An oiling mechanism
By introducing components such as electric guide rails, guide blocks, oil reservoirs, oil injection pipes, rotating sleeves, and electric push rods into the oiling mechanism, the problem of products being difficult to remove from the carrier plate is solved, achieving automatic ejection and efficient oiling, adapting to the oiling needs of different product models, and avoiding environmental pollution.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU TOPMAN INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-03
AI Technical Summary
In existing oiling mechanisms, the product adheres to the carrier plate after being placed on it, making it difficult for workers to remove and reducing oiling efficiency.
An oiling mechanism was designed, comprising components such as an electric guide rail, guide block, oil reservoir, oil injection pipe, rotating sleeve, sponge oiling block, and electric push rod. The rotating components and electric push rod are driven by a servo motor to automatically eject the product. Combined with an oil receiving tank to collect excess oil, it can meet the oiling needs of different product models.
It enables automatic ejection of products, improves oiling efficiency, adapts to the oiling needs of different product models, and avoids pollution of the working environment.
Smart Images

Figure CN224443591U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of oiling mechanisms, and in particular to an oiling mechanism. Background Technology
[0002] In industrial production, in order to reduce friction, prevent corrosion, or improve product performance, it is usually necessary to use an oiling mechanism to apply oil to the surface of parts.
[0003] Existing oiling mechanisms typically place the product on a carrier plate and then apply oil to the product using an oiling head. However, because the product adheres closely to the carrier plate after being placed on it, it is inconvenient for workers to remove it, thus reducing the efficiency of product oiling.
[0004] Therefore, an oiling mechanism has now been developed that can automatically eject products from the carrier plate for easy handling by workers, thereby improving the efficiency of product oiling. Utility Model Content
[0005] To overcome the shortcomings of existing oiling mechanisms, where the product adheres to the carrier plate after being placed on it, making it inconvenient for workers to remove it and reducing the efficiency of product oiling, this utility model provides an oiling mechanism that can automatically push the product out of the carrier plate, making it easier for workers to pick up and improving the efficiency of product oiling.
[0006] An oiling mechanism includes an electric guide rail, a guide block, an oil reservoir, an oil injection pipe, an oil inlet valve, an oil delivery pipe, a rotating sleeve, a hollow rotating shaft, a sponge oiling block, a rotating assembly, and a placement assembly. The guide block is connected to the slider of the electric guide rail. The oil reservoir is connected to the upper front side of the guide block. The oil inlet valve is connected to the left side of the oil reservoir. The oil injection pipe is connected to the left side of the oil inlet valve. The rotating sleeve is rotatably connected to the lower part of the guide block. The oil delivery pipe is connected to the oil reservoir. The hollow rotating shaft is connected to the lower side of the oil delivery pipe. The sponge oiling block is clamped to the lower side of the hollow rotating shaft. The guide block is provided with a rotating assembly that enables the sponge oiling block to rotate. The electric guide rail is provided with a placement assembly that can place the product.
[0007] To further explain, the rotating assembly includes a servo motor and a belt. The servo motor is connected to the right side of the guide block, and a belt is wound around the output shaft of the servo motor and the rotating sleeve through a transmission wheel.
[0008] To further explain, the placement assembly includes a carrier plate, a top block, and electric push rods. The carrier plate is snapped into the lower part of the electric guide rail, and electric push rods are connected to both the left and right sides of the carrier plate. Top blocks are connected to the telescopic ends of the electric push rods.
[0009] To further explain, the servo motor, electric actuator, and processor are electrically connected through the control module.
[0010] To further explain, it also includes an oil receiving tank, which is placed on the ground and located below the carrier plate.
[0011] To further explain, the oil tank has multiple support legs on its lower side.
[0012] The beneficial effects of this utility model are as follows: 1. After the product of this utility model is coated with oil, the processor starts the electric push rod through the control module to push the top block to move upward, so that the top block pushes the product upward, thereby automatically pushing the product out of the carrier plate, so that the staff can pick it up and improve the product coating efficiency.
[0013] 2. When different models of products need to be coated with oil, this utility model can replace the sponge oiling block and the carrier plate to meet the oiling needs of different models of products.
[0014] 3. The oil receiving tank of this utility model collects excess oil, thereby avoiding pollution of the working environment. Attached Figure Description
[0015] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0016] Figure 2 This is a schematic diagram of the structure of the elastic groove and other components of this utility model.
[0017] Figure 3 This is a schematic diagram of the structure of components such as the oil pipeline in this practical application.
[0018] Figure 4 This is a three-dimensional structural diagram of the sponge oiling block and other components of this utility model.
[0019] Figure 5 This is a three-dimensional structural diagram of the electric push rod and other components of this utility model.
[0020] The markings in the attached diagram are as follows: 1: Electric guide rail, 2: Guide block, 3: Oil reservoir, 31: Oil injection pipe, 4: Oil inlet valve, 5: Oil delivery pipe, 6: Rotating sleeve, 7: Hollow rotating shaft, 8: Sponge oiling block, 9: Servo motor, 10: Belt, 11: Carrier plate, 12: Top block, 13: Electric push rod, 14: Oil receiving tank. Detailed Implementation
[0021] The present invention will be further described below with reference to specific embodiments. The illustrative embodiments and descriptions of the present invention are used to explain the present invention, but are not intended to limit the present invention.
[0022] An oiling mechanism, such as Figures 1-5As shown, the device includes an electric guide rail 1, a guide block 2, an oil reservoir 3, an oil injection pipe 31, an oil inlet valve 4, an oil delivery pipe 5, a rotating sleeve 6, a hollow rotating shaft 7, a sponge oiling block 8, a rotating assembly, and a placement assembly. The guide block 2 is connected to the slider of the electric guide rail 1. The oil reservoir 3 is connected to the upper front part of the guide block 2. The oil inlet valve 4 is connected to the left side of the oil reservoir 3. The oil injection pipe 31 is connected to the left side of the oil inlet valve 4. The rotating sleeve 6 is rotatably connected to the lower part of the guide block 2. The oil delivery pipe 5 is connected to the rotating sleeve 6. The oil delivery pipe 5 is rotatably connected to the oil reservoir 3. The hollow rotating shaft 7 is connected to the lower side of the oil delivery pipe 5. The sponge oiling block 8 is clamped to the lower side of the hollow rotating shaft 7. The rotating assembly is provided on the guide block 2, and the placement assembly is provided on the electric guide rail 1.
[0023] like Figure 3 As shown, the rotating assembly includes a servo motor 9 and a belt 10. The right side of the guide block 2 is connected to the servo motor 9, and the belt 10 is wound around the output shaft of the servo motor 9 and the rotating sleeve 6 through a transmission wheel.
[0024] like Figure 1 and Figure 5 As shown, the placement assembly includes a carrier plate 11, a top block 12, an electric push rod 13, and an oil receiving tank 14. The carrier plate 11 is snapped onto the lower part of the electric guide rail 1. The electric push rod 13 is connected to both the left and right sides of the carrier plate 11. The servo motor 9, the electric push rod 13, and the processor are electrically connected through a control module. The top block 12 is connected to the telescopic end of the electric push rod 13. The oil receiving tank 14 is placed on the ground and is located below the carrier plate 11. The oil receiving tank 14 has four support legs on its lower side for easy placement.
[0025] When using this utility model, first place the electric guide rail 1 in the product oiling area, then connect the oil supply pipe to the oil injection pipe 31, and then place the product on the carrier plate 11. After placement, open the oil inlet valve 4 to allow a certain amount of oil to be injected from the oil injection pipe 31 into the oil storage cylinder 3, and then flow through the oil supply pipe 5 and the hollow rotating shaft 7 to the sponge oiling block 8. Then start the electric guide rail 1 to move the guide block 2 downward, causing the sponge oiling block 8 to move downward. The processor starts the servo motor 9 through the control module, driving the belt 10 to rotate, so that the rotating sleeve 6, the oil supply pipe 5, and the hollow rotating shaft 7 move downward. Shaft 7 and the sponge oiling block 8 rotate to apply oil to the inner wall of the product. The oil receiving tank 14 collects excess oil to prevent pollution of the working environment. When different models of products need to be oiled, the sponge oiling block 8 and the carrier plate 11 can be removed and replaced, thus meeting the oiling needs of different models of products. After the product is oiled, the processor starts the electric push rod 13 through the control module, which pushes the top block 12 upward, causing the top block 12 to push the product upward, thereby automatically pushing the product out of the carrier plate 11 for easy handling by the staff and improving the oiling efficiency of the product.
[0026] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. An oiling mechanism characterized by: The device includes an electric guide rail (1), a guide block (2), an oil reservoir (3), an oil injection pipe (31), an oil inlet valve (4), an oil delivery pipe (5), a rotating sleeve (6), a hollow rotating shaft (7), a sponge oiling block (8), a rotating assembly, and a placement assembly. The guide block (2) is connected to the slider of the electric guide rail (1). The oil reservoir (3) is connected to the upper front part of the guide block (2). The oil inlet valve (4) is connected to the left side of the oil reservoir (3). The oil injection pipe (31) is connected to the left side of the oil inlet valve (4). The rotating sleeve (6) is rotatably connected to the lower part of the guide block (2). The oil delivery pipe (5) is connected to the rotating sleeve (6). The oil delivery pipe (5) is rotatably connected to the oil reservoir (3). The hollow rotating shaft (7) is connected to the lower side of the oil delivery pipe (5). The sponge oiling block (8) is clamped to the lower side of the hollow rotating shaft (7). The guide block (2) is equipped with a rotating assembly that enables the sponge oiling block (8) to rotate. The electric guide rail (1) is equipped with a placement assembly that enables the product to be placed.
2. The oiling mechanism of claim 1, wherein: The rotating assembly includes a servo motor (9) and a belt (10). The right side of the guide block (2) is connected to the servo motor (9). The output shaft of the servo motor (9) and the rotating sleeve (6) are connected by a belt (10) via a transmission wheel.
3. The oiling mechanism of claim 1, wherein: The placement assembly includes a carrier plate (11), a top block (12), and an electric push rod (13). The carrier plate (11) is snapped into the lower part of the electric guide rail (1). Electric push rods (13) are connected to both the left and right sides of the carrier plate (11). The top block (12) is connected to the telescopic end of the electric push rod (13).
4. A lubricating mechanism according to claim 3, wherein: The servo motor (9), electric actuator (13) and processor are electrically connected through the control module.
5. The oiling mechanism of claim 3, wherein: It also includes an oil receiving tank (14), which is placed on the ground and located below the carrier plate (11).
6. A lubricating mechanism according to claim 5, wherein: The oil tank (14) has multiple support feet on its lower side.