Bearing delivery device for rust-proof machine
By designing a bearing conveying device for rust prevention machines, the problems of uneven rust-preventive oil mist spraying and improper installation of induction switches in the bearing manufacturing and storage process were solved. This enabled efficient and uniform rust prevention treatment and automated conveying of bearings, avoiding mispositioning and collision damage.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI TUNGPEI ENTERPRISE
- Filing Date
- 2025-05-26
- Publication Date
- 2026-07-07
Smart Images

Figure CN224466901U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of bearing rust prevention technology, and in particular to a bearing conveying device for a rust prevention machine. Background Technology
[0002] In existing technologies, rust prevention is a core process in bearing manufacturing and storage to ensure the long-term stability and reliability of products. With the improvement of industrial automation, oil mist spraying technology, due to its uniform film formation, high efficiency, and environmental friendliness, has gradually become the mainstream process for bearing rust prevention. To achieve efficient and uniform rust-preventive oil mist spraying, a bearing conveying device for the rust prevention machine is needed. Summary of the Invention
[0003] According to an embodiment of the present invention, a bearing conveying device for a rust-prevention machine is provided, comprising:
[0004] Support frame;
[0005] The conveyor rail is inclined downwards and mounted on the support frame. The vertical height of the input end of the conveyor rail is higher than the vertical height of its output end. The conveyor rail also has a conveyor bearing.
[0006] The guide plate mechanism is located on both sides of the conveyor track and limits the bearing position.
[0007] A material-stopping mechanism is installed on the guide plate mechanism and is used for conveying bearings one by one.
[0008] Furthermore, the guide plate mechanism includes:
[0009] The first guide plate is located on one side of the conveyor track;
[0010] The second guide plate is located on the other side of the conveyor track;
[0011] The first and second guide plates are U-shaped, with the opening of the U-shape facing the external spray gun. The opening of the U-shape is blocked by multiple spaced connecting rods, which limit the bearing.
[0012] Furthermore, multiple anti-jamming oil grooves are provided on the inner walls of the first and second guide plates where they connect with the bearing, and the anti-jamming oil grooves are arranged along the length of the guide plates.
[0013] Furthermore, a pair of mounting plates are fixed to the outer side of the first guide plate, and the pair of mounting plates are used to install the feeding sensor switch and the unloading sensor switch respectively.
[0014] Furthermore, a pair of blind holes are provided on the outer side of the first guide plate, and a pair of mounting plates are connected to the pair of blind holes by screws respectively.
[0015] Furthermore, the first guide plate and the second guide plate are made of stainless steel.
[0016] Furthermore, multiple oil guide grooves are provided on the conveying track, and the oil guide grooves are inclined along the width direction of the conveying track.
[0017] Furthermore, the material stop mechanism includes:
[0018] A fixed plate is inclinedly fixed to the guide plate mechanism, and the fixed plate is perpendicular to the conveyor track.
[0019] The pendulum frame is connected to the fixed plate in the middle via a pivot. The pendulum frame can rotate around the pivot. A pair of sliding holes are provided on the pendulum frame. The pair of sliding holes are located on the same straight line and are respectively located on both sides of the pivot.
[0020] A pair of stop bars, the tops of which are slidably set in a pair of sliding holes, and the pair of stop bars are perpendicular to the conveyor track;
[0021] A pair of limit brackets are fixed on a fixed plate and respectively set below a pair of stop bars. The limit brackets are sleeved on the stop bars to limit the stop bars.
[0022] The driving component is mounted on the fixed plate and connected to one end of the swing frame;
[0023] The driving component drives the swing frame to rotate around the pivot, causing one of the stop bars to connect with the conveyor track and block the bearing, while the other stop bar moves away from the conveyor track.
[0024] Furthermore, the driving component is a cylinder, with the fixed end of the cylinder hinged to the fixed plate and the output end of the cylinder hinged to one end of the swing frame.
[0025] According to the present invention, a bearing conveying device for a rust prevention machine includes a new mounting plate to fix the mounting points of the required inductive switches, eliminating the problems of direct drilling and tapping on the guide plate, which caused screw protrusion, resulting in poor bearing positioning and damage from impact. By opening anti-jamming oil grooves on the guide plate, the contact area with the bearing is reduced, friction and sticking on the bearing surface are reduced, and the occurrence of bearing defects is improved. The bearings are conveyed one by one through a material blocking mechanism for effective rust prevention.
[0026] It should be understood that both the foregoing general description and the following detailed description are exemplary and intended to provide further illustration of the claimed technology. Attached Figure Description
[0027] Figure 1 This is a schematic diagram of the bearing conveying device for a rust prevention machine according to an embodiment of the present invention;
[0028] Figure 2This is a schematic diagram of the conveying track of the bearing conveying device for a rust prevention machine according to an embodiment of the present invention;
[0029] Figure 3 This is a schematic diagram of the guide plate mechanism of the bearing conveying device for a rust prevention machine according to an embodiment of the present invention;
[0030] Figure 4 This is a schematic diagram of the material blocking mechanism of the bearing conveying device for a rust prevention machine according to an embodiment of the present invention.
[0031] Reference numerals in the attached drawings: 1. Support frame; 2. Conveying track; 3. Guide plate mechanism; 4. Material blocking mechanism;
[0032] Oil guide groove 21, first guide plate 31, second guide plate 32, connecting rod 33, anti-jamming oil groove 34, mounting plate 35, blind hole 36;
[0033] Fixed plate 41, swing frame 42, sliding hole 43, first stop bar 44, second stop bar 45, limit frame 46, connecting rod 47, driving component 48, rotating shaft 49. Detailed Implementation
[0034] The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, further illustrating the present invention.
[0035] First, combine Figures 1-4 The present invention describes a bearing conveying device for a rust prevention machine according to an embodiment of the present invention, which has a wide range of applications.
[0036] like Figures 1-4 As shown in the figure, the bearing conveying device for the rust prevention machine of this utility model is installed inside the rust prevention oil tank and includes: a support frame 1; a conveying track 2; a guide plate mechanism 3; and a material blocking mechanism 4.
[0037] Specifically, such as Figures 1-4 As shown, in this embodiment, the conveying track 2 is inclined downwards on the support frame 1. The vertical height of the input end of the conveying track 2 is higher than the vertical height of its output end. The conveying track 2 conveys bearings, which slide down the conveying track 2 under their own weight. The guide plate mechanism 3 is set on both sides of the conveying track 2. The guide plate mechanism 3 limits the bearings, restricting them to slide only within the guide plate mechanism 3 to prevent them from falling off. The stop mechanism 4 is set on the guide plate mechanism 3. The stop mechanism 4 ensures that each bearing can be effectively rust-proofed during the individual conveying of the bearings. Through the above mechanisms, the automated individual conveying of bearings is achieved.
[0038] Specifically, such as Figure 3As shown, in this embodiment, the guide plate mechanism 3 includes: a first guide plate 31, which is disposed on one side of the conveying track 2; and a second guide plate 32, which is disposed on the other side of the conveying track 2. The first guide plate 31 and the second guide plate 32 are U-shaped, and the opening of the U-shape is opposite to the external spray oil gun, so that the spray oil gun can spray oil to the bearing from the opening to prevent rust. The U-shaped opening is blocked by a plurality of evenly spaced connecting rods 33, and the plurality of connecting rods 33 limit the bearing to prevent the bearing from falling out of the U-shaped opening.
[0039] Furthermore, such as Figure 3 As shown, in this embodiment, multiple anti-jamming oil grooves 34 are formed on the inner walls of the first guide plate 31 and the second guide plate 32 where they contact the bearing. The anti-jamming oil grooves 34 are arranged along the length of the guide plate. In the prior art, the inner side of the guide rail is a smooth surface with a large contact area with the bearing. However, a small amount of oil may remain on the outer surface of the bearing during the manufacturing process, which can easily cause problems such as bearing material sticking and friction. In this embodiment, by forming anti-jamming oil grooves 34 on the inner wall of the guide plate, the contact area with the bearing can be reduced, thereby reducing bearing friction and sticking.
[0040] Furthermore, such as Figure 3 As shown, in this embodiment, a pair of mounting plates 35 are fixed to the outer side of the first guide plate 31. The pair of mounting plates 35 are used to install the loading sensor switch and the unloading sensor switch, respectively. In this embodiment, a pair of blind holes 36 are provided on the outer side of the first guide plate 31, and the pair of mounting plates 35 are connected to the pair of blind holes 36 by screws. In the prior art, holes are directly drilled and tapped on the guide plate before the sensor switches are installed. The screws protrude from the inner side of the guide plate, which can cause bearing collision damage and poor material positioning. In this embodiment, by adding mounting plates 35 and setting blind holes 36, the problem of screw protrusion during sensor switch installation can be avoided.
[0041] Furthermore, in this embodiment, the first guide plate 31 and the second guide plate 32 are made of stainless steel.
[0042] Furthermore, such as Figure 2 As shown, in this embodiment, multiple oil guide grooves 21 are provided on the conveying track 2. The oil guide grooves 21 are inclined along the width direction of the conveying track 2, and the oil guide grooves 21 allow excess oil to fall from both sides of the conveying track 2.
[0043] Specifically, such as Figure 4As shown, in this embodiment, the material blocking mechanism 4 includes: a fixed plate 41, which is obliquely fixed to the guide plate mechanism 3 and perpendicular to the conveying track 2; a swing frame 42, the middle of which is connected to the fixed plate 41 via a rotating shaft 49, the swing frame 42 being rotatable around the rotating shaft 49, and having a pair of sliding holes 43 on the swing frame 42, the pair of sliding holes 43 being located on the same straight line and respectively disposed on both sides of the rotating shaft 49; a pair of stop bars, the top ends of which are slidably disposed in the pair of sliding holes 43, the pair of stop bars being perpendicular to the conveying track 2; and a pair of limiting frames 46, the pair of limiting frames 47 being perpendicular to the conveying track 2. Positioning brackets 46 are fixed on the fixed plate 41 and are respectively set below a pair of stop bars. The limiting brackets 46 are sleeved on the stop bars to limit the stop bars. The limiting brackets 46 limit the stop bars to move only in a direction perpendicular to the conveying track 2. The pair of limiting brackets 46 are connected by a connecting rod 47, which is parallel to the conveying track 2. The driving component 48 is installed on the fixed plate 41 and connected to one end of the swing frame 42. The driving component 48 drives the swing frame 42 to rotate around the rotating shaft 49, causing one of the stop bars to connect with the conveying track 2 to block the bearing, while the other stop bar moves away from the conveying track 2.
[0044] In this embodiment, a pair of baffles are designated as a first baffle 44 and a second baffle 45. The first baffle 44 is closer to the input end of the conveying track 2, and the second baffle 45 is closer to the output end. Under normal conditions, the second baffle 45 abuts against the conveying track 2 to stop the bearing in front of the spray gun. When the feeding sensor switch detects a signal, the drive unit 48 drives the swing frame 42 to swing, causing the second baffle 45 to move upward away from the conveying track 2 and release the bearing. The spray gun is then turned on to perform rust prevention treatment on the bearing. At the same time, the first baffle 44 moves downward to abut against the conveying track 2, blocking the next bearing. The bearings are released one by one. When the unloading sensor switch detects a signal, it indicates that the release is complete. The drive unit 48 drives the swing frame 42 to swing in the opposite direction, causing the first baffle 44 to move upward away from the conveying track 2, and the second baffle 45 to move downward to abut against the conveying track 2, so that the next bearing moves to the second baffle 45. The above operation is repeated to perform rust prevention work on the next bearing. This cycle is repeated to achieve effective rust prevention work for each bearing.
[0045] Furthermore, such as Figure 4 As shown, in this embodiment, the driving component 48 is a cylinder. The fixed end of the cylinder is hinged to the fixed plate 41, and the output end of the cylinder is hinged to one end of the swing frame 42. The swing frame 42 is driven to swing in two directions by the extension and retraction of the cylinder piston rod, and the response is fast and convenient.
[0046] Above, refer to Figures 1-4This invention describes a bearing conveying device for a rust-preventing machine according to an embodiment of the present invention. A new mounting plate is added to fix the mounting points of the required inductive switches, eliminating the problems of direct drilling and tapping on the guide plate, which caused screw protrusion leading to poor bearing positioning and damage from impact. Anti-jamming oil grooves are opened on the guide plate to reduce the contact area with the bearing, thereby reducing friction and adhesion on the bearing surface and improving bearing performance. A material-stopping mechanism enables the individual conveying of bearings for effective rust prevention.
[0047] It should be noted that, in this specification, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus. Unless otherwise specified, an element defined by the phrase "comprising..." does not exclude the presence of additional identical elements in the process, method, article, or apparatus that includes that element.
[0048] Although the present invention has been described in detail through the above preferred embodiments, it should be understood that the above description should not be considered as a limitation of the present invention. Various modifications and substitutions to the present invention will be apparent to those skilled in the art after reading the above content. Therefore, the scope of protection of the present invention should be defined by the appended claims.
Claims
1. A bearing conveying device for a rust-prevention machine, characterized in that, Include: Support frame; A conveyor rail is inclined downward on the support frame, the vertical height of the input end of the conveyor rail is higher than the vertical height of its output end, and the conveyor rail conveys the bearing; A guide plate mechanism is disposed on both sides of the conveying track, and the guide plate mechanism limits the bearing; A material blocking mechanism is provided on the guide plate mechanism and is used for conveying the bearings one by one.
2. The bearing conveying device for a rust-preventing machine as described in claim 1, characterized in that, The guide plate mechanism includes: A first guide plate is disposed on one side of the conveying track; The second guide plate is disposed on the other side of the conveying track; The first guide plate and the second guide plate are U-shaped, and the opening of the U-shape is opposite to the external spray gun. The opening of the U-shape is blocked by multiple spaced connecting rods, and the multiple connecting rods limit the bearing.
3. The bearing conveying device for a rust-preventing machine as described in claim 2, characterized in that, Multiple anti-jamming oil grooves are formed on the inner walls of the first guide plate and the second guide plate where they connect with the bearing, and the anti-jamming oil grooves are arranged along the length direction of the guide plate.
4. The bearing conveying device for a rust-preventing machine as described in claim 2, characterized in that, A pair of mounting plates are fixed to the outer side of the first guide plate, and the pair of mounting plates are used to install the loading sensor switch and the unloading sensor switch respectively.
5. The bearing conveying device for a rust-preventing machine as described in claim 4, characterized in that, The outer side of the first guide plate has a pair of blind holes, and the pair of mounting plates are connected to the pair of blind holes by screws respectively.
6. The bearing conveying device for a rust-preventing machine as described in claim 2, characterized in that, The first guide plate and the second guide plate are made of stainless steel.
7. The bearing conveying device for a rust-preventing machine as described in claim 1, characterized in that, Multiple oil guide grooves are provided on the conveying track, and the oil guide grooves are inclined along the width direction of the conveying track.
8. The bearing conveying device for a rust-preventing machine as described in claim 1, characterized in that, The material-stopping mechanism includes: A fixing plate is obliquely fixed to the guide plate mechanism, and the fixing plate is perpendicular to the conveying track; The pendulum frame is connected to the fixed plate via a pivot in the middle. The pendulum frame can rotate around the pivot. A pair of sliding holes are provided on the pendulum frame. The pair of sliding holes are located on the same straight line and are respectively provided on both sides of the pivot. A pair of baffles, the top ends of which are slidably disposed in a pair of sliding holes, and the pair of baffles are perpendicular to the conveying track; A pair of limiting brackets are fixed on the fixed plate and respectively disposed below the pair of stop bars. The limiting brackets are sleeved on the stop bars to limit the stop bars. A driving component, which is mounted on the fixed plate and connected to one end of the swing frame; The driving component drives the swing frame to rotate around the rotating shaft, causing one of the stop bars to connect with the conveying track and block the bearing, while the other stop bar moves away from the conveying track.
9. The bearing conveying device for a rust-preventing machine as described in claim 8, characterized in that, The driving component is a cylinder, the fixed end of which is hinged to the fixed plate, and the output end of which is hinged to one end of the swing frame.