CN111851630A - Automatic river channel cleaning and filtering device for ecological engineering - Google Patents

Abstract

The invention discloses an automatic river channel cleaning and filtering device for ecological engineering, which relates to the field of ecological river channel cleaning and comprises a trapezoidal connecting rod, wherein a guide plate is horizontally welded on one side edge of the trapezoidal connecting rod, a discharge groove is horizontally clamped on one side of the trapezoidal connecting rod far away from the guide plate, a bottom supporting plate is vertically and downwards welded on the bottom surface of the trapezoidal connecting rod, a net clamping groove is formed in the bottom surface of the bottom supporting plate, an expansion cross rod is horizontally welded on the top surface of the trapezoidal connecting rod, an overturning groove is horizontally formed in the bottom surface of the trapezoidal connecting rod, a cleaning roller rod is horizontally clamped inside the overturning groove, and a main control box is vertically welded at one end of the trapezoidal connecting. The device is simple in design structure and convenient to operate, the bottom of the riverbed is cleaned more thoroughly and efficiently by adopting sinking type movable cleaning, the movable net collects waste materials, the waste materials are more efficiently treated, and meanwhile, later-period waste material transportation and treatment can be more simple and convenient.

Description

Automatic river channel cleaning and filtering device for ecological engineering

Technical Field

The invention relates to the technical field of ecological river channel cleaning, in particular to an automatic river channel cleaning and filtering device for ecological engineering.

Background

Modern scientific development has led us to recognize that hydraulic engineering in the traditional sense has neglected the needs of the river ecosystem itself to varying degrees in meeting the needs of socio-economic development. And the function degradation of the river ecosystem also can bring damage to the long-term benefits of people. In the aspect of balancing the relationship between water resource development and utilization and ecological and environmental protection, the future hydraulic engineering rationally searches for a reasonable balance point between resource development and ecological protection. From the whole view of river ecological construction, ecological water conservancy projects become one of the main means of river ecological construction together with river environment legislation, water resource comprehensive management, a circular economy mode and traditional pollution control technologies.

When clearing up the inside waste material of river course to present ecological river course, what all adopted is that the artifical mode of salvaging carries out the condition, make and only can clear up the effect to the surface of river course, and the waste material of the bottom surface of riverbed deposits and just can't clear up, make long more and more with deposiing for a long time, let the pollution also can be along with vicious circle and more serious, the cooperation that needs many people is operating when wasting time and energy of clearing up simultaneously, work efficiency greatly reduced has been led to, and can not realize the automation mechanized operation, the work of letting the clearance brings a large amount of work for the department of processing, can not effectually keep the cleanness of river course and influence the sustainable development needs of environment.

Disclosure of Invention

The invention aims to provide an automatic river channel cleaning and filtering device for ecological engineering, which solves the problems that when the waste in the river channel is cleaned in the existing ecological river channel, the situation is carried out in a manual fishing mode, so that the surface of the river channel can be cleaned only, the waste at the bottom of a river bed can not be cleaned only, the waste can be deposited more and more after a long time, the pollution can be more and more serious along with vicious circle, and the cleaning is time-consuming and labor-consuming, and the operation is carried out by cooperation of multiple persons, so that the working efficiency is greatly reduced, the automatic operation cannot be realized, a large amount of workload is brought to a treatment department, and the cleaning of the river channel cannot be effectively kept, so that the requirement of continuous development of the environment is influenced.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic river channel cleaning and filtering device for ecological engineering comprises a trapezoidal connecting rod, a guide plate is horizontally welded on one side edge of the trapezoidal connecting rod, a discharge groove is horizontally clamped on one side edge far away from the guide plate of the trapezoidal connecting rod, a bottom supporting plate is vertically and downwards welded on the bottom surface of the trapezoidal connecting rod, a net clamping groove is formed in the bottom surface of the bottom supporting plate, an expansion cross rod is horizontally welded on the top surface of the trapezoidal connecting rod, a turnover groove is horizontally formed in the bottom surface of the trapezoidal connecting rod, a cleaning roller rod is horizontally clamped inside the turnover groove, a main control box is vertically and downwards welded at one end of the trapezoidal connecting rod, a sealing door plate is hinged to one side edge of the main control box, a material collecting rod is horizontally inserted into one side edge of the main control box, a waste net material roll is wound on the outer side edge of the material collecting rod, a translation rail is horizontally, the top surface of the fixed bottom plate is uniformly provided with connecting holes, an auxiliary box body is vertically welded at one end far away from the main control box by the trapezoid connecting rod, a discharging rod is horizontally inserted at one side edge of the auxiliary box body, a new net roll is wound at the outer side edge of the discharging rod, a middle supporting plate is vertically welded at the inner side edge of the discharging groove, a transmission gear is clamped at the inner side edge of the middle supporting plate, a helical gear is clamped at the inner side edge of the middle supporting plate, sleeve gears are fixedly sleeved at the outer sides of shaft levers at two ends of the cleaning roller rod, rotating grooves are uniformly formed in the top surface and the bottom surface of the penetrating groove of the expanding cross rod, a transmission wheel is arranged at the inner side edge of the rotating groove, one side edge of the sealing door plate is connected with a display mainboard through a bolt, one side edge of the sealing door plate, the bottom surface level of main control box is provided with a sending mainboard, the bottom surface level of main control box and auxiliary box is provided with a processing mainboard, the inner side horizontal bolt of main control box and auxiliary box is connected with a coil stock motor, the inner side bolt of main control box and auxiliary box is connected with a cleaning motor, the output end of cleaning motor is fixedly sleeved with a main gear, the bottom surfaces of main control box and auxiliary box are symmetrically embedded with a driver, the output end of driver is fixedly sleeved with a driving gear, the bottom surface horizontal joint of main control box and auxiliary box is provided with a sleeve shifting groove, the inner side horizontal bolt of auxiliary box is connected with a receiving mainboard, the inner side of clamping groove is symmetrically provided with a clamping wheel groove, the inner side of clamping wheel groove is provided with an extrusion wheel, the two side edges of new coil of material are horizontally woven with a transmission strip, one end of the transmission strip far away from the new coil of material is horizontally welded with, and a moving tooth socket is horizontally arranged on the bottom surface of the translation track.

As a preferred embodiment of the present invention: trapezoidal connecting rod is the perpendicular upwards setting of trapezoidal form open end, and the specification and dimension of trapezoidal connecting rod keeps unanimous with river course cross-section specification and dimension, and the guide plate is the side position that the row's material groove was kept away from to the triangular column horizontal welding at trapezoidal connecting rod, arranges the side center line position at trapezoidal connecting rod that the material groove level was seted up, and the number of end support board is a plurality of, and a plurality of end support board respectively perpendicular even welding is close to a side position of arranging the material groove in the bottom surface of trapezoidal connecting rod.

As a preferred embodiment of the present invention: card wire netting groove level is established in the bottom central point of bottom sprag board and is put, and the bottom of card wire netting groove is perpendicular to run through the bottom surface of bottom sprag board downwards and extend to the outside limit, and the both ends level of expansion horizontal pole is fixed to be set up in a side position that the top surface of trapezoidal connecting rod is close to row material groove, and a side of expansion horizontal pole and the side of trapezoidal connecting rod keep in same horizontal plane and the mutual stack formula parallel arrangement of bottom face.

As a preferred embodiment of the present invention: the utility model discloses a material collecting device, including roll-over groove, the bottom surface of roll-over groove is seted up at trapezoidal connecting rod, the bottom surface that the roll-over groove all runs through trapezoidal connecting rod extends to inside, the inside of roll-over groove keeps leading to with the inside of arranging the material groove and connects the setting, the bottom opening end that the outside limit of cleaning the roller pole runs through the roll-over groove extends to the outside limit, and both ends axostylus axostyle level is pegged graft at the inboard both ends inside position of roll-over groove, a side of sealing door plant is inlayed and is had display screen and set up the key, the one end of receipts material pole runs through a side central point that main control box is close to row material groove.

As a preferred embodiment of the present invention: the orbital number of translation is two, and two translation tracks parallel arrangement each other, and two translation tracks are respectively horizontal peg graft and are cup jointing the inboard side position that moves the groove, and two translation tracks all are the setting of T shape structure, and the PMKD level is fixed to be set up in two orbital bottom surfaces of translation, and the number of connecting hole is a plurality of, and a plurality of connecting hole symmetry respectively is seted up and is close to both sides limit position at PMKD's top surface.

As a preferred embodiment of the present invention: the one end of discharge bar runs through the side central point that supplementary box put and extend to inside, and extend the horizontal welding of inside end in the output position of coil stock motor, the number of well backup pad is two, and two well backup pads symmetry welding respectively are in the inboard corner position of relief groove, the number of drive gear and helical gear is two, and each other respectively one by one the skewed tooth connect the inboard side position that the symmetry set up in well backup pad, and the outside limit of drive gear and helical gear all with cup joint the outside limit joggle of gear and be connected the setting.

As a preferred embodiment of the present invention: cup joint the gear and be connected the setting with the outside limit toothing of master gear in the outside limit that is close to main control box and auxiliary box, the number of rotation groove is a plurality of, and a plurality of rotation grooves parallel arrangement each other is in the inside top surface and the bottom surface position of expansion horizontal pole, the both ends axostylus axostyle level of biography net wheel is pegged graft at the inboard both ends position of rotation groove, and pass the net wheel and arrange each other stack formula one-to-one, pass the net wheel and dock the top surface and the bottom surface position at the transmission strip respectively, show the mainboard and set up through electric connection each other.

As a preferred embodiment of the present invention: the control mainboard, send the mainboard and handle the mainboard and set up through electric connection each other, the number that cleans the motor is two, and two clean the motor and establish through electric connection each other with the control mainboard, two output that clean the motor run through main control box and auxiliary box one side extend to the inboard side in both ends of trapezoidal connecting rod, and extend the end and peg graft and be close to both ends position at the inboard side of blow off groove, the outside limit of master gear with be close to the setting of the outside limit toothing of cup jointing the gear at both ends.

As a preferred embodiment of the present invention: the driver symmetry respectively sets up and cup joints the both sides limit position that moves the groove, and the inboard limit that main control box and auxiliary box body were run through to drive gear's outside limit extends to cup joints the inboard limit position that moves the groove, drive gear's outside limit and the inside of removing the tooth's socket set up with the tooth joint each other, the side butt joint is in the both sides limit position of drive strip between the extrusion wheel, the drive strip is fixed respectively to be set up the both sides limit of rolling up at new web and waste web, and new web and waste web are rolled up and are the lock joint form and set up the side position of keeping away from the guide plate at trapezoidal connecting rod.

Compared with the prior art, the invention has the beneficial effects that:

1. the bottom surface of a riverbed can be more attached by designing the trapezoidal shape, the later cleaning treatment is convenient, the main control box and the auxiliary box body and the trapezoidal connecting rod are integrally placed in the riverway, the sleeving and moving grooves on the bottom surfaces of the main control box and the auxiliary box body are buckled on the outer side edge of the top surface of the translation track, before the trapezoidal connecting rod is placed in the riverway, the new netted net material roll is stretched to enable the transmission strip and the limiting plate block to correspondingly penetrate and be clamped between the transmission wheel and the extrusion wheel, the new net material roll is buckled and arranged on the side edge of the trapezoidal connecting rod in a net bag shape, meanwhile, the penetrating end is sleeved on the outer side edge of the material receiving rod to facilitate the collection effect, the control mainboard and the processing mainboard control to control the driver to rotate according to the setting, and the cleaning motor rotates to enable the main gear to drive the sleeved gear to, thereby make to drive and clean the roller pole and rotate and clean the effect to the riverbed bottom, make trapezoidal connecting rod move in the riverbed bottom in the drive of driver simultaneously, and the guide plate makes the rivers that flow can realize the unblock removal effect that improves trapezoidal connecting rod, cleans and washes the messenger and cleans more direct high-efficient to the bottom of riverbed having adopted the roll formula, and what simultaneously can be thorough cleans the adhesion layer.

2. Make under trapezoidal connecting rod's removal to drive the fixed new web material of lock joint and roll up the waste matter that carries out the river course clearance and collect the effect, then the inside coil stock motor of main control box rotates and drives and receive the material pole and rotate and collect the new web material of roll material and collect the netting material that pollutes, make under the time along with trapezoidal connecting rod's setting and to carry out on time automatic desilting effect, device design simple structure convenient operation, the removal of having adopted the formula of sinking is cleaned, make the more thorough high efficiency of clearance to the riverbed bottom, the waste material is collected to the movable net simultaneously makes the more efficient carry out the processing of waste material, simultaneously the waste material transportation and the processing in later stage can be more simple and convenient.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of an automatic riverway filtering device for ecological engineering;

FIG. 2 is a schematic structural view of a connecting detail of a trapezoidal connecting rod side view section of an automatic river channel cleaning device for ecological engineering;

FIG. 3 is a schematic structural view of a top view section connection detail of a trapezoidal connecting rod of the automatic riverway filtering device for ecological engineering;

FIG. 4 is a schematic structural view of a connecting detail of a side view section of an expansion cross bar of the automatic river channel cleaning device for ecological engineering;

FIG. 5 is a schematic structural diagram of a side view section of a main control box of the automatic riverway filtering device for ecological engineering;

FIG. 6 is a schematic structural view of a side view section connection detail of an auxiliary box of the automatic riverway filtering device for ecological engineering;

FIG. 7 is a schematic structural view of a front section connection detail of a bottom support plate of the automatic river channel cleaning device for ecological engineering;

FIG. 8 is a schematic structural diagram showing the connection details of the section of a new roll of material of the automatic river channel cleaning and filtering device for ecological engineering;

fig. 9 is a schematic structural view of a connection detail of a translation rail front section of the automatic river channel cleaning device for ecological engineering.

In the figure: 1-a trapezoidal connecting rod; 2-a flow guide plate; 3-a discharge groove; 4-a bottom support plate; 5-clamping a mesh groove; 6-expanding the cross bar; 7-overturning the groove; 8-cleaning the roller rod; 9-a main control box; 10-sealing door plate; 11-a receiving rod; 12-a waste web roll; 13-a translation track; 14-a fixed base plate; 15-connecting holes; 16-an auxiliary box body; 17-a discharge bar; 18-new rolls of web material; 19-a middle support plate; 20-a transmission gear; 21-a helical gear; 22-a socket gear; 23-a rotating groove; 24-a web wheel; 25-a display main board; 26-setting a main board; 27-a control main board; 28-sending the mainboard; 29-processing the main board; 30-coil motor; 31-a sweeping motor; 32-main gear; 33-a driver; 34-a drive gear; 35-sleeve and moving the groove; 36-receiving the motherboard; 37-a sheave groove; 38-an extrusion wheel; 39-a drive bar; 40-limit plate; 41-moving the tooth slot.

Detailed Description

Referring to fig. 1-3, in the embodiment of the present invention, an automatic riverway filtering device for ecological engineering comprises a trapezoidal connecting rod 1, a flow guide plate 2 is horizontally welded on one side edge of the trapezoidal connecting rod 1, a discharge groove 3 is horizontally clamped on one side edge of the trapezoidal connecting rod 1 far away from the flow guide plate 2, the trapezoidal connecting rod 1 is vertically and upwardly arranged in a trapezoidal opening, the specification and the size of the trapezoidal connecting rod 1 are consistent with those of the cross section of the riverway, the flow guide plate 2 is horizontally welded on the side edge of the trapezoidal connecting rod 1 far away from the discharge groove 3 in a triangular column shape, the discharge groove 3 is horizontally arranged on the side center line of the trapezoidal connecting rod 1, bottom support plates 4 are vertically and downwardly welded on the bottom surface of the trapezoidal connecting rod 1, the number of the bottom support plates 4 is several, the bottom support plates 4 are respectively vertically and uniformly welded on one side edge of the bottom surface of the trapezoidal, an expansion cross rod 6 is horizontally welded on the top surface of the trapezoid connecting rod 1, a net clamping groove 5 is horizontally arranged at the center position of the bottom end of the bottom supporting plate 4, the bottom end of the net clamping groove 5 vertically penetrates through the bottom surface of the bottom supporting plate 4 downwards and extends to the outer side edge, two ends of the expansion cross rod 6 are horizontally and fixedly arranged at the position of one side edge of the top surface of the trapezoid connecting rod 1 close to the discharge groove 3, one side edge of the expansion cross rod 6 and the side edge of the trapezoid connecting rod 1 are kept at the same horizontal plane and are arranged in parallel with each other in a mutually overlapped mode, an overturning groove 7 is horizontally arranged on the bottom surface of the trapezoid connecting rod 1, a cleaning roller rod 8 is horizontally clamped inside the overturning groove 7, the overturning groove 7 is horizontally arranged at the position of one side edge of the bottom surface of the trapezoid connecting rod 1 far away from the discharge groove 3, the overturning groove 7 all, the outer side edge of a cleaning roller rod 8 penetrates through the bottom opening end of the turnover groove 7 and extends to the outer side edge, shaft levers at two ends are horizontally inserted in the inner two-end inner positions of the turnover groove 7, one end of a trapezoidal connecting rod 1 is vertically welded to a main control box 9, one side edge of the main control box 9 is hinged with a sealing door plate 10, one side edge of the main control box 9 is horizontally inserted with a material receiving rod 11, one side edge of the sealing door plate 10 is inlaid with a display screen and a setting key, one end of the material receiving rod 11 vertically penetrates through the central position of one side edge of the main control box 9 close to the material discharge groove 3 and extends to the inside, the extending inner end is fixedly welded at the output end position of a coil motor 30, the outer side edge of the material receiving rod 11 is wound with a waste coil 12, the bottom surface of the main control box 9 is horizontally provided with a translation rail, the number of the translation rails 13 is two, the two translation rails 13 are arranged in parallel, the two translation rails 13 are respectively and horizontally inserted at the inner side edge position of the sleeve-joint moving groove 35, the two translation rails 13 are all arranged in a T-shaped structure, the fixing base plate 14 is horizontally and fixedly arranged at the bottom surfaces of the two translation rails 13, the number of the connecting holes 15 is several, the connecting holes 15 are respectively and symmetrically arranged at the positions, close to the two side edges, of the top surface of the fixing base plate 14, the trapezoid connecting rod 1 is vertically welded with the auxiliary box body 16 at one end far away from the main control box 9, the discharging rod 17 is horizontally inserted at one side edge of the auxiliary box body 16, the new net material roll 18 is wound at the outer side edge of the discharging rod 17, the middle support plate 19 is vertically welded at the inner side edge of the discharging groove 3, the transmission gear 20 is clamped at the inner side edge of the middle support plate 19, the helical gear 21 is clamped at the inner side, the extending inner end is horizontally welded at the output end position of the coil motor 30, the number of the middle support plates 19 is two, the two middle support plates 19 are respectively and symmetrically welded at the inner side corner position of the discharge chute 3, the number of the transmission gears 20 and the number of the bevel gears 21 are two, the transmission gears 20 and the bevel gears 21 are respectively and symmetrically arranged at the inner side positions of the middle support plates 19 in a one-to-one oblique tooth joint manner, the outer side edges of the transmission gears 20 and the bevel gears 21 are respectively and fixedly connected with the outer side edge of the sleeve gear 22 in a tooth joint manner, the outer side edges of shaft rods at two ends of the cleaning roller rod 8 are fixedly sleeved with the sleeve gear 22, and the sleeve gear 22 is arranged close to the outer side edges of the main control box;

referring to fig. 4-6, in the embodiment of the present invention, a river channel automatic cleaning and filtering device for ecological engineering is provided, wherein the top surface and the bottom surface of the insertion slot of the expansion cross bar 6 are uniformly provided with a plurality of rotating grooves 23, the inner side edge of the rotating grooves 23 is provided with a net transmission wheel 24, one side edge of the sealing door panel 10 is bolted with a display main board 25, the number of the rotating grooves 23 is a plurality, the plurality of rotating grooves 23 are arranged in parallel at the top surface and the bottom surface of the expansion cross bar 6, shaft rods at two ends of the net transmission wheel 24 are horizontally inserted at two ends of the inner side edge of the rotating grooves 23, the net transmission wheels 24 are arranged in a stacked one-to-one correspondence manner, the net transmission wheels 24 are respectively butted at the top surface and the bottom surface of the transmission bar 39, the display main board 25 and the setting main board 26 are electrically connected with each other, one side edge of the sealing door panel 10 is bolted with the setting main, a sending main board 28 is horizontally arranged on the bottom surface of the main control box 9, a processing main board 29 is horizontally arranged on the bottom surfaces of the main control box 9 and the auxiliary box 16, a coil motor 30 is horizontally bolted on the inner side edges of the main control box 9 and the auxiliary box 16, cleaning motors 31 are bolted on the inner side edges of the main control box 9 and the auxiliary box 16, a main gear 32 is fixedly sleeved on the output end of the cleaning motor 31, the control main board 27, the sending main board 28 and the processing main board 29 are electrically connected, the number of the cleaning motors 31 is two, the two cleaning motors 31 and the control main board 27 are electrically connected, the output ends of the two cleaning motors 31 penetrate through one side edges of the main control box 9 and the auxiliary box 16 and extend to the inner side edges of the two ends of the trapezoidal connecting rod 1, the extending ends are inserted in positions close to the two ends on the inner side edges of the discharging groove 3, the outer side edges of the main gear, drivers 33 are symmetrically embedded on the bottom surfaces of the main control box 9 and the auxiliary box 16, a driving gear 34 is fixedly sleeved on the output end of the driver 33, a sleeving moving groove 35 is horizontally clamped on the bottom surfaces of the main control box 9 and the auxiliary box 16, a receiving main board 36 is horizontally bolted on the inner side edge of the auxiliary box 16, the drivers 33 are respectively and symmetrically arranged at the two side edges of the sleeving moving groove 35, the outer side edge of the driving gear 34 penetrates through the inner side edges of the main control box 9 and the auxiliary box 16 and extends to the inner side edge of the sleeving moving groove 35, and the outer side edge of the driving gear 34 and the inner part of the moving tooth groove 41 are in tooth joint connection;

referring to fig. 7-9, in an embodiment of the present invention, a river channel automatic cleaning and filtering device for ecological engineering is provided, wherein a clamping wheel groove 37 is symmetrically formed on an inner side edge of a clamping wheel groove 5, an extrusion wheel 38 is disposed on an inner side edge of the clamping wheel groove 37, transmission bars 39 are horizontally woven on two side edges of a new net material roll 18, the side edges of the extrusion wheels 38 are butted at two side edges of the transmission bars 39, the transmission bars 39 are respectively and fixedly disposed on two side edges of the new net material roll 18 and the waste net material roll 12, the new net material roll 18 and the waste net material roll 12 are buckled at a side edge of a trapezoidal connecting rod 1 far away from a flow guide plate 2, a limiting plate 40 is horizontally welded at one end of the transmission bars 39 far away from the new net material roll 18, and a moving tooth groove 41 is horizontally formed on a.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

horizontally placing the translation track 13 to the two banks of the river channel, fixing the fixed bottom plate 14 and the translation track 13 at the two banks of the river channel by inserting bolts into the connecting holes 15, then integrally placing the main control box 9 and the auxiliary box 16 together with the trapezoidal connecting rod 1 into the river channel, so that the trapezoidal connecting rod 1 sinks to the bottom of the river channel, fastening the sleeving and moving grooves 35 at the bottom surfaces of the main control box 9 and the auxiliary box 16 to the outer side of the top surface of the translation track 13, sleeving the new net material roll 18 to the outer side of the discharging rod 17 before the trapezoidal connecting rod 1 is placed into the river channel, simultaneously stretching the new net material roll 18 to enable the transmission strip 39 and the limiting plate block 40 to correspondingly penetrate and be fastened between the transmission wheel 24 and the extrusion wheel 38, so that the new net material roll 18 is fastened to be arranged at the side edge of the trapezoidal connecting rod 1, meanwhile, the penetrating end is sleeved on the outer side of the material receiving rod 11, a setting key on the side of a sealing door plate 10 on the side of the main control box 9 is set, under the setting of the display main board 25 and the setting main board 26, the control main board 27 and the processing main board 29 control to control the driver 33 to rotate according to the setting, the cleaning motor 31 rotates to drive the main gear 32 to drive the sleeving gear 22 to rotate, the cleaning roller rod 8 is driven to rotate to clean the bottom of the riverbed, the trapezoidal connecting rod 1 is driven by the driver 33 to operate at the bottom of the riverbed, the guide plate 2 enables flowing water flow to achieve the effect of improving the moving effect of the trapezoidal connecting rod 1 without blocking, the new material roll 18 which is fastened and fixed is driven to collect waste in the riverway, and then the material receiving rod 11 is driven to rotate by the rotation of the material rolling motor 30 in the main control box 9 to collect the new material roll 18 The polluted net materials are collected, and automatic dredging on time can be performed along with the setting time of the trapezoidal connecting rod 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (9)

1. The utility model provides an automatic clear device of straining in river course for ecological engineering, includes trapezoidal connecting rod (1), its characterized in that, one side horizontal welding of trapezoidal connecting rod (1) has guide plate (2), one side horizontal joint of guide plate (2) is kept away from in trapezoidal connecting rod (1) has row material groove (3), the bottom surface of trapezoidal connecting rod (1) welds end backup pad (4) perpendicularly downwards, card net groove (5) have been seted up to the bottom surface of end backup pad (4), the top surface horizontal welding of trapezoidal connecting rod (1) has expansion horizontal pole (6), the bottom surface level of trapezoidal connecting rod (1) has been seted up upset groove (7), the inside horizontal joint of upset groove (7) has cleaning roller pole (8), the vertical welding of one end of trapezoidal connecting rod (1) has main control box (9), one side of main control box (9) is connected with hinge seal door plant (10), the automatic material collecting device is characterized in that a material collecting rod (11) is horizontally inserted into one side edge of a main control box (9), a waste net material coil (12) is wound on the outer side edge of the material collecting rod (11), a translation track (13) is horizontally arranged on the bottom surface of the main control box (9), a fixing bottom plate (14) is horizontally welded on the bottom surface of the translation track (13), connecting holes (15) are uniformly formed in the top surface of the fixing bottom plate (14), an auxiliary box body (16) is vertically welded at one end far away from the main control box (9) by a trapezoidal connecting rod (1), a discharging rod (17) is horizontally inserted into one side edge of the auxiliary box body (16), a new net material coil (18) is wound on the outer side edge of the discharging rod (17), a middle supporting plate (19) is vertically welded on the inner side edge of a discharging groove (3), a transmission gear (20) is vertically clamped on the inner side edge of the middle supporting plate (19, the outer sides of shaft levers at two ends of the cleaning roller rod (8) are fixedly sleeved with a sleeve gear (22), the top surface and the bottom surface of an interpenetration groove of the expansion cross rod (6) are uniformly provided with a rotating groove (23), the inner side edge of the rotating groove (23) is provided with a net transmission wheel (24), one side edge of the sealing door plate (10) is in bolted connection with a display mainboard (25), one side edge of the sealing door plate (10) is in bolted connection with a setting mainboard (26), the inner side edge top surfaces of the main control box (9) and the auxiliary box body (16) are in bolted connection with a control mainboard (27), the bottom surface of the main control box (9) is horizontally provided with a sending mainboard (28), the bottom surfaces of the main control box (9) and the auxiliary box body (16) are horizontally provided with a processing mainboard (29), the inner side edge horizontal bolts of the main control box (9), the inner side of the main control box (9) and the auxiliary box body (16) is connected with a cleaning motor (31) through bolts, the output end of the cleaning motor (31) is fixedly sleeved with a main gear (32), the bottom surfaces of the main control box (9) and the auxiliary box body (16) are symmetrically inlaid with a driver (33), the output end of the driver (33) is fixedly sleeved with a driving gear (34), the bottom surfaces of the main control box (9) and the auxiliary box body (16) are horizontally clamped with a sleeve moving groove (35), the inner side of the auxiliary box body (16) is horizontally connected with a receiving main board (36) through bolts, the inner side of the clamping groove (5) is symmetrically provided with a clamping wheel groove (37), the inner side of the clamping wheel groove (37) is provided with an extrusion wheel (38), the two side material rolls of the new material roll (18) are horizontally woven with a transmission strip (39), and the transmission strip (39) is horizontally welded with a limiting plate block (40) at one, the bottom surface of the translation track (13) is horizontally provided with a moving tooth socket (41).

2. The automatic river channel cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the trapezoid connecting rod (1) is in a trapezoid shape, the opening end of the trapezoid connecting rod is vertically arranged upwards, the specification size of the trapezoid connecting rod (1) is consistent with the specification size of the cross section of the river channel, the guide plate (2) is in a triangular column shape and is horizontally welded at the side edge position of the trapezoid connecting rod (1) far away from the discharge groove (3), the discharge groove (3) is horizontally arranged at the side edge center line position of the trapezoid connecting rod (1), the number of the bottom support plates (4) is several, and the bottom support plates (4) are respectively and vertically and uniformly welded at one side edge position of the bottom surface of the trapezoid connecting rod (1) close to the discharge groove (3).

3. The automatic river channel cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the net clamping groove (5) is horizontally formed in the center of the bottom end of the bottom support plate (4), the bottom end of the net clamping groove (5) vertically penetrates through the bottom surface of the bottom support plate (4) downwards and extends to the outer side edge, two ends of the expansion cross rod (6) are horizontally and fixedly arranged on one side edge of the top surface of the trapezoidal connecting rod (1) close to the discharge groove (3), and one side edge of the expansion cross rod (6) and the side edge of the trapezoidal connecting rod (1) are kept in the same horizontal plane and are arranged in parallel with the bottom end surface in a mutually overlapped mode.

4. The automatic riverway filtering and cleaning device for ecological engineering according to claim 1, the turnover groove (7) is horizontally arranged at one side edge of the bottom surface of the trapezoidal connecting rod (1) far away from the discharge groove (3), the turnover groove (7) penetrates through the bottom surface of the trapezoidal connecting rod (1) and extends to the inside, the inside of the turnover groove (7) is communicated with the inside of the discharge groove (3), the outer side edge of the cleaning roller rod (8) penetrates through the bottom opening end of the turnover groove (7) and extends to the outer side edge, and both ends axostylus axostyle level is pegged graft at the inboard both ends inside position of upset groove (7), and one side of sealing door board (10) is inlayed and is had the display screen and set up the key, and one end of receipts material pole (11) runs through main control box (9) perpendicularly and is close to a side central point of arranging material groove (3) and put and extend to inside, and extend the fixed welding in inside output end position of coil stock motor (30).

5. The automatic riverway cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the number of the translation rails (13) is two, the two translation rails (13) are arranged in parallel, the two translation rails (13) are respectively and horizontally inserted into the inner side positions of the sleeving and moving grooves (35), the two translation rails (13) are arranged in a T-shaped structure, the fixing base plate (14) is horizontally and fixedly arranged on the bottom surfaces of the two translation rails (13), the number of the connecting holes (15) is several, and the connecting holes (15) are respectively and symmetrically arranged on the top surface of the fixing base plate (14) close to the two side positions.

6. The automatic river channel cleaning and filtering device for the ecological engineering is characterized in that one end of the discharging rod (17) penetrates through the center of the side edge of the auxiliary box body (16) and extends to the inside, the extending inner end of the discharging rod is horizontally welded at the output end of the coil material motor (30), the number of the middle support plates (19) is two, the two middle support plates (19) are respectively and symmetrically welded at the inner side corner position of the discharging groove (3), the number of the transmission gears (20) and the number of the bevel gears (21) are two, the transmission gears are respectively and symmetrically arranged at the inner side edge position of the middle support plate (19) in a one-to-one inclined tooth joint mode, and the outer side edges of the transmission gears (20) and the bevel gears (21) are respectively and in tooth joint connection with the outer side edge of the sleeving gears (22).

7. The automatic riverway cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the sleeving gears (22) are arranged close to the outer side edges of the main control box (9) and the auxiliary box body (16) and in tooth joint with the outer side edges of the main gear (32), the number of the rotating grooves (23) is several, the rotating grooves (23) are arranged in parallel at the top surface and the bottom surface of the expansion cross rod (6), shaft rods at two ends of the transmission wheel (24) are horizontally inserted at two ends of the inner side edge of the rotating groove (23), the transmission wheels (24) are arranged in a superposition type one-to-one correspondence manner, the transmission wheels (24) are respectively connected with the top surface and the bottom surface of the transmission bar (39) in a butt joint manner, and the display main board (25) and the setting main board (26) are electrically connected with each other.

8. The automatic riverway cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the control main board (27), the sending main board (28) and the processing main board (29) are electrically connected, the number of the cleaning motors (31) is two, the two cleaning motors (31) and the control main board (27) are electrically connected, the output ends of the two cleaning motors (31) penetrate through the main control box (9) and one side of the auxiliary box body (16) and extend to the inner sides of the two ends of the trapezoidal connecting rod (1), the extending ends are inserted into the inner sides of the discharging groove (3) and are close to the two ends, and the outer side of the main gear (32) is in tooth joint connection with the outer sides of the sleeve gears (22) close to the two ends.

9. The automatic riverway cleaning and filtering device for the ecological engineering as claimed in claim 1, wherein the drivers (33) are symmetrically arranged at two side positions of the sleeving and moving groove (35), the outer side of the driving gear (34) penetrates through the inner side of the main control box (9) and the auxiliary box body (16) and extends to the inner side position of the sleeving and moving groove (35), the outer side of the driving gear (34) and the inside of the moving tooth groove (41) are in toothed connection, the side between the extrusion wheels (38) is in butt joint with two side positions of the transmission bar (39), the transmission bar (39) is fixedly arranged at two sides of the new net material roll (18) and the waste net material roll (12), and the new net material roll (18) and the waste net material roll (12) are arranged at one side position of the trapezoidal connecting rod (1) far away from the guide plate (2) in a buckling manner.

Images