A device handling structure that is easy to operate

By combining the spraying mechanism and the carrying mechanism, along with the use of a lever and a reflector, the problems of cleaning dead spots and disinfection blind spots in traditional equipment are solved, achieving all-round cleaning and disinfection of workpieces and ensuring the convenience and efficiency of operation.

CN122164686APending Publication Date: 2026-06-09SHANGHAI EAST HOSPITAL EAST HOSPITAL TONGJI UNIV SCHOOL OF MEDICINE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHANGHAI EAST HOSPITAL EAST HOSPITAL TONGJI UNIV SCHOOL OF MEDICINE
Filing Date
2026-03-18
Publication Date
2026-06-09

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Abstract

The application discloses a device processing structure convenient to operate, relates to the technical field of sterilization equipment, and comprises a cleaning box, a valve port is installed on the left side of the cleaning box, a bottom plate is fixed in the cleaning box, and the bottom plate is arranged on the lower side of the valve port. The device processing structure convenient to operate, the spraying mechanism is driven by a bidirectional screw rod to move the movable frame up and down, cooperates with the filter screen and the liquid guide hole, realizes self-circulation spraying of the cleaning liquid, when the movable frame moves downward, the cleaning liquid is uniformly sprayed through the spray head under the action of pressure, high-pressure flushing is carried out on the workpiece, when the movable frame moves upward, the workpiece is soaked in the cleaning liquid, the decontamination effect is enhanced, the workpiece is continuously turned or swung through the rotation of the fluid-driven supporting roller and the reciprocating movement of the push plate of the poking mechanism, blind cleaning areas are avoided, in the sterilization stage, the ultraviolet lamp cooperates with the reflecting plate to form multi-angle reflection, combined with the movement of the workpiece, it is ensured that ultraviolet rays cover all surfaces, effectively eliminate the irradiation dead angle, and the sterilization and disinfection effect of the workpiece is ensured.
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Description

Technical Field

[0001] This invention relates to the field of disinfection equipment technology, specifically to a convenient equipment processing structure. Background Technology

[0002] With the increasing demands for sterile environments in fields such as medical treatment, food processing, and biological experiments, the cleaning, disinfection, and drying of workpieces (such as surgical instruments and laboratory tools) have become crucial steps. Traditional processing equipment typically employs static immersion or fixed spraying methods, which have the following technical drawbacks:

[0003] 1. During the cleaning process, impurities are easily left on the surface of the workpiece, especially for instruments with complex structures (such as endoscopes and catheters), which are difficult to be fully covered by the rinsing fluid, resulting in cleaning dead spots. 2. The disinfection stage relies on fixed ultraviolet lamps, but the lower part of the workpiece and the shaded area often form blind spots due to obstruction, resulting in substandard disinfection and increasing the risk of cross-infection. 3. Impurities in the cleaning solution can easily cause secondary contamination of the workpiece, and the equipment lacks the function of automatically separating impurities, requiring frequent manual cleaning, which is cumbersome and inefficient. Summary of the Invention

[0004] The purpose of this invention is to provide a convenient device processing structure to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a convenient equipment processing structure, including a cleaning tank, a valve port installed on the left side of the cleaning tank, a bottom plate fixed inside the cleaning tank, and the bottom plate being located below the valve port; the cleaning tank is connected to an openable and closable sealing cover via a hinge. The spraying mechanism is used to spray and rinse and dry the workpiece. The spraying mechanism is installed on the base plate and is located inside the cleaning tank. The bearing mechanism is used to support the workpiece and transport the fluid; the bearing mechanism is connected to the spraying mechanism. A toggle mechanism is used to support and move the workpiece, and the toggle mechanism is mounted on the support mechanism.

[0006] Preferably, heating tubes are evenly installed on the sealing cover, and ultraviolet lamps are also symmetrically fixed on the sealing cover. The heating tubes can provide a basic guarantee for the subsequent drying of the workpiece, and the ultraviolet lamps can provide a basic guarantee for the disinfection and sterilization of the workpiece.

[0007] Preferably, the spraying mechanism includes a geared motor fixed inside the cleaning tank, and a bidirectional lead screw is fixed at the output end of the geared motor. The bidirectional lead screw is connected to the base plate by a bearing, and a filter screen is also fixed on the bidirectional lead screw. Through the function of the filter screen, impurities can be filtered to ensure the normal cleaning of the workpiece.

[0008] Preferably, the bidirectional lead screw has a liquid guiding hole inside, and the liquid guiding hole is connected to the liquid guiding pipe. The liquid guiding pipe is fixed to the bidirectional lead screw, and a nozzle is uniformly fixed on the lower end face of the liquid guiding pipe. Through the above structure, the cleaning fluid can be transported, thus providing a basic guarantee for the spray cleaning of the workpiece.

[0009] Preferably, the bidirectional lead screw and the outer side of the filter screen are slidably connected to a brush ring, and vertical rods are symmetrically fixed on the brush ring. The vertical rods are slidably connected to the side protrusions of the bidirectional lead screw. At the same time, an iron plate is fixed to the upper end of the vertical rod. The iron plate and the permanent magnet form a magnetic attraction connection. The magnetic attraction between the iron plate and the permanent magnet can provide a basic guarantee for the movement of the brush ring. The movement of the brush ring can also provide a basic guarantee for the cleaning of the filter screen, avoiding the clogging of the mesh on the filter screen and affecting the normal flow of the cleaning fluid. When the brush ring moves, the sliding guidance between the vertical rod and the side protrusions of the bidirectional lead screw can ensure the stability of the brush ring movement.

[0010] Preferably, the carrying mechanism includes a movable frame connected to a bidirectional lead screw, and the movable frame is slidably connected to the cleaning tank. A scraper, which is slidably connected to the cleaning tank, is fixed to the side of the movable frame. A partition is fixed to the inner side of the scraper, and the upper end face of the partition is higher than the upper end face of the scraper. Hanging rings are evenly fixed on the partition. The bidirectional lead screw allows the carrying mechanism to move up and down in an orderly manner. In conjunction with the scraper, it can clean the impurities adhering to the inner wall of the cleaning tank. The partition prevents the impurities scraped from the inner wall of the cleaning tank from contacting the workpiece and causing secondary pollution. The hanging rings facilitate the placement of suspended workpieces for subsequent cleaning.

[0011] Preferably, a baffle is fixed in the middle of the movable frame, and strip grooves are evenly opened on the lower end face of the movable frame. The strip grooves cooperate with the sealing plugs to form a sealing box. At the same time, the sealing plugs are evenly fixed on the movable frame. Through the sealing effect of the strip grooves and the sealing plugs, a basic guarantee can be provided for the one-way opening of the strip grooves, thereby ensuring the normal operation of the device.

[0012] Preferably, a sliding rod is fixed to the lower end face of the movable frame, and the sliding rod is slidably connected to the cylinder. A spring is fixed between the cylinder and the sliding rod, and the cylinder is fixed to the support. The support is fixed to the lower end face of the movable frame, and the movable frame is fixed to the permanent magnet. When the movable frame moves, the sliding guide between the sliding rod and the cylinder can ensure the stability of the movable frame's movement. Furthermore, the elasticity of the spring can provide a basic force for the automatic reset of the movable frame, thereby ensuring the normal operation of the device.

[0013] Preferably, the actuation mechanism includes support plates fixed at equal intervals on the movable frame, and bearings on the support plates are connected to rollers. The upper end face of the rollers is lower than the upper end face of the partition. Meanwhile, reflectors are fixed at equal angles on the rollers. Through the action of the rollers, the horizontal placement of the workpiece can be supported, and through the action of the reflectors, ultraviolet rays can be reflected, thus providing a basic guarantee for the comprehensive disinfection and sterilization of the workpiece.

[0014] Preferably, the idler roller is also symmetrically fixed with several fan plates, and a disc is also symmetrically fixed with the idler roller. A convex shaft is fixed on the disc, and the convex shaft is slidably connected to the slide bar. The slide bar is fixed on the movable frame, and the movable frame is slidably connected to the partition plate. A push plate is fixed on the movable frame and is located on the lower side of the hanging ring. Through the action of the fan plates, the rotation of the idler roller can be provided by the fluid, thus providing a basic guarantee for the driving of the workpiece and avoiding the existence of dead corners in the workpiece cleaning. Through the sliding action between the convex shaft and the slide bar, the movable frame and the push plate can be moved. Through the action of the push plate, the workpiece suspended on the hanging ring can be pushed to swing, thus providing a basic guarantee for the comprehensive cleaning of the workpiece.

[0015] Compared with the prior art, the beneficial effects of the present invention are: 1. The equipment has a convenient processing structure. The spraying mechanism uses a two-way screw to drive the movable frame to move up and down. With the help of the filter screen and liquid guide hole, the cleaning liquid is self-circulated and sprayed. When the movable frame moves down, the cleaning liquid is sprayed evenly through the nozzle under pressure to perform high-pressure rinsing on the workpiece. When it moves up, the workpiece is immersed in the cleaning liquid to enhance the cleaning effect. In addition, the agitation mechanism drives the roller to rotate and the push plate to reciprocate through fluid to make the workpiece constantly turn or swing, avoiding blind spots in cleaning. 2. The equipment's convenient processing structure features a unidirectional flow guide mechanism composed of a sealing plug and a strip groove in the carrying mechanism. This mechanism automatically opens and closes when the movable frame moves. When it moves downward, it seals, forcing the cleaning fluid to be filtered and sprayed. When it moves upward, it opens, allowing impurities to settle with the liquid flow to the bottom of the movable frame. This, combined with the scraper, cleans the inner wall of the tank simultaneously, ensuring that impurities are collected and preventing recirculation pollution. Furthermore, the brush ring cleans the filter screen periodically through magnetic linkage, preventing mesh blockage and ensuring long-term stable operation of the system. 3. The user-friendly equipment features a convenient processing structure. During the UV disinfection stage, the movable frame can be adjusted up and down to flexibly control the distance between the workpiece and the UV lamp. The reflective effect of the reflector on the UV light, combined with the workpiece's rotation and swaying, enables all-around, blind-spot-free irradiation of the workpiece, ensuring comprehensive disinfection. During the drying stage, the air heated by the heating element is blown through the nozzle to accelerate the evaporation of moisture from the workpiece surface. This results in high drying efficiency and avoids moisture residue, further consolidating the disinfection effect and ensuring that the processed workpiece meets hygiene standards and usage requirements. Attached Figure Description

[0016] Figure 1 This is a frontal three-dimensional structural diagram of the overall composition of the device of the present invention; Figure 2 This is a frontal perspective three-dimensional structural diagram of the sealing cap of the present invention in the open state; Figure 3 This is a frontal cross-sectional three-dimensional structural diagram of the cleaning tank of the present invention; Figure 4 This is a three-dimensional structural diagram of the cleaning tank of the present invention, viewed from below. Figure 5 This is a frontal cross-sectional three-dimensional structural diagram of the spray mechanism of the present invention; Figure 6 This is a frontal cross-sectional three-dimensional structural diagram of the load-bearing mechanism of the present invention; Figure 7 This is a frontal three-dimensional structural diagram of the active frame of the present invention; Figure 8 This is a three-dimensional structural diagram of the cylindrical cross-section of the present invention; Figure 9 This is a three-dimensional structural diagram of the actuation mechanism of the present invention.

[0017] In the diagram: 1. Cleaning tank; 2. Valve port; 3. Base plate; 4. Sealing cover; 401. Heating element; 402. Ultraviolet lamp; 5. Spraying mechanism; 501. Gear motor; 502. Double-acting lead screw; 503. Filter screen; 504. Liquid guide hole; 505. Liquid guide tube; 506. Spray head; 507. Brush ring; 508. Vertical rod; 509. Iron plate; 510. Permanent magnet; 6. Bearing mechanism; 601. Movable frame; 602. Scraper 603. Partition plate; 604. Hanging ring; 605. Baffle plate; 606. Strip groove; 607. Sealing plug; 608. Movable frame; 609. Slide rod; 610. Cylinder; 611. Spring; 612. Bracket; 7. Actuating mechanism; 701. Support plate; 702. Idler roller; 703. Reflector; 704. Fan plate; 705. Disc; 706. Convex shaft; 707. Slide rod; 708. Movable frame; 709. Push plate. Detailed Implementation

[0018] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0019] Please see Figures 1-9 The present invention provides a technical solution: a convenient equipment processing structure, including a cleaning tank 1, a valve port 2 installed on the left side of the cleaning tank 1, a bottom plate 3 fixed inside the cleaning tank 1, and the bottom plate 3 is located below the valve port 2. The cleaning tank 1 is connected to an openable and closable sealing cover 4 via a hinge. The spraying mechanism 5 is used to spray and rinse and dry the workpiece. The spraying mechanism 5 is installed on the base plate 3 and is located inside the cleaning box 1. The bearing mechanism 6 is used to bear the workpiece and transport the fluid. The bearing mechanism 6 is connected to the spraying mechanism 5. The actuating mechanism 7 is used to support the workpiece and actuate the workpiece. The actuating mechanism 7 is installed on the supporting mechanism 6.

[0020] Heating tubes 401 are evenly installed on the sealing cover 4, and ultraviolet lamps 402 are symmetrically fixed on the sealing cover 4. The spraying mechanism 5 includes a geared motor 501 fixed in the cleaning tank 1, and a bidirectional lead screw 502 is fixed at the output end of the geared motor 501. The bidirectional lead screw 502 is connected to the base plate 3 by a bearing. A filter screen 503 is also fixed on the bidirectional lead screw 502. A liquid guiding hole 504 is opened in the bidirectional lead screw 502, and the liquid guiding hole 504 is connected to the liquid guiding tube 505. The liquid guide tube 505 and the bidirectional lead screw 502 are fixed to each other, and the nozzles 506 are evenly fixed on the lower end face of the liquid guide tube 505; the brush ring 507 is slidably connected to the outside of the bidirectional lead screw 502 and the filter screen 503, and the vertical rods 508 are symmetrically fixed on the left and right sides of the brush ring 507, and the vertical rods 508 are slidably connected to the side protrusion rings of the bidirectional lead screw 502. At the same time, the iron plate 509 is fixed at the upper end of the vertical rod 508, and the iron plate 509 and the permanent magnet 510 form a magnetic attraction connection. When using this easy-to-use device to process structures, such as Figures 1-9As shown, first open the sealing cover 4, start the geared motor 501 to drive the bidirectional lead screw 502 to rotate. Through the rotation of the bidirectional lead screw 502, the movable frame 601 can be driven to move upward to the highest position. Then install the workpiece to be cleaned. For workpieces that need to be hung, they can be suspended on the hanging ring 604. For workpieces that need to be laid flat, they can be placed on the roller 702. This can meet the cleaning needs of workpieces with different shapes and structures. After the workpiece is placed, the cleaning liquid can be injected into the cleaning tank 1 through the valve port 2 until the liquid level is at the lower end of the movable frame 601. The supporting mechanism 6 includes a movable frame 601 connected to the bidirectional lead screw 502, and the movable frame 601 is slidably connected to the cleaning tank 1. A scraper 602, which is also slidably connected to the cleaning tank 1, is fixed to the side of the movable frame 601. A partition 603 is fixed inside the scraper 602, with its upper surface higher than the upper surface of the scraper 602. Hanging rings 604 are evenly fixed on the partition 603. A baffle 605 is also fixed in the middle of the movable frame 601, and the lower surface of the movable frame 601 is evenly... A strip groove 606 is provided, and the strip groove 606 cooperates with the sealing plug 607 to form a sealing box. At the same time, the sealing plug 607 is evenly fixed on the movable frame 608. A slide rod 609 is fixed on the lower end face of the movable frame 608, and the slide rod 609 is slidably connected to the cylinder 610. A spring 611 is fixed between the cylinder 610 and the slide rod 609. At the same time, the cylinder 610 is fixed on the bracket 612, the bracket 612 is fixed on the lower end face of the movable frame 601, and the movable frame 601 is fixed to the permanent magnet 510. After the workpiece is installed and the cleaning fluid is injected, close the sealing cap 4 to ensure that the cleaning tank 1 is sealed. During the workpiece cleaning process, if... Figures 1-9 As shown, by starting the reduction motor 501, the bidirectional lead screw 502 is rotated again, which drives the movable frame 601 to move downward. At this time, since the sealing plug 607 and the strip groove 606 are in a sealed state, the cleaning fluid on the lower side of the movable frame 601 cannot move upward through the strip groove 606 when the movable frame 601 moves downward. At this time, the cleaning fluid on the lower side of the movable frame 601 is filtered through the filter screen 503 under pressure and enters the liquid guide pipe 505 through the liquid guide hole 504. Finally, it is sprayed through the nozzle 506. The spraying of cleaning fluid through the nozzle 506 can rinse the workpiece and facilitate the rinsing of impurities adhering to the surface of the workpiece. During the rinsing process, since the bidirectional lead screw 502 can simultaneously drive the liquid guide pipe 505 and the nozzle 506 to rotate, the workpiece can be thoroughly rinsed. When the movable frame 601 moves downward to its lowest point, the workpiece is completely immersed in the cleaning fluid above the movable frame 601, thus achieving the immersion effect and better meeting the cleaning requirements of the workpiece. When the movable frame 601 moves upward from its lowest point, the cleaning fluid causes the sealing plug 607 and the movable frame 608 to move downward under force. Combined with the sliding guide action between the slide rod 609 and the cylinder 610, the stability of the downward movement of the sealing plug 607 and the movable frame 608 is ensured, thereby separating the sealing plug 607 from the strip groove 606. This allows the cleaning fluid above the movable frame 601 to flow normally to the area below the movable frame 601 when it moves upward, ensuring the normal operation of the device. Furthermore, when the movable frame 601 moves upward, it simultaneously drives the scraper 602 upward. Through the action of the scraper 602, the inner wall of the cleaning tank 1 can be cleaned. Adhesive impurities are cleaned, and the impurities can flow with the cleaning fluid to the bottom of the movable frame 601, thereby avoiding secondary contamination of the workpiece and ensuring the normal cleaning of the workpiece. When the movable frame 601 moves to the highest point, the sealing plug 607 can be reset under the action of the spring 611 to seal the strip groove 606. Based on the above principle, the up and down reciprocating movement of the movable frame 601 can realize the rinsing and soaking of the workpiece, ensuring the cleaning effect of the workpiece. Moreover, the one-way flow guide mechanism composed of the sealing plug 607 and the strip groove 606 can realize the separation and collection of impurities, so that the impurities gather below the movable frame 601 and will not cause secondary contamination of the workpiece. Furthermore, the filtration effect of the filter screen 503 can also prevent impurities from entering the liquid guide hole 504 and causing pipe blockage, thereby ensuring the normal operation of the device. During the vertical movement of the movable frame 601, when the movable frame 601 moves downward, it synchronously drives the permanent magnet 510 downward. When the movable frame 601 and the permanent magnet 510 reach their lowest point, the permanent magnet 510 is attracted and fixed to the iron plate 509. When the movable frame 601 moves upward, it synchronously drives the permanent magnet 510, the iron plate 509, the vertical rod 508, and the brush ring 507 upward. Combined with the sliding guide effect between the vertical rod 508 and the side protruding ring of the double-acting screw 502, the stability of the brush ring 507's movement is ensured. The sliding action between the brush ring 507 and the filter screen 503 can clean the impurities adhering to the surface of the filter screen 503, preventing the mesh holes of the filter screen 503 from becoming clogged. When the brush ring 507 moves up to contact the side protruding ring of the bidirectional lead screw 502, the movable frame 601 and the permanent magnet 510 continue to move up, which can separate the permanent magnet 510 from the iron plate 509. At this time, under the action of gravity, the brush ring 507 can move down to reset, thereby realizing the secondary cleaning effect of the mesh holes of the filter screen 503 and ensuring the normal operation of the device. The actuating mechanism 7 includes support plates 701 fixed at equal intervals on the movable frame 601, and bearings connecting rollers 702 to the support plates 701. The upper end face of the rollers 702 is lower than the upper end face of the partition 603. Reflectors 703 are fixed at equal angles on the rollers 702. Several fan plates 704 are also symmetrically fixed on the rollers 702. Discs 705 are also symmetrically fixed on the rollers 702. A convex shaft 706 is fixed on the discs 705. The convex shaft 706 is slidably connected to the sliding rod 707. The sliding rod 707 is fixed on the movable frame 708. The movable frame 708 is slidably connected to the partition 603. A push plate 709 is fixed on the movable frame 708. The push plate 709 is located on the lower side of the hanging ring 604. During the workpiece cleaning process, such as Figures 1-9 As shown, when the movable frame 601 moves up and down, it synchronously drives the idler roller 702 to move up and down. When the movable frame 601 moves up, the fluid flows down through the strip groove 606. At this time, under the action of fluid flow, the fan plate 704 can rotate, thereby driving the idler roller 702 and the disc 705 to rotate. Through the rotation of the idler roller 702, the workpiece placed on the idler roller 702 can be moved, thereby changing the contact position between the workpiece and the idler roller 702, thus providing a basic guarantee for achieving comprehensive cleaning of the workpiece without dead angles. When the disc 705 rotates, it synchronously drives the cam shaft 706 to rotate. Through the sliding action between the cam shaft 706 and the slide bar 707, the moving frame 708 and the push plate 709 can perform orderly left and right reciprocating movements. With the sliding guide action between the moving frame 708 and the partition plate 603, the stability of the push plate 709 movement can be guaranteed. Through the movement of the push plate 709, the workpiece suspended on the hanging ring 604 can be pushed to swing, further ensuring the comprehensive cleaning of the workpiece. After the workpiece is cleaned, the cleaning solution and impurities can be discharged by opening valve port 2. After discharge, valve port 2 is closed, and the workpiece is now in a sealed space. Then, the heating tube 401 and ultraviolet lamp 402 are started. At this time, the geared motor 501 is still working. Through the action of ultraviolet lamp 402, the workpiece can be thoroughly disinfected and sterilized. When the ultraviolet lamp 402 is irradiating and sterilizing, the distance between the workpiece and ultraviolet lamp 402 can be adjusted by moving the movable frame 601 up and down. Through the airflow, the fan plate 704 can still rotate. With the rolling of the roller 702 and the pushing action of the push plate 709, the workpiece can be moved. With the action of the reflector 703, ultraviolet light can be reflected, so that the workpiece can be thoroughly irradiated, providing a basic guarantee for the comprehensive disinfection and sterilization of the workpiece. The heating tube 401 heats the air, and with the spray nozzle 506, hot air can be blown, thus providing a basic guarantee for the drying of the workpiece. In this way, the cleaning, disinfection, sterilization and drying of the workpiece can be completed.

[0021] It should be noted that, in this document, 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.

[0022] This article uses specific examples to illustrate the principles and implementation methods of the present invention. The above examples are only for the purpose of helping to understand the method and core ideas of the present invention. The above descriptions are only preferred embodiments of the present invention. It should be noted that due to the limitations of textual expression, while there are objectively infinite specific structures, those skilled in the art can make several improvements, modifications, or changes without departing from the principles of the present invention, and can also combine the above technical features in an appropriate manner. These improvements, modifications, changes, or combinations, or the direct application of the inventive concept and technical solution to other situations without modification, should all be considered within the scope of protection of the present invention.

Claims

1. A user-friendly equipment processing structure, comprising a cleaning tank (1), characterized in that: A valve port (2) is installed on the left side of the cleaning box (1). A bottom plate (3) is fixed inside the cleaning box (1), and the bottom plate (3) is located below the valve port (2). The cleaning box (1) is connected to an openable and closable sealing cover (4) via a hinge. The spraying mechanism (5) is used to spray and dry the workpiece. The spraying mechanism (5) is installed on the base plate (3) and is located inside the cleaning box (1). The bearing mechanism (6) is used to carry the workpiece and transport the fluid. The bearing mechanism (6) is connected to the spraying mechanism (5). A toggle mechanism (7) is used to carry the workpiece and toggle the workpiece. The toggle mechanism (7) is installed on the carrying mechanism (6).

2. The convenient-to-operate equipment processing structure according to claim 1, characterized in that: Heating tubes (401) are evenly installed on the sealing cover (4), and ultraviolet lamps (402) are also symmetrically fixed on the sealing cover (4).

3. The convenient-to-operate equipment processing structure according to claim 1, characterized in that: The spraying mechanism (5) includes a geared motor (501) fixed in the cleaning tank (1), and a bidirectional lead screw (502) is fixed at the output end of the geared motor (501). The bidirectional lead screw (502) is connected to the base plate (3) by a bearing, and a filter screen (503) is also fixed on the bidirectional lead screw (502).

4. The convenient-to-operate equipment processing structure according to claim 3, characterized in that: The bidirectional lead screw (502) has a liquid guiding hole (504) inside, and the liquid guiding hole (504) is connected to the liquid guiding pipe (505). The liquid guiding pipe (505) is fixed to the bidirectional lead screw (502), and a nozzle (506) is uniformly fixed on the lower end face of the liquid guiding pipe (505).

5. The convenient-to-operate equipment processing structure according to claim 4, characterized in that: The bidirectional lead screw (502) and the filter screen (503) are slidably connected to a brush ring (507), and vertical rods (508) are symmetrically fixed on the brush ring (507). The vertical rods (508) are slidably connected to the side protrusion ring of the bidirectional lead screw (502). At the same time, an iron plate (509) is fixed at the upper end of the vertical rod (508), and the iron plate (509) and the permanent magnet (510) are magnetically connected.

6. The convenient-to-operate equipment processing structure according to claim 5, characterized in that: The bearing mechanism (6) includes a movable frame (601) connected to a bidirectional lead screw (502), and the movable frame (601) is slidably connected to the cleaning tank (1). A scraper (602) is fixed on the side of the movable frame (601) and is slidably connected to the cleaning tank (1). Meanwhile, a partition (603) is fixed on the inner side of the scraper (602). The upper surface of the partition (603) is higher than the upper surface of the scraper (602), and hanging rings (604) are evenly fixed on the partition (603).

7. The convenient-to-operate equipment processing structure according to claim 6, characterized in that: A baffle (605) is fixed in the middle of the movable frame (601), and a strip groove (606) is evenly opened on the lower end face of the movable frame (601). The strip groove (606) and the sealing plug (607) cooperate to form a sealing box, and the sealing plug (607) is evenly fixed on the movable frame (608).

8. The convenient-to-operate equipment processing structure according to claim 7, characterized in that: The lower end face of the movable frame (608) is fixed with a slide rod (609), and the slide rod (609) is slidably connected to the cylinder (610). A spring (611) is fixed between the cylinder (610) and the slide rod (609). At the same time, the cylinder (610) is fixed on the bracket (612), the bracket (612) is fixed on the lower end face of the movable frame (601), and the movable frame (601) is fixed to the permanent magnet (510).

9. The convenient-to-operate equipment processing structure according to claim 8, characterized in that: The actuation mechanism (7) includes a support plate (701) fixed at equal intervals on the movable frame (601), and a roller (702) is connected to the support plate (701) by a bearing. The upper end face of the roller (702) is lower than the upper end face of the partition plate (603), and a reflector (703) is fixed at equal angles on the roller (702).

10. The convenient-to-operate equipment processing structure according to claim 9, characterized in that: The roller (702) is also symmetrically fixed with several fan plates (704) in the front and back, and the roller (702) is also symmetrically fixed with a disc (705) in the front and back, and a convex shaft (706) is fixed on the disc (705). At the same time, the convex shaft (706) and the sliding rod (707) are slidably connected. The sliding rod (707) is fixed on the movable frame (708), and the movable frame (708) is slidably connected with the partition (603). The movable frame (708) is fixed with a push plate (709), and the push plate (709) is set on the lower side of the hanging ring (604).