CN220159660U - High salt waste water membrane guiding device of DTRO - Google Patents

Abstract

The utility model belongs to the technical field of wastewater treatment, in particular to a DTRO high-salt wastewater membrane diversion device, which aims at the problems that when wastewater is led into a treatment device in the prior technical scheme, a related pressurizing device is not arranged, so that stable flow of the wastewater is difficult to realize in actual use.

Description

High salt waste water membrane guiding device of DTRO

Technical Field

The utility model relates to the technical field of wastewater treatment, in particular to a DTRO high-salt wastewater membrane diversion device.

Background

In the prior art, according to the bulletin number: CN218107310U is a DTRO membrane treatment device for high-salinity wastewater, comprising a membrane sleeve, a membrane core, an upper flange, a lower flange and a central pull rod, wherein the membrane core, the upper flange, the lower flange and the central pull rod are all positioned in the membrane sleeve; the central pull rod sequentially passes through the upper flange, the membrane core and the lower flange, and the two ends of the central pull rod are threaded and respectively screwed with the first nuts so as to drive the upper flange and the lower flange to be matched and clamped with the membrane core; the upper flange and the lower flange are both attached to the inner wall of the membrane sleeve; the upper reinforcing ring and the lower reinforcing ring are sleeved on the central pull rod; the upper reinforcing ring is arranged above the upper flange, the lower reinforcing ring is arranged below the lower flange, and two ends of the upper center pull rod are respectively screwed with the second nuts so as to drive the upper reinforcing ring to abut against the upper flange and the lower reinforcing ring to abut against the lower flange. The utility model has the effect of slowing down the deformation of the flange.

However, when the waste water is led into the treatment device, the related pressurizing device is not arranged, so that the waste water is difficult to stably flow in actual use, and the technical scheme provides the DTRO high-salt waste water membrane diversion device for solving the problems.

Disclosure of Invention

The utility model aims to solve the defect that the prior technical scheme is difficult to realize stable flow of wastewater in actual use because a related pressurizing device is not arranged when the wastewater is led into a treatment device, and provides a DTRO high-salt wastewater membrane diversion device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a high salt waste water membrane guiding device of DTRO, includes the base, the top right side fixed mounting of base has filter equipment, fixedly connected with conveyer pipe on the filter equipment, and filter equipment's left side top fixed mounting has the backup pad, power component is installed at the top of backup pad, the left end of conveyer pipe is connected with coupling assembling, and coupling assembling runs through the backup pad and is connected with power component, be connected with two on the coupling assembling and absorb water the subassembly, and two absorb water the subassembly and be connected with same gear assembly, two absorb water the bottom of subassembly and be connected with same water supply assembly, and water supply assembly is connected with the top of base.

By means of the structure, the connecting assembly can be driven to operate by the starting power assembly, at this time, the two water absorbing assemblies can operate, so that water can be pressurized and conveyed, waste water can be conveyed into the filtering device through the water absorbing assemblies, the connecting assemblies and the conveying pipes, and flow can be stabilized when the waste water is filtered, and therefore flow efficiency cannot be reduced.

Preferably, the connection assembly comprises a rotation tube and a connection box;

the left end rotation of rotation pipe and conveyer pipe is connected, and the bottom of rotation pipe extends to the below of backup pad and with junction box fixed connection, and rotation pipe and backup pad rotate to be connected, and rotation pipe is connected with power component.

Further, the waste water can be conveyed into the conveying pipe through the rotating pipe by utilizing the connecting box.

Preferably, the power assembly comprises a driving motor, a driving bevel gear and a driven bevel gear;

the driving motor is fixedly arranged on the left side of the top of the supporting plate, the driving bevel gear is fixedly connected with the output shaft of the driving motor, the driven bevel gear is fixedly sleeved on the rotating tube, and the driving bevel gear is meshed with the driven bevel gear.

Further, the driving bevel gear is driven to rotate by starting the driving motor, and at the moment, the rotating tube can be driven to rotate under the meshing transmission action of the driven bevel gear.

Preferably, the water absorbing component comprises a connecting pipe, a rotating cover, a supporting cover and a blade shaft;

the top of connecting pipe extends to the connection incasement and with the side inner wall fixed connection of connection case, and the bottom of connecting pipe extends to in rotating the cover and rotates with the top inner wall of rotating the cover to be connected, and blade axle fixed mounting rotates in the cover, rotates the cover and is connected with the gear train spare, rotates the bottom of cover and rotates with the supporting cover to be connected, and the supporting cover is connected with water supply assembly.

Further, when the rotating cover moves in an annular mode along with the connecting box, the connecting box can rotate under the transmission effect of the gear assembly, and therefore the blade shaft can be driven to rotate.

Preferably, the gear assembly comprises two gears and a toothed ring;

the gear fixing sleeve is arranged on the corresponding rotating cover, the toothed ring is fixedly arranged on the left side of the filtering device, and the two gears are positioned in the toothed ring and meshed with the toothed ring.

Further, when the gear moves in a ring shape along with the rotating cover, the rotating cover can be driven to rotate under the meshing transmission action of the toothed ring.

Preferably, the water supply assembly comprises a mounting plate, a water receiving pipe and a shunt pipe;

the mounting panel fixed mounting is at the top of base, and connect the central point that the water pipe runs through the mounting panel and rotate with the mounting panel to be connected, connect the top of water pipe and shunt tubes to rotate to be connected, and left end and the right-hand member of shunt tubes extend respectively to in the corresponding support cover and with the inner wall fixed connection of support cover.

Further, the mounting plate can be used for carrying out sliding support on the two support covers, and under the action of the shunt tubes, water can be dispersed and conveyed into the two support covers.

The beneficial effects are that:

1. the driving motor is started to drive the two rotating covers to rotate, so that power can be applied to the two rotating covers, and waste water sucking operation can be conveniently performed;

2. when the rotating cover runs, the rotating cover can be driven to rotate under the transmission action of the gear assembly, so that the blade shaft can rotate, suction force can be generated, waste water can be pumped into the rotating cover, and then the waste water is conveyed into the filtering device through the connecting box, the rotating pipe and the conveying pipe for filtering treatment;

according to the utility model, the driving motor is started to carry out pressurizing conveying on the wastewater, so that the wastewater can stably flow through the filtering device to carry out filtering treatment, the efficiency can be ensured not to be reduced when the wastewater is subjected to filtering treatment, and the wastewater filtering device has good practicability.

Drawings

FIG. 1 is a front view of a structure of a DTRO high salt wastewater membrane diversion apparatus according to the present utility model;

FIG. 2 is a front view of the inner structure of a rotating cover of the DTRO high salt wastewater membrane diversion apparatus provided by the utility model;

FIG. 3 is a three-dimensional view of the connecting pipe, the rotating cover and the gear connecting structure of the DTRO high salt wastewater membrane diversion device;

fig. 4 is a schematic structural diagram of a portion a of the DTRO high-salt wastewater membrane diversion device in fig. 1 according to the present utility model.

In the figure: 1. a base; 2. a filtering device; 3. a delivery tube; 4. a support plate; 5. a rotary tube; 6. a driving motor; 7. a driving bevel gear; 8. a driven bevel gear; 9. a connection box; 10. a connecting pipe; 11. a rotating cover; 12. a mounting plate; 13. a support cover; 14. a gear; 15. a toothed ring; 16. a blade shaft; 17. a shunt; 18. and a water receiving pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-4, a DTRO high salt waste water membrane guiding device, including base 1, the top right side fixed mounting of base 1 has filter equipment 2, fixedly connected with conveyer pipe 3 on the filter equipment 2, and the left side top fixed mounting of filter equipment 2 has backup pad 4, power component is installed at the top of backup pad 4, the left end of conveyer pipe 3 is connected with coupling assembling, and coupling assembling runs through backup pad 4 and is connected with power component, be connected with two on the coupling assembling and absorb water the subassembly, and two absorb water the subassembly and be connected with same gear assembly, the bottom of two absorb water the subassembly is connected with same water supply subassembly, and water supply subassembly is connected with the top of base 1.

By means of the structure, the connecting assembly can be driven to operate by the starting power assembly, at this time, the two water absorbing assemblies can operate, so that water can be pressurized and conveyed, waste water can be conveyed into the filtering device 2 through the water absorbing assemblies, the connecting assemblies and the conveying pipe 3, and flow can be stabilized when the waste water is filtered, and therefore flow efficiency cannot be reduced.

In the utility model, the connecting assembly comprises a rotating pipe 5 and a connecting box 9;

the rotary pipe 5 is rotationally connected with the left end of the conveying pipe 3, the bottom end of the rotary pipe 5 extends to the lower side of the supporting plate 4 and is fixedly connected with the connecting box 9, the rotary pipe 5 is rotationally connected with the supporting plate 4, and the rotary pipe 5 is connected with the power assembly.

The waste water can be conveyed into the conveying pipe 3 via the swivel pipe 5 by means of the connecting box 9.

In the utility model, the power assembly comprises a driving motor 6, a driving bevel gear 7 and a driven bevel gear 8;

the driving motor 6 is fixedly arranged on the left side of the top of the supporting plate 4, the driving bevel gear 7 is fixedly connected with the output shaft of the driving motor 6, the driven bevel gear 8 is fixedly sleeved on the rotating tube 5, and the driving bevel gear 7 is meshed with the driven bevel gear 8.

The driving bevel gear 7 is driven to rotate by starting the driving motor 6, and the rotating tube 5 can be driven to rotate under the meshing transmission action of the driven bevel gear 8.

In the present utility model, the water absorbing assembly includes a connection pipe 10, a rotating cover 11, a supporting cover 13 and a vane shaft 16;

the top of connecting pipe 10 extends to in the junction box 9 and with the side inner wall fixed connection of junction box 9, and the bottom of connecting pipe 10 extends to in rotating cover 11 and with rotate the top inner wall of cover 11 and be connected, blade axle 16 fixed mounting rotates in cover 11, rotates cover 11 and is connected with the gear train spare, rotates the bottom of cover 11 and is connected with supporting cover 13 rotation, and supporting cover 13 is connected with water supply assembly.

When the rotating cover 11 moves in a ring shape along with the connecting box 9, the connecting box 9 can rotate under the transmission action of the gear assembly, so that the blade shaft 16 can be driven to rotate.

In the present utility model, the gear assembly comprises two gears 14 and a toothed ring 15;

the gears 14 are fixedly sleeved on the corresponding rotating covers 11, the toothed rings 15 are fixedly installed on the left side of the filtering device 2, and the two gears 14 are positioned in the toothed rings 15 and meshed with the toothed rings 15.

When the gear 14 moves circularly along with the rotating cover 11, the rotating cover 11 can be driven to rotate under the meshing transmission action of the toothed ring 15.

In the present utility model, the water supply assembly includes a mounting plate 12, a water receiving tube 18 and a shunt tube 17;

the mounting plate 12 is fixedly mounted at the top of the base 1, the water receiving pipe 18 penetrates through the center of the mounting plate 12 and is rotationally connected with the mounting plate 12, the top end of the water receiving pipe 18 is rotationally connected with the shunt pipe 17, and the left end and the right end of the shunt pipe 17 extend into the corresponding supporting cover 13 respectively and are fixedly connected with the inner wall of the supporting cover 13.

The mounting plate 12 can slidably support the two support covers 13, and the water can be dispersed and transported into the two support covers 13 by the shunt 17.

Working principle: the water receiving pipe 18 can be connected with an external water flow conveying pipeline at first, then the driving bevel gear 7 is driven to rotate through the starting driving motor 6, at this moment, the rotating pipe 5 can be driven to rotate under the meshing transmission effect of the driven bevel gear 8, the connecting box 9 can be driven to rotate when the rotating pipe 5 rotates, at this moment, the two rotating covers 11 can be driven to rotate through the two connecting pipes 10, power can be applied to the two rotating covers 11 so as to conveniently suck waste water, the gear 14 can be driven to perform annular motion when the rotating covers 11 operate, at this moment, the gear 14 and the toothed ring 15 keep the meshing state, so that the rotating covers 11 can perform autorotation while performing annular motion, the blade shaft 16 can be enabled to rotate, suction force can be generated when the blade shaft 16 rotates, waste water can be conveyed into the supporting cover 13 through the water receiving pipe 18 and the shunt pipe 17, and then the connecting box 9, the rotating pipe 5 and the conveying pipe 3 are conveyed into the filtering device 2, and filtering treatment can be performed, and efficiency can not be reduced when the waste water is filtered, and good practicability can be ensured.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a high salt waste water membrane guiding device of DTRO, includes base (1), its characterized in that, the top right side fixed mounting of base (1) has filter equipment (2), fixedly connected with conveyer pipe (3) on filter equipment (2), and the left side top fixed mounting of filter equipment (2) has backup pad (4), power component is installed at the top of backup pad (4), the left end of conveyer pipe (3) is connected with coupling assembling, and coupling assembling runs through backup pad (4) and is connected with power component, be connected with two subassembly that absorb water on the coupling assembling, and two subassembly that absorb water are connected with same gear assembly, the bottom of two subassembly that absorb water is connected with same water supply assembly, and water supply assembly is connected with the top of base (1).

2. A DTRO high salt wastewater membrane diversion apparatus as claimed in claim 1, wherein the connection assembly comprises a rotary pipe (5) and a connection box (9);

the rotary pipe (5) is rotationally connected with the left end of the conveying pipe (3), the bottom end of the rotary pipe (5) extends to the lower side of the supporting plate (4) and is fixedly connected with the connecting box (9), the rotary pipe (5) is rotationally connected with the supporting plate (4), and the rotary pipe (5) is connected with the power assembly.

3. The DTRO high-salt wastewater membrane diversion device according to claim 1, wherein the power assembly comprises a driving motor (6), a driving bevel gear (7) and a driven bevel gear (8);

the driving motor (6) is fixedly arranged on the left side of the top of the supporting plate (4), the driving bevel gear (7) is fixedly connected with the output shaft of the driving motor (6), the driven bevel gear (8) is fixedly sleeved on the rotating tube (5), and the driving bevel gear (7) is meshed with the driven bevel gear (8).

4. A DTRO high salt wastewater membrane diversion apparatus as claimed in claim 1, wherein the water absorbing assembly comprises a connecting pipe (10), a rotating cover (11), a supporting cover (13) and a blade shaft (16);

the top of connecting pipe (10) extends to in connecting box (9) and with the side inner wall fixed connection of connecting box (9), and the bottom of connecting pipe (10) extends to in rotating cover (11) and rotates with the top inner wall of rotating cover (11) and be connected, blade axle (16) fixed mounting rotates in cover (11), rotates cover (11) and is connected with the gear train spare, rotates the bottom of cover (11) and rotates with supporting cover (13) to be connected, and supporting cover (13) are connected with water supply assembly.

5. A DTRO high salt wastewater membrane diversion apparatus as claimed in claim 1, wherein the gear assembly comprises two gears (14) and a toothed ring (15);

the gears (14) are fixedly sleeved on the corresponding rotating covers (11), the toothed rings (15) are fixedly installed on the left sides of the filtering devices (2), and the two gears (14) are located in the toothed rings (15) and meshed with the toothed rings (15).

6. A DTRO high salt wastewater membrane diversion apparatus as claimed in claim 1, wherein the water supply assembly comprises a mounting plate (12), a water receiving pipe (18) and a diversion pipe (17);

the mounting plate (12) is fixedly mounted at the top of the base (1), the water receiving pipe (18) penetrates through the center of the mounting plate (12) and is rotationally connected with the mounting plate (12), the top end of the water receiving pipe (18) is rotationally connected with the shunt pipe (17), and the left end and the right end of the shunt pipe (17) extend into the corresponding supporting cover (13) respectively and are fixedly connected with the inner wall of the supporting cover (13).