A coin dispensing mechanism for a high-speed coin sorting machine
By using a turntable guide rail, height limit plate, and coin guide plate assembly in the coin sorting machine, the problem of unstable coin dispensing mechanism is solved, ensuring smooth coin delivery and improving the operating efficiency and reliability of the sorting machine.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU RIBAO TECH
- Filing Date
- 2025-09-15
- Publication Date
- 2026-06-30
AI Technical Summary
The guide structure of the coin dispensing mechanism in existing coin sorting machines is unstable, causing coins to stack and jam, which affects sorting efficiency and operational reliability.
The turntable uses a circular guide rail for circumferential guidance, which, combined with the height limit plate and coin guide plate assembly, forms a continuous and stable coin dispensing channel. Through the cooperation of the coin guide plate assembly and the conveying mechanism, the vertical height and path control of the coins during the conveying process are ensured. The curved surface design reduces the collision resistance of the coins, and the conveying stability is improved through the ball bearing assembly and the adjusting pressure plate.
It achieves smooth coin introduction and stable delivery, prevents stacking and jamming, and improves sorting efficiency and equipment reliability.
Smart Images

Figure CN224436964U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of coin sorting machine technology, and in particular to a coin dispensing mechanism for a high-speed coin sorting machine. Background Technology
[0002] A coin sorting machine is an automated financial device with multiple functions, including counterfeit detection, sorting, counting, classification, and even packaging. This equipment is mainly used in bank cash centers, large commercial retail outlets, public transportation systems (such as subways and bus companies), and self-service outlets to handle large quantities of mixed coins, thereby improving the efficiency of coin processing in circulation.
[0003] Many coin sorting machines currently on the market suffer from unstable coin feeding guidance in practical applications. During coin transport, the high-speed coins need to be accurately guided into the conveyor channel. However, the guide structure in existing technologies lacks stability, easily leading to coin stacking and jamming, which seriously affects sorting efficiency and operational reliability, making it difficult to meet the needs of banks, public transportation, retail, and other industries for efficient sorting of large quantities of coins.
[0004] Therefore, the aforementioned technical issues need to be resolved. Utility Model Content
[0005] In view of the shortcomings of the prior art described above, the purpose of this utility model is to provide a coin dispensing mechanism for a high-speed coin sorting machine, which solves the problem of coin stacking and jamming caused by the unstable guiding structure of the dispensing mechanism in the prior art.
[0006] To achieve the above and other related objectives, this utility model provides the following technical solution: a coin dispensing mechanism for a high-speed coin sorting machine, comprising a turntable disposed on a main panel, wherein a guide rail is provided on the turntable to guide the movement trajectory of the coins; a height limiting plate suspended on the turntable and located at the intersection of the dispensing mechanism and the conveying mechanism; a coin dispensing plate disposed on the main panel and flush with the turntable; and a coin guide plate assembly disposed at the bottom end of the height limiting plate, comprising a first coin guide plate and a second coin guide plate, wherein the first coin guide plate is disposed on the coin dispensing plate and the second coin guide plate is disposed at the conveying guide rail of the conveying mechanism, and the first coin guide plate and the second coin guide plate are disposed opposite each other on the turntable and the coin dispensing plate to form a coin dispensing channel.
[0007] To achieve the above technical solution, the circumferential guide rail on the turntable guides the coins circumferentially, ensuring that the coins can run stably along a predetermined trajectory. A height limiting plate is suspended above the turntable to precisely control the vertical height of the coins during transport, preventing coin stacking. A coin guide plate assembly is located at the bottom of the height limiting plate, including a first coin guide plate and a second coin guide plate respectively installed at the coin dispensing plate and the transport guide rail. These two plates are positioned opposite each other, forming a continuous and stable coin dispensing channel together with the turntable and the coin dispensing plate, guiding the high-speed moving coins smoothly from the turntable into the transport mechanism.
[0008] In one embodiment of this utility model, the height limiting plate is L-shaped, and the bottom surface of the plate forms a limiting gap with the turntable to accommodate the thickness of the coin.
[0009] To achieve the above technical solution, this structural design not only prevents coins from tilting or stacking during high-speed movement, ensuring that only one coin can pass at a time, thus eliminating the phenomenon of multiple coins getting stuck or blocking, but also provides good lateral and vertical constraints through the "L"-shaped structure, enhancing the control of coin movement.
[0010] In one embodiment of the present invention, the coin-guiding end of the first coin guide plate is arc-shaped and its shape is set to fit the curvature of the turntable.
[0011] To achieve the above technical solution, the coin-guiding end of the first coin guide plate is arc-shaped, and its shape is designed to fit the curvature of the turntable, forming a smooth and continuous transition guide surface with the outer edge of the turntable. This arc-shaped design reduces the abrupt changes in the path and collision resistance when coins enter the coin dispensing channel from the turntable, allowing high-speed moving coins to be smoothly guided along the tangential direction into the first coin guide plate and thus into the coin dispensing channel. This enhances the continuity and accuracy of guidance, improves the neatness of coin arrangement and the stability of conveying, further ensuring the smoothness and reliability of the coin dispensing process during high-speed sorting, and improving the overall working efficiency and operational safety of the machine.
[0012] In one embodiment of the present invention, a central rotating wheel is provided on the conveying mechanism, and a coin guide belt is provided on the side of the central rotating wheel near the turntable. The coin guide belt is parallel to the conveying guide rail in a vertical plane; a coin conveying belt is provided on the other side, which is parallel to the conveying guide rail in a horizontal plane.
[0013] To achieve the above technical solution, the coin guide belt and the conveyor rail are parallel to each other in the vertical plane, and can cooperate with the conveyor rail to form a vertical channel to clamp and guide the coins output from the coin outlet channel, so as to achieve smooth relay conveying and prevent the coins from tipping over or misaligning during the handover process; the other side of the transfer wheel is provided with a coin conveying belt, which is parallel to the conveyor rail in the horizontal plane to form a horizontal conveying section, which facilitates the stable transmission of coins.
[0014] In one embodiment of the present invention, a limiting ring is provided on the coin dispensing plate. The limiting ring is located between the coin guide belt and the coin conveying belt. A coin conveying limiting plate is movably connected to the limiting ring. A set of limiting members is provided at each end of the coin conveying limiting plate.
[0015] To achieve the above technical solution, the limiting ring is used to constrain the direction of the coin's movement path, preventing it from shifting or flipping during transfer. A coin feeding limiting plate is movably connected to the limiting ring. This plate can be adjusted in angle or position according to different coin types or flow requirements, achieving dynamic control of the coin flow. Each end of the coin feeding limiting plate has a set of limiting components to limit its range of motion and maintain structural stability, while also precisely limiting the lateral position of the coins during transport, preventing lateral slippage or accumulation.
[0016] In one embodiment of the present invention, the conveying mechanism is provided with an adjusting coin-pressing component, which is disposed between the coin guide belt and the coin conveying belt, and includes an adjusting coin-pressing plate, which is suspended on the coin dispensing channel.
[0017] To achieve the above technical solution, the adjusting coin pressure plate is suspended above the coin dispensing channel, forming a limiting gap with the lower conveying surface that adapts to the thickness of the coins. Through this structure, the adjusting coin pressure plate can apply appropriate pressure to the passing coins under the action of gravity or elastic adjustment, preventing coins from derailing, stacking, or jamming during high-speed conveying due to bouncing, tilting, or airflow interference. Simultaneously, the position or pressure of the adjusting coin pressure plate is adjustable, facilitating the sorting needs of coins of different sizes and improving the versatility and operational stability of the equipment.
[0018] In one embodiment of this utility model, a ball bearing assembly is movably embedded in the coin dispensing channel and is located at the lower end of the adjusting coin pressing plate.
[0019] To achieve the above technical solution, the ball bearing assembly, together with the adjusting coin pressure plate and the bottom surface of the coin dispensing channel, forms a rolling contact conveying interface. When the coin passes through under the pressure of the adjusting coin pressure plate, the ball bearing assembly can convert the sliding friction between the coin and the bottom surface of the channel into rolling friction, reducing conveying resistance, preventing scratches on the coin surface, and improving conveying smoothness.
[0020] In one embodiment of the present invention, a braking mechanism is provided at the bottom of the main panel, and the brake lever of the braking mechanism passes through the main panel and the coin dispensing plate in sequence, and the brake lever is located at the bottom end of the coin feeding belt.
[0021] To achieve the above technical solution, a braking mechanism is provided at the bottom of the main panel. The brake lever of this braking mechanism passes through the main panel and the coin dispensing plate in sequence and extends to the bottom of the coin conveyor belt. By controlling the extension and retraction of the brake lever, controllable damping or braking can be applied to the coins below the coin conveyor belt, adjusting the output speed and spacing of the coins and preventing accumulation or misalignment at subsequent workstations due to excessively fast coin delivery.
[0022] In one embodiment of this utility model, the head of the brake lever is flush with the coin dispensing channel in the non-braking state; and presses against the coin conveyor belt in the braking state.
[0023] To achieve the above technical solution, the head of the brake lever ensures that the coin can pass smoothly during normal transport in the non-braking state, avoiding coin jamming or running resistance; when entering the braking state, the brake lever is driven upward by the braking mechanism, and its head presses against the bottom of the coin conveyor belt. By applying controllable pressure, the coin conveyor belt is locally deformed or frictional resistance is increased, thereby decelerating or positioning the passing coins.
[0024] As described above, the coin dispensing mechanism for a high-speed coin sorting machine of this utility model has the following beneficial effects:
[0025] This invention uses a ring-shaped guide rail on a turntable to guide coins circumferentially, ensuring that the coins can run stably along a predetermined trajectory. A height limiting plate is suspended above the turntable to precisely control the vertical height of the coins during transport, preventing coin stacking. A coin guide plate assembly is located at the bottom of the height limiting plate, including a first coin guide plate and a second coin guide plate respectively installed at the coin dispensing plate and the transport guide rail. The two are arranged opposite each other, forming a continuous and stable coin dispensing channel together with the turntable and the coin dispensing plate, guiding the high-speed moving coins smoothly from the turntable into the transport mechanism. Attached Figure Description
[0026] Figure 1 The diagram shown is a schematic representation of the coin sorting machine structure of a coin dispensing mechanism for a high-speed coin sorting machine disclosed in an embodiment of this utility model.
[0027] Figure 2 The diagram shown is a schematic diagram of the coin dispensing mechanism of a high-speed coin sorting machine disclosed in an embodiment of this utility model.
[0028] Figure 3 The diagram shown is a schematic diagram of the coin dispensing channel structure of a coin dispensing mechanism for a high-speed coin sorting machine disclosed in an embodiment of this utility model.
[0029] Figure 4 The diagram shown is a top view of the coin dispensing channel of a coin dispensing mechanism for a high-speed coin sorting machine disclosed in an embodiment of this utility model.
[0030] Figure 5 The diagram shown is a schematic diagram of the braking mechanism of a coin dispensing mechanism for a high-speed coin sorting machine disclosed in an embodiment of this utility model.
[0031] Component labeling: 1. Main panel; 2. Coin dispensing mechanism; 201. Turntable; 202. Ring guide rail; 203. Height limit plate; 204. Coin dispensing plate; 205. First coin guide plate; 206. Second coin guide plate; 207. Limiting ring; 208. Coin feeding limit plate; 209. Braking mechanism; 2091. Drive assembly; 2092. Main frame plate; 2093. Swing arm; 2094. Positioning shaft; 2095. Connecting shaft; 2096. Limiting sleeve; 2097. Brake lever; 210. Ball bearing assembly; 211. Limiting component; 3. Conveying mechanism; 301. Central rotating wheel; 302. Coin feeding belt; 303. Coin guiding belt; 304. Conveying guide rail; 4. Counterfeit coin transmission mechanism. Detailed Implementation
[0032] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. It should be noted that, unless otherwise specified, the following embodiments and features can be combined with each other.
[0033] Please see Figure 1 This utility model provides a coin conveying mechanism for a high-speed coin sorting machine. The coin sorting machine includes a main panel 1, a coin dispensing mechanism 2, a conveying mechanism 3, and a counterfeit coin conveying mechanism 4. The coin dispensing mechanism 2, the conveying mechanism 3, and the counterfeit coin conveying mechanism 4 are all disposed on the main panel 1. The coin dispensing mechanism 2 and the conveying mechanism 3 are connected. The counterfeit coin conveying mechanism 4 is disposed on the side of the conveying mechanism 3.
[0034] For further details, please refer to Figure 2-4 The coin dispensing mechanism 2 includes a turntable 201, which is mounted on the main panel 1. A guide rail 202 is mounted on the turntable 201 to guide the movement of the coin. A height limiting plate 203 is suspended on the turntable 201 and is located at the intersection of the coin dispensing mechanism 2 and the conveying mechanism 3. A coin dispensing plate 204 is mounted on the main panel 1 and is flush with and attached to the turntable 201. A coin guide plate assembly is mounted at the bottom of the height limiting plate 203 and includes a first coin guide plate 205 and a second coin guide plate 206. The first coin guide plate 205 is mounted on the coin dispensing plate 204, and the second coin guide plate 206 is mounted on the conveying guide rail 304 of the conveying mechanism 3. The first coin guide plate 205 and the second coin guide plate 206 are arranged opposite each other on the turntable 201 and the coin dispensing plate 204 to form a coin dispensing channel.
[0035] The circumferential guide rail 202 on the turntable 201 guides the coins circumferentially, ensuring that the coins can run stably along the predetermined trajectory. The height limiting plate 203 is suspended above the turntable 201 to precisely control the vertical height of the coins during the conveying process and prevent the coins from piling up. The coin guide plate assembly is set at the bottom of the height limiting plate 203, including a first coin guide plate 205 and a second coin guide plate 206 respectively installed at the coin dispensing plate 204 and the conveying guide rail 304. The two are set opposite to each other and together with the turntable 201 and the coin dispensing plate 204, they form a continuous and stable coin dispensing channel, guiding the high-speed moving coins smoothly from the turntable 201 into the conveying mechanism 3.
[0036] Furthermore, the height limiting plate 203 is L-shaped, and the bottom surface of the plate and the turntable 201 form a limiting gap that is adapted to the thickness of the coin.
[0037] This structural design not only prevents coins from tilting or stacking during high-speed movement, ensuring that only one coin passes through at a time and eliminating jamming or blockage caused by multiple coins, but also provides excellent lateral and vertical constraints through the "L"-shaped structure, enhancing control over coin movement. This gap, combined with the flush connection between the turntable 201 and the coin dispensing plate 204, allows coins to smoothly and orderly enter the coin dispensing channel formed by the first guide plate 205 and the second guide plate 206 when guided to the dispensing area by the retaining guide rail 202. This further improves the stability and guiding accuracy of coin transport, increasing sorting efficiency and equipment reliability.
[0038] Furthermore, the coin-guiding end of the first coin guide plate 205 is curved, and its shape is set to fit the curvature of the turntable 201.
[0039] The coin guide plate 205 has an arc-shaped guide end that conforms to the curvature of the turntable 201, forming a smooth and continuous transition guide surface with the outer edge of the turntable 201. This arc-shaped design reduces abrupt changes in the path and collision resistance when coins enter the coin dispensing channel from the turntable 201, allowing high-speed coins to be smoothly guided along the tangential direction into the first coin guide plate 205 and thus into the coin dispensing channel. This enhances the continuity and accuracy of guidance, improves the neatness of coin arrangement and the stability of transport, further ensuring the smoothness and reliability of the coin dispensing process during high-speed sorting, and improving the overall working efficiency and operational safety of the machine.
[0040] Furthermore, a central rotating wheel 301 is provided on the conveying mechanism 3. A coin guide belt 303 is provided on one side of the central rotating wheel 301 near the turntable 201. The coin guide belt 303 is parallel to the conveying guide rail 304 in the vertical plane. A coin conveying belt 302 is provided on the other side, which is parallel to the conveying guide rail 304 in the horizontal plane.
[0041] The coin guide belt 303 and the conveyor rail 304 are parallel to each other in the vertical plane. They can cooperate with the conveyor rail 304 to form a vertical channel, clamping and guiding the coins output from the coin outlet channel to achieve smooth relay transportation and prevent the coins from tipping over or shifting during the handover process. On the other side of the central rotating wheel 301, there is a coin conveyor belt 302. The coin conveyor belt 302 and the conveyor rail 304 are parallel to each other in the horizontal plane to form a horizontal conveying section, which facilitates the stable transmission of coins.
[0042] Furthermore, a limiting ring 207 is provided on the coin dispensing plate 204. The limiting ring 207 is located between the coin guide belt 303 and the coin conveying belt 302. The coin conveying limiting plate 208 is movably connected to the limiting ring 207. A set of limiting components 211 are provided at both ends of the coin conveying limiting plate 208.
[0043] The limiting ring 207 is used to constrain the direction of the coin's movement path, preventing it from shifting or flipping during transfer. A coin feeding limiting plate 208 is movably connected to the limiting ring 207. This coin feeding limiting plate 208 can be adjusted in angle or position according to different coin types or flow requirements, achieving dynamic control of the coin flow. Each end of the coin feeding limiting plate 208 has a set of limiting elements 211, used to limit its range of motion and maintain structural stability, while precisely limiting the lateral position of the coins during transport, preventing lateral slippage or accumulation of coins.
[0044] Furthermore, the conveying mechanism 3 is equipped with an adjusting coin pressing component, which is located between the coin guide belt 303 and the coin conveying belt 302, and includes an adjusting coin pressing plate, which is suspended on the coin dispensing channel.
[0045] The adjustable coin pressure plate is suspended above the coin dispensing channel, forming a limiting gap with the conveyor surface below to accommodate the thickness of the coins. This structure allows the adjustable coin pressure plate to apply moderate pressure to the passing coins under the influence of gravity or elasticity, preventing derailment, stacking, or jamming of coins during high-speed conveying due to bouncing, tilting, or airflow interference. Furthermore, the position or pressure of the adjustable coin pressure plate is adjustable to accommodate the sorting needs of different coin sizes, improving the equipment's versatility and operational stability.
[0046] Furthermore, a ball bearing assembly 210 is embedded in the coin dispensing channel and is located at the lower end of the adjusting coin pressure plate.
[0047] The ball bearing assembly 210, together with the adjusting coin pressure plate and the bottom surface of the coin dispensing channel, forms a rolling contact conveying interface. When the coin passes through under the pressure of the adjusting coin pressure plate, the ball bearing assembly 210 can convert the sliding friction between the coin and the bottom surface of the channel into rolling friction, reducing conveying resistance, preventing scratches on the coin surface, and improving conveying smoothness.
[0048] For further details, please refer to Figure 5 A braking mechanism 209 is provided at the bottom of the main panel 1. The braking mechanism 209 includes a drive assembly 2091, a main frame plate 2092, a rocker arm 2093, a positioning shaft 2094, a connecting shaft 2095, a limiting sleeve 2096, and a brake rod 2097. The drive assembly 2091 is connected to the main frame plate 2092. The output end of the drive assembly 2091 is movably connected to the rocker arm 2093. The positioning shaft 2094 and the connecting shaft 2095 pass through the rocker arm 2093. The positioning shaft 2094 and the connecting shaft 2095 are arranged parallel to each other. At least one pair of brake rods 2097 are sleeved on the connecting shaft 2095. The limiting sleeve 2096 is also sleeved on the connecting shaft 2095. The limiting sleeve 2096 is located on the side of the brake rod 2097.
[0049] Furthermore, the brake lever 2097 of the braking mechanism 209 is sequentially inserted through the main panel 1 and the coin dispensing plate 204, and the brake lever 2097 is located at the bottom end of the coin conveying belt 302.
[0050] A braking mechanism 209 is provided at the bottom of the main panel 1. The brake lever 2097 of the braking mechanism 209 passes through the main panel 1 and the coin dispensing plate 204 in sequence and extends to the bottom end of the coin conveyor belt 302. By controlling the extension and retraction of the brake lever 2097, controllable damping or braking can be applied to the coins below the coin conveyor belt 302, adjusting the output speed and spacing of the coins, and preventing accumulation or misalignment of subsequent workstations due to excessive coin conveying speed.
[0051] Furthermore, the head of the brake lever 2097 is flush with the coin dispensing channel when not braking; and presses against the coin conveyor belt 302 when braking.
[0052] When the brake lever 2097 is not in braking state, it ensures that the coin can pass smoothly during normal transport, avoiding coin jamming or running resistance. When it enters braking state, the brake lever 2097 is driven upward by the braking mechanism 209, and its head presses against the bottom of the coin conveyor belt 302. By applying controllable pressure, the coin conveyor belt 302 is locally deformed or frictional resistance is increased, thereby decelerating or positioning the passing coins.
[0053] Furthermore, the workflow of a coin dispensing mechanism 2 for a high-speed coin sorting machine includes:
[0054] First, the coin moves outward along the surface of the turntable 201 under the action of high-speed rotation. Its circumferential trajectory is guided by the ring guide rail 202 on the turntable 201, ensuring that the coin moves in an orderly and stable manner in the coin dispensing direction.
[0055] Furthermore, when the coin reaches the coin dispensing area, it is constrained by the height limiting plate 203, which maintains a gap between its bottom surface and the turntable 201 that is adapted to the thickness of the coin, preventing the coins from stacking, tilting, or leaning. In this embodiment, it ensures that only a single coin passes through.
[0056] Furthermore, the coin enters the coin dispensing channel formed by the first coin guide plate 205 and the second coin guide plate 206 from the edge of the turntable 201.
[0057] Furthermore, the coin enters the conveying mechanism 3 from the coin dispensing channel, and is clamped and conveyed in the vertical plane by the coin guide belt 303 on one side of the central rotating wheel 301 and the conveying guide rail 304, achieving a smooth relay; then, it contacts the bottom of the movable embedded ball bearing assembly 210 and turns into the coin conveying belt 302 on the other side, continuing to be conveyed in the horizontal plane, completing the direction change and continuous conveying.
[0058] Furthermore, in the transition area of the coin dispensing channel, the adjusting pressure plate is suspended above to apply appropriate pressure to the coin, preventing it from jumping or derailing due to high speed or airflow, and ensuring that the coin transitions stably between the coin guide belt 303 and the coin conveying belt 302.
[0059] Furthermore, when it is necessary to adjust the output speed or pause coin dispensing, the braking mechanism 209 at the bottom of the main panel 1 is activated, driving the brake lever 2097 to move upward, so that its head presses against the bottom of the coin conveyor belt 302, applying braking resistance to achieve coin deceleration or precise positioning; in the non-braking state, the head of the brake lever 2097 is flush with the coin dispensing channel, without interfering with normal conveying.
[0060] Furthermore, through the coordinated efforts of the aforementioned steps, the coin is guided and transported.
[0061] This invention achieves a smooth transition from high-speed coin rotation to stable output throughout the entire workflow. The coordinated operation of each component solves problems such as coin jamming and stacking caused by unstable guidance, thereby improving sorting efficiency and equipment reliability.
[0062] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. All equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.
Claims
1. A coin discharging mechanism for a high speed coin counter, characterized by comprising: The device includes a turntable mounted on the main panel, with a guide rail on the turntable to guide the movement of the coin; a height limiting plate suspended on the turntable and located at the intersection of the coin dispensing mechanism and the conveying mechanism; a coin dispensing plate mounted on the main panel and flush with the turntable; and a coin guide plate assembly located at the bottom of the height limiting plate, including a first coin guide plate and a second coin guide plate. The first coin guide plate is mounted on the coin dispensing plate, and the second coin guide plate is mounted on the conveying guide rail of the conveying mechanism. The first and second coin guide plates are arranged opposite each other on the turntable and the coin dispensing plate to form a coin dispensing channel.
2. The coin outlet mechanism for a high speed coin counter as claimed in claim 1, wherein The height limiting plate is L-shaped, and the bottom surface of the plate forms a limiting gap with the turntable to accommodate the thickness of the coin.
3. The coin outlet mechanism of a high speed coin counter according to claim 1, wherein The coin-guiding end of the first coin guide plate is curved and its shape is set to fit the curvature of the turntable.
4. The coin outlet mechanism of a high speed coin counter according to claim 1, wherein The conveying mechanism is equipped with a central rotating wheel, and a coin guide belt is provided on one side of the central rotating wheel near the turntable. The coin guide belt is parallel to the conveying guide rail in a vertical plane; a coin conveying belt is provided on the other side, which is parallel to the conveying guide rail in a horizontal plane.
5. The coin outlet mechanism of a high speed coin counter as claimed in claim 4, wherein A limiting ring is provided on the coin dispensing plate. The limiting ring is located between the coin guide belt and the coin conveying belt. A coin conveying limiting plate is movably connected to the limiting ring. A set of limiting components is provided at each end of the coin conveying limiting plate.
6. The coin outlet mechanism of a high speed coin counter as claimed in claim 1, wherein The conveying mechanism is equipped with an adjusting coin-pressing component, which is located between the coin guide belt and the coin conveying belt, and includes an adjusting coin-pressing plate, which is suspended on the coin outlet channel.
7. The coin outlet mechanism of a high speed coin counter as claimed in claim 6, wherein A ball bearing assembly is movably embedded in the coin dispensing channel and is located at the lower end of the adjusting coin pressure plate.
8. The coin outlet mechanism of a high speed coin counter as claimed in claim 1, wherein A braking mechanism is provided at the bottom of the main panel. The brake lever of the braking mechanism passes through the main panel and the coin dispensing plate in sequence, and the brake lever is located at the bottom end of the coin feeding belt.
9. A coin dispensing mechanism for a high-speed coin sorting machine according to claim 8, characterized in that, The head of the brake lever is flush with the coin dispensing channel when not braking; and presses against the coin conveyor belt when braking.