CN219539596U - Hydraulic engineering sewage treatment plant - Google Patents

Abstract

The utility model relates to the field of sewage treatment, in particular to a sewage treatment device for hydraulic engineering, which comprises a filter tank, wherein a water inlet pipe is fixedly embedded into one end of the filter tank, a water outlet pipe is fixedly embedded into the other side surface of the filter tank, a fixed component is fixedly arranged on the inner surface of the filter tank, a movable component is movably connected to the inner side of the fixed component, a filter component is movably connected between the movable components, the fixed component comprises two U-shaped fixed frames, an annular fixed frame, a reinforcing frame and a baffle plate, and the two U-shaped fixed frames are fixedly connected with the surfaces of two sides of the inner part of the filter tank respectively. According to the utility model, when the filter screen is replaced, the filter screen can be conveniently replaced when the sewage treatment device is operated, meanwhile, impurities in sewage in front of the filter screen are prevented from entering the next process, and when the filter screen is replaced, impurities in sewage in front of the filter screen can be conveniently and rapidly cleaned, so that the impurity in front of the filter screen is prevented from accelerating the plugging speed of the replaced filter screen meshes.

Description

Hydraulic engineering sewage treatment plant

Technical Field

The utility model relates to the field of sewage treatment, in particular to a hydraulic engineering sewage treatment device.

Background

In the current water conservancy project treatment process, a sewage treatment link is an important part, and when sewage contains a large amount of impurities, the impurities in the water are firstly required to be removed during treatment, and the impurities are generally filtered by using a filter screen.

When the filter screen of the existing sewage treatment device is replaced, most of the filter screens need to be detached and replaced after the device stops running, the filter screens are inconvenient to replace when the device runs, and most of sundries still float in sewage in front of the filter screens when the filter screens are replaced, the blocking speed of meshes of the replaced filter screens can be increased, and the sundries in the sewage in front of the filter screens are inconvenient to clean quickly.

Disclosure of Invention

In order to overcome the technical problems, the utility model aims to provide a sewage treatment device for hydraulic engineering, which is characterized in that a gear drives a toothed belt and a belt to rotate around an annular fixed frame through simultaneous rotation of a motor, and the position of a filtering component is regulated, so that when a flexible metal filter screen is replaced, the flexible metal filter screen can be conveniently replaced when the sewage treatment device is operated, meanwhile, impurities in sewage in front of the flexible metal filter screen are prevented from entering the next process, the flexible metal filter screen in front is driven to move downwards through a moving component, so that the flexible metal filter screen in rear moves upwards, at the moment, the flexible metal filter screen in rear plays a role in filtering, impurities in water are washed to an area in the middle of the fixed component, the moving component is controlled to drive the filtering component to reset, the impurities are gathered between two layers of flexible metal filter screens, and then the impurities are fished out through a bailing net, so that the impurities in front of the flexible metal filter screen can be conveniently cleaned rapidly, and the flexible metal filter screen in front of the impurities can be prevented from being blocked by the flexible metal filter screen after the replacement is quickened.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a hydraulic engineering sewage treatment plant, includes the filtering ponds, filtering ponds one end fixed embedding installs the inlet tube, filtering ponds opposite side fixed surface embedding installs the drain pipe, the inside fixed surface of filtering ponds installs fixed subassembly, the inboard swing joint of fixed subassembly has the removal subassembly, swing joint has the filter component between the removal subassembly.

The method is further characterized in that: the fixed subassembly includes two U type fixed frames, annular fixed frame, reinforcement frame and a baffle, two the fixed frame of U type respectively with the inside both sides fixed surface connection of filtering ponds, two the fixed frame of annular is located the fixed frame inboard of U type, and with filtering ponds fixed connection.

The method is further characterized in that: the two reinforcing frames are respectively and fixedly connected between the two U-shaped fixing frames and the two annular fixing frames, a through groove is formed in the upper end of each U-shaped fixing frame, and the baffle is fixedly arranged on the lower surface inside the filter tank and is fixedly connected with the two U-shaped fixing frames.

The method is further characterized in that: the movable assembly comprises a belt, a toothed belt, a rotating shaft, a gear, a fixed sleeve and a motor, wherein the belt and the toothed belt are fixedly connected, and the belt and the toothed belt are movably sleeved on the outer side of the annular fixed frame.

The method is further characterized in that: the gear is fixedly arranged at two ends of the outer side surface of the rotating shaft, the gear is meshed with the toothed belt, the fixed sleeve is fixedly arranged on the upper surface of the filter tank, the rotating shaft penetrates through the fixed sleeve and is rotationally connected with the fixed sleeve, the motor is fixedly arranged on one side surface of the filter tank, and the output end of the motor is fixedly connected with one end of the rotating shaft.

The method is further characterized in that: the filter component comprises four flexible metal filter screens, L-shaped flexible connecting strips and connecting blocks, wherein the L-shaped flexible connecting strips are fixedly arranged on the surfaces of two ends of the flexible metal filter screens, and the connecting blocks are fixedly arranged on one side surface of the L-shaped flexible connecting strips at equal intervals.

The method is further characterized in that: the L-shaped flexible connecting strip is movably arranged between the U-shaped fixed frame and the annular fixed frame, connecting grooves are formed in the outer side surface of the belt at equal intervals, and the connecting blocks are movably clamped and connected with the connecting grooves.

The utility model has the beneficial effects that:

1. the two motors rotate simultaneously, so that the two rotating shafts drive the gears to rotate, the toothed belt and the belt rotate around the annular fixed frame, the position of the filtering component is regulated, when the flexible metal filter screen is replaced, a new flexible metal filter screen is connected with the belt from one end of the U-shaped fixed frame, the moving component drives the flexible metal filter screen in front to move upwards, the flexible metal filter screen in the rear moves downwards, at the moment, the uppermost flexible metal filter screen in front moves out of the U-shaped filter frame, the flexible metal filter screen below is used for replacing the moved flexible metal filter screen, and therefore when the flexible metal filter screen is replaced, the flexible metal filter screen can be replaced conveniently when the sewage treatment device runs, and meanwhile, impurities in sewage in the front of the flexible metal filter screen are prevented from entering the next procedure.

2. The mobile assembly drives the front flexible metal filter screen to move downwards, so that the rear flexible metal filter screen moves upwards, the flexible metal filter screen at the rear plays a role in filtering, sundries in water flow along with the water flow, the sundries in the water flow to the middle area of the fixed assembly, the mobile assembly is controlled to drive the filter assembly to reset, sundries are gathered between the two layers of flexible metal filter screens, and sundries are fished out by the bailing net, so that sundries in sewage in front of the flexible metal filter screen can be conveniently and rapidly cleaned, and the sundries in front of the flexible metal filter screen are prevented from quickening the mesh blocking speed of the flexible metal filter screen after replacement.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the overall split structure of the filtering device of the present utility model;

FIG. 3 is a schematic view of the overall vertical section of the present utility model;

FIG. 4 is a schematic view of the entire side cross-sectional portion of the present utility model;

FIG. 5 is a schematic view of a portion of the toothed belt and stationary assembly of the present utility model;

FIG. 6 is a schematic view of a partial cross-sectional structure of a belt and fastener assembly of the present utility model.

In the figure: 1. a filtering tank; 101. a water inlet pipe; 102. a drain pipe; 2. a fixing assembly; 201. a U-shaped fixed frame; 202. an annular fixed frame; 203. a reinforcing frame; 204. a baffle; 205. a through groove; 3. a moving assembly; 301. a belt; 302. a toothed belt; 303. a connecting groove; 304. a rotating shaft; 305. a gear; 306. a fixed sleeve; 307. a motor; 4. a filter assembly; 401. a flexible metal filter screen; 402. an L-shaped flexible connecting strip; 403. and (5) connecting a block.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, a hydraulic engineering sewage treatment device comprises a filter tank 1, wherein a water inlet pipe 101 is fixedly embedded into one end of the filter tank 1, a water outlet pipe 102 is fixedly embedded into the other side surface of the filter tank 1, a fixed component 2 is fixedly installed on the inner surface of the filter tank 1, a movable component 3 is movably connected to the inner side of the fixed component 2, and a filter component 4 is movably connected between the movable components 3.

The fixing assembly 2 comprises two U-shaped fixing frames 201, an annular fixing frame 202, a reinforcing frame 203 and a baffle 204, wherein the two U-shaped fixing frames 201 are fixedly connected with the surfaces of two sides of the interior of the filter tank 1 respectively, the two annular fixing frames 202 are positioned on the inner side of the U-shaped fixing frames 201 and are fixedly connected with the filter tank 1, a gap between the U-shaped fixing frames 201 and the annular fixing frames 202 is T-shaped, and the moving assembly 3 and the L-shaped flexible connecting strip 402 are prevented from moving out of the space between the U-shaped fixing frames 201 and the annular fixing frames 202; the two reinforcing frames 203 are fixedly connected between the two U-shaped fixing frames 201 and the two annular fixing frames 202 respectively, the upper ends of the U-shaped fixing frames 201 are provided with through grooves 205, the baffle 204 is fixedly arranged on the lower surface inside the filter tank 1 and fixedly connected with the two U-shaped fixing frames 201, the through grooves 205 are used for installing gears 305, the gears 305 can be meshed with toothed belts 302, and the baffle 204 blocks the lower part of the fixing assembly 2 and prevents sundries from passing through the lower part of the fixing assembly 2.

The moving assembly 3 comprises a belt 301, a toothed belt 302, a rotating shaft 304, a gear 305, a fixed sleeve 306 and a motor 307, wherein the belt 301 and the toothed belt 302 are fixedly connected and are movably sleeved outside the annular fixed frame 202; the gears 305 are fixedly arranged at two ends of the outer side surface of the rotating shaft 304, the gears 305 are meshed with the toothed belt 302, the fixed sleeve 306 is fixedly arranged on the upper surface of the filter tank 1, the rotating shaft 304 penetrates through the fixed sleeve 306 and is rotationally connected with the fixed sleeve 306, the motor 307 is fixedly arranged on one side surface of the filter tank 1, the output end of the motor 307 is fixedly connected with one end of the rotating shaft 304, the two motors 307 rotate simultaneously, the two rotating shafts 304 drive the gears 305 to rotate, the toothed belt 302 and the belt 301 are driven to rotate around the annular fixed frame 202, the position of the filter assembly 4 is regulated, when the flexible metal filter 401 is replaced, a new flexible metal filter 401 is connected with the belt 301 from one end of the U-shaped fixed frame 201, the mobile assembly 3 drives the flexible metal filter 401 in front, the flexible metal filter 401 in rear moves downwards, at the moment, the flexible metal filter 401 at the uppermost end in front moves out of the U-shaped filter frame, so that the flexible metal filter 401 below is replaced, when the flexible metal filter 401 is replaced, the flexible metal filter 401 can be replaced, and simultaneously, impurities in the flexible metal filter 401 in front of the flexible filter 401 enter the annular fixed frame 202, the flexible filter assembly is replaced, the flexible filter 401 is controlled to move along with the flexible filter 401, and impurities in front of the flexible filter assembly 3, and impurities are moved in front of the flexible filter assembly, and impurities are moved in the flexible filter assembly 3, and impurities are moved along with the flexible filter 401, and the flexible filter 401 after the flexible filter 401 are moved in front, and the flexible filter 401 and the filter assembly is moved down after the flexible filter 3, thereby being convenient for quickly cleaning sundries in the sewage in front of the flexible metal filter screen 401, so as to prevent the sundries in front of the flexible metal filter screen 401 from accelerating the mesh blocking speed of the replaced flexible metal filter screen 401; the filtering component 4 comprises four flexible metal filter screens 401, L-shaped flexible connecting strips 402 and connecting blocks 403, wherein the L-shaped flexible connecting strips 402 are fixedly arranged on the surfaces of two ends of the flexible metal filter screens 401, and the connecting blocks 403 are fixedly arranged on the surface of one side of each L-shaped flexible connecting strip 402 at equal intervals; the L-shaped flexible connecting strip 402 is movably arranged between the U-shaped fixed frame 201 and the annular fixed frame 202, the connecting grooves 303 are formed in the outer side surface of the belt 301 at equal intervals, the connecting blocks 403 are movably clamped with the connecting grooves 303, and the L-shaped flexible connecting strip 402 is clamped between the U-shaped fixed frame 201 and the annular fixed frame 202 through the clamping of the connecting blocks 403 and the connecting grooves 303 and is connected with the belt 301, so that the flexible metal filter screen 401 moves synchronously along with the movement of the belt 301.

Working principle: when in use, the L-shaped flexible connecting strip 402 is clamped between the U-shaped fixed frame 201 and the annular fixed frame 202 through the clamping of the connecting block 403 and the connecting groove 303 and is connected with the belt 301, so that the flexible metal filter 401 moves synchronously along with the movement of the belt 301, the two motors 307 simultaneously rotate, the two rotating shafts 304 drive the gears 305 to rotate, thereby the toothed belt 302 and the belt 301 rotate around the annular fixed frame 202, the position of the filter assembly 4 is regulated, when the flexible metal filter 401 is replaced, a new flexible metal filter 401 is connected with the belt 301 from one end of the U-shaped fixed frame 201, the moving assembly 3 drives the flexible metal filter 401 in front to move upwards, the flexible metal filter 401 in rear moves downwards, at the moment, the flexible metal filter 401 at the uppermost end in front moves out of the U-shaped filter frame, the flexible metal filter 401 below is replaced by the flexible metal filter 401, so that when the flexible metal filter 401 is replaced, the flexible filter 401 is conveniently replaced when a sewage treatment device runs, impurities in front of the flexible metal filter 401 are avoided from entering a lower working procedure, when the flexible filter 401 is replaced, the flexible filter 401 is quickly moved out, the impurities in front of the flexible filter 401 is quickly moved along with the flexible filter 401, and the water flow is quickly moved to the flexible filter 401 in front, and the filter 401 is quickly moved out of the flexible filter 401 is controlled to the flexible filter assembly 2, and impurities are quickly moved in front, and the flexible filter 401 is cleaned in front of the flexible filter 401, so as to prevent sundries in front of the flexible metal filter screen 401 from accelerating the mesh blocking speed of the flexible metal filter screen 401 after replacement.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the utility model, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the utility model or exceeding the scope of the utility model as defined in the claims.

Claims (6)

1. The utility model provides a hydraulic engineering sewage treatment plant, includes filtering ponds (1), inlet tube (101) are installed to filtering ponds (1) one end fixed embedding, filtering ponds (1) opposite side surface fixed embedding installs drain pipe (102), a serial communication port, filtering ponds (1) inside surface fixed mounting has fixed subassembly (2), fixed subassembly (2) inboard swing joint has movable subassembly (3), swing joint has filtering subassembly (4) between movable subassembly (3);

the fixing assembly (2) comprises two U-shaped fixing frames (201), an annular fixing frame (202), a reinforcing frame (203) and a baffle plate (204), wherein the two U-shaped fixing frames (201) are fixedly connected with the two side surfaces of the interior of the filter tank (1) respectively, and the two annular fixing frames (202) are located on the inner side of the U-shaped fixing frames (201) and fixedly connected with the filter tank (1).

2. The hydraulic engineering sewage treatment device according to claim 1, wherein the two reinforcing frames (203) are respectively and fixedly connected between the two U-shaped fixing frames (201) and the two annular fixing frames (202), through grooves (205) are formed in the upper ends of the U-shaped fixing frames (201), and the baffle plates (204) are fixedly arranged on the lower surface inside the filter tank (1) and are fixedly connected with the two U-shaped fixing frames (201).

3. The hydraulic engineering sewage treatment device according to claim 1, wherein the moving assembly (3) comprises a belt (301), a toothed belt (302), a rotating shaft (304), a gear (305), a fixed sleeve (306) and a motor (307), wherein the belt (301) and the toothed belt (302) are fixedly connected, and are movably sleeved outside the annular fixed frame (202).

4. A hydraulic engineering sewage treatment device according to claim 3, wherein the gear (305) is fixedly mounted at two ends of the outer side surface of the rotating shaft (304), the gear (305) is meshed with the toothed belt (302), the fixing sleeve (306) is fixedly mounted on the upper surface of the filter tank (1), the rotating shaft (304) penetrates through the fixing sleeve (306) and is rotatably connected with the fixing sleeve (306), the motor (307) is fixedly mounted on one side surface of the filter tank (1), and the output end of the motor (307) is fixedly connected with one end of the rotating shaft (304).

5. A hydraulic engineering sewage treatment device according to claim 3, wherein the filtering component (4) comprises four flexible metal filter screens (401), an L-shaped flexible connecting strip (402) and connecting blocks (403), the L-shaped flexible connecting strip (402) is fixedly installed on two end surfaces of the flexible metal filter screens (401), and the connecting blocks (403) are fixedly installed on one side surface of the L-shaped flexible connecting strip (402) at equal intervals.

6. The hydraulic engineering sewage treatment device according to claim 5, wherein the L-shaped flexible connecting strip (402) is movably arranged between the U-shaped fixing frame (201) and the annular fixing frame (202), connecting grooves (303) are formed in the outer side surface of the belt (301) at equal intervals, and the connecting blocks (403) are movably clamped and connected with the connecting grooves (303).