Accurate metal product anti-collision processing feeding mechanism
By installing a waxing component on the conveyor belt and using a heater to melt wax and apply it to the conveyor belt, the problem of precision metal products sliding and bumping during feeding is solved, achieving more efficient protection and stable feeding.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU HAISHUO PRECISION MANUFACTURING CO LTD
- Filing Date
- 2025-08-14
- Publication Date
- 2026-07-10
AI Technical Summary
In existing technologies, when using conveyor belts for feeding, precision metal products are prone to slipping and bumping, especially when feeding at an angle, which affects product quality.
A waxing assembly was designed, including a waxing component, a bottom box, a rotating roller, and a wax storage tank. Industrial wax is melted by a heater and applied to the conveyor belt to increase friction and prevent slippage.
It effectively reduces the slippage and collision of precision metal products on the conveyor belt, protects the surface of the conveyor belt, and improves the stability of feeding and the quality of finished products.
Smart Images

Figure CN224477495U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of safe feeding technology, and in particular to a feeding mechanism for anti-collision processing of precision metal products. Background Technology
[0002] With the increasing prevalence of automated production, metal parts are generally fed and transported through various conveyor belts during the machining process. This is especially true for small-sized precision metal products, where automated conveying is not only more efficient but also more stable, effectively reducing the risk of collisions.
[0003] The production and processing of precision metal products have high requirements. Even a slight bump can damage the surface oxide film or polished layer, resulting in visible scratches or a decrease in gloss, affecting the product's appearance. Some metal surfaces have a protective layer. If the protective layer is damaged by a bump, the exposed metal substrate is prone to pitting or rust in a humid environment, causing a decline in the quality of the final product.
[0004] However, conveyor belt feeding doesn't involve feeding materials one by one, as this is wasteful and inefficient. Generally, large quantities are fed together. When a large number of precision metal products are placed on a conveyor belt, they are prone to slippage and collisions if subjected to external influences, such as conveyor belt vibration. This is especially true when the conveyor belt is feeding at an angle upwards or downwards, as the precision metal products are more susceptible to slippage due to their own weight. Utility Model Content
[0005] In view of this, the purpose of this utility model is to propose a precision metal product anti-collision feeding mechanism to solve the technical problem that metal products are prone to slippage and collision when using conveyor belts to feed precision metal products in the prior art.
[0006] To achieve the above objectives, this utility model provides a precision metal product anti-collision processing feeding mechanism, including a conveyor belt for conveying metal products, and the anti-collision processing feeding mechanism further includes:
[0007] A waxing assembly is provided on a conveyor belt. The waxing assembly includes a bottom box and a wax storage box. The bottom box is located below the conveyor belt, and a rotating roller is rotatably connected inside the bottom box. The rotating roller is tactilely connected to the conveyor belt.
[0008] The wax storage box contains anti-slip industrial wax, and the inner cavity of the wax storage box is connected to the outer wall of the rotating drum through a wax flow channel. The wax storage box is equipped with a heater for heating and melting the industrial wax inside.
[0009] Furthermore, the conveyor belt has side plates on both sides, and the conveyor belt is slidably connected to the side plates, which are fixedly connected to the bracket.
[0010] Furthermore, the bottom box is provided with multiple connecting buckles, and the bottom of the side panel is provided with a connecting slot that cooperates with it.
[0011] Furthermore, the wax storage box is located on one side of the conveyor belt, and the wax storage box is fixedly connected to the side plate.
[0012] Furthermore, the heater is a resistance heater, and the wax storage box is equipped with a resistance wire that generates heat when energized.
[0013] Furthermore, the wax flow channel between the wax storage box and the rotating drum includes a fixed cylinder and a connecting square tube. The connecting square tube is directly connected to the wax storage box, and the fixed cylinder is fixedly connected to the bottom box and rotatably connected inside the rotating drum.
[0014] Furthermore, the rotating roller is provided with several through holes, which are evenly arranged, and the fixed cylinder is provided with only one row of outflow holes at the top for the flow of liquid wax.
[0015] Furthermore, a scraper is fixedly connected inside the bottom box, with the upper end of the scraper attached to the conveyor belt.
[0016] The beneficial effects of this utility model are as follows: 1. The waxing component is set to apply wax to the conveyor belt, which not only protects the conveyor belt and reduces the sharp corners of the conveyor belt from being scratched by precision metal products, but also increases the friction of the conveyor belt surface, effectively preventing precision metal products from sliding on the conveyor belt, thereby greatly alleviating the damage caused by the collision of precision metal products.
[0017] 2. The waxing assembly consists of two parts: a bottom box and a wax storage tank. The wax storage tank contains anti-slip industrial wax and is equipped with a heater to melt the wax. Since the waxing process is not continuous but periodic, waste is minimized. Therefore, when waxing is needed, simply energizing the heater melts the industrial wax in the storage tank, turning it into a liquid that flows onto the rotating waxing roller, achieving automatic waxing. This eliminates the need for a complex control system, resulting in a simple structure and convenient operation.
[0018] 3. Additionally, a bottom box is installed below the conveyor belt so that wax that does not stick to the surface of the conveyor belt can be recycled back into the bottom box. A scraper is also installed so that not only can the unsticky wax be scraped off, but the wax can also be applied more evenly.
[0019] 4. The rotating drum is driven to rotate by the conveyor belt. The rotating drum has several through holes evenly distributed on it. Additionally, the fixed cylinder inside the rotating drum only has one row of outflow holes at the top for the flow of liquid wax. Therefore, the liquid wax will only flow out from the through holes at the top of the rotating drum, ensuring that the liquid wax is effectively applied to the surface of the conveyor belt and reducing liquid wax dripping. Attached Figure Description
[0020] To more clearly illustrate the technical solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only for this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0021] Figure 1 This is a schematic diagram of the overall structure and principle of the device of this utility model.
[0022] Figure 2 This is a schematic diagram illustrating the structural principle of the wax coating component in the device of this utility model.
[0023] Figure 3 This is a schematic diagram of the liquid wax flow in the wax coating component of the device of this utility model.
[0024] Figure 4 This is a schematic diagram of the internal structure of the rotating drum and the fixed cylinder in the device of this utility model.
[0025] The diagram is marked as follows:
[0026] 101. Conveyor belt; 102. Side plate; 103. Waxing assembly; 104. Bottom box; 105. Connecting buckle; 106. Rotating roller; 107. Scraper; 108. Fixed cylinder; 109. Wax storage box; 110. Connecting square tube; 111. Sliding cover; 112. Heater; 113. Outlet hole. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to specific embodiments.
[0028] It should be noted that, unless otherwise defined, the technical or scientific terms used in this utility model should have the ordinary meaning understood by one of ordinary skill in the art to which this utility model pertains. The terms "first," "second," and similar terms used in this utility model do not indicate any order, quantity, or importance, but are merely used to distinguish different components. Terms such as "comprising" or "including" mean that the element or object preceding the word encompasses the elements or objects listed following the word and their equivalents, without excluding other elements or objects. Terms such as "connected" or "linked" are not limited to physical or mechanical connections, but can include electrical connections, whether direct or indirect. Terms such as "upper," "lower," "left," and "right" are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.
[0029] The first aspect of this utility model is as follows: Figure 1 , Figure 2 and Figure 3 As shown, precision metal products are typically fed in batches during processing. When a large number of precision metal products are placed together on a conveyor belt, they are prone to slippage and collisions if subjected to external influences, such as conveyor belt vibration. This is especially true when the conveyor belt is fed at an angle upwards or downwards, as the precision metal products are more susceptible to slippage due to their own weight. Therefore, this invention incorporates a waxing component 103.
[0030] Specifically, a conveyor belt 101 for transporting metal products is provided, and a waxing assembly 103 is mounted on the conveyor belt 101. The waxing assembly 103 includes a bottom box 104 and a wax storage box 109. The bottom box 104 is located below the conveyor belt 101, and a rotating roller 106 is rotatably connected inside the bottom box 104. The rotating roller 106 is tumbledly connected to the conveyor belt 101.
[0031] The wax storage box 109 contains anti-slip industrial wax, and the inner cavity of the wax storage box 109 is connected to the outer wall of the rotating drum 106 through the wax flow channel. The wax storage box 109 is equipped with a heater 112 for heating and melting the industrial wax inside.
[0032] The waxing component 103 is used to apply wax to the conveyor belt 101. This not only protects the conveyor belt 101 and reduces the risk of scratches from sharp edges of precision metal products, but also increases the friction on the surface of the conveyor belt 101. This effectively prevents precision metal products from sliding on the conveyor belt 101, thereby greatly mitigating the damage caused by collisions between precision metal products.
[0033] In addition, side plates 102 are provided on both sides of the conveyor belt 101, and the conveyor belt 101 is slidably connected to the side plates 102, while the side plates 102 are fixedly connected to the bracket. The bottom box 104 is provided with multiple connecting buckles 105, and the bottom of the side plates 102 is provided with matching connecting grooves. A wax storage box 109 is located on one side of the conveyor belt 101, and the wax storage box 109 is fixedly connected to the side plates 102.
[0034] The second aspect of this utility model is as follows: Figure 2 , Figure 3 and Figure 4 As shown, in order to make the wax coating more even and reduce wax waste, a wax flow channel between the wax storage tank 109 and the rotating roller 106 is provided, which includes a fixed cylinder 108 and a connecting square tube 110. The connecting square tube 110 is directly connected to the wax storage tank 109, and the fixed cylinder 108 is fixedly connected to the bottom box 104 and rotatably connected inside the rotating roller 106.
[0035] The rotating drum 106 has several through holes evenly arranged, while the fixed cylinder 108 has only one row of outflow holes 113 at the top for the flow of liquid wax. The rotating drum 106 is driven to rotate by the conveyor belt 101. Since the rotating drum 106 has several through holes evenly arranged, and the fixed cylinder 108 inside the rotating drum 106 has only one row of outflow holes 113 at the top for the flow of liquid wax, the liquid wax will only flow out from the through holes at the top of the rotating drum 106, thus ensuring that the liquid wax can be effectively applied to the surface of the conveyor belt 101 and reducing liquid wax dripping.
[0036] Preferably, a scraper 107 is also fixedly connected inside the bottom box 104, with the upper end of the scraper 107 attached to the conveyor belt 101. This not only scrapes off any unapplied wax but also allows the wax to be applied more evenly.
[0037] A heater 112 is installed inside the wax storage box 109 to heat and melt the industrial wax inside. The heater 112 is a resistance heater, and an electric resistance wire is installed inside the wax storage box 109 to generate heat.
[0038] The wax storage tank 109 contains anti-slip industrial wax, and a heater 112 is installed inside the wax storage tank 109 to heat and melt the industrial wax inside. Since the waxing process does not need to be performed continuously, but rather periodically, there is less waste. Therefore, when waxing is needed, simply energizing the heater 112 melts the industrial wax in the wax storage tank 109, turning it into a liquid, which then flows onto the rotating waxing roller 106, achieving automatic waxing. This eliminates the need for a complex control system, resulting in a simple structure and convenient operation.
[0039] In summary, this utility model 1, by setting up a waxing assembly 103 to apply wax to the conveyor belt 101, not only protects the conveyor belt 101 and reduces scratches from sharp corners of precision metal products, but also increases the friction on the surface of the conveyor belt 101, effectively preventing the precision metal products from sliding on the conveyor belt 101, thereby greatly mitigating damage caused by collisions between precision metal products. The waxing assembly 103 consists of two parts: a bottom box 104 and a wax storage box 109. The wax storage box 109 contains anti-slip industrial wax and is equipped with a heater 112 to heat and melt the industrial wax inside. Since the waxing process does not need to be performed continuously but periodically, there is less waste. Therefore, when waxing is needed, only the heater 112 needs to be energized to melt the industrial wax in the wax storage box 109, turning it into a liquid that can then flow onto the rotating roller 106 for waxing, achieving automatic waxing without the need for a complex control system, resulting in a simple structure and convenient operation.
[0040] The rotating roller 106 is driven to rotate by the conveyor belt 101. The roller 106 has several through holes evenly distributed on it. The fixed cylinder 108 inside the roller 106 has only one row of outflow holes 113 at the top for the flow of liquid wax. Therefore, the liquid wax only flows out from the through holes at the top of the roller 106, ensuring that the liquid wax is effectively applied to the surface of the conveyor belt 101 and reducing dripping. A bottom collection box 104 is provided below the conveyor belt 101, allowing wax that does not adhere to the surface of the conveyor belt 101 to return to the bottom collection box for recycling. A scraper 107 is also provided, which not only scrapes off unadhered wax but also ensures more even wax application.
[0041] Those skilled in the art should understand that the discussion of any of the above embodiments is merely exemplary and is not intended to imply that the scope of the present invention includes the claims being limited to these examples; within the framework of the present invention, the technical features of the above embodiments or different embodiments can also be combined, the steps can be implemented in any order, and there are many other variations of the different aspects of the present invention as described above, which are not provided in the details for the sake of brevity.
[0042] This utility model is intended to cover all such substitutions, modifications, and variations that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A precision metal product anti-collision feeding mechanism, comprising a conveyor belt (101) for conveying metal products, characterized in that, The anti-collision processing and feeding mechanism also includes: A waxing assembly (103) is provided on the conveyor belt (101). The waxing assembly (103) includes a bottom box (104) and a wax storage box (109). The bottom box (104) is located below the conveyor belt (101), and a rotating roller (106) is rotatably connected inside the bottom box (104). The rotating roller (106) is tumbledly connected to the conveyor belt (101). The wax storage box (109) contains anti-slip industrial wax, and the inner cavity of the wax storage box (109) is connected to the outer wall of the rotating drum (106) through the wax flow channel. The wax storage box (109) is equipped with a heater (112) for heating and melting the industrial wax inside.
2. The precision metal product anti-collision feeding mechanism according to claim 1, characterized in that, The conveyor belt (101) has side plates (102) on both sides, and the conveyor belt (101) is slidably connected to the side plates (102), and the side plates (102) are fixedly connected to the bracket.
3. The precision metal product anti-collision feeding mechanism according to claim 2, characterized in that, The bottom box (104) is provided with multiple connecting buckles (105), and the bottom of the side plate (102) is provided with a connecting slot that matches it.
4. The precision metal product anti-collision feeding mechanism according to claim 2, characterized in that, The wax storage box (109) is located on one side of the conveyor belt (101), and the wax storage box (109) is fixedly connected to the side plate (102).
5. The precision metal product anti-collision feeding mechanism according to claim 1, characterized in that, The heater (112) is a resistance heater, and the wax storage box (109) is equipped with a resistance wire that generates heat when energized.
6. The precision metal product anti-collision feeding mechanism according to claim 1, characterized in that, The wax flow channel between the wax storage box (109) and the rotating drum (106) includes a fixed cylinder (108) and a connecting square tube (110). The connecting square tube (110) is directly connected to the wax storage box (109). The fixed cylinder (108) is fixedly connected to the bottom box (104) and is rotatably connected inside the rotating drum (106).
7. The precision metal product anti-collision feeding mechanism according to claim 6, characterized in that, The rotating drum (106) has several through holes that are evenly arranged, and the fixed cylinder (108) has only one row of outflow holes (113) at the top for the flow of liquid wax.
8. The precision metal product anti-collision feeding mechanism according to claim 1, characterized in that, A scraper (107) is also fixedly connected inside the bottom box (104), and the upper end of the scraper (107) is attached to the conveyor belt (101).