An automatic standard part surface spraying and dust removing device
By combining a frequency conversion control device with conveying isolation components, reusable needle-punched components, and curing anti-sticking components, the problems of wind power control and filter cloth adaptation in the automated standard parts surface spraying dust removal device are solved, realizing efficient dust removal and filter cloth reuse, and improving dust removal quality and equipment adaptability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- GUIYANG BAIYUN AVIATION FASTENERS
- Filing Date
- 2026-03-26
- Publication Date
- 2026-06-23
AI Technical Summary
Existing automated standard parts surface spraying dust removal devices are difficult to achieve frequency conversion control of suction power, and the filter cloth is difficult to adapt for reuse and pore clearing in paint mist environment, resulting in paint mist waste and increased filter cloth wear.
The suction power is adjusted by using a frequency converter control device, combined with conveying isolation components, reusable needle-punched components, and curing anti-stick components, to achieve automated control and the reuse and unblocking of the filter cloth, thus avoiding paint mist blockage.
It effectively controls dust removal quality, reduces paint mist waste, extends the service life of filter cloth, and improves dust removal efficiency and adaptability.
Smart Images

Figure CN121927775B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of dust removal technology in spray coating, and more particularly to an automated dust removal device for spray coating on standard parts. Background Technology
[0002] In actual automated standard parts manufacturing, the spraying process is an important rust prevention measure. During the actual spraying of standard parts, dust removal equipment needs to be installed on the spraying platform to isolate the paint mist generated during spraying and the metal debris and other dust generated during pre-spraying cleaning, maintaining a clean spraying environment. However, current automated standard parts surface spraying dust removal devices are not convenient for frequency conversion control of the suction force during actual spraying dust removal. When operators use spray guns, if a large suction force is maintained, and the spraying position is high, the spray gun is close to the dust inlet, easily causing a large amount of paint mist to be directly sucked in by negative pressure, resulting in waste and increased filter cloth wear. At the same time, traditional filter cloths are difficult to adapt to the paint mist environment for reuse and pore clearing. Filter cloths in paint mist environments have a shorter lifespan, and due to the high viscosity of the paint, the filter cloth pore clogging rate is even higher. Summary of the Invention
[0003] This disclosure relates to an automated standard parts surface spraying dust removal device, which solves the problems of current automated standard parts surface spraying dust removal devices being inconvenient to control the suction power by frequency conversion, and the filter cloth being difficult to adapt to the paint mist environment to achieve reuse and pore unblocking.
[0004] In a first aspect, this disclosure provides an automated dust removal device for surface spraying of standard parts, specifically including a dust removal mounting component. A frequency converter is mounted on the dust removal mounting component; the frequency converter controls the suction power; a conveying isolation component is mounted on the dust removal mounting component; the conveying isolation component isolates spray dust and mist droplets; a reusable needle-punching component is mounted on the dust removal mounting component; a curing anti-sticking component is mounted on the dust removal mounting component; the dust removal mounting component includes: a dust removal mounting cover, a mounting flange, and a conduit; the mounting flange is fixedly mounted on the bottom of the dust removal mounting cover, and the mounting flange has two rows of through holes; the mounting flange is used for mounting on a spraying platform; a conduit is fixedly mounted on the side of the dust removal mounting cover, and the conduit passes through the mounting flange.
[0005] In at least some embodiments, the dust removal mounting component further includes: a main suction fan, a lower bonding plate, and an upper bonding plate; the main suction fan is fixedly mounted on the dust removal mounting cover; the main suction fan communicates with the interior of the dust removal mounting cover; the lower bonding plate is fixedly mounted on the bottom of the main suction fan by bolts, and the lower bonding plate is provided with a through groove; the edge of the through groove in the middle of the lower bonding plate is chamfered; the upper bonding plate is fixedly mounted on the inner side of the dust removal mounting cover by bolts.
[0006] In at least some embodiments, the frequency converter control device includes: a sliding rheostat body, a variable resistance slider, a contact spring, a tension spring connecting frame, and a tension spring. The sliding rheostat body is fixedly mounted on a dust collector mounting cover by bolts. A coil is provided on the sliding rheostat body. A variable resistance slider is slidably mounted on the sliding rheostat body, and a contact spring is fixedly mounted on the bottom of the variable resistance slider, with the contact spring attached to the coil on the sliding rheostat body. The contact spring, the coil on the sliding rheostat body, and the main suction fan are connected in series with a power supply. The tension spring connecting frame is fixedly mounted on the sliding rheostat body. A tension spring is fixedly mounted on the tension spring connecting frame, with the end of the tension spring fixedly connected to the variable resistance slider.
[0007] In at least some embodiments, the frequency converter control device further includes: a traction steel wire and a collar, one end of the traction steel wire being fixedly connected to the variable resistance slider; the traction steel wire passing through a conduit; a collar being fixedly installed at the other end of the traction steel wire, and a rubber ring being provided inside the collar; the collar being used to fit onto a paint spray gun.
[0008] In at least some embodiments, the conveying isolation component includes: a conveying motor and a conveying roller; two conveying motors are fixedly mounted on the dust removal mounting cover, and the output shafts of the two conveying motors pass through the dust removal mounting cover respectively; two conveying rollers are rotatably mounted on the dust removal mounting cover; and the output shafts of the two conveying motors are fixedly connected to the two conveying rollers respectively.
[0009] In at least some embodiments, the conveying isolation component further includes: a conveyor belt and a filter cloth, wherein a row of conveyor belts is driven and sleeved on two conveyor rollers, and a filter cloth is fixedly sleeved on the outer side of the row of conveyor belts; the filter cloth is used to filter paint mist impurities; the bottom of the filter cloth is slidably attached to the upper bonding plate above the lower bonding plate; and the bottom of the upper bonding plate is attached to the inner side of the row of conveyor belts.
[0010] In at least some embodiments, the reusable needle-punched component includes: a rotating roller rotatably mounted inside a dust removal mounting cover; the rotating roller rolling against the inner side of a conveyor belt; and the rotating roller rolling against the inner side of a filter cloth.
[0011] In at least some embodiments, the reusable needled component further includes: needles, the rotating drum is provided with needles, and the needles are used to dredge the filter cloth; the needles are distributed between adjacent conveyor belts.
[0012] In at least some embodiments, the curing anti-stick component includes: a secondary suction fan, a manifold, and a connecting cylinder. The secondary suction fan is located outside the dust removal mounting cover. The connecting cylinder is fixedly installed on the secondary suction fan and is fixedly installed on the dust removal mounting cover. The manifold is fixedly installed on the secondary suction fan and is fixedly connected to the exhaust pipe of the main suction fan.
[0013] In at least some embodiments, the curing anti-stick component further includes: a cooling housing, which is fixedly mounted on the connecting cylinder; the cooling housing is connected to a secondary suction fan; the bottom of the cooling housing is provided with a suction port; the cooling housing is used to accelerate the curing of paint on the filter cloth.
[0014] This invention provides an automated dust removal device for surface spraying of standard parts, which has the following beneficial effects:
[0015] The variable frequency control device used in this invention can automatically control and adjust the speed of the main suction fan according to the spraying height when the operator operates the paint gun. The variable frequency adjustment of the air force can effectively ensure the dust removal quality and maintain good dust removal suction. It can also avoid the large amount of paint mist being sucked in by negative pressure, which would cause waste and increase the wear and tear on the filter cloth.
[0016] Furthermore, the use of a conveying isolation component allows for the transport of interchangeable filter cloths, improving the utilization rate of the filter cloths and preventing localized areas from absorbing excessive impurities. Simultaneously, the reusable needle-punching component clears blockages in the filter cloths during their movement, facilitating reuse. The use of a curing and anti-sticking component dries the paint mist freshly adsorbed on the filter cloths at the rotating drum, preventing uncured paint from clogging the needle-punched areas after the needles have penetrated the cloths. This simple structure ensures high-quality clearing and is particularly suitable for dust removal in paint mist environments. Attached Figure Description
[0017] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings of the embodiments will be briefly described below.
[0018] The accompanying drawings described below are only related to some embodiments of the invention and are not intended to limit the invention.
[0019] In the attached diagram:
[0020] Figure 1 This invention provides a schematic diagram of the overall structure of an automated standard parts surface spraying dust removal device.
[0021] Figure 2 A schematic diagram of the bottom structure of an automated standard parts surface spraying dust removal device according to this application is shown;
[0022] Figure 3 This paper shows a cross-sectional view of the internal structure of an automated standard parts surface spraying dust removal device according to this application;
[0023] Figure 4 A schematic diagram of the overall structure of the dust removal mounting component of this application is shown;
[0024] Figure 5A schematic diagram of the overall structure of the frequency converter control device of this application is shown;
[0025] Figure 6 A schematic diagram of the overall structure of the conveying isolation component of this application is shown;
[0026] Figure 7 A schematic diagram of the overall structure of the reusable needle-punched part of this application is shown;
[0027] Figure 8 A schematic diagram showing the installation position of the cooling housing in this application is provided;
[0028] Figure 9 A schematic diagram of the overall structure of the curing anti-stick component of this application is shown.
[0029] List of reference numerals
[0030] 1. Dust removal mounting components; 101. Dust removal mounting cover; 1011. Mounting flange; 102. Conduit; 103. Main suction fan; 104. Lower bonding plate; 105. Upper bonding plate; 2. Variable frequency control device; 201. Sliding rheostat body; 2011. Rheostat slider; 2012. Electrical contact spring; 202. Tension spring connecting frame; 203. Tension spring; 204. Traction steel wire; 205. Collar; 3. Conveying isolation components; 301. Conveying motor; 302. Conveying roller; 303. Conveying belt; 304. Filter cloth; 4. Reusable needle-punched components; 401. Rotating drum; 402. Needle; 5. Curing anti-stick components; 501. Auxiliary suction fan; 5011. Connecting pipe; 5012. Connecting cylinder; 502. Cooling shell. Detailed Implementation
[0031] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, 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, not all, of the embodiments of the present invention. Based on the described 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.
[0032] Example 1: Please refer to Figures 1 to 9 :
[0033] This invention proposes an automated dust removal device for surface spraying of standard parts, including a dust removal mounting component 1, on which a frequency converter control device 2 is installed; the frequency converter control device 2 is used to control the suction power; a conveying isolation component 3 is installed on the dust removal mounting component 1; the conveying isolation component 3 is used to isolate spraying dust and mist droplets; a reusable needle-punching component 4 is installed on the dust removal mounting component 1; a curing anti-sticking component 5 is installed on the dust removal mounting component 1; the dust removal mounting component 1 includes: a dust removal mounting cover 101, a mounting flange 1011, and a conduit 102; the mounting flange 1011 is fixedly installed at the bottom of the dust removal mounting cover 101, and the mounting flange 1011 has two rows of through holes; the mounting flange 1011 is used to install on the spraying platform; the conduit 102 is fixedly installed on the side of the dust removal mounting cover 101, and the conduit 102 passes through the mounting flange 1011.
[0034] In this embodiment, the dust removal mounting component 1 further includes: a main suction fan 103, a lower bonding plate 104, and an upper bonding plate 105. The main suction fan 103 is fixedly mounted on the dust removal mounting cover 101; the main suction fan 103 communicates with the interior of the dust removal mounting cover 101; the lower bonding plate 104 is fixedly mounted on the bottom of the main suction fan 103 by bolts, and the lower bonding plate 104 is provided with a through groove; the edge of the through groove in the middle of the lower bonding plate 104 is chamfered; the upper bonding plate 105 is fixedly mounted on the inner side of the dust removal mounting cover 101 by bolts; the frequency conversion control device 2 includes: a sliding rheostat body 201, a rheostat slider 2011, a contact spring 2012, a tension spring connecting frame 202, and a tension spring 203, the sliding rheostat body 201, a lower bonding plate 2011, a contact spring 2012, a tension spring connecting frame 202, and a tension spring 203, the sliding rheostat body 201, a lower bonding plate 2011, a lower bonding plate 2012, a contact ... The rheostat body 201 is fixedly mounted on the dust removal mounting cover 101 by bolts; a coil is provided on the sliding rheostat body 201; a rheostat slider 2011 is slidably mounted on the sliding rheostat body 201, and a connecting spring 2012 is fixedly mounted on the bottom of the rheostat slider 2011, with the connecting spring 2012 attached to the coil on the sliding rheostat body 201; the connecting spring 2012, the coil on the sliding rheostat body 201, and the main suction fan 103 are connected in series with a power supply; a tension spring connecting bracket 202 is fixedly mounted on the sliding rheostat body 201; a tension spring 203 is fixedly mounted on the tension spring connecting bracket 202, and the end of the tension spring 203 is fixedly connected to the rheostat slider 2011; The frequency control device 2 also includes: a traction steel wire 204 and a collar 205. One end of the traction steel wire 204 is fixedly connected to the variable resistance slider 2011; the traction steel wire 204 passes through the conduit 102; the other end of the traction steel wire 204 is fixedly installed with the collar 205, and a rubber ring is provided on the inner side of the collar 205; the collar 205 is used to fit onto the paint gun. Using the frequency conversion control device 2, the speed of the main suction fan 103 can be automatically controlled and adjusted according to the spraying height when the operator operates the paint gun. Frequency conversion adjustment of the airflow can effectively ensure dust removal quality, maintain good dust removal suction, and avoid excessive paint mist being sucked in by negative pressure, which would cause waste and increase the wear of the filter cloth 304. When the worker sprays paint from below the standard parts, high-speed dust extraction can be ensured. When the worker sprays paint from above the standard parts, a low dust extraction wind speed can be maintained. At this time, the paint mist is closer to the filter cloth 304, which can still effectively extract the floating paint mist under negative pressure, while avoiding a large amount of paint being drawn onto the standard parts. When the worker manually moves the paint gun downwards to spray, the pull wire 204 can pull the variable resistance slider 2011, which lengthens the tension spring 203. At this time, the contact spring 2012 will also move, gradually adjusting the contact position of the coil on the sliding rheostat body 201. At this time, the resistance value gradually decreases, and the corresponding main suction fan 103 can increase its speed and increase the suction force.
[0035] In this embodiment, the conveying isolation component 3 includes: a conveying motor 301 and a conveying roller 302. Two conveying motors 301 are fixedly mounted on the dust removal mounting cover 101, and the output shafts of the two conveying motors 301 pass through the dust removal mounting cover 101 respectively. Two conveying rollers 302 are rotatably mounted on the dust removal mounting cover 101. The output shafts of the two conveying motors 301 are fixedly connected to the two conveying rollers 302 respectively. The conveying isolation component 3 also includes: a conveyor belt 303 and a filter cloth 304. A row of conveyor belts 303 is drivenly sleeved on the two conveying rollers 302, and a filter cloth 304 is fixedly sleeved on the outer side of the row of conveyor belts 303. The filter cloth 304 is used to filter paint mist impurities. The bottom of the filter cloth 304 is slidably attached to the upper part of the lower bonding plate 104. The bottom of the upper bonding plate 105 is attached to the inner side of the row of conveyor belts 303. The reusable needle-punched component 4 includes: a rotating roller 401, which is rotatably mounted on the dust removal cover. Inside the mounting cover 101; the rotating roller 401 rolls and adheres to the inner side of a row of conveyor belts 303; the rotating roller 401 rolls and adheres to the inner side of the filter cloth 304; the reusable needle punch 4 also includes: needles 402, the rotating roller 401 is provided with needles 402, and the needles 402 are used to clear the filter cloth 304; the needles 402 are distributed between adjacent conveyor belts 303; by using the conveying isolation component 3, the filter cloth 304 that can be conveyed and rotated is utilized to improve the utilization rate of the filter cloth 304 and avoid the filter cloth 304 from easily filtering too many impurities in some areas. At the same time, in conjunction with the reusable needle punch 4, the filter cloth 304 can be cleared during the displacement of the filter cloth 304, which facilitates the reuse of the filter cloth 304 and further increases the service life of the filter cloth 304. The filter cloth 304 with paint adhering can be cleared by the needle punch 402 through the rotating roller 401 as the filter cloth 304 is displaced.
[0036] In Example 2, based on Example 1, the curing anti-stick component 5 includes: a secondary suction fan 501, a manifold pipe 5011, and a connecting cylinder 5012. The secondary suction fan 501 is located outside the dust removal mounting cover 101; the connecting cylinder 5012 is fixedly installed on the secondary suction fan 501, and the connecting cylinder 5012 is fixedly installed on the dust removal mounting cover 101; the manifold pipe 5011 is fixedly installed on the secondary suction fan 501; the manifold pipe 5011 is fixedly connected to the exhaust pipe of the main suction fan 103; the curing anti-stick component 5 also includes: a cooling shell 502, which is fixedly installed on the connecting cylinder 5011. The cooling housing 502 is connected to the auxiliary suction fan 501 on the receiving cylinder 5012; the bottom of the cooling housing 502 is provided with a suction port; the cooling housing 502 is used to accelerate the curing of the paint on the filter cloth 304; the curing and anti-sticking component 5 can dry the paint mist that has just been adsorbed on the filter cloth 304 at the rotating drum 401, which can prevent the uncured paint from easily clogging the filter cloth 304 again after the needle 402 pierces into the filter cloth 304. The structure is simple, can ensure the quality of unblocking, and is more suitable for dust removal work in paint mist environment.
[0037] The working principle of this embodiment is as follows: The collar 205 is fitted onto the paint gun, and a bolt is passed through the through hole on the mounting flange 1011. The gun is then mounted on the spraying platform using the bolt. The main suction fan 103 and the auxiliary suction fan 501 are started. Suction is drawn from above the standard part through the dust removal mounting cover 101, and impurities, dust, and paint mist are filtered using the filter cloth 304. The main suction fan 103… The exhaust pipe can be connected to an activated carbon filter to further filter and remove impurities from the drawn-out exhaust gas. During actual painting operations, the operator can spray the standard parts from top to bottom. As the standard parts rotate, the operator moves the paint gun downwards from above to spray. The traction wire 204 pulls the variable resistor slider 2011, lengthening the tension spring 203. At this time, the contact spring 2012 also moves, gradually adjusting the contact position of the coil on the sliding rheostat body 201. The resistance value gradually decreases, and the main suction fan 103 can increase its speed to improve suction force, effectively drawing out paint mist even when the painting position is low. During negative pressure suction, the filter cloth 304 can filter paint mist and... During the dust removal process, two conveyor motors 301 drive two conveyor rollers 302 to rotate, which in turn drives the conveyor belt 303 to transport and move the filter cloth 304 along with it. During this process, the rotating drum 401 can be rotated by friction from the conveyor belt 303, and the needles 402 on the rotating drum 401 will also puncture the filter cloth 304 to clear the blockage. As the rotating drum 401 rotates and the needles 402 puncture the filter cloth 304, the suction port of the cooling housing 502 accelerates the suction under the real-time suction action of the auxiliary suction fan 501, which accelerates the drying of the paint mist particles attached to the filter cloth 304, preventing the unblocking holes from being blocked and stuck by the mist droplets attached to the filter cloth 304 before they are put into use, thus ensuring the unblocking quality of the needles 402.
[0038] The following points should be noted in this article:
[0039] 1. The accompanying drawings of the embodiments disclosed herein only relate to the structures involved in the embodiments disclosed herein; other structures can be referred to in general design.
[0040] 2. Where there is no conflict, the embodiments of this disclosure and the features in the embodiments can be combined with each other to obtain new embodiments.
[0041] The above are merely specific embodiments of this disclosure, but the scope of protection of this disclosure is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this disclosure should be included within the scope of protection of this disclosure. Therefore, the scope of protection of this disclosure should be determined by the scope of the claims.
Claims
1. An automated standard parts surface spraying dust removal device, comprising a dust removal mounting component (1), wherein a frequency converter control device (2) is mounted on the dust removal mounting component (1); characterized in that: The frequency conversion control device (2) is used to control the suction power; the dust removal mounting component (1) is equipped with a conveying isolation component (3); the conveying isolation component (3) is used to isolate the spraying dust and mist droplets; The dust removal mounting component (1) is equipped with a reusable needle-punching component (4); the dust removal mounting component (1) is equipped with a curing anti-sticking component (5); The dust removal mounting component (1) includes: a dust removal mounting cover (101), a mounting flange (1011), and a conduit (102). The bottom of the dust removal mounting cover (101) is fixedly mounted with the mounting flange (1011), and the mounting flange (1011) is provided with two rows of through holes. The mounting flange (1011) is used to be installed on the spraying platform. The side of the dust removal mounting cover (101) is fixedly mounted with the conduit (102), and the conduit (102) passes through the mounting flange (1011). The frequency conversion control device (2) includes: a sliding rheostat body (201), a rheostat slider (2011), a contact spring (2012), a tension spring connecting frame (202), and a tension spring (203). The sliding rheostat body (201) is fixedly mounted on a dust removal mounting cover (101) by bolts. A coil is provided on the sliding rheostat body (201). A rheostat slider (2011) is slidably mounted on the sliding rheostat body (201), and the bottom of the rheostat slider (2011) is fixedly mounted. A coil is fitted with a contact spring (2012) and the contact spring (2012) is attached to the body of the sliding rheostat (201); the contact spring (2012), the coil on the body of the sliding rheostat (201), and the main suction fan (103) are connected in series with a power supply; the tension spring connecting bracket (202) is fixedly installed on the body of the sliding rheostat (201); a tension spring (203) is fixedly installed on the tension spring connecting bracket (202), and the end of the tension spring (203) is fixedly connected to the rheostat slider (2011); The frequency conversion control device (2) further includes: a traction steel wire (204) and a collar (205). One end of the traction steel wire (204) is fixedly connected to the variable resistance slider (2011); the traction steel wire (204) passes through the conduit (102); the other end of the traction steel wire (204) is fixedly installed with a collar (205), and a rubber ring is provided on the inner side of the collar (205); the collar (205) is used to fit into the paint spray gun.
2. The automated standard parts surface spraying dust removal device according to claim 1, characterized in that, The dust removal mounting component (1) further includes: a main suction fan (103), a lower bonding plate (104) and an upper bonding plate (105). The main suction fan (103) is fixedly mounted on the dust removal mounting cover (101). The main suction fan (103) is connected to the interior of the dust removal mounting cover (101). The bottom of the main suction fan (103) is fixedly mounted with the lower bonding plate (104) by bolts, and the lower bonding plate (104) is provided with a through groove. The edge of the through groove in the middle of the lower bonding plate (104) is chamfered. The upper bonding plate (105) is fixedly mounted on the inner side of the dust removal mounting cover (101) by bolts.
3. The automated standard parts surface spraying dust removal device according to claim 2, characterized in that, The conveying isolation component (3) includes: a conveying motor (301) and a conveying roller (302). Two conveying motors (301) are fixedly installed on the dust removal mounting cover (101), and the output shafts of the two conveying motors (301) pass through the dust removal mounting cover (101) respectively. Two conveying rollers (302) are rotatably installed on the dust removal mounting cover (101). The output shafts of the two conveying motors (301) are fixedly connected to the two conveying rollers (302) respectively.
4. The automated standard parts surface spraying dust removal device according to claim 3, characterized in that, The conveying isolation component (3) further includes: a conveyor belt (303) and a filter cloth (304). A row of conveyor belts (303) is driven and sleeved on the two conveyor rollers (302), and a filter cloth (304) is fixedly sleeved on the outside of the row of conveyor belts (303). The filter cloth (304) is used to filter paint mist impurities. The bottom of the filter cloth (304) is slidably attached to the upper bonding plate (104). The bottom of the upper bonding plate (105) is attached to the inside of the row of conveyor belts (303).
5. The automated standard parts surface spraying dust removal device according to claim 4, characterized in that, The reusable needle-punched part (4) includes: a rotating roller (401), which is rotatably installed inside the dust removal mounting cover (101); the rotating roller (401) is rolled and attached to the inner side of a row of conveyor belts (303); the rotating roller (401) is rolled and attached to the inner side of the filter cloth (304).
6. The automated standard parts surface spraying dust removal device according to claim 5, characterized in that, The reusable needle-punched part (4) further includes: a needle (402), which is provided on the rotating drum (401) and is used to smear the filter cloth (304); the needle (402) is distributed between adjacent conveyor belts (303).
7. The automated standard parts surface spraying dust removal device according to claim 4, characterized in that, The curing anti-stick component (5) includes: a secondary suction fan (501), a manifold (5011), and a connecting cylinder (5012). The secondary suction fan (501) is located outside the dust removal mounting cover (101). The connecting cylinder (5012) is fixedly installed on the secondary suction fan (501), and the connecting cylinder (5012) is fixedly installed on the dust removal mounting cover (101). The manifold (5011) is fixedly installed on the secondary suction fan (501). The manifold (5011) is fixedly connected to the exhaust pipe of the main suction fan (103).
8. The automated standard parts surface spraying dust removal device according to claim 7, characterized in that, The curing anti-stick component (5) further includes: a cooling housing (502), which is fixedly installed on the connecting cylinder (5012); the cooling housing (502) is connected to the auxiliary suction fan (501); the bottom of the cooling housing (502) is provided with a suction port; the cooling housing (502) is used to accelerate the curing of the paint on the filter cloth (304).