CN211368607U - Floater interception processing apparatus suitable for brook river course - Google Patents

Abstract

The utility model discloses a floater interception processing apparatus suitable for brook river course, including the flotation pontoon that a string set up along brook river course cross section at least, flotation pontoon both ends cluster line is fixed to brook river course both sides, and its characterized in that still includes a rubbish holding body and a rubbish mesh screen, the rubbish holding body sets up in the river course that the flotation pontoon upstream side is close to one end river bank, and rubbish holding body face is opened to one side in the river course has the rubbish entry, the vertical setting of rubbish mesh screen is arranged in flotation pontoon upstream side along the rivers direction, and the rubbish mesh screen just sets up in the river course that is close to the opposite bank to rubbish entry, still includes the translation mechanism that links to each other with the rubbish mesh screen, and translation mechanism is used for driving the rubbish mesh screen along brook river course transverse direction back and forth movement. The utility model discloses can conveniently realize the automatic interception clearance to the river course floater, and have simple structure, the operation is reliable, and the clearance is convenient, can improve advantages such as cleaning efficiency.

Description

Floater interception processing apparatus suitable for brook river course

Technical Field

The utility model belongs to river pollution refuse treatment technique, concretely relates to floater interception processing apparatus suitable for brook river course.

Background

In recent years, with the progress of social science and technology and the improvement of the living standard of people's materials, the situation that water bodies such as rivers, oceans and the like are polluted by domestic garbage becomes more serious. The phenomena that the river channel is blocked by floating garbage, marine organisms die due to garbage swallowing, and the like are frequently reported. The treatment of the environmental pollution of the water body is not slow.

At present, the problem of river course floater governing is solved, set up the flotation pontoon in the river course and intercept the floater usually, then adopt the manual work to take the float cleaning boat to salvage the mode of clearing up the floater under the interception, realize the governing to the river course floater. The cleaning mode has the defects of high labor cost, low labor efficiency and the like.

Cn201910493616.x discloses a river course floater intercepting apparatus, which uses flowing river water as a power source, the intercepting belt rotates to enable a transverse plate on the intercepting belt to convey floaters on the river course to a garbage recycling device at the bank, and when a ship is sailed, a buoyancy device can drive the intercepting belt to descend to enable the ship to smoothly pass through, so that the river course floater can be automatically intercepted and cleaned, and the ship is allowed to sail. But simultaneously the patent is more suitable for large-scale river course floater clearance to use. For some small stream riverways which do not need to consider navigation, the structure is too complex and high in cost, and the small stream riverway is not suitable for use.

At present, with more serious environmental pollution, a plurality of small stream riverways are also polluted by artificial floating garbage, and particularly, the problem of floating pollution is more serious in some stream riverways flowing out of cities. In order to better solve the pollution control problem of small streams, in recent years, China starts to implement a river length system in each province and city region, and the management and protection responsibility of each stream is really called to the government responsible persons in all levels of parties. So the understanding and the demand of people on the stream pollution control are improved at present. It is necessary to develop a device which has simple structure and reliable operation and can be well suitable for cleaning and controlling the floaters in the stream river channel.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a floater interception processing apparatus suitable for brook river course, make it conveniently realize the automatic clearance to the river course floater, and possess simple structure, the operation is reliable, and it is convenient to clear up, can improve characteristics such as cleaning efficiency.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a floater interception processing apparatus suitable for brook river course, includes the flotation pontoon that a string set up along brook river course cross section at least, and the flotation pontoon both ends cluster line is fixed to brook river course both sides, its characterized in that still includes a rubbish holding body and a rubbish mesh screen, the rubbish holding body sets up in the river course that the flotation pontoon upstream side is close to one end river bank, and rubbish holding body lower part does not under the surface of water of river course, and upper portion exposes the surface of water, and rubbish holding body face is opened to one side in the river course has the rubbish entry, the vertical setting of rubbish mesh screen is arranged in flotation pontoon upstream side along the rivers direction, and the rubbish mesh screen just sets up in the river course that is close to the opposite bank to rubbish entry, still includes the translation mechanism that links to each other with the rubbish mesh screen, and translation mechanism is used for driving.

Therefore, the device can be installed on stream riverways which do not need to be navigated (the stream riverways are not particularly called rural streams, and also comprise open drainage channels in cities, and theoretically, water flow channels which do not need to be navigated but flow water are all covered). When garbage drifts down from the upstream, the garbage is firstly blocked at the upstream side of the floating cylinder by the floating cylinder, then the translation mechanism is started, the translation mechanism drives the garbage mesh screen to move along the transverse direction of the river channel, and the garbage gathered at the upstream side of the floating cylinder is driven to the garbage inlet and pushed into the garbage accommodating body. Then the translation mechanism drives the garbage mesh screen to reset and wait for the next start. Therefore, the garbage can be gathered in the garbage containing body, and the garbage can be conveniently taken out after being gathered for multiple times through one-time cleaning. Therefore, the device can automatically collect and clean garbage in the stream riverway, is simple in structure and convenient and fast to clean, and is particularly suitable for being applied to stream riverway floating garbage cleaning management and control under the Chinese river growth system.

Preferably, a plurality of baffle columns extending downwards are arranged on the lower surface of each buoy at intervals, and the depth of each baffle column is 1-5 times of the diameter of each buoy.

Therefore, garbage floating upstream can be better blocked, and meanwhile, no obstacle is caused to fish swimming.

Preferably, the garbage accommodating body is a garbage net frame with a rectangular structure.

In this way, disturbances to the flow of the water stream are avoided as much as possible. When the garbage screen frame is implemented, the frame hole size of the garbage screen frame is set according to the side length size of 0.5-5cm, and the preferable size is 2 cm. The device can reduce the interference to water flow as much as possible and avoid the garbage from sliding out of the frame hole. The size of the exposed hole of the garbage mesh screen can be consistent with the size of the frame hole of the garbage mesh frame.

Preferably, a frame door is arranged in the frame door inlet, the frame door is arranged in the garbage net frame, a frame door reset spring is arranged between the frame door and the garbage net frame, and the frame door reset spring acts on the frame door to enable the frame door to be in a closed state when the frame door is free from external force.

Like this, the back in rubbish mesh screen pushes away rubbish screen frame, and the frame door can be closed in order to prevent better that rubbish from drifting out once more under the frame door reset spring effect.

Preferably, the frame door of the garbage net frame is of a double-door structure with the middle part opened inwards, and the lower part of the frame door is not under the water surface and a section of net frame body is reserved below the frame door.

Like this, can make things convenient for the rubbish mesh screen to drive floating rubbish more and push away the frame door, push into rubbish and save rubbish screen frame in, and can avoid the door frame to take more rubbish out of rubbish screen frame at the in-process that resets better.

Furthermore, a net blocking frame is obliquely arranged on the upstream side of the door frame where the frame door is located and extends upwards in the river channel, and the lower part of the net blocking frame is submerged under the water surface.

Like this, the fender net frame that the slant set up can help the rubbish mesh screen better and catch up rubbish to rubbish net frame when, assembles to pile up toward frame door department better, makes it can be better by being caught up into in the rubbish net frame. When the water flow blocking net rack is implemented, the water flow blocking net rack is composed of a rectangular outer frame and a blocking net in the outer frame, so that the water flow blocking net rack does not influence the water flow.

Furthermore, a guide rail is vertically arranged on one side, close to a river bank, of the garbage net frame, the lower end of the guide rail is fixed on a river bed, a sliding block is fixedly arranged on the garbage net frame, the sliding block is clamped and matched in the guide rail in a vertically sliding mode, and the upper portion of the guide rail is arranged in an open mode so that the sliding block can slide upwards.

Therefore, when the garbage gathered in the garbage net frame needs to be cleaned, the garbage net frame only needs to be lifted upwards, and the gathered garbage can be cleaned at one time conveniently and quickly.

Preferably, the translation mechanism comprises a transmission belt of an annular structure, the transmission belt is horizontally arranged above the garbage mesh screen, two ends of the transmission belt are sleeved on a transmission disc, the transmission disc is rotatably arranged on river banks at two ends of the upstream side of the floating barrel, a driving disc is arranged in the transmission disc, the driving disc is in transmission connection with the control motor through a transmission mechanism, and the upper end of the garbage mesh screen is fixed on the transmission belt.

Like this, can rely on control electric control drive belt to rotate convenient and fast ground, and then drive rubbish mesh screen horizontal movement in order to catch up with moving rubbish.

Preferably, the transmission belt is a belt, and the transmission disc is a belt disc.

Therefore, the device has the characteristics of simple structure and low cost. In specific implementation, the driving belt can also adopt a chain, and the driving disc is replaced by a chain wheel.

Preferably, the two transmission belts are arranged in parallel, the transmission sides of the two transmission belts are arranged above the garbage screen at intervals in the front-back direction of the water flow, and two sides of the upper end of the garbage screen are respectively and fixedly connected to the transmission side of one belt.

The rubbish mesh screen is connected fixedly more reliable and more stable like this.

Further, the driving discs corresponding to the two driving belts are respectively connected with a control motor.

Like this, can be through the differential control to two control motors for the rubbish mesh screen is at the in-process that moves the reset toward keeping away from rubbish net frame direction, and control rubbish mesh screen is the tilt state, and then makes its rubbish that deviates from rubbish net frame one side can slide and avoid being pushed to the opposite side river bank at rubbish mesh screen reset in-process.

Further, rubbish mesh screen upper end both sides respectively through three connecting rods in the front middle and back upwards with the drive belt fixed connection that corresponds, wherein the connecting rod slope that is located the fore-and-aft direction sets up, the vertical setting of connecting rod that is located the middle part.

Like this for the vertical fixed of rubbish mesh screen is more reliable and stable.

Further, the camera is provided with just to rubbish net frame one side slant in the upper end of the rubbish mesh screen, and the adjacent river of flotation pontoon upstream side is located the camera and makes a video recording within range, and the camera passes through communication module and remote control ware and links to each other, and remote control ware and control motor link to each other.

Like this, can be through the rubbish information of camera real time monitoring flotation pontoon upstream side interception, treat that rubbish intercepts rethread remote control ware start control motor after the certain degree, control rubbish mesh screen motion comes and goes once to catch up rubbish into the rubbish screen frame in to can monitor and judge rubbish deposit quantity in the rubbish screen frame when great, can in time arrange the workman to remove the clearance. Like this, can realize automatic clearance control better, save manpower and materials and financial resources. The remote controller can be implemented by a software program built in the mobile phone, and the specific control mode is the prior art and is not described in detail herein.

To sum up, the utility model discloses can conveniently realize the clearance of intercepting the automation of river course floater, and have simple structure, the operation is reliable, and it is convenient to clear up, can improve characteristics such as cleaning efficiency. The device is particularly suitable for intercepting and treating floaters in small stream rivers.

Drawings

Fig. 1 is a schematic structural view in a front view direction according to an embodiment of the present invention, in which a float structure is omitted.

Fig. 2 is a top view of fig. 1.

Fig. 3 is an enlarged side view of the individual garbage frame of fig. 1.

Fig. 4 is a schematic structural view of a section of the buoy omitted from fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment: as shown in fig. 1 to 4, a floater intercepting and processing device suitable for a stream river channel comprises at least one string of buoys 1 arranged along the cross section of the stream river channel, string lines at two ends of each buoy 1 are fixed to two banks of the stream river channel, the device further comprises a garbage accommodating body and a garbage mesh screen 2, the garbage accommodating body is arranged in the river channel close to one end river bank on the upstream side of each buoy 1, the lower portion of the garbage accommodating body is not under the water surface of the river channel, the upper portion of the garbage accommodating body is exposed out of the water surface, a garbage inlet is formed in one side, facing the river channel, of the garbage accommodating body, the garbage mesh screen 2 is vertically arranged and is arranged on the upstream side of each buoy along the water flow direction, the garbage mesh screen 2 is arranged in the river channel close to the bank just opposite to the garbage inlet, and the device further comprises a translation mechanism connected with the garbage mesh.

Therefore, the device can be installed on stream riverways which do not need to be navigated (the stream riverways are not particularly called rural streams, and also comprise open drainage channels in cities, and theoretically, water flow channels which do not need to be navigated but flow water are all covered). When garbage drifts down from the upstream, the garbage is firstly blocked at the upstream side of the floating cylinder by the floating cylinder, then the translation mechanism is started, the translation mechanism drives the garbage mesh screen to move along the transverse direction of the river channel, and the garbage gathered at the upstream side of the floating cylinder is driven to the garbage inlet and pushed into the garbage accommodating body. Then the translation mechanism drives the garbage mesh screen to reset and wait for the next start. Therefore, the garbage can be gathered in the garbage containing body, and the garbage can be conveniently taken out after being gathered for multiple times through one-time cleaning. Therefore, the device can automatically collect and clean garbage in the stream riverway, is simple in structure and convenient and fast to clean, and is particularly suitable for being applied to stream riverway floating garbage cleaning management and control under the Chinese river growth system.

Wherein, a plurality of baffle columns 3 extending downwards are arranged on the lower surface of each buoy 1 at intervals, and the depth of each baffle column 3 is 1-5 times of the diameter of the buoy.

Therefore, garbage floating upstream can be better blocked, and meanwhile, no obstacle is caused to fish swimming.

The garbage containing body is a garbage net frame 4 with a rectangular structure.

In this way, disturbances to the flow of the water stream are avoided as much as possible. When the garbage screen frame is implemented, the frame hole size of the garbage screen frame is set according to the side length size of 0.5-5cm, and the preferable size is 2 cm. The device can reduce the interference to water flow as much as possible and avoid the garbage from sliding out of the frame hole. The size of the exposed hole of the garbage mesh screen can be consistent with the size of the frame hole of the garbage mesh frame.

Wherein, be provided with frame door 5 in the frame door entry, frame door 5 is opened the setting toward rubbish screen frame 4 is interior, is provided with frame door reset spring (not shown in the figure) between frame door 5 and the rubbish screen frame 4, and frame door reset spring acts on frame door 5 and is the closed condition when not receiving external force.

Like this, the back in rubbish mesh screen pushes away rubbish screen frame, and the frame door can be closed in order to prevent better that rubbish from drifting out once more under the frame door reset spring effect.

The frame door 5 of the garbage net frame is of a double-door structure with the middle part opened inwards, and the lower part of the frame door is not under the water surface and a section of net frame body is reserved below the frame door.

Like this, can make things convenient for the rubbish mesh screen to drive floating rubbish more and push away the frame door, push into rubbish and save rubbish screen frame in, and can avoid the door frame to take more rubbish out of rubbish screen frame at the in-process that resets better.

Wherein, the upstream side of the door frame of frame door 5 place is provided with a fender net frame 6 towards the interior upper portion slant extension in the river course, keeps off 6 lower parts of net frame and does not sink in the surface of water.

Like this, the fender net frame that the slant set up can help the rubbish mesh screen better and catch up rubbish to rubbish net frame when, assembles to pile up toward frame door department better, makes it can be better by being caught up into in the rubbish net frame. When the water flow blocking net rack is implemented, the water flow blocking net rack is composed of a rectangular outer frame and a blocking net in the outer frame, so that the water flow blocking net rack does not influence the water flow.

The garbage net frame 4 is vertically provided with a guide rail 7 close to one side of a river bank, the lower end of the guide rail 7 is fixed on a river bed, a sliding block is fixedly arranged on the garbage net frame 4, the sliding block can be clamped and matched in the guide rail 7 in a vertically sliding mode, and the upper portion of the guide rail is arranged in an open mode so that the sliding block can slide upwards.

Therefore, when the garbage gathered in the garbage net frame needs to be cleaned, the garbage net frame only needs to be lifted upwards, and the gathered garbage can be cleaned at one time conveniently and quickly.

The translation mechanism comprises a transmission belt 8 with an annular structure, the transmission belt 8 is horizontally arranged above the garbage mesh screen, two ends of the transmission belt are sleeved on a transmission disc 9, the transmission disc 9 is rotatably arranged on two end banks on the upstream side of the buoy, a driving disc is arranged in the transmission disc, the driving disc is in transmission connection with a control motor (not shown in the figure) through a transmission mechanism, and the upper end of the garbage mesh screen 2 is fixed on the transmission belt 8.

Like this, can rely on control electric control drive belt to rotate convenient and fast ground, and then drive rubbish mesh screen horizontal movement in order to catch up with moving rubbish.

Wherein, the transmission belt 8 is a belt, and the transmission disc 9 is a belt disc.

Therefore, the device has the characteristics of simple structure and low cost. In specific implementation, the driving belt can also adopt a chain, and the driving disc is replaced by a chain wheel.

Wherein, drive belt 8 includes two that set up side by side, and the interval parallel arrangement is in rubbish screen cloth top around the drive side of two drive belts is following the rivers direction, and rubbish screen cloth upper end both sides are fixed connection on the drive side of a belt respectively.

The rubbish mesh screen is connected fixedly more reliable and more stable like this.

Wherein, the driving discs corresponding to the two driving belts 8 are respectively connected with a control motor.

Like this, can be through the differential control to two control motors for the rubbish mesh screen is at the in-process that moves the reset toward keeping away from rubbish net frame direction, and control rubbish mesh screen is the tilt state, and then makes its rubbish that deviates from rubbish net frame one side can slide and avoid being pushed to the opposite side river bank at rubbish mesh screen reset in-process.

Wherein, rubbish mesh screen 2 upper end both sides respectively through preceding three connecting rods 10 after in with upwards with the drive belt fixed connection that corresponds, wherein lie in the inclined setting of connecting rod of fore-and-aft direction, lie in the vertical setting of connecting rod at middle part.

Like this for the vertical fixed of rubbish mesh screen is more reliable and stable.

Wherein, 2 upper ends of rubbish mesh screen are just being provided with camera 11 in the slant downwards of rubbish screen frame one side, and the adjacent river of flotation pontoon upstream side is located camera within range, and camera 11 passes through communication module and remote control ware and links to each other, and remote control ware and control motor link to each other.

Like this, can be through the rubbish information of camera real time monitoring flotation pontoon upstream side interception, treat that rubbish intercepts rethread remote control ware start control motor after the certain degree, control rubbish mesh screen motion comes and goes once to catch up rubbish into the rubbish screen frame in to can monitor and judge rubbish deposit quantity in the rubbish screen frame when great, can in time arrange the workman to remove the clearance. Like this, can realize automatic clearance control better, save manpower and materials and financial resources. The remote controller can be implemented by a software program built in the mobile phone, and the specific control mode is the prior art and is not described in detail herein.

Claims (10)

1. The utility model provides a floater interception processing apparatus suitable for brook river course, includes the flotation pontoon that a string set up along brook river course cross section at least, and the flotation pontoon both ends cluster line is fixed to brook river course both sides, its characterized in that still includes a rubbish holding body and a rubbish mesh screen, the rubbish holding body sets up in the river course that the flotation pontoon upstream side is close to one end river bank, and rubbish holding body lower part does not under the surface of water of river course, and upper portion exposes the surface of water, and rubbish holding body face is opened to one side in the river course has the rubbish entry, the vertical setting of rubbish mesh screen is arranged in flotation pontoon upstream side along the rivers direction, and the rubbish mesh screen just sets up in the river course that is close to the opposite bank to rubbish entry, still includes the translation mechanism that links to each other with the rubbish mesh screen, and translation mechanism is used for driving.

2. The apparatus as claimed in claim 1, wherein a plurality of downwardly extending retaining columns are spaced from each other on the lower surface of each of the pontoons, and the depth of each of the retaining columns is 1 to 5 times the diameter of the pontoon.

3. The device for intercepting and treating the floating objects in the stream river according to claim 1, wherein the garbage container is a garbage net frame with a rectangular structure; the frame hole size of the garbage net frame is set according to the side length size of 0.5-5 cm.

4. The apparatus for intercepting and disposing of floating objects in a stream river as claimed in claim 3, wherein a door is provided in the entrance of the door, the door is disposed in the garbage net frame, and a door return spring is provided between the door and the garbage net frame, the door return spring acting on the door to keep the door closed when not subjected to an external force.

5. The device for intercepting and processing the flotage in stream river according to claim 4, wherein the frame door of the garbage net frame is a double door structure with the middle part opened inwards, the lower part of the frame door is not under the water surface, and a section of net frame body is left under the frame door.

6. The apparatus for intercepting and processing floating objects in a stream river as claimed in claim 4, wherein a net blocking frame is provided at the upstream side of the door frame of the frame door extending obliquely upward in the river, and the lower portion of the net blocking frame is submerged under the water.

7. The device for intercepting and processing the floating objects in the stream river as claimed in claim 3, wherein a guide rail is vertically arranged on one side of the garbage net frame close to the river bank, the lower end of the guide rail is fixed on the river bed, a sliding block is fixedly arranged on the garbage net frame, the sliding block is vertically and slidably clamped and matched in the guide rail, and the upper part of the guide rail is in an open arrangement so that the sliding block can slide upwards.

8. The device for intercepting and processing the flotage in stream river as claimed in claim 3, wherein the translation mechanism comprises a transmission belt with an annular structure, the transmission belt is horizontally arranged above the garbage screen and is sleeved at two ends on a transmission disc, the transmission disc is rotatably arranged on two end river banks at the upstream side of the buoy, a driving disc is arranged in the transmission disc, the driving disc is in transmission connection with the control motor through a transmission mechanism, and the upper end of the garbage screen is fixed on the transmission belt.

9. The device for intercepting and processing the flotage in stream river according to claim 8, wherein the two belts are arranged in parallel, the transmission sides of the two belts are arranged above the garbage screen in parallel at intervals in front and back along the water flow direction, and both sides of the upper end of the garbage screen are respectively and fixedly connected to the transmission side of one belt; and the driving discs corresponding to the two driving belts are respectively connected with a control motor.

10. The device for intercepting and processing the flotage in a stream river as claimed in claim 3, wherein a camera is arranged obliquely downward on the side of the upper end of the garbage screen opposite to the garbage screen frame, the river surface adjacent to the upstream side of the buoy is located in the camera shooting range of the camera, the camera is connected with a remote controller through a communication module, and the remote controller is connected with the control motor.

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