阅读说明：本技术 一种环保设备除尘设备 (Environmental protection equipment dust collecting equipment ) 是由 李砚平 于 2021-06-30 设计创作，主要内容包括：本发明公开了一种环保设备除尘设备,其结构包括支架、抽气机、控制箱、过滤箱,支架顶面与抽气机底面焊接连接,控制箱左侧与抽气机右侧嵌固连接,过滤箱底面与抽气机顶面相互接通并通过电焊连接,本发明通过过滤结构来对从抽气机抽入的气体进行过滤,并使粉尘在滤板底面与空气进行分离,在分离的过程中,由于气流不稳定,因此会导致过滤结构上压反弹柱并被周期性地反推,进而使其可以长期产生晃动,进而使下撞头周期性通过惯性碰撞滤网,同时气流继续向上移动驱动吹拂块,使其产生额外的震动并通过管壁向下传播,配合下撞头的撞击,将滤网下表面粘附的浆糊状粉尘与水汽结合物进行拍落,避免其凝结在滤网表面影响空气的通过性。(The invention discloses dust removing equipment for environmental protection equipment, which structurally comprises a bracket, an air extractor, a control box and a filter box, wherein the top surface of the bracket is welded and connected with the bottom surface of the air extractor, the left side of the control box is fixedly connected with the right side of the air extractor, and the bottom surface of the filter box is communicated with the top surface of the air extractor and is connected with the top surface of the air extractor through electric welding. The air is prevented from being condensed on the surface of the filter screen to influence the air permeability.)

1. The utility model provides an environmental protection equipment dust collecting equipment, its structure includes support (1), air extractor (2), control box (3), rose box (4), its characterized in that:

the top surface of the support (1) is welded with the bottom surface of the air pump (2), the left side of the control box (3) is fixedly embedded with the right side of the air pump (2), and the bottom surface of the filter box (4) is communicated with the top surface of the air pump (2) and is connected with the top surface of the air pump (2) through electric welding;

the filter box (4) comprises a shell (41), a concentration block (42), a filter structure (43) and a discharge pipe (44), wherein the inner layer of the shell (41) is fixedly connected with the right side of the concentration block (42), two ends of the filter structure (43) are fixedly connected with the inner layer of the shell (41), and the bottom surface of the discharge pipe (44) is mutually communicated with the top surface of the shell (41) and is connected with the top surface of the shell (41) through electric welding.

2. The dust removing device of the environmental protection device as claimed in claim 1, wherein: filtration (43) are including fixed plate (431), filter plate (432), bounce post (433), roof (434), fixed plate (431) inlayer and filter plate (432) both ends swing joint, bounce post (433) bottom surface is connected with filter plate (432) top surface is set firmly, roof (434) bottom surface is connected with bounce post (433) top surface is set firmly.

3. The dust removing device of the environmental protection device according to claim 2, wherein: the filter plate (432) comprises a filter screen (A1), a sliding block (A2), a lower collision head (A3) and an air guide pipe (A4), wherein the right side of the filter screen (A1) is fixedly connected with the left side of the sliding block (A2), two sides of the lower collision head (A3) are movably clamped with the inner layer of the filter screen (A1), and the bottom surface of the air guide pipe (A4) is fixedly connected with the top surface of the filter screen (A1).

4. The dust removing device of the environmental protection device according to claim 3, wherein: the air guide pipe (A4) comprises a pipe wall (A41), a suspension frame (A42), a concentration head (A43) and a blowing block (A44), wherein the inner layer of the pipe wall (A41) is fixedly embedded at two ends of the suspension frame (A42), the right side of the concentration head (A43) is welded with the inner layer of the pipe wall (A41), and the bottom of the suspension frame (B42) is sleeved with the inside of the blowing block (A44).

5. The dust removing device of the environmental protection device according to claim 4, wherein: the blowing block (A44) includes outer shell (B1), strikes groove (B2), striking board (B3), wrench movement ball (B4), outer shell (B1) skin and strike groove (B2) shaping as an organic whole, striking board (B3) both ends are connected with outer shell (B1) inlayer embedded solid, wrench movement ball (B4) skin and outer shell (B1) inlayer contact each other.

6. The dust removing device of the environmental protection device according to claim 5, wherein: the twisting ball (B4) comprises a mounting ring (B41), a buffer sleeve (B42), an outward pushing strip (B43) and an impact block (B44), wherein the inner layer of the mounting ring (B41) is connected with the outer ring of the buffer sleeve (B42) in a welded mode, the bottom end of the outward pushing strip (B43) is fixedly embedded in the outer layer of the mounting ring (B41), and the top end of the outward pushing strip (B43) is fixedly embedded in the bottom surface of the impact block (B44).

7. The dust removing device of the environmental protection device according to claim 6, wherein: the impact block (B44) comprises a fixed frame (C1), an absorption ball (C2), a recovery head (C3) and an impact plate (C4), wherein the recovery head (C3) is embedded in the middle section of the fixed frame (C1), the left side of the impact plate (C1) is fixedly connected with the outer ring of the absorption ball (C2), and the outer ring of the absorption ball (C2) is fixedly connected with the two ends of the fixed frame (C1).

8. The dust removing device of the environmental protection device according to claim 7, wherein: the impact plate (C4) comprises a plate body (C41), a sliding tube (C42), an upper swinging plate (C43) and a sliding ball (C44), wherein the plate body (C41) is embedded and fixed with the outer layer of the sliding tube (C42), the middle section of the upper swinging plate (C43) is movably clamped with the right side of the plate body (C41), and the outer layer of the sliding ball (C44) is in contact with the inner layer of the sliding tube (C42).

Technical Field

The invention relates to the field of environmental protection equipment, in particular to dust removal equipment for the environmental protection equipment.

Background

The dust removing equipment is one of environment-friendly equipment, can be used in places with more dust, and can remove the dust in the air sucked in by sucking the outside air into the dust removing equipment and then through a filter plate in the dust removing equipment, so that the cleanliness of the air after being discharged is higher, the dust content is lower, the air dust pollution can be effectively optimized and treated, when the air in a textile cloth dyeing factory is subjected to dust removing treatment through the dust removing equipment, the textile cloth is steamed by high-temperature steam, therefore, the air in the factory is usually accompanied by very high water vapor, after the air containing high-concentration water vapor is sucked in by the dust removing equipment, the water vapor and the dust can be simultaneously separated by the filter plate in the dust removing equipment, and further the dust blocked at the bottom surface of the filter plate is fully combined with the water vapor to form paste adhered to the bottom surface of the filter plate, resulting in poor air permeability of the filter plate bottom surface.

Disclosure of Invention

Aiming at the problems, the invention provides dust removing equipment for environment-friendly equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the dust removal equipment for the environmental protection equipment structurally comprises a support, an air pump, a control box and a filter box, wherein the top surface of the support is connected with the bottom surface of the air pump in a welding mode, the left side of the control box is fixedly connected with the right side of the air pump in an embedded mode, and the bottom surface of the filter box is communicated with the top surface of the air pump and is connected with the top surface of the air pump through electric welding; the rose box includes shell, concentrated piece, filtration, discharge pipe, the shell inlayer is connected with concentrating the piece right side and is inlayed admittedly, the filtration both ends are connected with the shell inlayer is inlayed admittedly, discharge pipe bottom surface and shell top surface intercommunicating and through the electric welding connection, concentrated piece is the smooth arc block structure in surface.

Furthermore, the filtering structure comprises a fixed plate, a filtering plate, two rebounding columns and a top plate, wherein the inner layer of the fixed plate is movably connected with the two ends of the filtering plate, the bottom surfaces of the rebounding columns are fixedly embedded in the top surface of the filtering plate, the bottom surfaces of the top plate are fixedly embedded in the top surface of the rebounding columns, the number of the rebounding columns is two, and the two rebounding columns are distributed between the filtering plate and the top plate in a mirror image mode.

Furthermore, the filter plate comprises a filter screen, a sliding block, a lower collision head and an air guide pipe, wherein the right side of the filter screen is fixedly connected with the left side of the sliding block, two sides of the lower collision head are movably clamped with the inner layer of the filter screen, the bottom surface of the air guide pipe is fixedly connected with the top surface of the filter screen, the number of the lower collision heads is four, and the four lower collision head gaps are uniformly distributed in the inner layer of the filter screen.

Furthermore, the air guide pipe comprises a pipe wall, a suspension frame, a concentration head and a blowing block, wherein the inner layer of the pipe wall is fixedly connected with two ends of the suspension frame in an embedded mode, the right side of the concentration head is connected with the inner layer of the pipe wall in a welded mode, the inner portion of the blowing block is sleeved at the bottom of the suspension frame, and the pipe wall is of a right-standing circular truncated cone structure with a smooth inner wall.

Furthermore, the blowing block comprises an outer shell, impact grooves, an impact plate and a twisting ball, the outer layer of the outer shell and the impact grooves are integrally formed, two ends of the impact plate are fixedly connected with the inner layer of the outer shell in an embedded mode, the outer layer of the twisting ball and the inner layer of the outer shell are in mutual contact, twelve impact grooves are formed, and gaps among the twelve impact grooves are uniformly distributed on the outer layer of the outer shell in an annular mode.

Furthermore, the twisting ball comprises a mounting ring, a buffer sleeve, an outward pushing strip and three impact blocks, wherein the inner layer of the mounting ring is connected with the outer ring of the buffer sleeve in a welding mode, the bottom end of the outward pushing strip is fixedly connected with the outer layer of the mounting ring in an embedded mode, the top end of the outward pushing strip is fixedly connected with the bottom surface of the impact block in an embedded mode, and gaps among the three impact blocks are uniformly distributed on the outer ring of the mounting ring in an annular mode.

Furthermore, the impact block comprises a fixing frame, absorption balls, a recovery head and an impact plate, wherein the recovery head is embedded into the middle section of the fixing frame, the left side of the impact plate is fixedly connected with an absorption ball outer ring, the absorption ball outer ring is fixedly connected with the two ends of the fixing frame, the absorption balls are two, and the two absorption balls are distributed between the fixing frame and the impact plate in a mirror image mode.

Furthermore, the impact plate comprises a plate body, a sliding pipe, an upper swing sheet and a sliding ball, wherein the inner layer of the plate body is fixedly connected with the outer layer of the sliding pipe in an embedded mode, the middle section of the upper swing sheet is movably clamped with the right side of the plate body, the outer layer of the sliding ball is in contact with the inner layer of the sliding pipe, and the sliding pipe is of an arc-shaped pipe structure with a smooth inner wall.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

the invention filters the gas pumped from the air extractor through the filtering structure, and separates the dust from the air at the bottom surface of the filter plate, in the separation process, because the airflow is unstable, the filtering structure presses the rebound columns and is periodically pushed backwards, so that the filtering structure can shake for a long time, the lower collision head periodically collides with the filter screen through inertia, meanwhile, the airflow continuously moves upwards to drive the blowing block, the blowing block generates additional vibration and is downwards transmitted through the pipe wall, and the pasty dust adhered to the lower surface of the filter screen is flapped with a water vapor combination in cooperation with the collision of the lower collision head, thereby avoiding the pasty dust being condensed on the surface of the filter screen to influence the air permeability.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of a dust removing device of an environmental protection device.

Fig. 2 is a schematic structural view of a front section of the filter box of the present invention.

Fig. 3 is a schematic structural view of a front cross section of a filter structure according to the present invention.

Fig. 4 is a schematic structural view of a front section of the filter plate of the present invention.

Fig. 5 is a schematic structural view of a front cross section of the air guide duct of the present invention.

FIG. 6 is a schematic top view of a blowing block according to the present invention.

Fig. 7 is a schematic structural view of a front cross section of the twisting ball of the present invention.

FIG. 8 is a schematic structural view of an elevational cross-section of an impact block of the present invention.

FIG. 9 is a schematic structural view of an elevational cross-section of an impingement plate of the present invention.

In the figure: bracket-1, air extractor-2, control box-3, filter box-4, shell-41, concentration block-42, filter structure-43, discharge pipe-44, fixing plate-431, filter plate-432, rebound column-433, top plate-434, filter screen-A1, slide block-A2, lower collision head-A3, air guide pipe-A4, pipe wall-A41, suspension bracket-A42, concentration head-A43, blowing block-A44, outer shell-B1, collision groove-B2, collision plate-B3, twisting ball-B4, mounting ring-B41, buffer sleeve-B42, outer push bar-B43, collision block-B44, fixing bracket-C1, absorption ball-C2, recovery head-C3, collision plate-C4, plate body-C41, A sliding tube-C42, an upper swinging sheet-C43 and a sliding ball-C44.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

referring to fig. 1-5, the embodiments of the present invention are as follows: the dust removal equipment for the environmental protection equipment structurally comprises a support 1, an air pump 2, a control box 3 and a filter box 4, wherein the top surface of the support 1 is connected with the bottom surface of the air pump 2 in a welding mode, the left side of the control box 3 is fixedly connected with the right side of the air pump 2 in an embedded mode, and the bottom surface of the filter box 4 is communicated with the top surface of the air pump 2 and is connected with the top surface of the air pump 2 through electric welding; the filter box 4 comprises a shell 41, a concentrated block 42, a filter structure 43 and a discharge pipe 44, the inner layer of the shell 41 is fixedly connected with the right side of the concentrated block 42, the two ends of the filter structure 43 are fixedly connected with the inner layer of the shell 41, the bottom surface of the discharge pipe 44 is mutually communicated with the top surface of the shell 41 and is connected with the top surface of the shell through electric welding, the concentrated block 42 is a smooth arc-shaped block structure on the surface, the concentrated airflow is facilitated, the flow speed of the concentrated airflow is faster, and the resistance during flowing is reduced.

Wherein, filtration 43 includes fixed plate 431, filter plate 432, bounce-back post 433, roof 434, fixed plate 431 inlayer and filter plate 432 both ends swing joint, bounce-back post 433 bottom surface and filter plate 432 top surface are embedded fixedly and are connected, roof 434 bottom surface and bounce-back post 433 top surface are embedded fixedly and are connected, bounce-back post 433 is equipped with two, and two bounce-back post 433 mirror image distribution is between filter plate 432 and roof 434, is favorable to increasing the thrust of bounce-back and the stability of promotion.

The filter plate 432 comprises a filter screen A1, a sliding block A2, a lower collision head A3 and an air guide pipe A4, the right side of the filter screen A1 is fixedly connected with the left side of the sliding block A2 in an embedded mode, two sides of the lower collision head A3 are movably clamped with the inner layer of the filter screen A1 in a clamped mode, the bottom surface of the air guide pipe A4 is fixedly connected with the top surface of the filter screen A1 in an embedded mode, the number of the lower collision heads A3 is four, the four lower collision heads A3 are uniformly distributed in the inner layer of the filter screen A1 in a clearance mode, the range of lower collision is increased, strength of the lower collision is increased, and the damage effect of the condensed paste is better.

The air guide pipe A4 comprises a pipe wall A41, a suspension frame A42, a concentration head A43 and a blowing block A44, wherein the inner layer of the pipe wall A41 is fixedly connected with the two ends of the suspension frame A42 in an embedded mode, the right side of the concentration head A43 is connected with the inner layer of the pipe wall A41 in a welded mode, the bottom of the suspension frame B42 is sleeved inside the blowing block A44, and the pipe wall A41 is of a right-standing circular truncated cone structure with a smooth inner wall, so that air flow concentration is facilitated, the impact force of air flow is stronger, and the resistance to air flow is reduced.

Based on the above embodiment, the specific working principle is as follows: the air pump 2 is started by the control box 3, so that the air is pumped in from the bottom, and the air is output upwards into the filter box 4, so that the air is concentrated by the concentration block 42 in the filter box 4 and then impacts on the filter structure 43, dust substances contained in the air are separated and remain on the bottom surface of the filter plate 432 under the filtering and separating action of the filter screen A1 on the filter plate 432, if a large amount of water gas is contained in the air, the water gas and the dust are combined on the bottom surface of the filter plate 432 to become paste and are adhered and dried by the fast flowing air flow, at the moment, the air flow is influenced by the concretions, so that the pressure generated by the air flow on the filter plate 432 is increased, the rebound columns 433 are pushed upwards to be compressed to generate elastic force, the air flow is unstable, and therefore, the elastic force of the rebound columns 433 is output downwards when the air flow is reduced, so that the slide block A2 carries the filter screen A1 to move downwards along the fixed plate 431 rapidly, when the air flow is finally stopped, the lower impact head A3 is enabled to continuously move downwards due to inertia and slap the inner layer of the filter screen A1, meanwhile, the air flow continuously moves upwards after being filtered, namely, the air flow passes through the air guide pipe A4, under the common guide and concentration of the pipe wall A41 of the air guide pipe A4 and the concentration head A43, the quick impact level blowing block A44 generates vibration and transmits the vibration to the filter screen A1 through the pipe wall A41, and substances adhered to the surface of the filter screen A1 are broken through the impact of the lower impact head A3, so that the air flow is not blocked any more.

Example two:

referring to fig. 6-9, the embodiment of the present invention is as follows: the blowing block A44 includes outer shell B1, strikes groove B2, striking plate B3, wrench movement ball B4, outer shell B1 skin and impact groove B2 are integrated into one piece, striking plate B3 both ends are connected with outer shell B1 inlayer embedded solid, wrench movement ball B4 skin and outer shell B1 inlayer contact each other, impact groove B2 is equipped with twelve, and twelve strike groove B2 clearance evenly distributed annularly in outer shell B1 skin, the impetus when being favorable to increasing the air current and strikeing.

The twisting ball B4 comprises a mounting ring B41, a buffer sleeve B42, an outward push bar B43 and impact blocks B44, the inner layer of the mounting ring B41 is connected with the outer ring of the buffer sleeve B42 in a welding mode, the bottom end of the outward push bar B43 is fixedly embedded in the outer layer of the mounting ring B41, the top end of the outward push bar B43 is fixedly embedded in the bottom surface of the impact block B44, the number of the impact blocks B44 is three, and three impact blocks B44 are uniformly distributed on the outer ring of the mounting ring B41 in an annular mode in a clearance mode, so that the frequency and the strength generated by impact can be increased.

The impact block B44 comprises a fixing frame C1, two absorption balls C2, a recovery head C3 and an impact plate C4, wherein the recovery head C3 is embedded in the middle section of the fixing frame C1, the left side of the impact plate C1 is fixedly connected with the outer ring of the absorption ball C2, the outer ring of the absorption ball C2 is fixedly connected with the two ends of the fixing frame C1, the two absorption balls C2 are arranged, the two absorption balls C2 are distributed between the fixing frame C1 and the impact plate C4 in a mirror image mode, the fixing frame C1 and the impact plate C4 are favorably and stably connected, and elasticity is applied to accelerate the outward pushing speed of the impact plate C4 when the impact plate C4 is sent outwards.

Wherein, the impingement plate C4 includes plate body C41, sliding tube C42, goes up pendulum piece C43, sliding ball C44, plate body C41 inlayer and the outer embedded solid of sliding tube C42 are connected, go up pendulum piece C43 middle section and plate body C41 right side activity block, sliding ball C44 skin and sliding tube C42 inlayer contact each other, sliding tube C42 is the smooth arc tube structure of inner wall, is favorable to reducing the rolling resistance of sliding ball C44.

Based on the above embodiment, the specific working principle is as follows: when the air flow impacts the blowing block A44, the air flow impacts the outer shell B1 of the blowing block A44 firstly, so that the impact groove B2 is quickly impacted by the air flow to generate enough thrust to push the outer shell B1 to rotate, after the air flow rotates to a certain degree, an outward push strip B43 of a twisting ball B4 pushes the impact block B44 outwards, the impact block B44 is pushed into a groove arranged in the inner layer of the outer shell B1, meanwhile, when the impact block B44 is pushed outwards, a fixing frame C1 of the impact block B44 is folded inwards, the bending degree of the impact plate C4 is increased, the impact point is concentrated to enable the unit impact to be larger, meanwhile, the elastic force of accumulated balls C2 is absorbed and released, the impact plate C4 is pushed outwards more quickly, the impact plate B3 is enabled to generate stronger vibration, and meanwhile, the upper piece C43 on the top surface of the impact plate is impacted on the impact plate B3 after the impact is stopped, the sliding ball C44 will roll in the sliding tube C42 under the influence of inertia and impact all around to generate vibration, and output the vibration through the impact plate B3, and the impact plate B3 will generate a reaction force to push the impact block B44, so that it will rotate again in the twisting ball B4 and eject again to generate vibration.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.