A dust falling device suitable for dust collector hopper
By designing a dust collection device suitable for dust collector hoppers, and utilizing a motor-driven rotating shaft and chute system, uniform knocking of dust on the inner wall of the hopper is achieved, solving the problem of difficult dust cleaning on the inner wall of the hopper, and improving cleaning efficiency and ease of operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- XIAN THERMAL POWER RES INST CO LTD
- Filing Date
- 2024-05-29
- Publication Date
- 2026-06-26
AI Technical Summary
Dust adhering to the inner wall of the dust hopper makes cleaning difficult. Existing tapping methods result in uneven force distribution and are cumbersome to operate, making it difficult to clean the dust collector efficiently.
A dust collection device was designed, including a driving component and a striking component. The motor drives the rotating shaft to move the striking plate, which, together with the slide, slide plate and push rod, achieves uniform striking of the inner wall of the dust hopper. It adapts to the conical structure of the dust hopper and ensures uniform distribution of striking force.
It achieves efficient cleaning of dust on the inner wall of the dust hopper, simplifies the operation process, improves cleaning efficiency, and ensures the normal operation of the dust collector.
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Figure CN118615802B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of dust collector technology, and in particular to a dust collection device suitable for dust collector hoppers. Background Technology
[0002] Dust collectors are widely used environmental protection equipment used to capture, separate, and treat dust particles in dusty gases. The dust hopper, as an important component of the dust collector, is used to collect the captured dust particles. However, a large amount of dust, particulate matter, and solid waste often accumulates inside the dust hopper, so it needs to be cleaned regularly. Dust may adhere to the inner wall of the dust hopper due to factors such as static electricity and humidity, making cleaning difficult.
[0003] To solve this technical problem, workers typically tap the dust hopper to dislodge the dust inside. However, dust adheres to different areas, requiring targeted tapping of these areas to improve cleaning efficiency. Since dust hoppers are usually cone-shaped (wider at the top, narrower at the bottom), the force-bearing area varies when tapping specific areas. It's necessary to ensure the tapping plate is evenly distributed across different locations within the area to ensure more uniform force distribution, effectively cleaning the dust inside the hopper and ensuring the normal and efficient operation of the dust collector. Furthermore, because the distance from the outer wall of the dust hopper to different areas varies, to simplify operation and adjustment, the tool for applying external force can be fixed, ensuring a consistent force stroke and adaptively adjusting the distance between the tapping plate and the dust hopper.
[0004] Therefore, based on the above-mentioned technical problems, we propose an ash collection device suitable for dust collector ash hoppers. Summary of the Invention
[0005] In view of the aforementioned existing technical problems, the present invention is proposed.
[0006] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a dust collection device suitable for a dust collector hopper, comprising: a device body including a dust hopper and a support frame disposed on the outer wall of the dust hopper; a drive assembly including a motor, a rotating shaft disposed on the output end of the motor, a mounting frame disposed on the outer wall of the support frame, a rotating rod disposed on the outer wall of the rotating shaft, and a rotating column disposed on the outer wall of the rotating rod; and a striking assembly including an adjusting column disposed outside the dust hopper, a connecting plate disposed at one end of the adjusting column, and a striking plate disposed on the outer wall of the connecting plate, wherein the outer wall of the striking plate maintains the same inclination as the outer wall of the dust hopper.
[0007] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: the rotating column is provided with a sliding groove on its outer side, the outer wall of the sliding groove is provided with a sliding plate, the hopper is provided with an installation plate, a fixing plate is provided between the installation plate and the support frame, and the outer wall of the installation plate is provided with a sliding track.
[0008] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: the slide rail and the slide plate are movably coupled, push rods are provided on both sides of the slide plate, and a plurality of movable grooves are provided through the outer wall of the mounting plate.
[0009] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, the distance between adjacent movable slots gradually increases from bottom to top, the mounting plate is provided with side plates on both sides, and the outer wall of the side plates is provided with vertical slots.
[0010] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: a plurality of transverse grooves are vertically provided on one side of the vertical groove, a movable plate is provided on the outside of the mounting plate, and a movable groove is provided on the outer wall of the movable plate.
[0011] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: the outer wall of the movable plate is provided with a connecting rod, the connecting rod is movably engaged with the transverse groove, and the outer wall of the connecting rod is provided with a movable rod.
[0012] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: the movable rod is movably engaged with the push rod, the mounting plate is provided with a movable plate on the outside, and the outer wall of the movable plate is provided with rollers.
[0013] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: the roller is movably engaged with the movable groove, a support plate is provided on one side of the movable plate, and a movable channel is provided on the outer wall of the support plate.
[0014] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: a rotating cylinder is sleeved on the outside of the adjusting column, a spiral groove is formed on the outer wall of the rotating cylinder, a movable column is provided inside the spiral groove, the movable column is fixedly connected to the adjusting column, and the movable column is movably engaged with the movable channel.
[0015] As a preferred embodiment of the dust collection device of the present invention applicable to the dust collector hopper, wherein: a first turntable and a second turntable are respectively provided at one end of the rotating drum, a transmission gear is provided between the first turntable and the second turntable, the diameter of the second turntable is larger than the diameter of the transmission gear, a telescopic tube is provided on the outer wall of the mounting plate, an elastic element is sleeved on the outer wall of the telescopic tube, a transmission rack is provided at one end of the telescopic tube, the transmission rack meshes with the transmission gear, the distribution direction of the transmission rack is parallel to the movable groove, a sliding tube is provided on one side of the second turntable, a baffle is provided on one side of the sliding tube, and both the sliding tube and the support plate are located inside the movable groove.
[0016] The beneficial effects of this invention are as follows: By setting a knocking plate, when dust adheres to the inner wall of the ash hopper, the operator can adjust the moving plate to move in the vertical groove according to the area of accumulation. The operator selects the horizontal groove closest to the dust accumulation area and inserts the connecting rod. During the upward movement of the moving plate, the sliding tube and the support plate move upward together. When the connecting rod enters the horizontal groove, it effectively positions the sliding tube and the support plate in space. During the upward movement of the support plate, the rollers cooperate with the movable groove to further adjust the gap between the knocking plates, allowing them to adapt to and match the cross-sections of different areas of the ash hopper. This allows the knocking plates to be more evenly distributed in the area, enabling comprehensive knocking and causing the accumulated dust to fall off. Simultaneously, because the push rods have a consistent stroke, but the distance to each cross-section of the ash hopper varies on the same vertical surface, the transmission gear meshes with the transmission rack during the upward movement of the sliding tube. This allows the adjusting column to extend to a matching length, adjusting the distance between the knocking plate and the ash hopper to accommodate the same thrust. The operation is simple and can be completed in one step. Attached Figure Description
[0017] To more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the following description of the embodiments will be briefly introduced. 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.
[0018] Figure 1 This is a schematic diagram of the overall structure of the device body in this invention.
[0019] Figure 2 This is a schematic diagram of the connection structure of the driving component in this invention.
[0020] Figure 3 This is a schematic diagram of the side plate connection structure in this invention.
[0021] Figure 4 This is a schematic diagram of the movable plate connection structure in this invention.
[0022] Figure 5 This is a schematic diagram of the connection structure of the striking component in this invention.
[0023] Figure 6 This is a schematic diagram of the spiral groove connection structure in this invention. Detailed Implementation
[0024] 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.
[0025] 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.
[0026] 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.
[0027] Example 1, referring to Figures 1-5 This is the first embodiment of the present invention. This embodiment provides a dust collection device suitable for dust collector hoppers. By setting up a drive assembly 100, when the motor 101 is turned on, the rotating column 102a and the sliding groove 103 are movably engaged, so that the sliding plate 103a drives the push rod 103a-1 and pushes the movable rod 106c, thereby knocking on the outer wall of the hopper S-1 area corresponding to the knocking plate 201a-1, so as to loosen the accumulated dust.
[0028] Specifically, the equipment body S includes an ash hopper S-1 and a support frame S-2 disposed on the outer wall of the ash hopper S-1; the drive assembly 100 includes a motor 101, a rotating shaft 101a disposed on the output end of the motor 101, a mounting frame 101b disposed on the outer wall of the support frame S-2, a rotating rod 102 disposed on the outer wall of the rotating shaft 101a, and a rotating column 102a disposed on the outer wall of the rotating rod 102; and the striking assembly 200 includes an adjusting column 201 disposed outside the ash hopper S-1, a connecting plate 201a disposed at one end of the adjusting column 201, and a striking plate 201a-1 disposed on the outer wall of the connecting plate 201a, wherein the outer wall of the striking plate 201a-1 maintains the same inclination as the outer wall of the ash hopper S-1.
[0029] The mounting bracket 101b is used to support and fix the motor 101; five adjusting columns are preferably provided; the connecting plate 201a is fixedly connected to the striking plate 201a-1; the striking plate 201a-1 is inclined and has the same inclination as the outer wall of the ash hopper S-1, so that the striking plate 201a-1 can fully contact and strike the outer wall of the ash hopper S-1.
[0030] Preferably, the rotating column 102a is provided with a sliding groove 103 on its external side, the outer wall of the sliding groove 103 is provided with a sliding plate 103a, the ash hopper S-1 is provided with an installation plate 104 on its external side, a fixing plate 104c is provided between the installation plate 104 and the support frame S-2, and a sliding track 104a is provided on the outer wall of the installation plate 104.
[0031] Preferably, the slide 104a and the slide plate 103a are movable and cooperate with each other. Push rods 103a-1 are provided on both sides of the slide plate 103a, and several movable grooves 104b are provided through the outer wall of the mounting plate 104.
[0032] The fixed plate 104c is used to fix and connect the mounting plate 104; the slide rail 104a is used to control the moving direction of the sliding plate 103a; the length of the push rod 103a-1 can cover the movable length of the movable rod 106c, that is, no matter which position the movable rod 106c is adjusted to, the push rod 103a-1 can be pushed to the movable rod 106c when moving; when it is necessary to focus on tapping the area with heavy dust adhesion in the ash hopper S-1 to improve the cleaning effect, the push rod 103a-1 is adjusted to a suitable horizontal position. After entering the groove 105b, the motor 101 is started, the rotating shaft 101a rotates, driving the rotating rod 102 to rotate, so that the rotating column 102a and the sliding groove 103 are in motion with each other, so that the sliding plate 103a can move back and forth in the sliding track 104a, which means that the push rod 103a-1 can push the movable rod 106c to continue to move forward in the transverse groove 105b, further driving the knocking plate 201a-1 to knock on the outer wall of the ash hopper S-1, so that it can concentrate the knocking on the dust accumulated in the horizontal area and reduce energy loss.
[0033] In summary, by setting the knocking plate 201a-1, any area above or below the ash hopper S-1 can be selected for concentrated knocking, causing the dust adhering to the corresponding inner wall to disperse, thus improving work efficiency. When adjusting the position of the knocking plate 201a-1, the moving plate 106 can be adjusted up and down to move the connecting rod 106b within the vertical groove 105a. The corresponding horizontal groove 105b is then selected, and the connecting plate 106b is inserted. Then, by starting the motor 101, the push rod 103a-1 pushes the movable rod 106c, further enabling the knocking operation of the knocking plate 201a-1.
[0034] Example 2, refer to Figures 1-6 This is the second embodiment of the present invention. This embodiment is based on the previous embodiment, but the difference is that when the worker adjusts the area to be struck by the tapping board 201a-1, he moves the support plate 202b upward by adjusting the moving plate 106 up and down. At this time, the roller 202a and the movable groove 104b are in active cooperation, so that the tapping board 201a-1 further meets the "wide at the top and narrow at the bottom" characteristic of the ash hopper S-1, so that it is evenly distributed.
[0035] Specifically, the distance between adjacent movable slots 104b gradually increases from bottom to top, and side plates 105 are provided on both sides of the mounting plate 104. A vertical slot 105a is provided through the outer wall of the side plate 105.
[0036] Preferably, a plurality of transverse grooves 105b are vertically provided on one side of the vertical groove 105a, and a movable plate 106 is provided on the outside of the mounting plate 104, with a movable groove 106a opened on the outer wall of the movable plate 106.
[0037] Among them, such as Figure 3 As shown, the distance between adjacent movable slots 104b gradually increases from bottom to top. Rollers 202a slide within the movable slots 104b. This design adapts to the "wider at the top, narrower at the bottom" shape of most ash hoppers S-1 on the market. That is, if dust accumulates heavily above the ash hopper S-1, preventing it from falling, the tapping plate 201a-1 can be adjusted to be positioned above the ash hopper S-1 and dispersed outside the area, allowing for concentrated tapping of the horizontal area while ensuring even force distribution. However, if dust clogs the outlet below the ash hopper S-1, due to the relatively small cross-section of the outer wall of the lower ash hopper S-1, it is necessary to... Adjust the spacing between the tapping plates 201a-1 so that all tapping plates 201a-1 can concentrate and tap the outer wall of the area, avoiding some tapping plates 201a-1 failing to tap the outer wall of the ash hopper S-1 during their tapping motion, which would cause some damage. Preferably, there are 5 transverse grooves 105b. In actual application, the appropriate number of transverse grooves 105b can be set according to the different specifications of the ash hopper S-1. By setting several transverse grooves 105b, it is equivalent to setting the ash hopper S-1 into several transverse area blocks. Subsequently, the tapping plates 201a-1 can be adjusted to tap different areas, thereby efficiently treating areas where dust accumulates and adheres, making it more targeted.
[0038] Preferably, the outer wall of the movable plate 106 is provided with a connecting rod 106b, which is movably engaged with the transverse groove 105b, and the outer wall of the connecting rod 106b is provided with a movable rod 106c.
[0039] Preferably, the movable rod 106c is movably engaged with the push rod 103a-1, and the mounting plate 104 is provided with a movable plate 202 on the outside, and the outer wall of the movable plate 202 is provided with rollers 202a.
[0040] The connecting rod 106b is movably engaged with the vertical groove 105a. The operator first determines the area that the ash hopper S-1 needs to tap, then selects the horizontal groove 105b that is close to it. The movable groove 106a is movably engaged with the sliding tube 203c. That is, after determining the position of the horizontal groove 105b, the operator adjusts the moving plate 106. The moving groove 106a slides on the sliding tube 203c, moving the connecting rod 106b to the position of the vertical groove 105a. This allows the moving plate 106 to be adjusted up and down. Figure 4As shown, the movable groove 106a includes a sliding tube 203c and a support plate 202b. When the movable plate 106 is adjusted up and down, the sliding tube 203c and the support plate 202b move up and down together. That is, at this time, the roller 202a on the support plate 202b cooperates with the movable groove 104b, and at the same time adjusts the position of the striking plate 201a-1 to adapt to the outer wall of the ash hopper S-1 in different areas, so that the striking is more concentrated and can be distributed evenly in the area. When the connecting rod 106b moves to the side of the corresponding transverse groove 105b, it is locked. When the slide tube 203c and the support plate 202b are inserted into one end of the corresponding transverse groove 105b, it can prevent the slide tube 203c and the support plate 202b from falling off. In other words, the knocking plate 201a-1 is positioned. When the slide tube 203c is inserted into one end of the transverse groove 105b, the moving groove 106a moves on the slide tube 203c and will not hit the second turntable 203b. At this time, the transverse groove 105b still has a distance to guide the movement direction of the subsequent connecting rod 106b and prevent it from deviating. Therefore, when the push rod 103a-1 pushes the movable rod 106c, the connecting rod 106b continues to move forward.
[0041] In summary, the staff first determined the area where the striking plate 201a-1 needed to be concentrated on the ash hopper S-1, narrowing the scope and more efficiently dispersing the dust adhering to the inner wall. By adjusting the position of the moving plate 106, the connecting rod 106b and the vertical groove 105a were movably engaged. Then, the connecting rod 106b was placed in the horizontal groove 105b near the same position. When the moving plate 106 moved upward, the support plate 202b moved along with it, so that the roller 202a engaged with the movable groove 104b, thereby allowing the striking plate 201a-1 to be appropriately dispersed at different positions in the ash hopper S-1.
[0042] Example 3, referring to Figures 1-6 This is the third embodiment of the present invention. This embodiment is based on the previous embodiment. The difference is that, in order to meet the requirements of concentrated knocking on the dust-adhesive blockage area on the inner wall of the ash hopper S-1, and to adapt to the same pushing stroke of the push rod 103a-1, reducing the cumbersome need to adjust according to the shape of the ash hopper S-1, while adjusting the moving plate 106, the transmission gear 204 and the transmission rack 205 are in active cooperation, so that the adjusting column 201 drives the knocking plate 201a-1 to move, and adaptively adjusts the distance between the knocking plate 201a-1 and the ash hopper S-1.
[0043] Specifically, the roller 202a is movably engaged with the movable groove 104b, and a support plate 202b is provided on one side of the movable plate 202. The outer wall of the support plate 202b is provided with a movable channel 202b-1.
[0044] Preferably, a rotating cylinder 203 is sleeved on the outside of the adjusting column 201. A spiral groove 203d is opened on the outer wall of the rotating cylinder 203. A movable column 201b is provided inside the spiral groove 203d. The movable column 201b is fixedly connected to the adjusting column 201 and is movably engaged with the movable channel 202b-1.
[0045] The movable channel 202b-1 can limit the movement direction of the movable column 201b. That is, when the movable plate 106 drives the support plate 202b to move upward, since the movable column 201b is connected to the adjusting column 201, the adjusting column 201 and the rotating drum 203 move upward, and the slide tube 203c moves upward. At this time, the roller 202a slides in the movable groove 104b, and the distribution direction of the transmission rack 205 is parallel to the movable groove 104b, so that the transmission gear 204 and the transmission rack 205 are in movable engagement. When the transmission gear 204 rotates, the drum 203 rotates. It should be noted that the support plate 202b is located below the transmission gear 204 and does not affect its rotation. After the drum 203 rotates, the movable column 201b engages with the spiral groove 203d, allowing the adjusting column 201 to extend and retract accordingly. This adjusts the distance between the tapping plate 201a-1 and different areas of the ash hopper S-1. For example, with the same push stroke of the push rod 103a-1, the distance can be adjusted to accommodate the "wider top and lower bottom" shape of the ash hopper S-1. The narrow, cone-shaped taper allows adjustment of the distance between the tapping plate 201a-1 and the ash hopper S-1. If there is blockage above the ash hopper S-1, the distance between the tapping plate 201a-1 and the outer wall of the ash hopper S-1 can be adjusted to be relatively larger to accommodate the rated stroke of the push rod 103a-1. If there is severe blockage at the lower outlet of the ash hopper S-1, the distance from the top of the ash hopper S-1 to the bottom of the ash hopper S-1 will be larger on the same vertical plane. In this case, the distance between the tapping plate 201a-1 and the outer wall of the ash hopper S-1 will be adjusted... The push rod 103a-1 is made slightly smaller to accommodate the same rated stroke. This design avoids the hassle of adjusting the push rod 103a-1's stroke for different areas later. The adjustment of the moving plate 106 is done simultaneously, ensuring full compatibility with the conical ash hopper S-1. In addition, the outer wall of the tapping plate 201a-1 is preferably equipped with a rubber pad, which has a certain deformation capacity and can tolerate a small range of errors. This means that the accuracy of the distance between the tapping plate 201a-1 and the ash hopper S-1 will be slightly more relaxed.
[0046] Preferably, one end of the rotating drum 203 is provided with a first rotating disk 203a and a second rotating disk 203b, and a transmission gear 204 is provided between the first rotating disk 203a and the second rotating disk 203b. The diameter of the second rotating disk 203b is larger than the diameter of the transmission gear 204. The outer wall of the mounting plate 104 is provided with a telescopic tube 205a, and an elastic element 205a-1 is sleeved on the outer wall of the telescopic tube 205a. One end of the telescopic tube 205a is provided with a transmission rack 205, which meshes with the transmission gear 204. The distribution direction of the transmission rack 205 is parallel to the movable groove 104b. A slide tube 203c is provided on one side of the second rotating disk 203b, and a baffle 203c-1 is provided on one side of the slide tube 203c. The slide tube 203c and the support plate 202b are both located inside the movable groove 106a.
[0047] The diameters of the first turntable 203a and the second turntable 203b are both larger than that of the transmission gear 204, but the rotation of the first turntable 203a and the second turntable 203b will not affect the support plate 202b. The transmission rack 205 meshes with the transmission gear 204, and the area of the first turntable 203a and the second turntable 203b will cover a portion of the area of the transmission rack 205. The telescopic tube 205a consists of a sleeve and an inner tube, and the elastic element 205a-1 is sleeved on the inner tube. The elastic element 205a-1 is preferably a compression spring. The telescopic tube 205a is provided with At both ends of the transmission rack 205, the maximum stroke of the moving plate 106 is not affected; the baffle 203c-1 prevents the moving plate 106 from slipping, keeping it outside the slide tube 203c; after the area to be struck by the tapping plate 201a-1 is adjusted, that is, after the connecting rod 106b is placed in the appropriate position of the transverse groove 105b, the transmission gear 204 stops moving and remains stationary relative to the transmission rack 205. At this time, the extension distance of the adjusting column 201 is also adjusted, that is, the tapping plate 201a-1... The distance from 1 to ash hopper S-1, when push rod 103a-1 pushes movable rod 106c, connecting rod 106b continues to move forward in transverse groove 105b, and movable plate 106 moves together. At this time, movable plate 106 continues to move forward through slide tube 203c, pushing transmission rack 205 and second turntable 203b together. Movable column 201b slides in movable channel 202b-1. Due to the setting of spiral groove 203d, rotating drum 203 does not rotate. At this time, rotating drum 203 moving forward will drive adjusting column 201 to move forward, causing knocking plate 201 to move forward. a-1 strikes the outer wall of ash hopper S-1. After push rod 103a-1 cancels the thrust on movable rod 106c, under the action of elastic element 205a-1, transmission rack 205 retracts. Since the second turntable 203b covers part of the area of transmission rack 205, transmission rack 205 will drive the second turntable 203b, i.e., the rotating cylinder 203, to move back. And due to the setting of spiral groove 203d, it will drive the striking plate 201a-1 to move back. This cycle repeats, thus completing the concentrated striking of a certain cross section of ash hopper S-1.
[0048] In summary, in order to selectively loosen a heavily accumulated area in the ash hopper S-1 by tapping, making the work more targeted and efficient, it is necessary to adjust the vertical position of the tapping plate 201a-1. During adjustment, in order to adapt to the tapered characteristics of the ash hopper S-1 (wider at the top and narrower at the bottom) and to meet the same pushing stroke of the push rod 103a-1, the tapping plate 201a-1 can still tap the outer wall of the ash hopper S-1, reducing the trouble of adjusting the push rod 103a-1. When the moving plate 106 moves up and down for adjustment, the transmission gear 204 and the transmission rack 205 mesh, thereby allowing the tapping plate 201a-1 to be adaptively adjusted to the distance of the ash hopper S-1, which is convenient and intelligent.
[0049] It is important to note that the constructions and arrangements of this application shown in several different exemplary embodiments are merely illustrative. Although only a few embodiments are described in detail in this disclosure, those who consult this disclosure will readily understand that many modifications are possible (e.g., changes in the size, dimensions, structure, shape, and proportions of various elements, as well as parameter values (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, color, orientation, etc.) without substantially departing from the novel teachings and advantages of the subject matter described in this application). For example, an element shown as integrally formed may be composed of multiple parts or elements, the position of elements may be inverted or otherwise altered, and the nature or number or position of discrete elements may be changed or altered. Therefore, all such modifications are intended to be included within the scope of the invention. The order or sequence of any process or method steps may be changed or rearranged according to alternative embodiments. In the claims, any "device plus function" clause is intended to cover the structure described herein that performs the function, and not only structurally equivalent but also equivalent in structure. Other substitutions, modifications, alterations, and omissions may be made in the design, operation, and arrangement of the exemplary embodiments without departing from the scope of the invention. Therefore, the present invention is not limited to the specific embodiments, but extends to various modifications that still fall within the scope of the appended claims.
[0050] Furthermore, in order to provide a concise description of exemplary embodiments, not all features of actual embodiments (i.e., those features that are not relevant to the best mode of carrying out the invention as currently considered, or those features that are not relevant to implementing the invention) may be omitted.
[0051] It should be understood that numerous specific implementation decisions can be made during the development of any practical implementation, such as in any engineering or design project. Such development efforts may be complex and time-consuming, but for those skilled in the art who benefit from this disclosure, the development effort will be a routine work of design, manufacturing, and production without requiring much experimentation.
[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. A dust collection device suitable for dust collector hoppers, characterized in that: include, The equipment body (S) includes an ash hopper (S-1) and a support frame (S-2) disposed on the outer wall of the ash hopper (S-1). The drive assembly (100) includes a motor (101), a shaft (101a) disposed at the output end of the motor (101), a mounting bracket (101b) disposed on the outer wall of the support frame (S-2), a rotating rod (102) disposed on the outer wall of the shaft (101a), and a rotating column (102a) disposed on the outer wall of the rotating rod (102); and, The striking assembly (200) includes an adjusting column (201) disposed outside the ash hopper (S-1), a connecting plate (201a) disposed at one end of the adjusting column (201), and a striking plate (201a-1) disposed on the outer wall of the connecting plate (201a). The outer wall of the striking plate (201a-1) is inclined at the same angle as the outer wall of the ash hopper (S-1). The rotating column (102a) is provided with a sliding groove (103) on its outside. The outer wall of the sliding groove (103) is provided with a sliding plate (103a). The ash hopper (S-1) is provided with an installation plate (104) on its outside. A fixing plate (104c) is provided between the installation plate (104) and the support frame (S-2). The outer wall of the installation plate (104) is provided with a sliding track (104a). The slide (104a) and the slide plate (103a) are movable and cooperate with each other. Push rods (103a-1) are provided on both sides of the slide plate (103a). Several movable grooves (104b) are provided through the outer wall of the mounting plate (104). The spacing between adjacent movable slots (104b) gradually increases from bottom to top. Side plates (105) are provided on both sides of the mounting plate (104), and a vertical slot (105a) is provided through the outer wall of the side plate (105). The vertical groove (105a) has several horizontal grooves (105b) on one side, and the mounting plate (104) has a movable plate (106) on the outside, and the movable plate (106) has a movable groove (106a) on its outer wall. The outer wall of the movable plate (106) is provided with a connecting rod (106b), the connecting rod (106b) is movably engaged with the transverse groove (105b), and the outer wall of the connecting rod (106b) is provided with a movable rod (106c). The movable rod (106c) is movably engaged with the push rod (103a-1), and the mounting plate (104) is provided with a movable plate (202) on the outside, and the outer wall of the movable plate (202) is provided with a roller (202a). The roller (202a) is movably engaged with the movable groove (104b), and a support plate (202b) is provided on one side of the movable plate (202), and an movable channel (202b-1) is opened on the outer wall of the support plate (202b).
2. The ash collection device for a dust collector hopper as described in claim 1, characterized in that: The adjusting column (201) is fitted with a rotating cylinder (203) on its outside. The outer wall of the rotating cylinder (203) is provided with a spiral groove (203d). The spiral groove (203d) is provided with a movable column (201b) inside. The movable column (201b) is fixedly connected to the adjusting column (201) and the movable column (201b) is movably engaged with the movable channel (202b-1).
3. The ash collection device for a dust collector hopper as described in claim 2, characterized in that: One end of the rotating drum (203) is provided with a first rotating disk (203a) and a second rotating disk (203b). A transmission gear (204) is provided between the first rotating disk (203a) and the second rotating disk (203b). The diameter of the second rotating disk (203b) is larger than the diameter of the transmission gear (204). The outer wall of the mounting plate (104) is provided with a telescopic tube (205a). An elastic element (205a-1) is sleeved on the outer wall of the telescopic tube (205a). 05a) One end is provided with a transmission rack (205), which meshes with the transmission gear (204). The distribution direction of the transmission rack (205) corresponds to and is parallel to the movable groove (104b). A slide tube (203c) is provided on one side of the second turntable (203b), and a baffle (203c-1) is provided on one side of the slide tube (203c). The slide tube (203c) and the support plate (202b) are both located inside the movable groove (106a).