Energy-saving tipping mechanism with improved safety

By using a combination of photosensitive sensors and baffles, the problem of motors not being able to stop instantly in traditional tipping mechanisms is solved, achieving precise control and energy-saving effects on the tipping structure, and improving safety performance and equipment durability.

CN224472059UActive Publication Date: 2026-07-07GUANGZHOU XINGLI WOOD PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU XINGLI WOOD PROD CO LTD
Filing Date
2025-06-27
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In traditional tipping mechanisms, the motor cannot stop in time during rotation due to the delay of the control switch, resulting in wear on the motor output shaft and additional power consumption.

Method used

By using a combination of photosensitive sensors and baffles, precise control of the telescopic motor is achieved, ensuring that the tipping bucket structure rotates and stops within a preset range.

Benefits of technology

It achieves precise control of the tipping structure, avoids ineffective work and energy waste, improves safety performance, and reduces power consumption and equipment wear.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224472059U_ABST
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Abstract

The utility model discloses an energy -conserving type tipping bucket mechanism of promotion safety performance, including base, drive mechanism and tipping bucket structure, the base top is provided with tipping bucket structure, and tipping bucket structure is equipped with the drive mechanism for realizing the oblique rotation, and the drive mechanism includes roof, telescopic motor and fixed part, and the telescopic motor of vertical setting is equipped with under the roof, and the telescopic motor is installed on the rear end face of fixed part, and the U -shaped board is fixedly connected to the roof bottom, and the telescopic motor output passes through first pin shaft and is rotatably connected with the U -shaped board, and the inductive light eye is installed to the roof bottom, and the fixed part top is installed with the shielding board matched with inductive light eye, and through the cooperation of inductive light eye and shielding board, can realize the accurate control to telescopic motor, avoids invalid work and energy waste, reaches the energy -conserving effect, can ensure that tipping bucket structure will not exceed the preset range in the rotation process, avoids the collision and the damage, promotes the safety performance of whole.
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Description

Technical Field

[0001] This utility model relates to the technical field of automatic coin-pouring devices for games, specifically an energy-saving tipping mechanism that improves safety performance. Background Technology

[0002] Automatic game coin exchange machines typically refer to devices used in arcades or game halls to automatically exchange game coins. These devices generally support QR code payments and can automatically convert paper money or electronic payment amounts into game coins.

[0003] In coin-pouring devices, the tipping mechanism is crucial. However, during the rotation of a traditional tipping mechanism, the motor cannot stop instantly due to the delay in the control switch. This not only causes wear on the motor output shaft but also results in additional energy consumption. Utility Model Content

[0004] The purpose of this invention is to provide an energy-saving tipping mechanism that improves safety by using a photosensitive eye and a baffle to achieve precise control of the telescopic motor, thereby solving the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an energy-saving tipping mechanism with improved safety performance, comprising a base, a drive mechanism, and a tipping structure. The tipping structure is provided on the top of the base, and the tipping structure is equipped with a drive mechanism for achieving tilting rotation. The drive mechanism includes a top plate, a telescopic motor, and a fixing component. A vertically arranged telescopic motor is provided below the top plate, and the telescopic motor is installed on the rear end face of the fixing component. A U-shaped plate is fixedly connected to the bottom of the top plate. The output end of the telescopic motor is rotatably connected to the U-shaped plate through a first pin. A photosensitive eye is installed at the bottom of the top plate, and a shielding plate matching the photosensitive eye is installed on the top of the fixing component.

[0006] Preferably, a sliding component is also installed on the rear end face of the fixing member, and the sliding strip at the output end of the telescopic motor passes through the sliding component.

[0007] Preferably, the tipping bucket structure includes an L-shaped side plate and a bucket compartment. The bucket compartment is rectangular and is located on the upper surface of the base. The top and front face of the bucket compartment are open. The two side walls at the bottom of the base are fixedly connected to the L-shaped side plates. The front side wall of the L-shaped side plate is fixedly connected to the protruding plate. The two protruding plates are rotatably connected to the bottom of the side wall of the bucket compartment via a pivot. The top plate is fixedly connected to the rear face at the bottom of the bucket compartment.

[0008] Preferably, the bucket is provided with inclined side plates on both sides and a front cover plate on the front end. The two side walls of the front cover plate are fixedly connected to the inclined side plates. The inclined side plates are rotatably connected to the outer side of the bucket through a second pin. The two sides of the bucket are also provided with inclined support rods. The bottom end of the support rod is rotatably connected to the side wall of the base through a third pin, and the top end is rotatably connected to the top corner of the inclined side plate through another third pin.

[0009] Preferably, the L-shaped side plate has a V-shaped notch at the third pin position, and the horizontal surface of the L-shaped side plate has several mounting holes.

[0010] Preferably, the L-shaped side plate and the convex plate are integrally formed.

[0011] Compared with the prior art, the beneficial effects of this utility model are as follows: by using the photosensitive eye and the baffle in combination, precise control of the telescopic motor can be achieved, avoiding ineffective work and energy waste, thus achieving energy saving. The precise control of the photosensitive eye and the baffle can ensure that the tipping structure does not exceed the preset range during rotation, avoiding collisions and damage, and improving the overall safety performance. The tipping process of the bucket can simultaneously drive the front cover to lift, thereby realizing the opening function of the front end of the bucket, allowing game coins to fall normally. The front cover can be put into use and opened without the need for a new drive source device, reducing power consumption and lowering cost output. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0013] Figure 2 This is a three-dimensional structural diagram of the tipping bucket structure in this utility model;

[0014] Figure 3 This is a side view of the overall structure of this utility model;

[0015] Figure 4 This is a three-dimensional structural diagram of the driving structure in this utility model;

[0016] Figure 5 for Figure 4 A schematic diagram of the three-dimensional structure from another angle.

[0017] In the diagram: 1. Base; 2. Drive mechanism; 201. Top plate; 202. Telescopic motor; 203. Fixing component; 204. First pin; 205. U-shaped plate; 206. Sensor; 207. Baffle plate; 208. Sliding assembly; 3. Tipping bucket structure; 301. L-shaped side plate; 302. Mounting hole; 303. Bucket; 304. Front cover plate; 305. Second pin; 306. Third pin; 307. Support rod; 308. Sloping side plate; 309. V-shaped notch; 3010. Protruding plate; 3011. Rotating shaft. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0019] Please see Figure 1-5 The figure shows an energy-saving tipping mechanism that improves safety performance, including a base 1, a drive mechanism 2, and a tipping structure 3. The tipping structure 3 is provided on the top of the base 1. The tipping structure 3 is equipped with a drive mechanism 2 for tilting and rotating. The drive mechanism 2 includes a top plate 201, a telescopic motor 202, and a fixing member 203. The telescopic motor 202 is vertically arranged below the top plate 201 and is installed on the rear end face of the fixing member 203. A U-shaped plate 205 is fixedly connected to the bottom of the top plate 201. The output end of the telescopic motor 202 is rotatably connected to the U-shaped plate 205 through a first pin 204. A photosensitive eye 206 is installed at the bottom of the top plate 201, and a shielding plate 207 matching the photosensitive eye 206 is installed at the top of the fixing member 203.

[0020] It is worth noting that this energy-saving tipping mechanism drives the U-shaped plate 205 to rotate around the first pin 204 through the telescopic movement of the telescopic motor 202, thereby causing the tipping structure 3 to tilt and rotate. When the telescopic motor 202 is working backward, the photosensitive eye 206 emits light. When the tipping structure 3 rotates to the preset position, it blocks the light, which can further control the telescopic motor 202 to stop, so as to achieve precise descent and control of the tipping structure 3. Through the combined use of the photosensitive eye 206 and the blocking plate 207, precise control of the telescopic motor 202 can be achieved, avoiding ineffective work and energy waste, and achieving energy saving. The precise control of the photosensitive eye 206 and the blocking plate 207 can ensure that the tipping structure 3 does not exceed the preset range during rotation, avoiding collisions and damage, and improving the overall safety performance.

[0021] Please see Figure 5 The rear end face of the fixing member 203 is also equipped with a sliding component 208. The sliding strip at the output end of the telescopic motor 202 passes through the sliding component 208 to achieve stable guidance and sliding at the output end of the telescopic motor 202. The design of the sliding component 208 enhances the connection stability between the telescopic motor 202 and the fixing member 203, ensuring that the telescopic motor 202 can move smoothly and accurately without shaking or deviation during the telescopic movement.

[0022] See Figure 1 , Figure 2 and Figure 3 The tipping structure 3 includes an L-shaped side plate 301 and a bin 303. The bin 303 is a rectangular box shape and is located on the upper surface of the base 1. The top and front ends of the bin 303 are open. L-shaped side plates 301 are fixedly connected to both sides of the bottom of the base 1. A protruding plate 3010 is fixedly connected to the front side wall of the L-shaped side plate 301. The two protruding plates 3010 are rotatably connected to the bottom of the side wall of the bin 303 via a pivot 3011. A top plate 201 is fixedly connected to the rear end face of the bottom of the bin 303. The top plate 201, connected to the bucket 303, can drive the bucket 303 to achieve stable tilting and rotation under the drive of the telescopic motor 202. The open design of the bucket 303 facilitates the insertion of game coins and improves the working efficiency of the tipping structure 3. At the same time, the solid connection between the L-shaped side plate 301 and the convex plate 3010 ensures the stability of the bucket 303 during rotation and avoids material spillage or structural damage caused by shaking. The overall structural design is reasonable, which not only ensures the flexibility of the tipping structure 3, but also improves its durability and safety.

[0023] See Figure 1 , Figure 2 and Figure 2 Both sides of the bin 303 are provided with inclined side plates 308, and the front end of the bin 303 is provided with a front cover plate 304. The two side walls of the front cover plate 304 are fixedly connected to the inclined side plates 308. The inclined side plates 308 are rotatably connected to the outer side of the bin 303 through a second pin 305. The two sides of the bin 303 are also provided with inclined support rods 307. The bottom end of the support rod 307 is rotatably connected to the side wall of the base 1 through a third pin 306, and the top end is rotatably connected to the top corner of the inclined side plate 308 through another third pin 306.

[0024] The design of the front cover 304 not only seals the front opening of the bin 303, effectively preventing game coins from splashing out from the front when the bin 303 is placed horizontally, but also, when the bin 303 is tilted and rotated, the front cover 304 can be lifted by the support rod 307 and the third pin 306, thereby realizing the opening function of the front of the bin 303 and allowing game coins to fall normally. The front cover 304 can be put into use and opened without the need for a new drive source device, reducing power consumption and lowering cost output.

[0025] Please see Figure 2 The L-shaped side plate 301 has a V-shaped notch 309 at the position of the third pin 306. The L-shaped side plate 301 has several mounting holes 302 on its horizontal surface. The V-shaped notch 309 is designed to accommodate the movement trajectory of the support rod 307 when the bucket 303 is tilted and rotated, ensuring that the support rod 307 can move smoothly within the V-shaped notch 309 and will not affect the normal rotation of the bucket 303 due to friction or jamming.

[0026] Please see Figure 3 The L-shaped side plate 301 and the convex plate 3010 are integrally formed. This design not only enhances the structural strength of the L-shaped side plate 301, but also makes the convex plate 3010 firmly connected to the L-shaped side plate 301, which is not easy to loosen.

[0027] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An energy-saving tipping mechanism with improved safety performance, comprising a base (1), a drive mechanism (2), and a tipping structure (3), characterized in that, The base (1) is provided with a tipping structure (3) on the top. The tipping structure (3) is equipped with a drive mechanism (2) for tilting and rotating. The drive mechanism (2) includes a top plate (201), a telescopic motor (202) and a fixing member (203). The telescopic motor (202) is vertically arranged below the top plate (201). The telescopic motor (202) is installed on the rear end face of the fixing member (203). The bottom of the top plate (201) is fixedly connected to a U-shaped plate (205). The output end of the telescopic motor (202) is rotatably connected to the U-shaped plate (205) through a first pin (204). A photosensitive eye (206) is installed at the bottom of the top plate (201). A shielding plate (207) matching the photosensitive eye (206) is installed at the top of the fixing member (203).

2. The energy-saving tipping mechanism with improved safety performance according to claim 1, characterized in that: The rear end face of the fixing member (203) is also equipped with a sliding part (208), and the sliding bar at the output end of the telescopic motor (202) passes through the sliding part (208).

3. The energy-saving tipping mechanism with improved safety performance according to claim 1, characterized in that: The tipping structure (3) includes an L-shaped side plate (301) and a bin (303). The bin (303) is rectangular and is located on the upper surface of the base (1). The top and front face of the bin (303) are open. The two side walls at the bottom of the base (1) are fixedly connected to the L-shaped side plate (301). The front side wall of the L-shaped side plate (301) is fixedly connected to the protruding plate (3010). The two protruding plates (3010) are rotatably connected to the bottom of the side wall of the bin (303) through a pivot (3011). The top plate (201) is fixedly connected to the rear face at the bottom of the bin (303).

4. The energy-saving tipping mechanism with improved safety performance according to claim 3, characterized in that: Both sides of the bin (303) are provided with inclined side plates (308), and the front end of the bin (303) is provided with a front cover plate (304). The two side walls of the front cover plate (304) are fixedly connected to the inclined side plates (308). The inclined side plates (308) are rotatably connected to the outer side of the bin (303) through a second pin (305). Both sides of the bin (303) are also provided with inclined support rods (307). The bottom end of the support rod (307) is rotatably connected to the side wall of the base (1) through a third pin (306), and the top end is rotatably connected to the top corner of the inclined side plate (308) through another third pin (306).

5. The energy-saving tipping mechanism with improved safety performance according to claim 4, characterized in that: The L-shaped side plate (301) has a V-shaped notch (309) at the position of the third pin (306), and the L-shaped side plate (301) has several mounting holes (302) on its horizontal surface.

6. The energy-saving tipping mechanism with improved safety performance according to claim 3, characterized in that: The L-shaped side plate (301) and the convex plate (3010) are integrally formed.