A support for filter component spray painting

By designing a bracket for spraying filter components, and utilizing multiple inner top rods and inner top head fixing components, combined with a masking plate and limiting structure, the problems of contamination and uneven spraying in existing spraying methods have been solved, achieving a stable and efficient spraying effect.

CN224443403UActive Publication Date: 2026-07-03SICHUAN SISAIHUI ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN SISAIHUI ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-07-30
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing spraying methods for filter components easily contaminate the work surface, and the spraying effect is affected by component shaking, making it difficult to achieve stable and efficient spraying.

Method used

A support bracket for spraying filter components was designed. It uses multiple inner top rods and inner top head fixing components, combined with a shield and limiting structure, to ensure the stability of the components during the spraying process and prevent paint splatter.

Benefits of technology

It achieves stable fixation and uniform spraying of filter components, avoiding problems such as table surface contamination and uneven spraying, and improving the spraying effect.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224443403U_ABST
    Figure CN224443403U_ABST
Patent Text Reader

Abstract

A filter component spraying support, including bottom shell, be welded with vertical tube on bottom shell, be equipped with concave spare on vertical tube, be connected with inner top screw through thread on concave spare, inner top screw's inside end top stick to the outer wall of vertical tube, be welded with concave frame on concave spare, the other end of concave frame is equipped with first shaft rotationally, the inside end of first shaft is welded with inner turning plate, the inner turning plate is movably equipped with a plurality of inner top rods. The utility model discloses the component is fixed between the two inner turning plates that can rotate, thereby facilitating the different face of the component to carry out spraying operation, and when spraying, through setting the baffle on the front face of the component to block the paint splashed, simultaneously, in the process of spraying, through the use of concave plate and limiting rod, can avoid the inner turning plate rotation, and in order to further improve this stability, still set up corresponding inner top turning plate to the position of concave plate is restricted through inner top turning plate.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of filter processing technology, and in particular to a bracket for spraying filter components. Background Technology

[0002] The primary filter element in the filter includes a rectangular frame plate 1 and a filter plate 10 welded within the rectangular frame plate 1, with multiple perforations on the filter plate 10. Some filters, due to their operating conditions, such as those used in humid environments, require corrosion protection for their filter elements. Existing corrosion protection methods include spraying an anti-corrosion paint layer on the exterior, galvanizing the sheet metal, using an impregnation process, or applying coatings using electrophoresis. Spraying is the most common method. Current spraying methods involve the operator placing the component on a work surface before spraying. This method easily contaminates the work surface and can scratch the paint when flipping the component. Another method involves suspending the component for spraying, but this method affects the spraying effect due to the component's movement. Utility Model Content

[0003] This utility model provides a bracket for spraying filter components, which overcomes the shortcomings of the prior art and solves the problems existing in the spraying of filter components, and has strong practicality.

[0004] In order to achieve the purpose of this utility model, the following technology is proposed to be adopted:

[0005] A support for spraying a filter component includes a base shell, a vertical tube welded to the base shell, a concave component fitted onto the vertical tube, an inner screw threaded onto the concave component, the inner end of the inner screw abutting against the outer wall of the vertical tube, a concave frame welded to the concave component, a first shaft rotatably mounted at the other end of the concave frame, an inner rotating plate welded to the inner end of the first shaft, and multiple inner push rods movably mounted on the inner rotating plate.

[0006] Furthermore, movable sleeves are provided at both ends of the concave frame, and concave plates are welded to the outer ends of the movable sleeves. U-shaped grooves are opened at both ends of the concave plates, and a pair of limiting rods are welded to the inner rotating plate, with the limiting rods passing through the U-shaped grooves.

[0007] Furthermore, the outer ends of the concave frame are provided with inner top rotating plates via connecting shafts. One end of the inner top rotating plate abuts against the inner end of the movable sleeve. The outer end of the inner top rotating plate has an arc-shaped structure. A handle is welded to the inner end of the inner top rotating plate. The inner end of the connecting shaft is welded to the concave frame.

[0008] Furthermore, the outer end of the inner push rod on the same side is connected to a movable outer plate by a thread. A movable side plate is bent on the movable outer plate. An oblique hole is opened on the movable side plate. The upper end of the oblique hole extends inward at an inclination. A pressure rod is movably installed in the oblique hole. The outer end of the pressure rod is connected to a lower pressure arm by a thread. A lower pressure plate is welded to the upper end of the lower pressure arm. A pair of inner convex plates are welded to the lower pressure plate. An inner rotating plate is movably installed on the inner convex plates. A second shaft is welded to the upper end of the inner rotating plate. A lower top rotating plate is rotatably installed on the second shaft. The lower end of the lower top rotating plate has an arc-shaped structure. The lower end of the lower top rotating plate abuts against the upper wall of the inner convex plate.

[0009] Furthermore, the inner end of the inner push rod is fitted with an inner push head with a conical structure, and the inner end of the inner push head is the small end.

[0010] Furthermore, a cover plate is provided inside the concave frame, and slots are provided on both sides of the cover plate. The concave frame passes through the slots, and a gripping hole is provided at the upper end of the cover plate.

[0011] The advantages of the above technical solution are:

[0012] This invention fixes the component between two rotatable inner rotating plates, thereby facilitating spraying operations on different surfaces of the component. During spraying, a shield is placed on the front of the component to block the sprayed paint. At the same time, during the spraying process, the inner rotating plates are prevented from rotating by the use of concave plates and limiting rods. In order to further improve this stability, a corresponding inner top rotating plate is also provided to constrain the position of the concave plates.

[0013] This invention secures the component using multiple inwardly moving inner pushers. To prevent pitting on the outer wall during fixing, the inner pushers are made of hard rubber, and their inner ends are tapered to reduce the contact area between their inner ends and the outer wall. Furthermore, to accommodate components of different sizes, the inner pushers are threaded onto the movable outer plate. Attached Figure Description

[0014] To make the objectives, technical solutions, and advantages of this utility model clearer, the following will provide a further detailed description of this utility model in conjunction with the accompanying drawings.

[0015] Figure 1 A three-dimensional structure of one embodiment is shown. Figure 1 .

[0016] Figure 2 A magnified view of point A is shown.

[0017] Figure 3 A magnified view of point B is shown.

[0018] Figure 4 A three-dimensional structure of one embodiment is shown. Figure 2 . Detailed Implementation

[0019] like Figures 1-4 As shown, a filter component spraying bracket includes a base shell 2, a vertical tube 20 welded to the base shell 2, a concave part 21 sleeved on the vertical tube 20, an inner top screw 22 threadedly connected to the concave part 21, the inner end of the inner top screw 22 abutting against the outer wall of the vertical tube 20, a concave frame 23 welded to the concave part 21, a first shaft 34 rotatably provided at the other end of the concave frame 23, an inner rotating plate 35 welded to the inner end of the first shaft 34, a plurality of inner top rods 36 movably provided on the inner rotating plate 35, and an inner top head with a conical structure sleeved on the inner end of the inner top rod 36, the inner end of the inner top head being the small end.

[0020] The concave frame 23 is provided with a cover plate 24. The cover plate 24 has slots on both sides. The concave frame 23 passes through the slots. The upper end of the cover plate 24 has a gripping hole 260.

[0021] The concave frame 23 has movable sleeves 26 at both ends. A concave plate 31 is welded to the outer end of the movable sleeve 26. U-shaped grooves 32 are opened at both ends of the concave plate 31. A pair of limiting rods 33 are welded on the inner rotating plate 35. The limiting rods 33 pass through the U-shaped grooves 32.

[0022] The outer sides of both ends of the concave frame 23 are provided with an inner top rotating plate 29 via a connecting shaft 28. One end of the inner top rotating plate 29 abuts against the inner end of the movable sleeve 26. The outer end of the inner top rotating plate 29 has an arc-shaped structure. A handle 30 is welded to the inner end of the inner top rotating plate 29. The inner end of the connecting shaft 28 is welded to the concave frame 23.

[0023] The outer end of the inner push rod 36 on the same side is connected to a movable outer plate 380 by a thread. A movable side plate 38 is bent on the movable outer plate 380. An oblique hole 39 is opened on the movable side plate 38. The upper end of the oblique hole 39 extends inward at an inclination. A pressure rod 40 is movably installed in the oblique hole 39. The outer end of the pressure rod 40 is connected to a lower pressure arm 41 by a thread. A lower pressure plate 42 is welded to the upper end of the lower pressure arm 41. A pair of inner convex plates 43 are welded to the lower pressure plate 42. An inner rotating plate 35 is movably inserted through the inner convex plate 43. A second shaft 44 is welded to the upper end of the inner rotating plate 35. A lower top rotating plate 45 is rotatably installed on the second shaft. The lower end of the lower top rotating plate 45 has an arc-shaped structure and abuts against the upper wall of the inner convex plate 43.

[0024] In this embodiment, during operation, the operator first adjusts the position of the inner pusher head on the inner pusher rod 36 relative to the inner rotating plate 35 according to the size of the component. During adjustment, the operator can achieve the adjustment purpose by rotating the inner pusher rod 36.

[0025] The operator then places the component between the two sets of inner top heads, and then rotates the lower top rotating plate 45 so that its length direction is parallel to the length direction of the inner rotating plate 35, so that its lower end acts on the inner convex plate 43, thereby causing the lower pressure plate 42 to drive the lower pressure arm 41 and the pressure rod 40 on it to move. When the pressure rod 40 moves downward, it will act on the inclined hole 39, thereby moving it inward, which in turn drives the inner top head on it to move inward, and fixes the component through the inner top head.

[0026] Next, the component is rotated around the first axis 34 to make it vertical. Then, the mask 24 is placed on the concave frame 23. At the same time, the concave plate 31 is moved to insert the limiting rod 33 into the U-shaped groove 32. Then, the inner top rotating plate 29 is rotated to make it horizontal. At this time, the concave plate 31 is constrained and limited by the inner top rotating plate 29, and then the spraying operation is performed. After one side is sprayed, it is rotated to perform the spraying operation on the other side.

[0027] The above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of this utility model. Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations of this utility model fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. A support for filter component spray painting, characterized by, Includes a bottom shell (2), on which a vertical tube (20) is welded, and a concave part (21) is fitted on the vertical tube (20). An inner top screw (22) is threadedly connected to the concave part (21). The inner end of the inner top screw (22) is attached to the outer wall of the vertical tube (20). A concave frame (23) is welded on the concave part (21). A first shaft (34) is rotatably provided at the other end of the concave frame (23). An inner rotating plate (35) is welded to the inner end of the first shaft (34). Multiple inner top rods (36) are movably provided on the inner rotating plate (35).

2. The filter component spray support of claim 1, wherein, The concave frame (23) has movable sleeves (26) at both ends. The outer end of the movable sleeve (26) is welded with a concave plate (31). The two ends of the concave plate (31) are provided with U-shaped grooves (32). A pair of limiting rods (33) are welded on the inner rotating plate (35). The limiting rods (33) pass through the U-shaped grooves (32).

3. The filter component spray support of claim 2, wherein, The outer sides of the concave frame (23) are provided with an inner top plate (29) through the connecting shaft (28). One end of the inner top plate (29) abuts against the inner end of the movable sleeve (26). The outer end of the inner top plate (29) has an arc-shaped structure. A handle (30) is welded to the inner end of the inner top plate (29). The inner end of the connecting shaft (28) is welded to the concave frame (23).

4. The filter component spray support of claim 1, wherein, The outer end of the inner top rod (36) located on the same side is connected to a movable outer plate (380) by a thread. A movable side plate (38) is bent on the movable outer plate (380). An oblique hole (39) is opened on the movable side plate (38). The upper end of the oblique hole (39) extends inward at an inclination. A pressure rod (40) is movably provided in the oblique hole (39). The outer end of the pressure rod (40) is connected to a lower pressure arm (41) by a thread. A lower pressure plate (42) is welded to the upper end of the lower pressure arm (41). A pair of inner convex plates (43) are welded to the lower pressure plate (42). An inner rotating plate (35) is movably inserted through the inner convex plate (43). A second shaft (44) is welded to the upper end of the inner rotating plate (35). A lower top rotating plate (45) is rotatably provided on the second shaft. The lower end of the lower top rotating plate (45) has an arc-shaped structure. The lower end of the lower top rotating plate (45) abuts against the upper wall of the inner convex plate (43).

5. The filter component spray support of claim 1, wherein, The inner end of the inner push rod (36) is fitted with an inner push head with a conical structure, and the inner end of the inner push head is the small end.

6. The filter component spray support of claim 1, wherein, A cover plate (24) is provided inside the concave frame (23). The cover plate (24) has slots on both sides. The concave frame (23) passes through the slots. A gripping hole (260) is provided at the upper end of the cover plate (24).