A kind of oiling machine for keeping frame nail after painting
By designing an oiling and slinging machine for cage nailing, the problems of uneven oiling and high labor intensity were solved, realizing automated and uniform oiling and recycling of anti-rust oil, thus improving oiling quality and work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG GOLDEN EMPIRE PRECISION MACHINERY TECH CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-07-10
AI Technical Summary
Existing oiling devices do not apply oil evenly to the retainer after nailing, resulting in high labor intensity, low work efficiency, and the traditional oil spray box structure is prone to oil splashing and cleaning difficulties.
Design an oiling and slinging machine for applying oil to cages after nailing, including an oil slinging device, a filter device, and an oil storage device. The oiling is uniformly applied by rotating the oil slinging cylinder, and the oiling effect is improved by combining the nozzle and the filter. Impurities are settled in a sedimentation tank for recycling of the rust-preventive oil.
It achieves fully automated and uniform oiling of cages, reducing labor intensity and improving work efficiency. The design of the sedimentation tank ensures the purity of the anti-rust oil and improves the oiling quality.
Smart Images

Figure CN224475164U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of oiling devices, specifically relating to an oiling and slinging machine for applying oil to a cage after it has been nailed through. Background Technology
[0002] After the cage is riveted, it needs to be oiled to enhance its rust resistance and extend its service life. On-site, this is usually done manually by brushing the cage with rust-preventive oil or by immersing the cage in a container of rust-preventive oil. However, after prolonged immersion, the cage surface may have excessive rust-preventive oil, resulting in waste. Manual brushing not only increases labor intensity but also leads to uneven oiling and reduced coating quality due to inconsistent brushing pressure and missed areas. Therefore, an automated oiling device is needed to avoid the problems associated with manual brushing.
[0003] In existing oiling devices, oiling is rarely applied to the retainer after nailing. Instead, vegetable oil is usually sprayed onto the finished product after casting. For example, patent application number 201621451666.X requires a sealed spray tank. The finished product is placed in the sealed spray tank, and the nozzle sprays oil into the spray tank. The oil is agitated by rotating the fixed frame inside the spray tank to coat the surface of the finished product with vegetable oil. First, its injection tank has a sealed circumference. A filter screen is installed at the bottom of the injection tank, and an oil collection tank is located below the filter screen. The oil in the injection tank is stored in the oil collection tank below after passing through the filter screen. When the nozzle sprays oil towards the injection tank, the oil splashes on the annular inner wall of the injection tank under the agitation of the fixed frame, and then flows down the wall to the oil collection tank at the bottom. It may also cause some oil to adhere to the inner wall, making it difficult to clean the injection tank. Second, its fixed frame rotates while the injection tank does not rotate. When the internal parts are large or numerous, it will hinder the rotation of the fixed frame, making it difficult to apply oil smoothly. Therefore, it is not suitable for batch oiling of retainers. Utility Model Content
[0004] This invention provides an oiling and slinging machine for cages after nailing, to solve the problems of uneven oiling of cages after nailing, increased labor intensity, and low work efficiency.
[0005] The technical solution adopted in this utility model is as follows:
[0006] An oil-spraying machine for applying oil to a cage after nailing includes a machine body and a control device, an oil-spraying device, a filtering device, and an oil storage device connected inside the machine body;
[0007] The oil slinger includes a housing, an oil slinger cylinder, and a drive unit; the control unit is connected to the drive unit; the housing is connected to the machine body, and the housing has an oil outlet connected to an oil storage device and an oil inlet connected to a filter device; the oil slinger cylinder is rotatably connected to the housing through the drive unit; the circumferential surface of the oil slinger cylinder has multiple oil passage holes that connect the inner cavity of the oil slinger cylinder to the housing.
[0008] After the oil slinger is filled with rust-preventive oil, it is rotated inside the housing by a drive device to apply oil to the retainer inside the oil slinger by oil slinging. The remaining rust-preventive oil after application can flow out through the oil passage and oil outlet to the oil storage device for recirculation.
[0009] The oiling and slinging machine for applying oil to a cage after it has been studded with pins, according to this utility model, also has the following additional technical features:
[0010] The oil-slinging device also includes a nozzle disposed above the oil-slinging cylinder. The nozzle can be connected to the oil storage device through a pipeline to spray the rust-preventive oil in the oil storage device into the oil-slinging cylinder through the nozzle.
[0011] The machine body has a box at the bottom and a baffle at the top of the box; the top surface of the box has a feed port that communicates with the oil slinger, and a protective cover is hinged to the feed port.
[0012] The filtration device includes a filter and a first oil pump connected together; the first oil pump is connected to an oil storage device, and the filter is connected to an oil inlet. The first oil pump delivers the rust-preventive oil in the oil storage device to the oil slinger through the oil inlet after filtering it through the filter.
[0013] The driving device includes a drive motor, a transmission mechanism, and a rotating shaft; the drive motor is connected to the housing, the drive motor is connected to the transmission mechanism, the transmission mechanism is connected to the rotating shaft, and the rotating shaft is connected to the bottom of the oil slinger. The drive motor drives the transmission mechanism to rotate so that the rotating shaft rotates, thereby driving the oil slinger to rotate.
[0014] The oil storage device includes an oil storage tank and a sedimentation tank connected together. The sedimentation tank is connected above the oil storage tank, and the end face of the oil storage tank facing the oil slinger extends beyond the sedimentation tank, so that the sedimentation tank and the oil storage tank are staggered along the length direction, allowing the rust-preventive oil in the sedimentation tank to flow into the oil storage tank. The oil storage tank and the sedimentation tank are connected by a second oil pump, so that the rust-preventive oil in the oil storage tank is transported to the sedimentation tank by the second oil pump for filtration and sedimentation, so that impurities are deposited at the bottom of the sedimentation tank.
[0015] The oil reservoir has an upward-facing opening corresponding to the oil outlet, so that the rust-preventive oil flowing out of the oil outlet of the casing can enter the oil reservoir through the opening.
[0016] The interior of the sedimentation tank is divided into a first chamber and a second chamber by a filter plate. The first chamber is located above the second chamber. The side of the first chamber facing the oil slinger has a first interface connected to the second oil pump to deliver the rust-preventive oil in the oil storage tank into the first chamber through the first interface. The side of the second chamber facing the oil slinger has a second interface to output the rust-preventive oil entering the first chamber to the oil storage tank after being filtered by the filter plate. The side of the second chamber away from the oil slinger has a third interface.
[0017] The sedimentation tank is inclined towards the bottom of the oil storage tank, so that the distance between the sedimentation tank and the oil storage tank gradually decreases from the side closer to the oil slinger to the side farther away from the oil slinger, so that impurities flow along the inclined plane to the third interface side for accumulation.
[0018] The baffle includes a first baffle located on the back of the enclosure and a second baffle located on both sides of the enclosure along its length. The first baffle is connected to multiple lighting fixtures.
[0019] Due to the adoption of the above technical solution, the beneficial effects achieved by this utility model are as follows:
[0020] 1. The oil-slinging device of this application includes a housing, an oil-slinging cylinder, and a driving device; a control device is connected to the driving device; the housing is connected to the machine body, and the housing has an oil outlet connected to an oil storage device and an oil inlet connected to a filter device; the oil-slinging cylinder is rotatably connected to the housing via the driving device; the circumferential surface of the oil-slinging cylinder has multiple oil passage holes connecting the inner cavity of the oil-slinging cylinder and the housing. In use, a batch of retainers is placed into the oil-slinging cylinder; the rust-preventive oil in the oil storage device is filtered through the filter device via an oil pump and pipeline and then output to the oil-slinging cylinder. The driving device drives the oil-slinging cylinder to rotate, so that the retainers in the oil-slinging cylinder are coated with oil by oil slinging. After a certain period of time, the control device controls the oil-slinging cylinder of the oil-slinging device to stop rotating, and each set of retainers is taken out. The remaining rust-preventive oil flows out through the oil passage holes of the oil-slinging cylinder into the cavity between the housing and the oil-slinging cylinder, and then flows back to the oil storage device through the oil outlet of the housing. It avoids the problems of uneven oiling, high labor intensity, and reduced work efficiency caused by traditional manual coating. It can achieve fully automated and uniform oiling, improve oiling quality, and coat a batch of cages at once, thereby improving work efficiency.
[0021] 2. In a preferred embodiment of this utility model, the oil-slinging device further includes a nozzle disposed above the oil-slinging cylinder. The nozzle is connected to the oil storage device via a pipeline to spray the rust-preventive oil in the oil storage device into the oil-slinging cylinder. The purpose of disposing the nozzle above the oil-slinging cylinder is to spray the rust-preventive oil in the oil storage device downwards into the oil-slinging cylinder through the nozzle above the oil-slinging cylinder, thereby coating the retainer inside the oil-slinging cylinder and enhancing the oiling effect on the retainer. This allows the retainer to be more fully and evenly coated with oil under the combined action of spraying and oil slinging.
[0022] 3. In a preferred embodiment of this utility model, the oil storage device includes an oil storage tank and a settling tank connected together. The settling tank is connected above the oil storage tank, and the end face of the oil storage tank facing the oil slinger extends beyond the settling tank, so that the settling tank and the oil storage tank are staggered along the length direction. Along the length direction of the tank body, the length of the oil storage tank is greater than the length of the settling tank, so that the length of the oil storage tank facing the oil slinger is greater than the length of the settling tank facing the oil slinger. The purpose of this arrangement is to allow the rust-preventive oil in the settling tank to fall back down into the oil storage tank on the side of the settling tank facing the oil slinger. In use, the oil storage tank and the settling tank are connected by a second oil pump, which pumps the rust-preventive oil in the oil storage tank upward into the settling tank. After settling in the settling tank, the rust-preventive oil can flow down down into the oil storage tank on the side of the settling tank facing the oil slinger. Attached Figure Description
[0023] The accompanying drawings, which are included to provide a further understanding of the present invention and constitute a part of this invention, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:
[0024] Figure 1 This is an overall structural diagram of an oiling and slinging machine for applying oil after nailing a cage, according to one embodiment of the present invention;
[0025] Figure 2 This is an internal structural diagram of an oiling and slinging machine for a cage after nailing, according to one embodiment of the present invention, at a first angle.
[0026] Figure 3 This is a second-angle internal structural diagram of an oiling and slinging machine for a cage after nailing, according to one embodiment of the present invention;
[0027] Figure 4 This is a schematic diagram of the internal structure of an oil storage device for an oiling and slinging machine for a cage after nailing, according to one embodiment of this application;
[0028] In the picture,
[0029] 1. Body; 2. Control device; 3. Oil slinger; 31. Shell; 32. Oil slinger cylinder; 33. Drive device; 4. Filter device; 41. First oil pump; 42. Filter; 5. Oil storage device; 51. Oil storage tank; 52. Sedimentation tank; 6. Baffle; 7. Protective cover; 8. Second oil pump; 9. First cavity; 10. Second cavity; 11. First interface; 12. Second interface; 13. Third interface; 14. Filter plate; 15. Oil outlet; 16. Opening. Detailed Implementation
[0030] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the scope of protection of the present invention is not limited to the specific embodiments disclosed below.
[0031] Furthermore, it should be understood in the description of this utility model that the terms "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0032] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection, an electrical connection, or a communication connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0033] In this invention, unless otherwise expressly specified and limited, the first feature "on" or "below" the second feature may be in direct contact with the first and second features, or indirect contact through an intermediate medium. In the description of this specification, references to terms such as "implementation," "example," "aspect," or "specific example" indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of this invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0034] To more clearly illustrate the overall concept of this utility model, a detailed description will be provided below with reference to the accompanying drawings.
[0035] This utility model relates to an oiling and slinging machine for applying oil to a cage after it has been threaded through the pins, such as... Figure 1-4 As shown, the device includes a body 1 and a control device 2, an oil-throwing device 3, a filter device 4, and an oil storage device 5 connected inside the body 1. The oil-throwing device 3 includes a housing 31, an oil-throwing cylinder 32, and a drive device 33. The control device 2 is connected to the drive device 33. The housing 31 is connected to the body 1 and has an oil outlet 15 connected to the oil storage device 5 and an oil inlet connected to the filter device 4. The oil output from the filter device 4 is output through the oil inlet to the nozzle above the oil-throwing cylinder 32 inside the oil outlet, and the rust-preventive oil is sprayed into the oil-throwing cylinder 32 through the nozzle.
[0036] The oil slinger 32 is rotatably connected to the housing 31 via the drive device 33. The circumferential surface of the oil slinger 32 has multiple oil passage holes that connect the inner cavity of the oil slinger 32 to the housing 31. After the oil slinger 32 is filled with rust-preventive oil, it is rotated in the housing 31 via the drive device 33 to coat the retainer inside the oil slinger 32 with oil by oil slinging. The remaining rust-preventive oil after coating can flow out through the oil passage holes and the oil outlet 15 to the oil storage device 5 for recirculation.
[0037] One half of the split cage requires a rivet installation process, which is the traditional method of installing rivets. After rivet installation, the cage needs to be oiled to enhance its lubrication and rust prevention properties. Traditionally, oiling the cage requires manual application of rust-preventive oil using a brush, which is not only time-consuming and labor-intensive but also results in uneven application. Some areas may not be covered, leading to rust and affecting subsequent processing and use. Therefore, this application relates to an automated oiling device that can oil cages in the same batch, improving oiling efficiency and reducing labor intensity.
[0038] In use, the retainers with pins are placed into the oil slinger 32. Preferably, multiple retainers are connected in series on one rod, and then the rods are placed into the oil slinger 32 together. The rust-preventive oil in the oil storage device 5 is filtered by the oil pump and pipeline through the filter device 4, and then enters the nozzle above the oil slinger through the oil outlet. The oil is sprayed into the oil slinger 32 through the nozzle. The oil slinger 32 is driven to rotate by the drive device 33, so that the retainers in the oil slinger 32 are coated with oil by oil slinging. After a certain period of time, the oil slinger 32 of the oil slinger device 3 is stopped by the control device 2, and each string of retainers is taken out. The remaining rust-preventive oil flows out through the oil passage of the oil slinger 32 into the cavity between the housing 31 and the oil slinger 32, and then flows back to the oil storage device 5 through the oil outlet 15 of the housing 31. It avoids the problems of uneven oiling, high labor intensity, and reduced work efficiency caused by traditional manual coating. It can achieve fully automated and uniform oiling, improve oiling quality, and coat a batch of cages at once, thereby improving work efficiency.
[0039] To improve the utilization efficiency of rust-preventive oil, the oil storage device 5 of this application includes an oil storage tank 51 for storing rust-preventive oil, and a sedimentation tank 52 connected to the oil storage tank 51 is also provided above the oil storage tank 51. The purpose of the sedimentation tank 52 is to allow the rust-preventive oil in the oil storage tank 51 to settle. After the oil slinger stops, the rust-preventive oil in the oil storage tank 51 can be pumped and piped to the sedimentation tank 52 for sedimentation and purification. Impurities in the rust-preventive oil can be collected at the bottom of the sedimentation tank 52, and the purified rust-preventive oil can be pumped back to the oil storage tank 51 from the top for recycling. In practical applications, after the oil slinger stops working, the impurities in the rust-preventive oil can be filtered out by sedimentation in the sedimentation tank 52 overnight, making it convenient to recycle the rust-preventive oil in the oil storage tank 51 during the next working day, thereby ensuring the purity of the rust-preventive oil and improving the oiling quality of the cage.
[0040] In a preferred embodiment, the oil-slinging device 3 also includes a nozzle disposed above the oil-slinging cylinder 32. The nozzle can be connected to the filter device through a pipeline so that the rust-preventive oil in the oil storage device 5 is filtered by the filter device and then sprayed into the oil-slinging cylinder 32 through the nozzle.
[0041] The purpose of setting the nozzle of the oil-slinging device 3 above the oil-slinging cylinder 32 is to allow the rust-preventive oil in the oil storage device 5 to pass through the filter device and then be sprayed downwards into the oil-slinging cylinder 32 through the nozzle above the oil-slinging cylinder 32, so as to spray the retainer inside the oil-slinging cylinder 32, enhance the oiling effect on the retainer, and make the retainer more fully and evenly coated with oil under the dual action of spraying and oil slinging.
[0042] In a preferred embodiment, the machine body 1 has a box at the bottom of the machine body 1 and a baffle 6 at the top of the box; the top surface of the box has a feed port that communicates with the oil slinger 32, and a protective cover 7 is hinged to the feed port.
[0043] like Figure 1 As shown, the bottom housing of the machine body 1 is used to store the oil storage device 5, control device 2, filter device 4, and oil slinger 3. A baffle 6 is installed on the top of the housing to protect it, forming a platform on the top surface. When cages are placed on the platform and connected to the rod, the baffle prevents the cages from rolling off the platform to the ground, thus protecting the platform. In addition, this application has a feed inlet on the top surface of the housing, with a protective cover 7 hinged to the feed inlet. In use, the protective cover 7 can be opened, and multiple cages can be placed through the feed inlet into the oil slinger 32 for oiling, enabling batch oiling of cages.
[0044] In a preferred embodiment, the filtration device 4 includes a filter 42 and a first oil pump 41 connected together; the first oil pump 41 is connected to the oil storage device 5, and the filter 42 is connected to the oil inlet. The first oil pump 41 delivers the rust-preventive oil in the oil storage device 5 to the oil slinger 32 through the oil inlet after filtering it through the filter 42.
[0045] The filter device 4 uses a filter 42 and a first oil pump 41. The purpose of the first oil pump 41 is to connect the filter 42 and the oil storage device 5, so that the rust-preventive oil in the oil storage device 5 can be transported to the filter 42 for filtration, so that the filtered oil can be output to the nozzle of the oil slinger 32. After being output through the nozzle to the oil slinger 32, the oil is applied to the retainer inside the oil slinger 32.
[0046] In a preferred embodiment, the drive device 33 includes a drive motor, a transmission mechanism, and a rotating shaft; the drive motor is connected to the housing 31, the drive motor is connected to the transmission mechanism, the transmission mechanism is connected to the rotating shaft, the rotating shaft is connected to the bottom of the oil slinger 32, the drive motor drives the transmission mechanism to rotate so that the rotating shaft rotates, thereby driving the oil slinger 32 to rotate.
[0047] like Figure 2 As shown, the drive motor of the drive device 33 is connected to the housing 31, and the transmission mechanism is connected between the drive motor and the rotating shaft. The drive motor rotates and transmits power to the rotating shaft through the transmission mechanism. The rotation of the rotating shaft can drive the oil slinger 32 to rotate.
[0048] The transmission mechanism can employ either sprocket drive or belt drive. Preferably, in this application, the transmission mechanism uses belt drive, with the driving wheel connected to the output shaft of the drive motor and the driven wheel connected to the rotating shaft. The driving wheel and the driven wheel are connected by a belt. When the drive motor rotates, it drives the driving wheel to rotate, which in turn drives the driven wheel to rotate via the belt. The driven wheel then drives the rotating shaft to rotate, and the rotating shaft is fixedly connected to the oil slinger 32, thus enabling the oil slinger 32 to rotate. Alternatively, sprocket drive can be used, with the driving sprocket connected to the drive motor and the driven sprocket connected to the rotating shaft. The driving sprocket and the driven sprocket are connected by a chain.
[0049] In a preferred embodiment, the oil storage device 5 includes an oil storage tank 51 and a sedimentation tank 52 connected together. The sedimentation tank 52 is connected above the oil storage tank 51, and the end face of the oil storage tank 51 facing the oil slinger 32 extends beyond the sedimentation tank 52, so that the sedimentation tank 52 and the oil storage tank 51 are staggered along the length direction, allowing the rust-preventive oil in the sedimentation tank 52 to flow into the oil storage tank 51. The oil storage tank 51 and the sedimentation tank 52 are connected by a second oil pump 8, so that the rust-preventive oil in the oil storage tank 51 is transported to the sedimentation tank 52 by the second oil pump 8 for filtration and sedimentation, so that impurities are deposited at the bottom of the sedimentation tank 52.
[0050] like Figure 2 As shown, the oil-throwing device 3 is located on one side of the tank, and the oil storage device 5 is located on the other side of the tank. The oil storage device 5 includes an oil storage tank 51 located below and a sedimentation tank 52 located above the oil storage tank 51. Along the length of the tank, the length of the oil storage tank 51 is greater than the length of the sedimentation tank 52, such that the length of the oil storage tank 51 extending towards the oil-throwing device 3 is greater than the length of the sedimentation tank 52 extending towards the oil-throwing device 3. Figure 2 The orientation shown allows the left end of the oil storage tank 51 to extend beyond the left end of the upper sedimentation tank 52 by a certain distance, thus achieving a staggered distribution between the oil storage tank 51 and the sedimentation tank 52. The purpose of this arrangement is to allow the rust-preventive oil in the sedimentation tank 52 to fall back down into the oil storage tank 51 on the side of the sedimentation tank 52 facing the oil-throwing device 3. In use, the oil storage tank 51 and the sedimentation tank 52 are connected via a second oil pump 8, which pumps the rust-preventive oil in the oil storage tank 51 upwards into the sedimentation tank 52. After sedimentation in the sedimentation tank 52, the rust-preventive oil flows down down into the oil storage tank 51 on the side of the sedimentation tank 52 facing the oil-throwing device 3.
[0051] In order to ensure that the rust-preventive oil from the oil outlet 15 of the oil-slinging device 3 can flow smoothly back into the oil storage tank 51, the oil storage tank 51 is provided with an opening 16 corresponding to the oil outlet 15. That is, the oil storage tank 51 has an upward-facing opening 16 corresponding to the oil outlet 15. The rust-preventive oil in the oil-slinging cylinder 32 can flow through the oil passage hole on the oil-slinging cylinder 32 into the cavity between the housing 31 and the oil-slinging cylinder 32, and then flow out through the oil outlet 15 of the housing 31, and flow back into the oil storage tank 51 through the opening 16.
[0052] In a preferred embodiment, the interior of the sedimentation tank 52 is divided into a first chamber 9 and a second chamber 10 by a filter plate 14. The first chamber 9 is located above the second chamber 10. The rust-preventive oil delivered from the oil storage tank 51 to the first chamber 9 via the second oil pump 8 is first filtered by the filter plate 14 before entering the second chamber 10 for further sedimentation.
[0053] The first cavity 9 has a first interface 11 on the side facing the oil slinger 32, which is connected to the second oil pump 8, so that the rust-preventive oil in the oil tank 51 is transported to the first cavity 9 through the first interface 11. In use, the rust-preventive oil in the oil tank 51 is transported to the first interface 11 through the second oil pump 8 and flows into the first cavity 9 through the first interface 11.
[0054] The second chamber 10 has a second port 12 on the side facing the oil slinger 32, and a third port 13 on the side away from the oil slinger 32. The height of the second port 12 is higher than the height of the third port 13, so that the outlet of the rust-preventive oil is above the outlet of the impurities. With this configuration, the rust-preventive oil entering the first chamber 9 enters the second chamber 10 after being filtered by the filter plate 14. The rust-preventive oil entering the second chamber can further settle, separating the rust-preventive oil from the impurities. The rust-preventive oil can be output to the oil storage tank 51 through the second port 12, while the impurities settle downwards and can be output to the outside through the third port 13.
[0055] In order to ensure that impurities can be smoothly discharged to the outside, the bottom surface of the sedimentation tank 52 is inclined towards the oil storage tank 51, so that the distance between the sedimentation tank 52 and the oil storage tank 51 gradually decreases from the side closer to the oil slinger 32 to the side farther away from the oil slinger 32, so that the impurities flow along the inclined guide surface to the side of the third interface 13 for sedimentation and then flow out from the third interface for collection.
[0056] In a preferred embodiment, the baffle 6 includes a first baffle disposed on the back of the box and a second baffle disposed on both sides of the box along its length. The first baffle is connected to a plurality of lighting fixtures.
[0057] The lights on the first baffle provide a light source, making it easier for workers to place the retainer inside the oil slinger 32. The second and third baffles protect the retainer and other structures on the top surface of the housing from both sides. For example, if workers are connecting the retainer on the top platform of the housing, the retainer may fall onto the platform. The baffles can effectively prevent the retainer from rolling off the sides of the housing and falling off the platform. They can also further prevent dust or debris from entering the platform or the oil slinger.
[0058] For any parts not mentioned in this utility model, existing technologies can be used or referenced.
[0059] The various embodiments in this specification are described in a progressive manner. The same or similar parts between the various embodiments can be referred to each other. Each embodiment focuses on describing the differences from other embodiments.
[0060] The above description is merely an embodiment of this utility model and is not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principle of this utility model should be included within the scope of the claims of this utility model.
Claims
1. An oiling and slinging machine for applying oil to a cage after it has been threaded through the pins, characterized in that, It includes the main body and the control devices, oil slinger, filter and oil storage devices connected inside the main body; The oil slinger includes a housing, an oil slinger cylinder, and a drive unit; the control unit is connected to the drive unit; the housing is connected to the machine body, and the housing has an oil outlet connected to an oil storage device and an oil inlet connected to a filter device. The oil slinger is rotatably connected to the housing via a drive device; the circumferential surface of the oil slinger has multiple oil passage holes that connect the inner cavity of the oil slinger to the housing. After the oil slinger is filled with rust-preventive oil, it is rotated inside the housing by a drive device to apply oil to the retainer inside the oil slinger by oil slinging. The remaining rust-preventive oil after application can flow out through the oil passage and oil outlet to the oil storage device for recirculation.
2. The oiling and slinging machine for applying oil after nailing a cage, as described in claim 1, is characterized in that... The oil-slinging device also includes a nozzle disposed above the oil-slinging cylinder. The nozzle can be connected to the oil storage device through a pipeline to spray the rust-preventive oil in the oil storage device into the oil-slinging cylinder through the nozzle.
3. The oiling and slinging machine for cages after nailing, as described in claim 1, is characterized in that... The machine body has a box at the bottom and a baffle at the top of the box; the top surface of the box has a feed port that communicates with the oil slinger, and a protective cover is hinged to the feed port.
4. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 3, is characterized in that... The filtration device includes a filter and a first oil pump connected together; The first oil pump is connected to the oil storage device, and the filter is connected to the oil inlet. The first oil pump pumps the rust-preventive oil in the oil storage device through the filter and then delivers it to the oil slinger through the oil inlet.
5. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 1, characterized in that, The driving device includes a drive motor, a transmission mechanism, and a rotating shaft; The drive motor is connected to the housing, the drive motor is connected to the transmission mechanism, the transmission mechanism is connected to the rotating shaft, and the rotating shaft is connected to the bottom of the oil slinger. The drive motor drives the transmission mechanism to rotate, thereby causing the rotating shaft to rotate, which in turn drives the oil slinger to rotate.
6. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 1, characterized in that, The oil storage device includes an oil storage tank and a settling tank connected together; The settling tank is connected above the oil storage tank. The end face of the oil storage tank facing the oil slinger extends beyond the settling tank, so that the settling tank and the oil storage tank are staggered along the length direction, allowing the rust-preventive oil in the settling tank to flow into the oil storage tank. The oil storage tank and the sedimentation tank are connected by a second oil pump, so that the rust-preventive oil in the oil storage tank is transported to the sedimentation tank for filtration and sedimentation, so that impurities are deposited at the bottom of the sedimentation tank.
7. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 6, is characterized in that... The oil reservoir has an upward-facing opening corresponding to the oil outlet, so that the rust-preventive oil flowing out of the oil outlet of the casing can enter the oil reservoir through the opening.
8. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 7, is characterized in that... The interior of the sedimentation tank is divided into a first chamber and a second chamber by a filter plate. The first chamber is located above the second chamber. The side of the first chamber facing the oil slinger has a first interface connected to the second oil pump so that the rust-preventive oil in the oil storage tank can be transported into the first chamber through the first interface. The second chamber has a second port on the side facing the oil slinger, so that the rust-preventive oil entering the first chamber is filtered by the filter plate and then output to the oil storage tank through the second port; the second chamber has a third port on the side away from the oil slinger.
9. An oiling and slinging machine for a cage after nailing, as described in claim 6, characterized in that, The sedimentation tank is inclined towards the bottom of the oil storage tank, so that the distance between the sedimentation tank and the oil storage tank gradually decreases from the side closer to the oil slinger to the side farther away from the oil slinger, so that impurities flow along the inclined plane to the third interface side for accumulation.
10. An oiling and slinging machine for applying oil to a cage after nailing, as described in claim 1, characterized in that, The baffle includes a first baffle located on the back of the enclosure and a second baffle located on both sides of the enclosure along its length. The first baffle is connected to multiple lighting fixtures.