Part cooling conveyor
By combining a plate chain conveyor and a guide hood, and utilizing exhaust fans and jet fans to improve the cooling efficiency of parts, the problems of low cooling efficiency and increased ambient temperature in existing technologies are solved, achieving efficient part cooling and high-temperature resistance of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING BISHAN MAOYU MASCH MFG CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-09
Smart Images

Figure CN224336718U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of parts cooling and transportation technology, specifically a parts cooling and transportation device. Background Technology
[0002] Parts cooling transport refers to a transportation method used during the manufacturing process to ensure that processed parts can be quickly cooled to a suitable temperature for subsequent processing. This method is typically used for parts that become very hot after processing, such as metal parts that have undergone high-temperature forging, casting, welding, or heat treatment.
[0003] For example, Chinese Patent CN112499108B discloses a parts cooling and transport device, including a conveyor belt and a feeding mechanism located at the beginning of the conveyor belt. Several placement frames are arranged along the conveyor belt. The bottom of the placement frames is circular. The placement frames are rotatably connected to the conveyor belt. Several serrations are provided on the bottom circumference of the placement frames. A transverse rack is provided on one side of the top and / or bottom of the conveyor belt. The serrations at the bottom of the placement frames mesh with the rack. Cooling mechanisms are provided on the bottom and side of the bottom of the conveyor belt. The output end of the cooling mechanism faces the placement frames on the conveyor belt. The conveyor belt is connected to a transmission mechanism that controls its intermittent transmission.
[0004] The technical solution described in this paper involves placing parts in a placement frame for transportation, limiting the parts to prevent them from accidentally falling off the conveyor belt and causing damage. Simultaneously, a cooling mechanism is used to cool the parts within the rotating placement frame, ensuring thorough cooling on all surfaces. However, the cooling method employed in this solution involves a moving piston plate compressing gas on one side of the piston cylinder, causing the gas to be discharged through a corresponding air pipe. When the piston plate moves away from the air pipe, the air pipe does not discharge gas. This method has low heat dissipation efficiency. Common cooling conveyor belts primarily use fans located at the top of the conveyor belt to accelerate airflow for cooling, but this method raises the ambient temperature, thus reducing the cooling effect and making it inconvenient to use.
[0005] Therefore, in view of this, we have studied and improved the existing structure and its shortcomings, and provided a parts cooling and transportation device in order to achieve a more practical purpose. Utility Model Content
[0006] The purpose of this invention is to provide a parts cooling and transport device to solve the problems mentioned in the background art.
[0007] A parts cooling and transport device includes a conveying assembly, a cooling assembly on top of the conveying assembly, the conveying assembly including a plate chain conveyor, a plurality of supporting assemblies fixedly installed on the plate chain conveyor belt, the cooling assembly including an air guide hood, a base plate fixedly installed at the bottom of the air guide hood, the base plate being disposed inside the plate chain conveyor belt, the air guide hood being disposed at the top of the plate chain conveyor, an exhaust port being provided at the center of the top of the air guide hood, an exhaust fan being fixedly installed between the air guide hood and the exhaust port, the exhaust fan output end facing the exhaust port, and the exhaust fan being a high-temperature resistant fan.
[0008] By adopting the above technical solution, the plate chain conveyor facilitates the continuous forward transport of parts. Its robust structure makes it suitable for high-temperature environments. The support components ensure the parts are supported, preventing them from falling or tilting during transport. The air guide hood and base plate facilitate the formation of an exhaust channel, guiding airflow. The base plate, located inside the plate chain conveyor, allows parts to pass through the air guide hood, guiding airflow over the parts' surfaces for heat dissipation. The exhaust port allows connection to external exhaust pipes, facilitating the removal of hot air and preventing heat from spreading into the transport environment and affecting cooling. The exhaust fan actively extracts hot air from the air guide hood, accelerating heat exchange and improving cooling. It also maintains negative pressure inside the air guide hood, preventing hot air from escaping. The high-temperature resistant exhaust fan adapts to high-temperature environments, extending its service life.
[0009] Furthermore, mounting brackets are fixedly installed at both ends of the air guide cover, and a fixing bracket is fixedly installed at the top center of the mounting bracket.
[0010] By adopting the above technical solution and setting the mounting bracket, it is easy to fix the bracket at both ends of the air guide cover.
[0011] Furthermore, a jet fan is fixedly installed inside the fixed frame, with the output end of the jet fan facing the end of the air guide shroud.
[0012] By adopting the above technical solution, the jet fan is set up to facilitate the high-speed jetting of air into the air guide shroud, which drives the surrounding air to flow into the air guide shroud, forming a strong jet effect, allowing the cold air in the environment to enter the air guide shroud and carry away the temperature of the parts.
[0013] Furthermore, the plate chain conveyor is fixedly installed with brackets on both sides and the bottom, and the top of the brackets is fixedly connected to the bottom of the base plate.
[0014] By adopting the above technical solution and setting up the bracket, it is convenient to provide an installation foundation for the plate chain conveyor and cooling components.
[0015] Furthermore, a drive motor is fixedly installed on one side of the plate chain conveyor, and the output end of the drive motor is fixedly connected to the input end of the plate chain conveyor.
[0016] By adopting the above technical solution and by setting the drive motor, it is convenient to control the operation of the plate chain conveyor.
[0017] Furthermore, the supporting assembly includes a pallet, the bottom of which is fixedly connected to the surface of the plate chain conveyor.
[0018] By adopting the above technical solution, the pallet arrangement facilitates the fixed installation of the support components on the plate chain conveyor, which is used to support high-temperature parts and isolate the parts from the plate chain conveyor, thus improving service life.
[0019] Furthermore, a number of support strips are fixedly installed on the top of the tray, and the support strips are arranged at equal intervals.
[0020] By adopting the above technical solution, the setting of the support strips facilitates the formation of heat dissipation grooves between the support strips. The parts are placed on top of the support strips, and the width of the heat dissipation grooves is less than the minimum width of the parts, which allows air to flow from the bottom of the parts to carry away heat and improve the heat dissipation and cooling effect.
[0021] Furthermore, the support strip has end caps at both ends, and side plates are fixedly installed on the top of the support strip at both ends of the support plate.
[0022] By adopting the above technical solution, the setting of the end and side plates facilitates the formation of a barrier on the outer side of the top of the support bar, preventing parts from falling off due to vibration during the conveying process.
[0023] Compared with the prior art, the beneficial effects of this utility model are as follows: The plate chain conveyor facilitates the continuous forward transport of parts, and its robust structure makes it suitable for high-temperature environments. The supporting components ensure the parts are supported and prevent them from falling or tilting during transport. The air guide hood and base plate facilitate the formation of an exhaust channel, guiding the direction of airflow. The base plate, located inside the plate chain conveyor belt, allows the conveyor to carry parts through the air guide hood, facilitating airflow over the parts' surface for heat dissipation. The inclusion of an exhaust port facilitates connection to external exhaust ducts, allowing for the efficient removal of hot air and preventing heat from diffusing into the transport environment and affecting cooling performance. The exhaust fan actively draws hot air from the air guide shroud, accelerating heat exchange and improving cooling efficiency. It also maintains negative pressure inside the shroud to prevent hot air leakage. The high-temperature resistant exhaust fan adapts well to high-temperature environments, extending its service life. This invention effectively directs hot air outwards, preventing heat from spreading into the environment and improving the cooling performance of components, demonstrating significant practical value. Attached Figure Description
[0024] Figure 1 This is a three-dimensional structural diagram of a parts cooling and transport device according to the present invention;
[0025] Figure 2 This is a three-dimensional structural diagram of the cooling component of this utility model;
[0026] Figure 3 This is a three-dimensional structural diagram of the mounting bracket of this utility model;
[0027] Figure 4 This is a three-dimensional structural diagram of the conveying component of this utility model;
[0028] Figure 5 This is a three-dimensional structural diagram of the support component of this utility model.
[0029] In the diagram: 1. Conveying assembly; 11. Support frame; 12. Plate chain conveyor; 13. Drive motor; 2. Supporting assembly; 21. Pallet; 22. Support bar; 23. End; 24. Side plate; 3. Cooling assembly; 31. Air guide hood; 32. Exhaust port; 33. Exhaust fan; 34. Mounting bracket; 35. Fixing bracket; 36. Jet fan; 37. Base plate. Detailed Implementation
[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0031] Please see Figures 1-5 This utility model provides a technical solution: a parts cooling and transport device, including a conveying assembly 1, with a cooling assembly 3 on top of the conveying assembly 1. The conveying assembly 1 includes a plate chain conveyor 12. The plate chain conveyor 12 facilitates the continuous forward transport of parts and is robust enough to be suitable for high-temperature environments. Several support assemblies 2 are fixedly installed on the plate chain conveyor 12 to support the parts and prevent them from falling or tilting during transport. The cooling assembly 3 includes an air guide hood 31, with a base plate 37 fixedly installed at the bottom. The air guide hood 31 and the base plate 37 form an exhaust channel to guide the direction of airflow. The base plate 37 is located inside the plate chain conveyor 12. The conveyor 12 drives the parts through the inside of the air guide shroud 31, which facilitates the airflow guided by the air guide shroud 31 to blow over the surface of the parts for heat dissipation. The air guide shroud 31 is set on the top of the plate chain conveyor 12. The top center of the air guide shroud 31 is provided with an exhaust port 32. The exhaust port 32 facilitates connection to an external exhaust pipe, which facilitates the discharge of hot air to the outside and prevents heat from spreading into the conveying environment and affecting the heat dissipation and cooling effect. An exhaust fan 33 is fixedly installed between the air guide shroud 31 and the exhaust port 32. The exhaust fan 33 facilitates the active extraction of hot air from the air guide shroud 31, accelerates heat exchange, improves the cooling effect, and maintains a negative pressure state inside the air guide shroud 31 to prevent hot air from escaping. The output end of the exhaust fan 33 faces the exhaust port 32. The exhaust fan 33 is a high-temperature resistant fan, which facilitates its adaptation to high-temperature environments and helps to improve its service life.
[0032] The air guide cover 31 is fixedly installed with mounting brackets 34 at both ends, and a fixing bracket 35 is fixedly installed at the top center of the mounting bracket 34. The mounting brackets 34 facilitate the fixing of the fixing bracket 35 at both ends of the air guide cover 31.
[0033] The fixed frame 35 has a jet fan 36 fixedly installed inside. The output end of the jet fan 36 faces the end of the air guide shroud 31. The setting of the jet fan 36 facilitates the jet fan 36 to spray air at high speed into the air guide shroud 31, driving the surrounding air to flow into the air guide shroud 31, forming a strong jet effect, allowing the cold air in the environment to enter the air guide shroud 31 and take away the temperature of the parts.
[0034] Among them, the plate chain conveyor 12 is fixedly installed on both sides and the bottom of the plate chain conveyor 12. The top of the support 11 is fixedly connected to the bottom of the base plate 37. The support 11 provides a foundation for the plate chain conveyor 12 and the cooling assembly 3.
[0035] Among them, a drive motor 13 is fixedly installed on one side of the plate chain conveyor 12. The output end of the drive motor 13 is fixedly connected to the input end of the plate chain conveyor 12. The setting of the drive motor 13 facilitates the operation of the plate chain conveyor 12 by controlling the operation of the drive motor 13.
[0036] The supporting component 2 includes a pallet 21. The bottom of the pallet 21 is fixedly connected to the surface of the plate chain conveyor 12. The pallet 21 facilitates the fixed installation of the supporting component 2 on the plate chain conveyor 12 to support high-temperature parts and isolate the parts from the plate chain conveyor 12, which helps to improve the service life.
[0037] The top of the support plate 21 is fixedly equipped with several support strips 22, which are arranged at equal intervals. The support strips 22 facilitate the formation of heat dissipation grooves between them. The width of the heat dissipation grooves is less than the minimum width of the parts. The parts are placed on the top of the support strips 22, which allows air to flow from the bottom of the parts to carry away heat and improve the heat dissipation and cooling effect.
[0038] The support bar 22 has end heads 23 at both ends, and side plates 24 are fixedly installed on the top of the support bar 22 at both ends of the support plate 21. The end heads 23 and side plates 24 facilitate the formation of a barrier on the outer side of the top of the support bar 22, preventing parts from falling off due to vibration during the conveying process.
[0039] Specifically, the working principle of this part cooling and transport device is as follows: During use, the bracket 11 provides a mounting base for the plate chain conveyor 12 and the cooling assembly 3. The pallet 21 allows for the fixed installation of the support assembly 2 on the plate chain conveyor 12 to support high-temperature parts, isolating the parts from the conveyor 12 and improving its service life. The support bars 22 facilitate the formation of heat dissipation grooves between them. The parts are placed on top of the support bars 22, and the width of the heat dissipation grooves is less than the minimum width of the parts, allowing air to easily pass through. The bottom of the parts flows through, carrying away heat and improving the cooling effect. The end cap 23 and side plate 24 facilitate the formation of a barrier on the outer side of the top of the support bar 22, preventing parts from falling due to vibration during transport. The drive motor 13 facilitates the operation of the plate chain conveyor 12. The plate chain conveyor 12 is designed to carry and continuously transport parts forward. Its robust structure makes it suitable for high-temperature environments. The air guide shroud 31 and bottom plate 37 facilitate the arrangement of parts in rows. The air duct, designed to guide airflow, is located inside the plate chain conveyor 12 via the base plate 37. This allows the conveyor 12 to carry parts through the air guide shroud 31, facilitating airflow over the parts' surfaces for heat dissipation. The exhaust port 32 allows for connection to external exhaust pipes, enabling the removal of hot air and preventing heat from diffusing into the conveying environment and affecting cooling efficiency. The exhaust fan 33 actively extracts hot air from the air guide shroud 31, accelerating heat exchange. The cooling effect is improved and the negative pressure inside the air guide shroud 31 is maintained to prevent hot air from escaping. The exhaust fan 33 is a high-temperature resistant fan, which is easy to adapt to high-temperature environments and helps to improve service life. The mounting bracket 34 makes it easy to fix the fixing bracket 35 at both ends of the air guide shroud 31. The jet fan 36 makes it easy for the jet fan 36 to spray air into the air guide shroud 31 at high speed, driving the surrounding air to flow into the air guide shroud 31 and forming a strong jet effect, so that the cold air in the environment enters the air guide shroud 31 and removes the temperature of the parts.
[0040] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A parts cooling and transport device, characterized in that, The system includes a conveying assembly (1), a cooling assembly (3) on top of the conveying assembly (1), a plate chain conveyor (12), a plurality of supporting assemblies (2) fixedly installed on the plate chain conveyor (12), a cooling assembly (3) including a guide hood (31), a base plate (37) fixedly installed at the bottom of the guide hood (31), the base plate (37) being located inside the plate chain conveyor (12), the guide hood (31) being located at the top of the plate chain conveyor (12), an exhaust port (32) being provided at the middle of the top of the guide hood (31), an exhaust fan (33) being fixedly installed between the guide hood (31) and the exhaust port (32), the output end of the exhaust fan (33) facing the exhaust port (32), and the exhaust fan (33) being a high temperature resistant fan.
2. The parts cooling and transport device according to claim 1, characterized in that, The air guide cover (31) is fixedly installed with mounting brackets (34) at both ends, and a fixing bracket (35) is fixedly installed at the top center of the mounting bracket (34).
3. The parts cooling and transport device according to claim 2, characterized in that, The fixed frame (35) has a jet fan (36) fixedly installed inside, and the output end of the jet fan (36) faces the end of the air guide shroud (31).
4. The parts cooling and transport device according to claim 1, characterized in that, The plate chain conveyor (12) is fixedly installed with brackets (11) on both sides and bottom, and the top of the brackets (11) is fixedly connected to the bottom of the base plate (37).
5. A parts cooling and transport device according to claim 4, characterized in that, A drive motor (13) is fixedly installed on one side of the plate chain conveyor (12), and the output end of the drive motor (13) is fixedly connected to the input end of the plate chain conveyor (12).
6. A parts cooling and transport device according to claim 1, characterized in that, The supporting component (2) includes a pallet (21), the bottom of which is fixedly connected to the surface of the plate chain belt of the plate chain conveyor (12).
7. A parts cooling and transport device according to claim 6, characterized in that, A number of support strips (22) are fixedly installed on the top of the tray (21), and the support strips (22) are arranged at equal intervals.
8. A parts cooling and transport device according to claim 7, characterized in that, The support strip (22) has end caps (23) at both ends, and side plates (24) are fixedly installed on the top of the support strip (22) at both ends of the support plate (21).