CN109603263B

CN109603263B - Dredging and damping device for coking organic wastewater treatment pipeline

Info

Publication number: CN109603263B
Application number: CN201910020059.XA
Authority: CN
Inventors: 蒋桂萍; 李子靖; 张军; 闫志武; 郭永贵; 刘占宝; 武建军; 王忠华; 张爱萍
Original assignee: Xuanhua Iron and Steel Group Co Ltd
Current assignee: Xuanhua Iron and Steel Group Co Ltd
Priority date: 2019-01-09
Filing date: 2019-01-09
Publication date: 2023-08-22
Anticipated expiration: 2039-01-09
Also published as: CN109603263A

Abstract

A dredging and damping device for a coking organic wastewater treatment pipeline belongs to the technical field of coking organic wastewater treatment pipeline equipment and is used for dredging and damping the coking organic wastewater pipeline. The technical proposal is as follows: the motor is arranged outside the wastewater treatment pipeline, the rotating shaft is arranged inside the wastewater treatment pipeline, the blades are arranged on the rotating shaft, the motor is connected with the rotating shaft, the blades can be driven to rotate by the motor through the rotating shaft, and the blades are opened by a large enough angle under the action of centrifugal force, so that impurities in a larger range can be cleaned; the vibration conducting sleeve and the vibration damping block are arranged outside the wastewater treatment pipeline, the vibration conducting sleeve can conduct vibration of the wastewater treatment pipeline to the vibration damping block, and the vibration damping block is used for reducing the vibration, so that the vibration of the wastewater treatment pipeline is effectively reduced. The invention can effectively dredge the wastewater treatment pipeline, simultaneously reduces the vibration of the wastewater treatment pipeline and prolongs the service life of the wastewater treatment pipeline.

Description

Dredging and damping device for coking organic wastewater treatment pipeline

Technical Field

The invention relates to a device for treating a pipeline of coking organic wastewater, belonging to the technical field of coking organic wastewater treatment pipeline equipment.

Background

The coking organic wastewater is typical toxic organic wastewater difficult to degrade, mainly from production water and steam condensation wastewater in the primary cooling and coking production process of coke oven gas, has great influence on environmental pollution, and is usually discharged after being treated by a pipeline device in the later stage. Because coking organic wastewater contains a lot of impurities, the coking organic wastewater is easy to form accumulation in a wastewater treatment pipeline to cause pipeline blockage, the final discharge is affected, and in the water flow process, the pipeline can also generate certain vibration, so that the pipeline is easy to damage. At present, a manual dredging method is generally adopted for the treatment of coking organic wastewater to block a pipeline, and the manual dredging has a plurality of defects. Firstly, the manual dredging is time-consuming and labor-consuming, so that the number of workers is increased, and the labor intensity of the workers is also increased; secondly, the coking organic wastewater contains a large amount of harmful impurities, harmful gas can be emitted, the health of workers can be endangered in the manual dredging process, and serious potential safety hazards exist; finally, the manual dredging is carried out in a state that the pipeline is opened, so that the wastewater easily flows out, and serious environmental pollution is caused. To date, there is no particularly effective solution to the problems of blockage and vibration damage of coked organic wastewater treatment pipelines, and related enterprises and technicians are urgently required to solve.

Disclosure of Invention

The invention aims to solve the technical problem of providing the dredging and damping device for the coking organic wastewater treatment pipeline, which can effectively dredge the coking organic wastewater treatment pipeline, reduce the workload and labor intensity of workers for dredging the pipeline, prevent the pipeline from being blocked, avoid affecting the final discharge, reduce the vibration of the pipeline and prolong the service life of the pipeline.

The technical scheme for solving the technical problems is as follows:

the utility model provides a mediation damping device of coking organic waste water treatment pipeline, its pull throughs includes the motor, vertical axis of rotation, the horizontal axis of rotation, a pair of bevel gear, the blade, axis of rotation bracing piece and filter screen, the motor is installed in waste water treatment pipeline outside, be located the downstream side of waste water treatment pipeline drain, the motor shaft is perpendicular relative with the central axis of waste water treatment pipeline, the motor shaft is connected through the shaft coupling with vertical axis of rotation, the pipe wall of waste water treatment pipeline is passed to vertical axis of rotation, the horizontal axis of rotation is placed in waste water treatment pipeline, the central axis coincidence of horizontal axis of rotation and waste water treatment pipeline, the lower extreme of vertical axis of rotation is rotated with the one end of horizontal axis of rotation through a pair of bevel gear and is connected, the middle part of horizontal axis of rotation is by vertical axis of rotation bracing piece fixed stay, a plurality of blades are installed along the length direction of horizontal axis of rotation in the front portion of horizontal axis of rotation, a plurality of blades encircle the circumference equipartition of horizontal axis of rotation, the drain that the filter screen is installed in waste water treatment pipeline is close to one side of motor, the filter screen is located between drain and the axis of rotation bracing piece, the inner wall circumference zonulae of filter screen and waste water treatment pipeline.

Above-mentioned mediation damping device of coking organic waste water treatment pipeline, the axis of rotation bracing piece comprises body of rod and sleeve pipe, and the both ends of body of rod are connected perpendicularly with waste water treatment pipeline's relative both sides inner wall, and the intermediate junction of body of rod has the sleeve pipe of horizontal direction, and sheathed tube axis is rotatable along waste water treatment pipeline's central axis, and sheathed tube hole and horizontal axis of rotation are rotatable fit, and the sleeve pipe suit is in the periphery of horizontal axis of rotation.

Above-mentioned mediation damping device of coking organic wastewater treatment pipeline, the lower extreme of a plurality of blades is connected with the outer wall of horizontal axis of rotation through the rotation axis respectively, and there is the extension spring to be connected with the outer wall of horizontal axis of rotation respectively in the lower part of a plurality of blades, and the extension spring is located the rivers of blade one side of forward direction, and the upper end of extension spring is connected with the blade side, and the lower extreme of extension spring is connected with the outer wall surface of horizontal axis of rotation.

Above-mentioned mediation damping device of coking organic wastewater treatment pipeline, the outside of motor is fixed with the protection casing, and the louvre has been seted up to the inside of protection casing.

Above-mentioned mediation damping device of coking organic waste water treatment pipeline, its damping device includes vibrations conduction sleeve and vibrations damping block, vibrations conduction sleeve encircles waste water treatment pipeline and is connected with waste water treatment pipeline, vibrations damping block connects in vibrations conduction sleeve's downside, the centre of vibrations damping block has the recess, the length of recess is greater than the distance between vibrations conduction sleeve both ends face, vibrations conduction sleeve's periphery stretches into in vibrations damping block's the recess, there are two parallel connecting rods between the bottom surface of recess and vibrations conduction sleeve's the outer wall, the bottom surface and the vibrations conduction sleeve's of recess are connected perpendicularly through the pivot respectively at the both ends of two connecting rods, be connected with lower part damping spring between two connecting rods, the both ends upper portion of vibrations damping block's recess has both sides damping spring and vibrations conduction sleeve's both ends face to be connected perpendicularly respectively.

Above-mentioned mediation damping device of coking organic waste water treatment pipeline, vibrations conduction sleeve's hole diameter is greater than waste water treatment pipeline's external diameter, and vibrations conduction sleeve's both ends face inwards is connected with waste water treatment pipeline outer wall respectively, has the clearance between vibrations conduction sleeve's hole and the waste water treatment pipeline's the outer wall.

The beneficial effects of the invention are as follows:

according to the invention, the motor is arranged outside the wastewater treatment pipeline, the rotating shaft is arranged inside the wastewater treatment pipeline, the blades are arranged on the rotating shaft, the motor is connected with the rotating shaft, the blades can be driven to rotate by the rotating shaft, and the blades are opened by a large enough angle under the action of centrifugal force, so that impurities in a larger range can be cleaned, the impurities on one side of the filter screen are discharged through the sewage outlet, and the wastewater is smoothly discharged after being treated by the filter screen; according to the invention, the vibration conduction sleeve and the vibration damping block are arranged outside the wastewater treatment pipeline, when the wastewater treatment pipeline vibrates, the vibration conduction sleeve is driven to vibrate, the vibration conduction sleeve is conducted to the vibration damping block, and the vibration damping block is used for damping vibration, so that the vibration of the wastewater treatment pipeline is effectively reduced.

The invention is the initiative of the coking organic wastewater treatment pipeline, can effectively dredge the wastewater treatment pipeline, solves the problem that the traditional coking organic wastewater treatment pipeline is easy to block, and reduces the workload and labor intensity of staff for dredging the pipeline. The invention reduces the vibration of the waste water treatment pipeline and prolongs the service life of the waste water treatment pipeline.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the present invention;

FIG. 3 is a schematic view of the installation structure of the rotating shaft support rod;

fig. 4 is an enlarged schematic view of a portion at a of fig. 1.

The figures are labeled as follows: the sewage treatment device comprises a sewage treatment pipeline 1, a sewage outlet 2, a filter screen 3, a motor 4, a vertical rotating shaft 5, a horizontal rotating shaft 6, a bevel gear 7, blades 8, a rotating shaft supporting rod 9, a sleeve 10, a rotating shaft 11, a tension spring 12, a vibration transmission sleeve 13, a vibration damping block 14, a groove 15, a connecting rod 16, a rotating shaft 17, a lower damping spring 18, two side damping springs 19, a protective cover 20 and a radiating hole 21.

Description of the embodiments

The device comprises the dredging device and the damping device, wherein the dredging device can effectively dredge the waste water treatment pipeline, solves the problem that the existing coking organic waste water treatment pipeline is easy to block, and reduces the workload and labor intensity of staff for dredging the pipeline; the shock-absorbing device can reduce the shock of the wastewater treatment pipeline and prolong the service life of the wastewater treatment pipeline.

The dredging device comprises a motor 4, a vertical rotating shaft 5, a horizontal rotating shaft 6, a pair of bevel gears 7, rotating blades 8, a rotating shaft supporting rod 9 and a filter screen 3.

Fig. 1 and 2 show that the motor 4 is installed outside the wastewater treatment pipe 1 at the downstream side of the sewage outlet 2 of the wastewater treatment pipe 1. The motor shaft is vertically opposite to the central axis of the wastewater treatment pipeline 1, the motor shaft is connected with a vertical rotating shaft 5 through a coupler, the vertical rotating shaft 5 penetrates through the pipe wall of the wastewater treatment pipeline 1, a horizontal rotating shaft 6 is placed in the wastewater treatment pipeline 1, the horizontal rotating shaft 6 coincides with the central axis of the wastewater treatment pipeline 1, and the lower end of the vertical rotating shaft 5 is rotationally connected with one end of the horizontal rotating shaft 6 through a pair of bevel gears 7. The motor 4 drives the vertical rotating shaft 5 to rotate, and the vertical rotating shaft 5 drives the horizontal rotating shaft 6 to rotate through the bevel gear 7.

Fig. 1 and 3 show that the middle part of the horizontal rotating shaft 6 is fixedly supported by a vertical rotating shaft supporting rod 9, the rotating shaft supporting rod 9 consists of a rod body and a sleeve 10, two ends of the rod body are vertically connected with the inner walls of two opposite sides of the wastewater treatment pipeline 1, the sleeve 10 in the horizontal direction is connected in the middle of the rod body, the axis of the sleeve 10 is along the central axis of the wastewater treatment pipeline 1, an inner hole of the sleeve 10 is in rotatable fit with the horizontal rotating shaft 6, the sleeve 10 is sleeved on the periphery of the horizontal rotating shaft 6, and the sleeve 10 provides support for the horizontal rotating shaft 6, so that the horizontal rotating shaft 6 can be kept at a horizontal position.

Fig. 1 shows that a plurality of blades 8 are mounted on the front portion of the horizontal rotation shaft 6 along the length direction of the horizontal rotation shaft 6, and the plurality of blades 8 are uniformly distributed around the circumference of the horizontal rotation shaft 6. The lower ends of the blades 8 are respectively connected with the outer wall of the horizontal rotating shaft 6 through rotating shafts 11, tension springs 12 are respectively arranged at the lower parts of the blades 8 and are connected with the outer wall of the horizontal rotating shaft 6, the tension springs 12 are positioned at one side of the blades 8 in the forward direction of water flow, the upper ends of the tension springs 12 are connected with the side surfaces of the blades 8, and the lower ends of the tension springs 12 are connected with the outer wall surface of the horizontal rotating shaft 6. When the horizontal rotating shaft 6 rotates, the blades 8 rotate along with the horizontal rotating shaft 6, the blades 8 are subjected to centrifugal force in rotation, and as the lower ends of the blades 8 are connected with the horizontal rotating shaft 6 through the rotating shaft 11, the upper parts of the blades 8 can be outwards opened, so that impurities can be cleaned in a larger range, when the horizontal rotating shaft 6 stops rotating, the blades 8 can downwards rotate under the action of the tension springs 12, and simultaneously the opened range is further narrowed under the action of water flow, so that the resistance to water flow is reduced.

Fig. 1 shows that the filter screen 3 is arranged on one side of the sewage outlet 2 in the wastewater treatment pipeline 1, which is close to the motor 4, the filter screen 3 is positioned between the sewage outlet 2 and the rotating shaft supporting rod 9, and the periphery of the filter screen 3 is tightly connected with the circumference of the inner wall of the wastewater treatment pipeline 1.

Fig. 1 and 2 show that a protective cover 20 is fixed to the outside of the motor 4, and a heat radiation hole 21 is formed in the protective cover 20. The heat dissipation holes 21 are uniformly distributed in the interior of the protective cover 20 at equal intervals, and the cross-sectional shape of the heat dissipation holes 21 is circular. When the motor 4 operates, the heat dissipation holes 21 can ventilate and dissipate heat, and the service life of the motor 4 is prolonged.

The damping means comprises a shock conducting sleeve 13 and a shock damping mass 14.

Fig. 1 and 4 show that the vibration conduction sleeve 13 surrounds the wastewater treatment pipeline 1, the diameter of an inner hole of the vibration conduction sleeve 13 is larger than the outer diameter of the wastewater treatment pipeline 1, two end faces of the vibration conduction sleeve 13 are respectively connected with the outer wall of the wastewater treatment pipeline 1 inwards, and a gap is reserved between the inner hole of the vibration conduction sleeve 13 and the outer wall of the wastewater treatment pipeline 1.

Fig. 1 and 4 show that a vibration damping block 14 is attached to the underside of the vibration conducting sleeve 13. A groove 15 is arranged in the middle of the vibration attenuation block 14, the length of the groove 15 is larger than the distance between two end faces of the vibration conduction sleeve 13, and the periphery of the vibration conduction sleeve 13 extends into the groove 15 of the vibration attenuation block 14.

Fig. 1 and 4 show that two parallel connecting rods 16 are arranged between the bottom surface of the groove 15 and the outer wall of the vibration transmission sleeve 13, two ends of the two connecting rods 16 are respectively and vertically connected with the bottom surface of the groove 15 and the outer wall of the vibration transmission sleeve 13 through rotating shafts 17, lower damping springs 18 are connected between the two connecting rods 16, and two side damping springs 19 are respectively and vertically connected with two end surfaces of the vibration transmission sleeve 13 at the upper parts of two ends of the groove 15 of the vibration damping block 14.

The vibration conduction sleeve 13 is connected to the outside of the wastewater treatment pipeline 1, the vibration conduction sleeve 13 and the vibration damping block 14 form an elastic structure through the vibration damping springs 19 at two sides, and when the wastewater treatment pipeline 1 vibrates, the vibration conduction sleeve 13 can transfer a part of vibration acting force to the vibration damping springs 19 at two sides. The vibration conduction sleeve 13 and the connecting rod 16 form a rotating structure through the rotating shaft 17, the connecting rod 16 plays a supporting role on the vibration conduction sleeve 13, and meanwhile, the vibration of the vibration conduction sleeve 13 drives the connecting rod 16 to rotate, so that acting force is transferred to the lower damping spring 18.

When the invention is used, the motor 4 is started, the motor 4 drives the horizontal rotating shaft 6 to rotate through the vertical rotating shaft 5 and the bevel gear 7, the blades 8 arranged on the horizontal rotating shaft 6 rotate along with the horizontal rotating shaft 6, and the blades 8 are outwards opened under the action of centrifugal force, so that the blades 8 are opened for a large enough angle, and impurities in a larger range can be cleaned. Impurities can be discharged from the periphery of the filter screen 3 through the sewage outlet 2, so that the problem of blockage of the wastewater treatment pipeline 1 is effectively solved, and wastewater can be smoothly discharged after being treated by the filter screen 3. The wastewater treatment pipeline 1 is connected with the vibration damping block 14 through the vibration conduction sleeve 13, when the wastewater treatment pipeline 1 vibrates, the vibration conduction sleeve 13 is driven to vibrate, and the vibration received by the vibration conduction sleeve 13 is transferred to the lower damping springs 18 and the damping springs 19 on the two sides, so that the vibration is reduced, the vibration of the wastewater treatment pipeline 1 is reduced, and the service life of the wastewater treatment pipeline 1 can be prolonged.

One embodiment of the invention is as follows:

the diameter of the wastewater treatment pipeline 1 is 135mm;

the diameter of the sewage outlet 2 is 65mm;

the model of the motor 4 is Y-160M 1-2;

the length of the vertical rotating shaft 5 is 60mm, and the diameter is 15mm;

the length of the horizontal rotating shaft 6 is 150mm, and the diameter is 20mm;

the diameter of the bevel gear 7 is 25mm;

the length of the blade 8 is 10mm and the width is 4mm;

the diameter of the rotating shaft supporting rod 9 is 135mm, and the diameter of the inner hole of the sleeve 10 is 20mm;

the length of the vibration transmission sleeve 13 is 85mm, the outer diameter is 30mm, and the inner diameter is 15mm;

the vibration attenuation block 14 has a length of 30mm, a width of 25mm and a height of 20mm;

the length of the groove 15 is 50mm and the depth is 45mm;

the length of the connecting rod 16 is 20mm and the diameter is 5mm;

the length of the lower damping spring 18 is 15mm and the diameter is 8mm;

the length of the damping springs 19 on the two sides is 15mm, and the diameter is 8mm;

the height of the protective cover 20 is 150mm, the length is 100mm, and the width is 100mm;

the diameter of the heat dissipation hole 21 is 5mm.

The above examples are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Various modifications and improvements of the technical scheme of the present invention will fall within the protection scope of the present invention without departing from the design concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims

1. A dredging and damping device for a coking organic wastewater treatment pipeline is characterized in that: the dredging device comprises a motor (4), a vertical rotating shaft (5), a horizontal rotating shaft (6), a pair of bevel gears (7), blades (8), a rotating shaft supporting rod (9) and a filter screen (3), wherein the motor (4) is arranged outside a wastewater treatment pipeline (1), is positioned at the downstream side of a sewage outlet (2) of the wastewater treatment pipeline (1), a motor shaft is vertically opposite to the central axis of the wastewater treatment pipeline (1), the motor shaft is connected with the vertical rotating shaft (5) through a coupler, the vertical rotating shaft (5) penetrates through the pipe wall of the wastewater treatment pipeline (1), the horizontal rotating shaft (6) is arranged in the wastewater treatment pipeline (1), the horizontal rotating shaft (6) coincides with the central axis of the wastewater treatment pipeline (1), the lower end of the vertical rotating shaft (5) is rotationally connected with one end of the horizontal rotating shaft (6) through the pair of bevel gears (7), the middle part of the horizontal rotating shaft (6) is fixedly supported by the vertical supporting rod (9), the front part of the horizontal rotating shaft (6) is provided with a plurality of blades (8) along the length direction of the horizontal rotating shaft (6), the blades (8) encircle the circumference of the horizontal rotating shaft (6), the horizontal rotating shaft (3) is uniformly distributed on one side of the wastewater treatment pipeline (4) close to the wastewater outlet (4) of the wastewater treatment pipeline (1), the filter screen (3) is positioned between the sewage outlet (2) and the rotating shaft supporting rod (9), and the periphery of the filter screen (3) is tightly connected with the circumference of the inner wall of the wastewater treatment pipeline (1);

its damping device includes vibrations conduction sleeve (13) and vibrations decay piece (14), vibrations conduction sleeve (13) encircle waste water treatment pipeline (1) and are connected with waste water treatment pipeline (1), the downside at vibrations conduction sleeve (13) is connected to vibrations decay piece (14), there is recess (15) in the centre of vibrations decay piece (14), the length of recess (15) is greater than the distance between vibrations conduction sleeve (13) both ends face, in recess (15) of vibrations decay piece (14) are stretched into to the lower part of vibrations conduction sleeve (13), there are connecting rod (16) of two parallels between the outer wall of the bottom surface of recess (15) and vibrations conduction sleeve (13), the both ends of two connecting rod (16) are connected perpendicularly through the bottom surface of pivot (17) and recess (15) and the outer wall of vibrations conduction sleeve (13) respectively, be connected with lower part damping spring (18) between two connecting rod (16), the both ends upper portion of recess (15) of vibrations decay piece (14) has both sides damping spring (19) and vibrations conduction sleeve (13) both ends face to be connected perpendicularly.

2. The dredging and damping device for a coking organic wastewater treatment pipeline according to claim 1, wherein: the rotary shaft supporting rod (9) consists of a rod body and sleeves (10), two ends of the rod body are vertically connected with inner walls of two opposite sides of the wastewater treatment pipeline (1), the sleeves (10) in the horizontal direction are connected in the middle of the rod body, the axes of the sleeves (10) are along the central axis of the wastewater treatment pipeline (1), the inner holes of the sleeves (10) are in rotatable fit with the horizontal rotary shaft (6), and the sleeves (10) are sleeved on the periphery of the horizontal rotary shaft (6).

3. The dredging and damping device for a coking organic wastewater treatment pipeline according to claim 1, wherein: the lower extreme of a plurality of blades (8) is connected with the outer wall of horizontal axis of rotation (6) through rotation axis (11) respectively, and the lower part of a plurality of blades (8) has extension spring (12) to be connected with the outer wall of horizontal axis of rotation (6) respectively, and extension spring (12) are located one side of the rivers forward direction of blade (8), and the upper end of extension spring (12) is connected with blade (8) side, and the lower extreme of extension spring (12) is connected with the outer wall surface of horizontal axis of rotation (6).

4. The dredging and damping device for a coking organic wastewater treatment pipeline according to claim 1, wherein: the outside of motor (4) is fixed with protection casing (20), and heat dissipation hole (21) have been seted up to the inside of protection casing (20).

5. The dredging and damping device for a coking organic wastewater treatment pipeline according to claim 1, wherein: the diameter of the inner hole of the vibration conduction sleeve (13) is larger than the outer diameter of the wastewater treatment pipeline (1), the two end faces of the vibration conduction sleeve (13) are respectively connected with the outer wall of the wastewater treatment pipeline (1) inwards, and a gap is reserved between the inner hole of the vibration conduction sleeve (13) and the outer wall of the wastewater treatment pipeline (1).