CN218709582U - Novel submersible water impeller for aerobic zone - Google Patents

Abstract

The utility model relates to a dive impeller technical field specifically is a novel dive impeller for aerobic zone. Including impeller, hoisting component, good oxygen pond, power component, firm subassembly, the other end that the backup pad is not connected with the location case is connected with the guide plate, power component includes the headstock, servo motor's output is connected with the shaft coupling, the other end that the shaft coupling is not connected with the servo motor output is connected with the axis of rotation, the axis of rotation does not run through the wall body of headstock with the other end of shaft coupling and extends to and be connected with the threaded rod. The utility model has the advantages that: through the setting of location case for the impeller is connected with the case that promotes, through the setting of through-hole groove, be used for with the sliding connection of firm pole setting, through the setting of backup pad, be used for the fixed and support to the guide plate, through the setting of guide plate, be used for reducing the resistance that the location case received when promoting the surface of water.

Description

Novel submersible water impeller for aerobic zone

Technical Field

The utility model relates to a dive impeller technical field specifically is a novel dive impeller for aerobic zone.

Background

In the sewage treatment industry, flow impellers are used. The impeller has two forms, one is a diving impeller, and a motor, a speed reducer and blades of the diving impeller are arranged below the water surface; the other is a surface aeration impeller, and a motor, a speed reducer and an impeller of the surface aeration impeller are arranged above the water surface. The functions of the device are to push the water body to keep a certain flow velocity to flow forwards or stir, and the device has the functions of mixing sewage, stirring sludge, pushing the water body medium to flow, keeping the flow velocity of the bottom of the pool, preventing sludge from settling, improving the sewage treatment efficiency and the like.

The patent number is CN 215886500U patent and discloses a biological pond dive plug flow, including dive plug flow ware main part, dive plug flow ware main part sets up on the bracket, and dive plug flow ware main part passes through guide pin bushing and sliding guide sliding connection, the sliding guide top is connected with the gallows, fixed connection hoist engine on the mobile jib of gallows, and the gallows connects dive plug flow ware main part through the suspension rope, fixedly connected with support on the mobile jib of gallows, the support top is provided with the solar photovoltaic board, the output of solar photovoltaic board is connected with photovoltaic inverter's input, photovoltaic inverter's output is connected with the input that sets up the battery at the mobile jib lateral wall of gallows.

When the submersible water impeller main body is lifted, the resistance of the water body is large, and the lifting efficiency of the submersible water impeller main body is further influenced.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model aims to: the utility model provides a novel dive impeller for aerobic zone, it is great to solve dive impeller main part when promoting, and the resistance that receives the water is great, and then influences the problem of the lifting efficiency of dive impeller main part.

For the purpose of realizing above, the utility model discloses a technical scheme: the utility model provides a novel dive impeller for good oxygen district, includes impeller, hoisting component, good oxygen pond, power component, firm subassembly, the hoisting component is including location case, hoisting box, the through-hole groove has been seted up to the inboard of location case, the inboard of hoisting box is seted up threaded hole, spacing hole, the top of location case is connected with the backup pad, the other end that the backup pad is not connected with the location case is connected with the guide plate, power component includes the headstock, the inboard of headstock is provided with servo motor, servo motor's output is connected with the shaft coupling, the other end that the shaft coupling is not connected with the servo motor output is connected with the axis of rotation, the axis of rotation does not run through the wall body of headstock with the other end of coupling and extends to and be connected with the threaded rod, the inner circle in spacing hole is connected with the gag lever post, firm subassembly is including firm pole setting, the top of firm pole setting is connected with firm diaphragm, the top of firm diaphragm is connected with the strengthening rib.

The utility model has the advantages that: through the setting of location case for the impeller is connected with the case that promotes, through the setting of through-hole groove, be used for with the sliding connection of firm pole setting, through the setting of backup pad, be used for the fixed and support to the guide plate, through the setting of guide plate, be used for reducing the resistance that the location case received when promoting the surface of water.

In order to enable the water body in the aerobic tank to form strong water flow with low tangential flow:

as a further improvement of the above technical solution: the flow pusher comprises a driving device and an impeller, wherein the output end of the driving device is connected with the impeller, the driving device is electrically connected with the control assembly, and the diameter range of the impeller is 1500 mm-2200 mm.

The beneficial effect of this improvement does: after the driving device is started to operate, the driving device works and drives the impeller to rotate, so that the water body in the aerobic tank forms low-tangential-flow strong water flow, and the water flow can be used for water circulation in the aerobic tank and water flow establishment in nitrification, denitrification and dephosphorization stages.

In order to reduce the resistance of the positioning box when lifting the water surface:

as a further improvement of the above technical solution: the rear end of location case and the front end fixed connection of lifting box, the other end that the location case is not connected with the lifting box is connected with drive arrangement's end, the diameter of through-hole groove and the diameter phase-match of firm pole, the forward-looking cross section of guide plate is the setting of the font structure of falling V, the guide plate is provided with two altogether, two the guide plate all is connected with the location case through the backup pad.

The beneficial effect of this improvement does: through the setting of location case for the impeller is connected with the case that promotes, through the setting of through-hole groove, be used for with the sliding connection of firm pole setting, through the setting of backup pad, be used for the fixed and support to the guide plate, through the setting of guide plate, be used for reducing the resistance that the location case received when promoting the surface of water.

In order to allow the lift box to have a channel that can slide:

as a further improvement of the above technical solution: the inner wall of the aerobic tank is provided with sliding grooves, the size of each sliding groove is matched with that of the lifting box, the height of each sliding groove is arranged along the depth direction of the aerobic tank, two limiting holes are formed, and the depth of each limiting hole is the same as that of the lifting box.

The beneficial effect of this improvement does: the lifting box is provided with a sliding groove for arranging a channel for sliding of the lifting box, and the limiting hole is arranged for sliding connection of the limiting rod and the lifting box.

In order to be able to achieve a linear movement of the lifting box:

as a further improvement of the above technical solution: the utility model discloses a pneumatic aerobic tank, including servo motor and control assembly, threaded rod, screw hole, headstock, installation curb plate, lower bottom surface, the servo motor and control assembly electric connection, the threaded rod is connected with screw hole screw thread rotation, the lower bottom surface of headstock is connected with the installation curb plate of two the same rectangle structures of size, the other end that the installation curb plate is not connected with the headstock is connected with the top in good oxygen pond, the lower extreme of gag lever post and the lower bottom surface fixed connection in good oxygen pond, the top of gag lever post and the lower bottom surface fixed connection of headstock.

The beneficial effect of this improvement does: when the servo motor is started to operate, the servo motor rotates and drives the rotating shaft to synchronously rotate through the coupler, then the rotating shaft drives the threaded rod to synchronously rotate in the rotating process, and then the linear motion of the lifting box is realized through the combined action of the threaded rod and the limiting rod.

In order to improve the stability that headstock and firm diaphragm are connected:

as a further improvement of the above technical solution: the forward-looking cross section of strengthening rib is the right triangle structure setting, another right-angle side that the strengthening rib is not connected with firm diaphragm is connected with the headstock, the other end that firm pole setting is not connected with firm diaphragm is connected with the lower bottom surface of good oxygen pond through the connecting piece.

The beneficial effect of this improvement does: through the setting of firm diaphragm for to the fixed of firm pole setting, through the setting of firm pole setting, be used for improving the steadiness of location case in the removal process, through the setting of strengthening rib, can increase the connection area of headstock and firm diaphragm, and then improve the stability that headstock and firm diaphragm are connected.

Drawings

Fig. 1 is a schematic side view of the present invention.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic view of the three-dimensional structure of the middle stable vertical rod of the present invention.

Fig. 4 is a front view structural schematic diagram of the middle flow driver of the present invention.

Fig. 5 is a schematic view of a three-dimensional structure of the middle positioning box of the present invention.

In the figure: 1. a flow impeller; 11. a drive device; 12. an impeller; 2. a lifting assembly; 21. a positioning box; 22. lifting the box; 23. a through hole slot; 24. a threaded hole; 25. a limiting hole; 3. an aerobic tank; 31. a sliding groove; 4. a power assembly; 41. a power box; 42. installing a side plate; 43. a servo motor; 44. a coupling; 45. a rotating shaft; 46. a threaded rod; 47. a limiting rod; 5. a stabilizing assembly; 51. stabilizing the vertical rod; 52. stabilizing the transverse plate; 53. and (5) reinforcing ribs.

Detailed Description

In order to make the technical solution of the present invention better understood, the present invention is described in detail below with reference to the accompanying drawings, and the description of the present invention is only exemplary and explanatory, and should not be construed as limiting the scope of the present invention.

Example 1:

as shown in fig. 1-5, a novel dive impeller for aerobic zone, including impeller 1, hoisting component 2, good oxygen pond 3, power component 4, firm subassembly 5, hoisting component 2 includes location case 21, hoisting box 22, the inboard of location case 21 is seted up and is put through-hole groove 23, threaded hole 24, spacing hole 25 have been seted up to hoisting box 22's inboard, the top of location case 21 is connected with backup pad 26, the other end that backup pad 26 is not connected with location case 21 is connected with guide plate 27, power component 4 includes power box 41, the inboard of power box 41 is provided with servo motor 43, servo motor 43's output is connected with shaft coupling 44, the other end that shaft coupling 44 is not connected with servo motor 43 output is connected with axis of rotation 45, the other end that axis of rotation 45 is not connected with shaft coupling 44 runs through the wall body of power box 41 and extends to and is connected with threaded rod 46, the inner circle of spacing hole 25 is connected with gag lever post 47, firm subassembly 5 is including firm 51, the top of pole setting pole 51 is connected with diaphragm 52, the top of pole setting 51 is firm, the top is connected with the strengthening rib 53.

Example 2:

as shown in fig. 1, as a further optimization of the above embodiment, a novel submersible water impeller for an aerobic area includes an impeller 1, a lifting assembly 2, an aerobic pool 3, a power assembly 4, and a stabilizing assembly 5, where the lifting assembly 2 includes a positioning box 21 and a lifting box 22, the inner side of the positioning box 21 is provided with a through hole groove 23, the inner side of the lifting box 22 is provided with a threaded hole 24 and a limiting hole 25, the top of the positioning box 21 is connected with a supporting plate 26, the other end of the supporting plate 26, which is not connected with the positioning box 21, is connected with a flow guide plate 27, the power assembly 4 includes a power box 41, the inner side of the power box 41 is provided with a servo motor 43, the output end of the servo motor 43 is connected with a coupler 44, the other end of the coupler 44, which is not connected with the output end of the servo motor 43, is connected with a rotating shaft 45, the other end of the rotating shaft 45, which is not connected with the coupler 44, penetrates through a wall body of the power box 41 and extends to a wall body 46, the inner ring of the limiting hole 25 is connected with a limiting rod 47, the stabilizing assembly 5 includes a stabilizing upright rod 51, the top of which is connected with a transverse rod 52, and a transverse plate 53; the flow pusher 1 comprises a driving device 11 and an impeller 12, an output end of the driving device 11 is connected with the impeller 12, the driving device 11 is electrically connected with the control assembly, and a diameter range of the impeller 12 is 1500 mm to 2200 mm.

Example 3:

as shown in fig. 1 and 4, as a further optimization of the above embodiment, a novel submersible current impeller for an aerobic zone includes a current impeller 1, a lifting assembly 2, an aerobic pool 3, a power assembly 4, and a stabilizing assembly 5, where the lifting assembly 2 includes a positioning box 21 and a lifting box 22, the inner side of the positioning box 21 is provided with a through hole groove 23, the inner side of the lifting box 22 is provided with a threaded hole 24 and a limiting hole 25, the top of the positioning box 21 is connected with a supporting plate 26, the other end of the supporting plate 26, which is not connected with the positioning box 21, is connected with a flow guide plate 27, the power assembly 4 includes a power box 41, the inner side of the power box 41 is provided with a servo motor 43, the output end of the servo motor 43 is connected with a coupler 44, the other end of the coupler 44, which is not connected with the output end of the servo motor 43, is connected with a rotating shaft 45, the other end of the rotating shaft 45, which is not connected with the coupler 44, penetrates through the wall body of the power box 41 and extends to be connected with a threaded rod 46, the inner ring of the limiting rod 47 is connected with a stabilizing assembly 5, the stabilizing assembly includes a stabilizing upright rod 51, the top of which is connected with a transverse plate 52, and a transverse plate 53; the rear end of locating box 21 and the front end fixed connection of lift case 22, the other end that locating box 21 is not connected with lift case 22 is connected with drive arrangement 11's end, the diameter of through-hole groove 23 and the diameter phase-match of firm pole setting 51, the forward-looking cross section of guide plate 27 is the setting of the font of falling V structure, guide plate 27 is provided with two altogether, two guide plate 27 all is connected with locating box 21 through backup pad 26.

Example 4:

as shown in fig. 1 and fig. 3, as a further optimization of the above embodiment, a novel submersible current impeller for an aerobic zone includes a current impeller 1, a lifting assembly 2, an aerobic pool 3, a power assembly 4, and a stabilizing assembly 5, where the lifting assembly 2 includes a positioning box 21 and a lifting box 22, the inner side of the positioning box 21 is provided with a through hole groove 23, the inner side of the lifting box 22 is provided with a threaded hole 24 and a limiting hole 25, the top of the positioning box 21 is connected with a supporting plate 26, the other end of the supporting plate 26, which is not connected with the positioning box 21, is connected with a flow guide plate 27, the power assembly 4 includes a power box 41, the inner side of the power box 41 is provided with a servo motor 43, the output end of the servo motor 43 is connected with a coupler 44, the other end of the coupler 44, which is not connected with the output end of the servo motor 43, is connected with a rotating shaft 45, the other end of the rotating shaft 45, which is not connected with the coupler 44, penetrates through the wall body of the power box 41 and extends to be connected with a threaded rod 46, the inner ring of the limiting hole 25 is connected with a stabilizing rod 47, the stabilizing assembly 5 includes a stabilizing upright rod 51, the top of which is connected with a transverse plate 52, and a transverse plate 53; the inner wall of the aerobic tank 3 is provided with a sliding groove 31, the size of the sliding groove 31 is matched with that of the lifting box 22, the height of the sliding groove 31 is arranged along the depth direction of the aerobic tank 3, the number of the limiting holes 25 is two, and the depth of the limiting holes 25 is the same as that of the lifting box 22.

Example 5:

as shown in fig. 1 and 5, as a further optimization of the above embodiment, a novel submersible current impeller for an aerobic zone includes a current impeller 1, a lifting assembly 2, an aerobic pool 3, a power assembly 4, and a stabilizing assembly 5, where the lifting assembly 2 includes a positioning box 21 and a lifting box 22, the inner side of the positioning box 21 is provided with a through hole groove 23, the inner side of the lifting box 22 is provided with a threaded hole 24 and a limiting hole 25, the top of the positioning box 21 is connected with a supporting plate 26, the other end of the supporting plate 26, which is not connected with the positioning box 21, is connected with a flow guide plate 27, the power assembly 4 includes a power box 41, the inner side of the power box 41 is provided with a servo motor 43, the output end of the servo motor 43 is connected with a coupler 44, the other end of the coupler 44, which is not connected with the output end of the servo motor 43, is connected with a rotating shaft 45, the other end of the rotating shaft 45, which is not connected with the coupler 44, penetrates through the wall body of the power box 41 and extends to be connected with a threaded rod 46, the inner ring of the limiting rod 47 is connected with a stabilizing assembly 5, the stabilizing assembly includes a stabilizing upright rod 51, the top of which is connected with a transverse plate 52, and a transverse plate 53; the servo motor 43 and the control assembly electric connection, threaded rod 46 and screw hole 24 screw thread are rotated and are connected, the lower bottom surface of headstock 41 is connected with the installation curb plate 42 of two the same rectangle structures of size, the other end that installation curb plate 42 is not connected with headstock 41 is connected with the top in good oxygen pond 3, the lower extreme of gag lever post 47 and the lower bottom surface fixed connection in good oxygen pond 3, the top of gag lever post 47 and the lower bottom surface fixed connection of headstock 41.

Example 6:

as shown in fig. 1 and fig. 4, as a further optimization of the above embodiment, a novel submersible flow impeller for an aerobic zone includes a flow impeller 1, a lifting assembly 2, an aerobic pool 3, a power assembly 4, and a stabilizing assembly 5, where the lifting assembly 2 includes a positioning box 21 and a lifting box 22, the inner side of the positioning box 21 is provided with a through hole slot 23, the inner side of the lifting box 22 is provided with a threaded hole 24 and a limiting hole 25, the top of the positioning box 21 is connected with a supporting plate 26, the other end of the supporting plate 26, which is not connected with the positioning box 21, is connected with a flow guide plate 27, the power assembly 4 includes a power box 41, the inner side of the power box 41 is provided with a servo motor 43, the output end of the servo motor 43 is connected with a coupler 44, the other end of the coupler 44, which is not connected with the output end of the servo motor 43, is connected with a rotating shaft 45, the other end of the rotating shaft 45, which is not connected with the coupler 44, runs through the wall of the power box 41 and extends to be connected with a threaded rod 46, the inner ring of the limiting hole 25 is connected with a limiting rod 47, the stabilizing assembly 5 includes a stabilizing upright rod 51, the top of the stabilizing upright rod 51 is connected with a transverse plate 52, and the top of the transverse plate 53; the front cross section of the reinforcing rib 53 is in a right triangle structure, the other right-angle side of the reinforcing rib 53 which is not connected with the stabilizing transverse plate 52 is connected with the power box 41, and the other end of the stabilizing vertical rod 51 which is not connected with the stabilizing transverse plate 52 is connected with the lower bottom surface of the aerobic tank 3 through a connecting piece.

The utility model discloses a theory of operation does: when the device is used, after the operation of the driving device 11 is started, the driving device 11 works and drives the impeller 12 to rotate, so that a water body in the aerobic pool 3 forms a strong water flow with low tangential flow, and the device can be used for water circulation and nitrification in the aerobic pool 3, water flow and the like are created in the denitrification and dephosphorization stages, when the current impeller 1 needs to be lifted, the operation of the servo motor 43 is started, then the servo motor 43 rotates and drives the rotating shaft 45 to synchronously rotate through the coupler 44, then the rotating shaft 45 drives the threaded rod 46 to synchronously rotate in the rotating process, then the linear motion of the lifting box 22 is realized through the combined action of the threaded rod 46 and the limiting rod 47, through the arrangement of the stabilizing transverse plate 52, the device is used for fixing the stabilizing vertical rod 51, through the arrangement of the stabilizing vertical rod 51, the stability of the positioning box 21 in the moving process is improved, through the arrangement of the reinforcing rib 53, the connecting area of the power box 41 and the stabilizing transverse plate 52 can be increased, further, the stability of the power box 41 and the stabilizing vertical rod 52 is improved, through the arrangement of the sliding groove 31, the channel for sliding of the lifting box 22, through the arrangement of the guide plate 25, the guide plate 21 is used for reducing the resistance of the lifting box, and the guide plate 21, and the guide plate 27 are used for reducing the resistance of the lifting box, and the guide plate 21 are used for connecting the guide plate 27, and used for connecting the guide plate 21.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention have been explained herein using specific examples, which are presented only to assist in understanding the methods and their core concepts. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are practically unlimited specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the technical features described above can also be combined in a suitable manner; the present invention is intended to cover such modifications, variations, or combinations, which may be used to advantage or without modification to practice of the invention.

Claims (6)

1. The utility model provides a novel dive impeller for good oxygen district, includes impeller (1), hoisting component (2), good oxygen pond (3), power component (4), firm subassembly (5), its characterized in that: lifting component (2) are including location case (21), hoisting case (22), the inboard of location case (21) is seted up and is put through-hole groove (23), the inboard of hoisting case (22) is seted up and is put screw hole (24), spacing hole (25), the top of location case (21) is connected with backup pad (26), the other end that backup pad (26) are not connected with location case (21) is connected with guide plate (27), power component (4) are including headstock (41), the inboard of headstock (41) is provided with servo motor (43), the output of servo motor (43) is connected with shaft coupling (44), the other end that shaft coupling (44) are not connected with servo motor (43) output is connected with axis of rotation (45), the other end that axis of rotation (45) are not connected with shaft coupling (44) runs through the wall body of headstock (41) and extends to and is connected with threaded rod (46), the inner circle of spacing hole (25) is connected with gag lever (47), firm subassembly (5) are including firm pole setting (51), the top that pole setting (51) are connected with strengthening rib (52), diaphragm (52) are connected with firm top (53).

2. The novel submersible flow impeller for aerobic zones according to claim 1, characterized in that: the flow pusher (1) comprises a driving device (11) and an impeller (12), the output end of the driving device (11) is connected with the impeller (12), the driving device (11) is electrically connected with the control assembly, and the diameter range of the impeller (12) is 1500 mm-2200 mm.

3. The novel submersible flow impeller for aerobic zones according to claim 1, characterized in that: the rear end of location case (21) and the front end fixed connection who promotes case (22), the other end that location case (21) are not connected with promotion case (22) is connected with drive arrangement (11)'s end, the diameter of through-hole groove (23) and the diameter phase-match of firm pole setting (51), the forward looking cross section of guide plate (27) is for falling V font structure setting, guide plate (27) are provided with two altogether, two guide plate (27) all are connected with location case (21) through backup pad (26).

4. The novel submersible flow impeller for aerobic zones according to claim 1, characterized in that: sliding tray (31) have been seted up to the inner wall in good oxygen pond (3), the size of sliding tray (31) and the size phase-match of lifting box (22), the height of sliding tray (31) sets up along good oxygen pond (3) degree of depth direction, spacing hole (25) are provided with two altogether, the degree of depth and the height of lifting box (22) of spacing hole (25) are the same.

5. The novel submersible flow impeller for aerobic zones according to claim 1, characterized in that: servo motor (43) and control assembly electric connection, threaded rod (46) are connected with screw hole (24) screw thread rotation, the lower bottom surface of headstock (41) is connected with installation curb plate (42) of the same rectangle structure of two sizes, the other end that installation curb plate (42) are not connected with headstock (41) is connected with the top in good oxygen pond (3), the lower extreme of gag lever post (47) and the lower bottom surface fixed connection in good oxygen pond (3), the top of gag lever post (47) and the lower bottom surface fixed connection of headstock (41).

6. The novel submersible flow impeller for aerobic zones according to claim 1, characterized in that: the forward-looking cross section of strengthening rib (53) sets up for the right triangle structure, another right-angle side that strengthening rib (53) are not connected with firm diaphragm (52) is connected with headstock (41), the other end that firm pole setting (51) are not connected with firm diaphragm (52) is connected with the lower bottom surface of aerobic tank (3) through the connecting piece.

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