An electric dust precipitation ash collecting plate rack mounting device

Abstract

The application discloses an electric dust removal dust collecting plate rack mounting device and belongs to the technical field of air conditioner processing devices. The device comprises a feeding assembly and a mounting assembly. The feeding assembly comprises a base, a supporting disc arranged on the base, a first support arranged on one side of the supporting disc, a feeding port arranged on the upper end of the supporting disc in the axial direction, a motor support arranged on the supporting disc below the feeding port, and an adjusting component arranged on the supporting disc. The mounting assembly is arranged on the side of the supporting disc and comprises a second support arranged on the side of the supporting disc close to the first support, a moving guide rail arranged on the side of the second support away from the motor support, a moving component arranged on the moving guide rail, and a conveying component arranged on one side of the moving component. The buckle gap is always in one direction during the batch installation of the dust collecting plate through the adjusting component. The dust collecting plate is continuously conveyed out of the vertical material piece through the cooperation of the mounting assembly and the adjusting component, and then is loosened after being installed at the designated position.

Description

Technical Field

[0001] This invention relates to the technical field of electrostatic precipitator (ESP) equipment manufacturing for thermal power plants, and particularly to an ESP dust collection plate rack installation device. Background Technology

[0002] Currently, electrostatic precipitators (ESPs) are widely used in industrial production enterprises due to their advantages such as large processing capacity, simple equipment maintenance, and low investment. Working principle: A high voltage is applied between the anode of the collecting plate and the cathode of the electrode wire in an ESP. This high voltage ionizes the dust, causing the charged dust to be adsorbed onto the collecting plate and electrode wire. Most of the dust is adsorbed onto the collecting plate, which is fixed at the upper end to a channel steel and hangs freely at the lower end. A hammer strikes the bearing component, vibrating the collecting plate and shaking the dust off into the ash hopper below, thus achieving the dust removal effect. A set of collecting plates typically contains more than one collecting plate. When installing the collecting plates onto the channel steel, the pre-fabricated vent frame is usually placed upside down first, and then the side of the collecting plate with the clips is pressed down... The dust collection plate is then installed onto the frame using bolts. Installing one dust collection plate requires several plates, which serve the function of dust collection. Therefore, the installation of dust collection plates involves a large quantity of work and repetitive operations. It is crucial to ensure the plates are properly secured. In mass production, these steps are done manually, which is not only time-consuming and labor-intensive, but also leads to operator fatigue due to the large number of plates being installed, resulting in misaligned or damaged plates. This can cause damage or misfitting installation, leading to loosening of the electrostatic precipitator dust collection plates during processing. Summary of the Invention

[0003] In view of the problems existing in the above-mentioned electrostatic precipitator dust collection plate rack installation device, the present invention is proposed.

[0004] Therefore, the purpose of this invention is to provide an electrostatic precipitator dust collection plate rack installation device.

[0005] To solve the above-mentioned technical problems, the present invention provides the following technical solution: An electrostatic precipitator dust collection plate rack installation device is provided, comprising a feeding assembly, including a base frame, a support plate mounted on the base frame, a first bracket mounted on one side of the support plate, an inlet axially mounted on the upper end of the support plate, a motor bracket mounted on the lower end of the inlet on the support plate, and an adjustment component mounted on the support plate; and an installation assembly, the installation assembly being disposed on the side of the support plate, including a second bracket mounted on the side of the support plate near the first bracket, a movable guide rail mounted on the side of the second bracket away from the motor bracket, a movable component mounted on the movable guide rail, and a transport component mounted on one side of the movable component.

[0006] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, wherein: a turntable groove is provided in the support plate, a central column is provided in the center of the turntable groove, a central sliding groove is obliquely provided on the central column, and a discharge port is axially provided at the lower end of the support plate.

[0007] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, the discharge port is opened on the same side as the inlet, the discharge port is collinear with the central slide groove, and a vertical material component is provided at the lower end of the side of the discharge port away from the support plate.

[0008] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, a feeding funnel is provided at the upper part of the end of the feed inlet away from the support plate.

[0009] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, the adjusting component includes an adjusting turntable disposed in a turntable groove, a turntable slide groove disposed on the adjusting turntable, a flange disposed on the side of the adjusting turntable near the motor bracket, a first gear fixed at the center of the flange, and a drive motor disposed on the motor bracket. Specifically, the drive motor is coaxially connected to the first gear, the adjusting turntable is rotatably connected to the outside of the central column, the turntable slide groove cooperates with the central slide groove, and an adjusting block is disposed in the turntable slide groove. During the rotation of the adjusting turntable, the turntable slide groove can be collinear with the feed inlet, the discharge outlet, or the central slide groove in sequence.

[0010] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, the moving component includes a rotating cylinder rotatably connected to a second support, a second gear coaxially connected to the side of the rotating cylinder away from the first support, a first cam groove opened on the side of the rotating cylinder, a moving slider slidably connected to a moving guide rail, a first protruding post disposed on the side of the moving slider near the rotating cylinder, a moving base disposed at the lower end of the moving slider, and an extension unit disposed on the side of the moving base near the drive motor. The first protruding post cooperates with the first cam groove, a roller is provided at the lower end of the moving base, the roller is in contact with the base frame, and first hinge posts are provided on both sides of the moving base.

[0011] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, the extension unit includes a connecting rod with a movable base near the side of the vertical material, an extension base with the connecting rod away from the movable base, second hinge columns on both sides of the extension base, and a second cam groove at the lower end of the extension base. The connecting rod is provided in two sets, and the two ends of the two sets of connecting rods are rotatably connected to the first hinge column and the second hinge column, respectively. The lower end of the extension base is provided with a second protrusion that slides with the second cam groove.

[0012] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, the transport component includes a clamping baffle disposed at the end of the extended base away from the connecting rod, a telescopic groove disposed on the side of the clamping baffle near the vertical material member, a telescopic plate disposed in the telescopic groove, a first rack disposed at the end of the telescopic plate away from the base frame, a third gear disposed on the side of the first rack away from the vertical material member, and a second rack disposed at the upper end of the first rack that meshes with the third gear on the side away from the movable base.

[0013] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, wherein: a slot is provided on one side of the vertical member to cooperate with the telescopic plate, and the second rack near the end of the vertical member cooperates with the vertical member; when the extended base moves to the side near the vertical member, the second rack abuts against the vertical member.

[0014] As a preferred embodiment of the electrostatic precipitator dust collection plate rack installation device of the present invention, wherein: a push plate is provided on the base frame, and the push plate cooperates with the telescopic plate.

[0015] The beneficial effects of this invention are as follows: by adjusting the components, the buckle notch always faces one direction during the batch installation of the dust collection plate. Through the cooperation of the installation components and the adjustment components, the dust collection plate is continuously transported out of the vertical material and installed in the designated position before being released. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Wherein:

[0017] Figure 1 This is a schematic diagram of the overall structure of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0018] Figure 2 This is a schematic diagram of the feeding state structure of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0019] Figure 3 This is a schematic diagram of the adjustment state structure of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0020] Figure 4 This is a schematic diagram of the adjustment state change structure of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0021] Figure 5 This is a schematic diagram of the discharge state structure of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0022] Figure 6 This is an exploded structural diagram of the installation components of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0023] Figure 7 The electrostatic precipitator dust collection plate rack mounting device of the present invention Figure 6 Schematic diagram of the structure at point A in the middle.

[0024] Figure 8 This is a schematic diagram of the extended state of the movable component in the electrostatic precipitator dust collection plate rack mounting device of the present invention.

[0025] Figure 9 The electrostatic precipitator dust collection plate rack mounting device of the present invention Figure 8 Schematic diagram of the structure at point B.

[0026] Figure 10 This is an exploded structural diagram of the protruding component of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0027] Figure 11 This is a schematic diagram of the structure at point D in section 10 of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0028] Figure 12 This is an enlarged structural diagram of the protruding component of the electrostatic precipitator dust collection plate rack mounting device of the present invention.

[0029] Figure 13 This is a schematic diagram of the internal structure of the transport component of the electrostatic precipitator dust collection plate rack installation device of the present invention.

[0030] Figure 14 The electrostatic precipitator dust collection plate rack mounting device of the present invention Figure 13 Schematic diagram of the structure at point C.

[0031] In the diagram: 100—Feeding assembly; 101—Base frame; 102—Support plate; 103—First bracket; 104—Feed inlet; 105—Motor bracket; 106—Adjusting component; 200—Mounting assembly; 201—Second bracket; 202—Moving guide rail; 203—Moving component; 204—Transporting component; 102a—Turntable groove; 102b—Central column; 102c—Central chute; 102d—Discharge port; 102e—Vertical material component; 104a—Feed funnel; 106a—Adjusting turntable; 106b—Turntable chute; 106c—First gear; 106d—Drive motor; 106e—Adjusting block; 203a—Rotating drum; 203b—Second gear; 203c—First cam groove; 203d—Moving slider; 203e—First protrusion; 203f—Moving base; 205—Extending unit; 205a—Connecting rod; 205b—Extending base; 205c—Second cam groove; 205d—Second protrusion; 204a—Clamping baffle; 204b—Telescopic plate; 204c—First rack; 204d—Third gear; 204e—Second rack; 102f—Groove; 101a—Push-back plate. Detailed Implementation

[0032] To make the above-mentioned objects, features and advantages of the present invention more apparent and understandable, the specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

[0033] Many specific details are set forth in the following description in order to provide a full understanding of the invention. However, the invention may also be practiced in other ways different from those described herein, and those skilled in the art can make similar extensions without departing from the spirit of the invention. Therefore, the invention is not limited to the specific embodiments disclosed below.

[0034] Secondly, the term "one embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that is mutually exclusive with other embodiments.

[0035] Secondly, the present invention is described in detail with reference to the schematic diagrams. When detailing the embodiments of the present invention, for ease of explanation, the cross-sectional views illustrating the device structure may be partially enlarged, not according to the usual scale. Furthermore, the schematic diagrams are merely examples and should not limit the scope of protection of the present invention. In addition, actual fabrication should include three-dimensional spatial dimensions of length, width, and depth.

[0036] Example 1

[0037] Reference Figures 1-5An electrostatic precipitator dust collection plate rack mounting device is provided, including a feeding assembly 100, comprising a base frame 101, a support plate 102 disposed on the base frame 101, a first bracket 103 disposed on one side of the support plate 102, a feed inlet 104 axially disposed on the upper end of the support plate 102, a motor bracket 105 disposed on the lower end of the feed inlet 104 on the support plate 102, and an adjustment component 106 disposed on the support plate 102; and an mounting assembly 200, which is disposed on the side of the support plate 102 and includes a second bracket 201 disposed on the side of the support plate 102 near the first bracket 103, a moving guide rail 202 disposed on the side of the second bracket 201 away from the motor bracket 105, a moving component 203 disposed on the moving guide rail 202, and a transport component 204 disposed on one side of the moving component 203.

[0038] Specifically, a turntable groove 102a is provided inside the support plate 102, a central column 102b is provided at the center of the turntable groove 102a, a central sliding groove 102c is obliquely provided on the central column 102b, a discharge port 102d is axially provided at the lower end of the support plate 102, the discharge port 102d is opened on the same side as the inlet 104, the discharge port 102d is collinear with the central sliding groove 102c, and a vertical material member 102 is provided at the lower end of the side of the discharge port 102d away from the support plate 102. e. A feeding funnel 104a is provided at the upper part of the feed inlet 104 away from the support plate 102. The adjustment component 106 includes an adjustment turntable 106a provided in the turntable groove 102a, a turntable slide groove 106b opened on the adjustment turntable 106a, a flange provided on the side of the adjustment turntable 106a near the motor bracket 105, a first gear 106c fixed at the center of the flange, and a drive motor 106d provided on the motor bracket 105.

[0039] Specifically, the drive motor 106d is coaxially connected to the first gear 106c, the adjusting turntable 106a is rotatably connected to the outside of the central column 102b, the turntable slide 106b cooperates with the central slide 102c, and an adjusting block 106e is provided in the turntable slide 106b. During the rotation of the adjusting turntable 106a, the adjusting block 106e can be aligned with the feed port 104, the discharge port 102d or the central slide 102c in sequence.

[0040] Working principle: When installing the dust collection plate 10, the pre-machined steering linkage 205a is first poured into the feed hole, allowing the dust collection plate 10 to enter the feed inlet 104 sequentially through the feed hole. When the drive motor 106d drives the flange and adjusting turntable 106a to rotate, causing the turntable groove 106b to rotate until it is collinear with the feed inlet 104, the dust collection plate 10 slides into the turntable groove 106b. At this time, the adjusting clip of the turntable groove 106b is located on the dust collection plate 10. At this point, the direction of the dust collection plate 10 is not fixed. The dust collection plate 10, which has just slid into the turntable groove 106b from the feed inlet 104, will adhere to the turntable groove 106b away from the adjusting clip due to gravity. Then, the drive motor 106d continues to rotate. When the turntable groove 106b with the dust collection plate 10 rotates to the side of the central column 102b away from the discharge outlet 102d, the adjusting clip of the turntable groove 106b is located at the lower end of the dust collection plate 10. The turntable groove 106b and the central column 102b... The central chute 102c and the discharge port 102d are collinear. At this time, the dust collection plate 10 will adhere to the adjusting buckle due to gravity. If the side of the dust collection plate 10 with the buckle does not engage with the adjusting buckle, it will slide into the vertical material member 102e along the central chute 102c and the discharge port 102d. If the side of the dust collection plate 10 with the buckle engages with the adjusting buckle, the dust collection plate 10 will be locked by the adjusting buckle and slide down. The dust collection plate 10 remaining in the turntable chute 106b continues to rotate with the adjusting turntable 106a. Until the turntable slide 106b and the discharge port 102d are collinear, the dust collection plate 10, under the action of gravity, disengages from the adjustment buckle and reattaches itself to the side of the turntable slide 106b away from the adjustment buckle. It then slides along the turntable slide 106b and the discharge port 102d into the vertical material component 102e. This ensures that the dust collection plate 10, which enters the vertical material component 102e from the discharge port 102d, has its buckle facing the same direction. This prevents the dust collection plates 10 from having inconsistent directions during installation, thus improving work efficiency.

[0041] Example 2

[0042] Reference Figures 5-9 The difference between this embodiment and the first embodiment is that: the mounting component 200 is disposed on the side of the support plate 102, including a second bracket 201 disposed on the side of the support plate 102 near the first bracket 103, a moving guide rail 202 disposed on the side of the second bracket 201 away from the motor bracket 105, a moving component 203 disposed on the moving guide rail 202, and a transport component 204 disposed on the side of the moving component 203.

[0043] Specifically, the moving component 203 includes a rotating cylinder 203a rotatably connected to the second bracket 201, a second gear 203b coaxially connected to the side of the rotating cylinder 203a away from the first bracket 103, the second gear 203b meshing with the first gear 106c, a first cam groove 203c formed on the side of the rotating cylinder 203a, a moving slider 203d slidably connected to the moving guide rail 202, a first protrusion 203e disposed on the side of the moving slider 203d near the rotating cylinder 203a, a moving base 203f disposed at the lower end of the moving slider 203d, and an extension unit 205 disposed on the side of the moving base 203f near the drive motor 106d. The first protrusion 203e engages with the first cam groove 203c. A roller is provided at the lower end of the movable base 203f, and the roller is in contact with the base frame 101. First hinge posts are provided on both sides of the movable base 203f. The first cam groove 203c is distributed circumferentially on the side of the roller. The first cam groove 203c can drive the movable slider 203d to move back and forth laterally in cooperation with the first protrusion 203e. The number of times the drum on one side of the second gear 203b can be rotated by the drive motor 106d rotating one revolution can be adjusted appropriately. The diameter ratio of the first gear 106c to the second gear 203b should be greater than or equal to two.

[0044] Specifically, the extension unit 205 includes a connecting rod 205a located on the side of the movable base 203f near the vertical member 102e, an extension base 205b located at the end of the connecting rod 205a away from the movable base 203f, second hinge posts located on both sides of the extension base 205b, and a second cam groove 205c located at the lower end of the extension base 205b. The connecting rod 205a is provided in two sets, with both ends of the two sets of connecting rods 205a rotatably connected to the first hinge post and the second hinge post, respectively. The lower end of the extension base 205b is provided with a second protrusion 205d that slides in cooperation with the second cam groove 205c. The side of the second cam groove 205c near the vertical member 102e is perpendicular to the support plate 102, and the side of the second cam groove 205c away from the vertical member 102e is horizontal to the support plate 102, extending horizontally towards the side away from the extension base 205b.

[0045] The rest of the structure is the same as in Example 1.

[0046] Working principle: When the adjusting component 106 adjusts the dust collection plate 10 in one direction, the motor drives the first gear 106c and the flange to rotate. Simultaneously, the first gear 106c drives the second gear 203b on one side to rotate. The second gear 203b drives the rotating drum 203a to rotate coaxially. Under the cooperation of the first cam groove 203c and the first protrusion 203e on the rotating drum 203a, the moving slider 203d moves back and forth along the moving guide rail 202. When the moving slider 203d moves away from the support plate 102, it drives the lower moving base 203f to move together. The moving base 203f drives the connecting rods 205a on both sides and the extended base 205b at the other end of the connecting rods 205a to move. The second protrusion 205d at the lower end of the extended base 205b cooperates with the end of the second cam groove 205c perpendicular to the support plate 102. When the connecting rod 205a and the movable base 203f are tilted at a certain angle away from the support plate 102, as the first protrusion 203e moves to the end of the first cam groove 203c, the second protrusion 205d first moves vertically along the second cam groove 205c relative to the support plate 102, and then slides into the horizontal direction of the second cam groove 205c. Finally, the second protrusion 205d moves to the end of the horizontal direction of the second cam groove 205c. At this time, the first protrusion 203e moves to the end of the first cam groove 203c away from the support plate 102. The connecting rod 205a is perpendicular to the movable base 203f, and extends out of the base 205b to drive the transport component 204 on it to clamp the dust collection plate 10 onto the air conditioning vent frame. The same applies when returning to the original position. This device can automatically send out the dust collection plate 10 and clamp it onto the dust collection plate frame while the direction of the dust collection plate 10 is adjusted, thereby improving work efficiency.

[0047] Example 3

[0048] Reference Figures 5 to 14This embodiment differs from the previous embodiments in that: a transport component 204 is disposed on one side of the moving component 203. The transport component 204 includes a clamping baffle 204a disposed at the end of the extended base 205b away from the connecting rod 205a, a telescopic groove disposed on the side of the clamping baffle 204a near the vertical member 102e, a telescopic plate 204b disposed in the telescopic groove, a first rack 204c disposed at the end of the telescopic plate 204b away from the base frame 101, a third gear 204d disposed on the side of the first rack 204c away from the vertical member 102e, and a first... The upper end of the rack 204c meshes with the second rack 204e on the side of the third gear 204d away from the movable base 203f. The telescopic plate 204b is provided with a first chamfer 204b-1 on the side near the clamping baffle 204a. The lower end of the clamping baffle 204a is provided with a second chamfer 204a-1. The second chamfer 204a-1 facilitates the upward scooping of the rotating rod into the extended base 205b of the vertical material 102e. The first chamfer 204b-1 facilitates the horizontal squeezing of the vertical material 102e between the telescopic plate 204b and the clamping baffle 204a.

[0049] Specifically, a slot 102f is provided on one side of the vertical member 102e to cooperate with the telescopic plate 204b. The slot 102f allows the second rack 204e to cooperate with the vertical member 102e at one end near the vertical member 102e. When the extended base 205b moves to the side near the vertical member 102e, the second rack 204e abuts against the vertical member 102e. A push plate 101a is provided on the base frame 101, and the push plate 101a cooperates with the telescopic plate 204b.

[0050] The rest of the structure is the same as in Example 2.

[0051] Working principle: During the process of the extended base 205b moving to fit against the vertical material 102e, the chamfer at the lower end of the clamping baffle 204a first scoops the rotating rod to the upper part of the lower end of the clamping baffle 204a. The second rack 204e abuts against the vertical material 102e and moves towards the extended base 205b. The second rack 204e drives the third gear 204d to rotate. The third gear 204d drives the first rack 204c to slide out of the extended base 205b. During the extension of the telescopic plate 204b, the chamfer on the first rack 204c scoops the rotating rod into the space between the telescopic plate 204b and the clamping baffle 204a, thus completing the removal of the rotating rod from the vertical material 102e. Then, in the moving part... Under the action of component 203, the extended base 205b drives the rotating rod to move to the end of the second cam groove 205c away from the vertical material component 102e, and the rotating rod is clamped into the dust collection plate frame. During the clamping process, the telescopic plate 204b gradually abuts against the push plate 101a, and finally the telescopic plate 204b retracts into the extended base 205b. The push plate 101a drives the first rack 204c to retract into the extended base 205b. The first rack 204c drives the third gear 204d to reverse. The third gear 204d drives the second rack 204e to extend and prepare to abut against the clamping baffle 204a next time, realizing the automatic installation and clamping of the rotating rod. It is suitable for mass production and improves work efficiency and accuracy.

[0052] It should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to limit it. Although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all such modifications or substitutions should be covered within the scope of the claims of the present invention.

Claims

1. An electrostatic precipitator dust collection plate rack installation device, characterized in that: include, The feeding assembly (100) includes a base frame (101), a support plate (102) mounted on the base frame (101), a first bracket (103) mounted on one side of the support plate (102), a feed inlet (104) axially mounted on the upper end of the support plate (102), a motor bracket (105) mounted on the lower end of the feed inlet (104) on the support plate (102), and an adjustment component (106) mounted on the support plate (102); and, The mounting assembly (200) is disposed on the side of the support plate (102) and includes a second bracket (201) disposed on the side of the support plate (102) near the first bracket (103), a moving guide rail (202) disposed on the side of the second bracket (201) away from the motor bracket (105), a moving part (203) disposed on the moving guide rail (202), and a transport part (204) disposed on the side of the moving part (203). The support plate (102) includes a turntable groove (102a), a central column (102b), a central slide groove (102c), and a vertical member (102e). The adjustment component (106) includes an adjustment turntable (106a) disposed in a turntable groove (102a), a turntable slide groove (106b) opened on the adjustment turntable (106a), a flange disposed on the side of the adjustment turntable (106a) near the motor bracket (105), a first gear (106c) fixed at the center of the flange, and a drive motor (106d) disposed on the motor bracket (105). Specifically, the drive motor (106d) is coaxially connected to the first gear (106c), the adjusting turntable (106a) is rotatably connected to the outside of the central column (102b), the turntable groove (106b) cooperates with the central groove (102c), and an adjusting block (106e) is provided in the turntable groove (106b). During the rotation of the adjusting turntable (106a), the turntable groove (106b) can be collinear with the feed inlet (104), the discharge outlet (102d), or the central groove (102c) in sequence. The moving component (203) includes a rotating cylinder (203a) rotatably connected to the second bracket (201), a second gear (203b) coaxially connected to the side of the rotating cylinder (203a) away from the first bracket (103), a first cam groove (203c) opened on the side of the rotating cylinder (203a), a moving slider (203d) slidably connected to the moving guide rail (202), a first protrusion (203e) disposed on the side of the moving slider (203d) near the rotating cylinder (203a), a moving base (203f) disposed at the lower end of the moving slider (203d), and an extension unit (205) disposed on the side of the moving base (203f) near the drive motor (106d). The first protruding post (203e) cooperates with the first cam groove (203c), the lower end of the movable base (203f) is provided with a roller, the roller is in contact with the base frame (101), and the movable base (203f) is provided with first hinge posts on both sides; The extension unit (205) includes a connecting rod (205a) disposed on the side of the movable base (203f) near the vertical member (102e), an extension base (205b) disposed on the end of the connecting rod (205a) away from the movable base (203f), second hinge posts disposed on both sides of the extension base (205b), and a second cam groove (205c) disposed at the lower end of the extension base (205b). The connecting rod (205a) is provided in two sets, and the two ends of the two sets of connecting rods (205a) are rotatably connected to the first hinge post and the second hinge post respectively. The lower end of the extended base (205b) is provided with a second protrusion (205d) that slides with the second cam groove (205c). The transport component (204) includes a clamping baffle (204a) disposed at the end of the extended base (205b) away from the connecting rod (205a), a telescopic groove disposed on the side of the clamping baffle (204a) near the vertical member (102e), a telescopic plate (204b) disposed in the telescopic groove, a first rack (204c) disposed at the end of the telescopic plate (204b) away from the base frame (101), a third gear (204d) disposed on the side of the first rack (204c) away from the vertical member (102e), and a second rack (204e) disposed at the upper end of the first rack (204c) meshing with the third gear (204d) near the movable base (203f); The vertical member (102e) has a slot (102f) on one side that mates with the telescopic plate (204b). The second rack (204e) mates with the vertical member (102e) at one end. When the extended base (205b) moves to the side near the vertical member (102e), the second rack (204e) abuts against the vertical member (102e).

2. The electrostatic precipitator dust collection plate rack installation device as described in claim 1, characterized in that: The support plate (102) includes a central column (102b) disposed at the center of the turntable groove (102a), a central sliding groove (102c) obliquely opened on the central column (102b), and a discharge port (102d) axially disposed at the lower end of the support plate (102).

3. The electrostatic precipitator dust collection plate rack installation device as described in claim 2, characterized in that: The discharge port (102d) is located on the same side as the inlet (104), the discharge port (102d) is collinear with the central chute (102c), and the vertical material component (102e) is located at the lower end of the side of the discharge port (102d) away from the support plate (102).

4. The electrostatic precipitator dust collection plate rack installation device as described in claim 2, characterized in that: A feeding funnel (104a) is provided on the upper part of the feed inlet (104) away from the support plate (102).

5. The electrostatic precipitator dust collection plate rack installation device as described in claim 4, characterized in that: The base frame (101) is provided with a push plate (101a), which cooperates with the telescopic plate (204b).

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