Electromechanical mechanical drying device

CN224415563UActive Publication Date: 2026-06-26TAIAN HONGRUI ELECTRIC CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAIAN HONGRUI ELECTRIC CO LTD
Filing Date
2025-08-13
Publication Date
2026-06-26

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Abstract

The utility model provides a kind of electromechanical mechanical drying device, mainly related to mechanical drying device field.A kind of electromechanical mechanical drying device, including drying box.The utility model has beneficial effect in that: by setting heating drying structure in drying box interior for the whole heating airflow of drying box interior, for the surface of part and other components etc., further setting shell plate structure with the same direction air inlet of heating airflow in drying box bottom, by setting air outlet and setting air blower in structure both sides, heating airflow enters shell plate structure and is upward to part etc., and the moisture of part surface is by air outlet into shell plate structure and is dried by hot airflow quickly and is discharged, prevent moisture from forming humidification influence to drying box interior, further setting rotatable heating blow structure on the upper portion of cover plate, heating drying is carried out to the upper portion of part and component.
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Description

Technical Field

[0001] This utility model mainly relates to the field of mechanical drying devices, specifically an electromechanical drying device. Background Technology

[0002] In the field of electromechanical machinery, a large number of parts are used. A part refers to an indivisible individual component in a machine. It is a basic component of a machine and a basic unit in the mechanical manufacturing process. In the field of electromechanical machinery, it generally refers to certain parts in the electrical and radio industries (such as resistors and capacitors) and certain parts in the watch industry (such as hairsprings and mainsprings).

[0003] In electromechanical processing, the machining and treatment of parts are often involved, such as cleaning. Parts are immersed in a cleaning tank to remove fine dust or rust. After cleaning, a significant amount of water often adheres to the surface of the parts, which can affect subsequent processing. Therefore, drying is necessary. Existing drying equipment directly places the parts into the placement tank of a drying chamber and dries them with hot air. However, the water adhering to the surface of the parts can seep into the drying chamber, causing water accumulation and affecting drying efficiency. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides an electromechanical drying device. Its main advantages are: a heating and drying structure is installed inside the drying chamber to generate a heated airflow throughout the chamber, drying the surfaces of parts and other components; a shell structure is further installed at the bottom of the drying chamber with air intake in the same direction as the heated airflow; air outlets are provided, and blowers are installed on both sides of the structure, allowing the heated airflow to enter the shell structure and dry the parts upwards; moisture on the surface of the parts enters the shell structure through the air outlets, is quickly dried by the hot airflow, and is then discharged, preventing moisture from affecting the interior of the drying chamber; and a rotatable heating and blowing structure is installed on the upper part of the cover plate to heat and dry the upper parts of the parts and components.

[0005] To achieve the above objectives, this utility model employs the following technical solution:

[0006] An electromechanical drying device includes a drying chamber. A fan hole is provided at the front of the drying chamber. A fan protection frame is fixedly mounted at the front of the fan hole. A motor support plate is fixedly mounted in the middle of the fan protection frame. An exhaust motor is fixedly mounted at the center of the rear of the motor support plate. An exhaust fan is fixedly mounted at the output end of the exhaust motor. A plurality of air inlets are circumferentially provided at the rear of the drying chamber. A heating plate bracket is fixedly mounted on the inner side of the rear of the drying chamber. A heating plate is fixedly mounted on the inner side of the heating plate bracket. A second fan protection frame is fixedly mounted on the outer side of the rear of the drying chamber. A second motor support plate is fixedly mounted in the middle of the second fan protection frame. An intake motor is fixedly mounted on the inner side of the second motor support plate. An intake fan is coaxially mounted at the output end of the intake motor.

[0007] Furthermore, a support plate column is fixedly provided at the bottom of the drying box, and a support shell plate is fixedly provided on the upper part of the support plate column. A water outlet hole is opened on the bottom front side of the support shell plate, and a number of heat inlet holes are opened at equal intervals on the rear part of the support shell plate. Fan connecting pipes are fixedly provided on both sides of the support shell plate and communicate with it and are fixedly connected to the drying box. A blower is fixedly provided on the outside of the fan connecting pipe and communicates with it. A number of through holes are densely provided on the upper part of the support shell plate.

[0008] Furthermore, a rotating shaft plate column is fixedly provided on one side of the upper part of the drying box, and a cover plate is fitted around the outer periphery of the rotating shaft plate column. A rotating shaft ring hole is opened in the center of the cover plate, and a rotating shaft ring is provided inside the rotating shaft ring hole and rotated therewith. Gear grooves are opened in a circular pattern at equal intervals on the upper outer periphery of the rotating shaft ring. A gear motor support plate is fixedly provided on one side of the upper part of the cover plate, and a gear motor is fixedly provided on the upper part of the gear motor support plate. The output end of the gear motor is rotatedly connected to the gear motor support plate, and a gear is fixedly provided on the coaxial axis of the output end of the gear motor and meshes with the gear groove.

[0009] Furthermore, a heating fan is fixedly provided on the upper part of the rotating shaft ring, and a blower rod is fixedly provided at the output end of the heating fan, which communicates with and passes through the rotating shaft ring and is fixedly connected to it. Several blower holes are opened at equal intervals at the bottom of the blower rod.

[0010] Compared with the existing technology, the beneficial effects of this utility model are:

[0011] By setting up a heating and drying structure inside the drying oven, a heated airflow is generated throughout the oven to dry the surfaces of parts and other components. Furthermore, a shell structure with air intake in the same direction as the heated airflow is set at the bottom of the drying oven. Air outlets and blowers on both sides of the structure allow the heated airflow to enter the shell structure and rise upwards to dry the parts. Moisture on the surface of the parts enters the shell structure through the air outlets, is quickly dried by the hot airflow, and is then discharged, preventing moisture from affecting the interior of the drying oven. A rotatable heating and blowing structure is further installed on the upper part of the cover plate to heat and dry the upper parts of the parts and components. Through multi-group, multi-directional heating and drying, the drying efficiency is improved. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of this utility model;

[0013] Figure 2 This is a schematic diagram of the structure of this utility model;

[0014] Figure 3 This is a schematic diagram of the structure of this utility model;

[0015] Figure 4 This is a schematic diagram of the supporting shell structure of this utility model;

[0016] Figure 5 This is a schematic diagram of the cover plate structure of this utility model;

[0017] Figure 6 This is a schematic diagram of the rotating shaft collar structure of this utility model.

[0018] The labels shown in the attached diagram:

[0019] 1. Drying oven; 2. Fan hole; 3. Fan protection frame one; 4. Motor support plate one; 5. Exhaust motor; 6. Exhaust fan; 7. Air inlet; 8. Heating plate bracket; 9. Heating plate; 10. Fan protection frame two; 11. Motor support plate two; 12. Air inlet motor; 13. Air inlet fan; 14. Support plate column; 15. Support shell plate; 16. Water outlet; 17. Heat inlet hole; 18. Fan connecting pipe; 19. Blower; 20. Through hole; 21. Shaft plate column; 22. Cover plate; 23. Shaft ring hole; 24. Shaft ring; 25. Gear groove; 26. Gear motor support plate; 27. Gear motor; 28. Gear; 29. ​​Heating fan; 30. Air blowing hole rod; 31. Air blowing hole. Detailed Implementation

[0020] The present invention will be further described in conjunction with the accompanying drawings and specific embodiments. It should be understood that these embodiments are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that after reading the teachings of this invention, those skilled in the art can make various alterations or modifications to the present invention, and these equivalent forms also fall within the scope defined in this application.

[0021] Example: An electromechanical drying device

[0022] like Figure 1-6 As shown, an electromechanical drying device has the following specific structure:

[0023] An electromechanical drying device includes a drying chamber 1. A fan hole 2 is provided at the front of the drying chamber 1. A fan protection frame 3 is fixedly mounted at the front of the fan hole 2. A motor support plate 4 is fixedly mounted in the middle of the fan protection frame 3. An exhaust motor 5 is fixedly mounted at the center of the rear of the motor support plate 4. An exhaust fan 6 is fixedly mounted at the output end of the exhaust motor 5. A plurality of air inlets 7 are circularly provided at the rear of the drying chamber 1. A heating plate bracket 8 is fixedly mounted on the inner side of the rear of the drying chamber 1. A heating plate 9 is fixedly mounted on the inner side of the heating plate bracket 8. A fan protection frame 2 10 is fixedly installed on the outer rear side. A motor support plate 2 11 is fixedly installed in the middle of the fan protection frame 2 10. An air intake motor 12 is fixedly installed on the inner side of the motor support plate 2 11. An air intake fan 13 is fixedly installed coaxially at the output end of the air intake motor 12. The air intake motor 12 drives the air intake fan 13 to rotate, so that the airflow enters the drying chamber 1 through the air intake hole 7. The airflow is further heated by the heating plate 9. The air exhaust fan 6 is driven by the exhaust motor 5 to rotate and exhaust the airflow out of the drying chamber 1.

[0024] The bottom of the drying chamber 1 is fixedly provided with a support plate column 14, and the upper part of the support plate column 14 is fixedly provided with a support shell plate 15. The bottom front side of the support shell plate 15 is provided with a water outlet hole 16, and the rear part of the support shell plate 15 is provided with a plurality of heat inlet holes 17 at equal intervals. Fan connecting pipes 18 are fixedly provided on both sides of the support shell plate 15 and are connected to it and fixedly connected to the drying chamber 1. A blower 19 is fixedly provided on the outside of the fan connecting pipe 18 and is connected to it. The upper part of the support shell plate 15 is densely provided with a plurality of through holes 20. The heating airflow enters the interior of the support shell plate 15 through the heat inlet holes 17, and the airflow is further driven into the interior of the support shell plate 15 through the fan connecting pipe 18 by the blower 19. The airflow is further discharged through the through holes 20, and the water is dried and discharged through the water outlet hole 16.

[0025] A rotating shaft plate column 21 is fixedly installed on one side of the upper part of the drying oven 1. A cover plate 22 is fitted around the outer periphery of the rotating shaft plate column 21. A rotating shaft ring hole 23 is opened in the center of the cover plate 22. A rotating shaft ring 24 is provided inside the rotating shaft ring hole 23 and is rotatably connected to it. Gear grooves 25 are opened at equal intervals around the upper outer periphery of the rotating shaft ring 24. A gear motor support plate 26 is fixedly installed on one side of the upper part of the cover plate 22. A gear motor 27 is fixedly installed on the upper part of the gear motor support plate 26. The output end of the gear motor 27 is rotatably connected to the gear motor support plate 26. A gear 28 is fixedly fixed coaxially at the output end of the gear motor 27 and meshes with the gear groove 25. The gear motor 27 drives the gear 28 to rotate, which in turn drives the rotating shaft ring 24 to rotate.

[0026] A heating fan 29 is fixedly mounted on the upper part of the rotating shaft ring 24. A blower rod 30 is fixedly mounted on the output end of the heating fan 29, which communicates with and passes through the rotating shaft ring 24 and is fixedly connected to it. A plurality of blower holes 31 are opened at equal intervals at the bottom of the blower rod 30. The blower rod 30 is rotated by the rotating shaft ring 24.

[0027] This solution also includes a controller, the location of which is set by the operator according to the actual situation during operation. The controller is used to control the electrical components used in this solution, including but not limited to sensors, motors, telescopic rods, water pumps, solenoid valves, heating wires, heat pumps, displays, computer input devices, switches, communication devices, lights, speakers, and microphones. The controller is an Intel processor, AMD processor, PLC controller, ARM processor, or microcontroller. It is used in conjunction with a motherboard, memory modules, storage media, and power supply, which is AC power or a lithium battery. When a display screen is provided, a graphics card is also included. For the operating principle of the controller, please refer to "Principles of Automatic Control," "Microcontroller Principles and Application Simulation Cases," and "Sensor Principles and Applications" published by Tsinghua University Press. Other books in this field can also be consulted. Other automation control and electrical components not mentioned are knowledge well known to those skilled in the art and will not be described in detail here.

[0028] Working principle:

[0029] In use, the device is first opened by opening the cover plate 22 and placing the parts to be dried inside the drying chamber 1. The parts are then placed on the upper part of the support shell plate 15. The cover plate 22 is then closed. Airflow is introduced into the drying chamber 1 by rotating the inlet fan 13 and the exhaust fan 6. The airflow is heated by the heating plate 9 for drying, while simultaneously flowing into the support shell plate 15. The blower 19 then discharges the heated airflow through the through hole 20 to dry the parts. Excess water on the surface of the parts enters the support shell plate 15 through the through hole 20, where it is quickly dried by the heated airflow inside the support shell plate 15. The humid airflow is then quickly discharged through the water outlet 16. Furthermore, the gear motor 27 drives the rotating shaft ring 24 to rotate, which in turn drives the heating fan 29 and the blowing hole rod 30 to rotate. The heating fan 29 generates hot airflow, which is then blown through the blowing hole 31 to uniformly dry the upper part of the parts.

[0030] In explaining this utility model, it should be noted that the terms indicating location are only for ease of description and understanding, and are not intended to limit the installation location of specific technical features. Other possible installation methods are not excluded.

[0031] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. An electromechanical drying device, comprising a drying chamber (1), characterized in that: The drying box (1) has a fan hole (2) at the front, a fan protection frame (3) is fixed at the front of the fan hole (2), a motor support plate (4) is fixed at the middle of the fan protection frame (3), an exhaust motor (5) is fixed at the center of the rear of the motor support plate (4), an exhaust fan (6) is fixed at the output end of the exhaust motor (5), a number of air inlets (7) are opened in a circular pattern at the rear of the drying box (1), a heating plate bracket (8) is fixed at the inner side of the rear of the drying box (1), a heating plate (9) is fixed at the inner side of the heating plate bracket (8), a second fan protection frame (10) is fixed at the outer side of the rear of the drying box (1), a second motor support plate (11) is fixed at the middle of the second fan protection frame (10), an air intake motor (12) is fixed at the inner side of the second motor support plate (11), and an air intake fan (13) is fixed at the output end of the air intake motor (12).

2. The electromechanical drying device according to claim 1, characterized in that: The drying oven (1) is fixedly provided with a support plate column (14) at the bottom, and a support shell plate (15) is fixedly provided on the upper part of the support plate column (14). A water outlet hole (16) is opened on the bottom front side of the support shell plate (15), and a number of heat inlet holes (17) are opened at equal intervals on the rear part of the support shell plate (15). Fan connecting pipes (18) are fixedly provided on both sides of the support shell plate (15) to communicate with it and to be fixedly connected to the drying oven (1). A blower (19) is fixedly provided on the outside of the fan connecting pipe (18) to communicate with it. A number of through holes (20) are densely provided on the upper part of the support shell plate (15).

3. The electromechanical drying device according to claim 2, characterized in that: The drying box (1) is fixedly provided with a rotating shaft plate column (21) on one side of the upper part. A cover plate (22) is fitted around the outer periphery of the rotating shaft plate column (21). A rotating shaft ring hole (23) is opened in the center of the cover plate (22). A rotating shaft ring (24) is provided inside the rotating shaft ring hole (23) and rotatedly connected to it. Gear grooves (25) are opened at equal intervals around the upper outer periphery of the rotating shaft ring (24). A gear motor support plate (26) is fixedly provided on one side of the upper part of the cover plate (22). A gear motor (27) is fixedly provided on the upper part of the gear motor support plate (26). The output end of the gear motor (27) is rotatedly connected to the gear motor support plate (26). A gear (28) is fixedly provided on the coaxial axis of the output end of the gear motor (27) and meshes with the gear groove (25).

4. The electromechanical drying device according to claim 3, characterized in that: A heating fan (29) is fixedly provided on the upper part of the rotating shaft ring (24). A blower rod (30) is fixedly provided at the output end of the heating fan (29) and communicates with it and passes through the rotating shaft ring (24) and is fixedly connected to it. A number of blower holes (31) are opened at equal intervals at the bottom of the blower rod (30).