CN213596948U - Slag dragging device for sewage treatment - Google Patents

Abstract

The utility model discloses a slag removing device for sewage treatment, which comprises an equipment frame, a hoisting mechanism, a slag removing control mechanism, a slag removing mechanism and a slag pressing mechanism, wherein the slag removing mechanism comprises a left slag removing bucket arranged on the movable end of the slag removing control mechanism, a right slag removing bucket arranged on the movable end of the slag removing control mechanism and a rotating shaft for rotationally connecting the left slag removing bucket and the right slag removing bucket, the movable end of the slag removing control mechanism pulls the left slag removing bucket and the right slag removing bucket to rotate so as to control the left slag removing bucket and the right slag removing bucket to butt against slag or open slag removal, the lower parts of the left slag removing bucket and the right slag removing bucket are provided with a drainage structure, the slag pressing mechanism comprises a pushing device arranged on the movable end of the hoisting mechanism and a slag pressing plate arranged on the movable end of the pushing device, the slag pressing plate is pushed downwards by the pushing device so as to extend into the butt-against hollow cavity of the left slag removing bucket and the right slag removing bucket to extrude garbage, so that the sewage in the garbage is accelerated to be separated out and discharged from the drainage structure to the involutory cavity.

Description

Slag dragging device for sewage treatment

Technical Field

The utility model relates to a sewage treatment device field especially relates to a sewage treatment is with dragging for sediment device.

Background

The floating garbage on the surface of the water in a water inlet channel of the sewage treatment system is more, and the floating garbage contains solid substances such as useful wood, branches, plastic products and the like, and also contains a large amount of oil stains and humic substances. At present, manual fishing by a bailer and a bucket is mostly adopted, but the stock of floating garbage at the upstream of a water inlet channel is large, the floating garbage is continuously generated all the time, the fished floating garbage is mixed with a large amount of sewage, the difficulty of subsequent garbage treatment is increased, the manual fishing of the floating garbage is low in efficiency, and meanwhile, certain dangerousness exists.

SUMMERY OF THE UTILITY MODEL

The utility model provides a sewage treatment is with dragging for sediment device, its purpose does not solve current adoption and drags for the technical problem that water body floating garbage mixes a large amount of sewage and inefficiency in the water inlet channel of sewage treatment system.

According to one aspect of the utility model, a slag salvaging device for sewage treatment is provided, which is used for salvaging floating garbage in a water inlet channel of a sewage treatment system, and comprises an equipment frame arranged above the water inlet channel, a hoisting mechanism arranged on the equipment frame, a slag salvaging control mechanism arranged on the movable end of the hoisting mechanism, a slag salvaging mechanism arranged on the movable end of the slag salvaging control mechanism and a slag pressing mechanism arranged on the movable end of the hoisting mechanism, wherein the slag salvaging mechanism comprises a left slag salvaging bucket arranged on the movable end of the slag salvaging control mechanism, a right slag salvaging bucket arranged on the movable end of the slag salvaging control mechanism and a rotating shaft used for rotationally connecting the left slag salvaging bucket and the right slag salvaging bucket, the left slag salvaging bucket and the right slag salvaging bucket are controlled to be closed to the slag salvaging bucket or open to remove slag by pulling the movable end of the slag salvaging control mechanism to rotate, the lower parts of the left slag salvaging hopper and the right slag salvaging hopper are provided with a drainage structure, the slag pressing mechanism comprises a pushing device arranged on the movable end of the hoisting mechanism and a slag pressing plate arranged on the movable end of the pushing device, and the slag pressing plate is pushed downwards by the pushing device to extend into the involutive cavity of the left slag salvaging hopper and the right slag salvaging hopper to extrude garbage, so that the sewage in the garbage is separated out at an accelerated speed and is discharged from the drainage structure to the involutive cavity.

Further, the drainage arrangement comprises drainage holes and/or drainage channels.

Furthermore, the pushing device comprises two pushing hydraulic cylinders which are arranged on the movable end of the hoisting mechanism in the vertical direction and are respectively positioned on two sides of the rotating shaft, and the slag pressing plate is arranged on the movable ends of the two pushing hydraulic cylinders and is positioned below the rotating shaft.

Furthermore, the slag salvaging control mechanism comprises a first lifting device arranged at the movable end of the hoisting mechanism, a left connecting rod with two ends respectively hinged to the movable end of the hoisting mechanism and the left slag salvaging bucket, and a right connecting rod with two ends respectively hinged to the movable end of the hoisting mechanism and the right slag salvaging bucket, wherein the movable end of the first lifting device is connected to the middle position of the rotating shaft.

Furthermore, first elevating gear is first electric hoist, and the middle part position of pivot is installed first pulley, and the output of first electric hoist passes through wire rope and is connected with first pulley.

Furthermore, the slag dragging control mechanism also comprises a left reinforcing rod connected to the left connecting rod and a right reinforcing rod connected to the right connecting rod.

Further, hoisting machine constructs including installing in the second electric hoist of equipment rack and being used for installing the connecting plate of dragging for sediment control mechanism and pressing sediment mechanism, installs the second pulley on the connecting plate, and the output of second electric hoist passes through wire rope and is connected with the second pulley.

Furthermore, the equipment frame is provided with a sliding rail arranged along the width direction of the water inlet channel, a sliding seat connected with the sliding rail in a sliding manner, and a linear motor used for driving the sliding seat to slide on the sliding rail, and the first electric hoist is arranged on the sliding seat.

The utility model discloses following beneficial effect has:

the utility model discloses a slag salvaging device for sewage treatment, equipment rack sets up above the channel of intaking, hang slag salvaging control mechanism and slag salvaging mechanism in the water surface department of the channel of intaking through hoisting machine, pull left slag salvaging fill and right slag salvaging fill to rotate so as to control left slag salvaging fill and right slag salvaging fill to closing and salvaging the sediment through the expansion end of slag salvaging control mechanism, and then push down the pressing plate to stretch into closing left slag salvaging fill and right slag salvaging fill and extrude rubbish through thrust unit, so as to discharge the sewage in the rubbish from the drainage structure of left slag salvaging fill and right slag salvaging fill, then hang slag salvaging control mechanism and closing left slag salvaging fill and right slag salvaging fill in the rubbish collection place through hoisting machine, pull left slag salvaging fill and right slag salvaging fill to rotate through the expansion end of slag salvaging control mechanism to control left slag salvaging fill and right slag salvaging fill to open and arrange the sediment, thereby will leak the rubbish of removing and discharge in the rubbish collection place, the difficulty of subsequent garbage treatment is reduced, and the garbage fishing efficiency is high.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic structural view of a slag removing device for sewage treatment according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a slag removing device for sewage treatment according to a preferred embodiment of the present invention;

fig. 3 is a schematic structural view of a slag dragging device for sewage treatment according to a preferred embodiment of the present invention.

Illustration of the drawings:

A. a water inlet channel; B. a waste collection site; 1. an equipment rack; 2. a hoisting mechanism; 21. a second electric hoist; 22. a connecting plate; 23. a linear motor; 24. a slide rail; 3. a slag-dragging control mechanism; 31. a first electric hoist; 32. a left connecting rod; 33. a right connecting rod; 4. a slag dragging mechanism; 41. a left slag salvaging hopper; 42. a right slag salvaging hopper; 43. a rotating shaft; 5. a slag pressing mechanism; 51. pushing the hydraulic cylinder; 52. and (5) pressing a slag plate.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

FIG. 1 is a schematic structural view of a slag removing device for sewage treatment according to a preferred embodiment of the present invention; FIG. 2 is a schematic structural view of a slag removing device for sewage treatment according to a preferred embodiment of the present invention; fig. 3 is a schematic structural view of a slag dragging device for sewage treatment according to a preferred embodiment of the present invention.

As shown in fig. 1, 2 and 3, the slag fishing device for sewage treatment of the present embodiment is used for fishing floating garbage in water body in a water inlet channel a of a sewage treatment system, and comprises an equipment frame 1 erected above the water inlet channel a, a hoisting mechanism 2 installed on the equipment frame 1, a slag fishing control mechanism 3 installed on a movable end of the hoisting mechanism 2, a slag fishing mechanism 4 installed on a movable end of the slag fishing control mechanism 3, and a slag pressing mechanism 5 installed on a movable end of the hoisting mechanism 2, wherein the slag fishing mechanism 4 comprises a left slag fishing bucket 41 installed on a movable end of the slag fishing control mechanism 3, a right slag bucket 42 installed on a movable end of the slag fishing control mechanism 3, and a rotating shaft 43 for rotatably connecting the left slag fishing bucket 41 and the right slag bucket 42, and the left slag fishing bucket 41 and the right slag fishing bucket 42 are pulled to rotate by the movable end of the slag fishing control mechanism 3 to control the left slag fishing bucket 41 and the right slag bucket 42 or open the left slag fishing bucket 42 to discharge, the lower parts of the left slag salvaging bucket 41 and the right slag salvaging bucket 42 are provided with a water drainage structure, the slag pressing mechanism 5 comprises a pushing device arranged on the movable end of the hoisting mechanism 2 and a slag pressing plate 52 arranged on the movable end of the pushing device, and the pushing device pushes the slag pressing plate 52 downwards so that the slag pressing plate 52 extends into the involutory cavity of the left slag salvaging bucket 41 and the right slag salvaging bucket 42 to extrude the garbage, so that the sewage in the garbage is separated out in an accelerated manner and is discharged out of the involutory cavity from the water drainage structure. The utility model discloses a slag salvaging device for sewage treatment, equipment rack 1 sets up above water inlet channel A, hoisting machine constructs 2 through hoisting machine and hangs slag salvaging control mechanism 3 and slag salvaging mechanism 4 in water surface department in water inlet channel A, drag left slag salvaging fill 41 and right slag salvaging fill 42 rotation through the expansion end of slag salvaging control mechanism 3 to control left slag salvaging fill 41 and right slag salvaging fill 42 to closing and salvaging the sediment, and then push down through thrust unit and push down slag pressing plate 52 and stretch into closing left slag salvaging fill 41 and right slag salvaging fill 42 and extrude rubbish, so that the sewage in the rubbish is discharged from the drainage structure, then drag slag control mechanism 3 and closing left slag salvaging fill 41 and right slag salvaging fill 42 to hang in rubbish collection place B department through hoisting machine constructs 2, drag left slag salvaging fill 41 and right slag salvaging fill 42 to rotate through the expansion end of slag salvaging control mechanism 3 to control left slag salvaging fill 41 and right slag salvaging fill 42 to open and arrange the sediment, therefore, the garbage which is leaked to remove the sewage is discharged to the garbage collecting place B, the difficulty of subsequent garbage treatment is reduced, and the garbage fishing efficiency is high. The electric cabinet of the slag dragging device for sewage treatment is arranged on one side of the water inlet channel, and the garbage collection site B is positioned on the other side of the water inlet channel.

The drainage arrangement includes drainage holes and/or drainage channels. Alternatively, the drainage is configured as a gap left when the left slag scoop 41 and the right slag scoop 42 are butted. Alternatively, the left slag salvaging bucket 41 and the right slag salvaging bucket 42 are provided with tooth claws at the front ends, and the drainage structure is that a drainage hole or a drainage groove is formed when the tooth claws are buckled with the tooth claws.

As shown in fig. 1 and 2 and fig. 3, the pushing device comprises two pushing hydraulic cylinders 51 which are installed on the movable end of the hoisting mechanism 2 along the vertical direction and are respectively located on two sides of the rotating shaft 43, and a slag pressing plate 52 is installed on the movable ends of the two pushing hydraulic cylinders 51 and is located below the rotating shaft 43. The left slag salvaging bucket 41 and the right slag salvaging bucket 42 extend into the water body in the water inlet channel A by controlling the hoisting mechanism 2, then the left slag salvaging bucket 41 and the right slag salvaging bucket 42 are oppositely combined to salvage slag by controlling the slag salvaging control mechanism 3, then the oppositely combined left slag salvaging bucket 41 and the right slag salvaging bucket 42 extend out of the water body in the water inlet channel A by controlling the hoisting mechanism 2, and then the piston rods of the two pushing hydraulic cylinders 51 are controlled to push the slag pressing plate 52 downwards to extrude the garbage in the oppositely combined left slag salvaging bucket 41 and the right slag salvaging bucket 42, so that a large amount of sewage in the garbage leaks back into the water inlet channel A from the drainage structures at the lower parts of the left slag salvaging bucket 41 and the right slag salvaging bucket 42. Alternatively, the pushing cylinder 51 is installed below the rotating shaft 43.

As shown in fig. 1, 2 and 3, the slag-off control mechanism 3 includes a first lifting device installed at the movable end of the hoisting mechanism 2, a left connecting rod 32 with two ends respectively hinged to the movable end of the hoisting mechanism 2 and the left slag-off bucket 41, and a right connecting rod 33 with two ends respectively hinged to the movable end of the hoisting mechanism 2 and the right slag-off bucket 42, and the movable end of the first lifting device is connected to the middle position of the rotating shaft 43. The movable end of the first lifting device, the rotating shaft 43, the left connecting rod 32 and the right connecting rod 33 form a link structure. The rotating shaft 43 is driven to ascend through the movable end of the first lifting device, so that the left slag salvaging hopper 41 and the right slag salvaging hopper 42 rotate outwards to open for slag discharge. The rotating shaft 43 is driven to descend by the movable end of the first lifting device, so that the left slag salvaging hopper 41 and the right slag salvaging hopper 42 rotate inwards to be involuted with the slag. In this embodiment, the first lifting device is a first electric hoist 31, a first pulley is installed at the middle position of the rotating shaft 43, and the output end of the first electric hoist 31 is connected with the first pulley through a steel wire rope. One end of the steel wire rope is fixed on the fixing seat of the first electric hoist 31, the other end of the steel wire rope winds around the first pulley and then is fixed on the output end of the first electric hoist 31, and the rotating shaft 43 is pulled to ascend or descend through the output end of the first electric hoist 31. Optionally, the first lifting device is a hydraulic lifting cylinder.

As shown in fig. 1, 2 and 3, a plurality of left connecting rods 32 are hinged between the movable end of the hoisting mechanism 2 and the left slag salvaging bucket 41, a plurality of right connecting rods 33 are hinged between the movable end of the hoisting mechanism 2 and the right slag salvaging bucket 41, and the slag salvaging control mechanism 3 further comprises a left reinforcing rod connected to the left connecting rod 32 and a right reinforcing rod connected to the right connecting rod 33. In this embodiment, the movable end of the hoisting mechanism 2 and the left slag bucket 41 are connected by two left connecting rods 32, and the two left connecting rods 32 are connected by three left reinforcing rods, so as to prevent the left connecting rods 32 from loosening from the movable end of the hoisting mechanism 2 and/or the left slag bucket 41. The movable end of the hoisting mechanism 2 and the right slag salvaging bucket 42 are connected through two right connecting rods 33, and a plurality of right connecting rods 33 are connected through three right reinforcing rods, so that the right connecting rods 33 are prevented from loosening from the movable end of the hoisting mechanism 2 and/or the right slag salvaging bucket 42. Optionally, two pushing cylinders 51 are hinged on the left and right reinforcement bars, respectively.

As shown in fig. 1, 2 and 3, the hoisting mechanism 2 includes a second electric hoist 21 mounted on the equipment rack 1 and a connecting plate 22 for mounting the slag salvaging control mechanism 3 and the slag pressing mechanism 5, a second pulley is mounted on the connecting plate 22, and an output end of the second electric hoist 21 is connected with the second pulley through a steel wire rope. One end of the steel wire rope is fixed on the fixing seat of the second electric hoist 21, the other end of the steel wire rope is connected with the output end of the second electric hoist 21 by winding the second pulley, and the connecting plate 22 is pulled to ascend or descend by the output end of the second electric hoist 21. The left and right connecting rods 32 and 33 are hinged to the lower surface of the connecting plate 22. The first electric hoist 31 and the pushing hydraulic cylinder 51 are both mounted on the lower surface of the connecting plate 22. The equipment frame 1 is provided with a sliding rail 24 arranged along the width direction of the water inlet channel A, a sliding seat connected with the sliding rail 24 in a sliding manner, and a linear motor 23 used for driving the sliding seat to slide on the sliding rail 24, wherein the first electric hoist 31 is arranged on the sliding seat. The sliding seat is driven by the linear motor 23 to slide on the sliding rail 24, so that the left slag salvaging hopper 41 and the right slag salvaging hopper 42 which are closed are driven to move to a garbage collection place B at the bank side, and then the left slag salvaging hopper 41 and the right slag salvaging hopper 42 which are closed are opened by the slag salvaging control mechanism 3, and garbage which is leaked with a large amount of sewage is discharged to the garbage collection place B.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A slag dragging device for sewage treatment is used for dragging floating garbage in a water body in a water inlet channel (A) of a sewage treatment system and is characterized in that,

the slag dragging device for sewage treatment comprises an equipment frame (1) arranged above a water inlet channel (A), a hoisting mechanism (2) arranged on the equipment frame (1), a slag dragging control mechanism (3) arranged on the movable end of the hoisting mechanism (2), a slag dragging mechanism (4) arranged on the movable end of the slag dragging control mechanism (3) and a slag pressing mechanism (5) arranged on the movable end of the hoisting mechanism (2),

the slag salvaging mechanism (4) comprises a left slag salvaging bucket (41) arranged at the movable end of the slag salvaging control mechanism (3), a right slag salvaging bucket (42) arranged at the movable end of the slag salvaging control mechanism (3) and a rotating shaft (43) used for rotationally connecting the left slag salvaging bucket (41) and the right slag salvaging bucket (42), the movable end of the slag salvaging control mechanism (3) pulls the left slag salvaging bucket (41) and the right slag salvaging bucket (42) to rotate so as to control the left slag salvaging bucket (41) and the right slag salvaging bucket (42) to oppositely salvage slag or open for deslagging,

the lower parts of the left slag salvaging hopper (41) and the right slag salvaging hopper (42) are provided with a drainage structure, the slag pressing mechanism (5) comprises a pushing device arranged on the movable end of the hoisting mechanism (2) and a slag pressing plate (52) arranged on the movable end of the pushing device, and the slag pressing plate (52) is pushed downwards by the pushing device to enable the slag pressing plate (52) to stretch into the involutive cavity of the left slag salvaging hopper (41) and the right slag salvaging hopper (42) to extrude garbage, so that the sewage in the garbage is separated out in an accelerated manner and is discharged out of the involutive cavity from the drainage structure.

2. The slag salvaging apparatus for sewage treatment as claimed in claim 1,

the drainage arrangement includes drainage holes and/or drainage channels.

3. The slag salvaging apparatus for sewage treatment as claimed in claim 1,

the pushing device comprises two pushing hydraulic cylinders (51) which are arranged on the movable end of the hoisting mechanism (2) along the vertical direction and are respectively positioned on two sides of the rotating shaft (43), and a slag pressing plate (52) is arranged on the movable ends of the two pushing hydraulic cylinders (51) and is positioned below the rotating shaft (43).

4. The slag salvaging apparatus for sewage treatment as claimed in claim 1,

the slag salvaging control mechanism (3) comprises a first lifting device arranged on the movable end of the hoisting mechanism (2), a left connecting rod (32) with two ends respectively hinged to the movable end of the hoisting mechanism (2) and the left slag salvaging bucket (41), and a right connecting rod (33) with two ends respectively hinged to the movable end of the hoisting mechanism (2) and the right slag salvaging bucket (42), wherein the movable end of the first lifting device is connected to the middle position of a rotating shaft (43).

5. The slag salvaging device for sewage treatment as claimed in claim 4,

the first lifting device is a first electric hoist (31), a first pulley is installed in the middle of the rotating shaft (43), and the output end of the first electric hoist (31) is connected with the first pulley through a steel wire rope.

6. The slag salvaging device for sewage treatment as claimed in claim 4,

the slag-dragging control mechanism (3) also comprises a left reinforcing rod connected to the left connecting rod (32) and a right reinforcing rod connected to the right connecting rod (33).

7. The slag salvaging apparatus for sewage treatment as claimed in claim 1,

the hoisting mechanism (2) comprises a second electric hoist (21) arranged on the equipment frame (1) and a connecting plate (22) used for installing the slag dragging control mechanism (3) and the slag pressing mechanism (5), a second pulley is arranged on the connecting plate (22), and the output end of the second electric hoist is connected with the second pulley through a steel wire rope.

8. The slag salvaging device for sewage treatment as claimed in claim 7,

the equipment frame (1) is provided with a sliding rail (24) arranged along the width direction of the water inlet channel (A), a sliding seat connected with the sliding rail (24) in a sliding manner and a linear motor (23) used for driving the sliding seat to slide on the sliding rail (24), and the first electric hoist (31) is arranged on the sliding seat.

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