient of dynamic friction with respect to the pachinko ball 80 smaller than that of the base material of the bottom plate 21, the rolling flow of the pachinko ball 80 is further promoted and the replenishment efficiency is improved. Note that the method for forming the protective layer 26 on the surface of the base material of the bottom plate 21 is not particularly limited, and a method of laminating plates made of different materials on the surface of the base material of the bottom plate 21 or a base material of the bottom plate 21 by plating. Various methods such as a method of coating the surface or a method of performing surface modification by quenching the surface of the bottom plate 21 can be adopted.

  As a specific example, the base material of the base plate 21 is manufactured by pultrusion of aluminum or aluminum alloy which is lightweight and excellent in moldability, and the protective layer 26 is manufactured by SUS rolling which is excellent in strength, and these are bonded by an adhesive. Thus, the protective layer 26 can be easily formed on the surface of the bottom plate 21. In addition, by forming the protective layer 26 made of a high-hardness material on the surface of the base material of the bottom plate 21, a supply sound when supplying the pachinko ball 80 from the ball tank 110 (see FIG. 1) to the replenishing bowl 20, When the rolling sound of the pachinko ball 80 flowing down the replenishing basket 20 increases, a sound deadening layer (not shown) made of a flexible material having a Young's modulus lower than that of the protective layer 26 between the base material and the protective layer 26. It is also preferable to stack the layers.

<About discharge tank>
The discharge rod 13 provided in the R island according to the present invention can relieve a downward gradient (gradient ξ described later) provided in the discharge rolling surface by improving the rolling property of the pachinko sphere. As a result, even when such a discharge basket 13 is provided on an R island having various shapes with an L-shaped bent shape or a curved shape such as an arc shape or an S-shape, it is discharged from a large number of gaming machines. A large amount of game balls can be suitably collected without clogging the balls. In addition, by using the discharge basket 13 of the present invention described below in detail for a large game island 10 in which a number of pachinko machines 100 are arranged in parallel in the longitudinal direction, the height of the uppermost stream end is set to the seated game. It becomes possible to suppress the height to the waist level of the person.

  The gradient ξ of the discharge rolling surface 14 may be uniform in the longitudinal direction or may be different depending on the location. For example, by making the upstream gradient ξ larger than the intermediate portion or the downstream side, the pachinko ball can be sufficiently accelerated immediately after being received in the discharge basket 13, and conversely, the downstream gradient is set to the intermediate portion or the upstream portion. If it is larger than the side, the number density of the pachinko spheres will increase on the downstream side, and the rolling performance will not be insufficient.

  FIG. 8A is an upper perspective view schematically showing the game island 10 including the discharge basket 13 according to the embodiment of the present invention, and a partially enlarged view of a region surrounded by a broken line X is shown in FIG. Shown in In FIG. 8A, in addition to the pachinko machine 100 (with a diagonal line on the back side), the longitudinal direction and the width direction of the discharge basket 13 are indicated by double-sided arrows. In the figure, a ball tank 110 and a lower tank 114 (both refer to FIG. 1) are provided on the front side of the replenishment basket 20 and the discharge basket 13 respectively. Further, the lifting device 115, the heel plate 116, the base plate 117, and the waist plate 118 (see also FIG. 1) are not shown in FIG.

  The discharge rod 13 according to the present embodiment shown in each of FIGS. 8A and 8B has a frame 15 including a pair of side walls 61 facing each other and a substrate 65 having a discharge rolling surface 14 having a downward gradient ξ on the upper surface in plan view. It is bent so that the shape becomes a polygonal shape. The frame 15 is divided and formed in the longitudinal direction as will be described later, and is bent and joined to each other in the longitudinal direction.

  The discharge basket 13 according to the present embodiment introduces pachinko balls discharged from the pachinko machine 100 into the inner side in the width direction of the frame 15, so that the upper surface of the side wall 61 is inclined downward toward the inner side in the width direction of the frame 15. The guide 62 is formed in a shape. As a result, when the pachinko ball discharged from the out tank 92 and gently passing through the discharge pipe 91 collides with the guide portion 62, it receives a vertical drag from the slope and falls to substantially the center of the discharge rolling surface 14 to the frame 15. Accepted. Note that a waist plate 118 (see FIG. 1) is closely placed on the outer side in the width direction of the side wall 61 so that the pachinko ball does not come off the frame 15. In addition, it is not necessary to provide the guide part 62 by obliquely processing the upper surface of the side wall 61, and it is not necessary to provide the guide part 62 as a separate body. There is no need to form.

<About smooth plate>
Further, the discharge rod 13 according to the present invention is provided with a curved smooth plate 63 at least in the corner portion 66 on the outer R side of the inner surface of the bent side wall 61. The smooth plate 63 is a plate-like member for preventing the pachinko ball rolling on the discharge rolling surface 14 from colliding with the corner portion 66 and reducing the longitudinal speed component, and has a curved shape. It is made of a metal material such as stainless steel (SUS) because it is easy to bend and has high surface smoothness and strength.

  The smooth plate 63 (ii) is provided only on the inside of each corner portion 66 on the outer R side of the bent side wall 61 so as to cover the corner portion 66, and (ii) is provided along the longitudinal direction. 8 may be provided over the entire length of the inner side of the side wall 61 on the R side, and (iii) the inner side of the inner side wall 61 on the inner side may also be provided only at each corner portion 66, or (iv) FIG. As shown to (a), you may provide over the full length of a longitudinal direction.

  However, since the smooth plate 63 has a finite thickness, in the cases (i) and (iii), the pachinko balls flowing down on the discharge rolling surface 14 collide with the end surface 67 on the upstream side of the smooth plate 63. Therefore, there is a risk that the rolling performance of the entire discharge rod 13 may be reduced. Therefore, in the discharge basket 13 according to the present embodiment, the above (ii) and (iv) are adopted, the smooth plate 63 is erected along the longitudinal direction over the entire length of the side wall 61, and the pachinko ball rolls in the rolling direction. The end face 67 that is directly opposite is not generated.

  In addition, when providing the smooth plate 63 along the full length of the side wall 61, in addition to the case where the smooth plate 63 is provided as a long single member, the short smooth plate 63 is connected to each other in the longitudinal direction as a divided configuration. May be given. In the case of a divided configuration, (II) a method of matching the downstream end face of the upstream smoothing plate 63 with the upstream end face of another smoothing plate 63 adjacent to the downstream side, (II) smoothing of the upstream side A method of superimposing the plate 63 and the downstream smooth plate 63 may be employed.

In the discharge rod 13 according to the present embodiment shown in FIG. 8B, the above (II) is adopted, and the downstream end of the upstream smooth plate 63 is placed above the upstream end of the adjacent smooth plate 63. That is, it is a method of superimposing so as to be inside the width direction of the discharge basket 13. As a result, the smooth plate 63 can be obtained using a short plate-like member that is rich in workability and portability, and there is no collision between the pachinko ball flowing down on the discharge rolling surface 14 and the end surface 67. Does not inhibit sex. Further, since the overlapping width between the adjacent smooth plates 63 is arbitrary, unlike the case of (I) above, strict tolerance management between the length dimension of the side wall 61 and the length dimension of the smooth plate 63 is not required. In addition, a gap is not generated between the adjacent end faces 67, and the rolling property of the pachinko sphere is not disturbed.
Note that the overlapping portion 64 in which the ends of the adjacent smooth plates 63 are overlapped with each other may be provided not on the bent corner portion 66 but on the straight portion 68 of the side wall 61. At the straight line portion 68 of the side wall 61, the pachinko sphere rolls almost in parallel with the side wall 61. Therefore, the effect of the level difference of the smooth plate 63 generated in the overlapping portion 64 on the rolling performance of the pachinko sphere is further reduced. It is because it can be.

  The mounting position and height of the smooth plate 63 is sufficient to prevent the rolling pachinko sphere from colliding with the side wall 61. Therefore, at least one radius of the pachinko sphere from the discharge rolling surface 14 of the side wall 61 is sufficient. It only needs to be provided at an upper height position, and the height dimension of the smooth plate 63 itself is not particularly limited. That is, as shown in FIGS. 8A and 8B, the smooth plate 63 has (b) the lower end provided in contact with the upper surface of the discharge rolling surface 14, and (b) the upper surface of the discharge rolling surface 14 and the smooth plate. There may be a gap equal to or less than the radius of the pachinko ball between the lower end of 63. In the former case, the height of the smooth plate 63 requires one or more radii of the pachinko sphere. However, when the pachinko sphere that rolls slightly bounces down on the discharge rolling surface 14, Considering the possibility that the ball rides on another pachinko ball and collides with the side wall 61, and the processing error or mounting error of the smooth plate 63, the height of the smooth plate 63 is increased in both cases (a) and (b). The length is preferably at least twice the diameter of the pachinko sphere.

  When the shape of the discharge basket 13 in a plan view is a curved shape, the corner portion 66 does not exist on the side wall 61, but by providing a smooth plate 63 having a higher surface smoothness than the side wall 61 on its inner side, The rolling property of the pachinko sphere can be improved. Further, when the curved discharge rod 13 is obtained in a divided configuration, the smooth plate 63 is provided at the connecting portion between the curved short side walls 61, so that the connecting portion is inevitably generated based on processing accuracy and assembly accuracy. The effect of covering the continuity and further improving the rolling properties of the pachinko sphere is expected.

  In the present invention, it is arbitrary whether the shape of the discharge rod 13 used in the R island is a curved shape or a bent shape, but since the flat side wall 61 can be used, the bent shape is discharged. The scissors 13 can be manufactured more easily. Therefore, as shown in FIGS. 8A and 8B, adjacent side walls 61 are bent and connected to each other in the longitudinal direction, and the bent corner portion 66 is covered with a smooth plate 63 provided on the inner side in the width direction. It can be said that the bent-shaped discharge rod 13 achieves both easy production and good rolling properties of the pachinko sphere.

  As shown in FIG. 8 (a), the discharge rolling surface 14 has a width at the most downstream position where it is connected to a lifting device 115 (see FIG. 1) that transfers the recovered pachinko balls to the upper side of the game island 10. Is preferably larger than the width at other positions. That is, at the most downstream position where the pachinko balls are most likely to be concentrated, a wide portion 16 having an extended interval between the opposite side walls 61 is provided, and the pachinko balls are prevented from staying by expanding the flow path of the pachinko balls. The recovery efficiency to 114 can be improved.

Fig.9 (a) is an exploded perspective view of each member which divides and constitutes the discharge basket 13 concerning this Embodiment in a longitudinal direction, The same figure (b) is the assembly perspective view.
The discharge rod 13 is bent in the longitudinal direction in plan view, and has a polygonal discharge rolling surface 14, side walls 61 erected on both sides in the width direction, and an inner side of a corner portion 66 of the side wall 61. The curved smooth plate 63 is provided, and is divided into a plurality of portions in the longitudinal direction so as to be excellent in processing accuracy and portability, and are positioned and connected to each other.
The side wall 61 is joined to a substrate 65 having a downward gradient ξ to constitute the frame 15, which is connected to each other in the longitudinal direction and is installed below the inside of the game island 10. The frame 15 has a base plate 117 so that the downstream end of the adjacent upstream frame 15 (the front side in the figure) and the upstream end of the downstream frame 15 (the depth side in the figure) coincide. (See FIG. 1) placed on an installation stand (not shown) provided in a descending staircase pattern. Thereby, the discharge rolling contact surface 14 of the discharge rod 13 is smoothly joined without a step.

  As described above, the smooth plate 63 is formed longer than the side wall 61 so as to be able to overlap with another adjacent smooth plate 63, and as shown in FIG. The end protrudes from the frame 15 so that 64 can be formed.

<About the board>
For example, as shown in FIGS. 10A and 10B, the substrate 65 can be obtained by cutting a rectangular plate material 70 having a gradient ξ in the thickness direction into a V shape at a bending angle ψ. As the plate material 70, it is preferable to use a wood plate which has high workability and cost merit and is excellent in dimensional stability due to temperature change and change with time. The substrate 65 shown in FIG. 10A is bent to the right in the downward direction of the pachinko sphere, and the substrate 65 shown in FIG. In addition, each substrate 65 is cut off obliquely at an angle of 2 * ψ in the vicinity of the inner corner of the bent portion of the end portion in the longitudinal direction. Therefore, in the former shown in FIG. 6A, the short sides of the two adjacent substrates 65 are joined together and connected to each other in the longitudinal direction, so that the substrate 65 is bent to the right, that is, bent clockwise. Due to its shape, the bending angle of the corner portion 66 (see FIG. 8A) is ψ. On the other hand, with respect to the latter shown in FIG. 5B, similarly, by connecting two substrates 65 in the longitudinal direction, the substrate 65 turns to the left at the bending angle ψ, that is, has a counterclockwise bent shape. Do it. In addition, the board | substrate 65 shown to each figure of FIG. 9 is corresponded in FIG.10 (b).

  In FIG. 9, a side wall 61 on which a guide portion 62 having an upper surface inclined downward inward in the width direction is erected on the substrate 65. The side wall 61 is formed from a wooden board for the same reason as the substrate 65, and is joined to the substrate 65 by a known means such as adhesion or screwing. However, the side wall 61 and the substrate 65 can be integrally formed by cutting a wood block or the like.

<About resin sheet>
In the discharge basket 13 according to the present embodiment, a mesh layer 72 made of a fiber entangled body or a porous material and a resin sheet 71 are laminated in this order on the upper surface of the substrate 65, and the discharge rolling surface 14 of the pachinko sphere is formed. It is formed. The mesh layer 72 and the resin sheet 71 are thin layers having a uniform thickness, and the gradient ξ in the longitudinal direction of the discharge rolling surface 14 is defined by the gradient in the longitudinal direction of the substrate 65.

The resin sheet 71 is formed by molding a hard resin material such as hard polyurethane, nylon, or vinyl chloride into a sheet shape having a thickness of about 1 mm. By obtaining the discharge rolling surface 14 from a resin material instead of wood or metal, it is possible to prevent the pachinko balls that have dropped and dropped from the discharge pipe 91 or the guide 62 from jumping up and have excellent sound deadening properties. Further, even when the pachinko balls dropped from the discharge pipe 91 or the guide portion 62 repeatedly collide with the same position on the resin sheet 71 repeatedly and the area is overheated, the resin sheet 71 is made of a particularly hard polyurethane material. Since the amount of thermal deformation is suppressed, there is no possibility that uneven deformation accompanying thermal expansion occurs on the discharge rolling surface 14 and the rolling property of the pachinko sphere is not impaired.
Sanding or annealing treatment is applied to the back surface of the resin sheet 71 to enhance adhesive bonding with the mesh layer 72 described later and the surface of the substrate 65.

<About the mesh layer>
Between the resin sheet 71 and the substrate 65, a mesh layer 72 made of a porous material such as a fiber entangled body such as nylon or a resin foam is arbitrarily formed to form an air layer between the substrate 65 and the resin sheet 71. Interpose with. Since the heat dissipation of the resin sheet 71 is improved by forming the air layer, even when the pachinko balls repeatedly collide with the same position as described above, the resin sheet 71 is prevented from being overheated and thermally expanded and deformed. . Further, by forming such an air layer with the mesh layer 72, the effect of an air spring is given to the resin sheet 71, the falling impact of the pachinko ball is absorbed, the jumping up is suppressed, and the sound deadening property is enhanced. The average opening diameter of the mesh layer 72 is not particularly limited, but may be 2 to 20 mm. The average opening diameter can be obtained as a diameter in the case of circular approximation of the average opening area obtained by dividing the unit area of the mesh layer 72 by the number of holes to be visually observed. Further, the thickness of the mesh layer 72 is preferably 0.1 to 1 mm from the viewpoint of sufficiently obtaining the above effect.
When the average opening diameter of the mesh layer 72 is excessive, the resin sheet 71 is in direct contact with the substrate 65 and the effect of the air layer is lost, or unevenness corresponding to the opening shape of the mesh layer 72 is formed on the surface of the resin sheet 71. May occur. Conversely, when the average opening diameter is too small, the openings of the mesh layer 72 are filled with a water-based adhesive described later, and the effect of the air layer cannot be sufficiently obtained.

  In the discharge basket 13 according to the present invention, the resin sheet 71 and the substrate 65 may be bonded and bonded together with an aqueous adhesive in which a vinyl acetate resin, an acrylic resin, or the like is colloidally dispersed in an aqueous solvent. By using the water-based adhesive, no outgas from the solvent is generated even when the resin sheet 71 is overheated due to repeated collisions of pachinko spheres. Therefore, the outgas accumulates between the resin sheet 71 and the substrate 65, and the resin sheet 71 does not bulge and does not inhibit pachinko ball rolling. In the conventional discharge basket 13, it is general that only both ends in the longitudinal direction of the resin sheet 71 are bonded to the substrate 65. In the present invention, the entire back surface of the resin sheet 71 is arbitrarily meshed. It is bonded to the surface of the substrate 65 through the layer 72. Thereby, the resin sheet 71 does not expand in the longitudinal direction even when the discharge rod 13 is used for a long period of time, and the smooth rolling down of the discharge rolling surface 14 can be maintained. .

Here, also when the mesh layer 72 is interposed between the resin sheet 71 and the substrate 65, it is preferable that the resin sheet 71 and the substrate 65 are directly bonded by the adhesive. That is, when the average opening diameter of the mesh layer 72 is too small, (1) the resin sheet 71 and the mesh layer 72, and the mesh layer 72 and the substrate 65 need to be separately bonded and joined, and (2) Since the highly elastic substrate 65 and the resin sheet 71 are not in direct contact with each other, there arises a problem that expansion deformation of the resin sheet 71 over time cannot be suppressed. The above (2) also occurs when the mesh layer 72 is thinner than the aqueous adhesive applied to the resin sheet 71.
Therefore, the mesh layer 72 is provided with the above preferred thickness and opening diameter, and the water-based adhesive applied to the back surface of the resin sheet 71 is bonded to the substrate 65 while leaving an air layer inside the opening of the mesh layer 72. It is good to be done.

  In the present invention, “the entire surface of the resin sheet 71 and the substrate 65 is bonded” is intended to exclude the state where only the end portion of the resin sheet 71 or the adhesive area is provided in the form of dots. As long as the resin sheet 71 is uniformly bonded and bonded to the substrate 65, the resin sheet 71 and the substrate 65 are not in contact with each other in the air layer forming portion, or in the vicinity of the side wall 61 or the like. It will be apparent to those skilled in the art that it does not exclude the presence of uncoated portions.

  Note that it is arbitrary whether each member has a single configuration or a divided configuration, and the number of divisions is arbitrary. For example, only the substrate 65, the side wall 61, and the smooth plate 63 have a divided configuration, and the resin sheet 71 and The mesh layer 72 may have a long single configuration.

  By applying the above technical matters, the discharge rod 13 according to the present invention has a longitudinal downward slope ξ of 3%, preferably 2.5% or less, even when the game island 10 is an R island. It is clear from the inventor's knowledge that this is possible. As a result, when the distance between the centers of adjacent pachinko machines 100 is a standard 100 cm, and the lower end position of the discharge pipe 91 at the most upstream position of the discharge rod 13 is 60 cm from the floor of the game hall, it is juxtaposed on the game island 10. The number of possible pachinko machines 100 can be increased to at least 20 (= 60/100 / 0.03).

The discharge basket 13 used in the embodiment of the present invention is
[1] A game machine having one or more units as a unit is provided on a gaming island that is bent side by side for each unit, and is bent in the longitudinal direction along the gaming machine. It is a discharge basket for collecting game balls discharged from each gaming machine having a shape,
A discharge rolling surface having a predetermined gradient in the longitudinal direction and rolling the game ball;
Side walls erected on both sides of the discharge rolling surface along the longitudinal direction;
Receiving a game ball discharged from the gaming machine and guiding the game ball toward the inner side in the width direction of the discharge rolling surface, and a guide portion formed in a downward inclined surface shape, and
A discharge bowl characterized in that a curved smooth plate for preventing a collision between the rolling game ball and the side wall is provided on at least the outer corner of the inner surface of the bent side wall;
[2] The discharge rod according to [1], wherein a plurality of discharge rod members each including the discharge rolling surface, a side wall, and a guide portion are bent and connected to each other in the longitudinal direction;
[3] The discharge rod member according to the above [2], wherein the discharge rod member includes a basket-shaped wooden frame on which the substrate and the side wall are formed, and a resin sheet that is bonded to the entire surface of the substrate.
[4] The discharge rod according to [3], wherein the side wall of the frame has an upper surface formed obliquely to constitute the guide portion;
[5] The discharge rod according to [3] or [4], wherein a mesh layer made of a fiber entangled body or a porous material is interposed between the substrate and the resin sheet;
[6] The smooth plate is divided into a plurality of pieces in the longitudinal direction, and the ends of the adjacent smooth plates are configured to overlap each other with the end of the smooth plate located on the upstream side facing up. The discharge tank according to any one of [1] to [5] above,
[7] The discharge rod according to [6], wherein the end portions of the smooth plate are overlapped with each other in a linear portion excluding the corner portion among the inner surfaces of the bent side walls;
[8] The discharge rod according to any one of [1] to [7], wherein the gradient of the discharge rolling surface is 3% or less;
[9] The discharge rolling surface, wherein the width at the most downstream position connected to the lifting device for transferring the collected game balls to the upper side of the game island is larger than the width at other positions. [1] to [8]
[10] The discharge rod according to the above [3] or [4], wherein the substrate and the resin sheet are bonded with a water-based adhesive;
It can be said that this is the gist.

Moreover, the game island 10 according to the present invention is:
[11] An amusement island provided with both the replenishment pad according to any one of claims 1 to 9 and the discharge pad according to any one of [1] to [10];
It can be said that this is the gist.

1 is a front view of a game island 10 in which a replenishment rod 20 according to the present invention is installed above. It is an upper perspective view showing typically replenishment basket 20 concerning a first embodiment of the present invention. FIG. 3 is a partially enlarged view of FIG. 2. 3 is a schematic view showing a vertical cross section of a replenishing rod 20. FIG. It is a perspective view of the mounting frame 40 concerning 1st embodiment of this invention. FIG. 6 is an upper perspective view of a terminal guide member 33 provided at the most downstream position of the supply rolling surface 24 and a replenishment rod 20 provided with the end guide member 33. (A) It is a longitudinal cross-sectional view of the replenishment basket 20 concerning 2nd embodiment of this invention. (B) It is the elements on larger scale of the area | region enclosed with the circle | round | yen X of the figure (a). (A) is an upper perspective view schematically showing the amusement island 10 including the discharge basket 13, and (b) is a partially enlarged view of a region surrounded by a circle X. (A) is an exploded perspective view of each member which divides and constitutes discharge basket 13 in the longitudinal direction, and the figure (b) is the assembly perspective view. FIG. 6 is a perspective view showing how a substrate 65 is obtained from a plate material 70.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Game island 11 Digit 13 Discharge rod 14 Discharge rolling surface 15 Frame 16 Wide part 20 Replenishment rod 21 Bottom plate 22 Side surface 24 Supply rolling surface 25 Steeply inclined portion 26 Protective layer 27 Opening portion 30 Rod member 31 Bottom surface 33 End guide member 40 Placement frame 41 Placement surface 50 Base 61 Side wall 62 Guide part 63 Smooth plate 65 Substrate 71 Resin sheet 72 Mesh layer 80 Pachinko ball 100 Pachinko machine θ Gradient φ Inclination

Claims (7)

A game machine in which one or a plurality of game machines are provided in a game island that is bent side by side and installed side by side for each unit, and supplies a game ball to each of the game machines,
A plurality of mounting frames each having a mounting surface in which a downward slope toward the gaming machine is formed in the width direction are connected to each other in the longitudinal direction, and are provided on the gaming island with a gradient in the longitudinal direction. a plurality of trough members comprises a supply roll surface for rolling the balls is connected is placed respectively on the mounting surface, the plan view shape of the supply rolling contact surface has to name a curved or bent shape,
Of the plurality of mounting frames that are continuously provided, the downward slope of the mounting surface provided in the mounting frame provided on the most downstream side is the bottom inclination of the mounting surface provided on the mounting frame provided on the most upstream side. A replenishment rod characterized by being steeper than a downward slope .   2. The replenishing rod according to claim 1, wherein the mounting frame is provided with two mounting surfaces each having a downward slope directed toward both sides in the width direction.   The replenishing rod according to claim 2, wherein the downward inclination of the curved or bent inner mounting surface of the two mounting surfaces is steeper than the downward inclination of the outer mounting surface. The saddle member according to any one of claims 1 to 3 , wherein the saddle member has the supply rolling surface, a bottom surface parallel to the supply rolling surface, and a side surface in which an opening for supplying the game ball toward the gaming machine is formed. The replenishment pot mentioned. The terminal guide member which guides the rolling game ball toward the opening is provided on the supply rolling surface provided in the most downstream side of the connected saddle members. 4. The replenishment pad according to 4 . The replenishing rod according to any one of claims 1 to 5, further comprising a base that gives the mounting frame a gradient in the longitudinal direction . The replenishing reed according to any one of claims 1 to 6, wherein a descending step toward the downstream side is provided in the connecting portion of the supply rolling surface formed by connecting the reed members .

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