CN117815727B - Combined water treatment device and method for movable cover filter tank - Google Patents

Abstract

The invention belongs to the technical field of filtering equipment, and particularly relates to a combined water treatment device and method for a movable cover filter tank. The combined water treatment device with the movable cover and the filter tank comprises: a moving cover comprising a plurality of canopy; the driving mechanism comprises a first connecting rod and a second connecting rod, one end of the second connecting rod is connected with the first connecting rod in a sliding manner along the axial direction of the first connecting rod, and the other end of the second connecting rod is hinged with the inner side surface of the umbrella cover; the sliding rods are arranged on the inner side surface of each umbrella cover; the sliding rods are respectively provided with a plurality of first ultrasonic generating mechanisms, and the plurality of first ultrasonic generating mechanisms are sequentially distributed along the axial direction of the sliding rods; the second ultrasonic generating mechanism is positioned at the inner side of the umbrella surface and is used for being connected with the first connecting rod. The invention is beneficial to simplifying the structure of the back flushing equipment and reducing the use cost.

Description

Combined water treatment device and method for movable cover filter tank

Technical Field

The invention belongs to the technical field of filtering equipment, and particularly relates to a combined water treatment device and method for a movable cover filter tank.

Background

The movable cover filter is a filter formed by a plurality of filter cells in a group, and adopts a small-resistance water distribution system to wash each filter cell in turn by using a movable washing cover device. The movable cover equipment is firstly moved to the filter grid to be washed, then the falling bed is buckled on the filter grid, and a siphon drainage system or a pumping drainage system is started to drain water from the upper part of the washed filter grid to the outside of the filter pool, so that the filter material layer in the filter grid is washed upwards.

However, the sizes of different filter cells in the filter tank are not necessarily the same, and generally, a mobile cover device with one size can only correspond to the filter cells with one size, so in actual work, when multiple filter cells with different sizes are faced, multiple mobile cover devices are required to be applied to achieve a better cleaning effect.

Disclosure of Invention

Aiming at the problem that the movable cover equipment in the prior art is difficult to act on filter grids with different sizes, the invention provides the following technical scheme:

A mobile hood filter combination type water treatment device, comprising:

The movable cover comprises a plurality of umbrella covers, and the upper ends of the umbrella covers are mutually hinged;

The driving mechanism comprises a first connecting rod and a second connecting rod, the first connecting rod and the second connecting rod are both arranged on the inner side of the umbrella surface, the first connecting rod is vertically arranged, the upper end of the first connecting rod is connected with the upper end of the umbrella surface, one end of the second connecting rod is slidably connected with the first connecting rod along the axial direction of the first connecting rod, and the other end of the second connecting rod is hinged with the inner side surface of the umbrella surface;

The sliding rods are arranged on the inner side surface of each umbrella surface, one end of each sliding rod faces the upper end of the umbrella surface, and the other end of each sliding rod faces the lower end of the umbrella surface;

The sliding rod is provided with a plurality of first ultrasonic generating mechanisms, and the plurality of first ultrasonic generating mechanisms are sequentially distributed along the axial direction of the sliding rod;

the second ultrasonic generating mechanism is positioned at the inner side of the umbrella cover and is used for being connected with the first connecting rod.

As the optimization of above-mentioned technical scheme, actuating mechanism still includes slip cap, first connecting piece and second connecting piece, slip cap sliding connection in the head rod, first connecting piece sets up on the slip cap, the second connecting piece sets up on the medial surface of umbrella face, the one end of second connecting rod with the first connecting piece articulates, the other end with the second connecting piece articulates.

As the optimization of the technical scheme, the driving mechanism further comprises a first positioning piece, a first positioning groove is formed in the first connecting rod, a first perforation is formed in the sliding sleeve, and the first positioning piece is used for penetrating through the first perforation and inserting into the first positioning groove.

As the optimization of the technical scheme, the first ultrasonic generating mechanism comprises a sliding block, a first ultrasonic generator and a second positioning piece, wherein the sliding block is connected with the sliding rod in a sliding mode, a second positioning groove is formed in the sliding rod, a second perforation is formed in the sliding block, the second positioning piece is inserted into the second positioning groove through the second perforation, and the first ultrasonic generator is used for being connected with the sliding block.

As the preference of above-mentioned technical scheme, first supersound generating mechanism still includes first drive structure and second drive structure, first drive structure sets up on the sliding block, first drive structure with second drive structure transmission is connected, and is used for the drive second drive structure rotates, second drive structure with first supersound generator is connected, and is used for the drive first supersound generator moves along vertical direction.

As the preference of above-mentioned technical scheme, first drive structure includes first motor, first gear, pivot and second gear, first motor sets up on the sliding block, first gear with the output shaft of first motor, the pivot rotate connect in the sliding block, the second gear with second drive structure all overlaps to establish in the pivot.

As the optimization of the technical scheme, the second driving structure comprises a fourth connecting rod and a first hydraulic cylinder, one end of the fourth connecting rod is sleeved on the rotating shaft, the other end of the fourth connecting rod is connected with the first hydraulic cylinder, and the output end of the first hydraulic cylinder is connected with the first ultrasonic generator.

As the optimization of the technical scheme, the combined treatment device for the movable cover filter tank further comprises a second hydraulic cylinder, wherein the second hydraulic cylinder is connected with the first connecting rod, and the output end of the second hydraulic cylinder is connected with the second ultrasonic generating mechanism.

As the preferable of the above technical scheme, the second ultrasonic generating mechanism comprises a bracket and a second ultrasonic generator, the bracket is connected with the second hydraulic cylinder, and the second ultrasonic generator is provided with a plurality of ultrasonic generators and is uniformly distributed on the bracket.

The invention also discloses a combined water treatment method of the movable cover filter, which is applied to the combined water treatment device of the movable cover filter and comprises the following steps:

Moving the movable cover to the position above the filter grid, and enabling the second ultrasonic generating mechanism to correspond to the center of the filter grid;

One end of a second connecting rod in the driving structure is connected with the first connecting rod in a sliding manner, so that the other end of the second connecting rod is driven to drive an umbrella cover in the movable cover to rotate by taking the joints of the upper ends of the umbrella covers as the center until the opening outline of the movable cover is matched with the outline of the filter grid;

The sliding rods of the first ultrasonic generating mechanisms on the umbrella cover are driven to slide, so that the first ultrasonic generating mechanisms correspond to the edges of the filter grid.

The beneficial effects of the invention are as follows:

(1) The second ultrasonic generating mechanism is moved to the center of the filter grid by moving the movable cover to the upper part of the corresponding filter grid on the filter. Through setting up actuating mechanism to set up actuating mechanism into head rod and second connecting rod, utilize the one end of second connecting rod to slide relative head rod, then can drive a plurality of umbrella covers and rotate with the articulated department of upper end as the center, thereby remove opening or shrink on the cover, so that a plurality of umbrella covers open profile and the contour size of filter screen are the same, so that remove the cover just can cover the filter screen. Meanwhile, by arranging the sliding rod on each umbrella surface and arranging a plurality of first ultrasonic generating mechanisms on the sliding rod, the first ultrasonic generating mechanisms can be moved to the edge area of the filter grid along the sliding rod. From this, through setting up the removal cover into a plurality of umbrella covers to through setting up the actuating mechanism that includes head rod and second connecting rod, utilize the one end of second connecting rod to slide with the head rod relatively in order to drive the umbrella cover and rotate, thereby adjust the profile size of removing the cover, make and remove the filter screen that the cover can correspond to equidimension not. Meanwhile, the second ultrasonic generating mechanism is connected with the first connecting rod, the second ultrasonic generating mechanism can correspond to the center of the filter grid, and the first ultrasonic generating mechanism on the sliding rod is driven to move to the edge of the filter grid, so that the first ultrasonic generating mechanism and the second ultrasonic generating mechanism can act on the filter grids with different sizes, namely, a combined water treatment device with a movable cover filter can be adopted to backwash a plurality of filter tanks with different sizes, thereby being beneficial to simplifying the structure of backwash equipment and reducing the use cost.

Simultaneously, the filter material in the filter grid is subjected to vibration cleaning by using the first ultrasonic generating mechanism and the second ultrasonic generating mechanism, so that caking of the agglomerated filter material can be eliminated; the pollutant adhered to the surface of the filter material can be thoroughly cleaned, the cleaned filter material can recover the original shape and size of the filter material, and the service life of the filter material is prolonged; in addition, by using the first ultrasonic generating mechanism and the second ultrasonic generating mechanism, hydroxyl free radicals can be generated in water in the backwashing process, and the free radicals can effectively degrade pollutants in the water due to strong oxidization. Firstly, can decompose the pollutant adhered on the surface of the filter material, and is beneficial to cleaning. And secondly, after the degraded pollutants are recycled along with the sludge treatment process, the possibility that the pollutants enter the production process again is reduced, and the risk of pollutant accumulation is greatly reduced.

(2) Through setting up sliding block, first ultrasonic generator and first setting element, carry out the motion through the axial direction of sliding block along the slide bar, can remove the sliding block to the different positions of slide bar, and first ultrasonic generator is used for being connected with the sliding block, then the sliding block motion can drive first ultrasonic generator motion to the different positions of slide bar in step from this, can guarantee that first ultrasonic generator removes the edge to the filter screen to vibrate the washing to the edge position of filter screen. Meanwhile, when a plurality of first ultrasonic generators are arranged on the sliding rod, the second locating piece is inserted into the second locating groove through the second perforation, so that the sliding block can be prevented from sliding relative to the sliding rod, the first ultrasonic generators are located, the relative fixed distance between two adjacent first ultrasonic generators can be adjusted, and the mutual interference between the two adjacent ultrasonic generators is avoided.

(3) Through setting up first drive structure to including first motor, first gear, pivot and second gear's structure, utilize first motor to drive first gear rotation, first gear and second gear engagement drive the second gear in step and rotate, second gear and second drive structure all overlap and establish in the pivot, and when the second gear rotated, synchronous drive pivot and second drive structure rotated. Thereby, the effect of the first driving structure is ensured.

Drawings

FIG. 1 is a schematic view showing the construction of a mobile hood filter combined water treatment apparatus according to an embodiment;

FIG. 2 shows an enlarged view of region A of FIG. 1;

FIG. 3 is a schematic view showing the structure of a first ultrasonic generating mechanism in the embodiment;

fig. 4 is a schematic structural view of a second ultrasonic generating mechanism in the embodiment.

In the figure: 1. a moving cover; 21. a first connecting rod; 22. a second connecting rod; 23. a sliding sleeve; 24. a first connector; 25. a second connector; 26. a first positioning member; 31. a slide bar; 32. a third connecting rod; 41. a sliding block; 42. a first ultrasonic generator; 43. a second positioning member; 44. a first driving structure; 441. a first motor; 442. a first gear; 443. a rotating shaft; 444. a second gear; 45. a second driving structure; 451. a fourth connecting rod; 452. a first hydraulic cylinder; 5. a second ultrasound generating mechanism; 51. a bracket; 52. a second ultrasonic generator; 6. a second hydraulic cylinder; 7. and filtering the grids.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments.

As shown in fig. 1 to 3, a mobile hood filter combined water treatment device according to an embodiment of the present invention includes:

the movable cover 1 comprises a plurality of umbrella covers, and the upper ends of the umbrella covers are mutually hinged;

The driving mechanism comprises a first connecting rod 21 and a second connecting rod 22, wherein the first connecting rod 21 and the second connecting rod 22 are arranged on the inner side of the umbrella surface, the first connecting rod 21 is vertically arranged, the upper end of the first connecting rod is connected with the upper end of the umbrella surface, one end of the second connecting rod 22 is connected with the first connecting rod 21 in a sliding manner along the axial direction of the first connecting rod 21, and the other end of the second connecting rod is hinged with the inner side surface of the umbrella surface;

the sliding rods 31 are arranged on the inner side surface of each umbrella surface, one end of each sliding rod 31 faces to the upper end of the umbrella surface, and the other end faces to the lower end of the umbrella surface;

The first ultrasonic generating mechanisms are arranged on each sliding rod 31, and are sequentially distributed along the axial direction of the sliding rods 31;

the second ultrasonic generating mechanism 5 is positioned at the inner side of the umbrella cover, and is used for being connected with the first connecting rod 21.

Specifically, a manipulator may be used to connect with the mobile hood 1, and the manipulator is used to drive the mobile hood 1 to move to different filter cells 7 of the filter. Meanwhile, the movable cover 1 is arranged into an umbrella-shaped structure formed by encircling a plurality of umbrella covers, when the umbrella covers are close to the first connecting rod 21, the profile surface which can be covered by the umbrella-shaped structure is reduced, and when the umbrella covers are close to the first connecting rod 21, the profile surface which can be covered by the umbrella-shaped structure is increased. Meanwhile, both ends of the sliding rod 31 are connected to the canopy using a third connecting rod 32. In addition, the first ultrasonic generating mechanism and the second ultrasonic generating mechanism 5 are used for carrying out vibration cleaning on the filter material.

In the present embodiment, the second ultrasonic generating mechanism 5 is moved to the center of the filter cell 7 by moving the moving cover 1 to above the corresponding filter cell 7 on the filter cell. Through setting up actuating mechanism to set up actuating mechanism into head rod 21 and second connecting rod 22, utilize the one end of second connecting rod 22 to slide relative head rod 21, then can drive a plurality of umbrella covers and rotate taking the articulated department of upper end as the center, thereby open or shrink on the removal cover 1, so that a plurality of umbrella covers open profile and the contour size of filter screen 7 are the same, so that remove cover 1 just can cover filter screen 7. Meanwhile, by providing the slide bar 31 on each canopy and providing a plurality of first ultrasonic generating mechanisms on the slide bar 31, the plurality of first ultrasonic generating mechanisms can be moved along the slide bar 31 to the edge region of the filter grid 7. Therefore, by arranging the movable cover 1 into a plurality of umbrella covers and arranging a driving mechanism comprising the first connecting rod 21 and the second connecting rod 22, one end of the second connecting rod 22 slides relative to the first connecting rod 21 to drive the umbrella covers to rotate, so that the outline size of the movable cover 1 is adjusted, and the movable cover 1 can correspond to the filter grids 7 with different sizes. Meanwhile, the second ultrasonic generating mechanism 5 is connected with the first connecting rod 21, which can correspond to the center of the filter grid 7, and the first ultrasonic generating mechanism on the sliding rod 31 is driven to move to the edge of the filter grid 7, so that the first ultrasonic generating mechanism and the second ultrasonic generating mechanism 5 can act on the filter grids 7 with different sizes, namely, a combined water treatment device with a movable cover filter pool can be adopted to back wash a plurality of filter pools with different sizes, thereby being beneficial to simplifying the structure of back washing equipment and reducing the use cost.

Simultaneously, the filter material in the filter grid 7 is subjected to vibration cleaning by using the first ultrasonic generating mechanism and the second ultrasonic generating mechanism 5, so that caking of the agglomerated filter material can be eliminated; the pollutant adhered to the surface of the filter material can be thoroughly cleaned, the cleaned filter material can recover the original shape and size of the filter material, and the service life of the filter material is prolonged; in addition, using the first and second ultrasonic generating mechanisms 5, hydroxyl radicals can be generated in the water during backwashing, which radicals can effectively degrade pollutants in the water due to their strong oxidizing property. Firstly, can decompose the pollutant adhered on the surface of the filter material, and is beneficial to cleaning. And secondly, after the degraded pollutants are recycled along with the sludge treatment process, the possibility that the pollutants enter the production process again is reduced, and the risk of pollutant accumulation is greatly reduced.

Optionally, as shown in fig. 2, the driving mechanism further includes a sliding sleeve 23, a first connecting piece 24 and a second connecting piece 25, where the sliding sleeve 23 is slidably connected to the first connecting piece 21, the first connecting piece 24 is disposed on the sliding sleeve 23, the second connecting piece 25 is disposed on an inner side surface of the umbrella cover, one end of the second connecting piece 22 is hinged to the first connecting piece 24, and the other end is hinged to the second connecting piece 25.

Specifically, at least one second connector 25 is provided on each canopy.

In this embodiment, by arranging the sliding sleeve 23, the first connecting piece 24 and the second connecting piece 25, when the sliding sleeve 23 slides along the first connecting rod 21, the first connecting piece 24 is synchronously driven to slide, so as to drive one end of the second connecting rod 22 to slide relative to the first connecting rod 21, so as to drive the other end of the second connecting rod 22 to drive the second connecting piece 25, and the second connecting piece 25 is arranged on the umbrella cover, so that the umbrella cover can be driven to move relative to the first connecting rod 21. Therefore, the driving mechanism is arranged to comprise the sliding sleeve 23, the first connecting piece 24 and the second connecting piece 25, and the umbrella cover can be driven to move by the driving mechanism, so that the action effect of the driving mechanism is ensured.

Optionally, as shown in fig. 2, the driving mechanism further includes a first positioning member 26, a first positioning slot is formed on the first connecting rod 21, a first through hole is formed on the sliding sleeve 23, and the first positioning member 26 is used for being inserted into the first positioning slot through the first through hole.

In this embodiment, by providing the first positioning member 26 and providing the first through hole on the sliding sleeve 23, and providing the first positioning slot on the first connecting rod 21, the sliding sleeve 23 can be restricted from moving relative to the first connecting rod 21 by inserting the first positioning member 26 into the first positioning slot through the first through hole, so that the umbrella cover and the first connecting rod 21 can be kept relatively stable, and the movable cover 1 can maintain different contour sizes.

Alternatively, as shown in fig. 3, the first ultrasonic generating mechanism includes a sliding block 41, a first ultrasonic generator 42 and a second positioning member 43, the sliding block 41 is slidably connected to the sliding rod 31, a second positioning slot is formed in the sliding rod 31, a second through hole is formed in the sliding block 41, the second positioning member 43 is inserted into the second positioning slot through the second through hole, and the first ultrasonic generator 42 is used for being connected with the sliding block 41.

In this embodiment, by providing the sliding block 41, the first ultrasonic generator 42 and the first positioning member 26, the sliding block 41 can be moved to different positions of the sliding rod 31 by moving the sliding block 41 along the axial direction of the sliding rod 31, and the first ultrasonic generator 42 is used for being connected with the sliding block 41, so that the sliding block 41 can move to synchronously drive the first ultrasonic generator 42 to move to different positions of the sliding rod 31, thereby ensuring that the first ultrasonic generator 42 moves to the edge of the filter grid 7 to perform vibration cleaning on the edge position of the filter grid 7. Meanwhile, when the plurality of first ultrasonic generators 42 are arranged on the sliding rod 31, the second positioning piece 43 is inserted into the second positioning groove through the second perforation, so that the sliding block 41 can be prevented from sliding relative to the sliding rod 31, the first ultrasonic generators 42 are positioned, and the relative fixed distance between the two adjacent first ultrasonic generators 42 can be adjusted, so that the mutual interference of the two adjacent ultrasonic generators is avoided.

Optionally, as shown in fig. 3, the first ultrasonic generating mechanism further includes a first driving structure 44 and a second driving structure 45, where the first driving structure 44 is disposed on the sliding block 41, the first driving structure 44 is in transmission connection with the second driving structure 45 and is used for driving the second driving structure 45 to rotate, and the second driving structure 45 is connected with the first ultrasonic generator 42 and is used for driving the first ultrasonic generator 42 to move along the vertical direction.

In this embodiment, by setting the first ultrasonic generating mechanism to a structure further including the first driving structure 44 and the second driving structure 45, the second driving structure 45 is driven to rotate by the first driving structure 44 so as to synchronously drive the first ultrasonic generator 42 to rotate, so that the first ultrasonic generator 42 can face the filter grid 7, thereby ensuring the action effect of the first ultrasonic generator 42. Meanwhile, the second driving structure 45 is arranged, the second driving structure 45 is used for driving the first ultrasonic generator 42 to move along the vertical direction, and the distance between the first ultrasonic generator 42 and the filter grid 7 can be adjusted, so that the action effect of the first ultrasonic generator 42 is further ensured.

Alternatively, as shown in fig. 3, the first driving structure 44 includes a first motor 441, a first gear 442, a rotating shaft 443, and a second gear 444, the first motor 441 is disposed on the sliding block 41, the first gear 442 is connected to an output shaft of the first motor 441, the rotating shaft 443 is rotatably connected to the sliding block 41, and the second gear 444 and the second driving structure 45 are both sleeved on the rotating shaft 443.

In this embodiment, by setting the first driving structure 44 to include the first motor 441, the first gear 442, the rotating shaft 443, and the second gear 444, the first motor 441 is utilized to drive the first gear 442 to rotate, the first gear 442 is meshed with the second gear 444 to synchronously drive the second gear 444 to rotate, the second gear 444 and the second driving structure 45 are both sleeved on the rotating shaft 443, and when the second gear 444 rotates, the rotating shaft 443 and the second driving structure 45 are synchronously driven to rotate. Thereby, the action effect of the first driving structure 44 is ensured.

Alternatively, as shown in fig. 3, the second driving structure 45 includes a fourth connecting rod 451 and a first hydraulic cylinder 452, one end of the fourth connecting rod 451 is sleeved on the rotating shaft 443, the other end is connected with the first hydraulic cylinder 452, and the output end of the first hydraulic cylinder 452 is connected with the first ultrasonic generator 42.

In the present embodiment, by providing the second driving structure 45 as a structure including the fourth connection rod 451 and the first hydraulic cylinder 452, the rotation shaft 443 and the first hydraulic cylinder 452 are connected by the fourth connection rod 451, and the first ultrasonic generator 42 is connected by the first hydraulic cylinder 452, the rotation shaft 443 can drive the first hydraulic cylinder 452 and the first ultrasonic generator 42 to rotate during rotation, and the first hydraulic cylinder 452 can drive the first ultrasonic generator 42 to move in the vertical direction. Thereby, the action effect of the second driving structure 45 is ensured.

Optionally, as shown in fig. 1, the combined treatment device of the mobile cover 1 further comprises a second hydraulic cylinder 6, the second hydraulic cylinder 6 is connected with the first connecting rod 21, and an output end of the second hydraulic cylinder 6 is connected with the second ultrasonic generating mechanism 5.

In the present embodiment, by providing the second hydraulic cylinder 6, the second ultrasonic generating mechanism 5 is driven to move in the vertical direction by the second hydraulic cylinder 6, and the distance between the second ultrasonic generating mechanism 5 and the filter screen 7 can be adjusted.

Alternatively, as shown in fig. 4, the second ultrasonic generating mechanism 5 includes a bracket 51 and a second ultrasonic generator 52, the bracket 51 is connected with the second hydraulic cylinder 6, and the second ultrasonic generator 52 is provided in plurality and uniformly distributed on the bracket 51.

Specifically, the holder 51 includes a plurality of rod-like structures arranged alternately, and the second ultrasonic generators 52 are arranged at alternate positions of the plurality of rod-like structures.

In this embodiment, by providing the support 51 and the second ultrasonic generators 52, it is possible to facilitate uniform arrangement of the plurality of second ultrasonic generators 52 on the support 51, and on the one hand, it is possible to simultaneously provide the plurality of second ultrasonic generators 52 acting on the filter screen 7, thereby improving the vibration cleaning effect; on the other hand, a plurality of second ultrasonic generators 52 are uniformly arranged on the bracket 51, ensuring that the adjacent second ultrasonic generators 52 maintain a proper distance, avoiding mutual interference.

The invention relates to a combined water treatment method of a movable cover filter, which is applied to a combined water treatment device of a movable cover filter and comprises the following steps:

moving the movable cover 1 to the position above the filter grid 7, and enabling the second ultrasonic generating mechanism 5 to correspond to the center of the filter grid 7;

one end of a second connecting rod 22 in the driving structure is connected with the first connecting rod 21 in a sliding way, so that the other end of the second connecting rod 22 is driven to drive an umbrella surface in the movable cover 1 to rotate by taking the joints of the upper ends of a plurality of umbrella surfaces as the center until the opening contour size of the movable cover 1 is matched with the contour size of the filter grid 7;

The sliding rods 31 of the first ultrasonic generating mechanisms on the umbrella cover are driven to slide, so that the first ultrasonic generating mechanisms correspond to the edges of the filter grid 7.

In this embodiment, the profile of the movable cover 1 is adjusted by moving the movable cover 1 above the filter grid 7 and then sliding the second connecting rod 22 in the driving structure relative to the first connecting rod 21 to drive the umbrella surface to rotate, so that whether the profile of the movable cover 1 can be matched with the filter grid 7 can be accurately observed. Meanwhile, when the movable cover 1 is moved above the filter grid 7, the second ultrasonic generator 52 is corresponding to the center of the filter grid 7, so that the position of the second ultrasonic generator 52 does not need to be regulated in the process of regulating the outline of the movable cover 1 later, and the regulation process is simplified.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting.

Claims (4)

1. A mobile hood filter combination type water treatment device, comprising:

The movable cover (1) comprises a plurality of umbrella covers, and the upper ends of the umbrella covers are mutually hinged;

The driving mechanism comprises a first connecting rod (21) and a second connecting rod (22), wherein the first connecting rod (21) and the second connecting rod (22) are both arranged on the inner side of the umbrella surface, the first connecting rod (21) is vertically arranged, the upper end of the first connecting rod is connected with the upper end of the umbrella surface, one end of the second connecting rod (22) is slidably connected with the first connecting rod (21) along the axial direction of the first connecting rod (21), and the other end of the second connecting rod is hinged with the inner side surface of the umbrella surface;

the sliding rods (31) are arranged on the inner side surface of each umbrella surface, one end of each sliding rod (31) faces to the upper end of the umbrella surface, and the other end faces to the lower end of the umbrella surface;

The sliding rods (31) are respectively provided with a plurality of first ultrasonic generating mechanisms, and the first ultrasonic generating mechanisms are sequentially distributed along the axial direction of the sliding rods (31);

The second ultrasonic generating mechanism (5) is positioned on the inner side of the umbrella surface and is used for being connected with the first connecting rod (21);

The driving mechanism further comprises a sliding sleeve (23), a first connecting piece (24) and a second connecting piece (25), wherein the sliding sleeve (23) is connected with the first connecting piece (21) in a sliding mode, the first connecting piece (24) is arranged on the sliding sleeve (23), the second connecting piece (25) is arranged on the inner side face of the umbrella cover, one end of the second connecting piece (22) is hinged with the first connecting piece (24), and the other end of the second connecting piece (22) is hinged with the second connecting piece (25);

The driving mechanism further comprises a first positioning piece (26), a first positioning groove is formed in the first connecting rod (21), a first through hole is formed in the sliding sleeve (23), and the first positioning piece (26) is used for being inserted into the first positioning groove through the first through hole;

The first ultrasonic generation mechanism comprises a sliding block (41), a first ultrasonic generator (42) and a second positioning piece (43), wherein the sliding block (41) is connected with the sliding rod (31) in a sliding mode, a second positioning groove is formed in the sliding rod (31), a second through hole is formed in the sliding block (41), the second positioning piece (43) is inserted into the second positioning groove through the second through hole, and the first ultrasonic generator (42) is connected with the sliding block (41);

The first ultrasonic generating mechanism further comprises a first driving structure (44) and a second driving structure (45), the first driving structure (44) is arranged on the sliding block (41), the first driving structure (44) is in transmission connection with the second driving structure (45) and is used for driving the second driving structure (45) to rotate, and the second driving structure (45) is connected with the first ultrasonic generator (42) and is used for driving the first ultrasonic generator (42) to move along the vertical direction;

The first driving structure (44) comprises a first motor (441), a first gear (442), a rotating shaft (443) and a second gear (444), the first motor (441) is arranged on the sliding block (41), the first gear (442) is connected with an output shaft of the first motor (441), the rotating shaft (443) is rotationally connected to the sliding block (41), and the second gear (444) and the second driving structure (45) are sleeved on the rotating shaft (443).

2. The mobile hood filter combined type water treatment device according to claim 1, further comprising a second hydraulic cylinder (6), wherein the second hydraulic cylinder (6) is connected with the first connecting rod (21), and an output end of the second hydraulic cylinder (6) is connected with the second ultrasonic generating mechanism (5).

3. The mobile hood filter combined type water treatment device according to claim 2, wherein the second ultrasonic generating mechanism (5) comprises a bracket (51) and a second ultrasonic generator (52), the bracket (51) is connected with the second hydraulic cylinder (6), and the second ultrasonic generator (52) is provided with a plurality of ultrasonic generators and is uniformly distributed on the bracket (51).

4. A mobile hood filter combination water treatment method using the mobile hood filter combination water treatment device as claimed in any one of claims 1 to 3, comprising the steps of:

Moving the movable cover (1) to the position above the filter grid (7) and enabling the second ultrasonic generating mechanism (5) to correspond to the center of the filter grid (7);

One end of a second connecting rod (22) in the driving structure is connected with the first connecting rod (21) in a sliding manner, so that the other end of the second connecting rod (22) is driven to drive an umbrella surface in the movable cover (1) to rotate by taking the joints of the upper ends of a plurality of umbrella surfaces as the center until the opening outline of the movable cover (1) is matched with the outline of the filter grid (7);

the sliding rod (31) on the umbrella surface is driven to slide by the plurality of first ultrasonic generating mechanisms, so that the plurality of first ultrasonic generating mechanisms correspond to the edges of the filter grid (7).