1. Technical Field
The invention generally relates to an article-dispensing machine or a vending machine for dispensing articles or merchandises, such as beverage cans, bottles and candy bars, etc.
2. Background Art
Now, article-dispensing machines or vending machines have been used very widely. For example, a vending machine may be seen in streets, office buildings, campuses or hospitals, even in shopping malls or companies. There are various conventional vending machines, which are electric-power driven and/or have a complicated mechanical structure. In some company offices, the article-dispensing machines may not be equipped with money collection function so that they may not be used as the vending machine in the streets.
The use of conventional vending machines is restricted by electric power supply, because selection element and/or dispenser-controlling assembly operate only by use of electric power. For example, in transferring of a merchandise or article from a track to a retrieval area by a dispenser-controlling assembly, it is necessary to use an electromotive device and other necessary mechanism. Moreover, conventional vending machines generally have complicated mechanical structures. Such vending machines are not only expensive, but also difficult for maintenance and have high failure rate.
It is an object of the present invention to provide an article-dispensing machine or vending machine, which may operate without electric power supply.
It is a further object of the present invention to provide an article-dispensing machine or vending machine, which has a simple mechanical structure.
It is a further object of the present invention to provide an article-dispensing machine or vending machine, which has a structure easy for operation and maintenance.
It is a further object of the present invention to provide an article-dispensing machine or vending machine, which can be mechanically operated for article dispensing and electrically cooled.
The present invention provides an article-dispensing machine or a vending machine, which has a main body, one or more tracks for holding articles, one or more selection elements for selecting at least one article and one or more dispenser-controlling assemblies. According to the present invention, the tracks slope downwards along a releasing direction relative to horizontal direction, and the bevel angle of the tracks to horizontal direction is configured to ensure at least one article thereon able to move downwards by gravity. In the present invention, the dispenser system comprised of the selection element, the tracks and the dispenser-controlling assemblies can be a pure mechanical structure and is able to operate without electric power supply.
Further according to the present invention, an article-dispensing machine, comprising a main body, one or more tracks for holding articles, one or more selection elements for selecting at least one article and one or more dispenser-controlling assemblies, wherein the selection elements and the dispenser-controlling assemblies are configured to be mechanically coupled in operation for dispensing at least one article on at least one said track. Each of the dispenser-controlling assemblies is fixed on a baffle plate of the related track, wherein the related baffle plate is at a side of the track and includes at least one opening to the space on the related track. The dispenser-controlling assemblies include at least one movable arm for extending into or withdraw from the space on the track, in response to the selection element, to control movement of the article on the track. Each of the dispenser-controlling assemblies further includes a rod, and the related selection element drives the rod to drive the at least one movable arm.
The present invention further provides an article-dispensing machine, comprising a main body, one or more tracks for holding articles, one or more selection elements for selecting at least one article and one or more dispenser-controlling assemblies. The track is a plate sloping downwards along a releasing direction relative to horizontal direction, and the bevel angle of the tracks to horizontal direction is configured to ensure at least one article thereon able to move downwards by gravity; the dispenser-controlling assemblies include at least one rod and at least one movable arm, wherein the movable arm is located before the first article on the track; and the rod is configured to be able to drive the movable arm in response to the selection element, such that the movable arm extends into the space on the track when the selection element is not operated, and withdraws from the space on the track when the selection element is operated.
Other features and details of the present invention are explained in detail referring to the figures in the following “Detailed Description of the Preferred Embodiments”.
Based on stated above, it can be seen that the article-dispensing machine or vending machine provided by the present invention employs a pure mechanical dispenser system, and may achieve the function of dispensing merchandises without electric power supply, which broadens the applications and can save electric power. Moreover, as the vending machine is easily to fabricate and assemble due to simple construction, which reduces production cost and failure rate.
In
In an embodiment of the vending machine 2 according to the present invention, the track is a plate which slopes downwards to a releasing direction relative to horizontal direction, and the retrieval area 7 is under the tracks. The term “releasing direction” refers to the direction in which merchandise moves on the track by gravity to reach the retrieval area 7 when a selection element 12 is operated.
The bevel angle of the tracks to horizontal direction is designed to ensure that different merchandises or articles thereon can move downwards along the track by gravity. The movement includes rolling motion or sliding motion. Generally, the bevel angle of a track holding merchandises which can roll may be less than that of a track holding merchandises which can only slide. In addition to the possible type of motion, the value of friction coefficient is considered to determine the value of the bevel angle, that is, if the friction coefficient larger, the bevel angle generally is larger. Therefore, the supporting surface of the track contacting with merchandise is often configured to be smooth. In certain cases, the bevel angle of the track may be designed to be adjustable, such that such a track can hold merchandises of different types and ensuring these merchandises able to move downwards along the track by gravity.
In
The location of the first movable arm 40 is positioned before all merchandise on the related track. The first movable arm 40, which is substantially of L-shape and has a free end 48, is rotatablely connected to the baffle plate 20 by a first pivoted support 25. There is provided a first elastic element 49 between one end of the arm 40 and the baffle plate 20 for restoring the position of the first movable arm 40 after operation. The first movable arm 40 will contact with the rod 30 at a first contact point 41, and the free end 48 of the first movable arm 40 and the first contact point 41 are located at the same side of the first pivoted support 25, as shown in
The second movable arm 50 is located at the back of the first merchandise but in front of the second merchandise on the track. The second movable arm 50, which is substantially of L-shape and has a free end 58, is rotatablely connected to the baffle plate 20 by a second pivoted support 26. There is provided a second elastic element 59 against the baffle plate 20. The second movable arm 50 may contact with the rod 30 at a second contact point 51, and the free end 58 of the second movable arm 50 and the second contact point 51 are located respectively at different sides of the second pivoted support 26, as shown in
The rod 30 aligns with the back end of the restorable button 11 by a guiding mechanism or assembly for guiding the movement of the rod. The guiding assembly includes a guiding hole 23 and two guiding pins 24a and 24b, and generally is formed on the baffle plate 20. The head portion of the rod 30 is inserted in the guiding hole 23, and two corresponding guiding slots 34a and 34b are formed in the rod 30 to receive the guiding pins 24a and 24b, respectively. A rod elastic element 39 is provided between the back end of the rod 30 and a bulge of the baffle plate along the moving direction of the rod 30, i.e. the longitudinal direction of the rod 30, to restore the position of the rod after its operation, as shown in
The rod 30 has a first protuberance 31 having a slope and a second protuberance 32 having a slope, wherein an exemplary shape of these slopes is as shown in
When the restorable button 11 is in an unpressed or non-operated position, the free end 48 of the first movable arm 40 extends sufficiently into the related track to prevent the article or merchandise on the track from moving downwards by gravity; and the free end of the second movable arm 50 is at a withdrawal position from the track, not affecting the movement of merchandise on the track downwards by gravity.
When the restorable button 11 is pressed or operated, its back end pushes the rod 30 forwards. As the rod 30 moves forwards, the first protuberance 31 of the rod 30 pushes the first movable arm 40 to rotate at the first contact point to make the free end 48 of the first movable arm 40 withdraw from the track space; the second protuberance 32 of the rod 30 pushes the second movable arm 50 to rotate at the second contact point to make the free end 58 of the second movable arm 50 extends into the track space. Therefore, when the restorable button 11 is in the operation or working position, the free end of the first movable arm 40 does not prevent merchandise on the track from moving downwards by gravity, and allow the first merchandise move along the released direction to leave the track and fall into the retrieval area 7 through a channel; the free end 58 of the second movable arm 50 extends into the related track to prevent other merchandise on the same track except for the first merchandise from moving downwards by gravity.
When the restorable button 11 is released, the rod 30 returns to its original position by the restitution force of the rod elastic element 39. During this process, the free end 48 of the first movable arm 40 extends into the track space by the restitution force of the first elastic element 49; the free end 58 of the second movable arm 50 withdraws from the track space by the restitution force of the second restore elastic element 59. As the first merchandise on the related track has left the track and fallen to the retrieval area 7 at this time, the next merchandise closely following the first merchandise moves to the position of the first merchandise by gravity, and is held up by the first movable arm 40 to become the next merchandise to be released.
In the above-mentioned embodiment of the vending machine 2, the dispenser system are achieved by use of the dispenser-controlling assembly 15 comprised of the rod 30, the first movable arm 40 and the second movable arm 50. The longitudinal movement of the selection element 12 is transferred into the related transverse movements of the first and second movable arms 40, 50 to control the movement of the merchandises or articles on the related track 9. The article-dispensing machine or vending machine having such a dispenser system can be mechanically operated without electric power supply, and has a simple mechanical structure easy for operation and maintenance. Although the particular structure has been disclosed, it is apparent to those skilled in the art that various changes or modifications can be made. As examples, a few alternative embodiments are given as follows.
In an alternative embodiment of the vending machine 2, it is not necessary to only release a single merchandise or article per operation of a selection element 12. For example, in the above embodiment, the amount of released article(s) per operation is equal to the amount of the article(s) between the first movable arm 40 and the second movable arm 50. Therefore, if the second movable arm 50 is arranged after the second article and before the third article, the amount of released articles per operation is two. Further, it should be appreciated that the second movable arm may be unnecessary, but then if no the second movable arm 50, all article(s) on the related track will be released, which may be advantageous to those mini vending machines wherein a track only holds an article or to those vending machines used in some special application.
In an alternative embodiment of the vending machine 2, the selection element 12 may be a rotary knob, and the dispenser-controlling assembly 15 may include a camshaft having two different curve shape cams and two moveable arms. The rotation of the rotary knob are transferred into the related extending or withdrawing transverse movements of the movable arms by the camshaft, and is not described in detail herein.
In another embodiment of the vending machine 2, a selection element 12 may be designed to drive two or more dispenser-controlling assemblies, simultaneously or respectively. For example, the structure for simultaneously controlling two dispenser-controlling assemblies can be achieved by adding two protuberances on the rod 30 and two corresponding movable arms similar to the first and second movable arms 40, 50 at appropriate positions. For example, the structure for controlling two dispenser-controlling assemblies and tracks can be achieved by a bidirectional rotary knob and a camshaft having four different curve shape cams and four moveable arms, that is, for example, when the bidirectional rotary knob is turned clockwise, the movement of the merchandises or articles on the related track on the left side of the camshaft is controlled, and vice versa.
In addition, in an embodiment of the vending machine 2, the loading door may include a see-through window made of glass or plastic so that the beverage cans may be viewed. Further, an opening to access the retrieval area 7 may be formed at the lower portion of the loading door.
In another embodiment of the vending machine 2, the vending machine 2 may further comprise a cooling system so that merchandises therein can be cooled if electric power supply is available. In addition, the vending machine 2 may be equipped with a known money collection device. Specially, the money collection device can be a known mechanism.
It can be seen from the above various embodiments that, a number of changes and modifies may be made without departing from the spirit and range of the present invention, of which the protection scopes should be broad and not limited any embodiment, and only defined by the attached claims.
This is a regular patent application based on U.S. Provisional Patent Application No. 60/569,179 filed on May 7, 2004.
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