CN219232214U - Module assembly type submersible mixer unit structure - Google Patents

Abstract

The utility model belongs to the technical field of submersible mixers, and particularly relates to a module assembly type submersible mixer unit structure which comprises a lap joint body, a submersible mixer body and a fixing frame, wherein the lap joint body is fixedly connected with the side wall of a sewage tank body, the fixing frame is fixed at the lower end of the submersible mixer body, a plurality of stabilizer bars are fixedly connected to the bottom of the fixing frame, a plurality of jacks corresponding to the stabilizer bars are arranged on the lap joint body, the stabilizer bars and the jacks are inserted to fix the lap joint body with the fixing frame, a lifting machine is arranged in the lap joint body, a gap is formed outside the lap joint body, and the lifting machine is fixedly connected with the fixing frame through the gap. The advantages are that: compared with the traditional manual welding type submersible mixer, the utility model has the advantages that the assembly structure is utilized, the submersible mixer is freely hoisted, a plurality of submersible mixers can be lifted out of the water surface in batches, and the maintenance is convenient.

Description

Module assembly type submersible mixer unit structure

Technical Field

The utility model belongs to the technical field of submersible mixers, and particularly relates to a modular submersible mixer unit structure.

Background

The submersible mixer is generally widely used in a sewage treatment link, pollutants and water flow are fully mixed in a sewage tank and cannot be deposited at the bottom of the tank, the submersible mixer is mainly divided into a plurality of steps of a mounting bracket, lifting, welding, pipelines and the like when being mounted, the fixing and lifting modes of the submersible mixer are generally disordered, a uniform and modularized mounting mode is not available, and meanwhile, the submersible mixer after being filled with water is generally positioned under the water surface all the year round, so that maintenance and guarantee in the later period are inconvenient and smooth.

For this purpose, we propose a modular submersible mixer assembly to solve the above problems.

Disclosure of Invention

The utility model aims to solve the problems and provides a modular submersible mixer unit structure capable of being installed and transported in a modularized mode.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a module assembled submersible mixer unit structure, includes overlap joint body, submersible mixer organism, mount, overlap joint body and effluent water sump cell body lateral wall fixed connection, the mount is fixed in the lower extreme of submersible mixer organism, the bottom fixedly connected with many stabilizer bars of mount, be equipped with the jack of a plurality of corresponding stabilizer bars on the overlap joint body, the stabilizer bar is inserted with the jack and is made overlap joint body and mount fixed, the inside of overlap joint body is equipped with the lifting machine, the outside gap that is equipped with of overlap joint body, lifting machine pass through gap and mount fixed connection.

In the module assembly type submersible mixer unit structure, the cross section of the lap joint body is Z-shaped, the upper edge of the lap joint body is fixedly connected with the water surface end of the sewage pool body, and the bottom edge of the lap joint body is used for bearing the fixing frame.

In the module assembly type submersible mixer unit structure, a plurality of fixing lugs are fixedly connected to the side wall of the lap joint body.

In the above-mentioned module assembly formula dive mixer unit structure, the overlap joint body includes surface of water section and submarine section, the surface of water section is fixed in the effluent water sump cell body and exposes on the lateral wall of surface of water, and submarine section is fixed in on the lateral wall of effluent water sump cell body aquatic, and the mount has a plurality ofly, all sets up on submarine section.

In the above-mentioned module assembly formula dive mixer unit structure, the mount includes support body and lower support body, lower support body and submarine section fixed connection, and be equipped with the spacing hole that link up on submarine section and the lower support body, go up support body and dive mixer organism fixed connection, the stabilizer bar is fixed in the support body lower extreme, and corresponds the grafting with spacing hole.

In the module assembly type submersible mixer unit structure, the water bottom section is in a plane shape, and a butt joint body is movably arranged between the water surface section and the water bottom section.

In the above-mentioned module assembly formula dive mixer unit structure, the butt joint body includes cylinder, trigger plate and plugboard, the trigger plate is fixed in the rear portion of cylinder, and the plugboard is fixed in the front portion of cylinder, the edge of going up the support body is equipped with many jack grooves that link up, and jack groove and plugboard activity combine, be fixed with many card rails on the effluent water sump cell body lateral wall, card rail and cylinder gomphosis.

In the above-mentioned module assembly formula dive mixer unit structure, the butt joint body includes cylinder, trigger plate and plugboard, the trigger plate is fixed in the rear portion of cylinder, and the plugboard is fixed in the front portion of cylinder, the edge of going up the support body is equipped with many jack grooves that link up, and jack groove and plugboard activity combine, be fixed with many card rails on the effluent water sump cell body lateral wall, card rail and cylinder gomphosis.

In the module assembly type submersible mixer unit structure, a cavity is further formed in the column, a driving motor, a rotating shaft and a plurality of gears are fixedly connected in the cavity, the gears are fixed on the rotating shaft, the rotating shaft is fixedly connected with the shaft portion of the driving motor, and the gears are partially exposed out of the column and meshed with the clamping rail.

In the module assembly type submersible mixer unit structure, a cavity is further formed in the column, a driving motor, a rotating shaft and a plurality of gears are fixedly connected in the cavity, the gears are fixed on the rotating shaft, the rotating shaft is fixedly connected with the shaft portion of the driving motor, and the gears are partially exposed out of the column and meshed with the clamping rail.

Compared with the prior art, the modular submersible mixer unit structure has the advantages that:

1. according to the utility model, through the cooperation of the lap joint body, the fixing frame, the stabilizer bar and the lifting machine, the effect that the lap joint body is fixed on the side wall of the sewage pool is achieved, the submersible mixer body is assembled and fixed on the lap joint body under the action of the stabilizer bar and the lifting machine is achieved, so that the submersible mixer is freely lifted, a plurality of submersible mixers can be lifted out of the water surface in batches, and maintenance are facilitated.

2. According to the utility model, through the cooperation of the clamping rails, the columns, the trigger plates, the plugboards and the lock rods, the mode that the columns uniformly moving on the clamping rails are used for butting different submersible mixer bodies is achieved, so that the submersible mixer bodies can be flexibly lifted out of the water or installed under the water, the trigger plates, the plugboards and the lock rods are circularly matched for moving or fixing, the weight of the whole structure is reduced, and meanwhile, the use flexibility is improved.

Drawings

FIG. 1 is a schematic view of an embodiment 1 of a modular submersible mixer assembly according to the present utility model;

FIG. 2 is a schematic view of an embodiment 2 of a modular submersible mixer assembly according to the present utility model;

FIG. 3 is a schematic view of the bottom structure of FIG. 2;

FIG. 4 is a schematic diagram of the locking bar and stabilizer bar of FIG. 2;

FIG. 5 is a schematic view of the column of FIG. 2;

FIG. 6 is a schematic illustration of the driving of the cylinder and clip track of FIG. 2;

FIG. 7 is a schematic view of the internal structure of the column of FIG. 2;

FIG. 8 is a schematic view of the mating slot and the mating plate of FIG. 2.

In the figure, 1 overlap joint body, 2 submerged mixer organism, 3 mount, 4 stabilizer bar, 5 lifting machine, 6 gap, 7 fixed ear, 8 surface of water section, 9 locking lever, 10 bottom of water section, 11 upper bracket body, 12 lower bracket body, 13 spacing hole, 14 butt joint body, 15 cylinder, 16 trigger plate, 17 plugboard, 18 grafting groove, 19 clamping rail, 20 driving motor, 21 axis of rotation, 22 gear, 23 touch spring, 24 joint piece.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the utility model.

Example 1

The submersible mixer is generally widely used in a link of sewage treatment, the pollutant and water flow are fully mixed in a sewage tank and are not deposited at the bottom of the tank, the submersible mixer is mainly divided into a plurality of steps of a mounting bracket, lifting, welding, pipelines and the like when being mounted, the fixing and lifting modes of the submersible mixer are generally disordered, a unified and modularized mounting mode is not available, meanwhile, the submersible mixer after entering water is generally positioned under the water surface all the year round, and maintenance guarantee in the later period is inconvenient and smooth, therefore, as shown in fig. 1, the scheme designs a module assembly type submersible mixer unit structure, mainly comprising a lap joint body 1, a submersible mixer body 2 and a fixing frame 3, wherein the lap joint body 1 is used as a supporting frame to replace a traditional welding frame, the cross section of the lap joint body 1 is generally arranged like a Z shape, the upper edge of the Z shape lap joint body 1 is fixedly connected with the water surface end of the sewage tank body, and the fixing frame 3 is used for supporting the lap joint body 2 of the submersible mixer body 1, so that the lap joint body 1 can be supported by the wall of the lap joint body 1.

In order to further improve the structural stability of the Z-shaped lap joint body 1, the Z-shaped lap joint body can better cope with instability in moving, a plurality of fixing lugs 7 are fixedly connected to the side wall of the lap joint body 1, a plurality of holes are formed in the fixing lugs 7, and steel nails are embedded between the holes and the wall body for integral fixing and reinforcing.

The fixed frame 3 is movably fixed at the lower extreme of the submersible mixer body 2, the submersible mixer body 2 is welded with the fixed frame 3, a plurality of stabilizer bars 4 are fixedly connected to the bottom of the fixed frame 3, the stabilizer bars 4 are vertically arranged, a plurality of jacks corresponding to the stabilizer bars 4 are arranged on the lap joint body 1, the positions and the distances of the jacks are identical to those of the stabilizer bars 4, the stabilizer bars 4 and the jacks are inserted so that the lap joint body 1 and the fixed frame 3 are fixed, when the submersible mixer body 2 is used, the stabilizer bars 4 are directly inserted into the jacks to fix the submersible mixer body 2, a lifting machine 5 is arranged in the lap joint body 1 and used for moving up and down, a gap 6 is arranged outside the lap joint body 1, the lifting machine 5 is fixedly connected with the fixed frame 3 through the gap 6, the lifting machine 5 lifts the submersible mixer body 2 and the fixed frame 3 through the lifting function of the jack, or the outer fixed frame 3 is moved to the water, the stabilizer bars 4 and the jacks are utilized, the submersible mixer body 2 can be fixed after the lap joint body 1 is completed, the submersible mixer body 2 is fixed under the action of the stabilizer bars 4 and the lifting machine 5, the effect of manually lifting the submersible mixer body 1 is not needed, and the manual welding of the submersible mixer body is not needed.

Example 2

In embodiment 1, a single submersible mixer body 2 is matched with a set of lifts 5, which results in a large increase in cost, and the lifts 5 also need to be overhauled and maintained, so that when the submersible mixer body 2 is used in a large scale, the lifts 5 correspondingly configured are too bulky, and are not beneficial to cost control.

Therefore, as shown in fig. 2, in this embodiment, the overlap joint body 1 includes two parts, namely a water surface section 8 and a water bottom section 10, the water surface section 8 is fixed on the side wall of the sewage tank body exposed to the water surface, and is used for fixing, and simultaneously, the overall structural strength is also improved, the water bottom section 10 is fixed on the side wall of the sewage tank body in water for fixing, and since the plurality of submersible mixer bodies 2 are arranged, the plurality of fixing frames 3 are also arranged in this embodiment and are all arranged on the water bottom section 10.

As shown in fig. 2, the fixing frame 3 includes an upper frame 11 and a lower frame 12, the lower frame 12 is rectangular, the upper frame 11 and the lower frame 12 are mutually spliced, the lower frame 12 is directly and fixedly connected with the underwater frame body 2, and a through limiting hole 13 is arranged on the underwater frame body 12 and the lower frame body 10, the limiting hole 13 on the lower frame body 12 and the limiting hole 13 on the underwater frame body 10 are the same in position, the underwater frame body 10 is in a complete planar shape or a dispersed panel shape, a butt joint body 14 is movably arranged between the water surface section 8 and the underwater frame body 10, the butt joint body 14 is movably arranged above the underwater frame body 10 back and forth for butt joint of the submersible mixer body 2 arranged on the underwater frame body 10, the upper frame body 11 is fixedly connected with the submersible mixer body 2, before installation, the upper frame body 11 and the submersible mixer body 2 are manually welded in a welding mode, then hoisted on the butt joint body 14 for operation, and the stabilizer bar 4 is fixed at the lower end of the upper frame body 11, and the stabilizer bar 4 is correspondingly inserted into the limiting hole 13 for direct and movable plug-in the fixing hole 13.

As shown in fig. 5 and 8, the docking body 14 includes a column 15, a trigger plate 16 and a plugboard 17, the docking body 14 is in a column shape, the top of the docking body 14 is clamped with the water surface section 8, a channel is provided on the water surface section 8, the docking body 14 is clamped with the channel for bearing load, the docking body 14 can also move by using the channel, the trigger plate 16 is fixed at the rear part of the column 15, the plugboard 17 is fixed at the front part of the column 15, the front end of the plugboard 17 is in a regular convex shape, and the plugboard 17 is used for moving the docking upper frame 11.

As shown in fig. 7 and 8, the lifting machine 5 is disposed in the column 15, the gap 6 is disposed on the end surface of the column 15, the lifting machine 5 is fixedly connected with the upper frame 11 through the gap 6 to control the upper frame 11 to move on water and under water, a plurality of through inserting grooves 18 are disposed at the edge of the upper frame 11, the inserting grooves 18 match the front end of the inserting plate 17, the cross section of the inserting grooves 18 is also in a regular convex shape, the inserting grooves 18 are in a transverse through shape, the inserting plate 17 can penetrate through the inserting grooves 18 after moving left and right, the inserting plate 17 is abutted with the inserting grooves 18 through the movement of the inserting plate 17, namely, the lifting machine 5 can be matched, so that the upper frame 11 is abutted and lifted, the inserting plate 17 can move to a set position through the inserting grooves 18, a plurality of clamping rails 19 are fixed on the side wall of the sewage pool body for controlling the movement of the column 15, and the clamping rails 19 are jogged with the column 15, so that the column 15 can keep stable by utilizing the clamping rails 19, and simultaneously move along the direction of the clamping rails 19.

As shown in fig. 6, a cavity is further provided in the column 15, a driving motor 20, a rotating shaft 21 and a plurality of gears 22 are fixedly connected in the cavity, the gears 22 are fixed on the rotating shaft 21, the rotating shaft 21 is fixedly connected with the shaft part of the driving motor 20, the driving motor 20 controls the rotation of the rotating shaft 21, the fixing and bearing of the rotating shaft 21 are connected with the rotation of the inner wall of the cavity, meanwhile, the gears 22 are partially exposed out of the column 15 and meshed with the clamping rail 19, and the edge of the clamping rail 19 is in a saw-tooth structure, so that the movement of the column 15 can be realized through the clamping rail 19 by the movement of the gears 22.

As shown in fig. 3-4, a contact spring 23 is arranged on the upper end surface of the underwater section 10, the trigger strip 23 is triangular, the underwater section 10 is provided with an opening, the opening is strip-shaped, the lower end of the underwater section 10 is provided with a connecting block 24, the contact spring 23 is fixedly connected with the connecting block 24 through the opening, in order to realize the back and forth movement of the contact spring 23, a spring expansion link (not shown in the drawing) is fixedly connected in the opening and fixedly connected with the contact spring 23, after the trigger strip 23 is in forced contact, the spring expansion link is compressed, after the trigger strip 23 is not forced, the spring expansion link can drive the return spring 23, a plurality of lock rods 9 are fixedly connected with the connecting block 24, lock holes are arranged on a plurality of stabilizer bars 4, the lock rods 9 are movably contacted with the lock holes, in the process of the cylinder 15 and the plug grooves 18, the contact spring 23 is triangular, so that the cylinder 15 gradually extrudes the contact spring 23, when extruding to the vertex, the plugboard 17 on the column body 15 is completely in butt joint with the pluggroove 18 and is tightly clamped, the lock rod 9 can also withdraw from the lock hole on the stabilizer bar 4 at the moment, the upper frame body 11 is unlocked and can move, after the column body 15 continues to move, the plugboard 17 starts to withdraw from the pluggroove 18, the contact spring 23 can drive the lock rod 9 to be reinserted into the lock hole and lock the upper frame body 11, the mode that the column bodies 15 uniformly moving on the clamping rails 19 are used for butt joint with different submersible mixer bodies 2 can flexibly lift out of the water or be installed under the water, the trigger plate 16, the plugboard 17 and the lock rod 9 are circularly matched to move or fix, the weight of the whole structure is reduced, thus the free hoisting submersible mixer is realized, and the submersible mixers can be lifted out of the water in batches, so that the effects of maintenance and maintenance are facilitated.

Although the terms of the joint body 1, the submersible mixer body 2, the fixing frame 3, the stabilizer bar 4, the lifter 5, the slit 6, the fixing lug 7, the water surface section 8, the lock lever 9, the water bottom section 10, the upper frame body 11, the lower frame body 12, the limiting hole 13, the butt joint body 14, the column body 15, the trigger plate 6, the insertion plate 17, the insertion groove 18, the clip rail 19, the driving motor 20, the rotation shaft 21, the gear 22, the trigger bar 23, the trigger bar 24 are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a module assembled submersible mixer unit structure, its characterized in that, including overlap joint body (1), submersible mixer organism (2), mount (3), overlap joint body (1) and effluent water sump cell body lateral wall fixed connection, mount (3) set up the lower extreme at submersible mixer organism (2), the bottom fixedly connected with many stabilizer bars (4) of mount (3), be equipped with the jack of a plurality of corresponding stabilizer bars (4) on overlap joint body (1), stabilizer bars (4) are inserted with the jack and are made overlap joint body (1) fixed with mount (3), the inside of overlap joint body (1) is equipped with lifting machine (5), gap (6) are equipped with outside overlap joint body (1), lifting machine (5) are through gap (6) and mount (3) fixed connection.

2. The modular submersible mixer unit structure according to claim 1, wherein the cross section of the lap joint body (1) is Z-shaped, the upper edge of the lap joint body (1) is fixedly connected with the water surface end of the sewage tank body, and the bottom edge of the lap joint body (1) is used for bearing the fixing frame (3).

3. The modular submersible mixer assembly according to claim 2, wherein a plurality of fixing lugs (7) are fixedly connected to the side walls of the overlap body (1).

4. The modular submersible mixer unit structure according to claim 1, wherein the overlap joint body (1) comprises a water surface section (8) and a water bottom section (10), the water surface section (8) is fixed on the side wall of the sewage tank body exposed to the water surface, the water bottom section (10) is fixed on the side wall of the sewage tank body in the water, and a plurality of fixing frames (3) are arranged on the water bottom section (10).

5. The modular submersible mixer unit structure according to claim 4, wherein the fixing frame (3) comprises an upper frame body (11) and a lower frame body (12), the lower frame body (12) is fixedly connected with the underwater section (10), a through limiting hole (13) is formed in the underwater section (10) and the lower frame body (12), the upper frame body (11) is fixedly connected with the submersible mixer body (2), and the stabilizer bar (4) is fixed at the lower end of the upper frame body (11) and is correspondingly inserted into the limiting hole (13).

6. The modular submersible mixer assembly according to claim 5, wherein the water bottom section (10) is planar, and a butt joint (14) is movably arranged between the water surface section (8) and the water bottom section (10).

7. The modular submersible mixer unit structure according to claim 6, wherein the butt joint body (14) comprises a column body (15), a trigger plate (16) and a plug board (17), the trigger plate (16) is fixed at the rear part of the column body (15), the plug board (17) is fixed at the front part of the column body (15), a plurality of through plug grooves (18) are formed in the edge of the upper frame body (11), the plug grooves (18) are movably combined with the plug board (17), a plurality of clamping rails (19) are fixed on the side wall of the sewage tank body, and the clamping rails (19) are embedded with the column body (15).

8. The modular submersible mixer assembly according to claim 7, wherein the elevator (5) is arranged in the column (15), the gap (6) is arranged on the end face of the column (15), and the elevator (5) is fixedly connected with the upper frame (11) through the gap (6).

9. The modular submersible mixer assembly according to claim 7, wherein the cylinder (15) is further provided with a chamber, a driving motor (20) and a rotating shaft (21) are fixedly connected in the chamber, a plurality of gears (22) are fixed on the rotating shaft (21), the rotating shaft (21) is fixedly connected with the shaft part of the driving motor (20), and the gears (22) are partially exposed out of the cylinder (15) and meshed with the clamping rail (19).

10. The modular submersible mixer unit structure according to claim 7, wherein the upper end face of the underwater section (10) is provided with a trigger spring (23), the trigger spring (23) is triangular, the underwater section (10) is provided with an opening, the lower end of the underwater section (10) is provided with a connecting block (24), the trigger spring (23) is fixedly connected with the connecting block (24) through the opening, a spring expansion link is fixedly connected with the trigger spring (23) in the opening, a plurality of lock rods (9) are fixedly connected with the connecting block (24), a plurality of lock holes are formed in the stabilizer bars (4), and the lock rods (9) are movably abutted with the lock holes.

Images