JP3815309B2 - Vending machine product delivery device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a product dispensing apparatus for a vending machine that dispenses the lowest sales product among a plurality of products stored in a product passage in a state of being stacked in a vertical direction while being laid down.
[0002]
[Prior art]
Conventionally, as this kind of product dispensing device, for example, the one described in Japanese Patent Application Laid-Open No. 2001-155235 already proposed by the present applicant is known. This merchandise payout apparatus is capable of paying out only sold merchandise at the time of sale regardless of the size and shape of the merchandise to be sold, and its structure is shown in FIG. The product dispensing device 71 is usually arranged at the lower end of a partition wall (not shown) of two product passages 72, 72 extending in the vertical direction (left and right in FIG. 18) extending back and forth in a state of being back to back with each other. Then, at the time of sale, the product delivery device 71 in the product passage 72 that stores the selected product operates independently, and the sales product S in the product passage 72 is paid out downward. In the following description of the present specification, among the products stored in the product passage, the sales products and the next sales products located immediately above are appropriately denoted by “S1” and “S2”, respectively. .
[0003]
The product dispensing apparatus 71 includes a stopper 73 that opens and closes a lower end portion of the product passage 72 at the time of sale, an ejector 74 that can slide forward and backward obliquely forward and backward with respect to the product passage 72, and slides the ejector 74 at the time of sale. A drive mechanism 75 and a pair of side plates 76 and 76 facing each other with a gap in the left-right direction (front and back direction in FIG. 18) are provided. A quarter arc-shaped stopper guide groove 77 is formed at the lower end portion of each side plate 76. While the stopper 73 is guided in the stopper guide groove 77, a closed position and a two-dot chain line shown in FIG. It is designed to rotate between the open position indicated by. The stopper 73 is locked in the closed position by a triangular locking groove 77 a formed at the upper end of the stopper guide groove 77 and a lock mechanism 78 assembled to the stopper 73.
[0004]
Further, a U-shaped ejector guide groove 79 is formed above the stopper guide groove 77 of each side plate 76. The ejector 74 is determined by coming into contact with an allowable position (a position indicated by a solid line in FIG. 18) allowing the next sale product S2 to move downward and an upper portion of the sale product S1 while being guided by the ejector guide groove 79. Thus, it slides between a blocking position (for example, a position indicated by a two-dot chain line in FIG. 18) for blocking the downward movement of the next sale product S2. When the ejector 74 reaches the blocking position, the next sale product S2 is supported in cooperation with the opposite passage wall 72a of the product passage 72. The passage wall 72a is provided with a projecting protrusion 72b that is substantially the same height as the ejector 74 that supports the next sale product S2. The support projection 72b allows the next sale product S2 to pass through the passage wall 72a. The wall 72a is easily caught.
[0005]
The product delivery device 71 configured as described above operates as follows at the time of sale, thereby delivering the sale product S1 and supporting the next sale product S2. First, when the drive mechanism 75 starts to operate, the ejector 74 slides forward and downward toward the blocking position, and the tip of the ejector 74 comes into contact with the upper part of the sale product S1, as indicated by a two-dot chain line in FIG. Even after the contact, the drive mechanism 75 continues to operate, so that the lock of the stopper 73 by the lock mechanism 78 is released. Then, the stopper 73 in the closed position is pushed open toward the open position by the weight of the sales product S1 and the pressing of the sales product S1 by the ejector 74 from above. As a result, when the merchandise passage 72 is opened, the sale merchandise S1 falls and is dispensed downward, and the next sale merchandise S2 is supported by the ejector 74 and the passage wall 72a.
[0006]
[Problems to be solved by the invention]
As described above, in the product dispensing device 71, the ejector 74 slides until it comes into contact with the sales product S1, and the blocking position of the ejector 74 is automatically and appropriately set according to the size and shape of the product. Regardless of the size, shape, etc. of the product to be sold, it is possible to pay out only the sales product S1 at the time of sale. However, in recent years, beverage products in various containers have been developed, and depending on the size and shape of the new product, the product dispensing device 71 cannot properly dispense the sold product S1, or the so-called multi-sale sales. May end up.
[0007]
For example, as shown in FIG. 19, when the next sale product S2 is placed on the track of the ejector 74 (between the ejector guide grooves 79), at the time of sale, the ejector 74 that slides forward and downward toward the blocking position becomes the sale product. There is a case where the next-sale product S2 is brought into contact with the next-sale product S2 instead of S1 and is sandwiched between the passage wall 72a and the ejector 74. In this state, when the stopper 73 is unlocked, the stopper 73 must be opened only by the weight of the sale product S1. However, when the sales product S1 is light in weight and insufficient to push the stopper 73 open, the sales product S1 may remain in the product passage 72 and cannot be paid out because the stopper 73 cannot be opened. Further, even if the stopper 73 can be opened only by the own weight of the sale product S1 and the sale product S1 can be dispensed, the next sale product S2 falls due to the ejector 74 moving backward after the delivery is completed, and the sale product. There is also a risk that multiple sales in which the next sale product S2 is paid out together with S1. As described above, there is room for improvement in the product dispensing device 71.
[0008]
The present invention has been made in order to solve the above-described problems, and it is possible to reliably pay out only sold products at the time of sale regardless of the size and shape of the products to be sold. It is an object of the present invention to provide a product dispensing apparatus for a vending machine that can sufficiently cope with products.
[0009]
[Means for Solving the Problems]
The product dispensing device of the vending machine according to the present invention is a vending machine that dispenses the lowest sales product out of a plurality of products stored in the product passage in a state of being laid down and stacked vertically at the time of sale. A product extending device, a frame extending in a vertical direction, a closed position provided at a lower portion of the frame for closing the product passage so as to prevent the sale of the sale product, and allowing the delivery of the sale product A product passage opening / closing member movable between an opening position for opening the product passage and a product passage opening / closing member of the frame provided above the product passage opening / closing member. A slide member that can project downward, a drive mechanism that drives the slide member at the time of sale, a contact position that contacts the slide member from above, and a predetermined position above the contact position It is connected to a position separated from the front end of the slide member in a state of being freely rotatable with respect to the rotated position, and extends inward of the product passage from the front end of the slide member, and moves the slide member. Along with this, the permissible position allowing the downward movement of the next sale product located immediately above the sale product and the abutting wall that faces the frame is determined by contacting the upper part of the sale product. The next sale product support member that is movable between a blocking position that prevents the next sale product from moving downward, and a bias that biases the next sale product support member to the rotation position. And a lock mechanism that locks the merchandise passage opening / closing member in the closed position and that releases the lock of the merchandise passage opening / closing member when the next sale product support member moves to the blocking position. To do.
[0010]
According to this configuration, when the slide member moves while being guided by the frame so as to protrude obliquely forward and downward toward the sale product in the product passage, the next connected to the slide member is associated with this. The sales product support member also moves toward the sales product. When the next sale product support member comes into contact with the upper part of the sale product, that is, when the next sale product support member reaches the blocking position, the lock of the product passage opening / closing member locked in the closed position is released. The Then, the merchandise passage opening / closing member is driven from the closed position to the open position by the weight of the merchandise sold, and thereby the merchandise sold is discharged downward from the merchandise passage. On the other hand, the next-selling product support member that has reached the blocking position supports the next-selling product in cooperation with the passage wall, whereby the next-selling product is held in the product passage.
[0011]
As described above, the blocking position of the next sale product support member is determined by the next sale product support member coming into contact with the sale product, so that the blocking position is automatically and steplessly according to the size and shape of the product. Is set appropriately. Further, the next-sales product support member is connected to the slide member in a state of being freely rotatable between the contact position and the rotation position, and is urged to the rotation position by the urging means. For this reason, even if the next-sales product support member in the rotation position comes into contact with the next-sales product before the sales product, the next-sales product support member faces the contact position due to the reaction force of the next-sales product. Thus, it is possible to reliably contact the upper part of the product for sale. Therefore, according to the product dispensing apparatus having the above-described configuration, it is possible to reliably dispense only the sales product at the time of sale, regardless of the size or shape of the product to be sold, and to sufficiently handle the new product. Therefore, the applicability (flexibility) of the product dispensing device for the product to be sold can be greatly improved as compared with the conventional case.
[0012]
In this case, the frame is opposed to each other in the left-right direction and is formed to be forwardly lowered, and has a pair of left and right guide grooves for guiding the slide member. It is preferable that two upper and lower shafts slidably engaged with a pair of left and right guide grooves are provided.
[0013]
According to this configuration, both end portions of the upper and lower shafts provided on the slide member are respectively slidably engaged with the pair of left and right guide grooves of the frame. It can be smoothly slid along the groove.
[0014]
In this case, it is preferable that the next-sale product support member is rotatably connected to the upper shaft of the two upper and lower shafts.
[0015]
According to this configuration, the next-sales product support member is pivotally connected to the upper shaft provided on the slide member, thereby rotating the contact position and the rotation centered on the position separated from the tip of the slide member. The next-sale product support member that can freely rotate between the positions can be easily configured. Further, the next sale product support member is positioned at the abutting position by abutting against the slide member, and the next sale product can be firmly supported in this state.
[0016]
Also, in these cases, an inclination position that is provided above the product passage opening and closing member of the frame and inclined forward and downward toward the inside of the product passage centering on the upper end portion and the product in the product passage is inclined. A sold-out detection member that is rotatable between a pressing position rotated by a predetermined angle from the position, and each of the pair of left and right guide grooves includes a back side of the sold-out detection member and a lower side of the sold-out detection member. It is preferable to form in circular arc shape so that it may extend between.
[0017]
According to this configuration, when the product remains in the product passage, the sold-out detection member is pressed by the product and positioned at the pressed position, so that it can be determined that the product is not sold out. On the contrary, it is possible to determine that the product is sold out by positioning the sold-out detection member at the inclined position without being pressed by the product. Further, since each of the pair of left and right guide grooves is formed in an arc shape so as to extend between the back side of the sold-out detection member as described above and the lower side thereof, the next-sale product support member is at the rotation position. Even when the slide member is moved to the back side of the sold-out detection member in the positioned state, it is possible to prevent the next-selling product support member from interfering with the sold-out detection member. As a result, the depth dimension of the product dispensing device can be reduced, and the device can be configured compactly.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. 1 to 3 show a product dispensing device for a vending machine according to an embodiment of the present invention. The product dispensing apparatus 1 is incorporated in a vending machine that sells beverage can products, plastic bottle products, and the like, for example, and is stored in a product passage 2 that extends in the vertical direction and laid down in a vertically stacked state. Of these, only the lowest sales item is paid downward at the time of sale.
[0019]
As shown in FIGS. 1 to 3, the product dispensing device 1 is provided in a frame 4 that extends in the vertical direction and defines a product passage 2 by an opposing passage wall 3, and a lower end portion of the frame 4. A stopper 5 that opens and closes the lower end of the product passage 2 at the time of sale, an ejector 6 that can project obliquely forward and downward toward the sale product S1 in the product passage 2, and a drive mechanism 7 that drives the ejector 6 at the time of sale. The stopper 5 is provided with a lock mechanism 8 for locking and releasing the stopper 5 and the like.
[0020]
The frame 4 has a substantially rectangular plane shape by a frame main body portion 11 having a substantially rectangular front shape, and left and right guide portions 12 and 12 that are bent at both left and right ends of the frame main body portion 11 and extend forward. It is formed in a letter shape. In the space surrounded by the frame main body 11 and the left and right guide portions 12, 12, a stopper 5 is provided at the lower portion, and an ejector 6 is provided above the stopper 5. A drive mechanism 7 is provided on the back side of the frame main body 11, and a lock mechanism 8 is provided near the rear end of the stopper 5.
[0021]
The frame 4 is formed into a predetermined shape by pressing a metal plate or the like, and a large through-hole (hereinafter referred to as “hereinafter referred to as“ the through-hole ”) for connecting the ejector 6 and the drive mechanism 7 is formed at the center of the frame main body 11. Ejector driving hole 11a ") is formed. Further, a lock member 22 (to be described later) of the lock mechanism 8 faces the lower end portion of the frame main body portion 11 and penetrates for allowing a stopper support member 21 (to be described later) to escape backward when the stopper 5 opens the product passage 2. A hole (hereinafter referred to as “stopper lock hole 11b”) is formed. Shaft guide portions 11c and 11c are formed at the left and right edges of the stopper lock hole 11b.
[0022]
On the other hand, arc guide grooves 12 a and 12 a for guiding the ejector 6 are formed in the left and right guide portions 12 and 12 of the frame 4, respectively. Each guide groove 12a is formed so as to extend in a crescent shape between the back side of a sold-out detection plate 61, which will be described later, and below and near the front end of the stopper 5. Resin covers 13 and 13 are attached to the outer surfaces of the left and right guide portions 12 and 12, respectively, which cover the guide groove 12a and also function as bearings for a rotation shaft 14 to be described later of the stopper 5. Yes.
[0023]
The stopper 5 has a stopper body 15 (product passage opening / closing member) whose rear end portion is rotatably attached to a rotation shaft 14 that is horizontally passed between the left and right guide portions 12 and 12. The stopper main body 15 is made of a metal plate, has a planar shape formed in a horizontally-long rectangular shape, and has a front end portion and left and right edge portions bent substantially at right angles to the back surface side. The stopper body 15 is formed with a large number of through holes 15a through which air for cooling / warming the product is passed.
[0024]
The stopper body 15 configured in this manner is slightly inclined forward and downward, and closes the product passage 2 (the position shown in FIGS. 1 to 3) and the open position that opens the product passage 2 (shown in FIG. 9). Position). The stopper body 15 is locked in the closed position by the lock mechanism 8.
[0025]
The lock mechanism 8 is attached to the back surface of the stopper main body 15, a stopper support member 21 for supporting the stopper main body 15, and a lock attached to the lower end portion of the frame main body portion 11, which can be engaged with and disengaged from the stopper support member 21. Member 22.
[0026]
The stopper support member 21 has a certain width and has a side surface formed in a thickness of ¼ arc, and one end is attached to the back surface of the stopper body 15. When the stopper main body 15 is located at the closed position, as shown in FIG. 3, the end of the stopper supporting member 21 opposite to the stopper main body 15 (hereinafter referred to as “front end”) is formed in the stopper lock hole 11b. Located in front. On the other hand, when the stopper main body 15 is located at the open position, as shown in FIG. 9, the stopper support member 21 penetrates the stopper lock hole 11 b and the tip end portion is located on the back side of the lock member 22. ing.
[0027]
The lock member 22 is provided on the back side of the frame main body 11 so as to be slidable in the vertical direction along the frame main body 11. As shown in FIG. 3, the lower end of the lock member 22 passes through the stopper lock hole 11b. 11 protrudes forward. A lock shaft 23 having a dimension slightly longer than the left and right widths of the stopper lock hole 11b is provided at the protruding lower end. Both ends of the lock shaft 23 are supported by the left and right shaft guide portions 11c and 11c of the stopper lock hole 11b. The lock member 22 is provided with a coil spring 24 that urges the lock member 22 downward.
[0028]
In the lock mechanism 8 configured as described above, the distal end portion of the stopper support member 21 comes into contact with the lock shaft 23 of the lock member 22 located at the lock position (position shown in FIG. 3) from the front, so that the stopper body 15 Is locked in the closed position. On the other hand, as the lock member 22 slides upward against the coil spring 24, the lock shaft 23 moves to the upper unlocking position (position shown in FIG. 8), so that the stopper is supported on the lock shaft 23. The contact of the member 21 is released, and thereby the stopper body 15 is unlocked.
[0029]
The ejector 6 includes a slide member 31 that is slidable along the left and right guide grooves 12 a, 12 a of the frame 4, and an ejector body 32 that is provided above the slide member 31. The slide member 31 has two shafts with both ends inserted into the guide grooves 12a and 12a (the upper one is called "upper shaft 33a" and the lower one is called "lower shaft 33b"). ), And a metal connecting plate 34 that rotatably connects the shafts 33a and 33b.
[0030]
On the other hand, the ejector main body 32 is made of a metal plate, and the planar shape is formed in a horizontally long rectangular shape, and the front end portion and the rear end portion are each formed in a curl shape. Further, the ejector main body 32 is connected to the upper shaft 33a of the slide member 31 at the rear end, and comes into contact with the slide member 31 from above (for example, the position shown in FIG. 9) and the contact position. It can be rotated between a predetermined angle (for example, 30 degrees) and a rotated position (for example, the position shown in FIG. 3). And this ejector main body 32 is normally urged | biased by the rotation position with the leaf | plate spring 35 provided in the upper shaft 33a. The ejector body 32 is formed with a number of elongated holes 32a for allowing air to pass therethrough, as with the number of through holes 15a of the stopper body 15.
[0031]
The ejector 6 configured as described above is connected to a drive shaft 42 as a feed screw (described later) of the drive mechanism 7 via a joint 36. The joint 36 includes a joint body 37 that is screwed to the drive shaft 42, and a connecting plate 38 that is rotatably connected to the front end portion of the joint body 37 and the upper shaft 33a of the ejector 6. Therefore, the ejector 6 moves as the joint 36 moves up and down. Specifically, as the slide member 31 moves along the guide grooves 12a and 12, the ejector body 32 is allowed to move downward in the next sale product S2 (for example, the position shown in FIG. 6). And the ejector body 32 abuts against the sale product S1, and supports the next sale product S2 in cooperation with the passage wall 3, thereby preventing the next sale product S2 from moving downward ( For example, the position shown in FIG. The maximum movable range of the ejector main body 32 includes a position where the upper shaft 33a of the slide member 31 contacts the upper ends of the guide grooves 12a and 12a and a position where the lower shaft 33b contacts the lower ends of the guide grooves 12a and 12a. Between.
[0032]
The drive mechanism 7 is provided on the back side of the frame main body 11 on the back side, and on the back side of the frame main body 11 so as to extend in the vertical direction and to be slidable in the vertical direction. And a drive shaft 42 that is rotated around the axis by the drive unit 41. As shown in FIG. 2B, the drive shaft 42 has an upper end engaged with a later-described slide gear body 58 of the drive unit 41, and a lower end connected to the lock member 22. Further, a male screw for feeding the joint 36 in the vertical direction is formed at an intermediate portion of the drive shaft 42.
[0033]
The drive mechanism 7 is further provided with a payout shaft 43 for paying out the products S at a time when all the products S stored in the product passage 2 are exchanged. By feeding the joint 36 upward to the vicinity of the drive unit 41, the payout shaft 43 is driven upward, and thereby the stopper body 15 by the lock mechanism 8 is held unlocked.
[0034]
As shown in FIGS. 4 and 5, the drive unit 41 includes a motor 51, a reduction gear train 52 inside, a gear box 53 that transmits the power of the motor 51 to the drive shaft 42, and the gears of the reduction gear train. The gear ratio changing operation unit 54 is used to change the ratio. As the motor 51, for example, a low-rotation, high-torque DC motor is used. The reduction gear train 52 in the gear box 53 includes a motor gear 55 fixed to the tip of the rotating shaft 51a of the motor 51, a first intermediate gear 56 that meshes with the motor gear 55, a second intermediate gear 57a that meshes with the motor gear 55, and An intermediate gear body 57 having a two-stage third intermediate gear provided above the second intermediate gear 57a (the upper gear is referred to as "upper intermediate gear 57b" and the lower gear is referred to as "lower intermediate gear 57c"); The upper and lower gears meshed with the upper intermediate gear 57b or the lower intermediate gear 57c of the intermediate gear body 57 (the upper gear is referred to as “upper gear 58a” and the lower gear is referred to as “lower gear 58b”), A slide gear body 58 is slidable in the vertical direction.
[0035]
The slide gear body 58 has a through-hole (not shown) penetrating in the vertical direction and having a D-shaped cross section at the center thereof. The upper end portion of the drive shaft 42 is inserted into the through-hole, and the drive shaft 42 can slide up and down with respect to the slide gear body 58 and rotates as the slide gear body 58 rotates. It is like that.
[0036]
The gear ratio changing operation unit 54 is connected to the front and rear side surfaces of the gear box 53 with knobs 54a and 54a provided so as to be slidable in the vertical direction. It is comprised with the engaging part (not shown) engaged with the body 58. FIG. When the knobs 54a and 54a are slid upward, the lower intermediate gear 57c of the intermediate gear body 57 and the lower gear 58b of the slide gear body 58 engage with each other as shown in FIG. On the contrary, when the knobs 54a and 54a are slid downward, the upper intermediate gear 57b and the upper gear 58a mesh with each other as shown in FIG.
[0037]
Further, the gear ratio between the meshing gears of the intermediate gear body 57 and the slide gear body 58 is as follows. That is, the gear ratio between the lower intermediate gear 57c of the intermediate gear body 57 and the lower gear 58b of the slide gear body 58 is smaller than that of the upper intermediate gear 57b and the upper gear 58a. Therefore, when the rotational speed of the drive shaft 42 is increased, the slide gear body 58 is set at the position shown in FIG. 5A, and conversely, when the rotational speed of the drive shaft 42 is decreased, FIG. The slide gear main body 58 is set at the position shown in FIG.
[0038]
A through hole (not shown) penetrating in the vertical direction is formed at the center of the intermediate gear body 57, and the upper end of the payout shaft 43 is loosely inserted into the through hole. For this reason, even if the intermediate gear body 57 rotates, the dispensing shaft 43 does not rotate.
[0039]
The frame body 11 of the frame 4 is provided with a sold-out detection plate 61 (sold-out detection member) for detecting the sold-out of the product. The sold-out detection plate 61 has a substantially rectangular front shape, and extends from the upper end of the frame main body 11 to the vicinity of the center in the vertical direction. Further, the sold-out detection plate 61 has an upper end engaged with a plurality of horizontally elongated holes 11d at the upper end of the frame main body 11 and is inclined forward and downward with respect to the frame main body 11 around that portion. Between the sold-out position (inclined position, position shown in FIG. 3) and a non-sold-out position (pressing position, position shown in FIG. 6) parallel to the frame body 11. . Note that the position of the sold-out detection plate 61 is detected when the sold-out detection plate 61 switches a micro switch (not shown) ON / OFF.
[0040]
Next, with reference to FIG. 6 to FIG. 17, regarding the delivery of the product S by the product delivery device 1 configured as described above, specifically, the product S stored in the product passage 2 is a square pet. The case of a bottle product (FIGS. 6 to 11) and the case of a can product (FIGS. 12 to 17) will be described in order. In the following description, first, the dispensing of the product when the square PET bottle product is stored in the product passage 2 will be described. For the can product, only the difference from the dispensing of the square PET bottle product will be briefly described. explain. 6-17, only the guide groove 12a is shown about the guide part 12 of the flame | frame 4 shown in FIG.
[0041]
FIG. 6 shows the product dispensing apparatus 1 in a sales standby state when a square PET bottle product is stored in the product passage 2. In this state, the stopper main body 15 is located at the closed position, while the ejector main body 32 is located at the allowable position. Therefore, as shown in the figure, the sales product S1 is supported by the stopper body 15 from the lower side, while the next sales product S2 is supported by the sales product S1 from the lower side. In the figure, the ejector main body 32 is slightly pressed toward the abutting position by storing the next-selling product S2 close to the ejector 6 side.
[0042]
When shifting from the sales standby state as described above to the sales state, first, the motor 51 is operated so as to rotate forward, whereby the drive shaft 42 rotates in a predetermined direction. Then, the joint 36 is sent downward, and along with this, the slide member 31 moves toward the lower end of the guide groove 12a, and the ejector body 32 moves toward the sale product S1. Then, as shown in FIG. 7, when the ejector main body 32 comes into contact with the upper part of the sale product S1 and reaches the blocking position, the joint 36 that has been sent downward stops. Even after the ejector body 32 reaches the blocking position, the motor 51 continues to operate, whereby the drive shaft 42 moves up against the coil spring 24. In conjunction with this, as shown in FIG. 8, the lock member 22 is also raised, and accordingly, the lock shaft 23 at the lock position moves to the upper lock release position, and the stopper main body 15 is unlocked.
[0043]
Then, as shown in FIG. 9, the stopper main body 15 is rotated by the sales product S1 so as to be pushed open toward the open position, and the sales product S1 is discharged downward while dropping. In this case, the stopper main body 15 in the closed position is pressed from above by the weight of the sale product S1 and, in addition, the sale product S1 as the raised drive shaft 42 is lowered by the restoring force of the coil spring 24. Then, the ejector body 32 is also pressed from above.
[0044]
When the drive shaft 42 descends and returns to the original position as described above, this is detected by a detection means (not shown), and the operation of the motor 51 is stopped.
[0045]
On the other hand, the ejector main body 32 rotates to the contact position by being pressed from above by the own weight of the next sale product S2, and overlaps the slide member 31. Then, the next sale product S2 is supported by the cooperation of the ejector body 32 and the passage wall 3, and is prevented from moving downward.
[0046]
After the sale product S1 is paid out as described above, the stopper main body 15 in the open position returns to the closed position and is locked again by the lock mechanism 8 as shown in FIG. Thereafter, when the motor 51 is operated so as to rotate in the reverse direction, the drive shaft 42 rotates in the opposite direction to the above, and accordingly, the joint 36 is sent upward and the ejector body 32 moves toward the allowable position. As shown in FIG. 11, when the ejector main body 32 reaches the allowable position, the next sale product S <b> 2 moves downward and falls onto the stopper main body 15. Then, the next sale product S2 dropped on the stopper body 15 is prepared as a sale product in the next sale.
[0047]
FIGS. 12 to 17 show the operation of the product dispensing device 1 when the can product is stored in the product passage 2, and respectively correspond to FIGS. 6 to 11 showing the dispensing of the square-shaped PET bottle product described above. ing. In this case, the product dispensing device 1 is not pressed against the next sale product S2 until the ejector body 32 reaches the blocking position from the allowable position, and is maintained at the rotation position rotated by a predetermined angle with respect to the slide member 31. Otherwise, the operation is the same as in the above case.
[0048]
That is, as is clear from FIGS. 12, 13 and FIGS. 6, 7 and the like, the ejector main body 32 rotates between the contact position overlapping the slide member 31 and the rotation position rotated by a predetermined angle. Since it is free, when moving from the permissible position to the blocking position, the product S1 is sold so as to wrap around to the lower side of the next sale product S2 according to the size and shape of the product S stored in the product passage 2. Make sure it touches the top of
[0049]
As described above in detail, according to the product dispensing device 1 of the present embodiment, the blocking position at which the ejector body 32 supports the next sale product S2 is automatically and steplessly appropriate according to the size and shape of the product. In addition, the ejector main body 32 reliably comes into contact with the upper part of the sales product S1 while going around the lower side of the next sales product S2. Therefore, regardless of the size or shape of the product to be sold, only the sold product S1 can be surely paid out at the time of sale, and the new product can be sufficiently handled. The flexibility of the product dispensing apparatus 1 can be greatly improved as compared with the prior art.
[0050]
Further, since the guide groove 12a for guiding the slide member 31 of the ejector 6 is formed in an arc shape so as to extend between the back side of the sold-out detection plate 61 and the lower side thereof, the ejector main body 32 is in the rotational position. Even when the slide member 31 moves to the back side of the sold-out detection plate 61 while being positioned, the ejector body 32 can be prevented from interfering with the sold-out detection plate 61. As a result, the depth of the product dispensing apparatus 1 can be reduced, and the apparatus can be configured compactly.
[0051]
In addition, this invention can be implemented in various aspects, without being limited to the said embodiment described. In addition, the detailed configuration of the commodity dispensing apparatus shown in the embodiment is merely an example, and can be appropriately changed within the scope of the gist of the present invention.
[0052]
【The invention's effect】
As described in detail above, the product dispensing device of the vending machine of the present invention can reliably dispense only the sold product at the time of sale, regardless of the size or shape of the product to be sold, and the new product. It is possible to sufficiently cope with the above.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a product dispensing device of a vending machine according to an embodiment of the present invention.
2A and 2B are diagrams illustrating the commodity dispensing apparatus in FIG. 1, wherein FIG. 2A is a front view and FIG. 2B is a rear view.
FIG. 3 is a side sectional view showing the product dispensing device in a state cut along line AA in FIG. 2 (b).
FIGS. 4A and 4B are diagrams illustrating a drive unit of the product dispensing apparatus, in which FIG. 4A is a top view and FIG. 4B is a front view.
5 is a diagram showing a gear structure in a gear box in the drive unit of FIG. 4;
6 is a side sectional view corresponding to FIG. 3 of the product dispensing device for explaining the dispensing of the square-shaped plastic bottle product, and shows a state before the ejector starts to move.
FIG. 7 is a side sectional view of the product dispensing device continued from FIG. 6 and shows a state immediately after the ejector body comes into contact with the product for sale.
8 is a side cross-sectional view of the product dispensing device subsequent to FIG. 7, showing a state immediately after the stopper main body is unlocked. FIG.
FIG. 9 is a side sectional view of the product dispensing device following FIG. 8, showing a state in which the stopper body is opened.
FIG. 10 is a side sectional view of the product dispensing device continued from FIG. 9 and shows a state in which the stopper main body is closed.
FIG. 11 is a side sectional view of the product dispensing device continued from FIG. 10, showing a state in which the ejector body is retracted and the next sale product is dropped on the stopper body.
FIG. 12 is a side sectional view of the product dispensing device for explaining the can product dispensing, showing a state before the ejector starts to move.
13 is a side cross-sectional view of the product dispensing device subsequent to FIG. 12, showing a state immediately after the ejector main body comes into contact with the sold product.
14 is a side sectional view of the product dispensing device subsequent to FIG. 13 and shows a state immediately after the stopper main body is unlocked. FIG.
15 is a side cross-sectional view of the product dispensing device subsequent to FIG. 14, showing a state in which the stopper body is opened.
16 is a side cross-sectional view of the product dispensing device subsequent to FIG. 15, showing a state in which the stopper main body is closed.
FIG. 17 is a side sectional view of the product dispensing device continued from FIG. 16, showing a state in which the ejector body is retracted and the next sale product is dropped on the stopper body.
FIG. 18 is a side sectional view showing a conventional product dispensing device of a vending machine.
FIG. 19 shows a state where the ejector is in contact with the next sale product, not the sale product, when the product is dispensed by the merchandise delivery apparatus of FIG.
[Explanation of symbols]
1. Product delivery device
2 Product passage
3 passage walls
4 frames
5 Stopper
6 Ejector
7 Drive mechanism
8 Locking mechanism
12a Guide groove
15 Stopper body (product passage opening / closing member)
31 Slide member
32 Ejector body (supporting product for next sale products)
33a Upper shaft
33b Lower shaft
34 Connecting plate
35 Leaf spring (biasing means)
61 Sold Out Detection Plate (Sold Out Detection Member)

Claims (4)

A product dispensing device for a vending machine that dispenses the lowest sales product among a plurality of products stored in the product passage in a state of being stacked in a vertical direction on its side,
A frame extending vertically,
Provided at the bottom of the frame, between a closed position that closes the merchandise passage so as to prevent the merchandise from being dispensed, and an open position that opens the merchandise path so as to allow the merchandise to be dispensed. A movable product passage opening and closing member;
A slide member provided above the product passage opening and closing member of the frame and capable of projecting obliquely forward and downward toward the sales product in the product passage while being guided by the frame;
A drive mechanism for driving the slide member at the time of sale;
In a state of being rotatable between a contact position that contacts the slide member from above and a rotation position rotated by a predetermined angle above the contact position, the position is separated from the tip of the slide member. An allowable position that is coupled and extends inward of the product passage from the tip of the slide member, and allows the next sale product located immediately above the sale product to move downward as the slide member moves. And preventing the downward sale of the next sale product by supporting the next sale product in cooperation with the passage wall facing the frame. Next-sales product support members that are movable between positions,
Urging means for urging the next sale product support member to the rotational position;
A lock mechanism that locks the commodity passage opening / closing member in the closed position and that releases the lock of the commodity passage opening / closing member when the next sale commodity support member moves to the blocking position;
A vending machine product dispensing device characterized by comprising: The frame has a pair of left and right guide grooves for guiding the slide member, facing each other in the left-right direction with a space therebetween and formed to be forwardly lowered.
The commodity of the vending machine according to claim 1, wherein the slide member is provided with two upper and lower shafts whose both ends are slidably engaged with the pair of left and right guide grooves. Dispensing device. The vending machine product dispensing apparatus according to claim 2, wherein the next sales product support member is rotatably connected to an upper shaft of the two upper and lower shafts. Provided above the product passage opening and closing member of the frame, and inclined by tilting forward and downward toward the inside of the product passage centering on the upper end portion, and being pushed by the product in the product passage. A sold-out detection member that is rotatable between a pressed position rotated by a predetermined angle from the position, and
The pair of left and right guide grooves are each formed in an arc shape so as to extend between the back side of the sold-out detection member and the lower side of the sold-out detection member. Vending machine product delivery device.

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