CN220266482U - Ecological intercepting device is administered to river course - Google Patents

Abstract

The utility model discloses an ecological interception device for river treatment, which belongs to the technical field of river treatment and aims at the problem of lower cleaning efficiency when intercepting, lifting and collecting river impurities through an interception filter plate and an interception frame, and the ecological interception device comprises two symmetrically distributed track bases, an interception filter plate, a lifting rod, a mounting frame, an interception frame, a synchronous rotating assembly and a discharging assembly; according to the utility model, through the arrangement of the synchronous rotating assembly, the distance between the top of the interception frame and the interception filter plate is increased, so that the convenience of collecting impurities which float between the two interception frames and fall into the interception frame is improved, the interception filter plate and the interception frame are driven by an external lifting device to synchronously lift, the convenience of collecting impurities which fall into the interception frame is further improved, the impurities in the interception frame are subjected to spiral discharging treatment by the spiral auger, and the convenience of centralized cleaning of the impurities in a river channel is further improved, so that the treatment efficiency of the impurities in the river channel is greatly improved.

Description

Ecological intercepting device is administered to river course

Technical Field

The utility model belongs to the technical field of river channel treatment, and particularly relates to an ecological interception device for river channel treatment.

Background

The ecological river management means that in a river land control line, on the basis of meeting the basic functions of the river, such as flood control, drainage, diversion and the like, the recovery of a river water ecological system is promoted by manual restoration measures, and the activity of a healthy, complete and stable river water ecological system is constructed; the interception device mainly uses a filtration system as a dominant main interception program, and a filter screen in the filtration system is generally used for intercepting river channel treatment.

In actual use, the traditional river course treatment interception device intercepts impurities in a river course mostly through the interception component which is connected with the manual net-scattering fishing or the river dam, when the interception component intercepts and collects impurities in the river course, the interception component intercepts and collects impurities, the interception component generally intercepts the impurities through the interception filter plate, the outer end is fastened and provided with the interception frame to collect the impurities, and then the interception frame is lifted by the interception screen, so that the interception frame is lifted and transferred to treat the impurities, the mode is effective to collect and treat the impurities in the river course in a concentrated manner, but the impurities in the river course are located on one side far away from workers, so that the impurity cleaning is inconvenient due to the too far distance, and the efficiency of the interception device for treating the intercepted and collected river course impurities is affected.

Therefore, an ecological interception device for river management is needed, and the problem that the cleaning efficiency is low when the interception filter plate and the interception frame intercept and lift and collect river impurities in the prior art is solved.

Disclosure of Invention

The utility model aims to provide an ecological interception device for river management, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an ecological arresting gear is administered to river course, includes two track bases that are symmetric distribution, two be provided with the interception filter plate between the track base still include:

the two lifting rods are respectively arranged in the two track bases in a sliding mode and are respectively fixed with side walls of two sides of the interception filter plate, and a plurality of mounting frames which are distributed up and down are fixed on the outer end face of each lifting rod;

the filter plate comprises a plurality of interception frames, wherein each interception frame is arranged between two installation frames positioned at the same height and is rotationally connected with the opposite surface of the two installation frames, the top surface of the interception filter plate is provided with a synchronous rotating assembly matched with the plurality of interception frames, and a discharging assembly is arranged in each interception frame.

In the scheme, it should be noted that the synchronous rotation assembly includes:

the plurality of rotary gears are in one-to-one correspondence with the plurality of mounting frames and are coaxially fixed with the adjacent interception frames, lifting rack rods are jointly and slidably penetrated through the inner walls of the plurality of mounting frames positioned on the same side, and the lifting rack rods are in meshed connection with the adjacent rotary gears;

the two sides of the lifting rod are fixedly connected with the top ends of the lifting rack rods, two symmetrically distributed hydraulic lifting cylinders are fixedly arranged on the top surface of the interception filter plate, the output ends of the two hydraulic lifting cylinders are fixedly connected with the top surface of the lifting rod, and guide pieces matched with the lifting rod are arranged between the two hydraulic lifting cylinders.

It is further worth to say that the guide piece includes a plurality of fixed guide bars that are parallel arrangement and fixed mutually with the interception filter plate top surface, every fixed guide bar all slides and runs through the jacking pole, the top of a plurality of fixed guide bars is fixed with the connecting rod jointly.

It should be further noted that the projection surfaces on both sides of the lifting rod are all in a step shape, both side surfaces of the lifting rod are respectively contacted with the inner surfaces of the two track bases, and both side surfaces of the connecting rod are contacted with the inner surfaces of the two track bases.

As a preferred embodiment, the outfeed assembly comprises:

the discharging channel is arranged on one side wall of the interception frame, a discharging rotating shaft rotatably arranged on the inner wall of the interception frame is arranged above the discharging channel, and a butt joint groove is formed in the outer end surface of the discharging rotating shaft;

and the spiral auger is arranged in the interception frame and is coaxially fixed with the outer surface of the discharging rotating shaft.

As a preferred implementation mode, the side walls on two sides of the interception frame are provided with convex strips which are in fit distribution with the interception filter plates, the interception frame is arranged on a slope surface which is inclined above the spiral auger, and the interception frame is arranged on a circular arc shape below the spiral auger.

Compared with the prior art, the ecological interception device for river channel treatment provided by the utility model at least comprises the following beneficial effects:

(1) Through the setting of a plurality of interception frames for the interception filter plate that is located interception frame department forms dual interception and handles, and form between two adjacent interception frames and drop type and float and be in respectively between the inside of bottom interception frame and two interception frames, improve to a certain extent to the collection and the interception effect of impurity.

(2) Through synchronous rotation assembly's setting for a plurality of interception frames carry out synchronous rotation and handle, thereby increase interception frame top and interception filter plate's interval, thereby improve the impurity that floats between two interception frames and better get into the convenience that interception frame was collected that drops, and drive interception filter plate and interception frame along with external hoisting device and carry out synchronous promotion, further improve the impurity that floats between two interception frames and get into the convenience that interception frame was collected that drops.

(3) Reset drive through synchronous rotating assembly to form extrudees the impurity in the interception frame, drives ejection of compact pivot through external drive arrangement, thereby carries out spiral ejection of compact processing to the impurity in the interception frame through spiral auger, further improves the convenience of concentrating the clearance to river course impurity, thereby improves the treatment effeciency to river course impurity greatly.

(4) The fixed guide rod penetrates through the jacking rod, so that the jacking stability of the jacking rod through the hydraulic lifting cylinder is improved, the connecting rod is arranged, the stability of the lifting treatment of the interception filter plate through the external lifting device can be improved, the lifting movement of the jacking rod can be limited, and in addition, the fixed guide rod and the connecting rod can form the interception treatment higher than the river liquid level.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a partial structure of a discharging rotating shaft and a spiral auger of the utility model;

FIG. 3 is an enlarged schematic view of the area A of FIG. 2 according to the present utility model;

FIG. 4 is a schematic view of a partial structure of a lift rod of the present utility model;

fig. 5 is an enlarged view of the area B of fig. 4 according to the present utility model.

In the figure: 1. a track base; 2. intercepting a filter plate; 3. a lifting rod; 4. a mounting frame; 5. an interception frame; 6. a synchronous rotating assembly; 61. rotating the gear; 62. lifting the rack bar; 63. a lifting rod; 64. a hydraulic lifting cylinder; 65. a guide member; 651. fixing a guide rod; 652. a connecting rod; 7. a discharge assembly; 71. a discharge channel; 72. a discharging rotating shaft; 73. a butt joint groove; 74. spiral auger.

Detailed Description

The utility model is further described below with reference to examples.

Referring to fig. 1-5, the utility model provides an ecological interception device for river channel treatment, which comprises two symmetrically distributed track bases 1, an interception filter plate 2 is arranged between the two track bases 1, and two lifting rods 3 are respectively arranged in the two track bases 1 in a sliding manner and are respectively fixed with two side walls of the interception filter plate 2, the top of the track base 1 is used for installing a lifting device for lifting the interception filter plate 2, so that the interception filter plate 2 is lifted in the track bases 1 through the lifting rods 3, and a plurality of mounting frames 4 which are distributed up and down are fixed on the outer end face of each lifting rod 3;

the multiple interception frames 5, every interception frame 5 sets up between being located two installation frames 4 of same height and rather than the face rotation connection, the top surface of interception filter plate 2 is provided with and a plurality of interception frame 5 matched with synchronous rotation subassembly 6, the inside of every interception frame 5 is provided with ejection of compact subassembly 7.

As further shown in fig. 1 to 5, it is worth specifically explaining that the synchronous rotating assembly 6 includes a plurality of rotating gears 61, the plurality of rotating gears 61 are in one-to-one correspondence with the plurality of mounting frames 4 and coaxially fixed with the adjacent intercepting frames 5, the inner walls of the plurality of mounting frames 4 positioned on the same side are jointly slid and penetrated with a lifting rack bar 62, and the lifting rack bar 62 is in meshed connection with the adjacent rotating gears 61;

the jacking rod 63, the bottom surface of both sides of the jacking rod 63 is fixed with the top ends of two lifting rack bars 62, the top surface of the interception filter plate 2 is fixed with two hydraulic lifting cylinders 64 which are symmetrically distributed, the output ends of the two hydraulic lifting cylinders 64 are fixed with the top surface of the jacking rod 63, and a guide piece 65 matched with the jacking rod 63 is arranged between the two hydraulic lifting cylinders 64.

As further shown in fig. 1 and 4, it should be noted that, the guide member 65 includes a plurality of fixed guide rods 651 which are arranged in parallel and fixed to the top surface of the interception filter plate 2, each of the fixed guide rods 651 is slidably inserted through the jacking rod 63, and the top ends of the plurality of fixed guide rods 651 are commonly fixed with a connecting rod 652.

Notably, through the fixed guide rod 651 penetrating through the lifting rod 63, thereby improving the stability of the lifting treatment of the lifting rod 63 through the hydraulic lifting cylinder 64, the setting of the connecting rod 652 can improve the stability of the lifting treatment of the interception filter plate 2 through the external lifting device, limit the lifting movement of the lifting rod 63, and in addition, the fixed guide rod 651 and the connecting rod 652 can form the interception treatment higher than the river liquid level.

Further, as shown in fig. 1 and fig. 4, it is worth specifically explaining that the projection surfaces on both sides of the lifting rod 63 are all in a step-like arrangement, and both side surfaces of the lifting rod 63 are respectively contacted with the inner surfaces of the two track bases 1, so that the stability of the interception filter plate 2 during lifting is improved, both side surfaces of the connecting rod 652 are contacted with the inner surfaces of the two track bases 1, and the lifting stability of the interception filter plate 2 is further improved in cooperation with the shape of the lifting rod 63 and the sliding limit of the lifting rod 3 on the track bases 1.

As further shown in fig. 1, 2, 3 and 5, it is worth specifically explaining that the discharging assembly 7 includes a discharging channel 71, the discharging channel 71 is provided on a side wall of the interception frame 5, a discharging rotating shaft 72 rotatably mounted on an inner wall of the interception frame 5 is provided above the discharging channel 71, and a docking slot 73 is provided on an outer end surface of the discharging rotating shaft 72;

the spiral auger 74, the spiral auger 74 sets up in the inside of interception frame 5 and coaxial fixed with the surface of ejection of compact pivot 72.

It should be noted that the docking slot 73 is used for docking with an external driving device, so that the discharging rotating shaft 72 drives the spiral auger 74 to perform spiral rotation.

Further as shown in fig. 1 and 2, be worth specifically explaining, the both sides lateral wall of interception frame 5 is provided with the sand grip that is the laminating and distributes with interception filter plate 2, the setting of sand grip forms the stability that interception frame 5 laminate the installation on interception filter plate 2, interception frame 5 is the slope setting that inclines in the top of spiral auger 74, improve river course impurity and get into interception frame 5 and drop and collect and float the convenience of interception collection, interception frame 5 is located the below of spiral auger 74 and is circular-arc setting, the impurity that is convenient for be located interception frame 5 is better carries out the convenience of spiral ejection of compact through spiral auger 74.

The scheme comprises the following working processes: when the interception filter plate 2 is used for intercepting impurities in a river channel, firstly, the interception filter plate 2 is stably positioned in a track base 1 arranged at the edge of the river channel through a lifting rod 3, so that the impurities in the river channel are intercepted in a closed mode, along with the flow direction of water flow, the impurities in the river channel are blocked to a certain extent through an interception frame 5 positioned above the interception filter plate, so that the impurities in the river channel form layered interception treatment, part of the impurities are positioned between two adjacent interception frames 5, part of the impurities are positioned in the interception frames 5 and the interception filter plate 2, in addition, the interception frames 5 are in a through hole shape, and double interception treatment on the impurities in the river channel is formed at the inner end of the interception frames 5;

when the impurities intercepted in the river channel are required to be intensively treated, the jacking rods 63 are synchronously jacked by the two hydraulic lifting cylinders 64, so that the two lifting rack rods 62 synchronously move upwards in the plurality of mounting frames 4, the rotary gear 61 and the interception frame 5 synchronously rotate to a small extent towards the lower part of the interception filter plate 2 through the meshing transmission action of the lifting rack rods 62 and the rotary gear 61, the interval between the interception frame 5 and the top opening of the interception filter plate 2 is increased, the impurities between the two interception frames 5 can better enter the inside of the interception frame 5, the interception filter plate 2 and the interception frame 5 can be synchronously lifted by the external lifting device and slide in the track base 1 through the lifting rods 3, the impurities between the two interception frames 5 can be further intercepted, the liquid level of the river channel is exposed along with the interception frame 5, the external driving device is driven to rotate by the butting groove 73, the spiral auger 74 is spirally rotated in the bottom of the interception frame 5, the impurities in the interception frame 5 can be discharged from the discharge channel 71, and the efficiency of the impurities in the river channel is greatly improved;

when the interception frame 5 exposes the river course liquid level, through the back drive of hydraulic lift jar 64 for jacking rod 63 and promotion rack bar 62 reset the processing, then interception frame 5 rotatable resets, thereby form and carry out the extrusion processing of certain degree to the impurity that is located in the interception frame 5, through the slope of interception frame 5 inside, thereby improve the convenience that the impurity got into interception frame 5 bottom, then be convenient for follow-up carry out spiral ejection of compact processing to the impurity through spiral auger 74, thereby further improve the treatment effeciency to the impurity.

The working process can be as follows: through the arrangement of the plurality of interception frames 5, the interception filter plates 2 positioned at the interception frames 5 form double interception treatment, and drop-type and floating interception frames 5 are respectively positioned in the bottom interception frame 5 and between the two interception frames 5, so that the collection and interception effects of impurities are improved to a certain extent;

through the arrangement of the synchronous rotating assembly 6, the plurality of interception frames 5 are subjected to synchronous rotating treatment, so that the distance between the tops of the interception frames 5 and the interception filter plates 2 is increased, the convenience of the interception frames 5 for collecting the impurities which float between the two interception frames 5 and fall into the interception frames 5 is improved, the interception filter plates 2 and the interception frames 5 are driven to synchronously lift along with an external lifting device, and the convenience of the interception frames 5 for collecting the impurities which float between the two interception frames 5 and fall into the interception frames 5 is further improved;

reset drive through synchronous rotating assembly 6 to form and extrude the impurity in the interception frame 5, further improve its convenience that gets into interception frame 5 bottom, and drive ejection of compact pivot 72 through external drive arrangement, thereby carry out spiral ejection of compact processing to the impurity in the interception frame 5 through spiral auger 74, further improve the convenience of concentrating the clearance to river course impurity, thereby improve the treatment effeciency to river course impurity greatly.

The hydraulic lift cylinders 64 are commercially available, and the hydraulic lift cylinders 64 are provided with a power source, which is well known in the art, and therefore will not be repeated in the description.

Claims (6)

1. The utility model provides an ecological arresting gear is administered to river course, includes two track bases (1) that are symmetric distribution, two be provided with between track base (1) and intercept filter plate (2), its characterized in that still includes:

the two lifting rods (3) are respectively arranged in the two track bases (1) in a sliding mode and are respectively fixed with side walls of two sides of the interception filter plate (2), and a plurality of mounting frames (4) which are distributed up and down are fixed on the outer end face of each lifting rod (3);

the multi-interception-frame filter plate comprises a plurality of interception frames (5), wherein each interception frame (5) is arranged between two installation frames (4) located at the same height and is rotationally connected with the opposite surface of each installation frame, the top surface of each interception filter plate (2) is provided with a synchronous rotating assembly (6) matched with the plurality of interception frames (5), and a discharging assembly (7) is arranged in each interception frame (5).

2. The river course governance ecological interception device of claim 1, wherein: the synchronous rotation assembly (6) comprises:

the plurality of rotary gears (61), the plurality of rotary gears (61) are in one-to-one correspondence with the plurality of mounting frames (4) and are coaxially fixed with the adjacent interception frames (5), lifting rack rods (62) are jointly and slidably penetrated through the inner walls of the plurality of mounting frames (4) positioned on the same side, and the lifting rack rods (62) are in meshed connection with the adjacent rotary gears (61);

the two sides bottom surface of jacking rod (63) is fixed with the top of two jack-up rack pole (62), the top surface of interception filter plate (2) is fixed with two hydraulic lift jar (64) that are symmetric distribution, two the output of hydraulic lift jar (64) all with the top surface of jacking rod (63) is fixed mutually, two be provided with between hydraulic lift jar (64) with jacking rod (63) matched with guide (65).

3. The river course governance ecological interception device of claim 2, wherein: the guide piece (65) comprises a plurality of fixed guide rods (651) which are distributed in parallel and fixed with the top surface of the interception filter plate (2), each fixed guide rod (651) penetrates through the jacking rod (63) in a sliding mode, and connecting rods (652) are fixed at the top ends of the fixed guide rods (651) together.

4. A river course governance ecological interception device in accordance with claim 3, wherein: the projection surfaces on two sides of the jacking rod (63) are arranged in a step shape, the side surfaces on two sides of the jacking rod (63) are respectively contacted with the inner surfaces of the two track bases (1), and the side surfaces on two sides of the connecting rod (652) are contacted with the inner surfaces of the two track bases (1).

5. The ecological interception device for river management according to claim 4, wherein: the outfeed assembly (7) comprises:

the discharging channel (71) is arranged on one side wall of the interception frame (5), a discharging rotating shaft (72) rotatably arranged on the inner wall of the interception frame (5) is arranged above the discharging channel (71), and a butt joint groove (73) is formed in the outer end surface of the discharging rotating shaft (72);

and the spiral auger (74) is arranged in the interception frame (5) and is coaxially fixed with the outer surface of the discharging rotating shaft (72).

6. The ecological interception device for river management according to claim 5, wherein: the two side walls of the interception frame (5) are provided with convex strips which are in fit distribution with the interception filter plates (2), the interception frame (5) is arranged above the spiral auger (74) and is in inclined slope surface, and the interception frame (5) is arranged below the spiral auger (74) and is in arc-shaped.